Document Outline

CS4391
- Features
- Description
- TABLE OF CONTENTS
- LIST OF TABLES
- LIST OF FIGURES
- 1. CHARACTERISTICS/SPECIFICATIONS
  - ANALOG CHARACTERISTICS
  - DIGITAL CHARACTERISTICS
  - ABSOLUTE MAXIMUM RATINGS
  - RECOMMENDED OPERATING CONDITIONS
  - SWITCHING CHARACTERISTICS - PCM MODES
    - Figure 1. Serial Mode Input Timing
  - SWITCHING CHARACTERISTICS - DSD
    - Figure 2. Direct Stream Digital - Serial Audio Input Timing
  - SWITCHING CHARACTERISTICS - I 2 C CONTROL PORT
    - Figure 3. I 2 C Control Port Timing
  - SWITCHING CHARACTERISTICS - SPI CONTROL PORT
    - Figure 4. SPI Control Port Timing
- 2. TYPICAL CONNECTION DIAGRAMS
  - Figure 5. Typical Connection Diagram - PCM Mode
  - Figure 6. Typical Connection Diagram - DSD Mode
- 3. REGISTER QUICK REFERENCE
  - 3.1 MODE CONTROL 1 (ADDRESS 01H)
  - 3.2 VOLUME AND MIXING CONTROL (ADDRESS 02H)
  - 3.3 CHANNEL A VOLUME CONTROL (ADDRESS 03H)
  - 3.4 CHANNEL B VOLUME CONTROL (ADDRESS 04H)
  - 3.5 MODE CONTROL 2 (ADDRESS 05H)
- 4. REGISTER DESCRIPTION
  - 4.1 MODE CONTROL 1 - ADDRESS 01H
    - 4.1.1 Auto-Mute (Bit 7)
    - 4.1.2 Digital Interface Formats (Bits 6:4)
    - 4.1.3 De-Emphasis Control (Bits 3:2)
    - 4.1.4 Functional Mode (Bits 1:0)
  - 4.2 VOLUME AND MIXING CONTROL (ADDRESS 02H)
    - 4.2.1 Channel A Volume = Channel B Volume (Bit 7)
    - 4.2.2 Soft Ramp or Zero Cross Enable (Bits 6:5)
    - 4.2.3 ATAPI Channel Mixing and Muting (Bits 4:0)
  - 4.3 CHANNEL A VOLUME CONTROL - ADDRESS 03H
  - 4.4 CHANNEL B VOLUME CONTROL - ADDRESS 04H
    - 4.4.1 Mute (Bit 7)
    - 4.4.2 Volume Control (Bits 6:0)
  - 4.5 MODE CONTROL 2 - ADDRESS 05H
    - 4.5.1 Invert Signal Polarity (Bits 7:6)
    - 4.5.2 Control Port Enable (Bit 5)
    - 4.5.3 Power Down (Bit 4)
    - 4.5.4 AMUTEC = BMUTEC (Bit 3)
    - 4.5.5 Freeze (Bit 2)
    - 4.5.6 Master Clock Divide (Bit 1)
- 5. PIN DESCRIPTION - PCM DATA MODE
  - Reset - RST
  - Interface Power - VL
  - Serial Audio Data - SDATA
  - Serial Clock - SCLK
  - Left / Right Clock - LRCK
  - Master Clock - MCLK
  - Mode Select - M3, M2, M1 and M0 (Stand-alone Mode)
  - Mode Select - M3 (Control Port Mode)
  - Serial Control Interface Clock - SCL/CCLK (Control Port Mode)
  - Serial Control Data I/O - SDA/CDIN (Control Port Mode)
  - Address Bit / Chip Select - AD0 / CS (Control Port Mode)
  - Positive Voltage Reference - FILT+
  - Common Mode Voltage - CMOUT
  - Channel A and Channel B Mute Control - AMUTEC and BMUTEC
  - Differential Analog Output - AOUTB+, AOUTB- and AOUTA+, AOUTA-
  - Analog Ground - AGND
  - Analog Power - VA
- 6. PIN DESCRIPTION - DSD MODE
  - DSD Audio Data - DSD_A and DSD_B
  - DSD Mode - DSD_Mode
  - Master Clock - MCLK
  - DSD Serial Clock - DSD_SCLK
  - Table 1. Digital Interface Formats - PCM Modes
  - Table 2. Digital Interface Formats - DSD Mode
  - Table 3. De-Emphasis Mode Selection
  - Table 4. Functional Mode Selection
  - Table 5. Soft Cross or Zero Cross Mode Selection
  - Table 6. ATAPI Decode
  - Table 7. Digital Volume Control
  - Table 8. Single Speed (4 to 50 kHz sample rates) Common Clock Frequencies
  - Table 9. Double Speed (50 to 100 kHz sample rates) Common Clock Frequencies
  - Table 10. Quad Speed (100 to 200 kHz sample rates) Common Clock Frequencies
  - Table 11. Single Speed (4 to 50 kHz) Digital Interface Format, Stand-Alone Mode Options
  - Table 12. Single Speed Only (4 to 50 kHz) De-Emphasis, Stand-Alone Mode Options
  - Table 13. Double Speed (50 to 100 kHz) Digital Interface Format, Stand-Alone Mode Options
  - Table 14. Quad Speed (100 to 200 kHz) Digital Interface Format, Stand-Alone Mode Options
  - Table 15. Direct Stream Digital (DSD), Stand-Alone Mode Options
  - Figure 6. Format 0, Left Justified up to 24-Bit Data
  - Figure 7. Format 1, I 2 S up to 24-Bit Data
  - Figure 8. Format 2, Right Justified 16-Bit Data
  - Figure 9. Format 3, Right Justified 24-Bit Data
  - 32 clocks
  - 32 clocks Figure 11. Format 5, Right Justified 18-Bit Data. (Available in Control Port Mode only)
  - Figure 12. De-Emphasis Curve
  - Figure 13. ATAPI Block Diagram
- 7. APPLICATIONS
  - 7.1 Recommended Power-up Sequence for Hardware Mode
  - 7.2 Recommended Power-up Sequence and Access to Control Port Mode
  - 7.3 Analog Output and Filtering
  - Figure 14. CS4391 Output Filter
- 8. CONTROL PORT INTERFACE
  - 8.1 SPI Mode
  - 8.2 I 2 C Mode
  - Table 16. Memory Address Pointer (MAP)
  - Figure 15. Control Port Timing, SPI mode
  - Figure 16. Control Port Timing, I 2 C Mode
  - Figure 17. Single-Speed Frequency Response
  - Figure 18. Single-Speed Transition Band
  - Figure 19. Single-Speed Transition Band
  - Figure 20. Single-Speed Stopband Rejection
  - Figure 21. Double-Speed Frequency Response
  - Figure 22. Double-Speed Transition Band
  - Figure 23. Double-Speed Transition Band
  - Figure 24. Double-Speed Stopband Rejection
- 9. PARAMETER DEFINITIONS
  - Total Harmonic Distortion + Noise (THD+N)
  - Dynamic Range
  - Interchannel Isolation
  - Interchannel Gain Mismatch
  - Gain Error
  - Gain Drift
- 10. REFERENCES
- 11. PACKAGE DIMENSIONS
  - 20L TSSOP (4.4 mm BODY) PACKAGE DRAWING

Preliminary Product Information

This document contains information for a new product.
Cirrus Logic reserves the right to modify this product without notice.

