Entube DE

Differential Voltage Divider
Features
  • Icon ±1500v Input Dynamic Range On Each Terminal (Line-To-Line And Line-To-Ground)
  • Icon ±5v Or ±10v Output Dynamic Range (Differential Plus Common Mode)
  • Icon 5000v Withstanding Surge Voltage For 10 Seconds
  • Icon Dc To 25khz Frequency Spectrum Of Operation
  • Icon Designed For Interfacing With Differential Input Daqs
  • Icon Industrial Grade Casing, 100% Electronic Technology
  • Icon Sensor Works Without The Need For A Power Supply
https://www.verivolt.com/web/image/product.template/317/image_1920?unique=e2185a2
Need help choosing the right option?
Icon Contact our sales engineers
Select options
  • Input Voltage  
  • Output Voltage  
Part Number :
-
Availability :
Log In to view Availability

280.00 280.00 280.0 USD

280.00

This combination does not exist.


Terms and Conditions
30-day money-back guarantee
Shipping: 2-3 Business Days

Details

Details

Details

voltage


The Entube-de series is a family of voltage transducers designed for high quality differential measurements in a very compact form factor, and without need for power supplies. This series covers the ranges of ±50V to ±1500V with up to 50kHz bandwidth and up to 0.2% of signal accuracy.  

measurements


The module outputs all line-to-line and line-to-ground signal pairs. Delta or Wye measurements can be made depending on the input configuration of the digitizer being used (NRSE or Differential).

generates

Differential Divider

The Entube-de sensor operates as a differential divider RC-network with an anti-aliasing filter on its output. It generates a ±5V or ±10V scaled down version of the difference between the two input voltages, which can then be processed by a computer-based measurement system.

performance

Ultra-compact form factor

The Entube-de 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.