600 V CoolMOS™ S7T SJ MOSFET with integrated temperature sensor in TOLL (PG-HSOF-8) for an increased junction temperature sensing accuracy
The CoolMOS™ S7T with embedded temperature sensor increases junction temperature sensing accuracy and robustness while enabling easy implementation. The device is optimized for low-frequency and high-current switching applications. It is an ideal fit for solid-state relay, circuit breaker designs, and line rectification in SMPS.
The temperature sensor enhances CoolMOS™ S7 features, allowing the best possible utilization of the power transistor.
Summary of Features
Optimized price performance
Tailored for low-frequency switching
Reduced parasitic source inductance
Seamless diagnostics
Accurate and fast monitoring over time
High current capability
High power dissipation
Enhanced protection
Optimized thermal device utilization
Benefits
Minimized conduction losses
Increased system performances
Allow more compact design over EMR
Lower TCO over prolonged time
Enabling of higher power density designs
Reduction of external sensing elements
Best utilization of power transistor
40% more accurate than discrete sensor
4x faster than discrete sensor solution
Potential Applications
Solid State Relay (SSR)
Solid State Circuit Breaker (SSCB)
Motor Soft Starter
Power Distribution Unit (AC/DC)
600 V CoolMOS™ S7T SJ MOSFET with integrated temperature sensor in TOLL (PG-HSOF-8) for an increased junction temperature sensing accuracy
The CoolMOS™ S7T with embedded temperature sensor increases junction temperature sensing accuracy and robustness while enabling easy implementation. The device is optimized for low-frequency and high-current switching applications. It is an ideal fit for solid-state relay, circuit breaker designs, and line rectification in SMPS.
The temperature sensor enhances CoolMOS™ S7 features, allowing the best possible utilization of the power transistor.
Summary of Features
- Optimized price performance
- Tailored for low-frequency switching
- Reduced parasitic source inductance
- Seamless diagnostics
- Accurate and fast monitoring over time
- High current capability
- High power dissipation
- Enhanced protection
- Optimized thermal device utilization
Benefits
- Minimized conduction losses
- Increased system performances
- Allow more compact design over EMR
- Lower TCO over prolonged time
- Enabling of higher power density designs
- Reduction of external sensing elements
- Best utilization of power transistor
- 40% more accurate than discrete sensor
- 4x faster than discrete sensor solution
Potential Applications
- Solid State Relay (SSR)
- Solid State Circuit Breaker (SSCB)
- Motor Soft Starter
- Power Distribution Unit (AC/DC)