Cirrus Logic, Inc. 2000

P.O. Box 17847, Austin, Texas 78760
(512) 445 7222 FAX: (512) 445 7581
http://www.cirrus.com

CS4391

24-Bit, 192 kHz Stereo DAC with Volume Control

Features

Complete Stereo DAC System: Interpolation,
D/A, Output Analog Filtering

108 dB Dynamic Range

94 dB THD+N

Direct Stream Digital Mode

Low Clock Jitter Sensitivity

+5 V to +3 V Power Supply

ATAPI Mixing

On-Chip Digital De-emphasis for 32, 44.1,
and 48 kHz

Volume Control with Soft Ramp

119 dB Attenuation
1 dB Step Size
Zero Crossing Click-Free Transitions

36 mW with 3 V supply

Direct Interface with 5 V to 1.8 V Logic

Description

The CS4391 is a complete stereo digital-to-analog sys-
tem including digital interpolation, fourth-order delta-
sigma digital-to-analog conversion, digital de-emphasis,
volume control, channel mixing and analog filtering. The
advantages of this architecture include: ideal differential
linearity, no distortion mechanisms due to resistor
matching errors, no linearity drift over time and tempera-
ture and a high tolerance to clock jitter.

The CS4391 accepts PCM data at sample rates from
2 kHz to 192 kHz, DSD audio data, consumes very little
power and operates over a wide power supply range.
These features are ideal for DVD, A/V receivers, CD and
set-top box systems.

ORDERING INFORMATION

CS4391-KZ

20-pin TSSOP -10 to 70 °C

CDB4391

Evaluation Board

LRCK

SDATA

(SDA/CDIN)

MCLK

AMUTEC

AOUTA-

AOUTB-

SERIAL

PORT

INTERPOLATION

INTERPOLATOR

(CONTROL PORT)

DAC

EXTERNAL

ANALOG

FILTER

ANALOG

FILTER

MUTE CONTROL

FILTER

RST

SCLK

VOLUME

CONTROL

VOLUME

CONTROL

MIXER

(SCL/CCLK)

(AD0/CS)

AOUTA+

AOUTB+

CMOUT

REFERENCE

FILT+

BMUTEC

MODE SELECT

APR `00

DS335PP3

CS4391

DS335PP3

TABLE OF CONTENTS

1. CHARACTERISTICS/SPECIFICATIONS .......................................................................... 5

ANALOG CHARACTERISTICS...................................................................................... 5
DIGITAL CHARACTERISTICS....................................................................................... 7
ABSOLUTE MAXIMUM RATINGS ................................................................................. 7
RECOMMENDED OPERATING CONDITIONS............................................................. 7
SWITCHING CHARACTERISTICS - PCM MODES....................................................... 8
SWITCHING CHARACTERISTICS - DSD ..................................................................... 9
SWITCHING CHARACTERISTICS - I

C CONTROL PORT ........................................ 10

SWITCHING CHARACTERISTICS - SPI CONTROL PORT ....................................... 11

2. TYPICAL CONNECTION DIAGRAMS ............................................................................ 12
3. REGISTER QUICK REFERENCE ................................................................................... 14

3.1 Mode Control 1 (address 01h)................................................................................ 14
3.2 Volume and Mixing Control (address 02h) ............................................................. 15
3.3 Channel A Volume Control (address 03h).............................................................. 15
3.4 Channel B Volume Control (address 04h).............................................................. 15
3.5 Mode Control 2 (address 05h)................................................................................ 16

4. REGISTER DESCRIPTION ............................................................................................. 17

4.1 Mode Control 1 - Address 01h................................................................................ 17

4.1.1 Auto-Mute (Bit 7) .............................................................................17
4.1.2 Digital Interface Formats (Bits 6:4) ..................................................17
4.1.3 De-Emphasis Control (Bits 3:2) .......................................................17
4.1.4 Functional Mode (Bits 1:0) ..............................................................17

4.2 Volume and Mixing Control (Address 02h)............................................................. 18

4.2.1 Channel A Volume = Channel B Volume (Bit 7) ..............................18
4.2.2 Soft Ramp or Zero Cross Enable (Bits 6:5) .....................................18
4.2.3 ATAPI Channel Mixing and Muting (Bits 4:0) ..................................18

4.3 Channel A Volume Control - Address 03h.............................................................. 18
4.4 Channel B Volume Control - Address 04h.............................................................. 19

4.4.1 Mute (Bit 7) ......................................................................................19
4.4.2 Volume Control (Bits 6:0) ................................................................19

4.5 Mode Control 2 - Address 05h................................................................................ 19

4.5.1 Invert Signal Polarity (Bits 7:6) ........................................................19
4.5.2 Control Port Enable (Bit 5) ..............................................................19
4.5.3 Power Down (Bit 4) .........................................................................19
4.5.4 AMUTEC = BMUTEC (Bit 3) ...........................................................19
4.5.5 Freeze (Bit 2) ..................................................................................20
4.5.6 Master Clock Divide (Bit 1) ..............................................................20

5. PIN DESCRIPTION - PCM DATA MODE ........................................................................ 21

Reset - RST.................................................................................................................. 21
Interface Power - VL..................................................................................................... 21

Contacting Cirrus Logic Support
For a complete listing of Direct Sales, Distributor, and Sales Representative contacts, visit the Cirrus Logic web site at:
http://www.cirrus.com/corporate/contacts/

C is a registered trademark of Philips Semiconductors.

