JAJSHI4 May 2019 DRV8340-Q1
PRODUCTION DATA.
Bypass the VM pin to the PGND pin using a low-ESR ceramic bypass capacitor CVM1. Place this capacitor as close to the VM pin as possible with a thick trace or ground plane connected to the PGND pin. Additionally, bypass the VM pin using a bulk capacitor rated for VM. This component can be electrolytic. This capacitance must be at least 10 µF.
Additional bulk capacitance is required to bypass the high current path on the external MOSFETs. This bulk capacitance should be placed such that it minimizes the length of any high current paths through the external MOSFETs. The connecting metal traces should be as wide as possible, with numerous vias connecting PCB layers. These practices minimize inductance and let the bulk capacitor deliver high current.
Place a low-ESR ceramic capacitor CFLY between the CPL and CPH pins. Additionally, place a low-ESR ceramic capacitor CVCP between the VCP and VM pins.
Bypass the DVDD pin to the AGND pin with CDVDD. Place this capacitor as close to the pin as possible and minimize the path from the capacitor to the AGND pin.
The VDRAIN pin can be shorted directly to the VM pin. However, if a significant distance is between the device and the external MOSFETs, use a dedicated trace to connect to the common point of the drains of the high-side external MOSFETs. Do not connect the SLx pins directly to PGND. Instead, use dedicated traces to connect these pins to the sources of the low-side external MOSFETs. These recommendations offer more accurate VDS sensing of the external MOSFETs for overcurrent detection.
Minimize the loop length for the high-side and low-side gate drivers. The high-side loop is from the GHx pin of the device to the high-side power MOSFET gate, then follows the high-side MOSFET source back to the SHx pin. The low-side loop is from the GLx pin of the device to the low-side power MOSFET gate, then follows the low-side MOSFET source back to the PGND pin.