Universal SuperHeat Controller/Sensor
The Universal SuperHeat Sensor-Controller (USHX) is a refrigerant superheat measuring device that may be used as a standalone sensor or as a valve controller.
As a Sensor (USHS), the device will measure and report the temperature, pressure and superheat for a multitude of refrigerants. As a Controller (USHC), in addition to the capabilities of the USHS, it can be used to control the Modular Silicon Expansion Valve (MSEV) to maintain a desired system superheat for HVAC/R applications. The hardware is comprised of a MEMS based pressure sensor and an intelligent microprocessing unit.
Special Features include:
- Pressure and temperature sensing device
- Real-time superheat calculation
- Palm size compact design with plug and play
capability - Precise superheat control when used as a
controller for MSEV - Embedded software with bootloading capability
that is customizable to customer needs - Extensive fault detection embedded software:
Low/High pressure, Vacuum detected, Low/High
temperature, etc. - Upgradable with future refrigerant database
- Windows based Graphical User Interface
- MODBUS RTU Communication Protocol
The USHX wiring harness includes an external temperature sensor, communication lines, power input, PWM output and general purpose wires. Users can utilize MODBUS RTU communication protocol or a Windows based graphical user interface to communicate with the USHX.
In the News:
- DMQ Launches Remote Control and Monitoring Platform for Refrigeration Systems on Android Smartphones
- DMQ’s MSEV USHC Retrofit Kit is a Gold Award Winner in the ACHR News 2015 Dealer Design Awards
- ProudGreenHome.com features the MSEV and USHX for HVAC-R
- DMQ’s Universal SuperHeat Controller/Sensor (USHX) now comes with MODBUS RTU serial communications protocols
- MSEV and USHX products receive UL listing
- DMQ’s Universal SuperHeat Sensor showcased in the Defense Energy Summit from November 11th – 13th, 2013 located in Austin, Texas
- DMQ’s Universal SuperHeat Sensor is featured in Appliance Design July 2013 Issue