HiL Simulators
See Also: Hardware in the Loop Simulation
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NI-9866, 1-Port C Series LIN Interface Module
781963-01
1-Port C Series LIN Interface Module—The NI‑9866 is a Local Interconnect Network (LIN) interface for developing applications with the NI‑XNET driver. The NI‑9866 excels in applications requiring real-time, high-speed manipulation of hundreds of LIN frames and signals such as hardware‑in‑the‑loop (HIL) simulation, rapid control prototyping, bus monitoring, automation control, and more. You can perform this manipulation while taking other DAQ measurements in the same CompactDAQ hardware platform or while performing low-level FPGA control and embedded monitoring in the same CompactRIO Chassis.
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Modular Breakout System 8-Pin Power D-type Plugin Module
95-191-002
The 95-191-002 Plugin Breakout Module is designed to be fitted to a PXI 40-191 Fault Insertion Switch as part of the Pickering MBoS. The Modular Breakout System is designed to Simplify HILS (Hardware In the Loop Simulation) Applications.
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sbRIO-9866, Non-Enclosed, 1-Port C Series LIN Interface Module
785965-01
Non-Enclosed, 1-Port C Series LIN Interface Module—The sbRIO‑9866 is a Local Interconnect Network (LIN) interface for developing applications with the NI‑XNET driver. The sbRIO‑9866 excels in applications requiring real-time, high-speed manipulation of hundreds of LIN frames and signals such as hardware‑in‑the‑loop (HIL) simulation, rapid control prototyping, bus monitoring, automation control, and more. You can perform this manipulation while taking other DAQ measurements in the same CompactDAQ hardware platform or while performing low-level FPGA control and embedded monitoring in the same CompactRIO Chassis. Non-enclosed modules are designed for OEM applications.
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PXI-8511, 1‑ or 2-Port, Low-Speed/Fault Tolerant PXI CAN Interface Module
780686-01
1‑ or 2-Port, Low-Speed/Fault Tolerant PXI CAN Interface Module—The PXI‑8511 is a fault-tolerant Controller Area Network (CAN) interface for developing applications with the NI‑XNET driver. The PXI‑8511 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimize message latency and freeing host processor time for processing complex models and applications.
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PCI-8511, 1‑Port, Low‑Speed/Fault-Tolerant CAN Interface Device
780682-01
1‑ or 2-Port, Low‑Speed/Fault-Tolerant CAN Interface Device—The PCI‑8511 is a fault-tolerant controller area network (CAN) interface for developing applications with the NI‑XNET driver. The PCI‑8511 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device‑driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time for processing complex models and applications.
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NI-9861, 1-Port, Low-Speed/Fault Tolerant C Series CAN Interface Module
781962-01
1-Port, Low-Speed/Fault Tolerant C Series CAN Interface Module—The NI‑9861 is a fault-tolerant Controller Area Network (CAN) interface for developing applications with the NI‑XNET driver. The NI‑9861 is ideal for applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. You can perform this manipulation while taking other data acquisition measurements in the same NI CompactDAQ hardware platform or while performing low-level FPGA control and embedded monitoring in the same NI CompactRIO chassis.
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PXI Fault Insertion (Fault Injection) Modules
PXI Fault Insertion Units (FIU), also known as Fault Injection switch products, are designed specifically for safety-critical applications where the response of a control system is required to be evaluated when sensor connections behave in unexpected ways. These modules are scalable solutions that can be used to switch signals between simulations and real-life devices in a multitude of hardware-in-the-loop (HIL) simulation and test systems. The fault insertion unit can significantly simplify and accelerate the testing, diagnosis and integration work in HIL applications.
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Modular Breakout System 3-Pin & 20-Pin Plugin Module
95-199-004
The 95-199-004 Plugin Breakout Module is designed to be fitted to a PXI 40-199 Fault Insertion Switch as part of the Pickering MBoS. The Modular Breakout System is designed to Simplify HILS (Hardware In the Loop Simulation) Applications.
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PXI Vehicle Multiprotocol Interface Module
PXI Vehicle Multiprotocol Interface Modules use hardware-selectable NI-XNET Transceiver Cables (TRC) to communicate High-Speed/Flexible Data‑rate CAN, Low-Speed/Fault Tolerant CAN, and/or LIN. Using the NI-XNET driver, you can create applications that require real-time, high-speed manipulation of hundreds of CAN and/or LIN frames and signals. The NI-XNET device-driven DMA engine enables the onboard processor to move frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time. PXI Vehicle Multiprotocol Interface Modules work well in applications such as hardware-in-the-loop (HIL) simulation, rapid control prototyping, bus monitoring, and automation control.
