CIRRUS CS495313-CVZR

CS4953xx Data Sheet
FEATURES
32-bit Audio Decoder DSP Family
with Dual DSP Engine Technology
‰ Multi-standard 32-bit Audio Decoding plus Post
Processing
‰ Large On-chip X, Y, and Program RAM & ROM
‰ SDRAM and Serial Flash Memory Support
‰ Framework™ Applications Library in ROM
— Dolby Digital® EX, Dolby® Pro Logic® IIx, Dolby
Headphone®, Dolby® Virtual Speaker®
96/24™,
DTS-ES™ Discrete
— DTS-ES
Matrix 6.1, DTS:Neo6®
6.1,
DTS-ES™
— AAC™ Multichannel 5.1
— SRS® CS2® and TSXT®
THX® Ultra2™, THX® ReEQ™
Cirrus Original Multi-Channel Surround (COMS)
Crossbar Mixer, Signal Generator
Advanced Post-Processor including: 7.1Bass
Manager, Tone Control, 12- Band Parametric EQ,
Delay, 1:2 Upsampler
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—
—
—
The CS4953xx DSP family are the enhanced versions of the
CS495xx DSP family with higher overall performance and
lower system cost. The CS4953xx includes all mainstream
audio processing codes in on-chip ROM. This saves external
memory for code storage. In addition, the intensive decoding
tasks of Dolby Digital® Surround EX®, AAC multi-channel,
DTS-ES 96/24, THX Ultra2 Cinema and Dolby Headphone
can be accomplished without the expense of external
SDRAM memory.
— Microsoft® HDCD®
‰ Framework™ Applications for Download
— Thomson MP3 Surround
— Internal DSD-to-PCM Conversion
‰ Up to 12 Channels of 32-bit Serial Audio Input
‰ 6 Channel DSD Input
‰ 16 Ch x 32-bit PCM Out with either two 192 kHz S/PDIF
Tx (144-pin package) or one 192 kHz S/PDIF Tx (128-pin
package)
With larger internal memories than the CS495xx, the
CS49531x is designed to support up to 150 ms per channel
of lip-sync delay. With 150 MHz internal clock speed, the
CS4953xx supports the most demanding post-processing
requirements. It is also designed for easy upgrading.
Customers currently using the CS495xx can upgrade to the
CS4953xx with minor hardware and software changes.
Ordering Information
See page 28 for ordering information.
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‰ Two SPI™/I2C™, one Parallel and one UART Port
‰ Customer Software Security Keys
Serial
Control 1
Serial
Control 2
Parallel
Control
UART
GPIO
12 Ch. Audio In /
6 Ch. SACD In
32-bit
DSP A
S/PDIF
S/PDIF
P
X
Y
Debug
STC
D
M
A
32-bit
DSP B
TMR1
TMR2
P
X
Y
16 Ch PCM
Audio Out
Ext. Memory Controller
Preliminary Product Information
This document contains information for a new product.
Cirrus Logic reserves the right to modify this product without notice.
Copyright 2009 Cirrus Logic,
http://www.cirrus.com
PLL
JULY ’09
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
Table of Contents
1. Documentation Strategy ...........................................................................................................4
2. Overview ....................................................................................................................................4
2.1 Migrating from CS4953x3 to CS4953x4 ................................................................................................... 5
2.2 Licensing .................................................................................................................................................. 5
3. Code Overlays ...........................................................................................................................5
4. Hardware Functional Description ...........................................................................................7
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4.1 DSP Core ................................................................................................................................................. 7
4.1.1 DSP Memory ...............................................................................................................................7
4.1.2 DMA Controller ............................................................................................................................7
4.2 On-chip DSP Peripherals ......................................................................................................................... 8
4.2.1 Digital Audio Input Port (DAI) .......................................................................................................8
4.2.2 Digital Audio Output Port (DAO) ..................................................................................................8
4.2.3 Serial Control Port 1 & 2 (I2C™ or SPI™) .....................................................................................8
4.2.4 Parallel Control Port ....................................................................................................................8
4.2.5 External Memory Interface ..........................................................................................................8
4.2.6 GPIO ............................................................................................................................................8
4.2.7 PLL-based Clock Generator ........................................................................................................8
4.3 DSP I/O Description ................................................................................................................................. 8
4.3.1 Multiplexed Pins ..........................................................................................................................8
4.3.2 Termination Requirements ...........................................................................................................9
4.3.3 Pads ............................................................................................................................................9
4.4 Application Code Security ........................................................................................................................ 9
5. Characteristics and Specifications .......................................................................................10
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5.1 Absolute Maximum Ratings .................................................................................................................... 10
5.2 Recommended Operating Conditions .................................................................................................... 10
5.3 Digital DC Characteristics ...................................................................................................................... 10
5.4 Power Supply Characteristics ................................................................................................................ 11
5.5 Thermal Data (144-pin LQFP) ................................................................................................................ 11
5.6 Thermal Data (128-pin LQFP) ................................................................................................................ 11
5.7 Switching Characteristics— RESET ....................................................................................................... 11
5.8 Switching Characteristics — XTI ............................................................................................................ 12
5.9 Switching Characteristics — Internal Clock ............................................................................................ 13
5.10 Switching Characteristics — Serial Control Port - SPI Slave Mode. .................................................... 14
5.11 Switching Characteristics — Serial Control Port - SPI Master Mode ................................................... 15
5.12 Switching Characteristics — Serial Control Port - I2C Slave Mode ...................................................... 16
5.13 Switching Characteristics — Serial Control Port - I2C Master Mode .................................................... 17
5.14 Switching Characteristics — Parallel Control Port - Intel® Slave Mode .............................................. 18
5.15 Switching Characteristics — Parallel Control Port - Motorola® Slave Mode ....................................... 20
5.16 Switching Characteristics — UART ...................................................................................................... 22
5.17 Switching Characteristics — Digital Audio Slave Input Port ................................................................. 23
5.18 Switching Characteristics — DSD Slave Input Port ............................................................................ 24
5.19 Switching Characteristics — Digital Audio Output Port ........................................................................ 24
5.20 Switching Characteristics — SDRAM Interface .................................................................................... 25
6. Ordering Information ..............................................................................................................28
7. Environmental, Manufacturing, and Handling Information ................................................29
8. Device Pinout Diagrams .........................................................................................................30
8.1 128-pin LQFP Pinout Diagrams (CS495303/CS495313) ....................................................................... 30
8.2 128-pin LQFP Pinout Diagrams (CS495304/CS495314) ....................................................................... 31
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CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
8.3 144-pin LQFP Pinout Diagrams (CS495313) ......................................................................................... 32
9. Package Mechanical Drawings ..............................................................................................33
9.1 128-pin LQFP Package Drawing ............................................................................................................ 33
9.2 144-pin LQFP Package Drawing ............................................................................................................ 34
10. Revision History ....................................................................................................................35
List of Figures
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Figure 1. RESET Timing ........................................................................................................................................12
Figure 2. XTI Timing ..............................................................................................................................................12
Figure 3. Serial Control Port - SPI Slave Mode Timing ..........................................................................................14
Figure 4. Serial Control Port - SPI Master Mode Timing ........................................................................................15
Figure 5. Serial Control Port - I2C Slave Mode Timing ..........................................................................................16
Figure 6. Serial Control Port - I2C Master Mode Timing ........................................................................................17
Figure 7. Parallel Control Port - Intel® Mode Read Cycle ......................................................................................19
Figure 8. Parallel Control Port - Intel Mode Write Cycle ........................................................................................19
Figure 9. Parallel Control Port - Motorola® Mode Read Cycle Timing ...................................................................21
Figure 10. Parallel Control Port - Motorola Mode Write Cycle Timing ...................................................................21
Figure 11. UART Timing ........................................................................................................................................22
Figure 12. Digital Audio Input (DAI) Port Timing Diagram .....................................................................................23
Figure 13. Direct Stream Digital - Serial Audio Input Timing ..................................................................................24
Figure 14. Digital Audio Port Timing, MCLK Master Mode ....................................................................................25
Figure 15. External Memory Interface - SDRAM Burst Read Cycle .......................................................................26
Figure 16. External Memory Interface - SDRAM Burst Write Cycle .......................................................................26
Figure 17. External Memory Interface - SDRAM Auto Refresh Cycle ....................................................................27
Figure 18. External Memory Interface - SDRAM Load Mode Register Cycle ........................................................27
Figure 19. 128-pin LQFP Pin-Out Drawing (CS495303/CS495313) ......................................................................30
Figure 20. 128-pin LQFP Pin-Out Drawing (CS495304/CS495314) ......................................................................31
Figure 21. 144-pin LQFP Pin-Out Drawing (CS495313) ........................................................................................32
Figure 22. 128-pin LQFP Package Drawing .........................................................................................................33
Figure 23. 144-pin LQFP Package Drawing .........................................................................................................34
List of Tables
Table 1. CS4953xx Related Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Table 2. Device and Firmware Selection Guide. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Table 3. CS49530x DSP Memory Sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Table 4. CS49531x DSP Memory Sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Table 5. Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Table 6. Environmental, Manufacturing, and Handling Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Table 7. 128-pin LQFP Package Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
Table 8. 144-pin LQFP Package Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
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CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
1. Documentation Strategy
The CS4953xx Datasheet describes the CS4953xx family of multichannel audio decoders. This document
should be used in conjunction with the following documents when evaluating or designing a system around the
CS4953xx family of processors.
