Texas Instruments DRV603EVM - DRV603 Evaluation Module DRV603EVM DRV603EVM Datenbogen
Produktcode
DRV603EVM
4
Component Selection
4.1
Charge Pump
4.2
Power-Supply Decoupling Capacitors
4.3
Using the DRV603 as a Differential Input, Second-Order, Low-Pass Filter
R
2
R
2
R
1
R
3
C
1
C
1
C
3
R
1
R
3
C
3
-
In
+In
C
2
DRV603
www.ti.com
Component Selection
The charge pump flying capacitor, C13, serves to transfer charge during the generation of the negative
supply voltage. The PVSS capacitor must be at least equal to the charge pump capacitor in order to allow
a maximum charge transfer. Low equivalent series resistance (ESR) capacitors are an ideal selection, with
a typical value of 1
supply voltage. The PVSS capacitor must be at least equal to the charge pump capacitor in order to allow
a maximum charge transfer. Low equivalent series resistance (ESR) capacitors are an ideal selection, with
a typical value of 1
µ
F. Capacitor values less than 1
µ
F can be used, but the maximum output can be
reduced. It is therefore recommended to validate the design with thorough testing.
The DRV603 is a DirectPath™ line driver amplifier that requires adequate power-supply decoupling to
ensure that noise and total harmonic distortion (THD) are low. A good low ESR ceramic capacitor, C12
(1
ensure that noise and total harmonic distortion (THD) are low. A good low ESR ceramic capacitor, C12
(1
µ
F typical), placed as close as possible to the device V
DD
leads is the best option. Placing this
decoupling capacitor close to the DRV603 device is important for amplifier performance. For filtering
lower-frequency noise signals, a 10-
lower-frequency noise signals, a 10-
µ
F or greater capacitor placed near the audio amplifier may also help,
but is not required in most applications because of the high PSRR of the DRV603.
The charge pump circuit does apply ripple current on the V
DD
line, and an LC or RC filter may be needed
if noise-sensitive audio devices share the V
DD
supply.
Several audio digital-to-audio converters (DACs) used in typical consumer applications require an external
low-pass filter to remove out-of-band noise. This function is also possible with the DRV603; the EVM is
configured as a 50-kHz, second-order active Butterworth filter to accomplish this filtering using an MFB
(Multiple Feed Back) topology with a differential input. Furthermore, the DRV603 requires an ac-coupling
capacitor to remove dc content from the source.
low-pass filter to remove out-of-band noise. This function is also possible with the DRV603; the EVM is
configured as a 50-kHz, second-order active Butterworth filter to accomplish this filtering using an MFB
(Multiple Feed Back) topology with a differential input. Furthermore, the DRV603 requires an ac-coupling
capacitor to remove dc content from the source.
The recommended component values can be calculated with the help of the TI
active filter design
program available at
on the TI web site.
illustrates the circuit design for this configuration.
Figure 3. Differential Input, Second-Order, Active Low-Pass Filter
SLOU252A – December 2008 – Revised January 2009
DRV603EVM
5