User Manual
Table Of Contents
- 1. Pin Descriptions
- 2. Typical Connection Diagram
- 3. Characteristic and Specifications
- Recommended Operating Conditions
- Absolute Maximum Ratings
- Analog Input Characteristics
- ADC Digital Filter Characteristics
- Analog Output Characteristics
- Analog Passthrough Characteristics
- PWM Output Characteristics
- Headphone Output Power Characteristics
- Line Output Voltage Level Characteristics
- Combined DAC Interpolation and onChip Analog FIlter Response
- Switching Specifications - Serial Port
- Switching Specifications - I²C Control Port
- DC Electrical Characteristics
- Digital Interface Specifications and Characteristics
- Power Consumption
- 4. Applications
- 4.1 Overview
- 4.2 Analog Inputs
- 4.3 Analog Outputs
- 4.4 Analog In to Analog Out Passthrough
- 4.5 PWM Outputs
- 4.6 Serial Port Clocking
- 4.7 Digital Interface Formats
- 4.8 Initialization
- 4.9 Recommended Power-up Sequence
- 4.10 Recommended Power-Down Sequence
- 4.11 Required Initialization Settings
- 4.12 Control Port Operation
- 5. Register Quick Reference
- 6. Register Description
- 6.1 Chip I.D. and Revision Register (Address 01h) (Read Only)
- 6.2 Power Control 1 (Address 02h)
- 6.3 Power Control 2 (Address 03h)
- 6.4 Power Control 3 (Address 04h)
- 6.5 Clocking Control (Address 05h)
- 6.6 Interface Control 1 (Address 06h)
- 6.7 Interface Control 2 (Address 07h)
- 6.8 Input x Select: ADCA and PGAA (Address 08h), ADCB and PGAB (Address 09h)
- 6.9 Analog and HPF Control (Address 0Ah)
- 6.10 ADC HPF Corner Frequency (Address 0Bh)
- 6.11 Misc. ADC Control (Address 0Ch)
- 6.12 Playback Control 1 (Address 0Dh)
- 6.13 Miscellaneous Controls (Address 0Eh)
- 6.14 Playback Control 2 (Address 0Fh)
- 6.15 MICx Amp Control:MIC A (Address 10h) and MIC B (Address 11h)
- 6.16 PGAx Vol. and ALCx Transition Ctl.: ALC, PGA A (Address 12h) and ALC, PGA B (Address 13h)
- 6.17 Passthrough x Volume: PASSAVOL (Address 14h) and PASSBVOL (Address 15h)
- 6.18 ADCx Volume Control: ADCAVOL (Address 16h) and ADCBVOL (Address 17h)
- 6.19 ADCx Mixer Volume: ADCA (Address 18h) and ADCB (Address 19h)
- 6.20 PCMx Mixer Volume: PCMA (Address 1Ah) and PCMB (Address 1Bh)
- 6.21 Beep Frequency and On Time (Address 1Ch)
- 6.22 Beep Volume and Off Time (Address 1Dh)
- 6.23 Beep and Tone Configuration (Address 1Eh)
- 6.24 Tone Control (Address 1Fh)
- 6.25 Master Volume Control: MSTA (Address 20h) and MSTB (Address 21h)
- 6.26 Headphone Volume Control: HPA (Address 22h) and HPB (Address 23h)
- 6.27 Speaker Volume Control: SPKA (Address 24h) and SPKB (Address 25h)
- 6.28 ADC and PCM Channel Mixer (Address 26h)
- 6.29 Limiter Control 1, Min/Max Thresholds (Address 27h)
- 6.30 Limiter Control 2, Release Rate (Address 28h)
- 6.31 Limiter Attack Rate (Address 29h)
- 6.32 ALC Enable and Attack Rate (Address 2Ah)
- 6.33 ALC Release Rate (Address 2Bh)
- 6.34 ALC Threshold (Address 2Ch)
- 6.35 Noise Gate Control (Address 2Dh)
- 6.36 Status (Address 2Eh) (Read Only)
- 6.37 Battery Compensation (Address 2Fh)
- 6.38 VP Battery Level (Address 30h) (Read Only)
- 6.39 Speaker Status (Address 31h) (Read Only)
- 6.40 Charge Pump Frequency (Address 34h)
- 7. Analog Performance Plots
- 8. Example System Clock Frequencies
- 9. PCB Layout Considerations
- 10. ADC and DAC Digital Filters
- 11. Parameter Definitions
- 12. Package Dimensions
- 13. Ordering Information
- 14. References
- 15. Revision History
DS680F2 17
CS42L52
3/1/13
PWM OUTPUT CHARACTERISTICS
Test conditions (unless otherwise specified): Input test signal is a full scale 997 Hz signal; MCLK = 12.2880 MHz; Measurement
Bandwidth is 20 Hz to 20 kHz; Sample Frequency = 48 kHz; Test load R
L
= 8 for stereo full-bridge, R
L
= 4 for mono parallel
full-bridge; VD = VL = VA = VHP = 1.8 V; PWM Modulation Index of 0.85; PWM Switch Rate = 384 kHz; “Required Initialization
Settings” on page 37 written on power up.
