# DEICO > Advanced Test & Measurement Solutions --- ## Pages - [Portable Test Sets](https://deico.com.tr/solutions/automated-test-measurements/portable-test-sets/): Your Content Goes Here From electrical systems to communication networks, our portable test sets deliver precision diagnostics and troubleshooting power,... - [Our Policies](https://deico.com.tr/our-policies/): Your Content Goes HerePrivacy PolicyCookie PolicyInformation Security Management System Policy - [Information Security Management System Policy](https://deico.com.tr/information-security-management-system-policy/): Information Security Management System PolicyAt our organization, our commitment to core values is built upon the principles of "treating information... - [Cookie Policy](https://deico.com.tr/cookie-policy/): Cookie PolicyUser AgreementAs DEICO, we respect the personal data of everyone who visits our website and communicates with us electronically,... - [Request a Quote](https://deico.com.tr/request-quote/) - [Mechanical Manufacturing](https://deico.com.tr/solutions/manufacturing-services/mechanical-manufacturing/): Your Content Goes HereWe provide competitive mechanical manufacturing services supported by advanced bench setups and production infrastructure investments. Equipments DMG... - [Electromechanical Assembly](https://deico.com.tr/solutions/manufacturing-services/electromechanical-assembly/): Your Content Goes HereWith 10+ years of experience, we deliver end-to-end solutions for the design, development, and production of electromechanical... - [PCB Assembly](https://deico.com.tr/solutions/manufacturing-services/pcb-assembly/): Your Content Goes HereWe provide board assembly services for high-density electronic designs intended for harsh environments, supported by advanced manufacturing... - [Test Program Sets](https://deico.com.tr/solutions/automated-test-measurements/test-program-sets/): Your Content Goes Here Test Program Sets (TPS) are integrated hardware and software packages used to validate electronic and electromechanical... - [Automated Test Equipments](https://deico.com.tr/solutions/automated-test-measurements/automated-test-equipments/): Your Content Goes Here Automated Test Systems (ATE) are designed for efficient and repeatable testing of electronic and mechanical components... - [System Integration Laboratories](https://deico.com.tr/solutions/real-time-hil-test-systems/system-integration-laboratories/): Your Content Goes Here System Integration Laboratories (SIL) are controlled environments used to validate the interaction of hardware and software... - [Battery Management HIL Systems](https://deico.com.tr/solutions/real-time-hil-test-systems/battery-management-hil-systems/): Your Content Goes Here Battery Management HIL Systems are specialized Hardware-in-the-Loop platforms used to ensure the performance and reliability of... - [xCU HIL Systems](https://deico.com.tr/solutions/real-time-hil-test-systems/xcu-hil-systems/): Your Content Goes HerexCU HIL Systems are advanced Hardware-in-the-Loop platforms designed to test and validate control units (xCUs) under real-time... - [Blog](https://deico.com.tr/blog/): BlogStay Updated with DEICOLatest NewsNothing FoundNothing FoundEngineering & TechnologyNothing FoundField Stories & Case StudiesNothing FoundNothing FoundEvents & ExhibitionsNothing FoundInside DEICONothing... - [Fill the Form, Request an Offer](https://deico.com.tr/fill-the-form-request-an-offer/): Fill the Form, Request an Offer You've selected the following items. Your Cart Total:Your Content Goes Here - [Dynamic Test Systems](https://deico.com.tr/solutions/dynamic-test-systems/): We specialize in the development of dynamic test systems that evaluate the integrated performance of complex electrical and mechanical subsystems.... - [Manufacturing Services](https://deico.com.tr/solutions/manufacturing-services/): PCB Assembly We provide board assembly services for high-density electronic designs intended for harsh environments, supported by advanced manufacturing infrastructure.... - [Automated Test & Measurement Systems](https://deico.com.tr/solutions/automated-test-measurements/): We design and manufacture automated test and measurement systems for various industries, primarily defense and aerospace. Our Automated Test Equipment... - [Real Time & HIL Test Systems](https://deico.com.tr/solutions/real-time-hil-test-systems/): Rapid Prototyping and ValidationTest and refine designs early in the development process. System-Level TestingValidate the interaction of software and hardware... - [Wishlist](https://deico.com.tr/wishlist/) - [Contact](https://deico.com.tr/contact/): Contact UsWe’re Ready to Hear From YouDEICO Head Office Serhat Mahallesi, Teknopark Ankara F Blok, Z-12, Yenimahalle, Ankara, Türkiye +90... - [Career](https://deico.com.tr/career/): Contact Us Join the Future of Engineering Excellence Career at DEICOOpen PositionsBalanced Work & LifeEnjoy a healthy work-life balance through... - [Support](https://deico.com.tr/support/): About Us Access technical help, product guides, and service resources. Would you like more help? Contact Our SupportSend an E-mailCall... - [Company](https://deico.com.tr/company/): About UsWe are a technology-driven company specialized in testing and measurement solutions, dedicated to innovation, and global excellence. Who Are... - [Solutions](https://deico.com.tr/solutions/): Your Content Goes HereWe provide scalable engineering solutions for real-time testing, system validation, and automated measurement. In-house engineeringFuture-proof integrationField-tested performance... - [Products](https://deico.com.tr/products/): Your Content Goes HereWe provide the foundational hardware and software for creating advanced, reliable, and scalable test and measurement systems.... - [DEICO](https://deico.com.tr/): Engineered Test Systems for Reliable PerformanceWe design and deliver test-focused hardware, software, and system-level platforms for demanding validation and measurement... - [My account](https://deico.com.tr/my-account/) - [Checkout](https://deico.com.tr/checkout/) - [Cart](https://deico.com.tr/cart/): You may be interested in... Your cart is currently empty! New in store - [Shop](https://deico.com.tr/shop/): Nothing Found - [Privacy Policy](https://deico.com.tr/privacy-policy/): Privacy PolicyThis Privacy Policy describes our policies and procedures on the collection, use and disclosure of your information when you... --- ## Posts - [Blue Day 2025: A New Tradition at DEICO](https://deico.com.tr/events-exhibitions/blue-day-2025-a-new-tradition-at-deico/): This year, DEICO introduced a new tradition: Blue Day. Organized on our terrace, the event marked the closing of its... - [Why Windows 11 Matters in PXI Test Systems](https://deico.com.tr/product-insights/why-windows-11-matters-in-pxi-test-systems/): One of the most critical factors is the operating system that controls the test environment. As Windows 10 support ends... - [DEINA: Our AI-Powered Corporate Assistant](https://deico.com.tr/company-news/deina-our-ai-powered-corporate-assistant/): https://deico. com. tr/wp-content/uploads/DEINA. webp We are pleased to unveil DEINA (DEICO Intelligent Assistant), our new AI-powered corporate assistant and the... - [Test Configuration for Design Verification of Mission Computers](https://deico.com.tr/engineering-solutions/test-configuration-for-design-verification-of-mission-computers/): Abstract – This study shows a different approach for mission computer testing. The standard procedure of testing mission computers consists... - [What’s HIL? Why could one need it?](https://deico.com.tr/engineering-solutions/whats-hil-why-could-one-need-it/): Hardware-in-the-Loop (HIL) is a powerful real-time testing approach that bridges - [Core Components of a HIL System](https://deico.com.tr/engineering-solutions/core-components-of-a-hil-system/): A Hardware-in-the-Loop (HIL) system consists of several key components that - [What does DEICO offer for your HIL needs?](https://deico.com.tr/engineering-solutions/what-does-deico-offer-for-your-hil-needs/): At DEICO, we provide comprehensive Hardware-in-the-Loop (HIL) solutions tailored to meet the diverse requirements of our customers. Our systems integrate... - [Joined PXI System Alliance](https://deico.com.tr/company-news/joined-pxi-system-alliance/): DEICO is proud to announce a landmark achievement – we - [DEICO Peryön Human Value Award](https://deico.com.tr/company-news/deico-peryon-human-value-award/): We made a difference in the field of human resources. - [Streamlining Tests with OpenTAP](https://deico.com.tr/product-insights/streamlining-tests-with-opentap/): OpenTAP has an active and growing ecosystem of partners , developers - [Accelerate Embedded Development with Rapid Control Prototyping (RCP)](https://deico.com.tr/engineering-solutions/accelerate-embedded-development-with-rapid-control-prototyping-rcp/): In embedded systems development, speed and precision are crucial. Traditional --- ## Products - [Aviolinks® Ethernet/USB (MIL-STD-1553/ARINC-429/ARINC-825/Discrete)](https://deico.com.tr/shop/avionics-interfaces/aviolinks-ethernet-usb-mil-std-1553-arinc-429-arinc-825-discrete/): Modular Aviolinks® ETH/USB avionics interface supports MIL-STD-1553, ARINC-429, and ARINC-825 modules for flexible integration in avionics systems. - [Digital I/O Module 48 Bit](https://deico.com.tr/shop/ethernet-controlled-instruments/data-acquisition-and-simulation/digital-i-o-module-48-bit/): DE2111 digital I/O module offers 48 bidirectional channels, programmable logic thresholds, and high-speed operation for ATE, HIL, and process control. - [PXIe Controller Module SMARC](https://deico.com.tr/shop/pxie/chassis-and-controllers/pxie-controller-module-smarc/): PXIe SMARC Controller with Intel® CPUs, DDR5 memory, PCIe Gen3, Windows 11, and IEC/FCC compliance for test environments. - [PXIe Controller Module COMe Type 6 Compact](https://deico.com.tr/shop/pxie/chassis-and-controllers/pxie-controller-module-come-type-6-compact/): Compact PXIe Controller with PCIe Gen 4-link, Windows 11, IEC/FCC compliance, and Intel® Core™ CPUs for reliable automated test equipment. - [PXI Chassis 10 Slot 4 Link Gen 3](https://deico.com.tr/shop/pxie/chassis-and-controllers/pxi-chassis-10-slot-4-link-gen-3/): 10-slot PXI Chassis with PCIe Gen 3 x4, 16 GB/s bandwidth, hybrid slots, 1000 W power, and 82 W cooling... - [Zynq SoM Carrier Board](https://deico.com.tr/shop/embedded-boards-modules/som-products/zynq-som-carrier-board/): The DE13310 Zynq SoM Carrier Board is designed for integration with the DE13210 Zynq-7015 System on Module (SoM). - [Rugged DAQ ADC Module 8 CH 52 kS/s](https://deico.com.tr/shop/daq-data-acquisition/rugged-daq/rugged-daq-adc-module-8-ch-52-ks-s/): DE1300 Rugged DAQ ADC Module 8 CH 52 kS/s allows user to digitize up to eight single ended analog signals. - [Rugged DAQ Power Module](https://deico.com.tr/shop/daq-data-acquisition/rugged-daq/rugged-daq-power-module/): DE1200 Rugged DAQ Power Module 80 W is a power supply unit designed to be used with the DE1000 Data... - [Rugged DAQ System Controller Module](https://deico.com.tr/shop/daq-data-acquisition/rugged-daq/rugged-daq-system-controller-module/): The DE1100 Rugged DAQ System Controller Module is built to control data acquisition chassis and connected modules with reliability in... - [Rugged DAQ Chassis 5 Slot](https://deico.com.tr/shop/daq-data-acquisition/rugged-daq/rugged-data-acquisition-chassis-5-slot/): DE1000 Data Acquisition 5 Slot Chasis is a data acquisition mainframe which has configurable 1 power slot, 1 controller slot... - [Aviolinks® GUI](https://deico.com.tr/shop/avionics-interfaces/aviolinks-gui/): Aviolinks GUI is an out-of-the-box, interactive Graphical User Interface that unlocks the full potential of our avionics interface cards without... - [PXIe Jetson AGX Xavier Module](https://deico.com.tr/shop/pxie/ai-and-robotics/pxie-jetson-agx-xavier-module/): PXIe Jetson AGX Xavier Module delivers high-performance edge AI computing with GMSL2 & 3G-SDI support, ideal for real-time vision &... - [GMSL2 Module Jetson AGX Xavier](https://deico.com.tr/shop/pxie/ai-and-robotics/gmsl2-module-jetson-agx-xavier/): DE160300 GMSL2 Module Jetson Xavier is an add-on board for the DE160200 PXIe Jetson AGX Xavier Module that converts HDMI... - [TestPlanner](https://deico.com.tr/shop/software/testplanner/): TestPlanner is our powerful, ready-to-run test executive software, designed to dramatically accelerate the development and deployment of automated test systems. - [Inline Bus Coupler](https://deico.com.tr/shop/mil-std-1553-bus-couplers/bus-couplers/inline-bus-coupler/): In-line bus couplers provide seamless connectivity by integrating directly into the wiring system without the need for additional enclosures. - [GPS Navigation System - NavyGate®](https://deico.com.tr/shop/navigation-system-products/gps-navigation-system/): DE5000 is a high-tech system that provides all the necessary data for external electronic systems through NMEA0183 and custom format... - [Zynq-7015 System on Module (SoM)](https://deico.com.tr/shop/embedded-boards-modules/som-products/zynq-7015-system-on-module-som/): DE13210 Zynq-SOM System On Module is an embedded core board which uses Xilinx Zynq-7000 series XC7Z015 SoC FPGA with dual... - [General Purpose Relay Module 16 CH 16 A](https://deico.com.tr/shop/ethernet-controlled-instruments/switches-and-multiplexers/general-purpose-relay-module-16-ch-16-a/): General Purpose Relay Module 16Ch 16A is a high-power general-purpose switch module. Module can be used with Switching and DAQ... - [General Purpose Relay Module](https://deico.com.tr/shop/ethernet-controlled-instruments/switches-and-multiplexers/general-purpose-relay-module/): General Purpose Relay Module is a general purpose SPST switch module. The module can be used with Switching and DAQ... - [General Purpose Multiplexer Module](https://deico.com.tr/shop/ethernet-controlled-instruments/switches-and-multiplexers/general-purpose-multiplexer-module/): General Purpose Multiplexer Module is a general purpose dual 1x40 multiplexer module. The module can be used with Switching and... - [Single Module Mainframe](https://deico.com.tr/shop/ethernet-controlled-instruments/mainframes/single-module-mainframe/): Single Module Mainframe is a single slot mainframe for related modules - [Switching and DAQ Mainframe 8 Slot](https://deico.com.tr/shop/ethernet-controlled-instruments/mainframes/switching-and-daq-mainframe-8-slot/): Switching and DAQ Mainframe 8 Slot is an 8-slot mainframe for related modules. This device allows user to control any... - [Multifunction I/O Module 32 AI (16 DIFF), 16 AO, 48 DIO](https://deico.com.tr/shop/daq-data-acquisition/standalone-daq/dio-48-bit-ao-16-ch-ai-16-32-ch-module/): DE2110 multifunction I/O module with 32 analog inputs, 16 analog outputs, and 48 digital I/O. Ideal for DAQ, ATE, HIL,... - [MPCIe MIL-STD-1553 Module 2 CH](https://deico.com.tr/shop/avionics-interfaces/mpcie-mil-std-1553-module-2-ch/): DE150100 MPCIe MIL-STD-1553 Module with 2 dual-redundant channels, BC/RT/monitor modes, ideal for embedded MIL-STD-1553B systems. - [PXIe Relay Module 80 CH 2 A SPST](https://deico.com.tr/shop/pxie/switch-modules/pxie-relay-module-80-ch-2-a-spst/): DE140201 PXIe Relay Module features 80 SPST channels with 2 A current rating, supporting up to 220 V DC /... - [AMD Kria SoM PCIe Development Kit](https://deico.com.tr/shop/pci-express/digital-i-o-and-fpga-pci-express/amd-kria-som-pcie-development-kit/): DEICO's AMD Kria™ K26 SOM PCIe Development Kit enables evaluation and optimization of PCIe functionality for AI, robotics, and vision... - [PXIe High Density Matrix Module 32x4 2 A 1-Pole](https://deico.com.tr/shop/pxie/switch-modules/pxie-high-density-matrix-module-32x4-2-a-1-pole/): DE140701 PXIe High Density Matrix Module 32x4 2 A 1-Pole is a crosspoint matrix module designed for high-density switching in... - [PXIe High Density Matrix Module 64x4 2 A 1-Pole](https://deico.com.tr/shop/pxie/switch-modules/pxie-high-density-matrix-module-64x4-2-a-1-pole/): DE140700 PXIe High Density Matrix Module 64x4 2 A 1-Pole is a crosspoint matrix module designed for high-density switching in... - [PXIe Multiplexer Module 196 CH 1 A](https://deico.com.tr/shop/pxie/switch-modules/pxie-multiplexer-module-196-ch-1-a/): DE140300 PXIe Multiplexer Module offers 196x1 or 98x2 channel configurations with 1 A current rating, supporting up to 220 V... - [PXIe Relay Module 16 CH 16 A SPST](https://deico.com.tr/shop/pxie/switch-modules/pxie-relay-module-16-ch-16-a-spst/): DE140203 PXIe Relay Board offers 16 SPST channels with 16 A switching capacity at 250 V AC/24 V DC, designed... - [PXIe Relay Module 53 CH 2 A SPDT](https://deico.com.tr/shop/pxie/switch-modules/pxie-relay-module-53-ch-2-a-spdt/): DE140200 PXIe Relay Module offers 53 SPDT channels with 2 A current rating, supporting up to 220 V DC /... - [PXIe Serial Communication Module 8 CH](https://deico.com.tr/shop/pxie/serial-communication-modules/pxie-serial-communication-module-8-ch/): DE140501 PXIe Serial Module offers 8 channels of programmable RS-232/422/485 with up to 20 Mbps speed, 256-byte FIFOs, and ±30... - [PXIe Serial Communicaiton Module 16 CH](https://deico.com.tr/shop/pxie/serial-communication-modules/pxie-serial-communicaiton-module-16-ch/): DE140500 PXIe Serial Module provides 16 channels of programmable RS-232/422/485 with up to 20 Mbps speed, 256-byte FIFOs, and ±30... - [SLSC Programmable Discrete IO Module](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-programmable-discrete-io-module/): DE9007 SLSC IO Module: 32 protected discrete inputs/outputs with configurable thresholds for reliable HIL testing and fault simulation. - [SLSC 32/64 Channel Routing Module](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-32-64-channel-routing-module/): DEICO DE9001 SLSC Routing Module offers 32 differential or 64 single-ended channels, high-voltage/current switching, and flexible configurations for HIL testing,... - [SLSC Instrument Expansion Module](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-instrumentation-module/): The main function of the DE9002 SLSC Instrument Expansion Module is to multiplex the signals on any DEICO SLSC Card... - [SLSC Fault Insertion Module](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-fault-insertion-module/): DE9010 SLSC Fault Insertion Module offers 16 differential or 32 single-ended relay channels with 220 V DC/250 V AC, 2... - [SLSC Current Input Module 100 mA](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-current-input-module-100-ma/): DE9100 SLSC Current Input Module features 16 channels with ±100 mA input, 0. 5-4. 5 V output, and 0. 15%... - [SLSC Current Input Module 500 mA](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-current-input-module-500-ma/): DE9101 SLSC Current Input Module with 16 channels supports ±500 mA input and 0. 5-4. 5 V output, offering 0.... - [SLSC VDT Simulation Module](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-vdt-simulation-module/): DE9200 SLSC VDT Simulation Module with 8 relay-controlled channels for 5- and 6-wire VDT simulation, ideal for HIL testing. - [SLSC RTI Module DSUB68](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-rti-module-dsub68/): DE9900 SLSC RTI Module DSUB68 provides signal transition from SLSC form factor to DSUB68 connector with strain relief, ideal for... - [SLSC RTI Module DSUB44](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-rti-module-dsub44/): DE9901 SLSC RTI Module DSUB44 provides Bank1 signal transition from SLSC form factor to DSUB44 connector with strain relief, ideal... - [SLSC RTI Module 2Bank DSUB44 RA](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-rti-module-2bank-dsub44-ra/): DE9902 SLSC RTI Module 2Bank DSUB44 RA is a rear transition interface which carries signals from SLSC form factor to... - [SLSC Current Output Module 100 mA](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-current-input-output-module-100-ma/): DE9003 SLSC Current Output Module 100 mA offers 32 channels of ±100 mA current output with 100 µA resolution for... - [SLSC Amplifier Module 20 mA](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-amplifier-module-20-ma/): DE9004 SLSC Amplifier Module offers 24 relay-controlled channels with six gain options for signal amplification. Compatible with SLSC chassis and... - [SLSC Pass Through Module](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-pass-through-module/): DE9005 SLSC Pass Through Module offers 64 single-ended or 32 differential relay channels with 400 V switching voltage. Compatible with... - [SLSC Amplifier Module 30 mA](https://deico.com.tr/shop/signal-conditioning-and-simulation/signal-conditioning-slsc/slsc-amplifier-module-30-ma/): DE9006 SLSC Amplifier Module 30 mA features 24 channels with 4. 92 gain, low noise, and high slew rate. Relay-controlled... - [Battery Simulation Unit](https://deico.com.tr/shop/signal-conditioning-and-simulation/battery-simulator/12-ch-battery-cell-simulator/): DEICO DE3000 Battery Simulator: 12-channel system for precise battery emulation. 5 V/500 mA per channel, 1600 V DC isolation. Ideal... - [Single Phase PDU, 16 A](https://deico.com.tr/shop/test-system-components/pdu/single-phase-pdu-16-a/): 1U rack-mount Single Phase PDU with 10 switchable outputs, overcurrent protection, LED indicators, and emergency stop. Ideal for space-constrained setups. - [Single Phase PDU, 25 A](https://deico.com.tr/shop/test-system-components/pdu/single-phase-pdu-25-a/): The Single Phase Distribution Unit is in a 1U form factor and offers 10 switchable outputs. - [Three Phase PDU, 16 A](https://deico.com.tr/shop/test-system-components/pdu/three-phase-pdu-16-a/): The Three Phase Power Distribution Unit is a 4U rack-mounted - [Three Phase PDU, 32 A](https://deico.com.tr/shop/test-system-components/pdu/three-phase-pdu-32-a/): The Three Phase Power Distribution Unit is a 4U rack-mounted - [Component Video Switch 4x1](https://deico.com.tr/shop/test-system-components/video-switching/component-video-switch-4x1/): The DE14100 – Component Video Switch 4x1 product switches four video inputs to one video output. DE14100 provides user buttons... - [Component Video Distribution Amplifier 1x4](https://deico.com.tr/shop/test-system-components/video-switching/component-video-distribution-amplifier-1x4/): The DE14200 – Component Video Distribution Amplifier 1x4 is a high-performance distribution amplifier for composite video signals. - [Displayport Video Switch 4x1](https://deico.com.tr/shop/test-system-components/video-switching/displayport-video-switch-4x1/): DE14300 – DisplayPort Video Switch 4x1 product switches 4 DisplayPort inputs to 1 DisplayPort output. - [USB - I²C/SPI Converter](https://deico.com.tr/shop/test-system-components/onyx-usb-i2c/usb-i%c2%b2c-spi-converter/): DE4001 USB I²C/SPI host adapter: Master/slave modes, 3. 4MHz I²C & 25MHz SPI speeds, GPIO support. Plug-and-play for EEPROM/sensor communication. - [RackBeat (1U Rack Mount Stereo Audio Speaker)](https://deico.com.tr/shop/test-system-components/rackbeat/rackbeat-1u-rack-mount-stereo-audio-speaker/): Rack-mountable 3 W Class-D audio amplifier with DC volume control (80dB range), 0. 1% THD+N. Ideal for ATE and voice... - [19'' Rack Cabinet](https://deico.com.tr/shop/test-system-components/mechanic-products/19-rack-cabinet/): Standartized in 19 inches Can be single or double unit - [PCB Bus Coupler](https://deico.com.tr/shop/mil-std-1553-bus-couplers/bus-couplers/pcb-bus-coupler/): DEICO MIL-STD-1553 bus couplers provide economical, COTS-based connections with shielding, isolation, and transformer interfaces for platform and benchtop test systems. - [Box Type Bus Coupler](https://deico.com.tr/shop/mil-std-1553-bus-couplers/bus-couplers/box-type-bus-couplers/): MIL-STD-1553 bus couplers deliver cost-effective, reliable connections with shielding, isolation, and transformer interfaces for platform and bench-top test systems. --- ## Documents - [DE150000 - Aviolinks® Ethernet/USB Brochure](https://deico.com.tr/documents/de150000-aviolinks-ethernet-usb-brochure/) - [DE150000 – Aviolinks® Ethernet/USB Datasheet](https://deico.com.tr/documents/de150000-aviolinks-ethernet-usb-datasheet/) - [DE150000 – Aviolinks® Ethernet/USB Documents Revision History](https://deico.com.tr/documents/de150000-aviolinks-ethernet-usb-documents-revision-history/) - [DE2110 - Multifunction I/O Module 32 AI (16 DIFF), 16 AO, 48 DIO Documents Revision History](https://deico.com.tr/documents/de2110-multifunction-i-o-module-32-ai-16-diff-16-ao-48-dio-documents-revision-history/) - [DE2111 - Digital I/O Module 48 Bit Brochure](https://deico.com.tr/documents/de2111-digital-i-o-module-48-bit-brochure/) - [DE2111 - Digital I/O Module 48 Bit Datasheet](https://deico.com.tr/documents/de2111-digital-i-o-module-48-bit-datasheet/) - [DE2111 - Digital I/O Module 48 Bit Documents Revision History](https://deico.com.tr/documents/de2111-digital-i-o-module-48-bit-documents-revision-history/) - [DE10000 - TestPlanner Software](https://deico.com.tr/documents/de10000-testplanner-software/) - [DE3000 – Battery Simulation Unit Software](https://deico.com.tr/documents/de3000-battery-simulation-unit-software/) - [DE3000 – Battery Simulation Unit Configuration File](https://deico.com.tr/documents/de3000-battery-simulation-unit-configuration-file/) - [DE2102 – General Purpose Relay Module 16CH 16A Driver](https://deico.com.tr/documents/de2102-general-purpose-relay-module-16ch-16a-driver/) - [DE4001 - USB – I²C/SPI Converter Software](https://deico.com.tr/documents/de4001-usb-i%c2%b2c-spi-converter-software/) - [DE140000 - PXI Chassis 10 Slot 4 Link Gen 3 Brochure](https://deico.com.tr/documents/de140000-pxi-chassis-10-slot-4-link-gen-3-brochure/) - [DE140000 - PXI Chassis 10 Slot 4 Link Gen 3 Datasheet](https://deico.com.tr/documents/de140000-pxi-chassis-10-slot-4-link-gen-3-datasheet/) - [DE140000 - PXI Chassis 10 Slot 4 Link Gen 3 Documents Revision History](https://deico.com.tr/documents/de140000-pxi-chassis-10-slot-4-link-gen-3-documents-revision-history/) - [DE140110 - PXIe Controller Module COMe Type 6 Compact Brochure](https://deico.com.tr/documents/de140110-pxie-controller-module-come-type-6-compact-brochure/) - [DE140110 - PXIe Controller Module COMe Type 6 Compact Datasheet](https://deico.com.tr/documents/de140110-pxie-controller-module-come-type-6-compact-datasheet/) - [DE140110 - PXIe Controller Module COMe Type 6 Compact Documents Revision History](https://deico.com.tr/documents/de140110-pxie-controller-module-come-type-6-compact-documents-revision-history/) - [DE140120 - PXIe Controller Module SMARC Brochure](https://deico.com.tr/documents/de140120-pxie-controller-module-smarc-brochure/) - [DE140120 - PXIe Controller Module SMARC Datasheet](https://deico.com.tr/documents/de140120-pxie-controller-module-smarc-datasheet/) - [DE140120 - PXIe Controller Module SMARC Documents Revision History](https://deico.com.tr/documents/de140120-pxie-controller-module-smarc-documents-revision-history/) - [DE160300 - GMSL2 Module Jetson Xavier Brochure](https://deico.com.tr/documents/de160300-gmsl2-module-jetson-xavier-brochure/) - [DE160300 - GMSL2 Module Jetson Xavier Datasheet](https://deico.com.tr/documents/de160300-gmsl2-module-jetson-xavier-datasheet/) - [DE160300 - GMSL2 Module Jetson Xavier Documents Publication Table](https://deico.com.tr/documents/de160300-gmsl2-module-jetson-xavier-documents-publication-table/) - [DE82XX - MIL-STD-1553 Bus Couplers Box Type Catalogue](https://deico.com.tr/documents/de82xx-mil-std-1553-bus-couplers-box-type-catalogue/) - [DE81XX – MIL-STD-1553 Bus Couplers PCB Type Catalogue](https://deico.com.tr/documents/de81xx-mil-std-1553-bus-couplers-pcb-type-catalogue/) - [DE12000 - 19” Rack Cabinet Technical Drawing](https://deico.com.tr/documents/de12000-19-rack-cabinet-technical-drawing/) - [DE83XX - MIL-STD-1553 Bus Couplers In-Line Type Catalogue](https://deico.com.tr/documents/de83xx-mil-std-1553-bus-couplers-in-line-type-catalogue/) - [DE140201 - PXIe Relay Module 80 CH 2 A SPST Brochure](https://deico.com.tr/documents/de140201-pxie-relay-module-80-ch-2-a-spst-brochure/) - [DE140201 - PXIe Relay Module 80 CH 2 A SPST Datasheet](https://deico.com.tr/documents/de140201-pxie-relay-module-80-ch-2-a-spst-datasheet/) - [DE140203 - PXIe Relay Board 16 CH 16 A Brochure](https://deico.com.tr/documents/de140203-pxie-relay-board-16-ch-16-a-brochure/) - [DE140203 - PXIe Relay Board 16 CH 16 A Datasheet](https://deico.com.tr/documents/de140203-pxie-relay-board-16-ch-16-a-datasheet/) - [DE140300 - PXIe Multiplexer Module 196 CH 1 A Datasheet](https://deico.com.tr/documents/de140300-pxie-multiplexer-module-196-ch-1-a-datasheet/) - [DE140700 - PXIe High Density Matrix Module 64x4 2 A 1-Pole Brochure](https://deico.com.tr/documents/de140700-pxie-high-density-matrix-module-64x4-2-a-1-pole-brochure/) - [DE140700 - PXIe High Density Matrix Module 64x4 2 A 1-Pole Datasheet](https://deico.com.tr/documents/de140700-pxie-high-density-matrix-module-64x4-2-a-1-pole-datasheet/) - [DE140701 - PXIe High Density Matrix Module 32x4 2 A 1-Pole Brochure](https://deico.com.tr/documents/de140701-pxie-high-density-matrix-module-32x4-2-a-1-pole-brochure/) - [DE140701 - PXIe High Density Matrix Module 32x4 2 A 1-Pole Datasheet](https://deico.com.tr/documents/de140701-pxie-high-density-matrix-module-32x4-2-a-1-pole-datasheet/) - [DE13310 - Zynq SoM Carrier Board Datasheet](https://deico.com.tr/documents/de13310-zynq-som-carrier-board/) - [DE13310 - Zynq SoM Carrier Board Documents Publication Table](https://deico.com.tr/documents/de13310-zynq-som-carrier-board-documents-publication-table/) - [DE160200 - PXIe Jetson AGX Xavier Module Brochure](https://deico.com.tr/documents/de160200-pxie-jetson-agx-xavier-module-brochure/) - [DE160200 - PXIe Jetson AGX Xavier Module Datasheet](https://deico.com.tr/documents/de160200-pxie-jetson-agx-xavier-module-datasheet/) - [DE160200 - PXIe Jetson AGX Xavier Module Documents Publication Table](https://deico.com.tr/documents/de160200-pxie-jetson-agx-xavier-module-documents-publication-table/) - [DE140200 - PXIe Relay Module 53 CH 2 A SPDT Documents Publication Table](https://deico.com.tr/documents/de140200-pxie-relay-module-53-ch-2-a-spdt-documents-publication-table/) - [DE140201 - PXIe Relay Module 80 CH 2 A SPST Documents Publication Table](https://deico.com.tr/documents/de140201-pxie-relay-module-80-ch-2-a-spst-documents-publication-table/) - [DE140203 - PXIe Relay Board 16 CH 16 A Documents Publication Table](https://deico.com.tr/documents/de140203-pxie-relay-board-16-ch-16-a-documents-publication-table/) - [DE140300 - PXIe Multiplexer Module 196 CH 1 A Documents Publication Table](https://deico.com.tr/documents/de140300-pxie-multiplexer-module-196-ch-1-a-documents-publication-table/) - [DE140700 - PXIe High Density Matrix Module 64x4 2 A 1-Pole Documents Publication Table](https://deico.com.tr/documents/de140700-pxie-high-density-matrix-module-64x4-2-a-1-pole-documents-publication-table/) - [DE140701 - PXIe High Density Matrix Module 32x4 2 A 1-Pole Documents Publication Table](https://deico.com.tr/documents/de140701-pxie-high-density-matrix-module-32x4-2-a-1-pole-documents-publication-table/) - [DE13210 - Zynq-7015 System on Module (SoM) Documents Publication Table](https://deico.com.tr/documents/de13210-zynq-7015-system-on-module-som-documents-publication-table/) - [DE1000 - Rugged DAQ Chassis 5 Slot Brochure](https://deico.com.tr/documents/de1000-rugged-daq-chassis-5-slot-brochure/) - [DE1000 - Rugged DAQ Chassis 5 Slot Datasheet](https://deico.com.tr/documents/de1000-rugged-daq-chassis-5-slot-datasheet/) - [DE1000 - Rugged DAQ Chassis 5 Slot Documents Publication Table](https://deico.com.tr/documents/de1000-rugged-daq-chassis-5-slot-documents-publication-table/) - [DE1200 - Rugged DAQ Power Module Brochure](https://deico.com.tr/documents/de1200-rugged-daq-power-module-brochure/) - [DE1100 - Rugged DAQ System Controller Module Brochure](https://deico.com.tr/documents/de1100-rugged-daq-system-controller-module-brochure/) - [DE1100 - Rugged DAQ System Controller Module Datasheet](https://deico.com.tr/documents/de1100-rugged-daq-system-controller-module-datasheet/) - [DE1100 - Rugged DAQ System Controller Module Documents Publication Table](https://deico.com.tr/documents/de1100-rugged-daq-system-controller-module-documents-publication-table/) - [DE1200 - Rugged DAQ Power Module Datasheet](https://deico.com.tr/documents/de1200-rugged-daq-power-module-datasheet/) - [DE1200 - Rugged DAQ Power Module Documents Publication Table](https://deico.com.tr/documents/de1200-rugged-daq-power-module-documents-publication-table/) - [DE1300 - Rugged DAQ ADC Module 8 CH 52 kS/s Brochure](https://deico.com.tr/documents/de1300-rugged-daq-adc-module-8-ch-52-ks-s-brochure/) - [DE1300 - Rugged DAQ ADC Module 8 CH 52 kS/s Datasheet](https://deico.com.tr/documents/de1300-rugged-daq-adc-module-8-ch-52-ks-s-datasheet/) - [DE1300 - Rugged DAQ ADC Module 8 CH 52 kS/s Documents Publication Table](https://deico.com.tr/documents/de1300-rugged-daq-adc-module-8-ch-52-ks-s-documents-publication-table/) - [DE2110 - Digital/Analog I/O Module Datasheet](https://deico.com.tr/documents/de2110-digital-analog-i-o-module-datasheet/) - [DE150100 - MPCIe MIL-STD-1553 Module 2 CH Datasheet](https://deico.com.tr/documents/de150100-mpcie-mil-std-1553-module-2-ch-datasheet/) - [DE13210 – Zynq-7015 System on Module (SoM) Datasheet](https://deico.com.tr/documents/de13210-zynq-7015-som-system-on-module-datasheet/) - [DE5000 - GPS Navigation System Datasheet](https://deico.com.tr/documents/de5000-gps-navigation-system-datasheet/) - [DE7001 - Single Phase PDU, 16 A Datasheet](https://deico.com.tr/documents/de7001-single-phase-pdu-16-a-datasheet/) - [DE7002 - Single Phase PDU, 25 A Datasheet](https://deico.com.tr/documents/de7002-single-phase-pdu-25-a-datasheet/) - [DE7003 - Three Phase PDU, 16 A Datasheet](https://deico.com.tr/documents/de7003-three-phase-pdu-16-a-datasheet/) - [DE7004 - Three Phase PDU, 32 A Datasheet](https://deico.com.tr/documents/de7004-three-phase-pdu-32-a-datasheet/) - [DE14100 - Component Video Switch 4×1 Datasheet](https://deico.com.tr/documents/de14100-component-video-switch-4x1-datasheet/) - [DE14200 - Component Video Distribution Amplifier 1×4 Datasheet](https://deico.com.tr/documents/de140200-component-video-distribution-amplifier-1x4-datasheet/) - [DE14300 - Displayport Video Switch 4×1 Datasheet](https://deico.com.tr/documents/de14300-displayport-video-switch-4x1-datasheet/) - [DE4001 - USB – I²C/SPI Converter Datasheet](https://deico.com.tr/documents/de4001-usb-i%c2%b2c-spi-converter-datasheet/) - [DE6000 - RackBeat (1 U Rack Mount Stereo Audio Speaker) Datasheet](https://deico.com.tr/documents/de6000-rackbeat-1-u-rack-mount-stereo-audio-speaker-datasheet/) - [DE9001- SLSC 32/64 Channel Routing Module Datasheet](https://deico.com.tr/documents/de9001-slsc-32-64-channel-routing-module-datasheet/) - [DE9002 - SLSC Instrument Expansion Module Datasheet](https://deico.com.tr/documents/de9002-slsc-instrument-expansion-module-datasheet/) - [DE9003 - SLSC Current Output Module 100 mA Datasheet](https://deico.com.tr/documents/de9003-slsc-current-output-module-100-ma-datasheet/) - [DE9004 - SLSC Amplifier Module 20 mA Datasheet](https://deico.com.tr/documents/de9004-slsc-amplifier-module-20-ma-datasheet/) - [DE9005 - SLSC Pass Through Module Datasheet](https://deico.com.tr/documents/de9005-slsc-pass-through-module-datasheet/) - [DE9006 - SLSC Amplifier Module 30 mA](https://deico.com.tr/documents/de9006-slsc-amplifier-module-30-ma/) - [DE9007 - SLSC Programmable Discrete IO Module Datasheet](https://deico.com.tr/documents/de9007-slsc-programmable-discrete-io-module-datasheet/) - [DE9010 - SLSC Fault Insertion Module Datasheet](https://deico.com.tr/documents/de9010-slsc-fault-insertion-module-datasheet/) - [DE9100 - SLSC Current Input Module 100 mA Datasheet](https://deico.com.tr/documents/de9100-slsc-current-input-module-100-ma-datasheet/) - [DE9101 - SLSC Current Input Module 500 mA Datasheet](https://deico.com.tr/documents/de9101-slsc-current-input-module-500-ma-datasheet/) - [DE9200 - SLSC VDT Simulation Module Datasheet](https://deico.com.tr/documents/de9200-slsc-vdt-simulation-module-datasheet/) - [DE9900 - SLSC RTI Module DSUB68 Datasheet](https://deico.com.tr/documents/de9900-slsc-rti-module-dsub68-datasheet/) - [DE9901 - SLSC RTI Module DSUB44 Datasheet](https://deico.com.tr/documents/de9901-slsc-rti-module-dsub44-datasheet/) - [DE9902 - SLSC RTI Module 2Bank DSUB44 RA Datasheet](https://deico.com.tr/documents/de9902-slsc-rti-module-2bank-dsub44-ra-datasheet/) - [DE140200 - PXIe Relay Module 53 CH 2 A SPDT Datasheet](https://deico.com.tr/documents/de140200-pxie-relay-module-53-ch-2-a-spdt-datasheet/) - [DE140500 - PXIe Serial Communicaiton Module 16 CH Datasheet](https://deico.com.tr/documents/de140500-pxie-serial-communicaiton-module-16-ch-datasheet/) - [DE140501 - PXIe Serial Communication Module 8 CH Datasheet](https://deico.com.tr/documents/de140501-pxie-serial-communication-module-8-ch-datasheet/) - [DE2100 - General Purpose Multiplexer Module Brochure](https://deico.com.tr/documents/de2100-general-purpose-multiplexer-module-brochure/) - [DE2101 - General Purpose Relay Module Brochure](https://deico.com.tr/documents/de2101-general-purpose-relay-module-brochure/) - [DE2102 - General Purpose Relay Module 16CH 16A Brochure](https://deico.com.tr/documents/de2102-general-purpose-relay-module-16ch-16a-brochure/) - [DE2110 - Digital/Analog I/O Module Brochure](https://deico.com.tr/documents/de2110-digital-analog-i-o-module-brochure/) - [DE2140 - LVDT/RVDT Input/Output Module Brochure](https://deico.com.tr/documents/de2140-lvdt-rvdt-input-output-module-brochure/) - [DE4001 – USB – I²C/SPI Converter Brochure](https://deico.com.tr/documents/de4001-usb-i%c2%b2c-spi-converter-brochure/) - [DE5000 - GPS Navigation System Brochure](https://deico.com.tr/documents/de5000-gps-navigation-system-brochure/) - [DE6000 – RackBeat (1 U Rack Mount Stereo Audio Speaker) Brochure](https://deico.com.tr/documents/de6000-rackbeat-1-u-rack-mount-stereo-audio-speaker-brochure/) - [DE12000 - 19” Rack Cabinet Brochure](https://deico.com.tr/documents/de12000-19-rack-cabinet-brochure/) - [DE13210 – Zynq-7015 System on Module (SoM) Brochure](https://deico.com.tr/documents/de13210-zynq-7015-som-system-on-module-brochure/) - [DE140200 – PXIe Relay Module 53 CH 2 A SPDT Brochure](https://deico.com.tr/documents/de140200-pxie-relay-module-53-ch-2-a-spdt-brochure/) - [DE140500 – PXIe Serial Communicaiton Module 16 CH Brochure](https://deico.com.tr/documents/de140500-pxie-serial-communicaiton-module-16-ch-brochure/) - [DE140501 – PXIe Serial Communication Module 8 CH Brochure](https://deico.com.tr/documents/de140501-pxie-serial-communication-module-8-ch-brochure/) - [DE150100 - MPCIe MIL-STD-1553 Module 2 CH Brochure](https://deico.com.tr/documents/de150100-mpcie-mil-std-1553-module-2-ch-brochure/) - [DE140300 – PXIe Multiplexer Module 196 CH 1 A Brochure](https://deico.com.tr/documents/de140300-pxie-multiplexer-module-196-ch-1-a-brochure/) - [DE4001 – USB – I²C/SPI Converter Technical Drawing](https://deico.com.tr/documents/de4001-usb-i%c2%b2c-spi-converter-technical-drawing/) - [DE3000 - Battery Simulation Unit 12 CH 5 V 500 mA Documents Publication Tables](https://deico.com.tr/documents/de3000-battery-simulation-unit-12-ch-5-v-500-ma-documents-publication-tables/) - [DE3000 - Battery Simulation Unit 12 CH 5 V 500 mA Datasheet](https://deico.com.tr/documents/de3000-battery-simulation-unit-12-ch-5-v-500-ma/) - [DE3000 - Battery Simulation Unit 12 CH 5 V 500 mA User Manual](https://deico.com.tr/documents/de3000-battery-simulation-unit-12-ch-5-v-500-ma-user-manual/) - [DE3000 - Battery Simulation Unit 12 CH 5 V 500 mA Brochure](https://deico.com.tr/documents/de3000-battery-simulation-unit-12-ch-5-v-500-ma-brochure/) --- ## Portfolio - [Helicopter Generator/Starter Test System](https://deico.com.tr/portfolio-items/helicopter-generator-starter-test-system/): Fully automatic helicopter generator/starter test system for military & civil aviation. Test, analyze, and certify performance per ISO/API standards with... - [GOTS - Advanced Automated Test System](https://deico.com.tr/portfolio-items/gots-advanced-automated-test-system/): GOTS is an automated test system used especially in military and aerospace applications to test complex systems and their subunits.... - [F-16 Electronics and Avionics Test System](https://deico.com.tr/portfolio-items/f-16-electronics-and-avionics-test-system/): An integrated test system used to check the functionality of the electronic systems operating in the F-16 aircraft (such as... - [Intermediate Level (I-Level) Test Equipment for ACMI POD](https://deico.com.tr/portfolio-items/intermediate-level-i-level-test-equipment-for-acmi-pod/): Intermediate Level (I-Level) test equipment are advanced diagnostic and testing systems that enable maintenance and repair activities to be performed... - [FCU HIL Rig for a Training Jet](https://deico.com.tr/portfolio-items/fcu-hil-rig-for-a-training-jet/): PXI/SLSC-based HIL test rig for a jet trainer's Flight Control Unit, validating system reliability through real-time simulation and fault injection. - [System Integration Laboratory for a Civil Avionics Platform](https://deico.com.tr/portfolio-items/system-integration-laboratory-for-a-civil-avionics-platform/): System Integration Laboratory (SIL) links real avionics and a cockpit mockup, using simulated I/O to validate the entire man-machine interface... - [FCU HIL Rig for a Fighter Jet](https://deico.com.tr/portfolio-items/fcu-hil-rig-for-a-fighter-jet/): PXI/SLSC-based HIL test platform for validating a fighter jet's Flight Control Unit (FCU) through real-time simulation and electrical fault injection. - [Digital ECU HIL Rig for a Helicopter](https://deico.com.tr/portfolio-items/digital-ecu-hil-rig-for-a-helicopter/): PXI/SLSC-based HIL test rig for a helicopter Engine Control Unit, validating system reliability through real-time simulation and fault injection. - [Helicopter Blade Static Balancing Test Systems](https://deico.com.tr/portfolio-items/helicopter-blade-static-balancing-test-systems/): This product group offers advanced systems designed to measure and adjust the static balance of main rotor blades with exceptional... - [Helicopter Blade Repair-Maintenance Systems](https://deico.com.tr/portfolio-items/helicopter-blade-repair-maintenance-systems/): This product group provides integrated solutions that streamline adhesive bonding, sheath assembly, and curing processes. - [Linear & Rotary Actuator Test Systems](https://deico.com.tr/portfolio-items/linear-rotary-actuator-test-systems/): Comprehensive testing platforms for linear and rotary actuators, supporting multiple parameters such as angle, torque, and voltage - [Helicopter Transmission Flushing Systems](https://deico.com.tr/portfolio-items/helicopter-transmission-flushing-systems/): State-of-the-art flushing systems that maintain cleanliness and functionality through advanced filtration, hydraulic oil flow control, and real-time monitoring. --- ## FAQs - [Can your products operate under harsh environmental conditions?](https://deico.com.tr/faq-items/can-your-products-operate-under-harsh-environmental-conditions/): Yes, many of our products have IP protection ratings and - [Do you provide spare parts or modules after sales?](https://deico.com.tr/faq-items/do-you-provide-spare-parts-or-modules-after-sales/): Yes, we offer spare parts and module supply support for - [Can test scenarios be configured through software?](https://deico.com.tr/faq-items/can-test-scenarios-be-configured-through-software/): Yes, our user-friendly interface allows test scenarios to be graphically - [What types of sensors are supported?](https://deico.com.tr/faq-items/what-types-of-sensors-are-supported/): We support various sensor types including strain gauges, thermocouples, accelerometers, - [How many channels do your measurement systems support?](https://deico.com.tr/faq-items/how-many-channels-do-your-measurement-systems-support/): Depending on the system configuration, we offer options ranging from - [Do your products comply with EMC/EMI requirements?](https://deico.com.tr/faq-items/do-your-products-comply-with-emc-emi-requirements/): Yes, our products are certified through electromagnetic compatibility (EMC) and - [Do your devices support data logging?](https://deico.com.tr/faq-items/do-your-devices-support-data-logging/): Yes, selected models come with built-in data logger support. - [Can the test rig systems be customized?](https://deico.com.tr/faq-items/can-the-test-rig-systems-be-customized/): Yes, all test systems can be customized mechanically, functionally, and - [Can analog and digital signals be processed simultaneously?](https://deico.com.tr/faq-items/can-analog-and-digital-signals-be-processed-simultaneously/): Yes, our hybrid DAQ systems support simultaneous multi-channel analog and - [How are firmware updates delivered to your devices?](https://deico.com.tr/faq-items/how-are-firmware-updates-delivered-to-your-devices/): Firmware updates can be performed via USB, Ethernet, or remote - [What standards are your products compliant with?](https://deico.com.tr/faq-items/what-standards-are-your-products-compliant-with/): Our products comply with international testing and safety standards such - [Are your products customizable?](https://deico.com.tr/faq-items/are-your-products-customizable/): Yes, mechanical, electronic, and software customizations can be made according - [Do you provide technical training after purchase?](https://deico.com.tr/faq-items/do-you-provide-technical-training-after-purchase/): Yes, we provide on-site or online technical training upon customer - [What is the warranty period for your products?](https://deico.com.tr/faq-items/what-is-the-warranty-period-for-your-products/): Our products are covered by a 2-year warranty, while integrated - [Do you offer remote technical support?](https://deico.com.tr/faq-items/do-you-offer-remote-technical-support/): Yes, we provide remote assistance for installation, configuration, and troubleshooting. - [Which software platforms are supported?](https://deico.com.tr/faq-items/which-software-platforms-are-supported/): Compatible with engineering platforms such as LabVIEW, MATLAB, and Python. - [Do you provide software support?](https://deico.com.tr/faq-items/do-you-provide-software-support/): Yes. Our products come with dedicated software, drivers, and API - [Do you provide calibration services?](https://deico.com.tr/faq-items/do-you-provide-calibration-services/): Yes, we offer calibration and periodic verification services for all - [Can your devices be integrated into different systems?](https://deico.com.tr/faq-items/can-your-devices-be-integrated-into-different-systems/): Yes. Integration is possible via protocols such as Ethernet, CAN, - [How can I access technical documentation?](https://deico.com.tr/faq-items/how-can-i-access-technical-documentation/): Technical documentation is available on product pages and in the --- # # Detailed Content ## Pages From electrical systems to communication networks, our portable test sets deliver precision diagnostics and troubleshooting power, right in your hands. AerospaceDefenseAutomotiveHomeTable of ContentsKey Features of PTS SolutionsFrom electrical systems to communication networks, our portable test sets deliver precision diagnostics and troubleshooting power—right in your hands. Portable & lightweight: designed for easy transport and on-site diagnostics Rugged housing: withstands field conditions, impact, and weather High accuracy & resolution: industry-leading measurement technology User-friendly interface: clear display, intuitive menus, multilingual support Applications Coming soon. --- Privacy PolicyCookie PolicyInformation Security Management System Policy --- Information Security Management System PolicyAt our organization, our commitment to core values is built upon the principles of "treating information as a strategic asset," "prioritizing reliability at every stage," and "adopting a proactive approach to cyber risks. " These values form the foundation of our information security commitments outlined below: This policy and responsibility cover the websites www. deico. com. tr and www. akademi. deico. com. tr. Applications outside the control of DEICO do not include information, titles, campaigns collected by third parties. DEICO is not responsible for the processing of personal data collected, stored and used by third parties through their websites. Protecting Information Security: We are committed to protecting the information assets of our organization and stakeholders in line with the principles of confidentiality, integrity, and availability. nsuring the security of our critical systems, implementing preventive controls against data breaches, and complying fully with legal and contractual obligations are our top priorities. Continuous Improvement and Risk Management: We continuously monitor, evaluate, and improve our information security performance. By adopting a risk-based approach, we closely follow technological threats and update our processes in accordance with the evolving threat landscape. Corporate Awareness and Shared Responsibility Culture: Information security is not merely a technical issue but a shared responsibility of all our employees. With this understanding, we regularly inform our staff, raise awareness, and foster a security culture throughout the organization. Every DEICO employee is responsible for complying with information security policies and promptly reporting any violations. Trust-Based Communication with Interested Parties: We meet the confidentiality expectations of our business partners and take the utmost care in protecting trade secrets. We maintain transparent and verifiable communication with audit authorities, ensuring full compliance with regulations and standards. We adopt an information management approach that respects intellectual property rights in a competitive environment. Management Commitment: As top management, we commit to providing all necessary resources to ensure the effectiveness of our information security management system, setting objectives, improving the system through internal and external audits, and maintaining full compliance with the ISO/IEC 27001 standard. --- Cookie PolicyUser AgreementAs DEICO, we respect the personal data of everyone who visits our website and communicates with us electronically, and we protect this data within the scope of GDPR. During your visit on our website, your personal data, which we save by automatic or manual methods and share with us electronically, will be used by us within the framework of good faith rules in order to ensure that your requests are fulfilled first and then to provide you with better service. DEICO accepts and undertakes that it assumes all responsibility for the protection and security of your personal data in accordance with the provisions of the Cookie Policy on this website. 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If you do not want the cookies to be edited or if you want them to be removed, what you need to do is to select the appropriate browser below and click on the link shown. Google Chrome https://support. google. com/chrome/answer/95647? hl=en Microsoft Edge https://support. microsoft. com/en-us/windows/manage-cookies-in-microsoft-edge-view-allow-block-delete-and-use-168dab11-0753-043d-7c16-ede5947fc64dhttps://support. microsoft. com/en-us/help/260971/description-of-cookies Mozilla Firefox https://support. mozilla. org/en-US/kb/cookies-information-websites-store-on-your-computer Safari Mobil https://support. apple. com/en-us/HT201265 Android Browser https://support. google. com/nexus/answer/54068? visit_id=637357653482396806-4258315844&hl=en&rd=1 --- We provide competitive mechanical manufacturing services supported by advanced bench setups and production infrastructure investments. HomeEquipmentsDMG MORI M1 PROMazak CV5-500Mazak Variaxis i500The advantages of us in mechanical production are as follows. Modern Machine Range: DEICO has a modern machine park that includes up-to-date and high-precision CNC machines. This ensures that precise dimensions and quality are maintained in part production. Flexible Production Processes: In order to respond quickly and flexibly to customer demands, DEICO constantly optimizes its mechanical production processes. This increases customer satisfaction, especially in special projects. Superior Quality Control: Quality control processes are applied at every stage. In this way, customers are offered durable and reliable mechanical products that comply with standards. Rapid Prototype Production: We have a structure that enables rapid prototype production of customer projects. This speeds up customer feedback during the design phase and optimizes product development processes. Mechanical manufacturing infrastructure includes the following equipment. DMG MORI M1 PRO: 3+1 Axis, X Axis Movement:550mm, Y Axis Movement:550mm, Z Axis Movement:510mm, Speed:13000 RPM Mazak CV5-500: 5 Axis Simultaneous, X Axis Movement:730mm, Y Axis Movement:450mm, Z Axis Movement:470mm, Speed:12000 RPM Mazak Variaxis i500: 5 Axis Simultaneous, X Axis Movement:350mm, Y Axis Movement:550mm, Z Axis Movement:510mm, Speed:12000 RPM ApplicationsHelicopter Generator/Starter Test SystemReading Time: 1. 5 min. Intermediate Level (I-Level) Test Equipment for ACMI PODReading Time: 3. 7 min. F-16 Electronics and Avionics Test SystemReading Time: 2. 7 min. GOTS – Advanced Automated Test SystemReading Time: 2. 4 min. System Integration Laboratory for a Civil Avionics PlatformReading Time: 2. 3 min. FCU HIL Rig for a Training JetReading Time: 1. 6 min. Digital ECU HIL Rig for a HelicopterReading Time: 1. 4 min. FCU HIL Rig for a Fighter JetReading Time: 1. 6 min. Helicopter Transmission Flushing SystemsReading Time: 0. 6 min. Linear & Rotary Actuator Test SystemsReading Time: 0. 6 min. 12Next --- With 10+ years of experience, we deliver end-to-end solutions for the design, development, and production of electromechanical systems used in testing and measurement across multiple industries. HomeCertificatesIPC-A-610IPC-WHMA-A-620IPC-J-STD-001Electromechanical assembly is a complex manufacturing process that involves the integration of electrical and mechanical components. This process brings together engineering principles from different disciplines, enabling the creation of a variety of products used in many industries. Electromechanical assembly combines high precision, durability and functionality, covering a wide range of applications from industrial automation systems to medical devices. We carry out our electromechanical assembly process in the following basic steps: Integration of Electrical Components: It is the assembly of electrical components, circuit boards, sensors, motors and other electrical parts required to fulfill the electrical function of the device. Integration of Mechanical Components: It is the assembly of mechanical parts, cases, cabins, gears and other mechanical elements in order to ensure the durability and physical structure of the product. Wiring: It is the installation of cables required for electrical connection and communication. Soldering and Connection Processes: Soldering and other necessary methods are used to ensure reliable connections between electrical components. Testing and Quality Control: All necessary tests, including pin to pin testing, are performed on the product and it is passed through the quality control process. Electromechanical assembly is carried out by certified experts in this field in accordance with IPC-A-610, IPC-WHMA-A-620, and IPC-J-STD-001. ApplicationsNothing Found --- We provide board assembly services for high-density electronic designs intended for harsh environments, supported by advanced manufacturing infrastructure. HomeThe electronic production infrastructure includes the following equipment: Fully automatic SMT line Solder paste printer 3D solder paste inspection (SPI) High-speed pick & place machine (P&P)Oven with 8+2 temperature zones (reflow)Automatic optical inspection machine (AOI)X-ray inspectionConformal coating application BGA rework BGA rework The PCB assembly service process includes the following steps. Component procurementPCB procurementIncoming quality checkProper storageAutomated solder pasting and inspectionSMT assemblyHandling of moisture sensitive components (MSL)Conformal coatingNitrogen reflow solderingBoundary scan (JTAG) testingFunctional testingESS TestTest data logging BGA Rework Final quality checkESD packingShipmentERP integrated operationsApplicationsNothing Found --- Test Program Sets (TPS) are integrated hardware and software packages used to validate electronic and electromechanical systems in automated test environments across defense, aerospace, automotive, and industrial sectors. AerospaceDefenseAutomotiveHomeTable of ContentsKey Features of TPS SolutionsOur Test Program Set (TPS) solutions are designed to deliver highly efficient, scalable, and reliable testing for defense, aerospace, automotive, and industrial electronics applications. TPS solutions integrate with Automated Test Equipment (ATE) to provide comprehensive fault detection, functional validation, and system-level diagnostics. Custom-Engineered for Diverse Test Requirements: TPS solutions meet the needs of testing at the board, module and system level. It is compatible with both old and new generation Automatic Test Equipment (ATE). It is suitable for use in production and maintenance environments. Fault Detection & Diagnostic Capabilities: The system can automatically isolate faults, which speeds up the repair process. It supports methods such as Boundary Scan, Functional Test and In-Circuit Test. Small faults can also be detected thanks to measurement algorithms. Integration with Multi-Protocol Communication: It can work with many communication protocols: MIL-STD-1553, ARINC 429, ARINC 708, RS232, RS422/485, SPI, I2C, CAN and Ethernet. It is suitable for testing digital, analog, RF and optical signals. Its modular structure allows for custom interface development. Fully Compatible with Test Automation Platforms: It works directly with DEICO TestPlanner software. It enables automatic execution, reporting and remote access of tests. It supports scenario development in C/C++, Python, LabVIEW and NI TestStand languages. Scalable and Future-Proof Design: The system can be easily updated and reconfigured according to needs. Its modular structure ensures efficient use of test investments. It provides a suitable infrastructure for long-term use. Applications Coming soon. --- Automated Test Systems (ATE) are designed for efficient and repeatable testing of electronic and mechanical components in defense, aerospace, and industrial environments. AerospaceDefenseIndustrialHomeTable of ContentsKey Features of ATEsComprehensive Test Support: Covers analog/digital boards, processor-based circuits, and passive components. Modular and Scalable Architecture: Expandable and customizable test hardware to meet diverse user requirements. High Precision and Accuracy: Advanced measurement and analysis capabilities to detect even the smallest deviations. Full Automation: Smart test scenarios that minimize manual intervention and reduce operator dependency. Integrated Software Solutions: Robust software infrastructure supporting data analysis, reporting, and remote access. Applications of ATEsElectronic and Mixed-Signal Circuit Testing: Functional and parametric testing of digital, analog, and mixed-signal electronic boards, power modules, and control systems. High-Speed Data and Communication Interface Testing: Verification of high-speed serial and parallel communication interfaces, including CAN, RS-232/422/485, Ethernet, MIL-STD-1553, and ARINC 429. Avionics and Navigation System Validation: Automated testing of flight control computers, GPS/INS navigation units, sensor fusion modules, and avionics bus communication. Power and Energy Systems Testing: Load testing and performance validation of power distribution units, energy storage systems, and power conversion circuits. Motor, Transmission, and Electromechanical System Testing: Performance validation of motors, actuators, gear systems, and other mechanical components under simulated real-world conditions. The Core Components of an ATE SystemA typical ATE setup consists of: Test Controller – A central processing unit that manages test execution and data analysis. Instrumentation & Measurement Units – High-precision devices for capturing voltage, current, frequency, and signal integrity. Switching & Signal Routing – Modular matrices that dynamically route signals to the Device Under Test (DUT). Test Automation Software – A framework for controlling test procedures, data acquisition, and report generation. Why ATE Is Essential in Modern Testing? Speeds up the testing process with automated sequences. Ensures consistent and repeatable results, eliminating human error. Detects and isolates faults efficiently, reducing troubleshooting time. Supports multiple test protocols, including digital, analog, RF, and power electronics. Enhances product quality and reliability in aerospace, defense, automotive, and industrial applications. What is DEICO’s difference in the ATE Solutions? Our Automated Test System solutions stand out by offering customized designs, high integration capabilities, and software and hardware specifically tailored to industry requirements, providing our customers with a competitive edge. Our Tailored Solutions go beyond standard test systems, ensuring full compatibility with diverse hardware and software needs. With a flexible and modular architecture, our systems can easily adapt to evolving test requirements. Precision and Reliable Measurements maximize efficiency in verification, production, and maintenance processes, while our automation-driven approach reduces test durations and minimizes error margins. Furthermore, our extensive experience in critical sectors such as defense, aerospace, automotive, and industrial electronics positions us as a trusted partner in testing and validation of complex systems. Our test systems, supported by advanced data analytics and fault detection algorithms, enable predictive maintenance and performance optimization. Example: DEICO DTS-1000DTS-1000 – DEICO's test station provides a versatile solution for various testing applications. The station can be configured to support various DEICO modules and can be used for real-time data acquisition and control applications. Features Testing of MIL-STD-1553, ARINC429, ARINC708 avionic protocols. RS422/485 series communication infrastructure up to 12 Mbit/s. RS232 series communication infrastructure up to 1 Mbit/s. SPI, I2C, 1-Wire, CAN communication protocols. Wide scope video matrix switching and imaging capability with HDMI, DP, VGA, DVI, Component, S-Video, CVBS, and HD-SDI. Versatile switching capability with various matrix switches and multiplexer modules. High-capacity AC/DC power supplies and electronic load modules. RF and general-purpose switching capability. User-friendly connection interface. Remote control of all test & measurement devices with C/C++, C# and NI Labview. Boundary scan test capability. Automatic self-test capability. ApplicationsIntermediate Level (I-Level) Test Equipment for ACMI PODReading Time: 3. 7 min. F-16 Electronics and Avionics Test SystemReading Time: 2. 