Telemecanique motor controller – use and instructions
Adjei, Yaw (2012)
Adjei, Yaw
Hämeen ammattikorkeakoulu
2012
Creative Commons Attribution-NonCommercial-NoDerivs 1.0 Finland
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2012090713482
https://urn.fi/URN:NBN:fi:amk-2012090713482
Tiivistelmä
Electric motors are versatile electrical machines used in the industry and in many domestic appliances. They convert electrical energy into mechanical (rotational) energy. Following the advent of Induction motors, which are simple, rugged, reliable, low cost and highly efficient, they need no extra starting motor or brushes, much of the modern day motor controllers are geared induction motors.
Telemecanique Motors Controllers Te Sys LUCM1XBL and Te Sys LUCBX6BL are Direct On-Line (DOL) motor starters which could be used to:
• give protection and control to 3-phase motors;
o breaking function,
o overload and short-circuit protection,
o thermal overload protection and power switching.
LUCM1XBL can also be used for single-phase motors and offers the following added advantage:
• control the application;
o protection function alarms,
o application monitoring (running time, number of faults, motor current values, ...),
o logs (last 5 faults saved, together with motor parameter values).
This project seeks to provide electrical connection diagrams for the motor controller and instruction manual so that people with only the basic knowledge in electrical could safely connect, program/set and use the controllers thus, offering the possibility for the controllers to be used for student laboratory works. With this information, users could decide with which abnormal condition(s) the controller should give a warning signal and when to turn/switch the motor off.
Telemecanique Motors Controllers Te Sys LUCM1XBL and Te Sys LUCBX6BL are Direct On-Line (DOL) motor starters which could be used to:
• give protection and control to 3-phase motors;
o breaking function,
o overload and short-circuit protection,
o thermal overload protection and power switching.
LUCM1XBL can also be used for single-phase motors and offers the following added advantage:
• control the application;
o protection function alarms,
o application monitoring (running time, number of faults, motor current values, ...),
o logs (last 5 faults saved, together with motor parameter values).
This project seeks to provide electrical connection diagrams for the motor controller and instruction manual so that people with only the basic knowledge in electrical could safely connect, program/set and use the controllers thus, offering the possibility for the controllers to be used for student laboratory works. With this information, users could decide with which abnormal condition(s) the controller should give a warning signal and when to turn/switch the motor off.