Preliminary product information describes products which are in production, but for which full characterization data is not yet available. Advance product infor-
mation describes products which are in development and subject to development changes. Cirrus Logic, Inc. has made best efforts to ensure that the information
contained in this document is accurate and reliable. However, the information is subject to change without notice and is provided "AS IS" without warranty of
any kind (express or implied). No responsibility is assumed by Cirrus Logic, Inc. for the use of this information, nor for infringements of patents or other rights
of third parties. This document is the property of Cirrus Logic, Inc. and implies no license under patents, copyrights, trademarks, or trade secrets. No part of
this publication may be copied, reproduced, stored in a retrieval system, or transmitted, in any form or by any means (electronic, mechanical, photographic, or
otherwise) without the prior written consent of Cirrus Logic, Inc. Items from any Cirrus Logic website or disk may be printed for use by the user. However, no
part of the printout or electronic files may be copied, reproduced, stored in a retrieval system, or transmitted, in any form or by any means (electronic, mechanical,
photographic, or otherwise) without the prior written consent of Cirrus Logic, Inc.Furthermore, no part of this publication may be used as a basis for manufacture
or sale of any items without the prior written consent of Cirrus Logic, Inc. The names of products of Cirrus Logic, Inc. or other vendors and suppliers appearing
in this document may be trademarks or service marks of their respective owners which may be registered in some jurisdictions. A list of Cirrus Logic, Inc. trade-
marks and service marks can be found at http://www.cirrus.com.

CS4391

DS335PP3

Serial Audio Data - SDATA ...........................................................................................21
Serial Clock - SCLK ......................................................................................................22
Left / Right Clock - LRCK ..............................................................................................22
Master Clock - MCLK ....................................................................................................22
Mode Select - M3, M2, M1 and M0 (Stand-alone Mode) .............................................22
Mode Select - M3 (Control Port Mode) ........................................................................22
Serial Control Interface Clock - SCL/CCLK (Control Port Mode) .................................23
Serial Control Data I/O - SDA/CDIN (Control Port Mode) .............................................23
Address Bit / Chip Select - AD0 / CS (Control Port Mode)...........................................23
Positive Voltage Reference - FILT+ ..............................................................................23
Common Mode Voltage - CMOUT ................................................................................23
Channel A and Channel B Mute Control - AMUTEC and BMUTEC .............................23
Differential Analog Output - AOUTB+, AOUTB- and AOUTA+, AOUTA-......................24
Analog Ground - AGND ................................................................................................24
Analog Power - VA ........................................................................................................24

6. PIN DESCRIPTION - DSD MODE ....................................................................................25

DSD Audio Data - DSD_A and DSD_B.........................................................................25
DSD Mode - DSD_Mode ...............................................................................................25
Master Clock - MCLK ....................................................................................................25
DSD Serial Clock - DSD_SCLK ...................................................................................25

7. APPLICATIONS .............................................................................................................. .32

7.1 Recommended Power-up Sequence for Hardware Mode ....................................32
7.2 Recommended Power-up Sequence and Access to Control Port Mode ..............32
7.3 Analog Output and Filtering ..................................................................................32

8. CONTROL PORT INTERFACE ........................................................................................33

8.1 SPI Mode ..............................................................................................................33
8.2 I2C Mode ..............................................................................................................33

9. PARAMETER DEFINITIONS ...........................................................................................37

Total Harmonic Distortion + Noise (THD+N) .................................................................37
Dynamic Range.............................................................................................................37
Interchannel Isolation ....................................................................................................37
Interchannel Gain Mismatch .........................................................................................37
Gain Error..................................................................................................................... .37
Gain Drift .......................................................................................................................37

10. REFERENCES ...............................................................................................................37
11. PACKAGE DIMENSIONS ...........................................................................................38

CS4391

DS335PP3

LIST OF TABLES

Figure:1. Digital Interface Formats - PCM Modes ....................................................................... 26
Figure:2. Digital Interface Formats - DSD Mode ......................................................................... 26
Figure:3. De-Emphasis Mode Selection ..................................................................................... 26
Figure:4. Functional Mode Selection ........................................................................................... 26
Figure:5. Soft Cross or Zero Cross Mode Selection ................................................................... 26
Figure:6. ATAPI Decode ............................................................................................................. 27
Figure:7. Digital Volume Control ................................................................................................. 27
Figure:8. Single Speed (4 to 50 kHz sample rates) Common Clock Frequencies ...................... 28
Figure:9. Double Speed (50 to 100 kHz sample rates) Common Clock Frequencies ................ 28
Figure:10. Quad Speed (100 to 200 kHz sample rates) Common Clock Frequencies .............. 28
Figure:11. Single Speed (4 to 50 kHz) Digital Interface Format, Stand-Alone Mode Options ..... 28
Figure:12. Single Speed Only (4 to 50 kHz) De-Emphasis, Stand-Alone Mode Options ............ 28
Figure:13. Double Speed (50 to 100 kHz) Digital Interface Format, Stand-Alone Mode Options 28
Figure:14. Quad Speed (100 to 200 kHz) Digital Interface Format, Stand-Alone Mode Options 29
Figure:15. Direct Stream Digital (DSD), Stand-Alone Mode Options .......................................... 29
Figure:16. Memory Address Pointer (MAP) ................................................................................ 34

LIST OF FIGURES

Figure 1. Serial Mode Input Timing ................................................................................................. 8
Figure 2. Direct Stream Digital - Serial Audio Input Timing ............................................................. 9
Figure 3. I

C Control Port Timing .................................................................................................. 10

Figure 4. SPI Control Port Timing ................................................................................................. 11
Figure 5. Typical Connection Diagram - PCM Mode ..................................................................... 12
Figure 6. Typical Connection Diagram - DSD Mode ..................................................................... 13
Figure 7. Format 0, Left Justified up to 24-Bit Data....................................................................... 30
Figure 8. Format 1, I2S up to 24-Bit Data ..................................................................................... 30
Figure 9. Format 2, Right Justified 16-Bit Data ............................................................................. 30
Figure 10. Format 3, Right Justified 24-Bit Data ........................................................................... 30
Figure 11. Format 4, Right Justified 20-Bit Data. (Available in Control Port Mode only).............. 31
Figure 12. Format 5, Right Justified 18-Bit Data. (Available in Control Port Mode only)............... 31
Figure 13. De-Emphasis Curve ..................................................................................................... 31
Figure 14. ATAPI Block Diagram .................................................................................................. 31
Figure 15. CS4391 Output Filter ................................................................................................... 32
Figure 16. Control Port Timing, SPI mode .................................................................................... 34
Figure 17. Control Port Timing, I

C Mode ..................................................................................... 34