7 min. GOTS – Advanced Automated Test SystemReading Time: 2. 4 min. --- System Integration Laboratories (SIL) are controlled environments used to validate the interaction of hardware and software components across complex systems in aerospace, automotive, defense, and energy industries. AerospaceDefenseAutomotiveHomeTable of ContentsThe Role of System Integration LaboratoriesIn the development of large and complex systems, multiple subsystems are often developed by different teams or suppliers. While each subsystem may function correctly in isolation, integrating them into a cohesive system presents unique challenges. These challenges include: Communication Protocol Compatibility: Ensuring different components can exchange data reliably. Timing and Synchronization: Aligning operations across distributed systems. Fault Handling: Verifying how the system responds to faults at the subsystem level. System Integration Laboratories address these challenges by creating a controlled environment where engineers can test and refine the interactions between subsystems. By simulating real-world conditions, SILs provide invaluable insights into system behavior, helping identify and resolve issues early in the development lifecycle. Key Features of System Integration LaboratoriesScalable Test Environment: SILs are designed to accommodate a wide range of subsystems, from a few components to highly complex architectures. This scalability ensures that the lab can evolve alongside the system being developed. Real-Time Simulation: Real-time simulation platforms, such as PXI or FPGA-based systems, enable engineers to test the interaction of components under dynamic conditions, replicating real-world scenarios with high accuracy. Communication Protocol Support: SILs support various industry-standard communication protocols, including CAN, ARINC-429, MIL-STD-1553, Ethernet, and more. This ensures seamless integration of diverse subsystems. Fault Injection Capabilities: Fault injection tools allow engineers to simulate failures in hardware or software subsystems, verifying the system's ability to detect and respond to faults. Mass Interconnect Systems: Standardized interfaces ensure quick and reliable connections between different subsystems, streamlining the integration process. Automation and Data Management: Advanced automation tools enable repeatable testing of complex systems, while integrated data management systems ensure traceability and compliance with regulatory standards. Applications Across IndustriesAerospace and Defense: Testing the integration of avionics systems, navigation systems, and mission-critical components in aircraft or unmanned aerial vehicles (UAVs). Automotive: Validating the interaction of powertrain control units, advanced driver-assistance systems (ADAS), and in-vehicle networks. Energy: Ensuring seamless integration of power generation, storage, and distribution systems in renewable energy plants or microgrids. Industrial Automation: Testing factory automation systems, robotics, and process control equipment for synchronized operation. Advantages of System Integration LaboratoriesEarly Issue Detection: SILs allow engineers to identify and address integration issues early in the development cycle, reducing costly delays. Improved System Reliability: By testing the system as a whole, SILs ensure that subsystems work together seamlessly, minimizing the risk of failures. Reduced Development Time: Automated testing and fault simulation accelerate the integration process, enabling faster time-to-market. Compliance with Standards: SILs help organizations meet regulatory requirements and industry standards by providing a controlled and traceable testing environment. DEICO System Integration LaboratoriesWe specialize in designing and delivering state-of-the-art System Integration Laboratories tailored to your specific needs. Our solutions include: Customizable Test Benches: Modular and scalable test setups that can accommodate subsystems of varying complexity. Real-Time Simulation Platforms: PXI-based platforms for high-fidelity simulation of system dynamics and interactions. SLSC-Based Signal Conditioning: Routing and fault injection modules designed to handle diverse signal types and protocols. Mass Interconnect Solutions: Standardized and flexible interfaces to streamline subsystem connections. Test Automation Tools: Comprehensive automation solutions to manage and execute complex test scenarios efficiently. In addition, we integrate third-party hardware such as oscilloscopes, multimeters, power supplies, and network analyzers to meet the specific requirements of your system. Our expertise in hardware and software integration ensures that your SIL is optimized for performance, scalability, and reliability. System Integration Laboratories are critical for the successful development and validation of complex systems. By providing a controlled and collaborative environment, SILs enable engineers to test and refine subsystem interactions, ensuring seamless integration and robust performance. We combine cutting-edge technology with industry expertise to deliver tailored SIL solutions that meet the unique challenges of your projects. With our support, you can confidently bring your systems to market with enhanced reliability and efficiency. ApplicationsSystem Integration Laboratory for a Civil Avionics PlatformReading Time: 2. 3 min. --- Battery Management HIL Systems are specialized Hardware-in-the-Loop platforms used to ensure the performance and reliability of Battery Management Systems (BMS). Electric MobilityRenewable EnergyAerospaceHomeTable of ContentsThe Role of Battery Management SystemsA Battery Management System is the intelligence behind modern energy storage solutions. It monitors and manages battery parameters, including state-of-charge (SOC), state-of-health (SOH), voltage, current, and temperature, while ensuring safe operation under all conditions. Additionally, it protects the battery pack from overcharging, deep discharge, thermal runaway, and cell imbalance. Given the critical role of the BMS, rigorous testing is essential to guarantee its reliability and performance. Battery Management HIL Systems provide a platform to simulate real-world conditions, enabling comprehensive testing without the need for a physical battery pack. Key Features of Battery Management HIL SystemsBattery Pack Emulation: Battery Management HIL Systems can emulate the electrical characteristics of individual cells or complete battery packs. This includes cell balancing behavior, varying cell states, and realistic voltage and current profiles. Fault Injection: Testing fault scenarios such as cell failures, temperature sensor errors, or communication malfunctions is crucial. HIL systems allow for controlled fault injection to evaluate the BMS's fault-handling capabilities. Thermal and Electrical Simulation: Advanced HIL systems simulate thermal behavior alongside electrical characteristics to test the BMS under various environmental conditions, such as extreme heat or cold. High-Voltage and High-Current Testing: Many modern battery systems operate at high voltage and current levels, particularly in electric vehicles and industrial energy storage. Battery Management HIL Systems are designed to handle these conditions safely and accurately. Flexible Communication Interfaces: BMS units often rely on communication protocols like CAN, CAN-FD, or Ethernet. HIL systems provide comprehensive support for these interfaces, enabling seamless testing. Applications Across IndustriesAutomotive: Testing the BMS for electric vehicles (EVs) and hybrid electric vehicles (HEVs) to ensure safe and efficient battery operation under varying driving conditions. Renewable Energy: Validating the performance of battery systems used in solar or wind energy storage. Aerospace: Testing BMS units for aircraft systems, where reliability is non-negotiable. Consumer Electronics: Ensuring the safety and longevity of batteries in laptops, smartphones, and other portable devices. Advantages of Battery Management HIL SystemsSafety: Testing in a virtual environment eliminates the risk of damaging expensive batteries or causing hazardous situations. Cost-Effectiveness: Reduces the need for physical battery packs during development and validation phases. Repeatability: Enables consistent and repeatable test scenarios for accurate validation. Scalability: Allows testing of BMS units for systems ranging from small consumer electronics to large industrial setups. DEICO Battery Management HIL SystemsBattery Cell Emulation: High-fidelity simulation of battery cells with adjustable voltage, current, and temperature parameters. Fault Injection Modules: SLSC-based modules for simulating cell imbalances, sensor failures, and communication errors. Thermal Simulation Capabilities: Integrated thermal models to test the BMS under realistic operating conditions. Customizable Interfaces: Support for various communication protocols such as CAN, CAN-FD, and Ethernet, ensuring seamless integration with your BMS architecture. High-Voltage and High-Current Support: Safe and precise testing for systems operating at industrial-level power ratings. In addition, we provide flexible software solutions built on platforms like LabVIEW and VeriStand, allowing for comprehensive test automation and real-time analysis. Battery Management HIL Systems are essential for ensuring the safety, efficiency, and reliability of modern energy storage solutions. They provide engineers with the tools to validate and refine BMS designs under diverse operating conditions, paving the way for innovations in battery technology. With our expertise and customizable solutions, you can confidently develop and validate your BMS systems to meet the demands of a rapidly evolving energy landscape. ApplicationsNothing Found --- xCU HIL Systems are advanced Hardware-in-the-Loop platforms designed to test and validate control units (xCUs) under real-time conditions. AerospaceAutomotiveIndustrialHomeTable of ContentsThe Role of xCU in Complex SystemsControl units are the brains behind numerous systems, managing tasks such as data acquisition, signal processing, decision-making, and actuation. For example, an ECU in an automotive context controls engine performance, emissions, and fuel efficiency, while an FCU in an aircraft ensures precise navigation and stability. As these control units grow increasingly sophisticated, with complex algorithms and real-time decision-making capabilities, the need for rigorous testing has become more crucial than ever. xCU HIL systems simulate real-world conditions, enabling these units to be tested under various operational scenarios without the need for a physical system. This ensures that the control unit behaves as intended in a safe and controlled environment. Key Features of xCU HIL SystemsReal-Time Simulation: xCU HIL systems are equipped with real-time processors to simulate high-fidelity models of the system the control unit interacts with. For instance, an ECU HIL system can simulate engine dynamics, transmission behavior, and environmental conditions like altitude or temperature. Fault Injection Capabilities: Fault scenarios such as sensor failures, actuator malfunctions, or communication issues can be injected into the system to evaluate the control unit's fault-handling mechanisms. Comprehensive I/O Support: xCU HIL systems support a wide range of input and output interfaces such as analog, digital, CAN, LIN, FlexRay, ARINC-429, and MIL-STD-1553, ensuring compatibility with diverse control unit architectures. Automated Testing: These systems often include automated test tools to streamline regression testing, reduce human error, and increase testing efficiency. Applications Across IndustriesAutomotive: Testing ECUs for engines, transmission systems, and Advanced Driver Assistance Systems (ADAS). Aerospace: Validating FCUs, autopilot systems, and avionics. Industrial Automation: Verifying Programmable Logic Controllers (PLCs) and ACUs for robotics and machinery. Advantages of xCU HIL SystemsCost Savings: Testing on an xCU HIL system eliminates the need for full-scale prototypes, significantly reducing development costs. Safety: Dangerous or failure-prone scenarios can be tested in a controlled environment without risking physical damage or harm. Scalability: xCU HIL platforms can be adapted to test multiple control units with varying complexity. DEICO xCU HIL SystemsWe specialize in providing cutting-edge HIL systems tailored for xCU testing. Our solutions integrate real-time PXI platforms, SLSC signal conditioning modules, and modular test interfaces to meet your exact requirements. Whether you're testing an ECU for an automotive application or an FCU for an aerospace project, our systems are designed to deliver precision, reliability, and efficiency. With in-house design capabilities and partnerships with leading hardware and software providers, DEICO ensures that your xCU HIL system is optimized for performance. Our solutions include features such as fault injection, sensor emulation, and flexible software integration with LabVIEW, VeriStand, and custom platforms. xCU HIL systems are an indispensable tool for validating control units in today's complex and safety-critical systems. They enable engineers to test beyond the limits of physical prototypes, ensuring that every control unit is robust, reliable, and ready for real-world challenges. With DEICO's expertise, you can elevate your testing capabilities and accelerate your product development timeline. ApplicationsFCU HIL Rig for a Training JetReading Time: 1. 6 min. Digital ECU HIL Rig for a HelicopterReading Time: 1. 4 min. FCU HIL Rig for a Fighter JetReading Time: 1. 6 min. --- BlogStay Updated with DEICOHomeLatest NewsSeptember 30, 2025Events & ExhibitionsBlue Day 2025: A New Tradition at DEICO This year, DEICO introduced a new tradition: Blue Day. Organized on our terrace, the event marked the closing of Engineering Solutions, Product Insights Streamlining Tests with OpenTAPMay 18, 2023 Company News DEICO Peryön Human Value AwardDecember 21, 2024 Company News Joined PXI System AllianceJanuary 13, 2025 Engineering & Technology2. 3 min read Why Windows 11 Matters in PXI Test SystemsRead ArticleLet's Learn 11. 4 min read Test Configuration for Design Verification of Mission ComputersRead ArticleLet's Learn 3. 6 min read What does DEICO offer for your HIL needs? Read ArticleLet's Learn 3. 2 min read Core Components of a HIL SystemRead ArticleLet's Learn 1. 7 min read What’s HIL? Why could one need it? Read ArticleLet's Learn 5. 6 min read Streamlining Tests with OpenTAPRead ArticleLet's Learn 2. 2 min read Accelerate Embedded Development with Rapid Control Prototyping (RCP)Read ArticleLet's Learn Field Stories & Case StudiesHelicopter Generator/Starter Test SystemFully automatic helicopter generator/starter test system for military & civil aviation. Test, analyze, and certify performance per ISO/API standards with dual-test capability. Intermediate Level (I-Level) Test Equipment for ACMI PODIntermediate Level (I-Level) test equipment are advanced diagnostic and testing systems that enable maintenance and repair activities to be performed at aircraft maintenance centers (prior to depot-level maintenance). These systems allow for precise fault detection, component replacement, and recalibration of ACMI POD systems, ensuring operational reliability and performance. F-16 Electronics and Avionics Test System Reading time: 2. 6 min. GOTS – Advanced Automated Test System Reading time: 2. 3 min. System Integration Laboratory for a Civil Avionics Platform Reading time: 2. 2 min. FCU HIL Rig for a Training Jet Reading time: 1. 5 min. Digital ECU HIL Rig for a Helicopter Reading time: 1. 3 min. FCU HIL Rig for a Fighter Jet Reading time: 1. 5 min. Helicopter Transmission Flushing Systems Reading time: 0. 5 min. Linear & Rotary Actuator Test Systems Reading time: 0. 6 min. Helicopter Blade Repair-Maintenance Systems Reading time: 0. 5 min. Helicopter Blade Static Balancing Test Systems Reading time: 0. 6 min. Events & ExhibitionsEvents & Exhibitions Blue Day 2025: A New Tradition at DEICOSeptember 30, 2025 Inside DEICOCompany News DEINA: Our AI-Powered Corporate AssistantSeptember 3, 2025 Company News Joined PXI System AllianceJanuary 13, 2025 Company News DEICO Peryön Human Value AwardDecember 21, 2024 --- Fill the Form, Request an OfferYou've selected the following items. Your Cart Total: 0 CountryTürkiyeAfghanistanÅland IslandsAlbaniaAlgeriaAmerican SamoaAndorraAngolaAnguillaAntarcticaAntigua and BarbudaArgentinaArmeniaArubaAustraliaAustriaAzerbaijanBahamasBahrainBangladeshBarbadosBelarusBelgiumBelizeBeninBermudaBhutanBoliviaBonaire, Sint Eustatius and SabaBosnia and HerzegovinaBotswanaBouvet IslandBrazilBritish Indian Ocean TerritoryBrunei DarussalamBulgariaBurkina FasoBurundiCambodiaCameroonCanadaCape VerdeCayman IslandsCentral African RepublicChadChileChinaChristmas IslandCocos IslandsColombiaComorosCongo, Democratic Republic of theCongo, Republic of theCook IslandsCosta RicaCôte d'IvoireCroatiaCubaCuraçaoCyprusCzech RepublicDenmarkDjiboutiDominicaDominican RepublicEcuadorEgyptEl SalvadorEquatorial GuineaEritreaEstoniaEswatini (Swaziland)EthiopiaFalkland IslandsFaroe IslandsFijiFinlandFranceFrench GuianaFrench PolynesiaFrench Southern TerritoriesGabonGambiaGeorgiaGermanyGhanaGibraltarGreeceGreenlandGrenadaGuadeloupeGuamGuatemalaGuernseyGuineaGuinea-BissauGuyanaHaitiHeard and McDonald IslandsHoly SeeHondurasHong KongHungaryIcelandIndiaIndonesiaIranIraqIrelandIsle of ManIsraelItalyJamaicaJapanJerseyJordanKazakhstanKenyaKiribatiKuwaitKyrgyzstanLao People's Democratic RepublicLatviaLebanonLesothoLiberiaLibyaLiechtensteinLithuaniaLuxembourgMacauMacedoniaMadagascarMalawiMalaysiaMaldivesMaliMaltaMarshall IslandsMartiniqueMauritaniaMauritiusMayotteMexicoMicronesiaMoldovaMonacoMongoliaMontenegroMontserratMoroccoMozambiqueMyanmarNamibiaNauruNepalNetherlandsNew CaledoniaNew ZealandNicaraguaNigerNigeriaNiueNorfolk IslandNorth KoreaNorthern Mariana IslandsNorwayOmanPakistanPalauPalestine, State ofPanamaPapua New GuineaParaguayPeruPhilippinesPitcairnPolandPortugalPuerto RicoQatarRéunionRomaniaRussiaRwandaSaint BarthélemySaint HelenaSaint Kitts and NevisSaint LuciaSaint MartinSaint Pierre and MiquelonSaint Vincent and the GrenadinesSamoaSan MarinoSao Tome and PrincipeSaudi ArabiaSenegalSerbiaSeychellesSierra LeoneSingaporeSint MaartenSlovakiaSloveniaSolomon IslandsSomaliaSouth AfricaSouth GeorgiaSouth KoreaSouth SudanSpainSri LankaSudanSurinameSvalbard and Jan Mayen IslandsSwedenSwitzerlandSyriaTaiwanTajikistanTanzaniaThailandTimor-LesteTogoTokelauTongaTrinidad and TobagoTunisiaTurkmenistanTurks and Caicos IslandsTuvaluUgandaUkraineUnited Arab EmiratesUnited KingdomUnited StatesUruguayUS Minor Outlying IslandsUzbekistanVanuatuVenezuelaVietnamVirgin Islands, BritishVirgin Islands, U. S. Wallis and FutunaWestern SaharaYemenZambiaZimbabwe document. addEventListener('DOMContentLoaded', function { // MU eklenti, QuoteCart. ajaxUrl ve QuoteCart. nonce değerlerini sayfaya verdi if (! window. QuoteCart || ! QuoteCart. ajaxUrl || ! 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Your request has been received, and our sales team will get in touch with you shortly. ×Something went wrong and your request could not be submitted. Please refresh the page and try again, or contact us at . × --- We specialize in the development of dynamic test systems that evaluate the integrated performance of complex electrical and mechanical subsystems. These systems ensure reliability across diverse mission scenarios, merging mechanical behaviors —such as strain, speed, and position— with electrical specifications. Using actuators, servo motors, and pneumatic components, this product family authentically simulate real-world mechanical and electrical interactions, guaranteeing a holistic and realistic testing environment. Helicopter Generator/Starter Test SystemFully automatic helicopter generator/starter test system for military & civil aviation. Test, analyze, and certify performance per ISO/API standards with dual-test capability. Helicopter Transmission Flushing SystemsState-of-the-art flushing systems that maintain cleanliness and functionality through advanced filtration, hydraulic oil flow control, and real-time monitoring. Linear & Rotary Actuator Test SystemsComprehensive testing platforms for linear and rotary actuators, supporting multiple parameters such as angle, torque, and voltage Helicopter Blade Repair-Maintenance SystemsThis product group provides integrated solutions that streamline adhesive bonding, sheath assembly, and curing processes. Helicopter Blade Static Balancing Test SystemsThis product group offers advanced systems designed to measure and adjust the static balance of main rotor blades with exceptional accuracy. --- PCB AssemblyWe provide board assembly services for high-density electronic designs intended for harsh environments, supported by advanced manufacturing infrastructure. Compliance with IPC-A-610 Class 1,2 & 3 standards Full inspection based on high-reliability criteriaSuitable for aerospace, defense, and industrial applicationsLearn MoreElectromechanical AssemblyWith 10+ years of experience, we deliver end-to-end solutions for the design, development, and production of electromechanical systems used in testing and measurement across multiple industries. Expertise in custom test and measurement equipmentTurnkey project capability from concept to productionScalable solutions for defense, aerospace, automotive, and industrial sectorsIn-house engineering, manufacturing, and quality controlProven track record in high-complexity applicationsLearn MoreMechanical ManufacturingWe provide competitive mechanical manufacturing services supported by advanced bench setups and production infrastructure investments. Precision machining and custom part productionScalable capacity for prototyping and serial manufacturingIntegration with electromechanical assembly processesIndustry-standard quality and documentationSuitable for aerospace, defense, and industrial needsLearn More --- We design and manufacture automated test and measurement systems for various industries, primarily defense and aerospace. Our Automated Test Equipment (ATE) automates test processes for a wide range of components, from electronic boards to mechanical parts, ensuring high accuracy and repeatability. Additionally, with our Test Program Sets (TPS), we enable our systems to create customized test scenarios for different products and components. Our test solutions are designed for design validation, production testing, and maintenance and support a broad test scope, from intelligent boards containing FPGA/MCUs to fully passive components. Tailored to customer requirements, our systems are built on the principles of fast integration, reliable results, and long-term usability. Automated Test EquipmentsAutomated Test Systems (ATE) are designed for efficient and repeatable testing of electronic and mechanical components in defense, aerospace, and industrial environments. Functional and performance verificationSupport for production, validation, and maintenance stagesCustom configurations for application-specific needsHigh-speed, accurate test executionScalable architecture for evolving requirementsReduced manual effort and test timeLearn MoreTest Program SetsTest Program Sets (TPS) are integrated hardware (ITAs) and software packages used to validate electronic and electromechanical systems in automated test environments across defense, aerospace, automotive, and industrial sectors. SRU, LRU & System-level fault diagnostics and verificationCompatibility with Automated Test Equipment (ATE)Customizable for platform-specific requirementsAccurate and repeatable test executionDesigned for high-precision applicationsReduced development time and maintenance effortLearn MorePortable Test SetsOur Portable Test Sets are engineered for professionals who need rugged, accurate, and easy-to-use diagnostic tools in the field. Whether you're working on high-voltage systems, telecom lines, avionics, or industrial automation, our solutions ensure consistent performance and reliable results. Even in challenging environments. Portable & lightweight: designed for easy transport and on-site diagnostics Rugged housing: withstands field conditions, impact, and weather High accuracy & resolution: industry-leading measurement technology User-friendly interface: clear display, intuitive menus, multilingual support Learn More --- Rapid Prototyping and ValidationTest and refine designs early in the development process. System-Level TestingValidate the interaction of software and hardware in real-time. Fault InjectionSimulate failure conditions to assess system robustness and reliability. Scalability and ModularityAdapt the system to meet evolving test requirements. Automation and EfficiencyReduce test cycle times with automated testing workflows. What’s HIL? Why could one need it? Core Components of a HIL SystemWhat do we offer for HIL needs? xCU HIL SystemsxCU HIL Systems are advanced Hardware-in-the-Loop platforms designed to test and validate control units (xCUs) under real-time conditions. Testing and validation of Electronic Control Units (ECU), Flight Control Units (FCU), and Actuator Control Units (ACU) Use in automotive, aerospace, and industrial systems Real-time simulation of operating conditionsEarly detection of design and integration faultsScalable test environments for iterative developmentReduction of prototyping and testing costsLearn MoreBattery Management HIL SystemsBattery Management HIL Systems are specialized Hardware-in-the-Loop platforms used to ensure the performance and reliability of Battery Management Systems (BMS). Functional testing of Battery Management Systems (BMS)Support for electric mobility, renewable energy, and aerospace systemsReal-time simulation of battery behaviors and fault conditionsSafe and repeatable validation environmentScalable architecture for different battery configurationsReduced testing time and physical prototype dependencyLearn MoreSystem Integration LaboratoriesSystem Integration Laboratories (SIL) are controlled environments used to validate the interaction of hardware and software components across complex systems in aerospace, automotive, defense, and energy industries. End-to-end integration of multiple subsystemsVerification of system-level functionality and complianceSimulation of real-world operating conditionsEarly detection of integration and communication issuesImproved reliability before field deploymentReduced risk and development timeLearn More --- Contact UsWe’re Ready to Hear From YouHomeDEICO Head OfficeSerhat Mahallesi, Teknopark Ankara F Blok, Z-12, Yenimahalle, Ankara, Türkiye +90 312 395 68 44 info@deico. com. tr DEICO Production FacilityOstim, Bağdat Caddesi No: 9, 06374 Yenimahalle, Ankara, Türkiye +90 312 395 68 44 info@deico. com. tr DEICO Germany GmbHEngelbertstraße 6, 81241 Munich, Germany +90 312 395 68 44 info@deico-germany. com Monday to Friday: 7:30 AM – 4:30 PM (UTC+3)DEICO Head OfficeDEICO Production FacilityDEICO Germany GmbHHave a Message? Send UsCountryTürkiyeAfghanistanÅland IslandsAlbaniaAlgeriaAmerican SamoaAndorraAngolaAnguillaAntarcticaAntigua and BarbudaArgentinaArmeniaArubaAustraliaAustriaAzerbaijanBahamasBahrainBangladeshBarbadosBelarusBelgiumBelizeBeninBermudaBhutanBoliviaBonaire, Sint Eustatius and SabaBosnia and HerzegovinaBotswanaBouvet IslandBrazilBritish Indian Ocean TerritoryBrunei DarussalamBulgariaBurkina FasoBurundiCambodiaCameroonCanadaCape VerdeCayman IslandsCentral African RepublicChadChileChinaChristmas IslandCocos IslandsColombiaComorosCongo, Democratic Republic of theCongo, Republic of theCook IslandsCosta RicaCôte d'IvoireCroatiaCubaCuraçaoCyprusCzech RepublicDenmarkDjiboutiDominicaDominican RepublicEcuadorEgyptEl SalvadorEquatorial GuineaEritreaEstoniaEswatini (Swaziland)EthiopiaFalkland IslandsFaroe IslandsFijiFinlandFranceFrench GuianaFrench PolynesiaFrench Southern TerritoriesGabonGambiaGeorgiaGermanyGhanaGibraltarGreeceGreenlandGrenadaGuadeloupeGuamGuatemalaGuernseyGuineaGuinea-BissauGuyanaHaitiHeard and McDonald IslandsHoly SeeHondurasHong KongHungaryIcelandIndiaIndonesiaIranIraqIrelandIsle of ManIsraelItalyJamaicaJapanJerseyJordanKazakhstanKenyaKiribatiKuwaitKyrgyzstanLao People's Democratic RepublicLatviaLebanonLesothoLiberiaLibyaLiechtensteinLithuaniaLuxembourgMacauMacedoniaMadagascarMalawiMalaysiaMaldivesMaliMaltaMarshall IslandsMartiniqueMauritaniaMauritiusMayotteMexicoMicronesiaMoldovaMonacoMongoliaMontenegroMontserratMoroccoMozambiqueMyanmarNamibiaNauruNepalNetherlandsNew CaledoniaNew ZealandNicaraguaNigerNigeriaNiueNorfolk IslandNorth KoreaNorthern Mariana IslandsNorwayOmanPakistanPalauPalestine, State ofPanamaPapua New GuineaParaguayPeruPhilippinesPitcairnPolandPortugalPuerto RicoQatarRéunionRomaniaRussiaRwandaSaint BarthélemySaint HelenaSaint Kitts and NevisSaint LuciaSaint MartinSaint Pierre and MiquelonSaint Vincent and the GrenadinesSamoaSan MarinoSao Tome and PrincipeSaudi ArabiaSenegalSerbiaSeychellesSierra LeoneSingaporeSint MaartenSlovakiaSloveniaSolomon IslandsSomaliaSouth AfricaSouth GeorgiaSouth KoreaSouth SudanSpainSri LankaSudanSurinameSvalbard and Jan Mayen IslandsSwedenSwitzerlandSyriaTaiwanTajikistanTanzaniaThailandTimor-LesteTogoTokelauTongaTrinidad and TobagoTunisiaTurkmenistanTurks and Caicos IslandsTuvaluUgandaUkraineUnited Arab EmiratesUnited KingdomUnited StatesUruguayUS Minor Outlying IslandsUzbekistanVanuatuVenezuelaVietnamVirgin Islands, BritishVirgin Islands, U. S. Wallis and FutunaWestern SaharaYemenZambiaZimbabwe I agree to the Privacy Policy. Submit Thank you for contacting us. We have received your message and will get back to you soon. ×We could not send your message due to a technical issue. Please try again or reach us directly at . × --- Contact UsJoin the Future of Engineering ExcellenceCareer at DEICOOpen PositionsHomeBalanced Work & LifeEnjoy a healthy work-life balance through social events, DEICO Cafe gatherings, and a supportive team culture. Tech-Driven EnvironmentAll the opportunities to improve your work and you can successfully perform without technological difficulties. Dynamic and Open CultureCollaborate freely, share ideas openly, and contribute to innovative solutions in a young and energetic workplace. Continuous GrowthAccess a wide range of internal and external training programs to strengthen both your technical and soft skills. Team DevelopmentGrow with skilled teams that combine technical expertise with effective collaboration. Our PrinciplesBe a team playerWe are the players of a good team. We work together in solidarity and share our successes together. Lead with innovation and technologyIt is our priority to use innovative technologies, offer innovative solutions and increase our technological level all the time. Care ethical valuesWe care about compliance with the law, accountability, gender equality, a sustainable world, and a safe working environment. Perks & BenefitsSome of the things we love about DEICO. Competitive CompensationHealthcarePersonal Growth SupportLoyalty VacationRemote Working OptionFlexible Working HoursAdditional Paid Time OffSocial EventsAward SystemLearning OpportunitiesUnlimited/Free E-Learning PlatformsMaster & PHD SupportHPV VaccinationFree Company ShuttleLife at DEICOOpen CultureWe value voice of every member of DEICO. SocialsHappy hours, camps, trekking event and social clubs are only some of our social activities. Never Stop LearningWe think we’re pretty smart but thrive on growing and learning more. We support learning and development programs for pretty much anything. Featured AwardsGreat Place to Work®2022Recognized for fostering a culture of trust, collaboration, and employee engagement. Workplace Quality of Life Practices2024Honored for initiatives that enhance the well-being and work-life balance of our team. Recruitment Process01ApplicationYou can apply to the open positions. 