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AC Load Bank (Resistive & Inductive)
K-1000 Resistive & Inductive
Kongter Test & Measurement Co., Limited
Kongter resistive & inductive AC load banks are used to simulate the motor loads or other electromagnetic devices working at their rated power factor. Many backup generators and turbines are rated at 0.7, 0.8 or 0.85 power factor and need to be commissioned at nameplate capacity using a combination of resistive and reactive load to fully qualify their operating capability. Using a resistive & reactive load bank enables comprehensive testing from a single unit.
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Resistive & Capacitive AC Load Bank
RCD
RCD AC load banks are used to test the REAL working condition of UPS, rectifier, inverter and etc who are loaded by non-linear or electronic load with non-constant resistance such as computer, networking equipments and etc. Through the accurate detection of its output and power quality, users could avoid the inadequate loading capacity or cause pollution to power grid, so as to guarantee supply security. JUNXY RCD load banks leading power factor loads are created to debug power supply system parameters such as its crest factor test.
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XR Resistive Reactive Load Banks
Mosebach Manufacturing Company
Mosebach’s XR series load bank offers you a range of options for resistive reactive loads in both lower voltages of 480 and 600 or MV at 4160 and higher. Outdoor rated user friendly for years of use.
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Power Bank Battery Testing System
BTS4000
Shenzen Neware Electronic Co LTD
Battery testing system for power banks(BTS-4000-6V4A-CCDC-USB) is based on Neware BTS4000, it shares all the main feature of BTS4000, such as 0.05%FS accuracy, 10Hz data acquisition frequency, based on Ethernet communication, etc.
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LB-Series Digital AC Load Banks
The LB-Series AC Load Banks are designed for high power portable load testing of generators, UPS, and other critical AC power sources. Available models meet a range of voltages including but not limited to 208, 380, 440, and 480 VAC. Load power model options reach 1000 kW standard with other options available.
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Resistive & Capacitive, Inductive AC Load Bank
RLC
Inductive & capacitive load banks are reactive only and must be used in combination with a resistive load bank to provide the desired load profile to test a power system. Reactive loads banks can provide either a leading power factor (Capacitive) or lagging power factor (Inductive).
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SMART Constant Current DC Load Banks
SLB-Series
SMART Constant Current DC Load Banks are designed for acceptance testing, discharge testing, battery capacity testing, battery maintenance, engineering examination and other testing for DC power with load. The SMART technology allows a constant current discharge without the need for manual adjustment of current during the discharge test. Our SLB-Series load banks are portable, durable, economic, safe, easy-to-use and come complete with our DataView software, providing the user with a complete data management and analysis program.
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PXI 18 Bank, 3 Channel, 1 Pole Multiplexer
40-617-021
The 40-617 18-Bank, 3-Channel, 1-Pole Multiplexer Module forms part of the System 40 PXI Programmable Switching system. The Module consists of 18 electrically isolated banks of multiplexers controlled by a PXI/PCI interface. Each bank is a 1 to 3 multiplexer and operates with break-before-make action when a new channel is selected. Any Individual multiplexer bank can have a channel set by itself, alternatively, multiple banks can have channels selected simultaneously. Inter-bank linking relays allow multiplexer size to be increased in multiples of 3 by joining the common terminals of adjacent banks. Closing one linking switch produces a 6 channel multiplexer, closing all linking switches produces an 54 channel multiplexer.
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PXI 16 Bank 5 Channel 1 Pole Multiplexer
40-616-021-16/5/1
The 40-616 16-Bank, 5-Channel, 1-Pole Multiplexer Module forms part of the System 40 PXI Programmable Switching system. The Module consists of 16 electrically isolated banks of multiplexers controlled by a PXI/ PCI interface. Each bank is a 1 to 5 multiplexer and operates with break-before-make action when a new channel is selected. Any Individual multiplexer bank can have a channel set by itself, alternatively, multiple banks can have channels selected simultaneously. The module is suitable for cascading in applications that require large multiplexer systems, it is also suitable for test systems that require the switching of a large number of signals in parallel.
