GPS Simulators
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GPS Simulator
ADIVIC MP6220
Multi-channel GPS simulator for GPS receiver position fix testIndividual channel is power adjustableSingle channel mode for receiver S/N ratio testTunable power output level from -160dBm to -55dBm
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Radio Link Simulator
RLS-2100
Square Peg Communications Inc.
It is the most comprehensive, with unparalleled impairment simulation, real-time multi-satellite orbit calculation, full motion support and integrated GPS simulators. It is the most flexible, providing end-to-end or single link simulation of wideband terrestrial and satellite networks, satellite selection via open standard interfaces, and facilities to enable seamless integration into more complex test beds if required. It supports the highest bandwidth and has an intuitive, user-friendly interface. And it does it all in one box.
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GPS Simulator
MVT-NSSG
The Navigation Spread Spectrum Generator can be used for precise GPS M-Code interference tests with existing GPS C/A and P/Y receivers. The simulator is capable of generating all the current GPS signals simultaneously with the new modernized signals and codes. Optional models can be configured with unique user defined signals, such as would be required for GLONASS.
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PXI/PXIe LVDT/RVDT/Resolver Simulator Module
41-670-XYZ-AABBCC
The 41/43-670 range is ideal for the simulation of variable differential transformers (VDT), both linear (LVDT) and rotary (RVDT) types, as well as resolvers. Available with up to four banks, each bank is capable of simulating the output of a single 5 or 6-wire VDT or resolver, or dual 4-wire utilizing a shared excitation signal. This allows the module to simulate up to 4 channels of 5 or 6-wire or 8 channels of 4-wire.
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PXI/PXIe Battery Simulator Module, 2-Channel With V/I Readback
41-752A-013
Targeting EV, automotive, aerospace, energy storage and electric aircraft applications, the new battery simulator modules occupy a single PXI slot. These 2-channel battery simulators are capable of supplying up to 7 V and 300 mA per channel. The channels are fully isolated from ground and from each other, allowing series connection to simulate batteries in a stacked architecture.
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4, 8, 16 And 32 ChannelARINC429 Test And Simulation Modulefor PCI Express
APE429-x
ARINC429 Test and Simulation modules with 4, 8, 16 or 32 Software programmable Tx/Rx channels plus up to 8 Discrete I/O’s. The APE429-x is a functional replacement for the models API429-x/APX429-x.
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PXI Battery Simulator 2.8 Amps
41-753-001
The 41-753 is a battery simulator module that can be used to simulate the power supplies of cellular phones and other portable battery devices. It features fully floating output terminals that can deliver voltages up to 6 Volts. The fast responding remote sense connections allow the module to regulate the supply voltage at the device under test.
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PXI Millivolt Thermocouple Simulator Module - 16 Channel
41-760-003
This series of PXI Thermocouple Simulator Modules is available in a choice of 32, 24, 16 or 8 channels—each channel providing a low-voltage output across two connector pins capable of providing ±20mV with 0.7µV resolution, ±50mV with 1.7µV resolution and ±100mV with 3.3µV resolution, covering most thermocouple types.
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PXI Millivolt Thermocouple Simulator Module - 32 Channel
41-760-001
This series of PXI Thermocouple Simulator Modules is available in a choice of 32, 24, 16 or 8 channels—each channel providing a low-voltage output across two connector pins capable of providing ±20mV with 0.7µV resolution, ±50mV with 1.7µV resolution and ±100mV with 3.3µV resolution, covering most thermocouple types.
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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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GNSS Signal Simulator
sUTP 5017
With the increasingly complex RF landscape, expectations for validation and functional testing of GNSS equipment are also rising. A large number of different navigation signals need to be reproduced under conditions that are as realistic as possible. The additional generation and injection of interference into the GNSS signals are supposed to simulate the real environment.
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PXI/PXIe Resolver Simulator Module, 2-Banks
43-670-203-AABBCC
The 41/43-670-203 is ideal for the simulation of Resolvers. It has two banks, each capable of simulating the output of a single 5 or 6-wire resolver.