02Pre-interviewA short HR interview is held with candidates. 03Technical CaseAfter positive pre-interview, technical cases are sent to the candidates. 04InterviewAccording to technical cases results, candidates are invited for the interview. 05Welcome aboard! Congratulations! We look forward to see you in our team. Open PositionsControl and Automation Systems - Electronic Design Engineer Location: Ankara, Türkiye - On-site We are seeking an "Electronic Design Engineer" to be a member of our Control and Automation Systems team; The ideal candidate should have the following qualifications: Graduated preferably from Electrical-Electronics, Electronics Communication or Control Engineering department of universities, Experience in development and implementation of test automation and test scenario and system engineering processes, Proficiency in analyzing complex circuit diagrams and creating test scenarios, Experience in process automation, machine automation and electromechanical test systems, Experience in DCS, PLC and Scada software, Experience with Ethercat, Profinet, Modbus TCP/IP protocols, Proficiency in electrical and panel design drawing programs, Experience in medium voltage - low voltage equipments, Experience in servo drives and frequency converters, Familiarity with military connectors, Knowledge of concepts and terminology in military and civil aviation, avionics systems, defense industry projects and systems engineering, Proficiency in design test equipment and remote-control usage, Willingness to learn new technologies, Strong written and verbal communication skills in English, The new team member will be responsible for: Reading, interpreting, and deriving system requirements from provided specifications, technical drawings, electrical circuit diagrams, operator or maintenance manuals, etc. , to contribute to system solutions, Determining verification methods and developing functional test scenarios based on system requirements, Documenting and designing data collection system of electronic designs according to derived requirements, Preparing and integrating system software, Monitoring, analyzing, debugging and reporting validation activities on the test system, Analyzing test results, providing feedback to relevant personnel regarding software and hardware components, and contributing to system solution improvement, Participating in installation and acceptance activities in the customer sites, Collaborating with the project management team during project execution, assisting with planning activities, and contributing to the implementation of project plans, Reporting project discrepancies to the quality team during the project process and ensuring the delivery of project outputs in accordance with quality standards, Contributing to relevant R&D and P&D projects as a system engineer, If you're ready to take on these responsibilities and contribute to our dynamic team, we look forward to receiving your application. Test and Measurement Systems - Electronic Design EngineerLocation: Ankara, Türkiye - On-site As an Electronic Design Engineer at DEICO, you'll be at the heart of our endeavors,Responsible for:Designing hardware architectures for devices and systemsDeveloping test, measurement, and control algorithmsDesigning and developing software architectures for different systemsIntegrating hardware and softwareDocumenting hardware and software solutionsTo thrive in this role, you'll need:A degree from Electrical-Electronics, Electronics and Communication, or Control EngineeringA strong theoretical background in electronic systemsTheoretical knowledge in using test and measurement equipment (such as power supplies, oscilloscopes, multimeters, etc. )Proficiency in programming languages such as C#, C++, LabVIEW, etc. Knowledge and experience in UART, I2C, SPI, RS-232/422/485 (preferably MIL-STD-1553 and ARINC-429) communication standardsIf you're ready to be part of a team where your skills and ambitions are valued, then we want to hear from you. Join us at DEICO and embark on a journey where innovation knows no bounds. Technical Sales Engineer Location: Ankara, Türkiye - On-site To be assigned as a "Technical Sales Engineer" within the Sales Department;Qualifications:University degree in electrical-electronics, communication, control etc. engineeringAt least 2 years of experience in electronic hardware design, electronic system design or electronic manufacturingPreferably used test and measurement equipment or have knowledge of the basic usage concepts of such equipmentPreferably experience in LabVIEW, LabWindows/CVI and C/C++/C# programming languagesPreferably experience in Microprocessors, FPGA and DSPKnowledge of test and measurement software, user interface software and test management softwareHaving good command of English (Reading, writing, and speaking)Having driving license and active car driver,Being a curious and sociableHaving good level of communication and presentation skillsResult oriented, with analytical thinking and self-problem solving abilitiesResponsibilities:Responding to pre-sales and post-sales technical support requests from customers for products developed or represented by DEICOTo provide technical information about the products sold; ensure the installation and commissioning of products when necessaryPreparing and presenting product demos based on customer demandsTraining customers on the use of software development platforms developed or represented by DEICOResponding to technical support requests from the sales team or customersProviding in-house technical trainingMaking customer visits with the sales team and technical presentations to customersKablaj ve ATE Üretim TeknikeriKonum: Ankara, TürkiyeÇalışma Şekli: Tam zamanlı Şirketimizin üretim ekibi bünyesinde görev almak üzere üretim teknikeri pozisyonu içinTercihen üniversite meslek yüksek okullarının elektrik, elektronik, haberleşme vb. bölümlerinden mezun,Askeri ve endüstriyel kablaj üretimi ve kart dizgisi konusunda en az 2 yıl tecrübeli,Elektronik cihazların mekanik montajı konusunda tecrübeli,Lehimleme ve kablaj üretimi konusunda eğitim almış (IPC-A-610/ IPC-A-620 / J-STD-001 veya ESA sertifikalı) ve çalışmış olan,Tercihen Autocad, Microsoft Visio, Word, Excel vb. programları kullanabilen,Elektrik - Elektronik malzeme bilgisine sahip,Devre şeması okuyabilen ve devre takibi yapabilen,Lehimleme istasyonu, hotplate, sıcak hava tabancası vb. cihaz ve aletleri kullanabilen,Erkek adaylar için tercihen askerlik hizmetini tamamlamış veya en az 2 yıl tecilli,Ekip çalışmasına yatkın, iş takibi ve sonuçlandırma becerisine sahip, iletişimi kuvvetli, analitik düşünebilen,B sınıfı ehliyete sahip ve aktif araç kullanabilen,Titiz çalışan ve detaylara önem veren,takım arkadaşları arıyoruz. İş Tanımı:Yeni ekip arkadaşlarımız;Askeri standartlara ve dokümanlara uygun kablaj üretimi,Elektronik kart dizgisi,Elektronik cihaz ve test birimlerinin mekanik montaj faaliyetleri,Gerektiği durumlarda bakım-onarım faaliyetlerinin yürütülmesi,Test gereçlerinin dokümantasyonugörevlerini üstlenecektir. Our journey led us to mastering various skills and expertise in several areas for building successful products. It Starts Here. Let’s Fill Out the Form! --- Access technical help, product guides, and service resources. Search for: Would you like more help? Contact Our Supportsupport@deico. com. trSend an E-mail +90 (312) 395 68 44 Call UsHomeDocumentsBrochures(34) Datasheets(48) User Manuals(1) Technical Drawings(2) Document Revision History(21) Drivers(1) Software(3) Configuration Files(1) Community ForumJoin the DEICO forum to ask questions, share experiences, and find answers from other users and experts. Go to DEICO ForumDEICO ForumFAQDo you provide spare parts or modules after sales? deico2025-06-04T17:33:42+03:00Do you provide spare parts or modules after sales? Yes, we offer spare parts and module supply support for all our products. Can test scenarios be configured through software? deico2025-06-04T17:33:25+03:00Can test scenarios be configured through software? Yes, our user-friendly interface allows test scenarios to be graphically configured and automated. What types of sensors are supported? deico2025-06-04T17:33:08+03:00What types of sensors are supported? We support various sensor types including strain gauges, thermocouples, accelerometers, pressure sensors, and LVDTs. How many channels do your measurement systems support? deico2025-06-04T17:32:51+03:00How many channels do your measurement systems support? Depending on the system configuration, we offer options ranging from 4 to over 128 channels. Do your products comply with EMC/EMI requirements? deico2025-06-04T17:32:31+03:00Do your products comply with EMC/EMI requirements? Yes, our products are certified through electromagnetic compatibility (EMC) and interference (EMI) testing. Do your devices support data logging? deico2025-06-04T17:31:42+03:00Do your devices support data logging? Yes, selected models come with built-in data logger support. Can the test rig systems be customized? deico2025-06-04T17:31:25+03:00Can the test rig systems be customized? Yes, all test systems can be customized mechanically, functionally, and in software according to customer requirements. Can analog and digital signals be processed simultaneously? deico2025-06-04T17:31:10+03:00Can analog and digital signals be processed simultaneously? Yes, our hybrid DAQ systems support simultaneous multi-channel analog and digital signal processing. How are firmware updates delivered to your devices? deico2025-06-04T17:30:49+03:00How are firmware updates delivered to your devices? Firmware updates can be performed via USB, Ethernet, or remote connection. Required files are available on our support page. Can your products operate under harsh environmental conditions? deico2025-06-04T17:30:25+03:00Can your products operate under harsh environmental conditions? Yes, many of our products have IP protection ratings and are tested for resistance to vibration, humidity, and temperature. Are your products customizable? deico2025-06-04T17:29:10+03:00Are your products customizable? Yes, mechanical, electronic, and software customizations can be made according to the project needs. Do you provide technical training after purchase? deico2025-06-04T17:28:46+03:00Do you provide technical training after purchase? Yes, we provide on-site or online technical training upon customer request. What is the warranty period for your products? deico2025-06-04T17:28:24+03:00What is the warranty period for your products? Our products are covered by a 2-year warranty, while integrated system solutions are covered by a 1-year warranty. Do you offer remote technical support? deico2025-06-04T17:22:21+03:00Do you offer remote technical support? Yes, we provide remote assistance for installation, configuration, and troubleshooting. Which software platforms are supported? deico2025-06-04T17:21:50+03:00Which software platforms are supported? Compatible with engineering platforms such as LabVIEW, MATLAB, and Python. Do you provide software support? deico2025-06-04T17:21:33+03:00Do you provide software support? Yes. Our products come with dedicated software, drivers, and API support. Do you provide calibration services? deico2025-06-04T17:21:10+03:00Do you provide calibration services? Yes, we offer calibration and periodic verification services for all our devices. Can your devices be integrated into different systems? deico2025-06-04T17:20:52+03:00Can your devices be integrated into different systems? Yes. Integration is possible via protocols such as Ethernet, CAN, and RS-232. How can I access technical documentation? deico2025-06-04T17:20:29+03:00How can I access technical documentation? Technical documentation is available on product pages and in the support section of our website. What standards are your products compliant with? deico2025-06-04T17:16:40+03:00What standards are your products compliant with? Our products comply with international testing and safety standards such as MIL-STD, ISO, and CE. --- About UsWe are a technology-driven company specialized in testing and measurement solutions, dedicated to innovation, and global excellence. HomeWho Are We? We are a test solutions provider for manufacturers that produces electromechanical systems, electrical units, and electrical boards worldwide. We build and standardize reliable test solution infrastructures which fulfill your test requirements. We have test and design experts who know modern or legacy test industry solutions (the technical standards, test procedures, test strategies... ). Our expert teams are ready for the test challenges to solve them in the best way with user friendly and cost-effective designs. Our design and production teams provide high quality and on-time products and services that meet or exceed applicable requirements. We are committed to continuously improving the effectiveness of its Quality Management System. Our MissionWe produce technological and creative solutions for testing and measurement needs. Our Vision We aim to have a DEICO device in every environment where there is a need for testing and measurement. From 2013 to NowEvery signal tested. Every idea measured. Every year engineered. CertificatesAS9100Certified CompanyEYDEPES 401 - A Level --- HomeWe provide scalable engineering solutions for real-time testing, system validation, and automated measurement. In-house engineeringFuture-proof integrationField-tested performance Fast response & technical support Real Time & HIL Test SystemsAdvanced real-time and HIL solutions for testing embedded control units, simulating real-world signals, and validating safety-critical systems. ExploreAutomated Test & Measurement SystemsFlexible and scalable automated systems for fast, repeatable testing and accurate measurement of electronic devices and assemblies. ExploreDynamic Test SystemsTest systems that replicate real mechanical loads and motion to evaluate the durability and performance of structural and rotating components. ExploreManufacturing ServicesTest systems that replicate real mechanical loads and motion to evaluate the durability and performance of structural and rotating components. Explore --- HomeWe provide the foundational hardware and software for creating advanced, reliable, and scalable test and measurement systems. Our portfolio is carefully curated from world-leading manufacturers to offer the best-in-class COTS (Commercial-Off-The-Shelf) solutions. From high-performance modular instruments based on PXIe and PCIe to specialized avionics interfaces and versatile data acquisition systems, we equip engineers with the tools they need to accelerate testing and ensure quality in the aerospace, defense, and industrial sectors. PXIePXI Express (PXIe) delivers high-speed data, advanced timing, and modular scalability for demanding test applications in validation, verification, and production environments. View All PXI Chassis 10 Slot 4 Link Gen 3 PXIe Jetson AGX Xavier Module GMSL2 Module Jetson AGX Xavier Avionics InterfacesAvionics interfaces enable simulation and testing on protocols like MIL-STD-1553, ARINC 429, and ARINC 825. Offered in PXI, PCIe, and USB/Ethernet, they ensure reliable performance for LRUs and subsystems. View All Aviolinks® Ethernet/USB (MIL-STD-1553/ARINC-429/ARINC-825/Discrete) Aviolinks® GUI MPCIe MIL-STD-1553 Module 2 CH DAQData Acquisition systems convert real-world signals like voltage, temperature, and pressure into precise digital data. They provide reliable measurements for test, monitoring, and control applications. View All Rugged DAQ ADC Module 8 CH 52 kS/s Rugged DAQ Power Module Rugged DAQ System Controller Module Signal Conditioning & SimulationIn HIL testing, signal conditioning and simulation tools connect real-time simulators to the Unit Under Test. They replace physical components with programmable equivalents, enabling accurate testing of controller behavior under various conditions. View All Battery Simulation Unit SLSC Programmable Discrete IO Module SLSC Amplifier Module 30 mA Embedded Boards & ModulesDesigned to serve as the computing core of your end-product, reducing development time. View All Zynq SoM Carrier Board Zynq-7015 System on Module (SoM) Ethernet Controlled InstrumentsEthernet-controlled instruments run over standard networks, enabling flexible, distributed setups. They simplify integration, support remote access, and can be managed from a single PC. View All General Purpose Relay Module 16 CH 16 A General Purpose Relay Module General Purpose Multiplexer Module MIL-STD 1553 Bus CouplersProvides a robust physical connection for communication across MIL-STD-1553 networks. View All Inline Bus Coupler PCB Bus Coupler Box Type Bus Coupler PCIePCI Express (PCIe) cards deliver high-speed test and control capabilities directly through desktop or industrial PCs. They offer a cost-effective way to build custom data acquisition and automation systems without a modular chassis. View All AMD Kria SoM PCIe Development Kit SoftwareSoftware enhances test hardware by enabling development, automation, and data analysis. Our platforms speed up application creation, manage complex tests, and transform raw data into actionable insights. View All Aviolinks® GUI TestPlanner Test System ComponentsEssential mechanical, power, and interface components supporting complete test system architecture. View All 19” Rack Cabinet RackBeat (1U Rack Mount Stereo Audio Speaker) USB – I²C/SPI Converter Navigation System ProductsPrecision navigation units delivering real-time positioning, orientation, and timing for platforms. View All GPS Navigation System – NavyGate® Custom SolutionsWe design and deliver application-specific hardware, software, and integrated systems tailored to complex test and measurement requirements across various industries. Contact Us --- Engineered Test Systems for Reliable PerformanceWe design and deliver test-focused hardware, software, and system-level platforms for demanding validation and measurement needs. Browse Product FamiliesLet's Explore ProductsView Application AreasDiscover Our SolutionsAdvanced architecture of test systems that goes beyond every test challenge. Featured ProductsExplore All ProductsExplore NowMIL-STD-1553Bus CouplersCouplers for signal routing and isolation in MIL-STD-1553 data bus networks. PXIe Switch ModulesConfigurable switch modules for platforms. Ethernet Controlled InstrumentsEthernet-based instruments enabling distributed and synchronized test setups. Custom SolutionsExplore All Custom SolutionsView All Application AreasReal Time & HIL SystemsSimulates real-world operating conditions. Automated Test & MeasurementReduces manual errors and effort. Dynamic Test SystemsSimulates real-use mechanical stress. Manufacturing ServicesEnsures build-to-spec manufacturing. DEICO NewsRead All ArticlesDEICO BlogSeptember 30, 2025Events & ExhibitionsBlue Day 2025: A New Tradition at DEICO This year, DEICO introduced a new tradition: Blue Day. Organized on our terrace, the event marked the closing of Engineering Solutions, Product Insights Why Windows 11 Matters in PXI Test SystemsSeptember 9, 2025 Company News DEINA: Our AI-Powered Corporate AssistantSeptember 3, 2025 Engineering Solutions, How-To & Tutorials, Product Insights Test Configuration for Design Verification of Mission ComputersMay 29, 2025 September 30, 2025Events & ExhibitionsBlue Day 2025: A New Tradition at DEICO This year, DEICO introduced a new tradition: Blue Day. Organized on our terrace, the event marked the closing of September 9, 2025Engineering Solutions - Product InsightsWhy Windows 11 Matters in PXI Test Systems One of the most critical factors is the operating system that controls the test environment. As Windows 10 support September 3, 2025Company NewsDEINA: Our AI-Powered Corporate Assistant We are pleased to unveil DEINA (DEICO Intelligent Assistant), our new AI-powered corporate assistant and the latest exciting step --- You may be interested in... Your cart is currently empty! New in store --- Sort by Default Order Sort by Default Order Sort by Name Sort by Price Sort by Date Sort by Popularity Show 50 Products Show 50 Products Show 100 Products Show 150 Products AllBattery SimulatorBus CouplersData Acquisition and SimulationDigital I/O and FPGAMainframesMechanic ProductsNavigation System ProductsONYX® USB-I2CPDURackBeatRugged DAQSignal Conditioning (SLSC)SoM ProductsStandalone DAQSwitches and MultiplexersVideo SwitchingPXIeChassis and ControllersSwitch ModulesSerial Communication ModulesAI and RoboticsAvionics InterfacesDAQSignal Conditioning & SimulationEmbedded Boards & ModulesEthernet Controlled InstrumentsMIL-STD 1553 Bus CouplersPCIeSoftwareTest System ComponentsZynq-7015 System on Module (SoM) Available on backorder Add to list Details Quick View Zynq SoM Carrier Board Available on backorder Add to list Details Quick View USB – I²C/SPI Converter Available on backorder Add to list Details Quick View Three Phase PDU, 32 A Available on backorder Add to list Details Quick View Three Phase PDU, 16 A Available on backorder Add to list Details Quick View TestPlanner Available on backorder Add to list Details Quick View Switching and DAQ Mainframe 8 Slot Available on backorder Add to list Details Quick View SLSC VDT Simulation Module Available on backorder Add to list Details Quick View SLSC RTI Module DSUB68 Available on backorder Add to list Details Quick View SLSC RTI Module DSUB44 Available on backorder Add to list Details Quick View SLSC RTI Module 2Bank DSUB44 RA Available on backorder Add to list Details Quick View SLSC Programmable Discrete IO Module Available on backorder Add to list Details Quick View SLSC Pass Through Module Available on backorder Add to list Details Quick View SLSC Instrument Expansion Module Available on backorder Add to list Details Quick View SLSC Fault Insertion Module Available on backorder Add to list Details Quick View SLSC Current Output Module 100 mA Available on backorder Add to list Details Quick View SLSC Current Input Module 500 mA Available on backorder Add to list Details Quick View SLSC Current Input Module 100 mA Available on backorder Add to list Details Quick View SLSC Amplifier Module 30 mA Available on backorder Add to list Details Quick View SLSC Amplifier Module 20 mA Available on backorder Add to list Details Quick View SLSC 32/64 Channel Routing Module Available on backorder Add to list Details Quick View Single Phase PDU, 25 A Available on backorder Add to list Details Quick View Single Phase PDU, 16 A Available on backorder Add to list Details Quick View Single Module Mainframe Available on backorder Add to list Details Quick View Rugged DAQ System Controller Module Available on backorder Add to list Details Quick View Rugged DAQ Power Module Available on backorder Add to list Details Quick View Rugged DAQ Chassis 5 Slot Available on backorder Add to list Details Quick View Rugged DAQ ADC Module 8 CH 52 kS/s Available on backorder Add to list Details Quick View RackBeat (1U Rack Mount Stereo Audio Speaker) Available on backorder Add to list Details Quick View PXIe Serial Communication Module 8 CH Available on backorder Add to list Details Quick View PXIe Serial Communicaiton Module 16 CH Available on backorder Add to list Details Quick View PXIe Relay Module 80 CH 2 A SPST Available on backorder Add to list Details Quick View PXIe Relay Module 53 CH 2 A SPDT Available on backorder Add to list Details Quick View PXIe Relay Module 16 CH 16 A SPST Available on backorder Add to list Details Quick View PXIe Multiplexer Module 196 CH 1 A Available on backorder Add to list Details Quick View PXIe Jetson AGX Xavier Module Available on backorder Add to list Details Quick View PXIe High Density Matrix Module 64×4 2 A 1-Pole Available on backorder Add to list Details Quick View PXIe High Density Matrix Module 32×4 2 A 1-Pole Available on backorder Add to list Details Quick View PXIe Controller Module SMARC Available on backorder Add to list Details Quick View PXIe Controller Module COMe Type 6 Compact Available on backorder Add to list Details Quick View PXI Chassis 10 Slot 4 Link Gen 3 Available on backorder Add to list Details Quick View PCB Bus Coupler Add to list This product has multiple variants. The options may be chosen on the product page Details Quick View Multifunction I/O Module 32 AI (16 DIFF), 16 AO, 48 DIO Available on backorder Add to list Details Quick View MPCIe MIL-STD-1553 Module 2 CH Available on backorder Add to list Details Quick View Inline Bus Coupler GPS Navigation System – NavyGate® Available on backorder Add to list Details Quick View GMSL2 Module Jetson AGX Xavier Available on backorder Add to list Details Quick View General Purpose Relay Module 16 CH 16 A Available on backorder Add to list Details Quick View General Purpose Relay Module Add to list Details Quick View General Purpose Multiplexer Module Available on backorder Add to list Details Quick View Displayport Video Switch 4×1 Available on backorder Add to list Details Quick View Digital I/O Module 48 Bit Available on backorder Add to list Details Quick View Component Video Switch 4×1 Available on backorder Add to list Details Quick View Component Video Distribution Amplifier 1×4 Available on backorder Add to list Details Quick View Box Type Bus Coupler Available on backorder Add to list This product has multiple variants. The options may be chosen on the product page Details Quick View Battery Simulation Unit Available on backorder Add to list Details Quick View Aviolinks® GUI Add to list Details Quick View Aviolinks® Ethernet/USB (MIL-STD-1553/ARINC-429/ARINC-825/Discrete) Available on backorder Add to list This product has multiple variants. The options may be chosen on the product page Details Quick View AMD Kria SoM PCIe Development Kit Add to list Details Quick View 19” Rack Cabinet Available on backorder Add to list Details Quick View --- Privacy PolicyThis Privacy Policy describes our policies and procedures on the collection, use and disclosure of your information when you use the service and tells you about your privacy rights and how the law protects you. We use your personal data to provide and improve the service. By using the service, you agree to the collection and use of information in accordance with this privacy policy. 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To exercise your rights listed above, you can contact DEICO via info@deico. com. tr. --- --- ## Posts This year, DEICO introduced a new tradition: Blue Day. Organized on our terrace, the event marked the closing of its first season and carried an extra layer of meaning as we also celebrated 12 years of DEICO. Blue Day was designed as more than a gathering. It was a moment to step away from our daily routines, to recharge, and to experience the spirit of DEICO from a fresh perspective. Why Blue? Blue has always been at the heart of our corporate identity. It is the color of trust, inspiration, and innovation—values that shape our work every day. But this time, blue also became the color of celebration, laughter, and shared experiences. By symbolically leaving the orange warmth of summer behind, Blue Day reflected the transition into a new season with renewed energy under the freshness of blue. Highlights of the Day Season Closing: The terrace hosted its final gathering of the year with a vibrant program. Games and Activities: Colleagues joined lighthearted competitions and interactive moments that kept the energy alive. Blue Touch: From small outfit details to the event’s overall atmosphere, the color blue added a distinctive signature to the day. 12th Anniversary: While Blue Day took center stage, it also coincided with DEICO’s 12th year—a milestone subtly woven into the celebration. More Than a Day Blue Day is not just an event, but a cultural marker for DEICO. It represents how we see togetherness: not limited to collaboration at work, but also expressed in celebration, creativity, and moments that stay in memory. We believe this is just the beginning. Blue Day will grow into a tradition, returning every year with new memories and new ways of reflecting the color that defines us. --- One of the most critical factors is the operating system that controls the test environment. As Windows 10 support ends in October 2025, PXI systems that remain locked to this OS face a loss of security updates, driver maintenance, and software toolchain compatibility. Technical Gap in Existing PXI Hardware A large portion of existing PXI controllers on the market was released before Windows 11 certification requirements, such as TPM 2. 0 and UEFI Secure Boot, became mandatory. These platforms can continue to operate, but they cannot natively support Windows 11. This means: No access to updated driver stacks for PCIe-based modules. Limited support for modern software development kits. Non-compliance with IT security standards in regulated industries. DEICO PXI Solutions: Windows 11 Integration Our PXI embedded controller modules are designed to meet the technical requirements of modern operating systems without compromise. Each controller includes: Full Windows 11 support with TPM 2. 0 and Secure Boot enabled. 13th Gen Intel® processors with PCIe Gen 4 connectivity, supporting higher data throughput for PXI Express modules. Linux RT compatibility, allowing deterministic execution for automated test equipment (ATE) and hardware-in-the-loop (HIL) setups. DDR5 memory and NVMe storage, ensuring low-latency data access in high-channel-count measurements. Why Windows 11 Matters for PXI Driver and API Continuity New versions of development environments such as LabVIEW, TestStand, and Python libraries are tested and optimized for Windows 11. Controllers without native support cannot guarantee full compatibility with these environments. System Security Windows 10 systems will no longer receive monthly security patches after October 2025. In environments where PXI hardware is connected to corporate networks, this creates a direct security liability. Conclusion Operating system support is no longer optional in test system design. It is a technical requirement. Windows 11 introduces platform constraints that older PXI embedded controllers cannot meet, including TPM 2. 