
In many switching applications, mechanical relays create limitations because of contact wear, switching noise, and slower response time. In systems that require silent operation, high switching frequency, or long operational life, mechanical contacts can become a reliability concern. In high vibration environments, contact bounce or mechanical failure risk also increases. Solid state relays solve these issues by using semiconductor switching instead of mechanical contacts.
| Image | Part Number / Manufacturer | Description / Specs | MOQ | Datasheet | RFQ | |
|---|---|---|---|---|---|---|
| A1131ELHLT-T Manufacturer: Allegro MicroSystems Category: Switches Solid State | MAGNETIC SWITCH UNIPOLAR 2WIR | 1 | ||||
| A1130LLHLX-T Manufacturer: Allegro MicroSystems Category: Switches Solid State | MAGNETIC SWITCH UNIPOLAR 2WIR | 1 | ||||
| A1130LLHLT-T Manufacturer: Allegro MicroSystems Category: Switches Solid State | MAGNETIC SWITCH UNIPOLAR 2WIR | 1 | ||||
![]() | EW513 Manufacturer: Asahi Kasei Microdevices/AKM Category: Switches Solid State | MAG SWITCH INTEGRATED CIRCUIT | 1 | |||
![]() | EW413 Manufacturer: Asahi Kasei Microdevices/AKM Category: Switches Solid State | MAG SWITCH INTEGRATED CIRCUIT | 1 | |||
![]() | EW403 Manufacturer: Asahi Kasei Microdevices/AKM Category: Switches Solid State | MAG SWITCH INTEGRATED CIRCUIT | 1 | |||
| DN6848 Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH UNIPOLAR 3SIP | 1 | ||||
![]() | DN6849 Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH BIPOLAR 3SIP | 1 | |||
| DN6849SE Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH BIPOLAR 3SSIP | 1 | ||||
| DN6849S Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH BIPOLAR 4ESOP | 1 | ||||
| DN6851-A Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH BIPOLAR 3SIP | 1 | ||||
| DN6852-A Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH UNIPOLAR 3SIP | 1 | ||||
| DN8897 Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH SPEC PURP 3SIP | 1 | ||||
| DN8899 Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH SPEC PURP 3SIP | 1 | ||||
| DN6847SE Manufacturer: Panasonic Industry Category: Switches Solid State | MAGNETIC SWITCH BIPOLAR 3SSIP | 1 | ||||
| SI7205-B-00-IVR Manufacturer: Silicon Labs Category: Switches Solid State | MAGNETIC SWITCH OMNIPOL SOT23-3 | 1 | ||||
| SI7204-B-00-FVR Manufacturer: Silicon Labs Category: Switches Solid State | MAGNETIC SWITCH LATCH SOT23-5 | 1 | ||||
| SI7201-B-01-FVR Manufacturer: Silicon Labs Category: Switches Solid State | MAGNETIC SWITCH OMNIPOL SOT23-3 | 1 | ||||
| SI7206-B-00-IV Manufacturer: Silicon Labs Category: Switches Solid State | MAGNETIC SWITCH LATCH SOT23-3 | 1 | ||||
| SI7205-B-00-IV Manufacturer: Silicon Labs Category: Switches Solid State | MAGNETIC SWITCH OMNIPOL SOT23-3 | 1 |
Solid state relays are usually selected early in power switching design because thermal management, PCB layout, and heat sink design depend on them. When a solid state relay reaches end-of-life, replacing it may require careful validation. Differences in leakage current, switching characteristics, or thermal behavior can affect load performance and system stability.
This is common in industrial automation, HVAC systems, and medical equipment where systems operate continuously for long periods. Maintenance teams often require the same solid state relay specification to avoid redesign or recertification.
Delays in sourcing compatible solid state relays can lead to production downtime, system repair delays, and increased lifecycle support costs.
Maketronics assists global engineering and procurement teams with reliable sourcing of both active and obsolete Solid State Relays.
Solid state relays provide faster switching, silent operation, longer lifespan, and improved reliability because they have no moving contacts.
Yes. SSRs generate heat during operation due to on-state voltage drop, so proper heat sinking and thermal design are essential.
They are widely used in industrial automation, HVAC systems, lighting control, motor switching, and high-cycle switching applications.
Zero-cross SSRs switch the load when AC voltage crosses zero, reducing electrical noise and minimizing stress on loads such as heaters and lamps.