Table 1. CS4953xx Related Documentation
Document Name
Description
This document, which contains the hardware
specifications for the CS4953xx family
CS4953xx Datasheet
A new consolidated documentation set for the
CS4953x4 product family that includes:
• Detailed system design information including
Typical Connection Diagrams, Boot-Procedures,
Pin Descriptions, Etc. Also describes use of DSP
Condenser tool
•Detailed firmware design information including
signal processing flow diagrams and control API
information
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CS4953xx Hardware User’s Manual
Includes detailed system design information for
CS4953x3 product family, including Typical
Connection Diagrams, Boot-Procedures, Pin
Descriptions, etc.
CS4953x4/CS4970x4 System Designer’s Guide
AN288 - CS4953xx Firmware User’s Manual
Includes detailed firmware design information
including signal processing flow diagrams and control
API information
The scope of the CS4953xx Datasheet is primarily the hardware specifications of the CS4953xx family of
devices. This includes hardware functionality, characteristic data, pinout, and packaging information.
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The intended audience for the CS4953xx Data Sheet is the system PCB designer, mcu programmer, and the
quality control engineer.
2. Overview
The CS4953xx DSP Family, together with Cirrus Logic’s comprehensive library of audio processing algorithms
enables the development of next-generation audio solutions. There are two classes of devices in the
CS4953xx DSP family:
• CS4953x3 Class (ROM ID 3), comprising the CS495303 and the CS495313
• CS4953x4 Class (ROM ID 4), comprising the CS495304 and the CS495314.
The primary difference between the CS4953x3 and the CS4953x4 classes is the support of the DSP
Condenser application on the CS4953x4 class of products only. DSP Condenser is a tool set that enables the
DSP to automatically boot and configure itself from an external Serial FLASH, thus reducing the traditional
heavy loading on the part of the system microcontroller. Because of the design time savings, enhanced tools
support, and better performance associated with the CS4953x4 product set, Cirrus Logic recommends that the
CS4953x4 family be used for all new designs. More information on DSP Condenser can be found in the
CS4953x4/CS497xx System Designers’ Guide.
Within each ROM ID class (3, 4), the breakdown into 2 devices per class (CS49530x, CS49531x) is based on
the differences between the internal memory size and DSP Firmware supported. Essentially, the audio
processing features of the CS49531x are a superset of audio features available in the CS49530x. Table 2,
“Device and Firmware Selection Guide,” on page 6 provides details of the differences between the two product
classes.
Note that the CS495303/04/14 is available in a 128-pin QFP package and the CS495313 is available in either
a 128-pin or 144-pin QFP package.
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Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
2.1 Migrating from CS4953x3 to CS4953x4
• The recommended way to boot the DSP for normal operation is “master boot”. Refer to Chapter 1 of the
CS4953x4/CS4970x4 System Designer’s Guide. CS4953x4 will support slave boot mode as well (used
for programming the serial flash with the DSP code, through the SCP2 port).
• CS4953x4 DSPs are only available in 128 pin package.
• The serial flash chip select pin used is pin 14 (GPIO0). Cirrus Logic recommends that at least an 8-Mbit
serial Flash device be used. Refer to CS4953x4/CS4970x4 System Designer’s Guide for a list of Flash
types that are currently supported
• CS4953x4 DSP family supports DSP Condenser and DSP Manager API for run-time control/host
communication. Please refer to CS4953x4/CS4970x4 System Designer’s Guide for details.
2.2 Licensing
Licenses are required for all of the 3rd party audio decoding/processing algorithms listed below, including the
application notes. Please contact your local Cirrus Sales representative for more information.
3. Code Overlays
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The suite of software available for the CS4953xx family consists of an operating system (OS) and a library of
overlays. The overlays have been divided into three main groups called Decoders, Mid-processors, and Postprocessors. All software components are defined below:
1. OS/Kernel - Encompasses all non-audio processing tasks, including loading data from external memory,
processing host messages, calling audio-processing subroutines, error concealment, etc.
2. Decoders - Any Module that initially writes data into the audio I/O buffers, e.g. AC-3®, DTS, PCM, etc. All the
decoding/processing algorithms listed below require delivery of PCM or IEC61937-packed, compressed data
via I2S- or LJ-formatted digital audio to the CS4953xx.
3. Matrix-processors - Any module that processes audio I/O buffer PCM data in-place before the Postprocessors. Generally speaking, these modules alter the number of valid channels in the audio I/O buffer
through processes like Virtualization (nÖ2 channels) or Matrix Decoding (2Ön channels). Examples are Dolby
ProLogic IIx and DTS Neo:6.
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4. Post-processors - Any module that processes audio I/O buffer PCM data in-place after the Mid-Processors.
Examples are Bass Management, Audio Manager, Tone Control, EQ, Delay, Customer-specific Effects, Dolby
Headphone/Virtual Speaker, etc.
The overlay structure reduces the time required to reconfigure the DSP when a processing change is
requested. Each overlay can be reloaded independently without disturbing the other overlays. For example,
when a new decoder is selected, the OS, mid-, and post-processors do not need to be reloaded — only the
new decoder (the same is true for the other overlays).
Table 2 below lists the firmware available based on device selection. Please refer AN288 CS4953xx Firmware
User’s Manual for the latest listing of application codes and Cirrus Framework™ modules available.
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Table 2. Device and Firmware Selection Guide1
Device
PreProcess
Decode Processor A
Mid-processor A
Mid-processor B
Post-processor B
Dolby PLIIx
Stereo PCM
Multi-Channel PCM
CS49530x
300 MIPS
(2:1 Down-sampling Option)
N/A
Dolby Digital
AAC
MP3
HDCD
Circle Surround® II
Dolby Headphone
(Stereo In)
Dolby Virtual Speaker
Cirrus Original MultiChannel Surround (Effects
/ Reverb Processor)
SRS TruSurround XT
THX Select
Down-mix
(Simultaneous Process)
Copyright 2009 Cirrus Logic
CS49531x
(Superset of
CS49530x)
300 MIPS
Lip Sync
Delay
Same as CS49530x +
DTS
DTS-ES
DTS 96/24
Same as CS49530x +
DTS Neo:6
(Stereo In)
APP
(Advanced Post-processing)
Same as CS49530x +
THX Ultra2
–Tone Control
–Re-EQ
–PEQ (up to 11 Bands)
–Delay
–7.1 Bass Manager
–Audio Manager
1:2 Up-sampling
1.This feature list is a snapshot of features available as of the publication date of this revision of the data sheet. More features may
now be available. Check with your Cirrus Logic Field Application Engineer (FAE) to obtain the latest feature list for the CS49530x
and CS49531x products.
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
6
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
4. Hardware Functional Description
4.1 DSP Core
The CS4953xx is a dual-core DSP with separate X and Y data and P code memory spaces. Each core is a
high-performance, 32-bit, user-programmable, fixed-point DSP that is capable of performing two memory
access control (MAC) operations per clock cycle. Each core has eight 72-bit accumulators, four X- and four Ydata registers, and 12 index registers.
Both DSP cores are coupled to a flexible DMA engine. The DMA engine can move data between peripherals
such as the digital audio input (DAI) and digital audio output (DAO), external memory, or any DSP core
memory, all without the intervention of the DSP. The DMA engine offloads data move instructions from the DSP
core, leaving more MIPS available for signal processing instructions.
CS4953xx functionality is controlled by application codes that are stored in on-board ROM or downloaded to
the CS4953xx from a host mcu or external FLASH/EEPROM. Users can choose to use standard audio
decoder and post-processor modules which are available from Cirrus Logic.
4.1.1 DSP Memory
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The CS4953xx is suitable for Audio Decoder, Audio Post-processor, Audio Encoder, DVD Audio/Video Player,
and Digital Broadcast Decoder applications.
Each DSP core has its own on-chip data and program RAM and ROM and does not require external memory
for any of today’s popular audio algorithms including Dolby Digital Surround EX, AAC Multichannel, DTS-ES
96/24, and THX Ultra2.
The memory maps for the DSPs are as follows. All memory sizes are composed of 32-bit words.
Table 3. CS49530x DSP Memory Sizes
Memory
Type
DSP B
16k SRAM, 16k ROM
10k SRAM, 8k ROM
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DSP A
Y
16k SRAM, 32k ROM
16k SRAM, 16k ROM
P
8k SRAM, 32k ROM
8k SRAM, 24k ROM
Table 4. CS49531x DSP Memory Sizes
Memory
Type
DSP A
DSP B
X
16k SRAM, 16k ROM
10k SRAM, 8k ROM
Y
24k SRAM, 32k ROM
16k SRAM, 16k ROM
P
8k SRAM, 32k ROM
8k SRAM, 24k ROM
4.1.2 DMA Controller
The powerful 12-channel DMA controller can move data between 8 on-chip resources. Each resource has its
own arbiter: X, Y, and P RAM/ROMs on DSP A; X, Y, and P RAM/ROMs on DSP B; external memory; and the
peripheral bus. Modulo and linear addressing modes are supported, with flexible start address and increment
controls. The service interval for each DMA channel as well as up to 6 interrupt events, is programmable.
