On-Board Charger Inlet

On-Board Charger Inlet Temperature Sensor

Engineered to ensure reliable temperature monitoring of the charging inlet in electric vehicles.

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The On-Board Charger Inlet Temperature Sensor is engineered to ensure reliable temperature monitoring of the charging inlet in electric vehicles. This critical component helps maintain optimal performance and safety during the charging process by providing precise temperature measurements, thus preventing potential overheating and ensuring efficient energy management.

Our Offerings

1. On-Board Charger Inlet

On-Board Charger Inlet
Key Specifications
  • Protection Tube: PVC, FG & Silicone
  • Di electric Withstand: 2000V AC, with 0.1mA
  • Operating Temperature Range: -40 to +125°C
  • End Connector: Optional
  • Cable: PVC, XLPE & PTFE
  • Insulation Resistance: DC 500 V 100 MΩ+
  • Other Mechanical Parameters: Customized
  • Protection Tube: Optional
  • Beta Value 25/85°C: 3435K, 3977K, 3960K, 4250K
  • Thermal Conductivity 25→85°C: ≤ 8 seconds (In Water)
  • Resistance Tolerance: ±1.0%, 1.50%, 2% & 5%
  • Zero Power Resistance @ 25°C: 10KΩ, 50KΩ, 100KΩ & 170KΩ

2. . On Board Charger Inlet Temperature Sensor

. On Board Charger Inlet Temperature Sensor
Key Specification
  • Zero Power Resistance @ 25˚C : 10KΩ, 50KΩ,100KΩ & 170KΩ
  • Resistance Tolerance : ± 1.0%, 1.50%, 2% & 5%
  • Beta Value 25/85 ˚C : 3435K, 3977K, 3960K, 4250K
  • Thermal Conductivity 25→85 ˚C : ≤ 10 seconds (In Water)
  • Di electric Withstand : 2000V AC, with 0.1mA
  • Insulation resistance: DC 500 V 100 MΩ+
  • Cable : PVC, XLPE & PTFE
  • Protection Tube : PVC, FG & Silicone
  • Operating Temperature Range : -40 to +125˚C
  • End Connector : Optional
  • Protection Tube : Optional
  • Other mechanical Parameters : Customized

The On-Board Charger Inlet Temperature Sensor is engineered to ensure reliable temperature monitoring of the charging inlet in electric vehicles. This critical component helps maintain optimal performance and safety during the charging process by providing precise temperature measurements, thus preventing potential overheating and ensuring efficient energy management.

With its advanced design, this sensor is an essential component for maintaining optimal performance and reliability in electric vehicle charging infrastructure.

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