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HIL
a system's simulation test of embedded controls by the electrical emulation of it's motors, sensors and actuators.
See Also: Loop, Current Loops, Loop Testers, Hardware in the Loop Simulation, Hardware-in-the-Loop
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Software Platforms
Discover complete solutions for Hardware-in-the-Loop (HIL) and Rapid Control Prototyping (RCP) testing. OPAL-RT offers the most advanced real-time simulation software platforms for power systems, power electronics, aerospace and automotive sectors: RT-LAB (Multi-domain, MATLAB/Simulink® based), HYPERSIM (Power Systems), and NI VeriStand (Automotive).
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Real-Time Target Machines
Speedgoat offers a range of high performance multi-core, multi CPU target computers (target machines) with i3 and i7 CPUs up to 4.2 GHz, and up to 20 cores. Each is optimized for a different application area, from mobile controller prototyping (RCP) to multi-target rack systems for Hardware-in-the-Loop (HIL).
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Hardware-in-the-Loop Test Systems
HIL
Our early development efforts and NI VeriStand expertise uniquely qualify us to maximize the benefits of and provide top-notch integration services for this software platform. Wineman Technology offers powerful and flexible MIL and HIL testing solutions, such as: Full range of MIL and HIL test systems. Software for testing. Software for simulating electronic control modules. Fault insertion unit (FIU)..
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Custom Testing Solutions
Test and MeasurementEnable increases the robustness of your test and measurement solutions, thereby reducing errors and associated costs. Data Acquisition (DAQ)Enable defines and builds custom DAQ systems for automated measurements of any process or manufactured part. Control and AutomationEngineeringEnable ensures that your processes are programmed to be safe, effective and optimized for both speed and quality. Real-Time and Mission CriticalSystemsEnable develops dependable real-time systems and Hardware in the Loop (HIL) simulations for high-speed applications. Motion ControlEnable creates software for synchronized multi-axis robotic control of velocity, position, force and action. Machine VisionEnable implements software and hardware-based solutions for precise image analysis, data extraction and vision-guided machine control. R&D Systems/Product DevelopmentEnable’s team of engineers and scientists works with you to address and solve problems containing technical challenges and uncertainties. Electronic Test SystemsEnable programs and builds software and hardware-based solutions for accurate measurements, from DC to RF. Mobile App DevelopmentEnable enhances your systems by integrating custom iOS and Android apps. Web DevelopmentEnable enhances your systems by integrating desktop and mobile web frameworks using PHP, CSS and HTML5. Database DevelopmentEnable decentralizes your data storage to be online, secure and accessible from anywhere.
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Stackable And Configurable Signal Generator For CAN Applications.
K- Volt
The K-Volt can be used to generate fast configurable analog and digital signals from CAN messages. Designed for high speed and accurate simulation of sensors (For example HIL and Replay systems). The K-Volt can be connected directly to a PC via a USB connection.
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HIL Breakout Board
Onboard 192 pin snap-in terminal dramatically simplifies the wiring between your control hardware and your HIL system. As soon as the system is up and running there are 192 test terminals for easy access to all the interface signals: firing pulses, control feedback signals and other analog/digital I/O signals.
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PCIe-7822, Kintex 7 325T FPGA, Digital Reconfigurable I/O Device
785360-01
The PCIe‑7822 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. Each line offers software-selectable logic levels. The PCIe‑7822 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware‑in‑the‑loop (HIL) test, bit error rate test, and other applications that require precise timing and control.
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System on Demand (SoD): HiL Test System
System on Demand (SoD) is a unique, agile and standardized principle to design HiL test systems. SoD shifts the focus away from technical-only solutions to a proven automated design process – targeting our customer‘s real issues: time, budget and flexibility.
