Overload relays are essential components in electrical systems, particularly for protecting AC motors from excessive current and overheating. They function as protective devices by monitoring the current flowing through the motor and initiating actions to prevent damage in case of abnormal conditions. Here's how overload relays work to safeguard AC motors:
Current Sensing: Overload relays continuously monitor the current drawn by the AC motor. They are typically connected in series with the motor's supply circuit, allowing them to measure the current passing through the circuit.
Setpoint Adjustment: The overload relay is equipped with an adjustable current setting, often referred to as the "trip current" or "overload setting." This setting is based on the motor's rated current and the allowable tolerance for transient current spikes during motor starting. If the current exceeds the setpoint, the overload relay will be triggered.
Heating Element: Overload relays often contain a heating element or a bimetallic strip that is sensitive to temperature changes. When current flows through the relay's contacts, the heating element heats up. The rate of heating is directly related to the current magnitude.
Time-Delay: Overload relays may also incorporate a time-delay mechanism. This delay helps account for inrush current during motor start-up, allowing the motor to briefly draw higher currents without triggering a false overload trip.
Contact Opening: If the monitored current exceeds the setpoint for a sustained period or surpasses the allowable inrush current during start-up, the heating element heats up rapidly. Once the heating element reaches a critical temperature, it causes the bimetallic strip to bend or warp. This mechanical deformation triggers the opening of the relay's electrical contacts.
Motor Shutdown: When the contacts open, the motor's power supply is interrupted. This action stops the motor from drawing excessive current, which helps prevent damage due to overheating. The motor remains inoperable until the fault is cleared, and the overload relay is manually reset or automatically resets after a cooldown period.
Resetting: After the fault condition is resolved and the motor has had time to cool down, the overload relay can be reset. Depending on the design, some overload relays may require manual intervention to reset, while others may have an automatic reset feature.
It's important to note that overload relays provide protection against sustained overcurrent conditions and overheating, which could be caused by issues like mechanical jamming, locked rotors, or electrical faults. However, they might not respond as quickly to short-duration overcurrent events. For such cases, additional protective devices like short-circuit protection (circuit breakers or fuses) are often employed in conjunction with overload relays to provide comprehensive motor protection.