ZHCSE78A December 2011 – September 2015 TLV320AIC3262
PRODUCTION DATA.
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.
These typical connection diagrams highlight the required external components and system level connections for proper operation of the device in several popular use cases.
Each of these configurations can be realized using the Evaluation Modules (EVMs) for the device. These flexible modules allow full evaluation of the device in all available modes of operation. Additionally, some of the application circuits are available as reference designs and can be found on the TI website. Also see the TLV320AIC3262 product page for information on ordering the EVM. Not all configurations are available as reference designs; however, any design variation can be supported by TI through schematic and layout reviews. Visit www.support.ti.com for additional design assistance. Also, join the audio converters discussion forum at http://e2e.ti.com.
Figure 33 shows a typical circuit configuration for a system utilizing TLV320AIC3262. Note that while this circuit configuration shows all three Audio Serial Interfaces connected to a single Host Processor, it is also quite common for these Audio Serial Interfaces to connect to separate devices (for example Host Processor on Audio Serial Interface number 1, and modems and/or Bluetooth devices on the other audio serial interfaces).
This section gives the power-consumption values for various PowerTune modes. All measurements were taken with the PLL turned off and the ADC configured for single-ended input.
DEVICE COMMON MODE SETTING = 0.75 V | DEVICE COMMON MODE SETTING = 0.9 V | UNIT | |||||||
---|---|---|---|---|---|---|---|---|---|
PTM_R1 | PTM_R2 | PTM_R3 | PTM_R4 | PTM_R1 | PTM_R2 | PTM_R3 | PTM_R4 | ||
0-dB full-scale | X | 375 | 375 | 375 | X | 500 | 500 | 500 | mVRMS |
Maximum allowed input level w.r.t. 0 dB full scale | X | –12 | 0 | 0 | X | –12 | 0 | 0 | dB full scale |
Effective SNR w.r.t. maximum allowed input level | X | 78.2 | 91.2 | 91 | X | 79.5 | 93.1 | 93 | dB |
Power consumption | X | 12.3 | 14.6 | 18.8 | X | 12.3 | 14.6 | 18.8 | mW |
PROCESSING BLOCK | FILTER | ESTIMATED POWER CHANGE (mW) |
---|---|---|
PRB_R2 | A | +1.2 |
PRB_R3 | A | +0.8 |
PTM_R1 CM = 0.75 V AVdd = 1.5 V |
PTM_R3 CM = 0.9 V AVdd = 1.8 V |
UNIT | |
---|---|---|---|
0-dB full-scale | 375 | 500 | mVRMS |
Maximum allowed input level w.r.t. 0 dB full scale | –2 | 0 | dB full scale |
Effective SNR w.r.t. maximum allowed input level | 85.9 | 90.8 | dB |
Power consumption | 5.6 | 9.5 | mW |
PROCESSING BLOCK | FILTER | ESTIMATED POWER CHANGE (mW) |
---|---|---|
PRB_R8 | B | +0.4 |
PRB_R9 | B | +0.2 |
PRB_R1 | A | +1.2 |
PRB_R2 | A | +1.8 |
PRB_R3 | A | +1.6 |
DEVICE COMMON MODE SETTING = 0.75 V | DEVICE COMMON MODE SETTING = 0.9 V | UNIT | ||||||||
---|---|---|---|---|---|---|---|---|---|---|
PTM_P1 | PTM_P2 | PTM_P3 | PTM_P4 | PTM_P1 | PTM_P2 | PTM_P3 | PTM_P4 | |||
0-dB full-scale | 75 | 225 | 375 | 375 | 100 | 300 | 500 | 500 | mVRMS | |
Lineout | Effective SNR w.r.t. 0 dB full scale | 89.5 | 96.3 | 99.3 | 99.2 | 91.7 | 98.4 | 101.2 | 101.2 | dB |
Power consumption | 11.3 | 11.9 | 12.4 | 12.4 | 11.5 | 12.2 | 12.9 | 12.9 | mW |
PROCESSING BLOCK | FILTER | ESTIMATED POWER CHANGE (mW) |
---|---|---|
PRB_P1 | A | –0.1 |
PRB_P2 | A | +2.6 |
PRB_P3 | A | +1.1 |
PRB_P7 | B | –2.8 |
PRB_P9 | B | –1.7 |
PRB_P10 | B | +0.6 |
PRB_P11 | B | –1.2 |
PRB_P23 | A | –0.1 |
PRB_P24 | A | +2.8 |
PRB_P25 | A | +3.6 |
CM = 0.75 V AVdd = 1.5 V PRB_P26 PTM_P1 |
CM = 0.9 V AVdd = 1.8 V PRB_P26 PTM_P1 |
CM = 0.75 V AVdd = 1.5 V PRB_P7 PTM_P4 |
UNIT | ||
---|---|---|---|---|---|
0-dB full-scale | 75 | 100 | 375 | mVRMS | |
Lineout | Effective SNR w.r.t. 0-dB full-scale | 88.6 | 90.7 | 99.2 | dB |
Power consumption | 2.7 | 3.3 | 5.2 | mW |
PROCESSING BLOCK | FILTER | ESTIMATED POWER CHANGE (mW)(1) |
---|---|---|
PRB_P1 | A | +3.1 |
PRB_P2 | A | +4.4 |
PRB_P3 | A | +3.6 |
PRB_P7 | B | +1.7 |
PRB_P9 | B | +2.3 |
PRB_P10 | B | +3.4 |
PRB_P11 | B | +2.5 |
PRB_P23 | A | +3.1 |
PRB_P24 | A | +4.5 |
PRB_P25 | A | +4.8 |
For more possible configurations and measurements, please consult the TLV320AIC3262 Applications Reference Guide, SLAU309.
For more detailed information see the TLV320AIC3262 Applications Reference Guide, SLAU309.
The TLV320AIC3262 features a built-in charge-pump to generate a negative supply rail, VNEG from CPVDD_18. The negative voltage is used by the headphone amplifier to enable driving the output signal biased around ground potential. For proper operation of the charge pump and headphone amplifier, TI recommends that the flying capacitor connected between CPFCP and CPFCM pins and the holding capacitor connected between VNEG and ground be of X7R type. TI recommends to use 2.2 μF as capacitor value. Failure to use X7R type capacitor can result in degraded performance of charge pump and headphone amplifier.
The TLV320AIC3262 has a built-in bandgap used to generate reference voltages and currents for the device. To achieve high SNR, the reference voltage on VREF_AUDIO should be filtered using a 10-μF capacitor from VREF_AUDIO pin to ground.
TLV320AIC3262 has a built-in bias voltage output for biasing of microphones. No intentional capacitors should be connected directly to the MICBIAS output for filtering