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PCIe-8510, 2- or 4-Port, PCIe Vehicle Multi-Protocol Interface Device
785325-01
2- or 4-Port, PCIe Vehicle Multi-Protocol Interface Device—The PCIe‑8510 is a hardware-selectable controller area network (CAN) and/or local interconnect network (LIN) interface for developing applications with the NI‑XNET driver. The PCIe‑8510 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time for processing complex models and applications.
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Modular Breakout System Chassis Mounting Frame
95-901-001
The Modular Breakout System is designed to Simplify HILS (Hardware In the Loop Simulation) Applications. This low-cost system combines a BoB (Breakout Box) feature set with the added flexibility of an FIU (Fault Insertion Unit). By mating the FIU chassis directly to the BoB, cabling is minimized, creating a more compact reliable design and improving signal integrity.
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PXI-8513, 1‑Port, Software-Selectable PXI CAN Interface Module
780688-01
1‑Port, Software-Selectable PXI CAN Interface Module—The PXI‑8513 is a software-selectable Controller Area Network (CAN) interface for developing applications with the NI‑XNET driver. NI‑XNET Software‑Selectable CAN Interfaces offer the best flexibility for CAN development with onboard transceivers for High-Speed/Flexible Data‑rate, Low-Speed/Fault Tolerant Single Wire CAN as well as any external transceiver. The PXI‑8513 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts.
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Panel-mounted Power Amplifier(Hardware In The Loop Simulation)
PA30Bi
PA30Bi is the panel-mounted type real time simulation amplifier with three-phase current and four-phase voltage.
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Modular Breakout System 8-Pin Power D-type Plugin Module for 40-194
95-194-001
The 95-194-001 Plugin Breakout Module is designed to be fitted to a PXI 40-194 Fault Insertion Switch as part of the Pickering MBoS. The Modular Breakout System is designed to Simplify HILS (Hardware In the Loop Simulation) Applications.
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Modular Breakout System 78-Pin D-type Plugin Module for 40-197A
95-197A-001
The 95-197A-001 Plugin Breakout Module is designed to be fitted to a PXI 40-197A Fault Insertion Switch as part of the Pickering MBoS. The Modular Breakout System is designed to Simplify HILS (Hardware In the Loop Simulation) Applications.
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PXIe-8510, 6-Port PXI Vehicle Multiprotocol Interface Module
784122-01
2- or 6-Port PXI Vehicle Multiprotocol Interface Module—The PXIe‑8510 is a hardware-selectable controller area network (CAN) and/or local interconnect network (LIN) interface for developing applications with the NI‑XNET driver. The PXIe-8510 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time for processing complex models and applications.
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NI-9862, CAN Interface Module
781639-01
1-Port, High-Speed, Flexible Data Rate C Series CAN Interface Module—The NI‑9862 is a high-speed Controller Area Network (CAN) Flexible Data‑rate (FD) interface for developing applications with the NI‑XNET driver. The NI‑9862 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. You can perform this manipulation while taking other data acquisition measurements in the same NI CompactDAQ hardware platform or while performing low-level FPGA control and embedded monitoring in the same NI CompactRIO chassis.
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PCI-8512, 1‑Port, High‑Speed/FD CAN Interface Device
780683-01
The PCI‑8512 is a high-speed controller area network (CAN) flexible data-rate (FD) interface for developing applications with the NI‑XNET driver. The PCI‑8512 excels in applications requiring real‑time, high‑speed manipulation of hundreds of CAN frames and signals such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time for processing complex models and applications.
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Modular Breakout System 50-Pin D-type Plugin Module for 40-196
95-196-001
The 95-196-001 Plugin Breakout Module is designed to be fitted to a PXI 40-196 Fault Insertion Switch as part of the Pickering MBoS. The Modular Breakout System is designed to Simplify HILS (Hardware In the Loop Simulation) Applications.
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PCI-8511, 2-Port, Low‑Speed/Fault-Tolerant CAN Interface Device
780682-02
The PCI‑8511 is a fault-tolerant controller area network (CAN) interface for developing applications with the NI‑XNET driver. The PCI‑8511 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device‑driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts, minimizing message latency and freeing host processor time for processing complex models and applications.
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Modular Breakout System 37-Pin Plugin Module
95-294-001
The 95-294-001 Plugin Breakout Module is designed to be fitted to a PXI 40-294 Programmable Resistor Module as part of the Pickering MBoS. The Modular Breakout System is designed to Simplify HILS (Hardware In the Loop Simulation) Applications.