0, Secure Boot, and updated driver frameworks. All DEICO PXI embedded controllers are designed and manufactured to meet these requirements natively. With 13th Gen Intel processing power, Linux RT compatibility, and complete Windows 11 support, our solutions provide measurable technical advantages in performance, compliance, and integration. Available now at https://deico. com. tr/product-category/pxie/chassis-and-controllers/. Get a Quote! --- We are pleased to unveil DEINA (DEICO Intelligent Assistant), our new AI-powered corporate assistant and the latest exciting step in our digital transformation journey. DEINA's primary goal is to make our corporate knowledge base more accessible to our employees. Our system analyzes company documents to generate accurate, source-based answers to questions within seconds. How DEINA Works DEINA's operating principle is based on an advanced AI model known as Retrieval-Augmented Generation (RAG). The process works in three simple steps: Analyze: Company documents are segmented into meaningful parts and securely stored in our dedicated knowledge database. Retrieve: When a question is asked, all relevant content is instantly retrieved from this database. Generate: The AI then uses this retrieved content to generate reliable, consistent, and source-based answers. High Information Security and In-House Infrastructure All processes run on DEICO's own servers. Thanks to this approach: No third-party licensed software is used. Your data is never transferred to the cloud or outside the company. The development was carried out entirely with our own infrastructure and engineering expertise. This closed-loop architecture not only ensures the highest level of information security but also allows us to flexibly customize the system to our specific corporate needs. Key Benefits of DEINA Instant Access: Get to procedures, instructions, and technical information in seconds. Ease of Use: Employees can ask questions in natural language, just like having a conversation. Transparency: Every answer generated includes references to the original source documents. Efficiency: Accelerates decision-making processes and significantly reduces the risk of errors. Our AI Vision At DEICO, we see artificial intelligence not just as a technology investment, but as a strategic move toward the future. DEINA is one of the most important steps we have taken in bringing this vision to life. Our Roadmap We are committed to the continuous improvement of DEINA: Integration: Expanding its capabilities by connecting with other enterprise systems like ERP and PLM. Scope Expansion: Broadening its knowledge to include not just procedures, but also product data, project information, and other corporate knowledge. Continuous Improvement: Constantly making DEINA smarter through employee usage and feedback. With DEINA, our goal is to provide the fastest possible access to corporate knowledge while simultaneously strengthening our internal culture of efficiency, trust, and innovation. --- Abstract – This study shows a different approach for mission computer testing. The standard procedure of testing mission computers consists of the design of the wiring set and the interface adaptor. The overall system can be partitioned into three blocks, namely; the mission computer (DUT), the interface adaptor, and the test computer. In order to test different mission computers with different wiring interfaces, the interface adaptor and the wiring between these blocks need to be updated for each mission computer. In this study, a generic, computer-aided and modular test configuration is proposed as a solution to the design verification tests of mission computers. The test computer is prepared on PXI chassis with all required communication ports (RS-422, RS-232, Ethernet, CAN, 1553). In addition, some required modules are added, such as a relay module, a multiplexer module, and a DMM module. A VPC G18 receiver is also combined with the test computer via some mechanical parts. A custom design interface box is the last part of the hardware. The software part is developed in C-sharp and is used mainly for automated tests. However, it is also possible to be used in some manually configured, operator-driven tests. The proposed test configuration provides a number of improvements compared to the existing test configurations. Reduced test preparation time, reduced engineering support for test preparation, reduced price, and reduced failure rate are some of the major improvements of the proposed system. This configuration is implemented and used on various mission computers that are deployed on various systems on different platforms. Introduction Many people hold the testing of products in the same regard as the actual design. In fact, many development projects specify Design Validation Testing (DVT) as a major contract requirement. DVT, an intensive testing program, is a critical step in the path of ensuring a successful product. Characterizing and validating a Device Under Test (DUT) will focus on acquiring many vectors (voltage, power, frequency, etc. ) across multiple scenarios, generating large volumes of data for analysis. DVT consists of the following areas of testing: Functional testing: Testing the requirements that are determined in the design process with test scenarios. The test not only includes real-world simulations, but also, for some DUTs, it may include some simulations that can be out of real-world to debug unexpected errors. Performance testing: The test involves the functional tests; but the difference is that instead of testing the requirements one by one, all the requirements are tested together by pushing their limits. Environmental test: DUT is tested for the environmental requirements. Electromagnetic interference/compatibility (EMI/EMC) test: DUT is tested within standard which is a standardization that checks the electromagnetic emission of DUT and its influence on DUT when the specified electromagnetic emissions are applied. Test station development for mission computers has historically relied on custom point solutions. The technological advancements in commercial-off-the-shelf (COTS), industry-standard equipment coupled with a software-driven design provided the opportunity to develop a Universal Test Station (UTS) that can be utilized for various instruments. The UTS exploits the PXI architecture to facilitate the integration of modular instrumentation and to provide test stimulus, measurement capability. This design is composed of: Scalable Base Station for hosting interchangeable hardware components specifically selected to satisfy the requirements of the particular Unit Under Test (UUT). Standardized software architecture for executing test sequences, collecting and analyzing data, detecting errors and fault conditions, and providing a graphical user interface (GUI). Interface Test Adapters (ITAs) for hosting the specialized functionality of a particular UUT. Extant Test Setup Throughout the history of DVT of mission computer in my experience, setup is created as is shown in Figure 1. Setup can be partitioned into 4 blocks, namely; cables between DUT and interface adaptor, interface adaptor, cables between interface adaptor and measurement devices, and measurement devices. Figure 1 - The Extant Setup Cables from DUT to the interface adaptor are designed. Afterwards, the input ports of the interface adaptor are decided leading to its design. Output ports are defined. Finally cables between interface adaptor and test devices are connected. Related test devices are chosen for the setup. These test devices are connected to the test computer which will be used to control test process. Test scenario is prepared within the software, designed by the test engineer. Finally setup is electrically ready for the functional tests. All 4 partitions belong to the specific DUT. Proposed Setup Since mission computers have more or less the same ports, standardization may work. The main idea behind this standardization is that reducing the connection needed for each mission computer by the same test setup. The test setup is basically as shown in Figure 2. Figure 2 - The Proposed Setup Proposed setup can be partitioned in 2 blocks unlike the existing setup which has 4 blocks. The cable between DUT and interface adapter is designed to connect the outputs of DUT to test devices. The interface adapter is merged with test devices and test computer which is used to control them. Within the standardization: The cable between interface adapter and test devices is removed The changes needed in the connections for each mission computer test setup are required to be made only once. The test software preparation time is reduced with the help of the software which is predesigned specifically for automated test. Test Configuration Design and Implementation The test computer is prepared on PXI chassis with related modules: CAN communication RS232/ RS422/ RS485 communications MIL-STD-1553 communication Gigabit ethernet switches Digital I/O Relays Multiplexer DMM DC power supply PXI Chassis with the above configuration is chosen specifically for mission computer test setup. The only module that is not on the chassis is the independent DC power supply to meet the high power requirements which might be needed. All these interfaces are linked to VPC G18 receiver by related cables with some mechanical parts. The structure can be shown in Figure 3. Figure 3-PXI Chassis with VPC G18 Reveiver Structure PXI Chassis with VPC G18 Receiver structure, independent DC power supply and 1U Rack LCD Monitor Keyboard Mouse Drawer are placed on a rack system. By the configuration, the test setup can be controlled easily by test operators and can be moved by the use of rack wheels. A custom design interface box is used as an adapter for connecting VPC G18 to iCon connector where iCon connector is the output of the whole test setup. This configuration merged the test computer, ITA and test devices in the test setup. Figure 4-G18 Slide Configuration Within the configuration, each mission computer test setup can be electrically connected to the test setup by only one cable assembly. The dynamic-link libraries (dll), coded on CSharp are prepared to control all PXI modules easily and gather test data from DUT. These modules are prepared by the help of the drivers given by manufacturers of test devices. Pre-designed software modules reduce the test preparation time. One of the test setups is prepared with; Cable Assembly: All interfaces involving the output connectors of DUT(used as mission computer from now) are linked to test setup with iCon connector. Software: Pre-designed software modules (dlls) are combined with NI TestStand test management software to prepare test scenario. The structures would be needed for the extant test setup are given below: Three Cable Assembly: DUT to ITA: The output connectors of DUT are connected to the input connectors of ITA ITA to Test Devices: The output connectors of ITA are connected to the related interfaces of test devices Test Devices to Test Computer: The communication interfaces of test devices are connected to the test computer ITA: Custom design box that ease the connection between DUT and test devices especially designed for the DUT. Software: The drivers are used for each communication interface of test device to prepare test scenario. The needs and the software design time are reduced dirastically with the proposed test setup. Furthermore; the advantages of the proposed test setup can be listed as: Test setup time to switch between one DUT to another is reduced because of no need to Change the whole cable assemblies, only one Rearrange communication settings between test devices and test computer The reduction in cost and error rate by preparing a cable structure rather than a complex structure (cables, ITA) as shown in Figure 5. Figure 5 - Complexity Difference Between Extant and Proposed Test Setups By the help of PXI system, test setup can be reconfigured easily as shown in Figure 6. Figure 6 - Reconfigurable Structure The test setup mobility is increased. The mobility feature becomes crucial when the environmental and EMI/EMC tests are under considerations. The differences between the extant and proposed test setups are huge when the comparison is made by the above explanations. The difference summary can be shown in Figure 7. Figure 7 - General Comparison Between Extant and Proposed Test Setup Conclusions and Future Work A generic, modular, reusable, extendible test configuration using PXI connectivity and a test system based on this test configuration is proposed. The advantages and improvements coming with this configuration are mentioned. An example application of this test configuration and test system is described with their architecture, hardware, software and test methodology features. References Rehani, M. ; Abercrombie, D. ; Madge, R. ; Teisher, J. ; Saw, J. ; “ATE Data Collection - A comprehensive requirements proposal to maximize ROI of test”, in ITC International Test Conference, 2004. Alves, V. ; Borba , P. ; “Distributed Adapters Pattern: A Design Pattern for Object-Oriented Distributed Applications”, in First Latin American Conference on Pattern Languages Programming, Rio de Janerio, 2001. Gajski, D. , D. ; Vahid, F. ; “Specification and Design of Embedded Hardware & Software Systems”, in IEEE Design & Test of Computers, 1995. Han, Q. ; Gutierrez-Nolasco, S. ; Venkatasubramanian, N. ; “Reflective Middleware for Integrating Network Monitoring with Adaptive Object Messaging”, in IEEE Network, 2003. Testing Ultra-Precise, Strategic-Grade Instrumentation Using a Flexible and Modular Common Test Station Architecture, 2014 IEEE AUTOTEST http://www. vpc. com/images/exploded/G18_slide_exploded_view_big. jpg Written by Yusuf Yıldırım, Hayati Cem Atakan, Mert Değerli. --- Hardware-in-the-Loop (HIL) is a powerful real-time testing approach that bridges the gap between simulation and physical testing. In a HIL system, a physical controller or hardware under test (Unit Under Test, UUT) is connected to a real-time simulation of its operating environment. This setup allows engineers to mimic the real-world behavior of complex systems, such as vehicles, aircraft, or power plants, without requiring the full physical infrastructure. The simulated environment provides signals to the UUT and responds to its outputs in real-time, creating a closed-loop system. HIL testing is essential for industries where safety, performance, and reliability are paramount. It enables the validation of embedded systems under realistic and extreme conditions, such as high temperatures, voltage fluctuations, or emergency scenarios, without endangering physical components or human operators. For example, in the automotive industry, HIL allows testing of electronic control units (ECUs) for braking, steering, or engine control systems before deploying them in actual vehicles. This not only ensures product quality but also reduces the risk of costly failures in the field. Another key advantage of HIL is its ability to accelerate the development process while reducing costs. By replacing physical prototypes with real-time simulations, HIL systems enable earlier testing, rapid prototyping, and fault injection to analyze system behavior under abnormal conditions. Engineers can automate test scenarios, identify design flaws early, and make adjustments without waiting for hardware iterations. In summary, HIL provides a versatile, safe, and cost-effective solution for validating complex systems in today’s fast-paced development environments. --- A Hardware-in-the-Loop (HIL) system consists of several key components that work together to create a real-time testing environment for embedded systems. Each component plays a critical role in ensuring the system under test interacts seamlessly with its simulated environment, allowing for accurate validation and verification of its behavior. Real-Time Target Hardware At the core of any HIL system lies the real-time target hardware, a powerful computing platform capable of running complex simulation models with deterministic timing. This hardware executes plant models, which replicate the physical processes and environments the Unit Under Test (UUT) will encounter. Real-time processing is essential to maintain the closed-loop interaction between the UUT and the simulated environment, ensuring accurate and responsive testing. Input/Output (I/O) Interfaces The I/O interfaces serve as the bridge between the UUT and the HIL system. These interfaces include analog, digital, and communication protocol modules, such as CAN, LIN, Ethernet, and MIL-STD-1553, depending on the application. They transmit signals between the UUT and the real-time target hardware, replicating real-world sensor inputs and actuator outputs. High-precision I/O interfaces are crucial to accurately simulate system behavior and identify potential issues. Simulation Software and Modeling Environment Simulation software, such as MATLAB/Simulink, is used to develop and deploy the plant models to the real-time target hardware. This environment allows engineers to create detailed mathematical models of physical systems, customize parameters, and validate performance before deployment. Integration between the software and hardware is critical to ensure seamless operation and accurate data exchange during testing. Signal Conditioning Signal conditioning is an essential part of HIL systems that involves preparing signals for processing or routing. This includes capabilities like real/sim routing, which dynamically switches signals between simulated and real sources, enabling hybrid testing setups. Signal conditioning also adjusts signal levels, filters noise, and ensures compatibility between the UUT and the HIL system. Additionally, fault injection capabilities allow engineers to simulate failure scenarios such as open circuits, short circuits, and signal noise. This feature is vital for testing system robustness and validating fault-handling mechanisms. Sensor & Load Simulation Sensor and load simulation replicate the physical environment of the UUT by mimicking real-world inputs such as temperature, pressure, or speed signals and electrical loads like motors, resistors, or batteries. These simulations are crucial for testing components like control units or power electronics without requiring actual sensors or loads. Advanced HIL systems can dynamically adjust simulated sensor outputs or load conditions to replicate real-time variations and edge-case scenarios. Test Automation Tools Test automation tools enhance the efficiency and reliability of HIL testing by automating repetitive tasks like test execution, data logging, and result analysis. These tools also enable engineers to define complex test scenarios, including stress tests and edge cases, ensuring thorough system validation. By automating the testing process, organizations can accelerate development cycles, reduce human error, and improve test coverage. --- At DEICO, we provide comprehensive Hardware-in-the-Loop (HIL) solutions tailored to meet the diverse requirements of our customers. Our systems integrate cutting-edge hardware and software components to deliver precise, scalable, and efficient testing platforms. Below, we outline the key offerings that make DEICO your ideal partner for HIL test systems. Host User Interfaces We develop intuitive and flexible Host User Interfaces (Host UI) using platforms like LabVIEW, VeriStand, and C# to provide seamless control and monitoring capabilities. These user interfaces are designed to run on Windows-based systems, offering a familiar and efficient environment for engineers to execute test scenarios, log data, and analyze results. Our UIs are fully customizable to align with your specific testing workflows and improve overall usability. Real-Time Hardware DEICO delivers high-performance real-time hardware based on the PXI Express form factor, enabling deterministic execution of control algorithms and simulation models. In addition to hardware, we develop and supply the real-time software required for control and data acquisition, ensuring seamless integration and optimal performance. Our real-time platforms are designed to handle complex models with high accuracy, supporting demanding HIL applications across various industries. Signal Conditioning We design and manufacture SLSC (Switch Load Signal Conditioning) modules in-house to meet your signal routing, failure injection, and conditioning needs. These modules provide capabilities such as real/sim routing, fault injection for robustness testing, and signal adaptation for compatibility between the UUT and HIL system. By leveraging modular SLSC hardware, we ensure flexibility, scalability, and precise signal management tailored to your specific requirements. Sensor & Load Simulation For sensor and load simulation, DEICO offers both custom-designed solutions and systems built from off-the-shelf components. Whether you require tailored hardware to replicate complex sensor behavior or a combination of standard components for load simulation, we adapt our designs to meet your exact needs. From replicating temperature, pressure, and speed sensors to simulating motor loads or electrical resistances, we ensure accurate environmental emulation for comprehensive UUT testing. Power, Network, and Instrumentation Integration For power, network, and measurement requirements, DEICO integrates off-the-shelf components from trusted suppliers. These include power supplies, Ethernet switches, oscilloscopes, and digital multimeters. By combining high-quality commercial products with our expertise in system integration, we ensure reliable and precise instrumentation tailored to your HIL testing needs. Mass Interconnect Interfaces To standardize Unit Under Test (UUT) connections and streamline testing, we utilize mass interconnect systems. These interfaces provide reliable, modular, and repeatable connections for high-density signal routing. Advantages include simplified test setup, reduced wiring complexity, and the ability to rapidly switch between UUTs, making your test process more efficient and less prone to errors. Test Automation To improve efficiency and consistency in testing workflows, DEICO provides TestPlanner, our advanced test automation tool. TestPlanner enables users to design, execute, and manage automated test sequences in an intuitive and flexible environment. It supports a variety of testing needs, from functional tests to complex regression scenarios. By reducing manual effort and ensuring repeatable, reliable test execution, TestPlanner helps accelerate development cycles and enhances the quality of testing processes. At DEICO, our mission is to deliver fully integrated HIL solutions that combine advanced technology, in-house engineering, and flexible customization to exceed your expectations. Whether you need a complete system or specific components, we ensure that your testing platform is reliable, scalable, and ready for the most demanding applications. --- DEICO is proud to announce a landmark achievement – we are officially the first Turkish member to join the prestigious PXI System Alliance Consortium! This marks a significant step forward for DEICO and the Turkish Test and Measurement sector. We are honored to contribute our expertise and collaborate with the consortium's esteemed members to further promote the PXI Standard. We believe that our involvement will not only benefit the PXI System Alliance but also inspire greater participation from Turkish companies within the global PXI community. The PXI Systems Alliance (PXISA) is an industry consortium that promotes and maintains the PXI (PCI eXtensions for Instrumentation) Standard. https://www. pxisa. org/ --- We made a difference in the field of human resources. We made a difference in 2024 Peryön Human Value Awards, Application the Support Quality of Life. We will continue to inspire the world with our innovative, creative and life-adding practices in the field of human resources management. --- OpenTAP has an active and growing ecosystem of partners , developers and end-users. Ankara-based partner DEICO addresses automotive, aerospace and other industries with customers in the EMEA region. Having recently joined the OpenTAP partner program. DEICO team members Hakan Toktaş, Efe Boyacigiller and Batuhan Yilmaz sat down with the OpenTAP team to provide more information about the company and its investment in OpenTAP. OpenTAP: Where and how do DEICO and DEICO customers use OpenTAP? What challenges does an OpenTAP-based solution address? Hakan Toktaş: DEICO is the major test solution provider in our country. We are actively using OpenTAP inside DEICO and also in solutions that we provide to our customers. We use OpenTAP for verification, test and qualification of electronic boards, units and systems. Before OpenTAP, we used to develop test solutions in different environments for each project, but this was affecting our development process negatively. Each customer had different requirements and we had to come up with different solutions to meet those requirements. It prevented our teams from reusing previous developments and slowed down the development of new ones. With OpenTAP, we unified our solutions to provide a single test automation platform. Now, our engineers don’t need to create test automation software all over again for each and every product. This is really helpful for new engineers since they don’t go through the process of learning different development environments. They just develop the necessary plugins and test plans, which is much more straightforward, and rest of the job is done by OpenTAP. Efe Boyacıgiller: We also had the challenge of maintaining and versioning of our solutions. OpenTAP makes it easier to maintain our solutions because we can use OpenTAP package versioning and we can easily extend the functionality of our plugins with the help of OpenTAP flexibility, feature set and APIs. Challenges that our customers face are mainly related to test program sets. OpenTAP makes it very effective to develop self-test plans of ATEs that we delivered to our customers. It is also very effective to develop test plans for different units and electronic boards that are used in different areas such as avionics and naval systems. OpenTAP: For how long has DEICO been working with OpenTAP? Batuhan Yılmaz: We are currently developing plugins and GUIs to contribute to the OpenTAP platform. Some plugins are just helpful extensions of the OpenTAP engine to make plugin development easier for our engineers. Others include basic operations such as math operations, flow controls etc. There are also instrument-specific plugins for the test equipment we use the most. These plugins help test engineers avoid needing to develop new software themselves. We haven’t yet published these plugins, but we plan to. Also, we plan to meet needs of the community with the GUIs we develop. We also plan to contribute to the source code of OpenTAP itself in the future. Hakan Toktaş: OpenTAP became the core of our test automation software. It really shortened the development process of our test solutions. With the help of OpenTAP we are able to commercialize our experience in the test solutions more efficiently and faster. OpenTAP: Tell us more about the plugin(s) developed by DEICO - what do they enable and how will DEICO license and distribute them? Batuhan Yılmaz: We placed a priority on the plugins for instruments we use, but our goal was to limit the number of engineers who are developing software. To achieve that, we extended the base Test Step class of the OpenTAP. This extended Test Step class now provides the UI elements for the Editor to set the output, set test limits and publish the selected output to result listeners. Our test step plugins are based on this extended Test Step class. Test engineers at DEICO also needed basic operations such as math operations, array operations and flow control steps that implement an expression evaluator. Another need was to generate test reports in PDF format. This became the next plugin we developed in DEICO, a result listener which takes the published results and creates a PDF file to store them. Efe Boyacıgiller: In parallel to these plugins, test step and instrument plugins are developed by our test engineers for the instruments inside our test systems. Hakan Toktaş: We plan to publish some of our plugins under permissive licenses such as MIT or BSD. We also plan to publish some of our plugins under commercial licenses. Our intention is to release a test plan editor that we call “TestPlanner”. OpenTAP: Will DEICO be demonstrating its OpenTAP solutions? Hakan Toktaş: We don’t plan to conduct an event for now but do plan to demonstrate our solutions in the future. When our software reaches a more mature version, we plan to demonstrate on the internet with a video. OpenTAP: Thank you gentlemen for your time today. We’re excited to see how DEICO is building innovating customer solutions with OpenTAP and look forward to hearing about DEICO plugins and design-wins in the future. --- In embedded systems development, speed and precision are crucial. Traditional methods of coding directly on the target hardware can be both time-consuming and risky. That’s where Rapid Control Prototyping (RCP) comes in—offering a more efficient path from concept to real-world testing. What is Rapid Control Prototyping? RCP is a method that allows engineers to design and test control algorithms using real-time hardware before moving on to the final embedded target. This approach shortens development cycles by enabling direct experimentation and adjustments without the need for constant recompilation or full-scale deployment. Rather than relying solely on simulations or delayed testing, RCP bridges the gap between theory and practice. Engineers can validate how their control strategies perform under real conditions and make quick changes as needed. Why It Matters When developing complex systems—especially in industries like automotive, aerospace, or industrial automation—every iteration counts. Traditional workflows are often limited by long debugging cycles and restricted hardware feedback. RCP changes that dynamic by: Providing real-time insights Reducing testing time significantly Improving overall system reliability These improvements can make a meaningful difference, especially in safety-critical applications. DEICO’s RCP Capabilities At DEICO, we offer scalable RCP solutions tailored to meet the demands of various industries. Our systems support real-time hardware, intuitive interfaces, and compatibility with model-based development environments. Whether you're building a prototype for an engine control unit or testing automation software for a production line, DEICO’s RCP tools help reduce development risks and speed up testing. Common Use Cases Some of the areas where RCP proves especially valuable include: Vehicle control units (ECUs) Autonomous systems Robotics Smart grid and energy systems Industrial control applications By allowing early integration and testing, RCP supports faster decision-making and better performance outcomes. Final Thoughts Rapid Control Prototyping is more than just a tool—it’s a smarter way to develop embedded systems. By enabling early testing on real-time hardware, it helps reduce costs, avoid late-stage surprises, and bring products to market faster. --- --- ## Products Modular Aviolinks® ETH/USB avionics interface supports MIL-STD-1553, ARINC-429, and ARINC-825 modules for flexible integration in avionics systems. Aviolinks® ETH/USB is a versatile and high-performance unit designed to support a wide range of avionic protocols. With its modular architecture, the device can be configured to meet the specific application requirements. Key Features The device supports up to three modules, each capable of handling one or more of the following avionic protocols: MIL-STD-1553 (M1553-1): provides 1 channel dual redundant communication per module with a single or multi-function operation with selectable direct or transformer coupling interface ARINC-429 (A429-1): enables data transmission with 2 RX & 4 TX channels per module, ideal for various avionics applications ARINC-825 (A825-1): supports bidirectional communication with 2 channels per module, offering versatility in system integration Avionic Discrete (DISC-1): provides precise control of avionic discrete signals with 8 channels per module IRIG B time decoder: decodes IRIG B time signals up to 4. 5 V RS-485 interface: provides a high-speed at 20 Mb/s and a low-speed at 500 Kb/s serial communication interface Discrete I/O: offers 4 TTL level discrete input/output channels for digital control and monitoring Ethernet port: enables network connectivity for data transfer and communication USB 2. 0 port: provides a USB interface for connecting peripheral devices Power input: powered via a USB Type-C connector, supporting 5 V - 15 W max. power input IRIG B Time Decoder Format: IRIG-B-122 Carrier wave: 1 KHz amplitude modulated sine wave Input amplitude: 0. 