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DRV10983-Q1 Datasheet, PDF (63/72 Pages) Texas Instruments – Automotive, Three-Phase, Sensorless BLDC Motor Driver
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DRV10983-Q1
SLVSD14 – JUNE 2017
10 Power Supply Recommendations
The DRV10983-Q1 device is designed to operate from an input voltage supply, VCC, in a range between 8 V and
28 V. The user must place a 10-µF ceramic capacitor rated for VCC as close as possible to the VCC and GND
pins.
If the power supply ripple is more than 200 mV, in addition to the local decoupling capacitors, a bulk capacitance
is required and must be sized according to the application requirements. If the bulk capacitance is implemented
in the application, the user can reduce the value of the local ceramic capacitor to 1 µF.
11 Layout
11.1 Layout Guidelines
• Place the VCC, GND, U, V, and W pins with thick traces because high current passes through these traces.
• Place the 10-µF capacitor between VCC and GND, and as close to the VCC and GND pins as possible.
• Place the capacitor between CPP and CPN, and as close to the CPP and CPN pins as possible.
• Connect the GND, PGND, and SWGND under the thermal pad.
• Keep the thermal pad connection as large as possible, on both the bottom side and top sides. It should be
one piece of copper without any gaps.
11.2 Layout Example
CVCC (10 µF)
CVCP (0.1 µF)
VCP
CCP (10 nF)
LSW_VREG (47 µH)
CVREG (10 µF)
CPP
CPN
SW
SWGND
VREG
CV1P8 (1 µF)
V1P8
GND
CV3P3 (1 µF)
V3P3
RSCL (4.75 kW)
SCL
RSDA (4.75 kW)
SDA
RFG (4.75 kW)
FG
VCC
VCC
W
W
V
V
U
U
PGND
PGND
DIR
SPEED
Figure 71. Layout Diagram
Copyright © 2017, Texas Instruments Incorporated
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