2 analog inputs, Figure 5. analog input signal flow, Referenced control register location – Cirrus Logic CS42L52 User Manual

Page 25

DS680F2

CS42L52

3/1/13

4.2

Analog Inputs

Referenced Control

Register Location

Analog Front End
PDN_PGAx .........................
PGAxVOL[5:0].....................
ADCB=A ..............................
ANLGSFTx ..........................
ANLGZCx ............................
ADCxSEL[2:0] .....................
PGAxSEL5,4,3,2,1 ..............
BIASLVL[2:0] .......................
PDN_BIAS...........................
PDN_ADCx .........................
PDN_CHRG ........................
INV_ADCx ...........................
HPFRZx...............................
HPFx ...................................
HPFx_CF[1:0]......................
ADCxOVFL..........................
Digital Volume
ADCxMUTE.........................
ADCxVOL............................
ALCx....................................
ALCxSRDIS.........................
ALCxZCDIS.........................
ALCARATE[5:0]...................
ALCRRATE[5:0] ..................
MAX[2:0]..............................
MIN[2:0]...............................
NGALL.................................
NG .......................................
THRESH[3:0].......................
NGDELAY[1:0] ....................
Miscellaneous
DIGSUM[1:0] .......................
DIGMUX ..............................

“Power Down PGAx” on page 42
“PGAx Volume” on page 56
“Analog Front-End Volume Setting B=A” on page 50
“Ch. x Analog Soft Ramp” on page 49
“Ch. x Analog Zero Cross” on page 49
“ADC Input Select” on page 48
“PGA Input Mapping” on page 49
“MIC Bias Level” on page 48
“Power Down MIC Bias” on page 43
“Power Down ADCx” on page 43
“Power Down ADC Charge Pump” on page 42
“Invert ADC Signal Polarity” on page 51
“ADCx High-Pass Filter Freeze” on page 49
“ADCx High-Pass Filter” on page 49
“HPF x Corner Frequency” on page 50
“ADCx Overflow (Read Only)” on page 71

“ADC Mute” on page 51
“ADCx Volume” on page 57
“ALCx Enable” on page 67
“ALCx Soft Ramp Disable” on page 55
“ALCx Zero Cross Disable” on page 56
“ALC Attack Rate” on page 67
“ALC Release Rate” on page 68
“ALC Maximum Threshold” on page 68
“ALC Minimum Threshold” on page 69
“Noise Gate All Channels” on page 69
“Noise Gate Enable” on page 69
“Noise Gate Threshold and Boost” on page 70
“Noise Gate Delay Timing” on page 70

“Digital Sum” on page 50
“Digital MUX” on page 50

AIN4A/ M IC1+/
M IC2A

Gain Adjust

ALC

PDN_PGAA
PGAAVOL[5:0]
ADCB=A
ANLGSFTA
ANLGZCA

HPFRZA
HPFA
HPFA_CF[1:0]

PD N_ADCA
INV_ADCA
PD N_CHRG

ALCB
ALCBSRDIS
ALCBZC DIS

MICBIAS

BIASLVL[2:0]
PDN_BIAS

l In

TO DSP Engine

ALCARATE[5:0]
ALC RRATE[5:0]

MAX[2:0]

M IN[2:0]

ALCA
ALCASRDIS
ALCAZC DIS

AIN1A

AIN2A

= PGAASEL[5:1]

ADC

PDN_PGAB
PGABVOL[5:0]
ADCB=A
ANLGSFTB
ANLGZCB

ADCBM UTE
DIGSFT
DIGZC
ADCBVOL[7:0]
+24/-96dB
1dB steps

HPFRZB
HPB
HPFB_CF[1:0]

PDN_ADCB
INV_AD CB
PDN_CH RG

Noise Gate

N GALL
N G
THRESH[3:0]
N GDELAY[1:0]

Gain Adjust

FROM DSP ENGINE

DIGM IX

AIN3A/M IC1-/
MIC1A

AIN4B/ M IC2+/
MIC2B

AIN1B

AIN2B

AIN3B/M IC2-/
MIC1B

ANALOG PASS TH RU TO
HEADPHONE AM PLIFIER M UX

Swap/

M ix

DIGSUM [1:0]

ADCAMU TE
DIGSFT
DIGZC
ADCAVOL[7:0]
+24/-96dB
1dB steps

Refer to

“M IC Inputs”

ADC



ADCASEL[2:0]

ADCBSEL[2:0]

= PGABSEL[5:1]

Refer to

“M IC Inputs”



Figure 5. Analog Input Signal Flow