5 – 4. 5 Vpp Modulation ratio: 3:1 --- DE2111 digital I/O module offers 48 bidirectional channels, programmable logic thresholds, and high-speed operation for ATE, HIL, and process control. DE2111 is a high-density, fully integrated digital I/O system designed for demanding test and control applications. This system provides 48 bidirectional digital I/O channels, which are routed to the rear panel through a single high-density DB-78 connector. The module’s core feature is its flexible digital interface, which supports multiple logic families through programmable voltage thresholds on all channels. Key Features Connectivity Standard 10/100 base-t ethernet interface USB 1. 1 full-speed interface (12 Mb/s) Robustness and Reliability Fully protected digital I/O lines MTBF (Mean Time Between Failures) exceeding 150,000 hours ESD (Electrostatic Discharge) protection up to 7 kV Operational Flexibility Supports PC-based, standalone, or embedded controller operation LXI Class C compliant for seamless system integration Standards and Compliance The DE2111 is fully compliant with the following standards for safety, emissions, and immunity: Environmental: IEC 60068-2-1, IEC 60068-2-2, IEC 60068-2-27, IEC 60068-2-64, IEC 60068-2-78 EMC/EMI: EN 61326, EN 55011 (CISPR 11), AS/NZS CISPR 11, FCC 47 CFR Part 15B, ICES-001 Typical Applications Automated Test Equipment (ATE) Hardware-in-the-Loop (HIL) simulation Functional test systems Digital pattern generation and response capture Process control and industrial automation --- PXIe SMARC Controller with Intel® CPUs, DDR5 memory, PCIe Gen3, Windows 11, and IEC/FCC compliance for test environments. PXIe Controller Module SMARC is a single slot PXI Express system controller. This device controls all peripheral modules and chassis in 4-link configuration. It has 2 x Ethernet, 2 x USB 3. 2 Type-A, 1 x USB 2. 0 Type-A, 1 x DisplayPort 1. 4a, reset button, LED indicators on the front panel. It communicates with peripheral modules using PCIe lanes. Key Features 2 x 2. 5 Gb/s Ethernet 2 x USB 3. 2 Type-A, 1 x USB 2. 0 Type-A 1 x DisplayPort 1. 4 4-Link (x1, x1, x1, x1) PCIe Link Speed: 8 GT/s Graphics: Intel® UHD Graphics CPU: Intel® Processor i3-N305 / Intel® Atom® x7425E (optional) Memory: 8 GB / 16 GB DDR5 4800 MT/s (optional) Storage: 512 GB M. 2, SATA Gen3 Operating System: Windows 11 DE140120 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS / NZS CISPR 11 / FCC 47 CFR Part 15B / ICES- 001 standarts. Areas of Application PXIe based test systems LAB usage Modular test systems Automated test equipment --- Compact PXIe Controller with PCIe Gen 4-link, Windows 11, IEC/FCC compliance, and Intel® Core™ CPUs for reliable automated test equipment. PXIe Controller Module COMe Type 6 Compact is a single slot PXI Express system controller. This device controls all peripheral modules and chassis in 4-link configuration. It has 2 x Ethernet, 3 x USB 3. 2 Type-A, 1 x DisplayPort 1. 4, reset button, LED indicators on the front panel. It communicates with peripheral modules using PCIe lanes. Key Features 1 x 1 Gb/s Ethernet and 1 x 2. 5 Gb/s Ethernet 3 x USB 3. 2 Type-A 1 x DisplayPort 1. 4 4-Link (x4, x1, x1, x1) PCIe Link Speed: 16 GT/s for Link 1 and 8 GT/s for others Graphics: Intel® Iris® Xe Graphics architecture CPU: Intel® Core™ i5-1335UE / Intel® Core™ i7-1370PE (optional) Chipset: RM590E Memory: 8 GB DDR5 4800 MT/s Storage: 1 TB M. 2, NVMe SSD Operating System: Windows 11 DE140110 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068- 2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS / NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standarts. Areas of Application PXIe based test systems LAB usage Modular test systems Automated test equipment --- 10-slot PXI Chassis with PCIe Gen 3 x4, 16 GB/s bandwidth, hybrid slots, 1000 W power, and 82 W cooling for advanced test environments. PXIe Chassis 10 Slot 4 Link Gen 3 is a 10 slot PXIe chassis. This device creates a test environment by connecting system modules and peripheral modules with PCIe protocol. Key Features 1 system slot, 9 hybrid peripheral slots 4-link configuration (4 x 4) PCI Express Gen 3 x 4 16 GB/s system bandwidth 32-bit, 33/66 MHz PCI legacy support Inhibit mode and fan mode selection 4 PFI interfaces External reference clock input / output SMBus support Total 1000 W power capability 82 W slot cooling capability DE140000 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS / NZS CISPR 11 / FCC 47 CFR Part 15B / ICES- 001 standarts. Areas of application LAB usage Modular test systems Automated test equipment --- The DE13310 Zynq SoM Carrier Board is designed for integration with the DE13210 Zynq-7015 System on Module (SoM). The DE13310 Zynq SoM Carrier Board is designed for integration with the DE13210 Zynq-7015 System on Module (SoM). It provides a comprehensive set of peripherals and high-speed interfaces for embedded control and data acquisition applications. Processing The carrier board hosts a Xilinx Zynq-7015 SoC, which integrates a dual-core ARM Cortex-A9 processor and programmable FPGA logic. The processor runs at 667 MHz and supports real-time control and parallel processing tasks. Memory & Storage 1 GB DDR SDRAM (2 x 512 MB, 32-bit interface) 8 GB eMMC flash 32 MB QSPI flash 1 x µSD card socket Communication Interfaces 1 x 10/100/1000 Mb/s ethernet 4 x USB 2. 0 host 2 x CAN FD 1 x UART-to-USB (Type-C) 1 x RS-232 (2. 54 mm, 3-pin header) 1 x RS-485 (DSUB-9) 1 x I2C header (2. 54 mm, 4-pin) Video & Display 1 x HDMI interface (with support for HDMI 1. 4 features) Audio Return Channel (ARC) 3D video support 12-bit deep color @ 1080p RGB, YCbCr, and DDR formats Expansion & I/O 3 x PMOD connectors 1 x SFP transceiver cage 2 x PCIe interface: x2 Lane Root Complex x1 Lane Endpoint 1 x 30-pin GPIO header (2. 54 mm pitch) 2 x 140-pin board-to-board connectors (0. 8 mm pitch) User Interface & Debug 8 x test LEDs 8 x test switches 4 x test buttons 2 x user buttons: PS_RST, PROG_B 3 x status LEDs: FPGA_DONE, FPGA_INIT, PG 1 x 14-pin JTAG header (2. 00 mm pitch) DIP switches for boot mode and PCIe configuration Power & Thermal Input voltage: 12 V (via 3 x 2 pin ATX connector) PCB: 10-layer, 1. 6 mm thickness Operating temperature: 0 °C - 40 °C --- DE1300 Rugged DAQ ADC Module 8 CH 52 kS/s allows user to digitize up to eight single ended analog signals. DE1300 Rugged DAQ ADC Module 8 CH 52 kS/s allows user to digitize up to eight single ended analog signals. Key features Eight single ended input channels 24-bit simultaneous sampling on each channel 52734 S/s sampling rate per channel Programmable with DE1100 controller module DE1300 Rugged DAQ ADC Module 8 CH 52 kS/s is compatible with MIL-STD-461, MIL-STD-704E, MIL-STD-810G Change 1, and RTCA DO-160 standards. . Areas of application Data acquisition Vibration monitoring Signal processing Real time signal monitoring --- DE1200 Rugged DAQ Power Module 80 W is a power supply unit designed to be used with the DE1000 Data Acquisition Chassis. DE1200 Rugged DAQ Power Module 80 W is a power supply unit designed to be used with the DE1000 Data Acquisition Chassis. Key features 5 V / 20 W power output ±12 V / 30 W power output ±15 V / 30 W power output Soft shutdown feature DE1200 Rugged DAQ Power Module 80 W is compliant with MIL-STD-461, MIL-STD-704E, MIL-STD-810G Change 1, RTCA DO-160 standards. Areas of application Data acquisition systems Power management --- The DE1100 Rugged DAQ System Controller Module is built to control data acquisition chassis and connected modules with reliability in harsh environments. The DE1100 Rugged DAQ System Controller Module is built to control data acquisition chassis and connected modules with reliability in harsh environments. Powered by a Zynq processor, it offers fast processing for real-time control tasks. It supports five communication interfaces for versatile connectivity: RS-232/422/485 – 3 channels for industrial serial communication Ethernet – 1 channel for high-speed network access USB 2. 0 – 1 channel for peripheral integration This combination of interfaces enables integration into a wide range of data acquisition systems. As a result, engineers can streamline connectivity between modules, sensors, and host systems without additional hardware. Key features 3-channel independently configurable RS-232/422/485 interfaces Up to 10 Mbps data rate for RS-422/485 Up to 1 Mbps data rate for RS-232 Programmable via JTAG and modular program blocks 1 Gbps Ethernet interface Simultaneous control of up to 8 modules DE1100 Rugged DAQ System Controller Module Zynq is compliant with MIL-STD-461, MIL-STD-704E, MIL-STD-810G Change 1, and RTCA DO-160 standards. Areas of application Data acquisition module control Signal processing Real-time signal monitoring --- DE1000 Data Acquisition 5 Slot Chasis is a data acquisition mainframe which has configurable 1 power slot, 1 controller slot and 3 functional slots. The mainframe also has 1 power input and 1 power output connector. DE1000 Data Acquisition 5 Slot Chasis is a data acquisition mainframe which has configurable 1 power slot, 1 controller slot and 3 functional slots. The mainframe also has 1 power input and 1 power output connector. Key features 1 power slot 1 controller slot 3 functional slot Reverse voltage protection Over voltage protection Optional hold up feature DE1000 Data Acquisition 5 Slot Chasis is compatible with MIL-STD 461 / MIL-STD-704 E / MIL-STD-810G Change 1 / RTCA DO-160 standards. Areas of application Data acquisition mainframe Avionics test --- Aviolinks GUI is an out-of-the-box, interactive Graphical User Interface that unlocks the full potential of our avionics interface cards without requiring a single line of code. Aviolinks GUI is an out-of-the-box, interactive Graphical User Interface that unlocks the full potential of our avionics interface cards without requiring a single line of code. Designed to bridge the gap between powerful hardware and immediate usability, Aviolinks® GUI provides an intuitive front-panel application for monitoring bus traffic, transmitting messages, analyzing data, and performing rapid diagnostics on MIL-STD-1553 and ARINC data buses. It is the perfect tool for engineers and technicians who need to quickly validate hardware, troubleshoot network issues, or perform interactive testing and demonstrations, dramatically reducing setup time and enabling instant productivity. Key Benefits: Zero Programming Required: Start testing and monitoring buses within minutes of installation, with no software development needed. Rapid Diagnostics: Quickly identify and resolve bus communication issues with real-time data visualization and error monitoring. Interactive Control: Manually transmit custom messages to simulate specific scenarios and observe the UUT’s response in real-time. Visual Data Analysis: View and interpret bus data in a clear, human-readable format, with options for engineering unit conversion and data logging. Universal Tool: Provides a consistent user experience across different DEICO avionics interface cards and protocols. --- PXIe Jetson AGX Xavier Module delivers high-performance edge AI computing with GMSL2 & 3G-SDI support, ideal for real-time vision & IoT. PXIe Jetson AGX Xavier Module Overview The PXIe Jetson AGX Xavier Module delivers high-performance edge AI computing for demanding next-generation applications. It integrates NVIDIA’s Jetson AGX Xavier System-on-Module (SoM) into the PXIe form factor. This combination provides real-time processing for workloads such as computer vision, deep learning, and sensor data analysis. High-Performance Hardware The NVIDIA Jetson AGX Xavier SoM includes a powerful GPU, dedicated AI processors, and an octa-core ARM CPU. These components enable the execution of complex AI models directly at the edge. As a result, systems can make real-time decisions with minimal latency, reducing dependence on cloud infrastructure. PXIe Form Factor Benefits The PXIe design allows easy integration into modular systems used in test and measurement environments. This architecture supports scalability and provides engineers with a standardized platform for edge AI development. Add-on Board Connector for Expansion The module features an Add-on Board Connector for integrating additional hardware. Engineers can add interfaces such as GMSL2 and 3G-SDI through custom Add-on Boards. Signals for these high-bandwidth interfaces route directly from the Jetson platform, ensuring fast and reliable data transfer to external sensors and devices. Flexible and Scalable Design This modular approach lets users expand system capabilities without a full redesign. For example, adding GMSL2 or 3G-SDI interfaces enables handling of high-bandwidth sensor data and video streams. This makes the module suitable for applications in autonomous vehicles, industrial IoT, surveillance, and real-time video processing. Key Features NVIDIA Jetson AGX Xavier SoM with GPU, AI accelerators, and octa-core ARM CPU PXIe form factor for modular integration and scalability Add-on Board Connector for GMSL2 and 3G-SDI interfaces Edge AI optimization for reduced latency and local processing Customizable platform for various industry applications --- DE160300 GMSL2 Module Jetson Xavier is an add-on board for the DE160200 PXIe Jetson AGX Xavier Module that converts HDMI and CSI-2 signals into GMSL2 outputs. DE160300 GMSL2 Module Jetson Xavier is an add-on board for the PXIe Jetson AGX Xavier Module that converts HDMI and CSI-2 signals into GMSL2 outputs. It features two video output channels for HDMI operation, designed for use with GMSL2-compatible displays. Additionally, it includes four video input channels for CSI-2 operation, which support camera modules with GMSL2 outputs. Figure below illustrates the overall block diagram. 1. 1. Key Features Two video output channels Supports HDMI v1. 4b/v2. 0a input signals 3 Gbps or 6 Gbps forward-link rates GMSL2 output Four video input channels 3 Gbps GMSL2 input which can support up to 8 MP imagers High-speed MIPI output (MIPI D-PHY v1. 2) Supports Power over Coax (PoC) Compatible with variety of camera modules --- TestPlanner is our powerful, ready-to-run test executive software, designed to dramatically accelerate the development and deployment of automated test systems. TestPlanner is our powerful, ready-to-run test executive software, designed to dramatically accelerate the development and deployment of automated test systems. Moving beyond complex, low-level coding, TestPlanner provides an intuitive framework where engineers can define, sequence, and execute test modules, automate data logging, generate comprehensive reports, and create simple, customizable operator interfaces. It is the ideal solution for both validation labs and production environments. TestPlanner enables faster time-to-market, increased test standardization, and enhanced reliability for your entire test process. Key Benefits: Accelerated Development: Build complex test sequences in hours, not weeks, using a simple, configuration-based approach. Code Reusability: Easily integrate existing test modules written in NI LabVIEW or other languages. Standardization: Enforce a common test structure and reporting format across multiple projects and test stations. Simplified Operation: Create secure, easy-to-use interfaces for production operators, minimizing training and potential for error. Integrated Reporting: Automatically generate detailed test reports in common formats (PDF, text, etc. ) and log results to databases for analysis. Core Features Powered by OpenTap: Built on the robust OpenTap engine, ensuring performance and reliability. Plugin Architecture Compliance: Fully aligned with OpenTap's plugin architecture for maximum extensibility. Smart Package Management: Comes with a package installer tool for effortless management of OpenTap packages. User Interface and Development Tools Intuitive Editor Interface: Develop and execute test plans effortlessly with a user-friendly editor. Customizable UI: Tailor the user interface to meet your specific needs and preferences. Developer-Friendly APIs: Access powerful APIs for plugin and user interface development. Enhanced Productivity with Additional Plugins Efficient Test Plan Development: Additional plugins simplify and accelerate the test plan creation process. Automated Report Generation: Generate comprehensive test reports in multiple formats directly from your test plans. Variable Management Plugin: Includes a familiar and versatile variable management system. Dynamic Scripting Support: Leverage Python-powered plugins for preconditions, pre-expressions, and post-expressions. What to Expect in the Future? Sub-Plans: Introduce sub-test plans to call other test plans, eliminating complex tree hierarchies in a single test plan. Test Plan Comparison Tool: Easily view differences between test plans and merge changes. Database Integration: Securely store and retrieve your test results in an integrated database. Native DLL Support: Import C/C++ DLLs to seamlessly use their functions in your tests. Source Control Integration: Manage your test plans with Git integration in the TestPlanner editor. Comprehensive Test Statistics: Gain insights into instrument usage, operator performance, and testing efficiency with a detailed statistics database. --- In-line bus couplers provide seamless connectivity by integrating directly into the wiring system without the need for additional enclosures. The MIL-STD-1553 communication bus electrically connects multiple devices to facilitate reliable communication in various platforms, including both military and civil applications. These bus configurations are built using various components such as cables, bus couplers, terminating resistors and connectors. In a data bus structure, bus couplers play a role in providing shielding, isolation resistance and transformer interfaces for connection points known as stubs. In this respect, bus couplers are the commercial off- the-shelf (COTS) solutions for easier and more reliable wiring. DEICO bus couplers are designed to provide an economical solution for both platform and professional benchtop test systems. The product offers users the opportunity to have MIL-STD-1553 bus networks through fast delivery options at a fraction of the cost. --- DE5000 is a high-tech system that provides all the necessary data for external electronic systems through NMEA0183 and custom format messages, with flexible and independent settings. DE5000 is a high-tech system that provides all the necessary data for external electronic systems through NMEA0183 and custom format messages, with flexible and independent settings. The system includes a Control and Display Unit, where users can view navigation and satellite information, as well as control the device settings. It also includes critical functions like MOB/GOTO and can accurately determine a ship's position by resolving radio beacon messages on land using DGPS. Suitable for harsh conditions with the support of Controlled Reception Pattern Antenna (CRPA). Overall, this system meets all the navigation requirements of any vessel with accurate and secure measurements. DE5000 has a display and keypad on the front panel, which allows operators to select different usage codes, provide and confirm information, display results, and show basic scanning and satellite information. The keypad includes ON/OFF, Zeroize, MOB, GOTO, and DIM functions. Additionally, two custom function keys can be added upon request. --- DE13210 Zynq-SOM System On Module is an embedded core board which uses Xilinx Zynq-7000 series XC7Z015 SoC FPGA with dual core ARM® Cortex™-A9 based processing system. DE13210 Zynq-7015 System on Module (SoM) is an embedded core board which uses Xilinx Zynq-7000 series XC7Z015 SoC FPGA with dual core ARM® Cortex™-A9 based processing system. The SoM is very compact and includes fundamental components such as DDR Memory, QSPI Flash, eMMC, USB PHY and Ethernet PHY. The SoM offers rapid designs and design flexibility. Key Features Zynq-7000 Series SoC FPGA (XC7Z015) Small form factor 1 GB DDR3 SDRAM 8 GB eMMC 32 MB QSPI flash 2 KB EEPROM 10/100/1000 Mb/s Ethernet PHY USB 2. 0 PHY Temperature sensor 137 PL I/O (66 differential pairs) 21 PS I/O 4-lane PL GTP transceivers Adjustable PL I/O voltage --- General Purpose Relay Module 16Ch 16A is a high-power general-purpose switch module. Module can be used with Switching and DAQ Mainframe 8 Slot and Single Module Mainframe. General Purpose Relay Module 16 CH 16 A is a high-power general-purpose switch module. Module can be used with Switching and DAQ Mainframe 8 Slot and Single Module Mainframe. Key Features 16 Form A channels 16 A switching capability DE2102 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: LAB Usage Signal Routing Automated Test Equipment --- General Purpose Relay Module is a general purpose SPST switch module. The module can be used with Switching and DAQ Mainframe 8 Slot (DE2000) and Single Module Mainframe (DE2001). General Purpose Relay Module is a general purpose SPST switch module. The module can be used with Switching and DAQ Mainframe 8 Slot (DE2000) and Single Module Mainframe (DE2001). The general features of General Purpose Relay Module are listed below: Key Features 64 Form A channels 2 A switching capability DE2101 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: LAB Usage Signal Routing Automated Test Equipment --- General Purpose Multiplexer Module is a general purpose dual 1x40 multiplexer module. The module can be used with Switching and DAQ Mainframe 8 Slot (DE2000) and Single Module Mainframe (DE2001). General Purpose Multiplexer Module is a general purpose dual 1x40 multiplexer module. The module can be used with Switching and DAQ Mainframe 8 Slot (DE2000) and Single Module Mainframe (DE2001). The general features of General Purpose Multiplexer Module are listed below. Key Features 40 2-wire channels 250 V, 2 A switching capability Signal switching up to 50 MHz Mix 2 or 4 wire configurations 4 current channels DE2100 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: LAB Usage DMM Signal Routing Automated Test Equipment --- Single Module Mainframe is a single slot mainframe for related modules Single Module Mainframe is a single slot mainframe for related modules. This device allows user to control any related module through RS485, CAN, EtherCAT, Ethernet or USB interface. Single slot mainframe also distributes the required power to the module. The general features of Single Module Mainframe are listed below. Key Features RS485 interface full duplex CAN interface EtherCAT interface Ethernet interface USB type C interface Indicator LEDs 48 W power distribution DE2001 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: LAB Usage Modular Test Systems Automated Test Equipment --- Switching and DAQ Mainframe 8 Slot is an 8-slot mainframe for related modules. This device allows user to control any related module through Ethernet, USB interface or touch screen. Switching and DAQ Mainframe 8 Slot is an 8-slot mainframe for related modules. This device allows user to control any related module through Ethernet, USB interface or touch screen. DE2000 contains 6. 5 digit DMM. Voltage, current, 2-wire resistance, 4-wire resistance and frequency measurements can be obtained with multiplexer modules. The general features of Switching and DAQ Mainframe 8 Slot are listed below. Key Features Ethernet interface USB interface DMM measurements DE2000 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include LAB Usage Modular Test Systems Automated Test Equipment --- DE2110 multifunction I/O module with 32 analog inputs, 16 analog outputs, and 48 digital I/O. Ideal for DAQ, ATE, HIL, and industrial automation. DE2110 is a fully integrated digital and analog I/O system. This system provides 48 digital I/O, 32 single-ended or 16 differential analog inputs, and 16 analog output channels. All I/O channels are routed to the rear panel through two separate DB-78 connectors. The module includes a flexible digital I/O system that can interface with multiple logic families and all digital channels feature a programmable threshold level. The DE2110 features an 18-bit, simultaneous sampling, analog-to-digital data acquisition system (DAS) that is configurable for 32 single-ended or 16 differential channels. Each input channel is equipped with analog clamp protection. The module also provides a 16-channel, 16-bit analog output stage with a precision reference. Each output is independently programmable to a range of ±15 V. The analog outputs are guaranteed monotonic and include built-in rail-to-rail buffers capable of sourcing or sinking up to 55 mA. These outputs can be automatically calibrated using the integrated ADC block. Key Features Connectivity Standard 10/100 base-t ethernet interface USB 1. 1 full-speed interface (12 Mb/s) Robustness and Reliability Fully protected analog and digital I/O lines MTBF (Mean Time Between Failures) exceeding 150,000 hours ESD (Electrostatic Discharge) protection up to 7 kV Operational Flexibility Supports PC-based, standalone, or embedded controller operation LXI Class C compliant for system integration Standards and Compliance The DE2110 is fully compliant with the following standards for safety, emissions, and immunity: Environmental: IEC 60068-2-1, IEC 60068-2-2, IEC 60068-2-27, IEC 60068-2-64, IEC 60068-2-78 EMC/EMI: EN 61326, EN 55011 (CISPR 11), AS/NZS CISPR 11, FCC 47 CFR Part 15B, ICES-001 Typical Applications High-density measurement and sensing Data Acquisition (DAQ) systems Instrumentation and control systems Automated Test Equipment (ATE) Process control and industrial automation Hardware-in-the-Loop (HIL) simulation --- DE150100 MPCIe MIL-STD-1553 Module with 2 dual-redundant channels, BC/RT/monitor modes, ideal for embedded MIL-STD-1553B systems. DE150100 MPCIe MIL-STD-1553 Module 2 CH is a full-size PCI express mini card. DE150100 supports 2-channel transformer-coupled dual-redundant MIL-STD-1553B interface. It is suitable for embedded and portable systems. DE150100 supports bus controller, remote terminal, and bus monitoring operating modes. Key Features 2-channel transformer-coupled dual-redundant MIL-STD-1553B interface Bus controller / remote terminal / bus monitor operating modes 2 remote terminal per channel BC external trigger / SS flag Comprehensive built-in self tests PCI Express Mini Card Electromechanical Specification rev. 1. 2 Maximum power consumption of 4 W Driver and test software support for Windows, Linux and VxWorks MIL-STD-810G environmental requirements compliant Lockable connector for MIL-STD-1553B Suitable for embedded and portable systems --- DE140201 PXIe Relay Module features 80 SPST channels with 2 A current rating, supporting up to 220 V DC / 250 V AC for efficient medium-power switching in PXIe systems. DE140201 PXIe Relay Module 80 CH 2 A SPST is a general-purpose relay module designed for high-density switching in medium power applications. It features 80 independent SPST electromechanical relays, providing flexible switching capabilities. Each relay supports switching voltages of up to 220 V DC or 250 V AC and can handle power ratings of up to 60 W (DC) / 62. 5 VA (AC). The module has a maximum current capacity of 2 A per channel. A PXIe chassis is required for operation. Key Features 80-channel SPST electromechanical relay Up to 220 V DC / 250 V AC Up to 60 W / 62. 5 VA 2 A rated current Hot or cold switching Maximum 200 mΩ DC path resistance Maximum 5 ms relay operate time --- DEICO's AMD Kria™ K26 SOM PCIe Development Kit enables evaluation and optimization of PCIe functionality for AI, robotics, and vision applications, enhancing high-speed communication performance. The AMD Kria™ K26 SoM is a cost-effective solution designed for high-performance applications such as AI, robotics, and vision processing. While it offers PCIe lanes for high-speed communication, a dedicated development kit for evaluating these lanes was previously unavailable. DEICO's AMD Kria™ K26 SoM PCIe Development Kit bridges this gap, enabling users to assess and optimize the PCIe functionality of the SoM. --- DE140701 PXIe High Density Matrix Module 32x4 2 A 1-Pole is a crosspoint matrix module designed for high-density switching in medium power applications. DE140701 PXIe High Density Matrix Module 32x4 2 A 1-Pole is a crosspoint matrix module designed for high-density switching in medium power applications. It features 128 crosspoint matrices with 32x4 single-pole configuration, each utilizing an electromechanical relay. Each relay supports switching voltages of up to 220 V DC or 250 V AC and can handle power ratings of up to 60 W (DC) / 62. 5 VA (AC). The module has a maximum current capacity of 2 A per channel. The module’s current capacity is 2 A. A PXIe chassis is required for operation. Key Features 128 crosspoint 32x4 single pole configuration Up to 220 V DC / 250 V AC Up to 60 W / 62. 5 VA 2 A rated current Hot or cold switching Maximum 500 mΩ DC path resistance Maximum 5 ms relay operate time --- DE140700 PXIe High Density Matrix Module 64x4 2 A 1-Pole is a crosspoint matrix module designed for high-density switching in medium power applications. DE140700 PXIe High Density Matrix Module 64x4 2 A 1-Pole is a crosspoint matrix module designed for high-density switching in medium power applications. It features 256 crosspoint matrices with 64x4 single-pole configuration, each utilizing an electromechanical relay. Each relay supports switching voltages of up to 220 V DC or 250 V AC and can handle power ratings of up to 60 W (DC) / 62. 5 VA (AC). The module has a maximum current capacity of 2 A per channel. The module’s current capacity is 2 A. A PXIe chassis is required for operation. Key Features 256 crosspoint 64x4 single pole configuration Up to 220 V DC / 250 V AC Up to 60 W / 62. 5 VA 2 A rated current Hot or cold switching Maximum 500 mΩ DC path resistance Maximum 5 ms relay operate time --- DE140300 PXIe Multiplexer Module offers 196x1 or 98x2 channel configurations with 1 A current rating, supporting up to 220 V DC/250 V AC for high-density switching applications. DE140300 PXIe Multiplexer Module 196 CH 1 A is a multiplexer module designed for high-density switching applications. It features 196x1 or 98x2 configurations with electromechanical relays, providing flexible switching capabilities. Each relay supports switching voltages of up to 220 V DC or 250 V AC and can handle power ratings of up to 60 W (DC) / 62. 5 VA (AC). The module has a maximum current capacity of 1 A per channel. A PXIe chassis is required for operation. Key Features 196 x 1 multiplexer configuration 98 x 2 multiplexer configuration Up to 220 V DC / 250 V AC Up to 60 W / 62. 5 VA 1 A rated current Hot or cold switching Maximum 500 mΩ DC path resistance Maximum 5 ms relay operate time --- DE140203 PXIe Relay Board offers 16 SPST channels with 16 A switching capacity at 250 V AC/24 V DC, designed for high-power load switching in PXIe systems. DE140203 PXIe Relay Board 16 CH 16 A is a high-power relay module that supports SPST relay configuration for switching loads of up to 16 A at 250 V AC or 16 A at 24 V DC. It is designed for switching high-power loads and can be configured as a 16-channel SPST. A PXIe chassis is necessary for using the module. Key Features 16-channel SPST electromechanical relay 16 A rated current (at 250 V AC or 24 V DC) Up to 300 V DC / 440 V AC Hot or cold switching Max 100 mΩ DC path resistance Max 15 ms relay operate time Suitable for high power applications PXI Express Hardware Specification Revision 1. 