Murata's KRM series MLCCs have a unique external metal terminal design that reduces problems associated with mounting larger size MLCCs, including acoustic noise production and cracks caused by flexing the PCB. The construction of this series also allows two capacitors to be mounted on top of each other, doubling the effective capacitance to achieve very high capacitance values inside small footprints. Additionally the KRM series outperforms traditional MLCCs in heat shock cycle tests.
With a traditionally mounted capacitor, a PCB is subject to bending forces causing mechanical stress in the capacitor and solder joints which leads to cracking. Also, when subject to AC voltages, ceramic capacitors can change their shape and exert a cyclic bending force on the PCB which causes acoustic noise. The KRM series features ferric alloy terminals that lift the body of the capacitor up to 1 mm above the surface of the PCB when mounted, helping ensure that bending forces are not transmitted between the PCB and the capacitor and vice versa, avoiding the problems described above. In tests, a KRM series capacitor was mounted on a PCB and subjected to DC 20 V, AC 1 VP-P. It produced 20 dB of acoustic noise compared to the 55 dB produced by an identical MLCC that did not have the metal terminals and was mounted directly onto the PCB. The KRM series capacitor was also subjected to up to 6 mm of PCB flexure without any cracks appearing, while the traditional MLCC had cracked before 3 mm of flexure was reached. In heat shock cycle tests, the KRM series again outperformed the traditional MLCCs after 2000 cycles of -55°C/+125°C, 5 minutes, with no visible cracking or deformation of the capacitor or the solder joints.