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RTD Simulator PCI Card 6-Channel PT1000
50-262-102
This RTD Simulator is a PCI card that supports 6 channels of RTD simulation. The card can provides a setting resolution of <90mΩ (also available in <8mΩ - PT100) and a resistance accuracy of better than 0.1% on all channels. Each simulation channel is able to provide a short or open circuit setting to simulate faulty wiring connections to a sensor. Calibration or verification of each resistor channel can be verified by using the calibration port connected to a high performance DMM and a supplied software package.
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Single Stream STANAG3910 Electrica lTest And Simulation Module – Rafale – for PCI
APXX3910-EN
Single Stream STANAG3910 Test and Simulation Module – Rafale – for PCI with 1 dual redundant HS/LS channel and onboard Electrical Front End. The APXX3910-EN is a functional replacement for model APX3910-EN.
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Synchro/Resolver Simulator, Programmable
5330A
NAI's 5330A Synchro/Resolver Simulator is a rack-mount or bench-top instrument featuring integrated touch-screen controls and input terminals. This model represents a major step forward as it uses digital technology to produce Synchro and Resolver outputs. Improved flexibility is provided by two fully independent outputs that can be used to simulate two separate Synchro or Resolver signals simultaneously, or can be combined to operate as two-speed outputs. The versatility of this device has been substantially increased by incorporating dynamic modes that enable servo systems to be tested under various simulated stringent field conditions.
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PXI RTD Simulator Module, 24 Channel, PT1000
40-263-003
The 40-263-003 is a 24-channel PT1000 RTD Simulator. The 40-263 range is a cost effective method of simulating PT100, PT500 or PT1000 RTDs. It supports 4, 8, 12, 16, 20 or 24 channels in one or two PXI slots. Also, channels are able to be set as short or open circuit to simulate faulty wiring to a sensor.
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3U cPCI Synchro/Resolver Simulation Board
75DS2
NAI’s 75DS2 is a Synchro/Resolver Simulation Board with four independent, isolated channels. These channels can incorporate up to four Digital-to-Synchro/Resolver Simulation Converters with 1.5, 2.2, or 3 VA drive capability, or either two or four Digital-to-LVDT/RVDT Simulation Converters. One of the outputs on each channel can be grounded without affecting performance.
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ARINC825 (CAN Bus) Test & Simulation Module for PCI With 2 Or 4 CAN Bus Nodes
ACP825-x
ARINC825 (CAN bus) Test & Simulation module for PCI with 2 or 4 electrically isolated CAN bus nodes operating concurrently at CAN bus high speed bit rate of up to 1Mbit/s. The ACP825-x PCI card can work either with full functionality as an active CAN node for testing and simulating or in Listening Only mode for monitoring and recording purposes.
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PXI RTD Simulator Module, 16 Channel, PT500
40-263-202
The 40-263-202 is a 16-channel PT500 RTD Simulator. The 40-263 range is a cost effective method of simulating PT100, PT500 or PT1000 RTDs. It supports 4, 8, 12, 16, 20 or 24 channels in one or two PXI slots. Also, channels are able to be set as short or open circuit to simulate faulty wiring to a sensor.
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Programmable S/R Standard & Simulator
5300
NAI’s 5300 Synchro/Resolver Standard & Simulator is a laboratory-grade, programmable instrument. This model can be used as a true Synchro/Resolver standard for calibrating and testing Automatic Test Equipment (ATE) for Calibration/Metrology Labs, and for Engineering Design and Production Test environments. It can also be used to measure Angle Position Indicators (API) and Synchro-to-Digital converters for static or dynamic characteristics. This model also may use an external reference waveform.
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LED Load Simulator
63110A/ 63113A/63115A
As shown on the V-I curve in figure 1, the LED has a forward voltage VF and a operating resistance (Rd). When using a resistor as loading, the V-I curve of the resistor is not able to simulate the V-I curve of the LED as shown in blue on figure 1. This may cause the LED driver to not start up due to the difference in V-I characteristic between the resistors and the LEDs. When using Electronic Loads, the CR and CV mode settings are set for when the LED is under stable operation and therefore, is unable to simulate turn on or PWM brightness control characteristics. This may cause the LED driver to function improperly or trigger it’s protection circuits. These testing requirements can be achieved when using a LEDs as a load; however, issues regarding the LED aging as well as different LED drivers may require different types of LEDs or a number of LEDs. This makes it inconvenient for mass production testing.
