Diodes Incorporated 5.0SMCJ1xCA 5000W Transient Voltage Suppressor
Diodes Incorporated 5.0SMCJ1xCA 5000W Transient Voltage Suppressor (TVS) is a high-power device designed to protect sensitive electronic circuits from voltage spikes caused by events such as lightning strikes, inductive load switching, and electrostatic discharge (ESD). With a peak pulse power capability of 5000W, this component offers robust surge protection for both unidirectional and bidirectional configurations. The Diodes Inc 5.0SMCJ1xCA features a fast response time, low leakage current, and excellent clamping performance, making the TVS diode ideal for safeguarding automotive electronics, industrial equipment, telecommunications systems, and consumer devices. 5.0SMCJ1xCA is housed in an SMC package, ensuring compact size and high reliability for applications requiring rugged surge protection in harsh environments.
Features
- 5000W peak pulse power dissipation
- 10V to 18V standoff voltage range
- ONO passivated die construction
- Unidirectional and bidirectional versions available
- Excellent clamping capability
- Fast response time
- Surface-mount, SMC package
- Moisture Sensitivity Level (MSL) 1 per J-STD-020
- ±30kV ESD protection (contact/air discharge)
- Lead-free finish
- RoHS compliant
- Halogen-/antimony-free, Green device
Applications
- Protection of sensitive electronic equipment
- Automotive electronics
- Industrial equipment
- Telecommunication systems
- Consumer electronics
- Power supplies and converters
- Data centers and server hardware
Specifications
- 300A maximum peak forward surge current, 8.3ms single half sine wave superimposed on the rated load
- 2.0W maximum steady-state power dissipation with PCB
- 12.3V to 22.1V maximum breakdown voltage range
- 1mA test current
- 2µA, 10µA, or 20µA maximum reverse leakage
- 17.0V to 29.2V maximum clamping voltage range
- 171.2A to 294.0A maximum peak pulse current range
- -55°C to +175°C operating temperature range
- UL 94V-0 rated molded plastic
- Matte tin finished terminals, solderable per MIL-STD-202, Method 208
Opublikowano: 2025-10-22
| Zaktualizowano: 2025-10-31