(Note 9)
Parameters (Note 10) Symbol Conditions Min Typ Max Units
VP = 5.0 V
Power Output per Channel P
O
Stereo Full-Bridge THD+N < 10%
THD+N < 1%
-
-
1.00
0.80
-
-
W
rms
W
rms
Mono Parallel Full-Bridge THD+N < 10%
THD+N < 1%
-
-
1.90
1.50
-
-
W
rms
W
rms
Total Harmonic Distortion + Noise THD+N
Stereo Full-Bridge P
O
= 0 dBFS = 0.8W - 0.52 - %
Mono Parallel Full-Bridge P
O
= -3 dBFS = 0.75 W
P
O
= 0 dBFS = 1.5 W
-
-
0.10
0.50
-
-
%
%
Dynamic Range DR
Stereo Full-Bridge P
O
= -60 dBFS, A-Weighted
P
O
= -60 dBFS, Unweighted
-
-
91
88
-
-
dB
dB
Mono Parallel Full-Bridge P
O
= -60 dBFS, A-Weighted
P
O
= -60 dBFS, Unweighted
-
-
91
88
-
-
dB
dB
VP = 3.7 V
Power Output per Channel P
O
Stereo Full-Bridge THD+N < 10%
THD+N < 1%
-
-
0.55
0.45
-
-
W
rms
W
rms
Mono Parallel Full-Bridge THD+N < 10%
THD+N < 1%
-
-
1.00
0.84
-
-
W
rms
W
rms
Total Harmonic Distortion + Noise THD+N
Stereo Full-Bridge P
O
= 0 dBFS = 0.43 W - 0.54 - %
Mono Parallel Full-Bridge P
O
= -3 dBFS = 0.41 W
P
O
= 0 dBFS = 0.81 W
-
-
0.09
0.45
-
-
%
%
Dynamic Range DR
Stereo Full-Bridge P
O
= -60 dBFS, A-Weighted
P
O
= -60 dBFS, Unweighted
-
-
91
88
-
-
dB
dB
Mono Parallel Full-Bridge P
O
= -60 dBFS, A-Weighted
P
O
= -60 dBFS, Unweighted
-
-
95
92
-
-
dB
dB
VP =2.5 V
Power Output per Channel P
O
Stereo Full-Bridge THD+N < 10%
THD+N < 1%
-
-
0.23
0.19
-
-
W
rms
W
rms
Mono Parallel Full-Bridge THD+N < 10%
THD+N < 1%
-
-
0.44
0.35
-
-
W
rms
W
rms
Total Harmonic Distortion + Noise THD+N
Stereo Full-Bridge P
O
= 0 dBFS = 0.18 W - 0.50 - %
Mono Parallel Full-Bridge P
O
= -3 dBFS = 0.17 W
P
O
= 0 dBFS = 0.35 W
-
-
0.08
0.43
-
-
%
%
Dynamic Range DR
Stereo Full-Bridge P
O
= -60 dBFS, A-Weighted
P
O
= -60 dBFS, Unweighted
-
-
91
88
-
-
dB
dB
Mono Parallel Full-Bridge P
O
= -60 dBFS, A-Weighted
P
O
= -60 dBFS, Unweighted
-
-
94
91
-
-
dB
dB
MOSFET On Resistance R
DS(ON)
VP = 5.0V, I
d
= 0.5 A - 600 - m