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CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
4.2 On-chip DSP Peripherals
4.2.1 Digital Audio Input Port (DAI)
The 12-channel (6 line) DAI port supports a wide variety of data input formats. The port is capable of accepting
PCM, IEC61937, or DSD. Up to 32-bit word lengths are supported. Up to 6 channels of DSD are supported and
internally converted to PCM before processing.
The port has two independent slave-only clock domains. Each data input can be independently assigned to a
clock domain. The sample rate of the input clock domains can be determined automatically by the DSP, which
off-loads the task of monitoring the S/PDIF receiver from the host. A time-stamping feature allows the input
data to be sample-rate converted via software.
4.2.2 Digital Audio Output Port (DAO)
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There are two DAO ports. Each port can output 8 channels of up to 32-bit PCM data. The port supports data
rates from 32 kHz to 192 kHz. Each port can be configured as an independent clock domain in slave mode, or
the ratio of the two clocks can be set to even multiples of each other in master mode. The two ports can also be
ganged together into a single clock domain. Each port has one serial audio pin that can be configured as a 192
kHz S/PDIF transmitter (data with embedded clock on a single line).
Note: Only one S/PDIF transmitter pin is available in the 128-pin package.
4.2.3 Serial Control Port 1 & 2 (I2C™ or SPI™)
There are two on-chip serial control ports that are capable of operating as master or slave in either I2C or SPI
modes. SCP1 defaults to slave operation. It is dedicated for external host-control and supports an external
clock up to 50 MHz in SPI mode. It is present in both the 144- and 128-pin packages. This high clock speed
enables very fast code download, control or data delivery. SCP2 defaults to master mode and is dedicated for
booting from external serial Flash memory or for audio sub-system control. SCP2 does not include the
SCP2_BSY# pin in the 128-pin package.
4.2.4 Parallel Control Port
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The CS4953xx parallel port supports both Motorola® and Intel® interfaces. It can be used for both control and
data delivery. The parallel port pins are multiplexed with serial control port 2 and are available in the 144-pin
package.
4.2.5 External Memory Interface
The external memory interface controller supports up to 128 Mbits of SDRAM, using a 16-bit data bus.
4.2.6 GPIO
Many of the CS4953xx peripheral pins are multiplexed with GPIO. Each GPIO can be configured as an output,
an input, or an input with interrupt. Each input-pin interrupt can be configured as rising edge, falling edge,
active-low, or active-high.
4.2.7 PLL-based Clock Generator
The low-jitter PLL generates integer or fractional multiples of a reference frequency which are used to clock the
DSP core and peripherals. Through a second PLL divider chain, a dependent clock domain can be output on
the DAO port for driving audio converters. The CS4953xx defaults to running from the external reference
frequency and can be switched to use the PLL output after overlays have been loaded and configured, either
through master boot from an external serial FLASH or through host control. A built-in crystal oscillator circuit
with a buffered output is provided. The buffered output frequency ratio is selectable between 1:1 (default) or
2:1.
4.3 DSP I/O Description
4.3.1 Multiplexed Pins
Many of the CS4953xx pins are multi-functional. For details on pin functionality please refer to the CS4953xx
Hardware User’s Manual.
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CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
4.3.2 Termination Requirements
Open-drain pins on the CS4953xx must be pulled high for proper operation. Please refer to the CS4953xx
Hardware User’s Manual to identify which pins are open-drain and what value of pull-up resistor is required for
proper operation.
Mode select pins on the CS4953xx are used to select the boot mode upon the rising edge of reset. A detailed
explanation of termination requirements for each communication mode select pin can be found in the
CS4953xx Hardware User’s Manual.
4.3.3 Pads
The CS4953xx I/O operates from the 3.3 V supply and is 5V tolerant.
4.4 Application Code Security
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The external program code may be encrypted by the programmer to protect any intellectual property it may
contain. A secret, customer-specific key is used to encrypt the program code that is to be stored external to the
device.
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CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5. Characteristics and Specifications
Note: All data sheet minimum and maximum timing parameters are guaranteed over the rated voltage and
temperature. All data sheet typical parameters are measured under the following conditions:
T = 25 °C, CL = 20 pF, VDD = VDDA = 1.8 V, VDDIO = 3.3 V, GNDD = GNDIO = GNDA = 0 V.
5.1 Absolute Maximum Ratings
(GNDD = GNDIO = GNDA = 0 V; all voltages with respect to 0 V)
Parameter
Symbol
Min
Max
Unit
VDD
VDDA
VDDIO
–0.3
–0.3
–0.3
-
2.0
3.6
3.6
0.3
V
V
V
V
Iin
-
+/- 10
mA
Input voltage on PLL_REF_RES
Vfilt
-0.3
3.6
V
Input voltage on I/O pins
Vinio
-0.3
5.0
V
150
°C
Core supply
PLL supply
I/O supply
|VDDA – VDDIO|
DC power supplies:
Storage temperature
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Input pin current, any pin except supplies
Tstg
–65
CAUTION: Operation at or beyond these limits may result in permanent damage to the device. Normal operation is
not guaranteed at these extremes.
5.2 Recommended Operating Conditions
(GNDD = GNDIO = GNDA = 0 V; all voltages with respect to 0 V)
Parameter
Core supply
PLL supply
I/O supply
|VDDA – VDDIO|
DC power supplies:
Ambient operating temperature
Symbol
Min
Typ
Max
Unit
VDD
VDDA
VDDIO
1.71
3.13
3.13
1.8
3.3
3.3
0
1.89
3.46
3.46
V
V
V
V
0
- 40
+25
+25
+ 70
+ 85
°C
TA
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Commercial Grade (CQZ/CVZ)
Automotive Grade (DQZ/DVZ)
Note: It is recommended that the 3.3 V IO supply come up ahead of or simultaneously with the 1.8 V core supply.
5.3 Digital DC Characteristics
(Measurements performed under static conditions.)
Parameter
High-level input voltage
Low-level input voltage, except XTI
Low-level input voltage, XTI
Symbol
Min
Typ
Max
Unit
VIH
2.0
-
-
V
VIL
-
-
0.8
V
VILXTI
-
-
0.6
V
0.4
V
Input Hysteresis
Vhys
High-level output voltage (IO = -4mA), except XTI,
SDRAM pins
VOH
VDDIO * 0.9
-
-
V
Low-level output voltage (IO = 4mA), except XTI, SDRAM
pins
VOL
-
-
VDDIO * 0.1
V
SDRAM High-level output voltage (IO = -8mA)
VOH
VDDIO * 0.9
-
-
V
SDRAM Low-level output voltage (IO = 8mA)
VOL
-
-
VDDIO * 0.1
V
Input leakage current (all digital pins with internal pull-up
resistors disabled)
IIN
-
-
5
μA
Input leakage current (all digital pins with internal pull-up
resistors enabled, and XTI)
IIN-PU
-
-
50
μA
10
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.4 Power Supply Characteristics
(measurements performed under operating conditions)
Parameter
Min
Typ
Max
Unit
-
500
3.5
120
-
mA
mA
mA
Power supply current:
Core and I/O operating: VDD1
PLL operating: VDDA
With external memory and most ports operating: VDDIO
1. Dependent on application firmware and DSP clock speed.
5.5 Thermal Data (144-pin LQFP)
Parameter
Symbol
Thermal Resistance (Junction to Ambient)
Two-layer Board1
Four-layer Board2
Two-layer Board1
Four-layer Board2
5.6 Thermal Data (128-pin LQFP)
Parameter
Thermal Resistance (Junction to Ambient)
Typ
Max
-
48
40
-
θja
ψjt
Symbol
Two-layer Board1
Four-layer Board2
Thermal Resistance (Junction to Top of Package)
Two-layer Board1
Four-layer Board2
Unit
°C / Watt
°C / Watt
IN
AR
Y
Thermal Resistance (Junction to Top of Package)
Min
-
.39
.33
-
Min
Typ
Max
-
53
44
-
-
.45
.39
-
θja
Unit
°C / Watt
ψjt
°C / Watt
PR
EL
IM
Notes: 1. Two-layer board is specified as a 76 mm X 114 mm, 1.6 mm thick FR-4 material with 1-oz copper covering 20 %
2.
3.
4.
5.
6.
of the top & bottom layers.
Four-layer board is specified as a 76 mm X 114 mm, 1.6 mm thick FR-4 material with 1-oz copper covering 20 %
of the top & bottom layers and 0.5-oz copper covering 90 % of the internal power plane and ground plane layers.
To calculate the die temperature for a given power dissipation
Τj = Ambient Temperature + [ (Power Dissipation in Watts) * θja ]
To calculate the case temperature for a given power dissipation
Τc = Τj - [ (Power Dissipation in Watts) * ψ jt ]
5.7 Switching Characteristics— RESET
Parameter
Symbol
Min
Max
Unit
Trstl
1
-
μs
All bidirectional pins high-Z after RESET low
Trst2z
-
100
ns
Configuration pins setup before RESET high
Trstsu
50
-
ns
Configuration pins hold after RESET high
Trsthld
20
-
ns
RESET minimum pulse width low
DS705PP5
Copyright 2009 Cirrus Logic
11
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
RESET
HS[3:0]
All Bidirectional
Pins
T rstsu
T rst2z
T rsthld
T rstl
Figure 1. RESET Timing
Parameter
External Crystal operating
frequency1
XTI period
XTI high time
XTI low time
IN
AR
Y
5.8 Switching Characteristics — XTI
Symbol
Min
Max
Unit
Fxtal
Tclki
11.2896
27
MHz
33.3
100
ns
Tclkih
13.3
-
ns
Tclkil
13.3
-
ns
CL
10
18
pF
50
W
External Crystal Load Capacitance (parallel resonant)2
External Crystal Equivalent Series Resistance
ESR
PR
EL
IM
1. Part characterized with the following crystal frequency values: 11.2896, 12.288, 18.432, 24.576, & 27 MH.z.
2. CL refers to the total load capacitance as specified by the crystal manufacturer. Crystals which require a CL outside
this range should be avoided. The crystal oscillator circuit design should follow the crystal manufacturer’s
recommendation for load capacitor selection.
