ODM Shunt Amperemeter Factories - Three-Phase Ammeter (Conventional) – Newlink
ODM Shunt Amperemeter Factories - Three-Phase Ammeter (Conventional) – Newlink Detail:
Overview
The three-phase ammeter adopts the AC sampling technology to measure the true RMS value, and can measure the three-phase current in the power grid. It has the characteristics of convenient installation, simple wiring, convenient maintenance, small amount of engineering, field programmable input parameters, etc., and can complete the networking communication with different PLCs and industrial computers in the industry.
Features
Measurement: Three-phase current
Display: Three rows of LED digital / LCD liquid crystal display A, B, C three-phase current at the same time
Uses: suitable for power grid, automatic control system, low-voltage three-phase current measurement circuit, suitable for MKH, GGD and other cabinet types
Optional: RS485 communication function, two switch output (2D0), two switch input (2DI), one analog output (1AO)
Product In Kind
External Dimensions
Schematic
Wiring Diagram
Application
Product detail pictures:
Related Product Guide:
We continue to keep increasing and perfecting our solutions and service. At the same time, we operate actively to do research and enhancement for ODM Shunt Amperemeter Factories - Three-Phase Ammeter (Conventional) – Newlink , The product will supply to all over the world, such as: Iraq, Canada, Venezuela, Our company is continuing to serve customers with high quality, competitive price and timely delivery. We sincerely welcome friends from all over the world to cooperate with us and enlarge our business. If you are interested in our products, please feel free to contact us. We would love to provide you with further information.
By Doris from Finland - 2017.06.19 13:51
The factory workers have rich industry knowledge and operational experience, we learned a lot in working with them,we are extremely grateful that we can encount a good company has excellent wokers.
By Pearl from Malaysia - 2018.11.06 10:04