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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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PXI/PXIe LVDT/RVDT/Resolver Simulator Module
43-670-XYZ-AABBCC
The 41/43-670 range is ideal for the simulation of variable differential transformers (VDT), both linear (LVDT) and rotary (RVDT) types, as well as resolvers. Available with up to four banks, each bank is capable of simulating the output of a single 5 or 6-wire VDT or resolver, or dual 4-wire utilizing a shared excitation signal. This allows the module to simulate up to 4 channels of 5 or 6-wire or 8 channels of 4-wire.
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PXI RTD Simulator Module, 8 Channel, PT500
40-263-402
The 40-263-402 is an 8-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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PXI RTD Simulator Module, 24 Channel, PT100
40-263-001
The 40-263-001 is a 24-channel PT100 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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PXI RTD Simulator Module, 16 Channel, PT100
40-263-201
The 40-263-201 is a 16-channel PT100 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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PXI RTD Simulator Module, 8 Channel, PT100
40-263-401
The 40-263-401 is an 8-channel PT100 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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Photovoltaic Array Simulator, 15 kW, 1500 VDC
N8900APV Series
The PV simulators are autoranging, programmable DC power sources that simulate the output characteristics of a photovoltaic array under different environmental conditions (temperature, irradiance, age, cell technology, etc.) enabling you to quickly and comprehensively test inverter MPPT algorithms and inverter efficiency. The DG8900 SAS control software creates and downloads solar I-V curves to a single output solution. For multiple outputs choose the DG9000 SAS control software which can be used with up to 12 N8900APV sources.
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Single Stream STANAG3910/EFEX Test And Simulation Module for PCIe
APEX3910
STANAG3910/EFEX Test and Simulation module for PCIe with 1 dual redundant HS/LS channel and onboardFibre Optic Front End (FOFE). Easily select between EFAbus and EFEX modes for Tranche II Eurofighter. The APEX3910 is a functional replacementfor model APE3910.
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PXI RTD Simulator Module 18-Channel PT1000
40-262-002
The 40-262 is a 3U PXI module range that supports 6 (in one slot), 12 or 18 (in two slots) channels of RTD simulation. Based on the 40-260 design principles the module can provide a setting resolution of <8mΩ (PT100) or <90mΩ (PT1000) 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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PXI RTD Simulator Module, 8 Channel, PT1000
40-263-403
The 40-263-403 is an 8-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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PXI Battery Simulator Module
41-750-001
The 41-750 is a battery simulator module that can be used to simulate the power supplies of cellular phones and other portable battery devices. It features fully floating output terminals than can deliver voltages up to 6 Volts. The fast responding remote sense connections allow the module to regulate the supply voltage at the device under test.
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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/PXIe Battery Simulator Module, 6-Channel With V/I Readback
41-752A-011
Targeting EV, automotive, aerospace, energy storage and electric aircraft applications, the new battery simulator modules occupy a single PXI slot. These 6-channel battery simulators are capable of supplying up to 7 V and 300 mA per channel. The channels are fully isolated from ground and from each other, allowing series connection to simulate batteries in a stacked architecture.
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PXI 6-Channel Battery Simulator Module
41-752-001
The 41-752 is a 6 channel battery simulator, each channel being capable of supplying up to 7V and 300mA to the load. Each channel is fully isolated from ground and from each other allowing the channels to be connected in series to simulate batteries arranged in a stacked architecture. The 750V isolation barrier permits the 41-752 to be used to create a lower power version of a battery stack representative of those used for vehicle propulsion.
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PXI RTD Simulator Module, 20 Channel, PT500
40-263-102
The 40-263-102 is a 20-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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PXI/PXIe Battery Simulator Module, 4-Channel With V/I Readback
41-752A-012
Targeting EV, automotive, aerospace, energy storage and electric aircraft applications, the new battery simulator modules occupy a single PXI slot. These 4-channel battery simulators are capable of supplying up to 7 V and 300 mA per channel. The channels are fully isolated from ground and from each other, allowing series connection to simulate batteries in a stacked architecture.
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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.