XTI
t clkih
t clkil
Tclki
Figure 2. XTI Timing
12
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.9 Switching Characteristics — Internal Clock
Parameter
Internal DCLK frequency1
Symbol
Min
Fdclk
-
CS49530x-CVZ
CS49531x-CQZ
CS49531x-CVZ
CS49530x-DVZ
CS49531x-DVZ
Internal DCLK period1
DCLKP
CS49530x-CVZ
CS49531x-CQZ
CS49531x-CVZ
CS49530x-DVZ
CS49531x-DVZ
Max
Unit
MHz
Fxtal
Fxtal
Fxtal
Fxtal
Fxtal
150
150
150
TBD
TBD
6.7
6.7
6.7
TBD
TBD
1/Fxtal
1/Fxtal
1/Fxtal
1/Fxtal
1/Fxtal
ns
PR
EL
IM
IN
AR
Y
1. After initial power-on reset, Fdclk = Fxtal. After initial kickstart commands, the PLL is locked to max Fdclk and remains
locked until the next power-on reset.
DS705PP5
Copyright 2009 Cirrus Logic
13
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.10 Switching Characteristics — Serial Control Port - SPI Slave Mode.
Parameter
Symbol
Min
Max
Units
SCP_CLK frequency
fspisck
-
25
MHz
SCP_CS falling to SCP_CLK rising
SCP_CLK low time
tspicss
24
-
ns
tspickl
20
-
ns
SCP_CLK high time
tspickh
20
-
ns
Setup time SCP_MOSI input
tspidsu
5
-
ns
Hold time SCP_MOSI input
tspidh
5
-
ns
SCP_CLK low to SCP_MISO output valid
tspidov
-
11
ns
SCP_CLK falling to SCP_IRQ rising
tspiirqh
-
20
ns
SCP_CS rising to SCP_IRQ falling
tspiirql
0
SCP_CLK low to SCP_CS rising
tspicsh
24
SCP_CS rising to SCP_MISO output high-Z
tspicsdz
-
20
ns
SCP_CLK rising to SCP_BSY falling
tspicbsyl
-
3*DCLKP+20
ns
Typical
ns
-
IN
AR
Y
1
ns
1. The specification fspisck indicates the maximum speed of the hardware. The system designer should be aware that
the actual maximum speed of the communication port may be limited by the firmware application. Flow control using
the SCP_BSY pin should be implemented to prevent overflow of the input data buffer. At boot the maximum speed
is Fxtal/3.
tspicss
SCP_CS
tspickl
1
0
6
7
0
A0
R/W
MSB
PR
EL
IM
SCP_CLK
2
fspisck
SCP_MOSI
5
6
7
tspicsh
tspickh
A6
A5
LSB
tspidsu
tspidh
SCP_MISO
tspidov
tspicsdz
MSB
LSB
tspiirqh
tspiirql
SCP_IRQ
tspibsyl
SCP_BSY
Figure 3. Serial Control Port - SPI Slave Mode Timing
14
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.11 Switching Characteristics — Serial Control Port - SPI Master Mode
Parameter
Symbol
1
Min
fspisck
-
tspicss
-
SCP_CLK low time
tspickl
SCP_CLK high time
SCP_CLK frequency
Max
Fxtal
/22
Units
MHz
-
ns
18
-
ns
tspickh
18
-
ns
Setup time SCP_MISO input
tspidsu
11
-
ns
Hold time SCP_MISO input
tspidh
5
-
ns
SCP_CLK low to SCP_MOSI output valid
tspidov
-
11
ns
SCP_CLK low to SCP_CS falling
tspicsl
7
-
ns
SCP_CLK low to SCP_CS rising
tspicsh
-
-
ns
Bus free time between active SCP_CS
tspicsx
SCP_CLK falling to SCP_MOSI output high-Z
11*DCLKP +
(SCP_CLK PERIOD)/2
11*DCLKP +
(SCP_CLK PERIOD)/2
3*DCLKP
IN
AR
Y
SCP_CS falling to SCP_CLK rising
3
Typical
tspidz
-
-
ns
20
ns
1. The specification fspisck indicates the maximum speed of the hardware. The system designer should be aware that
the actual maximum speed of the communication port may be limited by the firmware application.
2. See Section 5.8.
3. SCP_CLK PERIOD refers to the period of SCP_CLK as being used in a given application. It does not refer to a
tested parameter
.
tspicss
PR
EL
IM
EE_CS
tspickl
tspicsl
1
0
2
6
7
0
A0
R/W
MSB
5
6
7
tspicsx
tspicsh
SCP_CLK
fspisck
SCP_MISO
tspickh
A6
A5
LSB
tspidsu
tspidh
SCP_MOSI
tspidov
tspidz
MSB
LSB
Figure 4. Serial Control Port - SPI Master Mode Timing
DS705PP5
Copyright 2009 Cirrus Logic
15
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.12 Switching Characteristics — Serial Control Port - I2C Slave Mode
Parameter
Symbol
1
Min
Typical
Max
Units
SCP_CLK frequency
fiicck
-
400
kHz
SCP_CLK low time
tiicckl
1.25
-
µs
SCP_CLK high time
tiicckh
1.25
-
µs
tiicckcmd
1.25
START condition to SCP_CLK falling
tiicstscl
1.25
-
µs
SCP_CLK falling to STOP condition
tiicstp
2.5
-
µs
Bus free time between STOP and START conditions
tiicbft
3
-
µs
Setup time SCP_SDA input valid to SCP_CLK rising
tiicsu
100
SCP_SCK rising to SCP_SDA rising or falling for START or
STOP condition
µs
ns
tiich
20
-
ns
SCP_CLK low to SCP_SDA out valid
tiicdov
-
18
ns
SCP_CLK falling to SCP_IRQ rising
tiicirqh
-
3*DCLKP + 40
ns
NAK condition to SCP_IRQ low
IN
AR
Y
Hold time SCP_SDA input after SCP_CLK falling
tiicirql
SCP_CLK rising to SCB_BSY low
tiicbsyl
-
3*DCLKP + 20
ns
3*DCLKP + 20
ns
1. The specification fiicck indicates the maximum speed of the hardware. The system designer should be aware that
the actual maximum speed of the communication port may be limited by the firmware application. Flow control
using the SCP_BSY pin should be implemented to prevent overflow of the input data buffer.
tiicckcmd
tiicckl
0
1
tiicr
6
7
PR
EL
IM
SCP_CLK
tiicf
tiicstscl
SCP_SDA
tiicckh
A6
tiicsu
8
0
tiicdov
A0
R/W
1
6
7
tiicckcmd
8
fiicck
ACK
MSB
LSB
tiicstp
tiicbft
ACK
tiicirqh
tiicirql
tiich
SCP_IRQ
tiiccbsyl
SCP_BSY
Figure 5. Serial Control Port - I2C Slave Mode Timing
16
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.13 Switching Characteristics — Serial Control Port - I2C Master Mode
Parameter
Symbol
1
Min
Max
Units
SCP_CLK frequency
fiicck
-
400
kHz
SCP_CLK low time
tiicckl
1.25
-
µs
SCP_CLK high time
tiicckh
1.25
-
µs
tiicckcmd
1.25
START condition to SCP_CLK falling
tiicstscl
1.25
-
µs
SCP_CLK falling to STOP condition
tiicstp
2.5
-
µs
Bus free time between STOP and START conditions
tiicbft
3
-
µs
Setup time SCP_SDA input valid to SCP_CLK rising
tiicsu
100
tiich
20
-
ns
tiicdov
-
18
ns
SCP_SCK rising to SCP_SDA rising or falling for START or STOP
condition
Hold time SCP_SDA input after SCP_CLK falling
SCP_CLK low to SCP_SDA out valid
µs
ns
tiicckcmd
tiicckl
0
1
tiicckh
A6
tiicf
7
8
0
tiicdov
A0
R/W
1
6
7
tiicckcmd
8
tiicstp
fiicck
ACK
MSB
LSB
tiicbft
ACK
PR
EL
IM
SCP_SDA
tiicr
6
SCP_CLK
tiicstscl
IN
AR
Y
1. The specification fiicck indicates the maximum speed of the hardware. The system designer should be aware that
the actual maximum speed of the communication port may be limited by the firmware application.
