FC4T Series Metal Foil Low Value Chip

Ohmite's FC4T series metal foil low value chip in a Kelvin configuration

Image of Ohmite's FC4T Series Metal Foil Low Value ChipOhmite's FC4T chip features four terminals also known as a Kelvin configuration enabling current to be applied through two opposite terminals and a sensing voltage to be measured across the other two terminals. This eliminates the resistance and temperature coefficient of the terminals for a more accurate current measurement. Ohmite’s proprietary metal foil technology offers an excellent temperature coefficient of resistance (TCR) even for very low resistance values (down to 50 ppm).

FC4T Series Metal Foil Low Value Chip - Characteristics
  • Resistance: 0.005 Ω to 0.100 Ω
  • Rated power@ 70°C: 0.5 W
  • Temperature coefficient (TCR): within ±50 ppm/°C
  • Operating temp range: -55°C to +155°C
  • Resistance tolerance: 0.5% and 1% standard
  • Coating material: epoxy resin

FC4T Series Metal Foil Low Value Chip

ImageManufacturer Part NumberDescriptionResistanceAvailable QuantityView Details
RES 0.005 OHM 1% 1/2W 1206 WIDEFC4TR005FERRES 0.005 OHM 1% 1/2W 1206 WIDE5 mOhms6625 - ImmediateView Details
RES 0.01 OHM 0.5% 1/2W 1206 WIDEFC4TR010DERRES 0.01 OHM 0.5% 1/2W 1206 WIDE10 mOhms9748 - ImmediateView Details
RES 0.01 OHM 1% 1/2W 1206 WIDEFC4TR010FERRES 0.01 OHM 1% 1/2W 1206 WIDE10 mOhms19248 - ImmediateView Details
RES 0.015 OHM 0.5% 1/2W 1206WIDEFC4TR015DERRES 0.015 OHM 0.5% 1/2W 1206WIDE15 mOhms9912 - ImmediateView Details
RES 0.015 OHM 1% 1/2W 1206 WIDEFC4TR015FERRES 0.015 OHM 1% 1/2W 1206 WIDE15 mOhms22520 - ImmediateView Details
RES 0.05 OHM 0.5% 1/2W 1206 WIDEFC4TR050DERRES 0.05 OHM 0.5% 1/2W 1206 WIDE50 mOhms9721 - ImmediateView Details
RES 0.05 OHM 1% 1/2W 1206 WIDEFC4TR050FERRES 0.05 OHM 1% 1/2W 1206 WIDE50 mOhms9405 - ImmediateView Details
RES 0.1 OHM 0.5% 1/2W 1206 WIDEFC4TR100DERRES 0.1 OHM 0.5% 1/2W 1206 WIDE100 mOhms25069 - ImmediateView Details
RES 0.1 OHM 1% 1/2W 1206 WIDEFC4TR100FERRES 0.1 OHM 1% 1/2W 1206 WIDE100 mOhms9428 - ImmediateView Details
Published: 2018-01-08