KEMET Ultra Stable X8R & X8L +150°C Ceramic Capacitors
KEMET Ultra Stable X8R and X8L +150°C Ceramic Capacitors are high-temperature surface mount capacitors that are ideal in harsh environments such as Down Hole (oil exploration), automotive (under the hood), and aerospace. The KEMET X8L capacitors are available in case sizes EIA 0402, 0603, 0805, 1206, and 1210 while providing greater protection and superior flex performance over standard termination systems. The Ultra Stable X8R +150°C Dielectric Capacitors exhibit no capacitance loss when DC voltage is applied and is available in case sizes EIA 0402, 0603, 0805, 1206, 1210, and 1812. Product applications include harsh environments such as Down Hole (Oil Exploration), Automotive (Under Hood), Military, and Aerospace.
Features
- -55°C to +150°C operating temperature range
- Lead-free and RoHS-compliant
- EIA 0402, 0603, 0805, 1206, and 1210 case sizes
- DC voltage ratings of 10V, 25V, and 50V
- .012µF to 10µF capacitance range
- ±5%, ±10%, and/or ±20% capacitance tolerances
- AEC-Q200 grades available
- Non-polar devices minimizes installation concerns
- 100% pure matte tin-plated termination finish allows for excellent solderability
- SnPb termination finish options available
- Flexible termination options are available
Applications
- Downhole (oil exploration)
- Automotive (under the hood)
- Military
- Aerospace
X8L Dielectric MLCCs
KEMET's X8L Dielectric MLCCs offer an operating temperature range from-55°C to +150°C with capacitance shift limited to ±15% from -55°C to+125°C and +15, -40% from +125°C to +150°C. View Datasheet
Ultra Stable X8R Dielectric MLCCs
KEMET's Ultra Stable X8R Dielectric MLCCs feature a +150°C maximum operating temperature, offer the latest in high-temperature dielectric technology, and are a reliable choice for extreme temperature applications. The X8R capacitors offer the same temperature capability as conventional X8R, but without the capacitance loss due to the applied DC voltage. Ultra Stable X8R exhibits no capacitance loss and is a suitable replacement for higher capacitance and larger footprint devices that fail to offer capacitance stability. View Datasheet
Additional Resource
Pubblicato: 2010-03-08
| Aggiornato: 2024-11-05