Figure 18. Single-Speed Frequency Response ............................................................................ 35
Figure 19. Single-Speed Transition Band ..................................................................................... 35
Figure 20. Single-Speed Transition Band ..................................................................................... 35
Figure 21. Single-Speed Stopband Rejection ............................................................................... 35
Figure 22. Double-Speed Frequency Response ........................................................................... 35
Figure 23. Double-Speed Transition Band .................................................................................... 35
Figure 24. Double-Speed Transition Band .................................................................................... 36
Figure 25. Double-Speed Stopband Rejection.............................................................................. 36

CS4391

DS335PP3

CHARACTERISTICS/SPECIFICATIONS

ANALOG CHARACTERISTICS

= 25° C; Logic "1" = VL = VA; Logic "0" = AGND; Full-Scale Out-

put Sine Wave, 997 Hz; MCLK = 12.288 MHz; SCLK = 3.072 MHz, Sample Rate = 48, 96 or 192 kHz, 24-bit data,
Measurement Bandwidth 10 Hz to 20 kHz, unless otherwise specified. Test load R

= 5 k

, C

= 10 pF)

Parameter

VA = 3 V

VA = 5 V

Symbol

Min

Typ

Max

Min

Typ

Max

Unit

Dynamic Performance

Dynamic Range

(Note 17)

unweighted

A-Weighted

40 kHz Bandwidth

A-Weighted

100

102
105

-
-
-

100
103

105
108
102

-
-
-

dB
dB
dB

Total Harmonic Distortion + Noise

(Note 17,2)

0 dB

-20 dB

-60 dB

THD+N

-
-
-

-94
-82
-42

-89

-37

-
-
-

-94
-85
-45

-89

-40

dB
dB
dB

Idle Channel Noise / Signal-to-Noise Ratio

105

108

Interchannel Isolation

(1 kHz)

100

Power Supplies

Power Supply Current

normal operation

power-down state

+ I

-
-

12
30

TBD

-
-

17
60

TBD

Power Dissipation

normal operation

power-down

-
-

0.09

TBD

-
-

0.3

TBD

mW
mW

Power Supply Rejection Ratio (1 kHz) (Note 3)

(60 Hz)

PSRR

-
-

60
40

-
-

60
40

-
-

dB
dB

Parameter

Symbol

Min

Typ

Max

Units

Analog Output

Full Scale Differential Output Voltage

TBD

1.1VA

TBD

Vpp

Common Mode Voltage

CMOUT

0.5VA

VDC

Interchannel Gain Mismatch

0.1

Gain Drift

100

ppm/°C

AC-Load Resistance

Load Capacitance

100

CS4391

DS335PP3

ANALOG CHARACTERISTICS

(continued)

Notes: 17. Triangular PDF dithered data.

18. THD+N specifications for 48 kHz sample rates are made over a 20 kHz Bandwidth.

19. Valid with the recommended capacitor values on FILT+ and CMOUT as shown in Figure 1. Increasing

the capacitance will also increase the PSRR.

20. Response is clock dependent and will scale with Fs. Note that the response plots (Figures 17-24) have

been normalized to Fs and can be de-normalized by multiplying the X-axis scale by Fs.

21. For Single-Speed Mode, the Measurement Bandwidth is 0.5465 Fs to 3 Fs.

For Double-Speed Mode, the Measurement Bandwidth is 0.577 Fs to 1.4 Fs.

Parameter

Symbol

Min Typ

Max

Unit

Combined Digital and On-chip Analog Filter Response - Single Speed Mode

Passband

(Note 3)

to -0.05 dB corner

to -3 dB corner

0
0

-
-

.4535
.4998

Fs
Fs

Frequency Response 10 Hz to 20 kHz

-.02

+.035

StopBand

.5465

StopBand Attenuation

(Note 5)

Group Delay

tgd

9/Fs

Passband Group Delay Deviation

0 - 20 kHz

±0.36/Fs

De-emphasis Error

(Relative to 1 kHz)

Control Port Mode

Fs = 32 kHz

Fs = 44.1 kHz

Fs = 48 kHz

Stand-Alone Mode

Fs = 32 kHz

Fs = 44.1 kHz

Fs = 48 kHz

-
-
-
-
-
-

+.2/-.1

+.05/-.14

+0/.22

TBD

+.05/-.14

TBD

dB
dB
dB
dB
dB
dB

Combined Digital and On-chip Analog Filter Response - Double Speed Mode

Passband

(Note 4)

to -0.1 dB corner

to -3 dB corner

0
0

-
-

.4621
.4982

Fs
Fs

Frequency Response 10 Hz to 20 kHz

-0.1

StopBand

.577

StopBand Attenuation

(Note 5)

Group Delay

tgd

9/Fs

Passband Group Delay Deviation

0 - 20 kHz

±0.23/Fs

On-chip Analog Filter Response - Quad Speed Mode

Passband

(Note 4)

to -3 dB corner

0.25

Frequency Response 10 Hz to 20 kHz

-0.7

On-chip Analog Filter Response - DSD Mode

Passband

(Note 4)

to -3 dB corner

1.0

Frequency Response 10 Hz to 20 kHz

-0.7

CS4391

DS335PP3

REGISTER QUICK REFERENCE

** "default" ==> bit status after power-up-sequence or reset**

3.1

MODE CONTROL 1 (ADDRESS 01H)

AMUTE (Auto-mute)

Default = `1'.
0 - Disabled
1 - Enabled

DIF2, DIF1 and DIF0 (Digital Interface Format - PCM Modes). See Table 1

Default = `0'.
000 - Format 0, Left Justified, up to 24-bit data
001 - Format 1, I

S, up to 24-bit data

010 - Format 2, Right Justified, 16-bit Data
011 - Format 3, Right Justified, 24-bit Data
100 - Format 4, Right Justified, 20-bit Data
101 - Format 5, Right Justified, 18-bit Data
110 - Reserved
111 - Reserved

DIF2, DIF1 and DIF0 (Digital Interface Format - DSD Mode Only). SeeTable 2

Default = `0'.
000 - Format 0, 64x oversampled DSD data with a 4x MCLK to DSD data rate
001 - Format 1, 64x oversampled DSD data with a 6x MCLK to DSD data rate
010 - Format 2, 64x oversampled DSD data with a 8x MCLK to DSD data rate
011 - Format 3, 64x oversampled DSD data with a 12x MCLK to DSD data rate
100 - Format 4, 128x oversampled DSD data with a 2x MCLK to DSD data rate
101 - Format 5, 128x oversampled DSD data with a 3x MCLK to DSD data rate
110 - Format 6, 128x oversampled DSD data with a 4x MCLK to DSD data rate
111 - Format 7, 128x oversampled DSD data with a 6x MCLK to DSD data rate

