KEMET’s C0G dielectric features a 125°C maximum operating temperature, is considered “;stable″, is Temperature compensating and suited for resonant Circuit applications or those where Q and stabili...
KEMET’s C0G dielectric features a 125°C maximum operating temperature, is considered “;stable″, is Temperature compensating and suited for resonant Circuit applications or those where Q and stabili...
KEMET’s C0G dielectric features a 125°C maximum operating temperature, is considered “;stable″, is Temperature compensating and suited for resonant Circuit applications or those where Q and stabili...
KEMET’s C0G dielectric features a 125°C maximum operating temperature, is considered “;stable″, is Temperature compensating and suited for resonant Circuit applications or those where Q and stabili...
KEMET’s C0G dielectric features a 125°C maximum operating temperature, is considered “;stable″, is Temperature compensating and suited for resonant Circuit applications or those where Q and stabili...
KEMET’s C0G dielectric features a 125°C maximum operating temperature. C0G exhibits no Change in capacitance with respect to time and voltage and Boasts a negligible change in capacitance with refe...
KEMET’s C0G dielectric features a 125°C maximum operating temperature. C0G exhibits no Change in capacitance with respect to time and voltage and Boasts a negligible change in capacitance with refe...
KEMET’s C0G dielectric features a 125°C maximum operating temperature and is considered stable. The Electronics Components, Assemblies & Materials Association (EIA) characterizes C0G dielectric as ...
C Series. Surface Mount Multilayer Ceramic Chip Capacitors, 6.3 – 250 VDC (Commercial Grade). Temperature stable within the range -55°C to +125°C Wide range of case sizes, voltage ratings and capac...
KEMET’s C0G dielectric features a 125°C maximum operating temperature, is considered “;stable″, is Temperature compensating and suited for resonant Circuit applications or those where Q and stabili...
KEMET’s C0G dielectric features a 125°C maximum operating temperature and is considered “;stable.”; The Electronics Components, Assemblies & Materials Association (EIA) characterizes C0G dielectric...
The KEMET C0G dielectric surface mount multilayer ceramic chip capacitor having voltage range of 25VDC. It is non-polar device which minimizing installation concerns. It has negligible capacitance ...
KEMET’s surface mount capacitors in C0G dielectric are suited for a variety of Applications requiring proven, reliable performance in harsh environments. Whether under-hood or in-cabin, These devic...
KEMET’s C0G dielectric features a 125°C maximum operating temperature and is considered stable. The Electronics Components, Assemblies & Materials Association (EIA) characterizes C0G dielectric as ...
C Series. Surface Mount Multilayer Ceramic Chip Capacitors, 6.3 – 250 VDC (Commercial Grade). Temperature stable within the range -55°C to +125°C Wide range of case sizes, voltage ratings and capac...
KEMET’s C0G dielectric features a 125°C maximum operating temperature, is considered “;stable″, is Temperature compensating and suited for resonant Circuit applications or those where Q and stabili...
The KEMET C0G dielectric surface mount multilayer ceramic chip capacitor having voltage range of 100VDC. It is non-polar device which minimizing installation concerns. It has negligible capacitance...
C Series. Surface Mount Multilayer Ceramic Chip Capacitors, 6.3 – 250 VDC (Commercial Grade). Temperature stable within the range -55°C to +125°C Wide range of case sizes, voltage ratings and capac...
C Series. Surface Mount Multilayer Ceramic Chip Capacitors, 6.3 – 250 VDC (Commercial Grade). Temperature stable within the range -55°C to +125°C Wide range of case sizes, voltage ratings and capac...
KEMET’s C0G dielectric features a 125°C maximum operating temperature and is considered “;stable.”; The Electronics Components, Assemblies & Materials Association (EIA) characterizes C0G dielectric...
C Series. Surface Mount Multilayer Ceramic Chip Capacitors, 6.3 – 250 VDC (Commercial Grade). Temperature stable within the range -55°C to +125°C Wide range of case sizes, voltage ratings and capac...
KEMET’s C0G dielectric features a 125°C maximum operating temperature and is considered “;stable.”; The Electronics Components, Assemblies & Materials Association (EIA) characterizes C0G dielectric...
The KEMET X7R dielectric surface mount multilayer ceramic chip capacitor having voltage range of 25VDC. It is non-polar device which minimizing installation concerns. It has negligible capacitance ...
The KEMET Automotive Grade Surface Mount Capacitors in X7R dielectric are suited for a variety of applications requiring proven, reliable performance in harsh environments. Whether underhood or in-...
KEMET’s X7R dielectric features a 125°C maximum operating temperature and is considered “;temperature stable.”; X7R exhibits a predictable change in capacitance with respect to time and voltage and...
C Series. Surface Mount Multilayer Ceramic Chip Capacitors, 6.3 – 250 VDC (Commercial Grade). Temperature stable within the range -55°C to +125°C Wide range of case sizes, voltage ratings and capac...
The Kemet Electronics Ceramic Capacitor 0402 with 1nF and 50VDC X8GHigh Ripple Current Capability, Matte Tin-plated Termination, High Thermal Stability, Flexible Termination.
KEMET’s C0G dielectric features a 125°C maximum operating temperature and is considered “;stable.”; The Electronics Components, Assemblies & Materials Association (EIA) characterizes C0G dielectric...
C Series. Surface Mount Multilayer Ceramic Chip Capacitors, 6.3 – 250 VDC (Commercial Grade). Temperature stable within the range -55°C to +125°C Wide range of case sizes, voltage ratings and capac...
The KEMET X7R dielectric surface mount multilayer ceramic chip capacitor having voltage range of 50VDC. It is non-polar device which minimizing installation concerns. It has negligible capacitance ...
KEMET’s X7R dielectric features a 125°C maximum operating temperature and is considered “;temperature stable.”; X7R exhibits a predictable change in capacitance with respect to time and voltage and...