Entube SE

In Stock
Voltage Divider with an Optional Anti-Aliasing Filter at Output

  • Compact Construction
  • Simple Setup
  • Drop in replacement to other voltage dividers
  • Spring Cage Connectivity
  • ±10V or ±5V Signal Output for Best Connectivity

https://www.verivolt.com/web/image/product.template/324/image_1920?unique=0f8a8aa

Price and options

180.00 180.00 180.0 USD

180.00

  • Input Voltage
  • Output Voltage
Availability up to 24

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The Entube SE series is a family of voltage transducers designed for high quality single ended measurements in a very compact form factor, and without need for power supplies. This series covers the ranges of ±50V to ±2000V with up to 50kHz bandwidth and up to 0.2% of signal accuracy.

Plug and Play Usability

The Entube SE provides ease-of-use and can be mounted anywhere between the signal source and the data acquisition system. A female screw on the low voltage side of the sensor allows for DIN rail mounting and serves as a safety ground.

Ultra-Compact Form

The Entube SE is part of Verivolt’s sensing platform, which is aimed at allowing users to laid out multiple distributed sensors with a minimum of cabling required and no power supplies. This platform together with the Entube-de ultra-compact form factor, allows for very high channel densities, while delivering high performance for a low cost.

High Input Impedance

Have a high input impedance to reduce the unwanted effects and increases device safety. For an accurate determination of the impedance, please refer to the specsheet as the input impedance is dependent on the input range of the device.

Flux Gate Methodology

The IsoBlock I-FG-4C uses Flux-Gate methodology to measure the current flowing through the input conductor. This technique works by placing a toroid with a high number of turns (secondary) around the input current path (primary), while a close-loop circuitry controls the current through the secondary to null out the magnetic field inside the toroid. The input current is then obtained by multiplying the current from the control circuitry by the number of turns of the secondary. This is followed by an anti-aliasing filter and a conditioning stage to output a ±5V signal.


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