DEM1, DEM0 (De-Emphasis Mode). See Table 3

Default = `00'.
00 - No De-emphasis
01 - 44.1 kHz De-Emphasis
10 - 48 kHz De-Emphasis
11 - 32 kHz De-Emphasis

FM1, FM0 (Functional Mode). See Table 4

Default = `00'.
00 - Single-Speed Mode (4 to 50 kHz sample rates)
01 - Double-Speed Mode (50 to 100 kHz sample rates)
10 - Quad-Speed Mode (100 to 200 kHz sample rates)
11 - Direct Stream Digital Mode

AMUTE

DIF2

DIF1

DIF0

DEM1

DEM0

FM1

FM0

CS4391

DS335PP3

REGISTER DESCRIPTION

** All register access is R/W in I

C mode and write only in SPI mode **

4.1

MODE CONTROL 1 - ADDRESS 01H

4.1.1

Auto-Mute (Bit 7)

Function:

The Digital-to-Analog converter output will mute following the reception of 8192 consecutive audio
samples of static 0 or -1. A single sample of non-static data will release the mute. Detection and
muting is done independently for each channel. (However, Auto-Mute detection and muting can be-
come dependent on either channel if the Mute A = B function is enabled.) The common mode on the
output will be retained and the Mute Control pin for that channel will go active during the mute period.
The muting function is effected, similar to volume control changes, by the Soft and Zero Cross bits in
the Volume and Mixing Control register.

4.1.2

Digital Interface Formats (Bits 6:4)

Function:

PCM Mode - The required relationship between the Left/Right clock, serial clock and serial data is
defined by the Digital Interface Format and the options are detailed in Table 2 and Figures 6-24.

DSD Mode - The relationship between the oversampling ratio of the DSD audio data and the required
Master clock to DSD data rate is defined by the Digital interface Format pins. Note that the Functional
Mode registers must be set to DSD Mode.

See Table 1 (PCM Modes)

See Table 2 (DSD Mode)

4.1.3

De-Emphasis Control (Bits 3:2)

Function:

Implementation of the standard 15

s/50

s digital de-emphasis filter response, Figure 12, requires

reconfiguration of the digital filter to maintain the proper filter response for 32, 44.1 or 48 kHz sample
rates. NOTE: De-emphasis is available only in Single-Speed Mode.

See Table 3

4.1.4

Functional Mode (Bits 1:0)

Function:

Selects the required range of input sample rates or DSD Mode.

See Table 4

AMUTE

DIF2

DIF1

DIF0

DEM1

DEM0

FM1

FM0

CS4391

DS335PP3

4.2

VOLUME AND MIXING CONTROL (ADDRESS 02H)

4.2.1

Channel A Volume = Channel B Volume (Bit 7)

Function:

The AOUTA and AOUTB volume levels are independently controlled by the A and the B Channel Vol-
ume Control Bytes when this function is disabled. The volume on both AOUTA and AOUTB are de-
termined by the A Channel Volume Control Byte and the B Channel Byte is ignored when this function
is enabled.

4.2.2

Soft Ramp or Zero Cross Enable (Bits 6:5)

Function:

Soft Ramp Enable

Soft Ramp allows level changes, both muting and attenuation, to be implemented by incrementally
ramping, in 1/8 dB steps, from the current level to the new level at a rate of 1dB per 8 left/right clock
periods.

Zero Cross Enable

Zero Cross Enable dictates that signal level changes, either by attenuation changes or muting, will
occur on a signal zero crossing to minimize audible artifacts. The requested level change will occur
after a
timeout period between 512 and 1024 sample periods (10.7 ms to 21.3 ms at 48 kHz sample rate) if
the signal does not encounter a zero crossing. The zero cross function is independently monitored
and implemented for each channel.

Soft Ramp and Zero Cross Enable

Soft Ramp and Zero Cross Enable dictates that signal level changes, either by attenuation changes
or muting, will occur in 1/8 dB steps and be implemented on a signal zero crossing. The 1/8 dB level
change will occur after a timeout period between 512 and 1024 sample periods (10.7 ms to 21.3 ms
at 48 kHz sample rate) if the signal does not encounter a zero crossing. The zero cross function is
independently monitored and implemented for each channel.

See Table 5

4.2.3

ATAPI Channel Mixing and Muting (Bits 4:0)

Function:

The CS4391 implements the channel mixing functions of the ATAPI CD-ROM specification.

See Table 6

4.3

CHANNEL A VOLUME CONTROL - ADDRESS 03H

See 4.4

Channel B Volume Control - Address 04h

A = B

Soft

Zero Cross

ATAPI4

ATAPI3

ATAPI2

ATAPI1

ATAPI0

CS4391

DS335PP3

4.4

CHANNEL B VOLUME CONTROL - ADDRESS 04H

4.4.1

Mute (Bit 7)

Function:

The Digital-to-Analog converter output will mute when enabled. The common mode voltage on the
output will be retained. The muting function is effected, similiar to attenuation changes, by the Soft
and Zero Cross bits in the Volume and Mixing Control register. The MUTEC pin for that channel will
go active during the mute period if the Mute function is enabled. Both the AMUTEC and BMUTEC
will go active if either MUTE register is enabled and the MUTEC A = B bit (register 5) is enabled.

4.4.2

Volume Control (Bits 6:0)

Function:

The digital volume control allows the user to attenuate the signal in 1 dB increments from 0 to -119
dB. Volume settings are decoded as shown in Table 7. The volume changes are implemented as
dictated by the Soft and Zero Cross bits in the Volume and Mixing Control register. All volume settings
less than - 119 dB are equivalent to enabling the Mute bit.

4.5

MODE CONTROL 2 - ADDRESS 05H

4.5.1

Invert Signal Polarity (Bits 7:6)

Function:

When set, this bit inverts the signal polarity.

4.5.2

Control Port Enable (Bit 5)

Function:

This bit defaults to 0, allowing the device to power-up in Stand-Alone mode. The Control port mode
can be accessed by setting this bit to 1. This will allow the operation of the device to be controlled by
the registers and the pin definitions will conform to Control Port Mode. To accomplish a clean power-
up, the user should write 11h to register 5 within 10 ms following the release of Reset.

4.5.3

Power Down (Bit 4)

Function:

The device will enter a low-power state whenever this function is activated. The power-down bit de-
faults to `enabled' on power-up and must be disabled before normal operation will begin. The contents
of the control registers are retained when the device is in power-down.

