Techniniai dokumentai
Specifikacijos
Markė
MurataCapacitance
22pF
Voltage
50V dc
Package/Case
0402 (1005M)
Tvirtinimo tipas
Surface Mount
Dielectric
C0G
Tolerancija
±5%
Matmenys
1 x 0.5 x 0.5mm
Ilgis
1mm
Gylis
0.5mm
Aukštis
0.5mm
Serija
GCM
Maksimali darbinė temperatūra
+125°C
Minimali darbinė temperatūra
-55°C
Terminal Type
Surface Mount
Kilmės šalis
Japan
Produkto aprašymas
Murata GCM Automotive 0402 Series
Murata GCM 0402 series ceramic capacitors are high dielectric in a small size with a high capacitance value. The Monolithic chip capacitors are available in COG temperature coefficients, have no polarity and offer a higher resistance of solder leaching thanks to the Ni – barriered termination.
The GCM monolithic chip capacitors are part of the Murata automotive rated capacitors. These ceramic capacitors offer excellent pulse responsibility and noise reduction due to their low impedance at high frequency.
Sandėlio informacija laikinai nepasiekiama.
Patikrinkite dar kartą.
€ 0,01
Each (On a Reel of 10000) (be PVM)
€ 0,012
Each (On a Reel of 10000) (su PVM)
10000
€ 0,01
Each (On a Reel of 10000) (be PVM)
€ 0,012
Each (On a Reel of 10000) (su PVM)
10000
Techniniai dokumentai
Specifikacijos
Markė
MurataCapacitance
22pF
Voltage
50V dc
Package/Case
0402 (1005M)
Tvirtinimo tipas
Surface Mount
Dielectric
C0G
Tolerancija
±5%
Matmenys
1 x 0.5 x 0.5mm
Ilgis
1mm
Gylis
0.5mm
Aukštis
0.5mm
Serija
GCM
Maksimali darbinė temperatūra
+125°C
Minimali darbinė temperatūra
-55°C
Terminal Type
Surface Mount
Kilmės šalis
Japan
Produkto aprašymas
Murata GCM Automotive 0402 Series
Murata GCM 0402 series ceramic capacitors are high dielectric in a small size with a high capacitance value. The Monolithic chip capacitors are available in COG temperature coefficients, have no polarity and offer a higher resistance of solder leaching thanks to the Ni – barriered termination.
The GCM monolithic chip capacitors are part of the Murata automotive rated capacitors. These ceramic capacitors offer excellent pulse responsibility and noise reduction due to their low impedance at high frequency.