tiicsu
tiich
Figure 6. Serial Control Port - I2C Master Mode Timing
DS705PP5
Copyright 2009 Cirrus Logic
17
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.14 Switching Characteristics — Parallel Control Port - Intel® Slave Mode
Parameter
Symbol Min
Typical
Max
Unit
Address setup before PCP_CS and PCP_RD low or PCP_CS and
PCP_WR low
tias
5
-
ns
Address hold time after PCP_CS and PCP_RD low or PCP_CS and
PCP_WR high
tiah
5
-
ns
Delay between PCP_RD then PCP_CS low or PCP_CS then
PCP_RD low
ticdr
0
-
ns
Data valid after PCP_CS and PCP_RD low
tidd
-
18
ns
PCP_CS and PCP_RD low for read
tirpw
24
-
ns
Data hold time after PCP_CS or PCP_RD high
tidhr
8
-
ns
Data high-Z after PCP_CS or PCP_RD high
tidis
-
18
ns
PCP_CS or PCP_RD high to PCP_CS and PCP_RD low for next
read1
tird
30
-
ns
PCP_CS or PCP_RD high to PCP_CS and PCP_WR low for next
write1
tirdtw
30
-
ns
tirdirqhl
-
12
ns
Delay between PCP_WR then PCP_CS low or PCP_CS then
PCP_WR low
ticdw
0
-
ns
Data setup before PCP_CS or PCP_WR high
tidsu
8
-
ns
tiwpw
24
-
ns
tidhw
8
-
ns
PCP_CS or PCP_WR high to PCP_CS and PCP_RD low for next
read1
tiwtrd
30
-
ns
PCP_CS or PCP_WR high to PCP_CS and PCP_WR low for next
write1
tiwd
30
-
ns
tiwrbsyl
-
-
ns
PCP_RD rising to PCP_IRQ rising
Write
PCP_CS and PCP_WR low for write
PR
EL
IM
Data hold after PCP_CS or PCP_WR high
IN
AR
Y
Read
PCP_WR rising to PCP_BSY falling
2*DCLKP + 20
1. The system designer should be aware that the actual maximum speed of the communication port may be limited by
the firmware application. Hardware handshaking on the PCP_BSY pin/bit should be observed to prevent
overflowing the input data buffer. AN288 CS4953xx Firmware Uses’s Manual should be consulted for the firmware
speed limitations.
18
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
PCP_A[3:0]
t iah
PCP_D[7:0]
LSP
t ias
t idd
PCP_CS
MSP
t idhr
t icdr
t idis
PCP_WR
t irpw
t ird
t irdtw
PCP_RD
tirdirqh
IN
AR
Y
PCP_IRQ
Figure 7. Parallel Control Port - Intel® Mode Read Cycle
PCP_A[3:0]
t iah
PCP_D[7:0]
t ias
PCP_CS
t icdw
MSP
t idhw
t idsu
t iwpw
t iwd
PR
EL
IM
PCP_RD
LSP
t iwtrd
PCP_WR
tiwrbsyl
PCP_BSY
Figure 8. Parallel Control Port - Intel Mode Write Cycle
DS705PP5
Copyright 2009 Cirrus Logic
19
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.15 Switching Characteristics — Parallel Control Port - Motorola® Slave Mode
Parameter
Symbol
Min
Max
Unit
Address setup before PCP_CS and PCP_DS low
tmas
5
-
ns
Address hold time after PCP_CS and PCP_DS low
tmah
5
-
ns
Delay between PCP_DS then PCP_CS low or PCP_CS then
PCP_DS# low
tmcdr
0
-
ns
Data valid after PCP_CS and PCP_DS low with PCP_R/W high
tmdd
-
19
ns
PCP_CS and PCP_DS low for read
tmrpw
24
-
ns
Data hold time after PCP_CS or PCP_DS high after read
tmdhr
8
-
ns
Data high-Z after PCP_CS or PCP_DS high after read
tmdis
-
18
ns
PCP_CS or PCP_DS high to PCP_CS and PCP_DS low for next
read1
tmrd
30
-
ns
PCP_CS or PCP_DS high to PCP_CS and PCP_DS low for next
write1
tmrdtw
30
-
ns
tmrwirqh
-
12
ns
Delay between PCP_DS then PCP_CS low or PCP_CS then
PCP_DS low
tmcdw
0
-
ns
Data setup before PCP_CS or PCP_DS high
tmdsu
8
-
ns
tmwpw
24
-
ns
PCP_R/W setup before PCP_CS AND PCP_DS low
tmrwsu
24
-
ns
PCP_R/W hold time after PCP_CS or PCP_DS high
tmrwhld
8
-
ns
Data hold after PCP_CS or PCP_DS high
tmdhw
8
-
ns
PCP_CS or PCP_DS high to PCP_CS and PCP_DS low with
PCP_R/W high for next read1
tmwtrd
30
-
ns
PCP_CS or PCP_DS high to PCP_CS and PCP_DS low for next
write1
tmwd
30
-
ns
tmrwbsyl
-
-
ns
PCP_RW rising to PCP_IRQ falling
Write
PR
EL
IM
PCP_CS and PCP_DS low for write
IN
AR
Y
Read
PCP_RW rising to PCP_BSY falling
2*DCLKP + 20
1. The system designer should be aware that the actual maximum speed of the communication port may be limited by
the firmware application. Hardware handshaking on the PCP_BSY pin/bit should be observed to prevent overflowing
the input data buffer. AN288 CS4953xx Firmware Uses’s Manual should be consulted for the firmware speed
limitations.
20
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
PCP_A[3:0]
t mas
t mah
PCP_AD[7:0]
LSP
MSP
t mdhr
PCP_CS
t mdd
t mrwsu
t mcdr
PCP_WR
t mdis
t mrpw
t mrwhld
t mrdtw
t mrd
PCP_DS
tmrwirqh
IN
AR
Y
PCP_IRQ
Figure 9. Parallel Control Port - Motorola® Mode Read Cycle Timing
PCP_A[3:0]
t mas
PCP_AD[7:0]
tmah
LSP
t mdsu
PCP_CS
t mcdw
t mdhw
t mwpw
PR
EL
IM
PCP_WR
MSP
t mrwsu
t mwd
t mrwhld
t mwtrd
PCP_DS
tmrwirql
PCP_IRQ
Figure 10. Parallel Control Port - Motorola Mode Write Cycle Timing
DS705PP5
Copyright 2009 Cirrus Logic
21
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.16 Switching Characteristics — UART
Parameter
1
UART_CLK period
Symbol
Min
Max
Unit
tuclki
266
-
ns
%
UART_CLK duty cycle
-
40
60
Setup time for UART_RXD
tuckrxsu
5
-
Hold time for UART_RXD
tuckrxdv
5
-
ns
Delay from CLK transition to TXD transition
tucktxdv
-
29
ns
Delay from TXEN to TXD driven with valid data
ttxen
TBD
TBD
ns
Delay from TXEN to TXD driven to high-Z state
ttxhz
-
TBD
ns
1. The minimum clock period is limited to DCLKP/32 or the minimum value, whichever is larger.
IN
AR
Y
UART_CLK
tucktxdv
ttxen
ttxhz
UART_TXD
tuckrxsu
tuckrxdv
UART_RXD
UART_TX_EN
PR
EL
IM
Figure 11. UART Timing
22
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.17 Switching Characteristics — Digital Audio Slave Input Port
Parameter
DAI_SCLK period
DAI_SCLK duty cycle
Symbol
Min
Max
Unit
Tdaiclkp
40
-
ns
-
45
55
%
Setup time DAI_DATAn
tdaidsu
10
-
ns
Hold time DAI_DATAn
tdaidh
5
-
ns
DAI_SCLK
tdaidsu
tdaidh
IN
AR
Y
DAI_DATAn
PR
EL
IM
Figure 12. Digital Audio Input (DAI) Port Timing Diagram
DS705PP5
Copyright 2009 Cirrus Logic
23
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
5.18 Switching Characteristics — DSD Slave Input Port
Symbol
Min
Typ
Max
Unit
DSD_SCLK Pulse Width Low
DSD_SCLK Pulse Width High
DSD_SCLK Frequency
(64x Oversampled)
DSD_A / _B valid to DSD_SCLK rising setup time
DSD_SCLK rising to DSD_A or DSD_B hold time
DSD clock to data transition (Phase Modulation mode)
tsclkl
tsclkh
tsdlrs
tsdh
tdpm
78
78
1.024
20
20
-20
-
3.2
20
ns
ns
MHz
ns
ns
ns
IN
AR
Y
Parameter
Figure 13. Direct Stream Digital - Serial Audio Input Timing
PR
EL
IM
5.19 Switching Characteristics — Digital Audio Output Port
Parameter
DAO_MCLK
period1
Symbol
Min
Max
Unit
Tdaomclk
40
-
ns
1
-
40
60
%
Tdaosclk
40
-
ns
-
40
60
%
DAO_SCLK delay from DAO_MCLK rising edge, DAO_MCLK as an
input
tdaomsck
-
19
ns
DAO_LRCLK delay from DAO_SCLK transition, respectively4
DAO_MCLK duty cycle
DAO_SCLK period for Master or Slave mode2
DAO_SCLK duty cycle for Master or Slave mode2
Master Mode (Output A1 Mode)2,3
tdaomstlr
-
8
ns
transition4
tdaomdv
-
10
ns
DAO_DATA[3..0] delay from DAO_SCLK transition4
tdaosdv
15
ns
DAO_DATA[3:0] delay from DAO_SCLK
Slave Mode (Output A0 Mode)5
1. CS4953xx has two Digital Audio Output modules having similar signal names ending in 1 and 2. Both DAO ports
share a common MCLK but have independent SCLKs and LRCLKs.