4.5.4

AMUTEC = BMUTEC (Bit 3)

Function:

When this function is enabled, the individual controls for AMUTEC and BMUTEC are internally con-
nected through a AND gate prior to the output pins. Therefore, the external AMUTEC and BMUTEC
pins will go active only when the requirements for both AMUTEC and BMUTEC are valid.

MUTE

VOL6

VOL5

VOL4

VOL3

VOL2

VOL1

VOL0

INVERT_A

INVERT_B

CPEN

PDN

MUTEC A = B

FREEZE

MCLK Divide

Reserved

CS4391

DS335PP3

PIN DESCRIPTION - PCM DATA MODE

Reset - RST

Pin 1, Input

Function:

Hardware Mode: The device enters a low power mode and the internal state machine is reset to the de-
fault setting when low. When high, the device becomes operational.

Control Port Mode: The device enters a low power mode and all internal registers are reset to the default
settings, including the control port, when low. When high, the control port becomes operational and the
PDN bit must be cleared before normal operation will occur. The control port can not be accessed when
reset is low. The Control Port Enable Bit must also be enabled after a device reset.

RST is required to remain low until the power supplies and clocks are applied and stable.

Interface Power - VL

Pin 2, Input

Function:

Digital interface power supply. Typically 1.8 to 5.0 VDC. The voltage on this pin determines the logic level
high threshold for the digital inputs. The voltage on VL is the maximum allowable input level for all digital
inputs.

Serial Audio Data - SDATA

Pin 3, Input

Function:

Two's complement MSB-first serial data is input on this pin. The data is clocked into SDATA via the serial
clock and the channel is determined by the Left/Right clock. The required relationship between the
Left/Right clock, serial clock and serial data is defined by the Mode Control Byte in Control Port Mode or
the Mode Pins in Hardware Mode. The options are detailed in Figures 6-24.

Reset

RST

AMUTEC

Channel A Mute Control

Logic Voltage

AOUTA-

Differential Output

Serial Data

SDATA

AOUTA+

Differential Output

Serial Clock

SCLK

Analog Power

Left/Right Clock

LRCK

AGND

Analog Ground

Master Clock

MCLK

AOUTB+

Differential Output

See Description

AOUTB-

Differential Output

See Description (SCL/CCLK) M2

BMUTEC

Channel B Mute Control

See Description (SDA/CDIN) M1

CMOUT

Common Mode Voltage

See Description

(AD0/CS) M0

FILT+

Positive Voltage Reference

CS4391

DS335PP3

Serial Clock - SCLK

Pin 4, Input

Function:

Clocks the individual bits of the serial data into the SDATA pin. The required relationship between the
Left/Right clock, serial clock and serial data is defined by the Mode Control Byte in Control Port Mode or
the Mode pins in Hardware Mode. The options are detailed in Figures 6-24.

Left / Right Clock - LRCK

Pin 5, Input

Function:

The Left / Right clock determines which channel is currently being input on the serial audio data input,
SDATA. The frequency of the Left/Right clock must be at the input sample rate. Audio samples in
Left/Right sample pairs will be simultaneously output from the digital-to-analog converter whereas
Right/Left pairs will exhibit a one sample period difference. The required relationship between the
Left/Right clock, serial clock and serial data is defined by the Mode Control Byte in Control Port Mode or
the Mode pins in Stand-alone Mode. The options are detailed in Figures 6-24

Master Clock - MCLK

Pin 6, Input

Function:

The master clock frequency must be either 256x, 384x, 512x, 768x or 1024x the input sample rate in Sin-
gle Speed Mode; either 128x, 192x 256x, 384x or 512x the input sample rate in Double Speed Mode; or
64x, 96x 128x, 192x or 256 x the input sample rate in Quad Speed Mode. Tables 8-10 illustrate the stan-
dard audio sample rates and the required master clock frequencies.

Note: These clocking ratios are only available in Control Port Mode when the MCLK Divide bit is enabled.

Mode Select - M3, M2, M1 and M0 (Stand-alone Mode)

Pins 7, 8, 9 and 10 Inputs

Function:

The Mode Select Pins, M0-M3, select the operational mode of the device as detailed in Tables 11-15.

Mode Select - M3 (Control Port Mode)

Pin 7, Input

Function:

The Mode Select Pin, M3, is not used in PCM Control Port mode and should be terminated to ground.

CS4391

DS335PP3

Serial Control Interface Clock - SCL/CCLK (Control Port Mode)

Pin 8, Input

Function:

Clocks the serial control data into or from SDA/CDIN.

Serial Control Data I/O - SDA/CDIN (Control Port Mode)

Pin 9, Input/Output

Function:

In I

C mode, SDA is a data I/O line. CDIN is the input data line for the control port interface in SPI mode.

Address Bit / Chip Select - AD0 / CS (Control Port Mode)

Pin 10, Input

Function:

In I

C mode, AD0 is a chip address bit. CS is used to enable the control port interface in SPI mode. The

device will enter the SPI mode at anytime a high to low transition is detected on this pin. Once the device
has entered the SPI mode, it will remain until either the part is reset or undergoes a power-down cycle.

Positive Voltage Reference - FILT+

Pin 11, Output

Function:

Positive reference for internal sampling circuits. External capacitors are required from FILT+ to analog
ground, as shown in Figure 5 and . The recommended values will typically provide 60 dB of PSRR at
1 kHz and 40 dB of PSRR at 60 Hz. FILT+ is not intended to supply external current. FILT+ has a typical
source impedance of 250 k

and any current drawn from this pin will alter device performance.

Common Mode Voltage - CMOUT

Pin 12, Output

Function:

Filter connection for internal common mode reference voltage, typically 50% of VA. Capacitors must be
connected from CMOUT to analog ground, as shown in Figure 5. CMOUT is not intended to supply ex-
ternal current. CMOUT has a typical source impedance of 250 k

and any current drawn from this pin will

alter device performance.

Channel A and Channel B Mute Control - AMUTEC and BMUTEC

Pins 13 and 20, Outputs

Function:

The Mute Control pins go high during power-up initialization, reset, muting, master clock to left/right clock
frequency ratio is incorrect or power-down. These pins are intended to be used as a control for an external
mute circuit to prevent the clicks and pops that can occur in any single supply system. Use of Mute Control
is not mandatory but recommended for designs requiring the absolute minimum in extraneous clicks and
pops.

CS4391

DS335PP3

PIN DESCRIPTION - DSD MODE

DSD Audio Data - DSD_A and DSD_B

Pins 3 and 4, Inputs

Function:

Direct Stream Digital audio data is clocked into DSD_A and DSD_B via the DSD serial clock.

