Showing results: 4636 - 4650 of 4910 items found.
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Extech EC510 -
Extech Instruments Corporation
The EC510 is a conductivity testing kit. Kit includes EC500 meter, 3 calibration standards, 3 pH buffer pouches plus rinse solution, 3 cups, batteries and carrying case. Measures 5 parameters including conductivity, TDS, salinity, pH and temperature using one electrode. Analog bargraph indicates trends. Memory stores up to 25 labeled readings. Adjustable Conductivity to TDS ratio from 0.4 to 1.0; 0.5 fixed Salinity ratio.
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40-265-406 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 6-channel, 1.5kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-106 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 6-channel, 3kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-206 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 6-channel, 1kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-104 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 4-channel, 3kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-016 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 6-channel, 350Ω) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-306 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 6-channel, 2kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-304 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 4-channel, 2kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-204 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 2-channel, 350Ω) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-404 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 4-channel, 1.5kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-102 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 2-channel, 3kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-012 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 2-channel, 350Ω) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-402 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 2-channel, 1.5Ω) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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40-265-302 -
Pickering Interfaces Ltd.
The 40-265 range consists of 6, 4 or 2 channel modules (this version is the 2-channel, 2kΩ) that simulate the operation of a range of strain gauges making it ideal for testing strain gauge meters and a wide variety of industrial control systems. The range provides a simple way of replacing in house developed sensors with a low cost simulator having excellent performance. The 40-265 uses the same resistor bridge techniques that real life strain gauges are based on, ensuring accurate emulation under all conditions.
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mks Ophir
Unlike a power meter that measures average or instantaneous Watts or Joules of the overall laser beam, knowing how the power is distributed within the beam is equally as important. As an example, if you want to cut something the power should generally be focused in the center of the beam to concentrate the power density in a very small area but if you were trying to weld something with all the power in the center you would poke a hole in the weld; requiring the power to be equally distributed as in a top hat profile.