2. Master mode timing specifications are characterized, not production tested.
3. Master mode is defined as the CS4953xx driving both DAO_SCLK, DAO_LRCLK. When MCLK is an input, it is
divided to produce DAO_SCLK, DAO_LRCLK.
4. This timing parameter is defined from the non-active edge of DAO_SCLK. The active edge of DAO_SCLK is the
point at which the data is valid.
5.Slave mode is defined as DAO_SCLK, DAO_LRCLK driven by an external source.
24
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
Tdaomclk
DAO_MCLK
tdaomsck
DAO_SCLK
tdaomdv , tdaosdv
DAO_DATAn
tdaomstlr
IN
AR
Y
tdaomstlr
DAO_LRCLK
Figure 14. Digital Audio Port Timing, MCLK Master Mode
5.20 Switching Characteristics — SDRAM Interface
Refer to Figure 15 through Figure 18.
PR
EL
IM
(SD_CLKOUT = SD_CLKIN)
Parameter
Symbol
Min
SD_CLKIN high time
tsdclkh
SD_CLKIN low time
tsdclkl
Max
Unit
2.3
-
ns
2.3
-
ns
SD_CLKOUT rise/fall time
tsdclkrf
-
SD_CLKOUT Frequency
SD_CLKOUT duty cycle
Typical
1
150
ns
MHz
-
45
55
%
SD_CLKOUT rising edge to signal valid
tsdcmdv
-
3.8
ns
Signal hold from SD_CLKOUT rising edge
tsdcmdh
1.1
-
ns
3.8
-
ns
SD_CLKOUT rising edge to SD_DQMn valid
tsddqv
-
SD_DQMn hold from SD_CLKOUT rising edge
tsddqh
1.38
-
ns
SD_DATA valid setup to SD_CLKIN rising edge
tsddsu
1.3
-
ns
SD_DATA valid hold to SD_CLKIN rising edge
tsddh
1.38
SD_CLKOUT rising edge to ADDRn valid
tsdav
-
DS705PP5
Copyright 2009 Cirrus Logic
3.8
-
ns
-
ns
25
DS705PP5
SD_CLKOUT
tsdcmdv
tsdclkrf
tsdcmdh
SD_CS
SD_RAS
SD_CAS
SD_WE
tsddqh
tsddqv
SD_DQMn
11
00
SD_An
tsdav
tsddsu
CAS=2
tsddh
Copyright 2009 Cirrus Logic
LSP0
SD_Dn
LSP1
MSP0
MSP1
LSP2
MSP2
LSP3
MSP3
SD_CLKIN
tsdclkl
tsdclkh
Figure 15. External Memory Interface - SDRAM Burst Read Cycle
SD_CLKOUT
tsdcmdv
tsdcmdh
SD_CS
SD_RAS
SD_CAS
LSP0
SD_Dn
MSP0
LSP1
MSP1
LSP2
MSP2
LSP3
tsdav
SD_An
SD_DQMn
00
tsddqv
11
tsddqh
26
Figure 16. External Memory Interface - SDRAM Burst Write Cycle
MSP3
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
SD_WE
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
SD_CLKOUT
tsdcmdv
tsdcmdv
tsdcmdh
SD_CS
SD_RAS
SD_CAS
IN
AR
Y
SD_WE
SD_DQMn
SD_An
SD_Dn
Figure 17. External Memory Interface - SDRAM Auto Refresh Cycle
PR
EL
IM
SD_CLKOUT
tsdcmdv
tsdcmdh
SD_CS
SD_RAS
SD_CAS
SD_WE
SD_DQMn
SD_An
OPCODE
SD_Dn
Figure 18. External Memory Interface - SDRAM Load Mode Register Cycle
DS705PP5
Copyright 2009 Cirrus Logic
27
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
6. Ordering Information
The CS4953xx family part number is described as follows:
CS495NNI-XYZ
where
NN - Product Number Variant
I - ROM ID Number
X - Product Grade
Y - Package Type
Z - Lead (Pb) Free
Part No.
CS495303-CVZ
CS495303-CVZR2
CS495304-CVZ1
CS495304-CVZR1, 2
CS495304-DVZ1
CS495304-DVZR1, 2
CS495313-CQZ
CS495313-CQZR2
Grade
Temp. Range
Package
Commercial
0 to +70 °C
128-pin LQFP
Automotive
-40 to +85 °C
128-pin LQFP
Commercial
0 to +70 °C
144-pin LQFP
Commercial
0 to +70 °C
128-pin LQFP
Commercial
0 to +70 °C
128-pin LQFP
Automotive
-40 to +85 °C
128-pin LQFP
PR
EL
IM
CS495313-CVZ
IN
AR
Y
Table 5. Ordering Information
CS495313-CVZR2
CS495314-CVZ1
CS495314-CVZR1, 2
CS495314-DVZR1
CS495314-DVZR1, 2
1.Recommended for new designs. See Section 2. for details about Cirrus Logic design recommendations.
2.R=Tape and Reel
Note: Please contact the factory for availability of the -D (automotive grade) package.
28
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
7. Environmental, Manufacturing, and Handling Information
Table 6. Environmental, Manufacturing, and Handling Information
Model Number
Peak Reflow Temp
MSL Rating*
Max Floor Life
260 °C
3
7 Days
CS495303-CVZ
CS495303-CVZR
CS495304-CVZ
CS495304-CVZR
CS495304-DVZ
CS495304-DVZR
CS495313-CQZ
CS495313-CQZR
CS495313-CVZ
CS495314-CVZ
CS495314-CVZR
CS495314-DVZ
CS495314-DVZR
IN
AR
Y
CS495313-CVZR
PR
EL
IM
* MSL (Moisture Sensitivity Level) as specified by IPC/JEDEC J-STD-020.
DS705PP5
Copyright 2009 Cirrus Logic
29
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
8. Device Pinout Diagrams
8.1 128-pin LQFP Pinout Diagrams (CS495303/CS495313)
GPIO38, PCP_WR, PCP_DS, SCP2_CLK
SD_A10, EXT_A10
SD_BA0, EXT_A13
SD_BA1, EXT_A14
105 GNDIO5
SD_WE
SD_CAS
SD_RAS
EXT_A15
110 SD_CS
VDD5
EXT_A16
EXT_A17
EXT_A18
115 GND5
EXT_A19
EXT_OE
EXT_CS1
RESET
120 VDDIO6
GNDIO6
GPIO33, SCP1_MOSI
GPIO34, SCP1_MISO, SCP1_SDA
GPIO35, SCP1_CLK
125 VDD6
GND6
GPIO37, SCP1_BSY, PCP_BSY
The CS495303/CS495313 DSP with a 128-pin package is not recommended for new designs. See
Section 2. for details about this Cirrus Logic recommendation.
SD_A0, EXT_A0
1
GPIO11, PCP_A3, PCP_AS, SCP2_MISO, SCP2_SDA
SD_A1, EXT_A1
100 VDDIO5
GPIO10, PCP_A2, PCP_A10, SCP2_MOSI
SD_A2, EXT_A2
IN
AR
Y
GPOI9, SCP1_IRQ
GPIO8, PCP_IRQ, SCP2_IRQ
5
GPIO7, SCP1_CS, IOWAIT
GPIO6, PCP_CS, SCP2_CS
VDDIO7
GNDIO7
GPIO3, DDAC 10
GPIO2, UART_TXD
VDD7
GPIO1, UART_RXD
GPIO0, UART_CLK
GND7 15
XTAL_OUT
XTI
XTO
GND4
SD_A3, EXT_A3
SD_A4, EXT_A4
95 VDD4
EXT_CS2
SD_A5, EXT_A5
GNDIO4
SD_A6, EXT_A6
90 SD_A7, EXT_A7
VDDIO4
SD_A8, EXT_A8
SD_A9, EXT_A9
GND3
85 SD_A11, EXT_A11
128-pin LQFP
(CS495303/CS49513)
GNDA
PLL_REF_RES 20
PR
EL
IM
VDDA (3.3V)
SD_A12, EXT_A12
VDD3
SD_CLKEN
SD_CLKIN
VDD8
80 SD_CLKOUT
GPIO14, DAI1_DATA3, TM3, DSD3
SD_DQM1
GPIO13, DAI1_DATA2, TM2, DSD2
SD_D8, EXT_D8
GND8 25
SD_D9, EXT_D9
GPIO12, DAI1_DATA1, TM1, DSD1
GNDIO3
DAI1_DATA0, TM0, DSD0
75 SD_D10, EXT_D10
VDDIO8
SD_D11, EXT_D11
DAI1_SCLK, DSD-CLK
VDDIO3
DAI1_LRCLK, DSD4 30
SD_D12, EXT_D12
GNDIO8
SD_D13, EXT_D13
GPIO42, BDI_REQ, DAI2_LRCLK, PCP_IRQ, PCP_BSY
70 SD_D14, EXT_D14
GPIO43, BDI_CLK, DAI2_SCLK
SD_D15, EXT_D15
BDI_DATA, DAI2_DATA, DSD5
SD_D0, EXT_D0
GPIO26, DAO2_DATA3, XMTB, UART_TX_EN 35
GNDIO2
DBDA
EXT_WE
DBCK
65 SD_D1, EXT_D1
SD_D2, EXT_D2
SD_D3, EXT_D3
VDDIO2
SD_D4, EXT_D4
SD_D5, EXT_D5 60
SD_D6, EXT_D6
SD_D7, EXT_D7
SD_DQM0
GND2
VDD2 55
GNDIO1
DAO1_LRCLK
DAO1_SCLK
DAO1_DATA0, HS0
VDDIO1 50
GPIO15, DAO1_DATA1, HS1
GPIO16, DAO1_DATA2, HS2
GPIO17, DAO1_DATA3, XMTA
GPIO23, DAO2_LRCLK
GND1 45
GPIO22, DAO2_SCLK
GPIO18, DAO2_DATA0, HS3
VDD1
TEST
DAO_MCLK 40
GPIO19, DAO2_DATA1, HS4
GPIO20, DAO2_DATA2, EE_CS
Figure 19. 128-pin LQFP Pin-Out Drawing (CS495303/CS495313)
30
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
8.2 128-pin LQFP Pinout Diagrams (CS495304/CS495314)
GPIO38, PCP_WR, PCP_DS, SCP2_CLK
SD_A10, EXT_A10
SD_BA0, EXT_A13
SD_BA1, EXT_A14
105 GNDIO5
SD_WE
SD_CAS
SD_RAS
EXT_A15
110 SD_CS
VDD5
EXT_A16
EXT_A17
EXT_A18
115 GND5
EXT_A19
EXT_OE
EXT_CS1
120 VDDIO6
GNDIO6
RESET
GPIO33, SCP1_MOSI
GPIO34, SCP1_MISO, SCP1_SDA
GPIO35, SCP1_CLK
125 VDD6
GND6
GPIO37, SCP1_BSY, PCP_BSY
The CS495304/CS495314 DSP with a 128-pin package is recommended for new designs. See Section 2. for
details about this Cirrus Logic recommendation.