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Flight Control System Test Platform
The Flight Control System Test Platform provides a hardware in-the-loop (HIL) closed-loop test environment for dynamic and maintenance testing of Flight Control Systems (FCS) of both commercial and military aircraft. The system simulates control surface activities from multiple combinations of rudder, flaps, elevator, aileron, and engine controls to the FCS. The system delivers repeatable, cost-effective testing in a fraction of the time needed with typical in-house simulation test systems.
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ECU Simulator
PT-LabCar
PT-LABCAR is an open and scalable Hardware-in-the-Loop (HiL) system. It is designed for open- and closed-loop testing of ECUs specifically in the powertrain application domain. The system can be used to run automated regression tests for the release of software variants as well as for the validation of control and diagnostic functions in early phases of ECU development.
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Connector and Breakout Box
ES4640
The ES4640 Connector Box offers a standardized wiring and connectivity for HiL testing systems in the powertrain domain. Its front panel provides connectors for the ECU, CAN bus communication, on-board diagnostics, and LEDs for ignition and injectors. Its rear panel connects loads, failure simulation, and other components. Sample applications of the ES4640 are closed loop HiL systems for 8 cylinder gasoline and diesel engine ECUs.
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Embedded Software Test Environment
Mx-Suite
Using intuitive graphics, Mx-Suite streamlines your engineering development efforts by automating tests, clarifying testable requirements, improving traceability and diagnosing possible root failure causes. Mx-Suite provides the connectivity to your MIL, SIL, or HIL test environments, allowing you to complete testing earlier in your development cycle to achieve superior product quality levels.
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PCIe-7821, Kintex 7 FPGA, Digital Reconfigurable I/O Device
785359-01
The PCIe‑7821 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. Each line offers software-selectable logic levels. The PCIe‑7821 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware‑in-‑the‑loop (HIL) test, bit error rate test, and other applications that require precise timing and control.
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Battery Pack Power HIL Testbed
8610
Chroma ATE launches the 8610 Battery Pack Power HIL Testbed for testing battery systems and components of new energy vehicles, incl. the battery module, battery management system, and cooling/heating system. Various hardware options are available for integration, such as a DC power supply, battery charge/discharge system, digital meter, Hi-Pot tester, and short-circuit and overvoltage protection devices.
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FADEC/EEC Test Platform
The FADEC/EEC Test Platform provides a hardware in-the-loop (HIL) closed-loop test environment for dynamic and maintenance testing of full-authority digital engine control (FADEC) and electronic engine control (EEC) units of both rotary- and fixed-wing airframes. The system simulates one or more turbofan engines, including its sensors and actuators for use with the most sophisticated FADECs and EECs on the market. The system delivers repeatable, cost-effective testing in a fraction of the time needed with typical in-house simulation test systems.
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Digital Reconfigurable I/O Device
The Digital Reconfigurable I/O (RIO) Device features user-programmable FPGA for onboard processing and flexible I/O operation. You have complete control over the synchronization and timing of all signals and operations along with custom onboard decision-making that executes with hardware-timed speed and reliability. You can configure user-defined hardware for a wide variety of applications, such as custom digital DAQ, high-speed waveform generation, sensor simulation, hardware-in-the-loop (HIL) test, custom digital communications protocols, bit error rate testing, and other applications that require precise timing and control.
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Bloomy Simulation Reference System
The Bloomy Simulation Reference System provides a hardware in-the-loop (HIL) test environment for dynamic, closed-loop testing of many aerospace and transportation control systems. The reference system integrates the computing, I/O, and software components needed for standalone use or to form the basis of a more complex test system.
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NI HIL and Real-Time Test Software Suite
Suites combine LabVIEW Professional Development System with NI's most popular application softwareIncludes LabVIEW Professional, VeriStand, and the LabVIEW Real-Time and LabVIEW FPGA modulesEach new suite includes a one-year NI Training and Certification membershipSoftware is shipped on USB 3.0 media with NI device drivers included to speed up your installationConfigure real-time test applications quickly and easily; add custom functionality
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Environmental Control System Test Platform
The Airframe Environmental Control System Test Platform provides a hardware-in-the-loop (HIL) closed-loop test environment for dynamic and maintenance testing of cockpit and cabin environmental control systems for airframes. The system simulates a military or commercial airframe cabin, including sensors and actuators from the control system and the passengers. The system delivers repeatable, cost-effective testing in a fraction of the time needed with typical in-house simulation systems.
