Chip Multilayer Ceramic Capacitors for General 27/11/2017 by Murata Manufacturing Co.,Ltd.

More catalogs by Murata Manufacturing Co.,Ltd. | Chip Multilayer Ceramic Capacitors for General 27/11/2017 | 296 pages | 2018-02-03

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Page 238 of Chip Multilayer Ceramic Capacitors for General 27/11/2017

c02e.pdf !note • please read rating and !caution for storage operating rating soldering mounting and handling in this catalog to prevent smoking and/or burning etc nfm series this is the most suitable low esl capacitors for noise measurement and power decoupling of highspeed electrical devices gr4 features 1 low esl since the equivalent series inductance esl is low and excellent in high frequency characteristics this capacitor is suitable for power supply decoupling of high-speed operation electronic equipment gqm gjm gr7 web realizes ultra low esl by using a extremely shorter high frequency current path • 2-terminal capacitor hot ga2 current ga3 gb gnd g long current distance g narrow wiring width • 3-terminal capacitor ga3 gd n short current distance current hot n wide wiring width ga3 gf n four routes formed in parallel gnd 2 contributes to a reduction in the number of components the number of components can be reduced by using low esl capacitors while maintaining functions equivalent to 2-terminal capacitor before after application ic application ic llr llm lla lll nov.27,2017 3 terminals low esl chip multilayer ceramic capacitors for general purpose grj gr3 grm • this catalog has only typical specifications therefore please approve our product specifications or transact the approval sheet for product specifications before ordering !caution /notice gmd gma kr3 krm nfm reduction of 68 components 236 3 2-terminal capacitor 3-terminal capacitor 100pcs 32pcs contributes to noise suppression example of noise suppression effect web specifications size mm rated voltage capacitance main applications 1.0×0.5mm to 4.5×1.6mm 1 2.5vdc to 100vdc 100pf to 27µf for decoupling and smoothing circuits for noise suppression e 2 j 2 i l t 3 g w 1 3 2