About 269PLUS-DO-100P-125VDC
The GE 269PLUS-DO-100P-125VDC model is a digital motor relay device in the GE Multilin 269 Plus motor management relay family. Designed for use in three-phase AC motors, the device uses a current transformer and heat detector to monitor the electrical and thermal conditions of the motor. If an overload or other failure situation occurs, the device will trigger an alarm or trip the motor, protecting it from damage.
One of the key features of GE Model 269PLUS-DO-100P-100VDC is its 100 ohm platinum RTD (Resistance Temperature Detector). These detectors provide accurate and reliable temperature measurements, enabling the device to monitor the thermal condition of the motor and protect it from thermal overload.
The device has a 12-key keyboard and a simple LED display that makes programming fast and easy. The LED display provides real-time information about the motor and equipment, making it easy to diagnose and resolve any problems that may arise.
The device is equipped with eight programmable overload curves that can be customized to the specific needs of each motor. The curve can be set to match the current consumption of the motor, ensuring that the device tripping the motor when overloaded while avoiding false tripping. The 269PLUS-DO-100P-125VDC also includes FlexCurve (TM) function options that allow for greater customization of overload curves. This feature allows users to create custom curves that meet the specific requirements of the motor, providing greater protection and peace of mind.
Frequently Asked Questions about 269PLUS-DO-100P-125VDC
What are the protection benefits of Multilin 269PLUS-DO-100P-125VDC in terms of integrated control and protection in the 269PLUS series?
The Multilin 269PLUS-DO-100P-125VDC offers a number of key advantages in protecting and controlling medium-sized AC motors. For example, the Multilin 269PLUS-DO-100P-125VDC is capable of monitoring temperature through RTD inputs that can be programmed to provide temperature protection for stators, bearings and ambient temperatures. Settings can be upgraded in the field, and simulation can also be used for built-in testing capabilities. In addition, last trip data, learning data, and motor operation data are monitored to minimize operator troubleshooting.