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PCI-7813, 3M Gate Virtex-II FPGA, Digital Reconfigurable I/O Device
779370-01
The PCI‑7813 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. The PCI‑7813 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware-in‑the‑loop (HIL) test, custom communications protocols, bit error rate test, and other applications that require precise timing and control.
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PCIe-7820, Kintex 7 160T FPGA Digital Reconfigurable I/O Device
785361-01
The PCIe‑7820 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. Each line offers software-selectable logic levels. The PCIe‑7820 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware-in-the-loop (HIL) test, bit error rate test, and other applications that require precise timing and control.
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PCI-7811, 1M Gate Virtex-II FPGA, Digital Reconfigurable I/O Device
779363-01
The PCI‑7811 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. The PCI‑7811 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware‑in‑the‑loop (HIL) test, custom communications protocols, bit error rate test, and other applications that require precise timing and control.
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Panel-mounted HIL Power Amplifier
PAC60Ci
PAC60Ci is the six-phase real time simulation amplifier, with maximum RMS phase current of 30A and maximum output power of 450VA. This current amplifier is possessed of high accuracy and fast liner response.
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HIL and RCP DFIG Laboratory
This laboratory combines the best of both OPAL-RT and Festo solutions to deliver academic researchers and teachers with the ideal Hardware-in-the-Loop (HIL) and Rapid Control Prototyping (RCP) simulation system to conduct experiments and teach in the fields of electrical machinery, power converters and wind energy generation.
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Power Electronics Test Bench
OP1300
The multi-purpose and ready-to-use Power Electronics Test Bench combines a state-of-the-art Hardware-in-the-Loop (HIL) simulator from OPAL-RT with Imperix’s Rapid Control Prototyping (RCP) system and real power hardware. It enables rapid development of power electronics, drives and smart-grid applications across industry and academia.
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Routing Card
SET-2010
With 64 single-ended or 32 differential channels, the SET-2010 provides exceptional signal routing capabilities in a small form factor. Unlike traditional routing matrix cards, the SET-2010 is designed specifically for the challenges of signal routing in HIL systems.
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Simulation Systems
Bloomy offers Simulation Systems for Hardware in-the-Loop (HIL) and open loop test of electronic controls and mechanical actuators for all types of transportation and defense systems including aircraft, rail, automobiles and ships. These systems, now deployed at major aerospace, locomotive and military manufacturers and research facilities worldwide, provide world-class, high-fidelity simulated environments for use in both closed-loop and open-loop testing. Because Bloomy’s Simulation Systems are largely constructed from COTS components, time to first test can be reduced significantly, and their highly-customizable nature allows your test system experts to provide your unique IP to differentiate your product from your competitors.
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Test System
BMS HIL
The BMS Hardware-in-the-Loop (HIL) Test System is a high performance platform providing all necessary input signals used for battery pack simulation. A real-time operating system executes complex cell and pack models commonly used for BMS algorithm development and firmware regression testing.
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Configure Battery Pack Simulator for Battery Management System (BMS) Hardware-in-the-Loop (HIL) Testing
Customized configuration for battery pack simulator by Bloomy
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FlexRay Interface Device
FlexRay Interface Devices provide two fully functional FlexRay interfaces, allowing an individual engine control unit (ECU) to be connected to the interface when other cold-start nodes are not available. You also can use the interfaces individually to connect two separate FlexRay networks while maintaining full performance on each interface. FlexRay Interface Devices work well in applications such as hardware-in-the-loop (HIL) simulation, rapid control prototyping, bus monitoring, and automation control.
