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8335 with MN93-BK Three-Phase Power Quality Analyzers
The PowerPad® Model 8335 with MN93-BK is a three-phase power quality analyzer that is easy-to-use, compact and shock-resistant. It is intended for technicians and engineers to measure and carry out diagnostic work and power quality work on one, two or three phase low voltage networks.
The PowerPad®’s 2GB of memory is conveniently partitioned to let you store four different types of data, synchronized or independent of each other. You can store up to 50 screen snapshots, up to 300 captured transients that contain four cycles for each active input, and 10,000 alarm events from up to 40 different parameters. You can also record trend data for days, weeks or even months.
The Model 8335 with MN93-BK is supplied with a set of four color-coded 240A current probes.
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These devices are designated to measure and monitor line-to-line and phase voltages, currents, active and reactive powers, true power factor, THD for both voltage and current one- and three phase LV, HV and VHV networks and sense the temperature inside a switchboard.
Characteristics
- True root-mean-square values of voltage and current (TRMS)
- Active and reactive power, four quadrant presentation in compliance with IEC375
- Both true power factor (PF) and power factor of fundamental harmonics (cos fi)
- Total Harmonic Distortion and harmonics of voltage and current up to the 20. order
- Built-in temperature sensor
- Single-phase, two-phase, three-phase or Aron connection
- Direct & undirect voltage connection
- Optional remote RS-485 communication link
- Panel mounted (SML) or DIN-bar mounted (SMM) version
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The Model 58542 provides faster CW measurements than any other VXIbus power meter, with readings over the GPIB exceeding 150 readings per second and an exclusive Burst Mode capturing more than 5000 readings per second.
The Model 58542 also lets you measure pulsed RF signals simply by using a Giga-tronics peak power sensor, while a detector output connector from the sensor lets you display the waveform on a scope screen, and, via computer control, move the marker to make exact power measurements at any point on the waveform.
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Power measuring devices
