Search Results for vg 95328 c
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Voltage Compensated, Media Isolated, High Pressure Sensors
Operating (9) –40 to 257°F (–40°C to 125°C) Compensated Range 32 to 158°F (0°C to 70°C) Vibration 10 gRMS 20 to 2000Hz Shock 100 g 11 milliseconds Life (Dynamic Pressure Cycle) 610 x 10 cycles Mechanical (1) Weight Code0.06 lb (28 g) NPI–15A–XXX 0.10 lb (47 g) NPI–15B/H/J–XXX
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics Glass-Encapsulated Chip (GC) Thermistor
• Operating Temperature: -40°C to 300°C • Reference Temperature: 25°C or 37°C • Resistance Range: 1 – 200 kΩ @ 25° • Ratio: 25/125°C 11.6 - 31 • Radial or axial platinum alloy lead wires • Recommended for all applications where customer will perform further assembly • Extension leads available
Amphenol
Nennstrom bei 20°C / Nominal current at 20°C / Courant nominal à 20°C Kontaktgröße / Contact size / Taille de contact Max. Nennstrom / Max. nominal current / Courant nominal maxi (A) 10 8 15S / 16S 22 15 / 16 22 25 / 12 41 Kontaktgröße /60 / 100 / 8 74 160 / 4 135 500 / 0 245 Betriebsstrom / Rated current / Courant d’utilisation
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Voltage Compensated, Media Isolated, High Pressure Sensors
Operating (9) –40 to 257°F (–40°C to 125°C) Compensated Range 32 to 158°F (0°C to 70°C) Vibration 10 gRMS 20 to 2000Hz Shock 100 g 11 milliseconds Life (Dynamic Pressure Cycle) 610 x 10 cycles Mechanical (1) Weight Code0.06 lb (28 g) NPI–15A–XXX 0.10 lb (47 g) NPI–15B/H/J–XXX
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Voltage Compensated, Media Isolated, High Pressure Sensors
Operating (9) –40 to 257°F (–40°C to 125°C) Compensated Range 32 to 158°F (0°C to 70°C) Vibration 10 gRMS 20 to 2000Hz Shock 100 g 11 milliseconds Life (Dynamic Pressure Cycle) 610 x 10 cycles Mechanical (1) Weight Code0.06 lb (28 g) NPI–15A–XXX 0.10 lb (47 g) NPI–15B/H/J–XXX
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.
Thermometrics EMI-Protected NTC Thermistors Datasheet
Title: Thermometrics EMI-Protected NTC Thermistors Datasheet Author: Amphenol Advanced Sensors Subject: With increasing complexity of electric systems and density of electronic components in modern vehicles, conventional NTC thermistor sensors are vulnerable to stray electromagnetic interference causing self-heating.