1
SD_A0, EXT_A0
GPIO11, PCP_A3, PCP_AS, SCP2_MISO, SCP2_SDA
SD_A1, EXT_A1
100 VDDIO5
GPIO10, PCP_A2, PCP_A10, SCP2_MOSI
SD_A2, EXT_A2
GPOI9, SCP1_IRQ
GPIO8, PCP_IRQ, SCP2_IRQ
GND4
5
SD_A3, EXT_A3
IN
AR
Y
GPIO7, SCP1_CS, IOWAIT
GPIO6, PCP_CS, SCP2_CS
VDDIO7
GNDIO7
GPIO3, DDAC 10
GPIO2, UART_TXD
VDD7
GPIO1, UART_RXD
GPIO0, UART_CLK, EE_CS
GND7 15
XTAL_OUT
XTI
XTO
GNDA
128-pin LQFP
(CS495304/CS495314)
PLL_REF_RES 20
VDDA (3.3V)
VDD8
PR
EL
IM
GPIO14, DAI1_DATA3, TM3, DSD3
GPIO13, DAI1_DATA2, TM2, DSD2
SD_A9, EXT_A9
GND3
85 SD_A11, EXT_A11
SD_A12, EXT_A12
VDD3
SD_CLKEN
SD_CLKIN
80 SD_CLKOUT
SD_DQM1
SD_D12, EXT_D12
GNDIO8
SD_D13, EXT_D13
GPIO42, BDI_REQ , DAI2_LRCLK, PCP_IRQ, PCP_IBSY
70 SD_D14, EXT_D14
GPIO43, BDI_CLK, DAI2_SCLK
SD_D15, EXT_D15
BDI_DATA, DAI2_DATA, DSD5
SD_D0, EXT_D0
GPIO26, DAO2_DATA3, XMTB, UART_TX_EN 35
GNDIO2
DBDA
EXT_WE
DBCK
65 SD_D1, EXT_D1
SD_D2, EXT_D2
SD_D3, EXT_D3
VDDIO2
SD_D4, EXT_D4
SD_D5, EXT_D5 60
SD_D6, EXT_D6
SD_D7, EXT_D7
SD_DQM0
GND2
VDD2 55
GNDIO1
DAO1_LRCLK
DAO1_SCLK
DAO1_DATA0, HS0
VDDIO1 50
GPIO15, DAO1_DATA1, HS1
GPIO16, DAO1_DATA2, HS2
GPIO20, DAO2_DATA2
GND1 45
GPIO23,
DAO2_LRCLK
GPIO17, DAO1_DATA3, XMTA
SD_A8, EXT_A8
VDDIO3
DAI1_LRCLK, DSD4 30
GPIO22, DAO2_SCLK
VDDIO4
SD_D11, EXT_D11
DAI1_SCLK, DSD_CLK
GPIO18, DAO2_DATA0, HS3
SD_A6, EXT_A6
90 SD_A7, EXT_A7
75 SD_D10, EXT_D10
VDDIO8
VDD1
GNDIO4
GNDIO3
DAI1_DATA0, TM0, DSD0
TEST
SD_A5, EXT_A5
SD_D9, EXT_D9
GPIO12, DAI1_DATA1, TM1, DSD1
DAO_MCLK 40
EXT_CS2
SD_D8, EXT_D8
GND8 25
GPIO19, DAO2_DATA1, HS4
SD_A4, EXT_A4
95 VDD4
Figure 20. 128-pin LQFP Pin-Out Drawing (CS495304/CS495314)
DS705PP5
Copyright 2009 Cirrus Logic
31
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
8.3 144-pin LQFP Pinout Diagrams (CS495313)
SD_A10, EXT_A10
73 VDDIO5
75 SD_BA0, EXT_A13
76 GNDIO5
SD_WE
SD_BA1, EXT_A14
SD_CAS
80 SD_RAS
EXT_A15
SD_CS
EXT_A16
83 VDD5
85 EXT_A17
EXT_A18
86 GND5
EXT_A19
EXT_OE
90 EXT_CS1
GPIO30, XMTB_IN
91 VDDIO6
RESET
94 GNDIO6
95 GPIO33, SCP1_MOSI
GPIO34, SCP1_MISO, SCP1_SDA
GPIO32, SCP1_CS, IOWAIT
GPIO35, SCP1_CLK
98 VDD6
100 GPOI36, SCP1_IRQ
GPIO37, SCP1_BSY, PCP_BSY
101 GND6
GPIO38, PCP_WR, PCP_DS, CP2_CLK
GPIO39, PCP_CS, SCP2_CS
GPIO10, PCP_A2. PCP_A10, SCP2_MOSI, SCP2_SDA
105 GPIO11, PCP_A3, PCP_AS, SCP2_MISO
GPIO40, PCP_RD, PCP_RW
108 GPIO41, PCP_IRQ, SCP2_IRQ
The CS495313 DSP with a 144-pin package is not recommended for new designs. See Section 2. for details
about this Cirrus Logic recommendation.
72 SD_A0, EXT_A0
GPIO9, PCP_A1, PCP_A9 109
SD_A1, EXT_A1
GPIO8, PCP_A0, PCP_A8 110
70 SD_A2, EXT_A2
GPIO6, PCP_AD6, PCP_D6
69 GND4
IN
AR
Y
GPIO7, PCP_AD7, PCP_D7
VDDIO7 113
GPIO5, PCP_AD5, PCP_D5
GPIO4, PCP_AD4, PCP_D4 115
GNDIO7 116
GPIO3, PCP_AD3, PCP_D3
GPIO2, PCP_AD2, PCP_D2
VDD7 119
GPIO1, PCP_AD1, PCP_D1 120
GPIO0, PCP_AD0, PCP_D0
GND7 122
XTAL_OUT
XTI
XTO 125
SD_A3, EXT_A3
SD_A4, EXT_A4
66 VDD4
65 EXT_CS2
SD_A5, EXT_A5
63 GNDIO4
SD_A6, EXT_A6
SD_A7, EXT_A7
60 VDDIO4
SD_A8, EXT_A8
SD_A9, EXT_A9
57 GND3
SD_A11, EXT_A11
144-pin LQFP
(CS495313)
GNDA 126
NC
PLL_REF_RES
VDDA (3.3V) 129
VDD8 130
GPIO14, DAI1_DATA3, TM3, DSD3
GPIO13, DAI1_DATA2, TM2, DSD2
PR
EL
IM
GND8 133
55 SD_A12, EXT_A12
54 VDD3
SD_CLKEN
SD_CLKIN
SD_CLKOUT
50 SD_DQM1
SD_D8, EXT_D8
SD_D9, EXT_D9
47 GNDIO3
GPIO12, DAI1_DATA1, TM1, DSD1
DAI1_DATA0, TM0, DSD0 135
SD_D10, EXT_D10
VDDIO8 136
45 SD_D11, EXT_D11
44 VDDIO3
DAI1_SCLK, DSD_CLK
SD_D12, EXT_D12
DAI1_LRCLK, DSD4
SD_D13, EXT_D13
GNDIO8 139
GPIO42, BDI_REQ , DAI2_LRCLK, PCP_IRQ, PCP_BSY 140
SD_D14, EXT_D14
40 SD_D15, EXT_D15
GPIO43, BDI_CLK, DAI2_SCLK
SD_D0, EXT_D0
BDI_DATA, DAI2_DATA, DSD5
GPIO27
EXT_WE
GNDIO2 36
SD_D2, EXT_D2 35
VDDIO2 33
SD_D3, EXT_D3
SD_D4, EXT_D4
SD_D5, EXT_D5
SD_D6, EXT_D6 30
GND2 27
SD_DQM0
SD_D7, EXT_D7
GPIO24, UART_RXD
VDD2 24
GPIO25, UART_TXD, EE_CS 25
GPIO31, UART_CLK
DAO1_LRCLK
GNDIO1 21
DAO1_SCLK
DAO1_DATA0, HS0
VDDIO1 18
GPIO15, DAO1_DATA1, HS1
GPIO16, DAO1_DATA2, HS2
GPIO23, DAO2_LRCLK
GPIO17, DAO1_DATA3, XMTA 15
GND1 13
37 SD_D1, EXT_D1
GPIO22, DAO2_SCLK
GPIO18, DAO2_DATA0, HS3
9
TEST
VDD1 10
DAO_MCLK
GPIO19, DAO2_DATA1, HS4
5
GPIO20, DAO2_DATA2, EE_CS
GPIO21, DAO2_DATA3, XMTB, UART_TX_ENABLE
DBCK
DBDA
GPIO28, DDAC
GPIO29, XMTA_IN
1
GPIO26 144
Figure 21. 144-pin LQFP Pin-Out Drawing (CS495313)
32
Copyright 2009 Cirrus Logic
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
9. Package Mechanical Drawings
9.1 128-pin LQFP Package Drawing
D
D1
IN
AR
Y
E E1
1
e
b
∝
A
A1
PR
EL
IM
L
Figure 22. 128-pin LQFP Package Drawing
Table 7. 128-pin LQFP Package Characteristics
MILLIMETERS
INCHES
DIM
A
A1
b
D
D1
E
E1
e
q
L
L1
MIN
NOM
MAX
MIN
NOM
MAX
--0.05
0.17
----0.22
22.00 BSC
20.00 BSC
16.00 BSC
14.00 BSC
0.50 BSC
3.5
0.60
1.00 REF
1.60
0.15
0.27
--.002”
.007”
.063”
.006”
.011”
7°
0.75
0°
.018”
----.009”
.866”
.787”
.630”
.551”
.020”
3.5
.024”
.039” REF
0°
0.45
7°
.030”
TOLERANCES OF FORM AND POSITION
ddd
DS705PP5
0.08
Copyright 2009 Cirrus Logic
.003”
33
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
9.2 144-pin LQFP Package Drawing
E
E1
Notes:
