2 and 3 Wire Vibration Transmitters TR Series
/ ProvibTechTR series vibration transmitter uses advanced LSI technology that integrate the signal conditioning, processing and outputting circuitry into one integral unit. It can directly replace the probe driver and connect to the proximity probe and extension cable, converting the signal to a 4-20 mA output. Buffered dynamic output is available for additional analysis.
TR Series Transmitter is used to monitor:
- Radial Shaft Vibration
- Axial Thrust Position
- Rotation Speed
- Phase Reference
The TR is available as a two wire or three-wire transmitter configuration and certified for use in hazardous areas.
The TR series also has an option available to interface with existing proximity probe drivers. This option is typically used when it is desirable to drive the dynamic signal and the 420mA output up to 300 meters or for some hazardous area applications.
Condition Monitoring: Measuring any rotation machinery case vibration. System can be used in hazardous area.
TR5102 is a cost-effective solution for monitoring the speed on your balance of plant machines combining the proximity probe driver and the signal conditioning circuit into one package.
The TR4102 is a cost-effective solution for monitoring the axial position or phase reference on balance of plant machines combining the proximity probe driver and the signal conditioning circuit into one package.
The TR3102 is a cost-effective solution for monitoring the axial position or phase reference on balance of plant machines combining the proximity probe driver and the signal conditioning circuit into one package.
The TR4101 is a cost-effective solution for monitoring the radial vibration on the shaft of balance of plant machines combining the proximity probe driver and the signal conditioning circuit into one package
The TR3101 is a cost-effective solution for monitoring the radial vibration on balance of plant machines. The TR3101 combines the proximity probe driver and the signal conditioning circuit into one package.