Contactor Selection Guide for Motor Control and Switchgear Applications
A guide to contactor selection for motor control and switchgear applications. Covers AC/DC contactors, rating, coordination with overload relay, and IEC 60947-4 standards.
What is a Contactor
Contactor = Electrically operated switch for controlling power circuits. Used for frequent switching (motors, lighting, heating).
Components: Coil (control circuit), contacts (power circuit), enclosure.
vs Relay: Contactor for high current (≥9A), relay for low current (<9A).
Contactor Types and Ratings
AC contactor: For switching AC loads. Most common.
DC contactor: For switching DC loads (batteries, DC motors). Higher arc suppression required.
Rating: AC-3 (motor starting), AC-1 (resistive load), AC-4 (frequent start/stop).
Size: 9A, 12A, 18A, 25A, 32A, 40A, 50A, 65A, 80A, 95A, 115A, 150A, 185A, 225A, 330A, 400A, 630A, 1000A, 1600A, 2500A, 4000A.
Coordination with Overload Relay
Overload relay protects motor from overload. Must be coordinated with contactor.
Type 1 coordination: Contactor and overload relay may need replacement after fault, but no hazard.
Type 2 coordination: Contactor and overload relay may need replacement after fault, but no damage.
Selection: Choose overload relay same frame size as contactor. Setting: 0.95-1.05x motor rated current.
IEC 60947-4 Standards
IEC 60947-4-1: Electromechanical contactors and motor-starters.
IEC 60947-4-2: AC semiconductor motor controllers and starters.
IEC 60947-4-3: Semiconductor controllers and contactors for non-motor loads.
Compliance ensures safety, performance, and coordination.
Selection Criteria
1. Rated current (AC-3 duty): ≥ motor rated current.
2. Coil voltage: 24V DC, 110V AC, 220V AC, 380V AC (match control voltage).
3. Duty type: AC-3 for motor, AC-1 for resistive load.
4. Number of contacts: Main contacts (3NO), auxiliary contacts (NO/NC) for control.
5. Mechanical/electrical life: >1 million mechanical operations, >100k electrical operations.