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DRV2625 Datasheet, PDF (59/77 Pages) Texas Instruments – DRV2625 Ultra Low Power Closed-Loop LRA/ERM Haptic Driver with Built-In Library
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9 Application and Implementation
DRV2625
SLOS879A – DECEMBER 2015 – REVISED DECEMBER 2015
NOTE
Information in the following applications sections is not part of the TI component
specification, and TI does not warrant its accuracy or completeness. TI’s customers are
responsible for determining suitability of components for their purposes. Customers should
validate and test their design implementation to confirm system functionality.
9.1 Application Information
The typical application for a haptic driver is in a touch-enabled system that already has an application processor
which makes the decision on when to execute haptic effects.
The DRV2625 device can be used fully with I2C communications (either using RTP or the memory interface). A
system designer can chose to use external triggers to play low-latency effects (such as from a physical button).
Figure 88 and Figure 89 show typical haptic system implementations. The system designer should not use the
internal regulator (REG) to power any external load.
Application
Processor
SCL
SDA
GPIO
GPIO
R(PU) R(PU)
SCL
DRV2625
OUT+
REG
SDA
OUT±
NRST
TRIG/INTZ
VDD
GND
C(REG)
M
LRA or
ERM
2.7 V ± 5.5 V
C(VDD)
Figure 88. I2C Control with Optional External Trigger
COMPONENT
C(VDD)
C(REG)
R(PU)
Application
Processor
SCL
SDA
GPIO
GPIO
R(PU) R(PU) R(PU)
SCL
DRV2625
OUT+
REG
SDA
OUT±
NRST
TRIG/INTZ
VDD
GND
C(REG)
M
LRA or
ERM
2.7 V ± 5.5 V
C(VDD)
Figure 89. I2C Control with Optional Interrupt Pin
Table 50. Recommended External Components
DESCRIPTION
Input capacitor
Regulator capacitor
Pull-up resistor
SPECIFICATION
Capacitance
Capacitance
Resistance
TYPICAL VALUE
0.1 µF
0.1 µF
2.2 kΩ
Copyright © 2015, Texas Instruments Incorporated
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