DSD Mode - DSD_Mode

Pin 5, Input

Function:

This pin must be set to a logic `1' and M0-M2 must be properly set to access the DSD Mode in Hardware
Mode. Refer to Table 19.

In Control Port Mode, this pin must be set to a logic `1' and the Control Registers must be properly set to
access the DSD Mode. Refer to register descriptions.

Master Clock - MCLK

Pin 6, Input

Function:

The master clock frequency must be either 4x, 6x, 8x or 12x the DSD data rate for 64x oversampled DSD
data or 2x, 3x, 4x or 6x the DSD data rate for 128x oversampled DSD data.

DSD Serial Clock - DSD_SCLK

Pin 7, Input

Function:

Clocks the individual bits of the DSD audio data into the DSD_A and DSD_B pins.

Reset

RST

AMUTEC

Refer to PCM Mode

Logic Voltage

AOUTA-

Refer to PCM Mode

Channel A Data

DSD_A

AOUTA+

Refer to PCM Mode

Channel B Data

DSD_B

Refer to PCM Mode

DSD Mode Select

DSD_MODE

AGND

Refer to PCM Mode

Master Clock

MCLK

AOUTB+

Refer to PCM Mode

DSD Serial Clock

DSD_SCLK

AOUTB-

Refer to PCM Mode

Refer to PCM Mode (SCL/CCLK) M2

BMUTEC

Refer to PCM Mode

Refer to PCM Mode (SDA/CDIN) M1

CMOUT

Refer to PCM Mode

(AD0/CS) M0

FILT+

Refer to PCM Mode

CS4391

DS335PP3

DIF2

DIF1

DIFO

DESCRIPTION

Left Justified, up to 24-bit data

S, up to 24-bit data

Right Justified, 16-bit Data

Right Justified, 24-bit Data

Right Justified, 20-bit Data

Right Justified, 18-bit Data

Reserved

Table 1. Digital Interface Formats - PCM Modes

DIF2

DIF1

DIFO

DESCRIPTION

64x oversampled DSD data with a 4x MCLK to DSD data rate

64x oversampled DSD data with a 6x MCLK to DSD data rate

64x oversampled DSD data with a 8x MCLK to DSD data rate

64x oversampled DSD data with a 12x MCLK to DSD data rate

128x oversampled DSD data with a 2x MCLK to DSD data rate

128x oversampled DSD data with a 3x MCLK to DSD data rate

128x oversampled DSD data with a 4x MCLK to DSD data rate

128x oversampled DSD data with a 6x MCLK to DSD data rate

Table 2. Digital Interface Formats - DSD Mode

DEM1

DEMO

DESCRIPTION

Disabled

44.1 kHz de-emphasis

48 kHz de-emphasis

32 kHz de-emphasis

Table 3. De-Emphasis Mode Selection

FM1

FM0

MODE

Single-Speed Mode (4 to 50 kHz sample rates)

Double-Speed Mode (50 to 100 kHz sample rates)

Quad-Speed Mode (100 to 200 kHz sample rates)

Direct Stream Digital Mode

Table 4. Functional Mode Selection

SOFT

ZERO

Mode

Changes to affect immediately

Zero Cross enabled

Soft Ramp enabled

Soft Ramp and Zero Cross enabled

Table 5. Soft Cross or Zero Cross Mode Selection

CS4391

DS335PP3

Note:These clocking ratios are only available inControl Port Mode when the MCLK Divide bit is enabled.

Sample Rate

(kHz)

MCLK (MHz)

See Note

256x

384x

512x

768x

1024x

8.1920

12.2880

16.3840

24.5760

32.7680

44.1

11.2896

16.9344

22.5792

33.8688

45.1584

12.2880

18.4320

24.5760

36.8640

49.1520

Table 8. Single Speed (4 to 50 kHz sample rates) Common Clock Frequencies

Sample Rate

(kHz)

MCLK (MHz)

See Note

128x

192x

256x

384x

512x

8.1920

12.2880

16.3840

24.5760

32.7680

88.2

11.2896

16.9344

22.5792

33.8688

45.1584

12.2880

18.4320

24.5760

36.8640

49.1520

Table 9. Double Speed (50 to 100 kHz sample rates) Common Clock Frequencies

Sample Rate

(kHz)

MCLK (MHz)

See Note

64x

96x

128x

192x

256x

176.4

11.2896

16.9344

22.5792

33.8688

45.1584

192

12.2880

18.4320

24.5760

36.8640

49.1520

Table 10. Quad Speed (100 to 200 kHz sample rates) Common Clock Frequencies

(DIF1)

(DIF0)

DESCRIPTION

FORMAT

FIGURE

Left Justified, up to 24-bit data

S, up to 24-bit data

Right Justified, 16-bit Data

Right Justified, 24-bit Data

Table 11. Single Speed (4 to 50 kHz) Digital Interface Format, Stand-Alone Mode Options

(DEM)

DESCRIPTION

FIGURE

No De-Emphasis

De-Emphasis Enabled

Table 12. Single Speed Only (4 to 50 kHz) De-Emphasis, Stand-Alone Mode Options

DESCRIPTION

FORMAT

FIGURE

Left Justified up to 24-bit data

S up to 24-bit data

Right Justified 16-bit data

Right Justified 24-bit data

Table 13. Double Speed (50 to 100 kHz) Digital Interface Format, Stand-Alone Mode Options

CS4391

DS335PP3

7. APPLICATIONS

7.1

Recommended Power-up Sequence
for Hardware Mode

1) Hold

RST

low until the power supplies, master,

and left/right clocks are stable.

2) Bring

RST

high.

7.2

Recommended Power-up Sequence
and Access to Control Port Mode

1) Hold

RST

low until the power supply, master,

and left/right clocks are stable. In this state, the
control port is reset to its default settings and
CMOUT will remain low.

2) Bring

RST

high. The device will remain in a

low power state with CMOUT low and the con-
trol port is accessible.

3) Write 11h to register 5 within 10 ms cycles fol-

lowing the release of RST.

4) The desired register settings can be loaded

while keeping the PDN bit set to 1.

5) Set the PDN bit to 0 which will initiate the pow-

er-up sequence which requires approximately
10 µS.

7.3

Analog Output and Filtering

The application note "Design Notes for a 2-Pole
Filter with Differential Input" discusses the sec-
ond-order Butterworth filter and differential to sin-
gle-ended converter which was implemented on the
CS4391 evaluation board, CDB4391. The CS4391
filter, as seen in Figure 14, is a linear phase design
and does not include phase or amplitude compensa-
tion for an external filter. Therefore, the DAC sys-
tem phase and amplitude response will be
dependent on the external analog circuitry.

