Texas Instruments DRV8662EVM - DRV8662 Evaluation Module DRV8662EVM DRV8662EVM Datenbogen
Produktcode
DRV8662EVM
V
= V
BOOST
FB
1 +
R
R
1
2
FB
DRV8662
VBST
R1
R2
R4
R5
Q1
GAIN1
GAIN0
General Operation
3. Verify the terminals are connected correctly, then enable the supply.
To disable the MSP430 (U2) and level-shifter (U4) remove resistor R22 to disconnect the 3.3 V LDO (U3).
NOTE:
The DRV8662 is capable of operating down to 3 V. To use the DRV8662EVM at a voltage
lower than 3.3 V, follow the instructions for using an external analog input source and
control.
control.
3.2
Boost Converter
The DRV8662 has a 100-V internal boost converter to drive up to 200 V differentially across the output.
Before connecting the load, ensure the piezo actuator (or other load) is rated for 200 V
Before connecting the load, ensure the piezo actuator (or other load) is rated for 200 V
peak-to-peak
. If the load
is rated for a lower voltage, see
for information about adjusting the maximum output voltage.
3.2.1
Programming the Boost Voltage
The boost output voltage (VBST) is programmed via two external resistors R1 and R2, as shown in
. In addition, the DRV8662EVM includes two additional resistors, R4 and R5, which allow the
MSP430 to digitally adjust VBST based on the gain settings. Refer to
for VBST at each gain
setting and the equivalent low-side resistance.
Figure 2. Boost Voltage Programming Resistors
NOTE: R4 and R5 should be removed if adjusting VBST using resistors R1 and R2.
lists typical boost voltage values for resistors R4 and R5.
Table 3. Boost Voltage with R4 and R5
V
FB
Low-Side
GAIN1
GAIN0
Resistance
VBST
0
0
35.7k
30
0
1
19.1k
54
1
0
12.8k
80
1
1
9.8k
105
With only resistors R1 and R2 present, the boost output voltage is given by
.
(1)
where V
FB
= 1.32 V.
5
SLOU319A – August 2011 – Revised December 2012
DRV8662 Piezo Haptics Driver Evaluation Module
Copyright © 2011–2012, Texas Instruments Incorporated