Contactors (Solid State)

Part Number	Description / PDF	Quantity
2297196 Phoenix Contact	3PHASE SOLID-STATE CONTACTOR	0
2297206 Phoenix Contact	3PHASE SOLID-STATE CONTACTOR	0
3RHP2440D12 Sensata Technologies – Crydom	RELAY CONTACTOR 3PH 40A 240VAC	0
DRA3R48A4 Sensata Technologies – Crydom	RELAY CONTACT 3PH REV 480VAC 4A	0
3RHP2450D5 Sensata Technologies – Crydom	RELAY CONTACTOR 3PH 50A 240VAC	0
3RHP6050E Sensata Technologies – Crydom	RELAY CONTACTOR 3PH 50A 600VAC	0
CNR60A20VR Sensata Technologies – Crydom	DIN SSR 600VAC/20A, 90-280VAC/DC	0
3RHP6040F Sensata Technologies – Crydom	RELAY CONTACTOR 3PH 40A 600VAC	0
CNR60D20V Sensata Technologies – Crydom	DIN SSR 600VAC/20A, 4-32VDC IN,	0
3RHP6040G Sensata Technologies – Crydom	RELAY CONTACTOR 3PH 40A 600VAC	0
2297280 Phoenix Contact	3PHASE SOLID-STATE CONTACTOR	0
2297387 Phoenix Contact	3PHASE REVERSING CONTACTOR	0
3RHP1240D12 Sensata Technologies – Crydom	RELAY CONTACTOR 3PH 40A 120VAC	0
2297345 Phoenix Contact	3PHASE REVERSING CONTACTOR	0
3RHP2450D24 Sensata Technologies – Crydom	RELAY CONTACTOR 3PH 50A 240VAC	0
SSC800-25-24 Sensata Technologies – Crydom	RELAY SSR HV DC 800VDC 25A 24V	0
2297141 Phoenix Contact	SOLID STATE 1PHASE 20A DIN 275V	9
1RHP2520A Sensata Technologies – Crydom	RELAY CONTACTOR 1PH 20A 250VAC	0
2297138 Phoenix Contact	SOLID STATE 1PHASE 20A DIN 32V	0
1RHP2520D32 Sensata Technologies – Crydom	RELAY CONTACTOR 1PH 20A 250VAC	0

Contactors (Solid State)

Solid State Contactors (SSCs) are electronic switching devices that use semiconductor components (e.g., thyristors, triacs, or MOSFETs) to control electrical circuits without mechanical contacts. Unlike electromechanical relays, SSCs provide wear-free operation, faster switching speeds, and enhanced reliability. They play a critical role in modern industrial automation, energy management systems, and precision control applications where longevity and performance are paramount.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
AC Output Solid State Contactors	Use thyristors/triacs for zero-crossing switching, reducing electrical noise	Heating systems, motor control in HVAC
DC Output Solid State Contactors	Employ MOSFETs for high-speed DC circuit control	Solar inverters, battery management systems
Random Turn-on Contactors	Switch immediately upon signal input, regardless of voltage phase	Lighting control, phase angle regulation
Zero-crossing Contactors	Switch when AC voltage crosses zero to minimize transient spikes	Resistive heating loads, industrial ovens
Modular Solid State Relays	Compact plug-in designs for panel mounting	Factory automation lines, test equipment

3. Structure and Components

A typical solid state contactor consists of:

Housing: Flame-retardant polymer casing with IP20 protection rating
Semiconductor Switch: SCR (Silicon Controlled Rectifier) or TRIAC for AC control, MOSFETs for DC applications
Heat Sink: Aluminum finned structure for thermal dissipation (rated for 80 C ambient operation)
Control Circuit: Optocoupler isolation with LED indicator, typically operating at 3-32V DC
Terminal Blocks: Screw-type or spring-clamp connections for load and control circuits

4. Key Technical Specifications

Parameter	Typical Range	Importance
Rated Voltage	24-660V AC/DC	Determines circuit compatibility
Load Current	0.5-100A	Defines maximum power handling capacity
Switching Speed	0.5-20ms	Controls response time in dynamic applications
Operating Temperature	-25 C to +80 C	Specifies environmental tolerance range
Dielectric Strength	2500V RMS	Ensures electrical isolation safety
MTBF	100 million operations	Measures reliability and service life

5. Application Fields

Major industries utilizing solid state contactors include:

Industrial Automation: PLC systems, CNC machines, conveyor belts
Energy Management: Smart grids, solar power inverters, energy storage systems
Process Control: Temperature regulation in chemical reactors
Transportation: Electric vehicle charging stations, rail traction control
Consumer Electronics: High-end home appliances, smart thermostats

Case Study: In injection molding machines, solid state contactors enable precise temperature control ( 1 C) for heating barrels, improving production yield by 15% compared to electromechanical alternatives.

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Omron	G3PH-C-DC-24V	24V DC control, 40A load, DIN rail mount
Siemens	3RF2020-1AA00	0.5-10A range, LED status indicator
ABB	AF10-30MA	30mA control current, IP20 protection
Crydom	HL240D100	100A rating, 240V AC output
TE Connectivity	SS-4S-S-DC5V	5V DC input, 2A load capacity

7. Selection Guidelines

Load Type: Choose AC/DC-specific models with appropriate semiconductor technology
Current Rating: Select 20% higher capacity than maximum load requirements
Thermal Management: Consider heatsink requirements for continuous operation
Control Signal: Match input voltage to PLC/system control levels
Environmental Factors: Verify protection rating (IP), vibration resistance, and operating temperature
Certifications: Check for UL, CE, RoHS compliance for regulatory compliance

8. Industry Trends

Future developments include:

Integration with IoT for predictive maintenance capabilities
Adoption of wide bandgap semiconductors (SiC/GaN) for higher efficiency
Miniaturization through advanced thermal management materials
Increased adoption in EV charging infrastructure (expected CAGR 22% by 2028)
Standardization of digital interfaces (e.g., IO-Link compatibility)