AMUTEC

AOUTA+

GND

C43

10UF

GND

1.18K

R17

CON_RCA_RA

2SC2878

R25

MMUN2111LT1

HDR8

HDR1X2

AOUTA

VA+3/+5

R20

560

MMUN2211LT1

R24

5.62K

47K

R28

5.62K

1.18K

R18

5.62K

R15

5.62K

R26

C49

.1UF

V-

V+

U11

MC33078D

C48

.1UF

GND

C42

10UF

COG

2700PF

COG

560PF

COG

560PF

COG

2700PF

C14

VCC

VEE

AOUTA-

Figure 14. CS4391 Output Filter

CS4391

DS335PP3

8. CONTROL PORT INTERFACE

The control port is used to load all the internal set-
tings of the CS4391. The operation of the control
port may be completely asynchronous to the audio
sample rate. However, to avoid potential interfer-
ence problems, the control port pins should remain
static if no operation is required.

The control port has 2 modes: SPI and I

C, with the

CS4391 operating as a slave device in both modes.
If I

C operation is desired, AD0/CS should be tied

to VA or AGND. If the CS4391 ever detects a high
to low transition on AD0/CS after power-up, SPI
mode will be selected. The control port registers
are write-only in SPI mode.

8.1

SPI Mode

In SPI mode, CS is the CS4391 chip select signal,
CCLK is the control port bit clock, CDIN is the in-
put data line from the microcontroller and the chip
address is 0010000. All signals are inputs and data
is clocked in on the rising edge of CCLK.

Figure 15 shows the operation of the control port in
SPI mode. To write to a register, bring CS low. The
first 7 bits on CDIN form the chip address, and
must be 0010000. The eighth bit is a read/write in-
dicator (R/W), which must be low to write. The
next 8 bits form the Memory Address Pointer
(MAP), which is set to the address of the register
that is to be updated. The next 8 bits are the data
which will be placed into the register designated by
the MAP. See Table 16.

The CS4391 has MAP auto increment capability,
enabled by the INCR bit in the MAP register. If

INCR is 0, then the MAP will stay constant for suc-
cessive writes. If INCR is set to 1, then MAP will
auto increment after each byte is written, allowing
block reads or writes of successive registers.

8.2

C Mode

In I

C mode, SDA is a bi-directional data line. Data

is clocked into and out of the part by the clock,
SCL, with the clock to data relationship as shown
in Figure 3. There is no CS pin. Pin AD0 forms the
partial chip address and should be tied to VA or
AGND as required. The upper 6 bits of the 7-bit ad-
dress field must be 001000. To communicate with
the CS4391 the LSB of the chip address field,
which is the first byte sent to the CS4391, should
match the setting of the AD0 pin. The eighth bit of
the address byte is the R/W bit (high for a read, low
for a write). If the operation is a write, the next byte
is the Memory Address Pointer, MAP, which se-
lects the register to be read or written. The MAP is
then followed by the data to be written. If the op-
eration is a read, then the contents of the register
pointed to by the MAP will be output after the chip
address.

The CS4391 has MAP auto increment capability,
enabled by the INCR bit in the MAP register. If
INCR is 0, then the MAP will stay constant for suc-
cessive writes. If INCR is set to 1, then MAP will
auto increment after each byte is written, allowing
block reads or writes of successive registers.

For more information on I

C, please see "The I2C-

Bus Specification: Version 2.0", listed in the Ref-
erences section.

CS4391

DS335PP3

9. PARAMETER DEFINITIONS

Total Harmonic Distortion + Noise (THD+N)

The ratio of the rms value of the signal to the rms sum of all other spectral components over the specified
bandwidth (typically 10Hz to 20kHz), including distortion components. Expressed in decibels.

Dynamic Range

The ratio of the full scale rms value of the signal to the rms sum of all other spectral components over the
specified bandwidth. Dynamic range is a signal-to-noise measurement over the specified bandwidth
made with a -60 dBFS signal. 60 dB is then added to the resulting measurement to refer the measurement
to full scale. This technique ensures that the distortion components are below the noise level and do not
effect the measurement. This measurement technique has been accepted by the Audio Engineering So-
ciety, AES17-1991, and the Electronic Industries Association of Japan, EIAJ CP-307.

Interchannel Isolation

A measure of crosstalk between the left and right channels. Measured for each channel at the converter's
output with all zeros to the input under test and a full-scale signal applied to the other channel. Units in
decibels.

Interchannel Gain Mismatch

The gain difference between left and right channels. Units in decibels.

Gain Error

The deviation from the nominal full scale analog output for a full scale digital input.

Gain Drift

The change in gain value with temperature. Units in ppm/°C.

10. REFERENCES

1. "How to Achieve Optimum Performance from Delta-Sigma A/D & D/A Converters" by Steven Harris.

Paper presented at the 93rd Convention of the Audio Engineering Society, October 1992.

2. CDB4391 Evaluation Board Datasheet
3. "The I

C-Bus Specification: Version 2.0" Philips Semiconductors, December 1998.

http://www.semiconductors.philips.com

CS4391

DS335PP3

11. PACKAGE DIMENSIONS

Notes: 1. "D" and "E1" are reference datums and do not included mold flash or protrusions, but do include mold

mismatch and are measured at the parting line, mold flash or protrusions shall not exceed 0.20 mm per
side.

2. Dimension "b" does not include dambar protrusion/intrusion. Allowable dambar protrusion shall be

0.13 mm total in excess of "b" dimension at maximum material condition. Dambar intrusion shall not
reduce dimension "b" by more than 0.07 mm at least material condition.

3. These dimensions apply to the flat section of the lead between 0.10 and 0.25 mm from lead tips.

INCHES

MILLIMETERS

NOT

DIM

MIN

NOM

MAX

MIN

NOM

MAX

0.043

1.10

0.002

0.004

0.006

0.05

0.15

0.03346

0.0354

0.037

0.85

0.90

0.95

0.00748

0.0096

0.012

0.19

0.245

0.30

2,3

0.252

0.256

0.259

6.40

6.50

6.60

0.248

0.2519

0.256

6.30

6.40

6.50

0.169

0.1732

0.177

4.30

4.40

4.50

0.026

0.65

0.020

0.024

0.028

0.50

0.60

0.70

0°

4°

8°

0°

4°

8°

JEDEC #: MO-153

Controlling Dimension is Millimeters.

20L TSSOP (4.4 mm BODY) PACKAGE DRAWING

1 2 3

SEATING

PLANE

SIDE VIEW

END VIEW

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