1 --- DE140200 PXIe Relay Module offers 53 SPDT channels with 2 A current rating, supporting up to 220 V DC / 250 V AC for reliable medium-power switching in PXIe systems. DE140200 PXIe Relay Module 53 CH 2 A SPDT is a general-purpose relay module designed for high-density switching in medium power applications. It features 53 independent SPDT electromechanical relays, providing flexible switching capabilities. Each relay supports switching voltages of up to 220 V DC or 250 V AC and can handle power ratings of up to 60 W (DC) / 62. 5 VA (AC). The module has a maximum current capacity of 2 A per channel. A PXIe chassis is required for operation. Key Features 53-channel SPDT electromechanical relay Up to 220 V DC / 250 V AC Up to 60 W / 62. 5 VA 2 A rated current Hot or cold switching Maximum 200 mΩ DC path resistance Maximum 5 ms relay operate time --- DE140501 PXIe Serial Module offers 8 channels of programmable RS-232/422/485 with up to 20 Mbps speed, 256-byte FIFOs, and ±30 kV ESD protection for industrial use. DE140501 – PXIe RS232/RS422/RS485 Serial Communication Module 8 CH is a PCI eXtension for Instrumentation (PXIe) compatible module offering 8 channels of high-performance RS-232 / RS-422 / RS-485 programmable asynchronous serial interface. The serial channels can be individually programmed to operate as RS-232, RS-422 or RS-485 full duplex / half duplex interface. In addition, programmable termination is provided for the RS-422 / RS-485 interfaces. After power-up all serial I/O lines are in a high impedance state. Each RS-232 channel supports RxD, TxD, RTS, CTS, and GND. RS-422 and RS-485 full duplex supports a four-wire interface (RX+, RX-, TX+, TX-) plus ground (GND). RS-485 half-duplex supports a two-wire interface (DX+, DX-) plus ground (GND). Each channel has 256-byte transmit and receive FIFOs to significantly reduce the overhead required to provide data to and get data from the transmitters and receivers. The FIFO trigger levels are programmable and the baud rate is individually programmable up to 1 Mbps for RS-232 channels and 20 Mbps for RS-422 / RS-485 channels with selectable 250 Kbps slew limiting. The UART offers readable FIFO levels. All serial channels use ESD and Surge protected transceivers. ESD protection is up to ±30 kV. Key Features New high-performance serial communication RS-232 mode up to 1Mbps RS-422 / 485 modes up to 20Mbps PCIe interface UART with 256-byte FIFOs Independent serial 8 ports RS-422 / 485 termination programmable RS-232 / 422 / 485 serial ports with programmable protocol ±30 kV ESD and Level 4 Surge protection on all serial ports DE140500 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: Next generation point-of-sale systems Factory automation and process control Multi-port RS-232 / RS-422 / RS-485 cards High performance serial communication --- DE140500 PXIe Serial Module provides 16 channels of programmable RS-232/422/485 with up to 20 Mbps speed, 256-byte FIFOs, and ±30 kV ESD protection for industrial applications. DE140500 – PXIe RS-232 / RS422 / RS485 Serial Communication Module 16 CH is a PCI eXtension for Instrumentation (PXIe) compatible module offering 16-channels of high-performance RS-232 / RS422 / RS485 programmable asynchronous serial interface. The serial channels can be individually programmed to operate as RS-232, RS-422 or RS-485 full duplex/half duplex interface. In addition, programmable termination is provided for the RS-422 / RS-485 interfaces. After power-up all serial I/O lines are in a high impedance state. Each RS-232 channel supports RxD, TxD, RTS, CTS, and GND. RS-422 and RS-485 full duplex supports a four-wire interface (RX+, RX-, TX+, TX-) plus ground (GND). RS-485 half-duplex supports a two-wire interface (DX+, DX-) plus ground (GND). Each channel has 256-byte transmit and receive FIFOs to significantly reduce the overhead required to provide data to and get data from the transmitters and receivers. The FIFO trigger levels are programmable and the baud rate is individually programmable up to 1 Mbps for RS-232 channels and 20 Mbps for RS-422 / RS-485 channels with selectable 250 Kbps slew limiting. The UART offers readable FIFO levels. All serial channels use ESD and Surge protected transceivers. ESD protection is up to ±30 kV. Key Features New high performance serial communication RS-232 mode up to 1 Mbps RS-422 / 485 modes up to 20 Mbps PCIe interface UART with 256-byte FIFOs Independent serial 16 ports RS-422 / 485 termination programmable RS-232 / 422 / 485 serial ports with programmable protocol ±30 kV ESD and Level 4 Surge protection on all serial ports DE140500 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2- 27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: Next generation point-of-sale systems Factory automation and process control Multi-port RS-232/RS-422/RS-485 cards High-performance serial communication --- DE9007 SLSC IO Module: 32 protected discrete inputs/outputs with configurable thresholds for reliable HIL testing and fault simulation. DE9007 SLSC Programmable Discrete IO Module has 32 channel discrete output and 32 channel discrete input which is used in SLSC chassis and connected to test equipment and DUTs. Output channels can be used for high or low driver. For high side driving, the voltage source is supplied externally. For low side driving, the module's output operates an open collector or open drain driver. Input channels can compare the input level to two threshold voltages. These voltages are configurable. SLSC chassis is necessary for module usage. Note: DE9007 is compatible with DE9002 SLSC Instrument Expansion Module and able to measure all of the routed channels when used together. The general features of DE9007 are listed below: 32 channel selectable sense operation, GND/open or supply/open Dual programmable voltage threshold, 3 to 22 V Lightning protected sense inputs High input voltage tolerance 32 channel output High side or low side driving Fully protected outputs High side external voltage input SLSC chassis compatible 2 slots for SLSC Instrument Expansion Modules DE9007 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Discrete Input Measurements Discrete Output Fault Simulation --- DEICO DE9001 SLSC Routing Module offers 32 differential or 64 single-ended channels, high-voltage/current switching, and flexible configurations for HIL testing, signal routing, and fault simulation. DE9001 SLSC 32/64 Channel Routing Module is a switch matrix module that allows the most challenging Signal Routing options with its flexible hardware/software, the high number of channels, and wide range of Voltage/Current ratings. In SLSC Form-Factor, the module has 32 Differential or 64 Single-Ended channels configurable in any routing scenario. Example switching combinations for a single group are shown below. Note that all of the channels can achieve these combinations independently. Switching Combination Example Note: DE9001 is compatible with DE9002 SLSC Instrument Expansion Module and DE9010 SLSC Fault Insertion Module and able to measure all of the routed channels when used together. The general features of DE9001 are listed below: 32 differential or 64 single-ended channels Independent channel configurations 220 V DC, 250 V AC switching voltage, 2A rated current per channel 60 W switching power per channel SLSC chassis compatible 2 slots for SLSC Instrument Expansion or SLSC Fault Insertion Modules DE9001 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Signal Routing Signal Conditioning Fault Simulation --- The main function of the DE9002 SLSC Instrument Expansion Module is to multiplex the signals on any DEICO SLSC Card on the instrument buses. DE9002 can be easily mounted to any DEICO SLSC module with a plugin module shot. The main function of the DE9002 SLSC Instrument Expansion Module is to multiplex the signals on any DEICO SLSC Card on the instrument buses. DE9002 can be easily mounted to any DEICO SLSC module with a plugin module shot. It provides instrument connection capabilities with 32 single-ended or 16 differential channels. In addition, each instrument bus signal has a GND connection relay for single-ended measurement. SLSC Instrument Expansion Module directs the base cards’ test signals to instrument buses. It is possible to connect two instrument buses to two different instrument devices. The general features of DE9002 are listed below: 16 differential or 32 single-ended channels 2 Instrument bus connections Independent channel configurations 220 V DC, 250 V AC switching voltage, 2 A rated current per channel 60 W switching power per channel DE9002 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Signal Routing Signal Conditioning --- DE9010 SLSC Fault Insertion Module offers 16 differential or 32 single-ended relay channels with 220 V DC/250 V AC, 2 A/60 W rating for precise fault simulation in HIL systems. DE9010 SLSC Fault Insertion Module is an add-on board for particular SLSC modules; and it offers a set of relay channels to be used for simulating open, short and/or interrupted connections in hardware-in-the-loop (HIL) testing. One can connect input signals either to fault buses on the rear transition interface (RTI) or to external devices such as other test instruments and units under test (UUTs), and even other modules through the second connector on the front of the SLSC module. The key features of DE9010 are listed below. 16 differential or 32 single-ended channels 220 V DC, 250 V AC switching voltage, 2 A and 60 W per channel Flexibility in connection (i. e. , either through RTI or the front panel of the SLSC module) DE9010 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: Open-circuit simulation of the input signal pairs Short-circuit simulation of the input signal pairs Fault insertion --- DE9100 SLSC Current Input Module features 16 channels with ±100 mA input, 0.5-4.5 V output, and 0.15% resolution for precise current measurement in HIL testing. DE9100 SLSC Current Input Module 100 mA is a 16-channel current sense module used in the SLSC enclosure, which connects to test equipment and products under test. It gives analog voltage information in the range of 0. 5-4. 5 V by using the current in the range of ±100mA from the input. Signal inputs are relay controlled and relay control is provided by the controller on the module. The SLSC case is required to use the product. Note: DE9100 is compatible with DE9002 SLSC Instrument Expansion Module and able to measure all of the routed channels when used together. The general features of DE9100 are listed below: 16 channels Independent channel configurations Current input in the range of ±100 mA Voltage output in the range of 0. 5-4. 5 V 0. 15% resolution Load can be connected in the range of -22 V to +60 V SLSC chassis compatible 2 slots for Instrumentation Expansion Modules DE9100 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Current Input Measurement --- DE9101 SLSC Current Input Module with 16 channels supports ±500 mA input and 0.5-4.5 V output, offering 0.15% accuracy for HIL current measurement applications. DE9101 SLSC Current Input Module 500 mA is a 16-channel current sense module used in the SLSC enclosure, which connects to test equipment and products under test. It gives analog voltage information in the range of 0. 5-4. 5 V by using the current in the range of ±500 mA from the input. Signal inputs are relay controlled and relay control is provided by the controller on the module. The SLSC case is required to use the product. Note: DE9101 is compatible with DE9002 SLSC Instrument Expansion Module and able to measure all of the routed channels when used together. The general features of DE9101 are listed below: 16 channels Independent channel configurations Current input in the range of ±500 mA Voltage output in the range of 0. 5-4. 5 V 0. 15% resolution Load can be connected in the range of -22 V to +60 V SLSC chassis compatible 2 slots for Instrumentation Modules DE9101 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Current Input Measurement --- DE9200 SLSC VDT Simulation Module with 8 relay-controlled channels for 5- and 6-wire VDT simulation, ideal for HIL testing. DE9200 SLSC VDT Simulation Module is an 8 channel VDT simulation module which is used in SLSC chassis and connected to test equipment and DUTs. Signal outputs are relay controlled. Relays are controlled by the controller block. SLSC chassis is necessary for module usage. The general features of DE9200 are listed below: 8 independent channels 5-wire & 6-wire VDT mode Integrated self-test with 400 Hz, 800 Hz, 1 kHz, 10 kHz excitation signals and 10V control signals (Optional) Relay controlled outputs SLSC chassis compatible Integrated instrumentation structure DE9200 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing VDT Simulation --- DE9900 SLSC RTI Module DSUB68 provides signal transition from SLSC form factor to DSUB68 connector with strain relief, ideal for HIL testing. DE9900 SLSC RTI Module DSUB68 is a rear transition interface which carries signals from SLSC form factor to a DSUB68 connector and a power header in order to allow the harness process. It also contains strain relief accessories to protect the cable from bending. Areas of application include: HIL Testing Signal Transition --- DE9901 SLSC RTI Module DSUB44 provides Bank1 signal transition from SLSC form factor to DSUB44 connector with strain relief, ideal for HIL testing. DE9901 SLSC RTI Module DSUB44 is a rear transition interface which carries signals from SLSC form factor to a DSUB44 connector and a power header in order to allow harness process. It covers only Bank1 signal transitions. It also contains strain relief accessories to protect cable from bending. Areas of application include: HIL Testing Signal Transition --- DE9902 SLSC RTI Module 2Bank DSUB44 RA is a rear transition interface which carries signals from SLSC form factor to a DSUB44(x2) connector and a power header in order to allow harness process. It covers Bank1 and Bank2 signal transitions. DE9902 SLSC RTI Module 2Bank DSUB44 RA is a rear transition interface which carries signals from SLSC form factor to a DSUB44(x2) connector and a power header in order to allow harness process. It covers Bank1 and Bank2 signal transitions. Areas of application include: HIL Testing Signal Transition --- DE9003 SLSC Current Output Module 100 mA offers 32 channels of ±100 mA current output with 100 µA resolution for HIL testing. Compatible with SLSC chassis and Instrument Expansion Modules. DE9003 SLSC Current Output Module 100 mA is a 32-channel current module used in the SLSC enclosure, which connects to test equipment and products under test. It provides current output in the range of ±100 mA at 100 µA resolution by using ±10 V analog Voltage from the input. Signal outputs are relay controlled and it is provided by the controller on the module. SLSC chassis is required to use the product. Note: DE9003 is compatible with DE9002 SLSC Instrument Expansion Module and able to measure all of the routed channels when used together. The general features of DE9003 are listed below: Current output in the range of ±100 mA Independent channel configurations Output control with relay available 100 µA resolution Load connection can be connected up to a maximum voltage of 14. 5 V SLSC chassis compatible 2 Slots for Instrumentation Modules DE9003 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Current Output --- DE9004 SLSC Amplifier Module offers 24 relay-controlled channels with six gain options for signal amplification. Compatible with SLSC chassis and ideal for HIL testing. DE9004 SLSC Amplifier Module 20 mA is a 24-channel signal amplifier that is used in the SLSC chassis and connected to test equipment and DUTs. There are 6 types of amplifier block with different gain on it. Signal outputs are relay controlled. Relays are controlled by the controller block. SLSC chassis is necessary for module usage. The general features of DE9004 are listed below: 24 channels Signal amplification with 6 different gains High slew rate Low signal noise Wide bandwidth Wide operating voltage Relay controlled outputs SLSC chassis compatible DE9004 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Signal Amplification --- DE9005 SLSC Pass Through Module offers 64 single-ended or 32 differential relay channels with 400 V switching voltage. Compatible with SLSC chassis, ideal for HIL testing and signal routing. DE9005 SLSC Pass Through Module is a 64-channel relay module that is used in SLSC chassis and connected to test equipment and DUTs. Module is suitable for 64-channel single or 32-channel differential switching. There is a single test output for switching signals on the module. All switching signals can switch to the test output. SLSC chassis is necessary for module usage. Note DE9005 is compatible with DE9002 SLSC Instrument Expansion Module and able to measure all of the routed channels when used together. The general features DE9005 are listed below: 32 differential or 64 single-ended channels Independent channel configurations 400 V switching voltage, 100 mA rated current per channel Integrated instrument module structure SLSC chassis compatible DE9005 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Signal Routing Signal Conditioning --- DE9006 SLSC Amplifier Module 30 mA features 24 channels with 4.92 gain, low noise, and high slew rate. Relay-controlled outputs for precise signal amplification in SLSC chassis. DE9006 SLSC Amplifier Module 30 mA is a 24-channel signal amplifier that is used in the SLSC chassis and connected to test equipment and DUTs. There are 24 amplifier blocks with 4. 92 gain on it. Signal outputs are relay controlled. Relays are controlled by the controller block. SLSC chassis is necessary for module usage. The general features of DE9006 are listed below: 24 channels Signal amplification with gain 4. 92 High slew rate Low signal noise Wide bandwidth Wide operating voltage Relay controlled outputs SLSC chassis compatible DE9006 is compatible with IEC 60068-2-1/ IEC 60068-2-2/ IEC 60068-2-78/ IEC 60068-2-27/ IEC 60068-2-64/ EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11/ FCC 47 CFR Part 15B/ ICES-001 standards. Areas of application include: HIL Testing Signal Amplification --- DEICO DE3000 Battery Simulator: 12-channel system for precise battery emulation. 5 V/500 mA per channel, 1600 V DC isolation. Ideal for BMS testing & HIL validation. DEICO DE3000 Battery Simulation Unit is a high-performance, 12 channel system engineered for precise, efficient, and safe emulation of a wide spectrum of battery pack behaviors and cell-level conditions. Each of the 12 channels operates independently, enabling accurate simulation of individual cells. Integrated analog/digital I/O and auxiliary channels, combined with onboard computing capabilities, allow the simulation of complex battery characteristics and custom profiles under diverse operational scenarios. Multiple units can be connected in series to emulate high-cell-count battery packs. The general features of DE3000 are listed below: 1U rack-mountable form factor, designed to meet stringent testing requirements for battery-sensitive systems 12 independent simulation channels, each configurable for individual cell emulation Source/sink capability up to 5 V and 500 mA per channel, supporting precise current control High isolation voltage of 1600 V DC, ensuring safe operation and system protection Dedicated analog and digital I/O channels for seamless integration with auxiliary systems Multiple communication interfaces including Ethernet, USB, EtherCAT, and high-speed CAN for flexible and remote operation (Note: USB and EtherCAT interfaces are not currently available for customer use and may be supported in a future release. ) Intuitive control software, the DEICO Battery Simulator Control Panel, enabling user-friendly configuration and monitoring Comprehensive API support for seamless integration into existing automated test environments and software platforms Areas of application include: Hardware-in-the-Loop (HIL) testing of battery management systems (BMS) and electronic control units (ECUs) BMS algorithm development, validation, and production-level testing Evaluation and verification of battery-dependent electronic components under controlled and repeatable test conditions --- 1U rack-mount Single Phase PDU with 10 switchable outputs, overcurrent protection, LED indicators, and emergency stop. Ideal for space-constrained setups. The Single Phase Power Distribution Unit is in a 1U form factor and offers 10 switchable outputs. Switches are accompanied by led lights that indicate their status. The PDU is fed by a single-phase input, equipped with overcurrent protection, and has the ability to disconnect the input from the grid using an emergency stop button. Key Features Suitable for limited space 1U rack-mount case Features overcurrent protection (OCP) Aluminum housing Contains PDU on/off switch Switchable outputs Led lights connected to the switches Emergency stop --- The Single Phase Distribution Unit is in a 1U form factor and offers 10 switchable outputs. The Single Phase Distribution Unit is in a 1U form factor and offers 10 switchable outputs. Switches are accompanied by led lights that indicate their status. The PDU is fed by a single-phase input, equipped with overcurrent protection, and has the ability to disconnect the input from the grid using an emergency stop button. Key Features Suitable for limited space 1U rack-mount case Features overcurrent protection (OCP) Aluminum housing Contains PDU on/off switch Switchable outputs LED lights connected to the switches Emergency stop --- The Three Phase Power Distribution Unit is a 4U rack-mounted device that offers switchable output. The Control Unit controls the Main Unit through the interconnection cable. Various cable types of varying lengths are available between the Control Unit and the Main Unit. On the Control Unit, there is an emergency stop button to disconnect from the mains in emergencies, as well as an on/off switch to toggle the mains connection. When the unit is powered, the status led on the Control Unit functions as an active status indicator. The Main Unit is powered by three-phase power. The Control Unit obtains its power from the Main Unit. There is one three-phase input on the Main Unit. The Main Unit features a residual current device and a fuse that serve as protection in hazardous situations. On the Main Unit, there are two terminal-type 380 V AC outputs, six IEC 320-2-2/F type outputs (compatible with C14 Connector) for each phase group, and one terminal-type output. Voltage information for each phase group is displayed digitally. Scope of delivery: (x1) Three Phase PDU (x1) Three Phase Power Distribution Control Unit (x1) Power cable, 1 m (x1) Connection cable, 2 m --- The Three Phase Power Distribution Unit is a 4U rack-mounted device that offers switchable output. The Control Unit controls the Main Unit through the interconnection cable. Various cable types of varying lengths are available between the Control Unit and the Main Unit. On the Control Unit, there is an emergency stop button to disconnect from the mains in emergencies, as well as an on/off switch to toggle the mains connection. When the unit is powered, the status led on the Control Unit functions as an active status indicator. The Main Unit is powered by three-phase power. The Control Unit obtains its power from the Main Unit. There is one three-phase input on the Main Unit. The Main Unit features a residual current device and a fuse that serve as protection in hazardous situations. On the Main Unit, there are two terminal-type 380VAC outputs, six IEC 320-2-2/F type outputs (compatible with C14 Connector) for each phase group, and one terminal-type output. Voltage information for each phase group is displayed digitally. Scope of delivery: (x1) Three Phase PDU (x1) Three Phase Power Distribution Control Unit (x1) Power cable, 1m (x1) Connection cable, 2m --- The DE14100 – Component Video Switch 4x1 product switches four video inputs to one video output. DE14100 provides user buttons for switching. The DE14100 – Component Video Switch 4x1 product switches four video inputs to one video output. DE14100 provides user buttons for switching. DE14100 also provides Ethernet, USB, RS-232, and GPIO interfaces for programming switch configurations. It maintains high resolution video – beautiful HDTV resolutions up to 1080i are easily achieved. Key Features Accepts 480i, 480p, 576i, 576p, 720p and 1080i resolutions 100 Mbps ethernet interface USB 2. 0 full-speed interface RS-232 interface Discrete I/O control User button control USB type-C or barrel jack power in DE14100 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: Video Switching Component Video Testing --- The DE14200 – Component Video Distribution Amplifier 1x4 is a high-performance distribution amplifier for composite video signals. The DE14200 – Component Video Distribution Amplifier 1x4 is a high-performance distribution amplifier for composite video signals. It takes one input, provides correct buffering and isolation, and distributes the signal to four identical outputs. The DE14200 also provides Ethernet, USB, RS-232 and GPIO interfaces for programming output configurations. It maintains high resolution video – beautiful HDTV resolutions up to 1080i are easily achieved. Key Features Accepts 480i, 480p, 576i, 576p, 720p and 1080i resolutions 100 Mbps ethernet interface USB 2. 0 full-speed interface RS-232 interface Discrete I/O control User button control USB type-C or barrel jack power in DE14200 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: Video Switching Component Video Testing --- DE14300 – DisplayPort Video Switch 4x1 product switches 4 DisplayPort inputs to 1 DisplayPort output. DE14300 – DisplayPort Video Switch 4x1 product switches 4 DisplayPort inputs to 1 DisplayPort output. DE14300 provides user buttons for switching. It also provides Ethernet, USB, RS-232 and discrete interfaces for programming switch configurations. Key Features DisplayPort 1. 3/1. 4 100 Mbps ethernet interface USB 2. 0 interface RS-232 interface Discrete I/O control User button control DE14300 is compatible with IEC 60068-2-1 / IEC 60068-2-2 / IEC 60068-2-78 / IEC 60068-2-27 / IEC 60068-2-64 / EN 61326 (IEC 61326) / EN 55011 (CISPR 11) / AS/NZS CISPR 11 / FCC 47 CFR Part 15B / ICES-001 standards. Areas of application include: Video Switching Component Video Testing --- DE4001 USB I²C/SPI host adapter: Master/slave modes, 3.4MHz I²C & 25MHz SPI speeds, GPIO support. Plug-and-play for EEPROM/sensor communication. DE4001 DEICO Onyx is an I²C bus and SPI bus host adapter which allows to communicate with any I²C or SPI devices via USB. DEICO Onyx is powered directly from the PC’s USB port. DEICO Onyx can be used as a master or slave for I²C and SPI. I²C and SPI pins can also be used as GPIO or combined with I²C or SPI functionality. The general features of DEICO Onyx are listed below: Plug and play with DEICO serial center The device is powered by USB Master or slave mode Asynchronous slave transmit and receive I²C interface supports various speeds from 100 kHz to 3. 4 MHz I²C interface supports multi-master I²C interface internal pull-up resistors SPI interface supports various speeds from 200 kHz to 25 MHz SPI interface full duplex transmit and receive SPI interface software configurable slave select polarity I²C and SPI pins can be used as GPIO or combined with I²C or SPI Areas of application include: EEPROMS Flash Temperature Sensors Accelerometers --- Rack-mountable 3 W Class-D audio amplifier with DC volume control (80dB range), 0.1% THD+N. Ideal for ATE and voice verification systems. DE6000 RackBeat is a 3 W (per channel) stereo Class-D audio box with DC Volume Control which offers low THD+N (0. 1%), low EMI, and good PSRR thus high-quality sound reproduction. The 32 steps DC volume control has a +80 dB to -78 dB range. It's produced for 19-inch cabinets and saves space with its compact structure. Areas of application include: Automated Test Equipment (ATE) Areas of Voice Verification Scope of delivery: (x1) RackBeat (x1) Power cable, CEE 7/7, C13 M/F, 1. 8 m, Black (x1) Audio connection cable, 3. 5 mm, 1. 5 m, M/M, Black --- Standartized in 19 inches Can be single or double unit Customizable from 20U to 42U Customizable depth ranging from 800mm to 900mm Easily transportable with the lifting lugs or with a forklift Double-layer protection against corrosion with galvanized coating and RAL 9005 powder coating* *Customizable color Easy access to the cabinet from all directions with lockable doors The ESD ground point is connected to rack enclosures and open-frame racks to ensure grounding and prevent static discharge Connection panel for easy and efficient interface connectivity Air cooling system with adjustable thermostat Cable management tools The entire chassis is grounded, ensuring comprehensive grounding throughout the cabinet Portable with lockable wheels for mobility and security --- DEICO MIL-STD-1553 bus couplers provide economical, COTS-based connections with shielding, isolation, and transformer interfaces for platform and benchtop test systems. The MIL-STD-1553 communication bus electrically connects multiple devices to facilitate reliable communication in various platforms, including both military and civil applications. These bus configurations are built using various components such as cables, bus couplers, terminating resistors and connectors. In a data bus structure, bus couplers play a role in providing shielding, isolation resistance and transformer interfaces for connection points known as stubs. In this respect, bus couplers are the commercial off- the-shelf (COTS) solutions for easier and more reliable wiring. DEICO bus couplers are designed to provide an economical solution for both platform and professional benchtop test systems. The product offers users the opportunity to have MIL-STD-1553 bus networks through fast delivery options at a fraction of the cost. --- MIL-STD-1553 bus couplers deliver cost-effective, reliable connections with shielding, isolation, and transformer interfaces for platform and bench-top test systems. The MIL-STD-1553 communication bus electrically connects multiple devices to facilitate reliable communication in various platforms, including both military and civil applications. These bus configurations are built using various components such as cables, bus couplers, terminating resistors and connectors. In a data bus structure, bus couplers play a role in providing shielding, isolation resistance and transformer interfaces for connection points known as stubs. In this respect, bus couplers are the commercial off- the-shelf (COTS) solutions for easier and more reliable wiring. Our bus couplers are designed to provide an economical solution for both platform and professional bench-top test systems. The product offers users the opportunity to have MIL-STD-1553 bus networks through fast delivery options at a fraction of the cost. --- --- ## Documents --- ## Portfolio Fully automatic helicopter generator/starter test system for military & civil aviation. Test, analyze, and certify performance per ISO/API standards with dual-test capability. Project Overview Project Objective To develop a dynamic test system for evaluating military-type helicopter generators and starters under realistic mounted conditions. The system analyzes mechanical and electrical outputs to support development, maintenance, and repair activities. Target Platform and Industry Industry: Military/civil aviation, defense sector Platform: Military and civilian helicopters Scope and Functionality The I-Level Test Equipment Project is designed to support intermediate-level maintenance operations for complex avionics systems—primarily the ACMI POD (Air Combat Maneuvering Instrumentation) used in military aviation. What Does It Do? Measures mechanical/electrical performance of helicopter generators and starters. Tests generators by driving them mechanically and analyzing electrical outputs. Tests starters by driving them electrically and analyzing mechanical outputs (e. g. , torque, angular speed). Technical Specifications System Capabilities Simultaneously tests two generators. Supports hydraulic- and air-cooled generators (AC/DC). 