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PXI 8 Bank 8 Channel 2 Pole Multiplexer
40-659-102
Model 40-659 is an 8 Bank 8 Channel Multiplexer module with 2-pole switching, It uses high quality electromechanical relays and is suitable for switching signals up to 2Amp, 300VDC/250VAC.The 40-659 module is suitable for multiplexer applications where two signals are required to be switched simultaneously, for example send and return signals in a telecoms system. It is also suitable for applications where reed relay based multiplexers do not have sufficient power handling capability such as switching medium power AC or DC loads or for slaving external relays, contactors and solenoids.
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PXI MUX 4 Banks of 16 Channel 2 Pole
40-610-022-4/16/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 8 Banks of 8 Channel 2 Pole
40-610-022-8/8/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 1 Bank of 64 Channel 2 Pole
40-610-022-1/64/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 8 Banks of 8 Channel 1 Pole
40-610-021-8/8/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 2 Banks of 32 Channel 1 Pole
40-610-021-2/32/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 4 Banks of 32 Channel 1 Pole
40-610-022-4/32/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 2 Banks of 64 Channel 1 Pole
40-610-022-2/64/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 8 Banks of 16 Channel 1 Pole
40-610-022-8/16/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 1 Bank of 128 Channel 1 Pole
40-610-022-1/128/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 2 Banks of 32 Channel 2 Pole
40-610-022-2/32/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 1 Bank of 64 Channel 1 Pole
40-610-021-1/64/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI Solid State MUX, 20 bank, 8 channel
40-680-001
Based on FET switches, the multiplexers have no wear out mechanism and include fault protection that ensures the multiplexer automatically disconnects when PXI power is not applied. Available configurations for the 40-680 range vary from a single 160 to 1 MUX to a 20-bank, 8 to 1 MUX in a single PXI module.
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PXI Solid State MUX, 5 bank, 32 channel
40-680-003
Based on FET switches, the multiplexers have no wear out mechanism and include fault protection that ensures the multiplexer automatically disconnects when PXI power is not applied. Available configurations for the 40-680 range vary from a single 160 to 1 MUX to a 20-bank, 8 to 1 MUX in a single PXI module.
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PXI Solid State MUX, 10 bank, 16 channel
40-680-002
Based on FET switches, the multiplexers have no wear out mechanism and include fault protection that ensures the multiplexer automatically disconnects when PXI power is not applied. Available configurations for the 40-680 range vary from a single 160 to 1 MUX to a 20-bank, 8 to 1 MUX in a single PXI module.
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PXI Solid State MUX, 2 bank, 80 channel
40-680-005
Based on FET switches, the multiplexers have no wear out mechanism and include fault protection that ensures the multiplexer automatically disconnects when PXI power is not applied. Available configurations for the 40-680 range vary from a single 160 to 1 MUX to a 20-bank, 8 to 1 MUX in a single PXI module.
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PXI Solid State MUX, 4 bank, 40 channel
40-680-004
Based on FET switches, the multiplexers have no wear out mechanism and include fault protection that ensures the multiplexer automatically disconnects when PXI power is not applied. Available configurations for the 40-680 range vary from a single 160 to 1 MUX to a 20-bank, 8 to 1 MUX in a single PXI module.
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PXI Solid State MUX, 1 bank, 160 channel
40-680-006
Based on FET switches, the multiplexers have no wear out mechanism and include fault protection that ensures the multiplexer automatically disconnects when PXI power is not applied. Available configurations for the 40-680 range vary from a single 160 to 1 MUX to a 20-bank, 8 to 1 MUX in a single PXI module.
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PXI 2 Banks of 32 Chan 1 Pole MUX
40-657-001-2/32/1
40-657 High Density Power Multiplexer Modules are available in a choice of configurations, containing up to 8 separate multiplexers, all 1-pole switching. They are suitable for switching signals to 110VDC/250VAC at 2Amps, 90W.
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PXI 4 Banks of 16 Chan 1 Pole MUX
40-657-001-4/16/1
40-657 High Density Power Multiplexer Modules are available in a choice of configurations, containing up to 8 separate multiplexers, all 1-pole switching. They are suitable for switching signals to 110VDC/250VAC at 2Amps, 90W.
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PXI 8 Banks of 8 Chan 1 Pole MUX
40-657-001-8/8/1
40-657 High Density Power Multiplexer Modules are available in a choice of configurations, containing up to 8 separate multiplexers, all 1-pole switching. They are suitable for switching signals to 110VDC/250VAC at 2Amps, 90W.