Thermocouple Simulators
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Product
Steady-state Solar Simulator For PV Modules
SORAS LS
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In certification laboratories for photovoltaic modules, steady-state solar simulators are mostly used for stabilization / light soaking tests (MQT 19) and hot-spot endurance tests (MQT 09) according to IEC 61215 and IEC 61730. An initial stabilization is required for all PV modules that undergo a standard test procedure. For the hot-spot endurance test (MQT 09), it is important that the operator has easy access to the front and back site of the module. During the test, it is necessary to shade one cell after each other to take infrared pictures, which requires good visibility of the entire back side. Our swiveling module holding system enables easy access to the front and back side of the module.
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Product
PXI RTD Simulator Module, 24 Channel, PT500
40-263-002
Simulator
The 40-263-002 is a 24-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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Product
24 Channel Isolated Counter / Totalizer & 16 Channel Pulse Simulator
DP-cPCI-5004
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DP-cPCI-5004, Isolated Pulse Simulator / Counter / Totalizer module is an integrated module for pulse output, pulse measurement and event counting. The module has 16 isolated channels of pulse output at desired frequency. The 16 channels are divided into three groups . The first two groups have four differential and one single ended channels each.
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Product
Simulation Design For Manufacturing
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Altair offers a unique set of simulation tools to evaluate product feasibility, optimize the manufacturing process, and run virtual try-outs for many traditional, subtractive, and additive manufacturing processes. Users can validate designs early in the manufacturing process with the simplicity and affordability of the simulation software, as well as use optimization technology with specific manufacturing constraints to design better, more efficient products.
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Product
T-Type Thermocouple, 32°F to 500°F Temperature Sensor
745690-T002
Temperature Sensor
T-Type Thermocouple, 32°F to 500°F Temperature Sensor - The T-Type Thermocouple works with NI measurement devices and software to help you acquire temperature data within a measurement system. You can use LabVIEW or FlexLogger software and NI-DAQmx driver software to configure … measurements and predefined scaling coefficients for the T-Type Thermocouple and acquire synchronized temperature data in units of degrees. The T-Type Thermocouple is available in various lengths and configurations including field-cuttable, ready-made sensors, and thermocouple wire extensions with a -20°F to 221°F temperature range.
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Product
Environmental Simulation Chambers
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GTEMCELL , currently provide environmental test chambers made by LIB.Our standard range of test chambers includes bench top and floor standing models, across temperatures ranging between -65℃ and +150℃ (from -80℃ to +200℃ for specific applications), and humidities between 10% and 98% RH.
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Product
VXI Synchro/Resolver Simulation & Measurement
65CS4
Simulator
NAI’s 65CS4 is a Synchro/Resolver Simulation & Measurement Instrument on a single-slot VXI board. The board incorporates up to four Synchro/Resolver measurement channels and up to four instrument-grade Synchro/Resolver simulation channels, or up to eight embedded grade Synchro/Resolver simulation channels that can be used independently and/or simultaneously.
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Product
PowerTrain Simulators
NMEA 2000
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The Au NMEA 2000 PowerTrain simulators V1.00A release can generate majority of NMEA 2000 PowerTrain Controller Area Network (CAN) signals on a NMEA 2000 network. Au NMEA 2000 PowerTrain simulators are designed very easy to use. All editions run independently (without personal computer). It is widely used as valuable tools for any situation from product-line test, incoming inspection, business demonstration to product development and product validation.
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Product
Gauge Type T Thermocouple Wire
W-TW-44P
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Most thermocouple wire used in the manufacture of sensors is "Special Limits" wire which, to meet NIST standards, must be accurate to 0.5°C in the range 0-50°C. This means that even with most sophisticated electronics, the best possible accuracy for the system is 0.5°C.
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Product
PXI Analog Output / Current Loop Simulators
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These modules are aimed at simulating industrial control transceivers, utilizing 4–20mA current loops. The modules include built-in relays for shorts and opens functionality enabling fault insertion testing on every channel and also enable slew rates to be programmed so that different sensors can be effectively mimicked.
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Product
Fibre Channel Test & Simulation Interface for PCI
PCI-FC4
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Avionics Interface Technologies
Supports Point-to-Point, Switched Fabric, and Arbitrated Loop topologies - Two independent Fibre Channel ports - Two SFP sockets accept fiber or copper transceivers - Each port supports 1, 2, and 4 Gbps speeds - Comprehensive decoding of FC-1, FC-2, and Upper Layer Protocol (ULP) frames - Full Error Injection and Detection - IRIG-B Time Code Encoder/Decoder for Data Correlation - In-line Port Configuration for Transparent AnalyzerSupports multiple ULPs including FC-AE-ASM, FC-AE-RDMA, FC-AE-1553, and FC-AV - Compatible with AIT’s fcXplorer GUI Bus Analyzer Software
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Product
Basic Quad K-Type Analog Thermocouple Amplifier
SEN-30103-K1
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Analog thermocouple amplifier board based on the AD849x from Analog Devices (successor of the AD597). This quad-channel thermocouple board converts the very low voltage signal from a thermocouple to a highly-linear, 0.005V/C output with either 0V or 1.245V offset (both configurations stocked) while removing unwanted noise from the signal. Many supply and output configurations are available with this board, though the PCB was designed with Arduino in mind. Specifically, the output header will plug directly into a standard Arduino Uno or Mega, with a pin-for-pin match for power supply, ground and analog outputs. With a 5V Arduino, temperatures from 0C to 1,000C are possible with the 0V offset board and -249C to 750C with the 1.245V offset board. If using a 3.3V microcontroller (Due, etc), the board must be supplied with no more than 3.3V to avoid damaging the microcontroller. Temperature measurement range is dependent on the supply voltage. It is possible to supply the board with higher voltages to allow temperature measurement over the entire operating range of the K-Type and J-Type thermocouples, allowing use with more capable data acquisition equipment.
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Product
MULTI-STANDARD LOCAL LOOP SIMULATOR
458-LM-A8-30
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Accurately simulates attenuation and impedanceFull bidirectional operation at all specified frequencies26 AWG PIC as specified in ANSI T1.417