160 kW power unit drives generators up to 20,000 RPM. Measures starter torque (up to 100 Nm) and angular speed (up to 20,000 RPM). Fully automated PC-based controller for tests without manual intervention. Modular design for compatibility with diverse mechanical interfaces. Includes: 2 AC + 2 DC load banks for generator load simulation. 2000 A 28 V DC power supply for starter "no-load speed/torque" tests. Electromechanical infrastructure for automated starter tests. Capability to test/simulate Generator Control Units (GCU) and voltage regulators. Standards, Protocols, and Compatibility Compliant with: API 613, ISO 1940, ISO 20816. DEICO Modules Used Mechanical design, Electronic design, Software. Project Value and Impact Why This Project Matters Localizes critical test systems for helicopter generators and starters, eliminating dependency on foreign solutions. Customer and Industry Benefits Comprehensive Testing: Enables testing of all generator/starter types in the customer’s inventory. Tailored Solutions: Custom-built to meet exact operational requirements. Local Support: Provides in-country development/maintenance support. Sector Advancement: Boosts domestic capability in aviation/defense testing technology. Table of Content --- GOTS is an automated test system used especially in military and aerospace applications to test complex systems and their subunits. By integrating both hardware and software components, it automates the testing process, reduces human error, and shortens testing time. Project Overview Project Objective The objective of the project is to develop a Gelişmiş Otomatik Test Sistemi (GOTS) — an Advanced Automated Test System — designed specifically for use in military and aerospace environments. This system aims to provide a fully automated, reliable, and modular platform capable of performing comprehensive testing at both LRU (Line Replaceable Unit) and SRU (Shop Replaceable Unit) levels. Target Platform and Industry Military Aircraft Systems (Avionics, Radar, Communication Units) Unmanned Aerial Vehicles (UAVs) Missile and guidance systems Ground-based defense systems Naval platforms and subsystems Defense industry production facilities Aerospace component manufacturing and testing centers Maintenance, Repair, and Overhaul (MRO) Facilities Electronic Warfare (EW) Systems Integration Labs Automated test and diagnostics laboratories Scope and Functionality This project focuses on the design, development, and implementation of an Advanced Automated Test Station (GOTS) that enables comprehensive testing of electronic units and subsystems, particularly for military and aerospace platforms. Capabilities include: Executing functional, diagnostic, and performance tests on LRU and SRU components. Supporting production testing, verification, and validation. Performing automated fault detection and isolation. Generating detailed test reports and traceability logs. Integrating both hardware (test instruments, signal conditioning units, interface fixtures) and software (test control apps, drivers, scripts). Reducing manual intervention, improving test accuracy, and shortening test cycles through intelligent sequencing. Technical Specifications System Capabilities Electrical fault injection on any I/O channel to validate safety responses Simulation and monitoring of avionics buses: MIL-STD-1553B, ARINC429 RS-422 and RS-485 serial interface simulation Analog, discrete I/O, and serial signal simulation and measurement with timing and level control Ethernet avionics network interfacing with traffic monitoring and performance verification Video generation/analysis tools (DisplayPort, HDMI, S-Video, etc. ) Signal conditioning tailored to platform-specific characteristics Mass interconnect interface for fast and repeatable UUT connections GUI for test automation, monitoring, and analysis Standards, Protocols, and Compatibility Ethernet controlled modular architecture PXI modular architecture MIL-STD-1553 support ARINC 429 simulation RS-232/422/485 communication Ethernet-based protocols Video interface compatibility DEICO Modules Used Ethernet controlled modules: DE2001, DE2101, DE2102 MIL-STD-1553 bus coupler: DE8208 Project Value and Impact The development of GOTS is critical in defense and aerospace contexts, where test repeatability, reliability, and traceability are mission-critical. Why This Project Matters Increased Reliability: Detects system-level defects before deployment Time Efficiency: Shorter test cycles, reduced human error Cost Reduction: Pinpoint fault isolation reduces part replacement and repair times Lifecycle Support: Applicable from production to maintenance phases Scalability: Modular architecture supports future upgrades Compliance: MIL-STD conformance and automated report generation Customer and Industry Benefits Customer Gains: Reduced test durations Increased fault detection precision Lower repair and maintenance costs Intuitive interface requiring minimal operator training Unified and standardized test processes Automated reporting for traceability and audits Reduced Mean Time to Repair (MTTR) Industry-Wide Contributions: Localization of ATE technology Strategic support for national defense programs Digitization of test workflows Modular systems enabling platform-wide scalability Knowledge transfer and local engineering capability Contribution to sectoral test standardization Export potential to allied defense partners Table of Content --- An integrated test system used to check the functionality of the electronic systems operating in the F-16 aircraft (such as radar, mission computer, communication systems, sensors, IFF, avionics displays, etc.) and to detect faulty units. Project Overview Project Objective The objective of this project is to develop an Electronic Test System that enables efficient, reliable, and rapid fault detection, maintenance, and repair of the electronic systems (at the LRU/SRU level) used in the F-16 fighter aircraft. The system aims to enhance the aircraft’s mission readiness, reduce maintenance downtime, and lower logistical costs. Target Platform and Industry Targeted Platforms F-16 fighting falcon: The core focus of the project. The entire test infrastructure is developed specifically for the LRU/SRU components used in the F-16. Other fixed-wing military aircraft: Adaptable for aircraft such as the F-4, Hürjet, and similar platforms. Helicopters and UAV systems (potential expansion): Thanks to its modular design, the system can be adapted to other air vehicles. Targeted Industries Military Maintenance, Repair, and Overhaul (MRO) centers Air force inventory and logistics commands Defense electronics manufacturers and system integrators Technical maintenance teams and base commands under the Ministry of Defense Defense R&D Institutions and test laboratories Scope and Functionality This project involves the development of an Electronic Test System designed to test, diagnose, and functionally verify the electronic systems used in the F-16 fighter aircraft—particularly the Line Replaceable Units (LRUs) and Shop Replaceable Units (SRUs). Core Functions: Detection and classification of faulty LRUs/SRUs Execution of functional tests (analog, digital, RF, data communication, etc. ) Analysis and reporting of test results Execution of automated test scenarios Operator guidance through a user-friendly interface Support for maintenance and calibration processes Technical Specifications System Capabilities Variety of switch options: Matrix switches, relays, multiplexers, etc. High power capability DC power supplies High power capability single phase AC power supplies High power capability three phase AC power supplies High power capability DC electronic loads Standardized ITA (Interface Test Adaptor) designs Supports full simulation and monitoring of avionics buses, including MIL-STD-1553B Supports simulation and monitoring of serial interfaces, including RS-422 and RS-485 Signal simulation and measurement for analog inputs, discrete I/O, and serial communication with precise electrical timing Ethernet-based avionics network simulation and traffic monitoring I/O conditioning to match aircraft electrical characteristics Mass interconnect interface for fast, reliable UUT connections Intuitive GUI for test automation, monitoring, and analysis Standards, Protocols, and Compatibility Ethernet controlled & SLSC modular architecture MIL-STD-1553 interface support RS-422 and RS-485 serial communication Ethernet-based avionics network support DEICO Modules Used Ethernet controlled modules (DE2001, DE2101, DE2102) PDU Project Value and Impact Why This Project Matters Increased mission availability: enables rapid fault detection, reducing aircraft turnaround times Reduced maintenance and logistics costs: accurate diagnostics prevent unnecessary replacements Sustainable maintenance infrastructure: Offers a reusable and upgradable solution Improved training and testing standards: Supports standardized procedures and technician training Customer and Industry Benefits Contributions to the customer Improved mission readiness and reduced downtime Fast and accurate LRU/SRU fault diagnosis Reduced maintenance time through automation Enhanced technical personnel training Efficient inventory management through data-driven insights Contributions to the industry Strengthened local test system development capabilities Modular, scalable architecture adaptable to multiple platforms Ecosystem development with local industry involvement High export potential due to NATO compatibility and global F-16 use Table of Content --- Intermediate Level (I-Level) test equipment are advanced diagnostic and testing systems that enable maintenance and repair activities to be performed at aircraft maintenance centers (prior to depot-level maintenance). These systems allow for precise fault detection, component replacement, and recalibration of ACMI POD systems, ensuring operational reliability and performance. Project Overview Project Objective The primary purpose of Intermediate Level (I-Level) Test Equipment is to provide accurate and efficient maintenance, fault diagnosis, and repair of complex electronic systems, such as ACMI PODs at the organizational or field maintenance level. These systems are designed to: Detect and isolate faults in subsystems or components before sending them to depot-level maintenance. Support rapid troubleshooting and part replacement, minimizing downtime and mission delays. Verify and recalibrate system functionality to ensure readiness and compliance with performance standards. Reduce logistics costs by enabling in-field repairs and minimizing unnecessary returns to higher maintenance levels. Enhance mission readiness by ensuring equipment is operational and reliable between deployments or training missions. In short, I-Level test equipment bridges the gap between line maintenance and depot-level repairs, delivering timely and cost-effective support to sustain operational performance. Target Platform and Industry Air forces and military aviation units Aircraft Maintenance, Repair & Overhaul (MRO) centers Defense contractors and system integrators Aerospace test and training centers Government defense agencies Scope and Functionality The I-Level Test Equipment Project is designed to support intermediate-level maintenance operations for complex avionics systems—primarily the ACMI POD (Air Combat Maneuvering Instrumentation) used in military aviation. What Does It Do? Fault diagnosis: detects and identifies failures within ACMI PODs removed from the aircraft, focusing on electronics, communication modules, and sensor components. Component-level repair support: pinpoints defective boards or submodules and assists in their repair or replacement. Functional testing: performs full system checks to verify proper operation after maintenance or repair. Calibration and verification: ensures measurement accuracy and data integrity through calibration of key subsystems. What Does It Work On? ACMI POD systems: pods used in air combat training to collect and transmit flight data. Electronic boards and subsystems: internal components such as data processing units, power management, and interface modules. Communication interfaces and RF components: hardware responsible for real-time data exchange between the aircraft and ground station. Technical Specifications System Capabilities Integrates the complete avionics suite of a civilian fixed-wing aircraft in a laboratory environment to validate system-level interoperability prior to flight. Injects a wide variety of electrical faults on any I/O channel to validate the unit's safety-critical responses. Supports full simulation and monitoring of avionics buses, including MIL-STD-1553B, for BC (Bus Controller), RT (Remote Terminal) and BM (Bus Monitor) Supports simulation and monitoring of serial interfaces, including RS-422 and RS-485, for data communication and control signal validation. Provides signal simulation and measurement for analog inputs, discrete I/O, and serial communications with precise electrical timing and level control. Supports synchronization and timing tests via 1PPS (One Pulse Per Second) signals to ensure time-aligned system behavior. Interfaces with Ethernet-based avionics networks using integrated network switches to simulate data flow, monitor traffic, and verify deterministic performance. Conditions all I/O to precisely match the electrical characteristics of the real aircraft. Features a mass interconnect interface for fast, reliable, and repeatable connections to the unit under test (UUT). Provides an intuitive graphical user interface (GUI) for test automation, monitoring, and analysis. Indoor GPS and GNSS Capability via State of Art GPS Repeater High Performance LRU (Line Replaceable Unit) Level Testing Standards, Protocols, and Compatibility Ethernet (TCP/IP and UDP) 1 PPS (Pulse Per Second) MIL-STD-1553B (MUX BUS) RS-232/422/485 GPS (Global Positioning System) GNSS (Global Navigation Satellite Systems) INS (Inertial Navigation System) DEICO Modules Used Ethernet controlled modules (DE2001, DE2101, DE2102) MIL-STD-1553 bus coupler (DE8208) PDU Project Value and Impact Why This Project Matters The I-Level Test Equipment Project plays a critical role in enhancing the efficiency, cost-effectiveness, and operational readiness of maintenance processes in military aviation. It enables fast and accurate testing and repair of complex electronic systems such as ACMI PODs at the intermediate maintenance level. Customer and Industry Benefits Increases mission continuity: rapid fault diagnosis and repair help ensure that training and operational missions continue without interruption. Reduces maintenance costs: by allowing in-field repairs, it minimizes the need to send systems to depot-level facilities, saving time and logistics costs. Enhances operational readiness: ensures that critical systems are tested and fully functional before missions, improving safety and preparedness. Ensures compliance and sustainability: designed in accordance with military standards such as MIL-STD-1553, the system supports long-term, standardized, and reliable maintenance operations. Table of Content --- PXI/SLSC-based HIL test rig for a jet trainer's Flight Control Unit, validating system reliability through real-time simulation and fault injection. Project Overview Project Objective The primary objective is to validate the safety and performance of the jet trainer's FCU by simulating high-risk scenarios in a lab environment, which cannot be safely tested during actual flight operations. Target Platform and Industry Flight Control Units (FCUs), mission computers, and other critical avionics for military and civilian fixed-wing aircraft. Aerospace & defense industry Scope and Functionality This project tests the physical FCU by connecting it to a real-time simulation, allowing for the safe verification of its performance under hazardous flight conditions. Technical Specifications System Capabilities Simulates the complete flight environment in real-time, including aircraft dynamics and systems. Injects a wide variety of electrical faults on any I/O channel to validate the unit's safety-critical responses. Supports full simulation and monitoring of avionics buses, including MIL-STD-1553B, ARINC429, and CAN. Simulates and measures diverse analog and discrete signals, including VDT, RTD, Solenoid, and PWM. Conditions all I/O to precisely match the electrical characteristics of the real aircraft. Features a mass interconnect interface for fast, reliable, and repeatable connections to the unit under test (UUT). Includes automated self-test and self-calibration to ensure test system accuracy and reliability. Provides an intuitive graphical user interface (GUI) for test automation, monitoring, and analysis. Standards, Protocols, and Compatibility PXI & SLSC Modular Architecture, MIL-STD-1553 Interface Support, ARINC 429 Data Bus Simulation, CAN Bus Communication & Diagnostics, RS-422 Serial Communication Protocol DEICO Modules Used SLSC modules (DE9001, DE9101) 1553 Buscoupler Breakout box Project Value and Impact Why This Project Matters This project is crucial because it guarantees the safety of the aircraft's flight control system by testing it against hazardous scenarios that are impossible to replicate in the real world. Customer and Industry Benefits The system significantly accelerated the development and certification timeline, drastically reducing the high costs and risks associated with physical flight testing. Table of Content --- System Integration Laboratory (SIL) links real avionics and a cockpit mockup, using simulated I/O to validate the entire man-machine interface pre-flight. Project Overview Project Objective The System Integration Lab connects real avionics hardware—including the central processor unit, navigation systems, cockpit displays, and network units—with a representative cockpit setup to validate complete system interoperability using simulated I/O and custom cabling infrastructure. Target Platform and Industry All avionics including flight displays, data concentrators, central processing units, and aircraft-wide communication networks for civilian fixed-wing aircraft. Applicable to commercial aviation, general aviation, and avionics development sectors. Scope and Functionality This project validates the interoperability of the civil aviation platform’s avionics suite by integrating all real hardware components in a controlled lab environment, reducing the risks associated with flight integration. Technical Specifications System Capabilities Integrates the complete avionics suite of a civilian fixed-wing aircraft in a laboratory environment to validate system-level interoperability prior to flight. Injects a wide variety of electrical faults on any I/O channel to validate the unit's safety-critical responses. Supports full simulation and monitoring of avionics buses, including MIL-STD-1553B and ARINC429. Supports simulation and monitoring of serial interfaces, including RS-422 and RS-485, for data communication and control signal validation. Provides signal simulation and measurement for analog inputs, discrete I/O, and serial communications with precise electrical timing and level control. Supports synchronization and timing tests via 1PPS (One Pulse Per Second) signals to ensure time-aligned system behavior. Interfaces with Ethernet-based avionics networks using integrated network switches to simulate data flow, monitor traffic, and verify deterministic performance. Offers support for high-definition video interfaces such as 1080p25 to validate cockpit display integration and video signal routing. Conditions all I/O to precisely match the electrical characteristics of the real aircraft. Features a mass interconnect interface for fast, reliable, and repeatable connections to the unit under test (UUT). Provides an intuitive graphical user interface (GUI) for test automation, monitoring, and analysis. Standards, Protocols, and Compatibility Ethernet controlled & SLSC Modular Architecture, MIL-STD-1553 Interface Support, ARINC 429 Data Bus Simulation, RS-422 and RS-485 Serial Communication Protocol 1PPS signal integration for time synchronization Ethernet-based avionics network support 1080p25 video interface compatibility DEICO Modules Used Ethernet controlled modules (DE2001, DE2101, DE2102) 1553 Bus Coupler (DE8208) Breakout box Project Value and Impact Why This Project Matters This project is vital because it enables the integration and validation of the aircraft's entire avionics suite on the ground, ensuring system-level problems are fixed before they can endanger live flight operations. Customer and Industry Benefits By enabling the early detection of critical integration faults, the lab directly reduced the customer's program costs and accelerated the development schedule, delivering a more reliable and airworthy system while mitigating the high risks of flight testing. Table of Content --- PXI/SLSC-based HIL test platform for validating a fighter jet's Flight Control Unit (FCU) through real-time simulation and electrical fault injection. Project Overview Project Objective The main goal of the project is to ensure the safety and performance of a fighter jet’s Flight Control Unit (FCU) by replicating hazardous flight scenarios in a controlled lab environment—scenarios that cannot be safely tested in live operations. Target Platform and Industry This solution is tailored for: Flight Control Units (FCUs) Mission computers Other critical avionics components in military and civilian fixed-wing aircraft Industries: Aerospace, Defense Scope and Functionality This project involves hardware-in-the-loop (HIL) testing of a physical FCU. By integrating the unit with a real-time simulation system, the setup enables safe performance validation under simulated extreme flight conditions. It supports iterative debugging, input manipulation, and hardware-in-the-loop ironbird simulations. Technical Specifications System Capabilities Real-time simulation of complete aircraft dynamics and subsystems Injection of electrical faults across I/O channels for safety-critical validation Full monitoring and simulation of avionics communication buses (e. g. , MIL-STD-1553B) Signal generation and measurement: analog, discrete, VDT, solenoid Electrical conditioning of all I/O channels to reflect real aircraft parameters High-reliability mass interconnect interface for quick test setup Automated self-test and self-calibration functions Intuitive GUI for automated test execution, data monitoring, and reporting Standards, Protocols, and Compatibility PXI & SLSC Modular Architecture Full support for MIL-STD-1553B communication standard DEICO Modules Used SLSC modules: DE9001, DE9003, DE9006, DE9100 1553 Bus Coupler Custom breakout box Project Value and Impact Why This Project Matters This HIL test rig plays a critical role in validating flight control systems under risky conditions that cannot be recreated during real-world flights. It enhances safety assurance without operational risk. Customer and Industry Benefits The platform dramatically shortened the development and certification cycle for the FCU. It also reduced costs and eliminated risks associated with live aircraft testing, providing a highly controllable and reusable test environment. Table of Content --- PXI/SLSC-based HIL test rig for a helicopter Engine Control Unit, validating system reliability through real-time simulation and fault injection. Project Overview Project Objective The primary objective is to validate the safety and performance of the helicopter’s Engine Control Units (ECUs) by simulating high-risk scenarios in a lab environment that cannot be safely tested during actual flight operations. Target Platform and Industry This project focuses on Engine Control Units (ECUs), FADEC (Full Authority Digital Engine Control), and other critical avionics systems for military and civilian rotary-wing aircraft within the aerospace and defense industry. Scope and Functionality The project tests the physical ECU by connecting it to a real-time simulation platform, enabling safe verification of performance under hazardous flight conditions. Technical Specifications System Capabilities Simulates and measures diverse analog and discrete signals, including VDT, thermocouple, torque sensor, and speed sensor. Conditions all I/O channels to precisely match the electrical characteristics of the real aircraft. Features a mass interconnect interface for fast, reliable, and repeatable connections to the unit under test (UUT). Provides an intuitive graphical user interface (GUI) for test automation, monitoring, and analysis. Standards, Protocols, and Compatibility PXI & SLSC Modular Architecture MIL-STD-1553 Interface Support RS-422 Serial Communication Protocol DEICO Modules Used PXIe Modules (DE140700) SLSC Modules (DE9004, DE9101) 1553 Bus Coupler Breakout Box Project Value and Impact Why This Project Matters This project is crucial because it guarantees the safety of the helicopter’s engine control unit by testing it against hazardous scenarios that are impossible to replicate in real-world flight. Customer and Industry Benefits The system significantly accelerated the development and certification timeline, drastically reducing the high costs and risks associated with physical flight testing. Table of Content --- This product group offers advanced systems designed to measure and adjust the static balance of main rotor blades with exceptional accuracy. Helicopter rotor blade balancing is a critical process for ensuring flight stability, performance, and safety. This product group offers advanced systems designed to measure and adjust the static balance of main rotor blades with exceptional accuracy. By incorporating cutting-edge sensors, intuitive interfaces, and robust portability features, these systems streamline balancing operations, making them efficient and reliable in diverse environments such as workshops and field settings. Key Features: Accurate center of gravity measurement along spanwise and chordwise directions. Advanced sensor integration with load cells and distance sensors for precise results. Intuitive user interface with step-by-step guidance and voice command technology for operation. Portable and robust design with lockable wheels for easy repositioning and stability. Comprehensive test results with the ability to generate detailed, printable reports. --- This product group provides integrated solutions that streamline adhesive bonding, sheath assembly, and curing processes. Helicopter blade maintenance requires precision and adherence to strict standards to ensure continued airworthiness. This product group provides integrated solutions that streamline adhesive bonding, sheath assembly, and curing processes. Designed for various blade types, including those with de-icing systems, these systems deliver efficient workflows and superior results while meeting military and aerospace standards. Key Features: Combines adhesive bonding, curing, and sheath assembly into a unified workstation. Supports blades up to 9 meters, including those with de-icing systems. Features PID-controlled heating for uniform temperature distribution and quality results. Advanced HMI panel for intuitive monitoring and control, ensuring operation. NATO and military-standard compliance for high-quality, consistent maintenance. --- Comprehensive testing platforms for linear and rotary actuators, supporting multiple parameters such as angle, torque, and voltage Actuators are vital components in aerospace systems, requiring rigorous performance testing to meet demanding operational standards. This product group offers comprehensive testing platforms for linear and rotary actuators, supporting multiple parameters such as angle, torque, and voltage. These modular and flexible systems accommodate a wide range of actuator configurations, enabling efficient performance analysis and troubleshooting. Key Features: Automated testing for angle, torque, and voltage across roll, pitch, and yaw systems. Performs critical tests such as No Load, Loaded Rate Limit, and Lost Motion. Modular fixtures to accommodate different actuator types with ease. Generates detailed graphical analysis and advanced reporting for troubleshooting. Ergonomic panel layout for easy access and clear visibility. --- State-of-the-art flushing systems that maintain cleanliness and functionality through advanced filtration, hydraulic oil flow control, and real-time monitoring. Helicopter transmission systems demand advanced maintenance to ensure durability and reliability. This product group provides state-of-the-art flushing systems that maintain cleanliness and functionality through advanced filtration, hydraulic oil flow control, and real-time monitoring. These systems are designed for portability and flexibility, making them indispensable tools for both workshop and field operations. Key Features: Closed-loop hydraulic oil flow with customizable flushing durations. Multi-stage filtration system with pressure, suction, and return line filters at a 3-micron level. Real-time contamination monitoring with integrated sensors for proactive maintenance. Adjustable oil temperature and flow control to meet specific operational needs. Portable chassis with wheels for easy mobility and secure positioning. --- --- ## FAQs Yes, many of our products have IP protection ratings and are tested for resistance to vibration, humidity, and temperature. --- Yes, we offer spare parts and module supply support for all our products. --- Yes, our user-friendly interface allows test scenarios to be graphically configured and automated. --- We support various sensor types including strain gauges, thermocouples, accelerometers, pressure sensors, and LVDTs. --- Depending on the system configuration, we offer options ranging from 4 to over 128 channels. --- Yes, our products are certified through electromagnetic compatibility (EMC) and interference (EMI) testing. --- Yes, selected models come with built-in data logger support. --- Yes, all test systems can be customized mechanically, functionally, and in software according to customer requirements. --- Yes, our hybrid DAQ systems support simultaneous multi-channel analog and digital signal processing. --- Firmware updates can be performed via USB, Ethernet, or remote connection. Required files are available on our support page. --- Our products comply with international testing and safety standards such as MIL-STD, ISO, and CE. --- Yes, mechanical, electronic, and software customizations can be made according to the project needs. --- Yes, we provide on-site or online technical training upon customer request. --- Our products are covered by a 2-year warranty, while integrated system solutions are covered by a 1-year warranty. --- Yes, we provide remote assistance for installation, configuration, and troubleshooting. --- Compatible with engineering platforms such as LabVIEW, MATLAB, and Python. --- Yes. Our products come with dedicated software, drivers, and API support. --- Yes, we offer calibration and periodic verification services for all our devices. --- Yes. Integration is possible via protocols such as Ethernet, CAN, and RS-232. --- Technical documentation is available on product pages and in the support section of our website. --- ---