1. Controlling dimension is millimeter.
2. Dimensioning and tolerancing per ASME
Y14.5M-1994.
e
θ
b
PR
EL
IM
L
IN
AR
Y
D D1
ddd M
B
SEATING PLANE
B
L1
A
A1
Figure 23. 144-pin LQFP Package Drawing
Table 8. 144-pin LQFP Package Characteristics
MILLIMETERS
INCHES
DIM
A
A1
b
D
D1
E
E1
e
q
L
L1
MIN
NOM
MAX
MIN
NOM
MAX
--0.05
0.17
----0.22
22.00 BSC
20.00 BSC
22.00 BSC
20.00 BSC
0.50 BSC
--0.60
1.00 REF
1.60
0.15
0.27
--.002”
.007”
.063”
.006”
.011”
7°
0.75
0°
.018”
----.009”
.866”
.787”
.866”
.787”
.020”
--.024”
.039” REF
0°
0.45
7°
.030”
TOLERANCES OF FORM AND POSITION
ddd
34
0.08
Copyright 2009 Cirrus Logic
.003”
DS705PP5
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
10. Revision History
Revision
Date
Changes
FEB 2006
Advance release.
A2
JUN 2006
Updated part numbers for ordering (Tables 5 & 6), Updated VOH and VOL
specification to include the current load used for testing
A3
JUL 2006
Updated part numbers for ordering (Tables 5 &6). Updated text in sections 3 and 4.
Updated parameter descriptions in sections 5.1 and 5.3. Updated Tspickl, Tspickh,
and Tspidov timing. Corrected Figure SPI Master Timing to use EE_CS. Added footnote to XTI table. Removed SCLK/LRCLK relative timing from DAI port timing.
Removed SCLK/LRCLK slave relative timing from DAO port timing.
A4
OCT 2007
Updated the Tspidsu, Tspickl, and Tspickh timing parameters for master mode SPI.
This applies to both SPI ports.
PP1
May 28, 2008
Updated product feature list in Table 2. Updated Figure 19 and Figure 21.
PP2
June 20, 2008
Added typical crystal frequency values in Table Footnote 1 and Max and Min values
of Fxtalin Section 5.8. Removed DSD Phase Modulation Mode from Section
5.18. Removed reference to MCLK in Section 5.18. Redefined Master mode
clock speed for SCP_CLK in Section 5.11. Redefined DC leakage
characterization data in Section 5.3, correcting units of measurement.
Modified Footnote 1 under Section 5.10.
IN
AR
Y
A1
September 24, 2008
Removed references to External Parallel Flash / SRAM Interface.
PP4
June 9, 2009
Updated product number references in Section 5.9, Section 6., Section 7., Table
2,.Table 3, and Table 4. For all Active Low pins, changed Active Low pin
designation from “#” character after the pin name to a line over the pin name as in
“EE_CS”. Removed Active Low designation from the BDI_REQ pin in the 128-pin
pinout drawings in Figure 19 and Figure 20, and in the 144-pin pinout drawings in
Figure 21and Figure 22. Updated the pin names referred to in the timing diagrams in
Figure 9, Figure 10, Figure 17, and Figure 18. Updated the parameters in Section
5.16.
PP5
July 29, 2009
Updated Figure 19, Figure 20, Figure 21. Removed CS495314-CQZ and
CS495314-CQZR from Table 5 and Table 6. Added recommendation that CS4953x4
family be used with new designs. Updated Section 2.
PR
EL
IM
PP3
DS705PP5
Copyright 2009 Cirrus Logic
35
CS4953xx Data Sheet
32-bit Audio Decoder DSP Family
Contacting Cirrus Logic Support
For all product questions and inquiries contact a Cirrus Logic Sales Representative.
To find the one nearest to you go to www.cirrus.com.
IMPORTANT NOTICE
IN
AR
Y
“Preliminary” product information describes products that are in production, but for which full characterization data is not yet available. Cirrus Logic, Inc. and its subsidiaries (“Cirrus”) believe 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). Customers are advised to obtain the latest version of relevant information to verify, before placing
orders, that information being relied on is current and complete. All products are sold subject to the terms and conditions of sale supplied at the time of order acknowledgment, including those pertaining to warranty, indemnification, and limitation of liability. No responsibility is assumed by Cirrus for the use of this information, including use of this information as the basis for manufacture or sale of any items, or for infringement of patents or other rights of third parties. This document is the property
of Cirrus and by furnishing this information, Cirrus grants no license, express or implied under any patents, mask work rights, copyrights, trademarks, trade secrets or
other intellectual property rights. Cirrus owns the copyrights associated with the information contained herein and gives consent for copies to be made of the information only for use within your organization with respect to Cirrus integrated circuits or other products of Cirrus. This consent does not extend to other copying such as
copying for general distribution, advertising or promotional purposes, or for creating any work for resale.
CERTAIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OF DEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE (“CRITICAL APPLICATIONS”). CIRRUS PRODUCTS ARE NOT DESIGNED, AUTHORIZED OR WARRANTED FOR USE IN
PRODUCTS SURGICALLY IMPLANTED INTO THE BODY, AUTOMOTIVE SAFETY OR SECURITY DEVICES, LIFE SUPPORT PRODUCTS OR OTHER CRITICAL
APPLICATIONS. INCLUSION OF CIRRUS PRODUCTS IN SUCH APPLICATIONS IS UNDERSTOOD TO BE FULLY AT THE CUSTOMER'S RISK AND CIRRUS
DISCLAIMS AND MAKES NO WARRANTY, EXPRESS, STATUTORY OR IMPLIED, INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR PARTICULAR PURPOSE, WITH REGARD TO ANY CIRRUS PRODUCT THAT IS USED IN SUCH A MANNER. IF THE CUSTOMER OR CUSTOMER'S
CUSTOMER USES OR PERMITS THE USE OF CIRRUS PRODUCTS IN CRITICAL APPLICATIONS, CUSTOMER AGREES, BY SUCH USE, TO FULLY INDEMNIFY CIRRUS, ITS OFFICERS, DIRECTORS, EMPLOYEES, DISTRIBUTORS AND OTHER AGENTS FROM ANY AND ALL LIABILITY, INCLUDING ATTORNEYS'
FEES AND COSTS, THAT MAY RESULT FROM OR ARISE IN CONNECTION WITH THESE USES.
Cirrus Logic, Cirrus, the Cirrus Logic logo designs, DSP Composer, and Cirrus Framework are trademarks of Cirrus Logic, Inc. All other brand and product names in
this document may be trademarks or service marks of their respective owners.
Dolby, Dolby Digital, Dolby Headphone, Dolby Virtual Speaker, Dolby Headphone, Pro Logic, AC-3, and Surround EX are registered trademarks of Dolby Laboratories,
Inc. AAC is a trademark of Dolby Laboratories, Inc. Supply of an implementation of Dolby Technology does not convey a license nor imply a right under any patent,
or any other industrial or Intellectual Property Right of Dolby Laboratories, to use the Implementation in any finished end-user or ready-to-use final product. It is hereby
notified that a license for such use is required from Dolby Laboratories.
PR
EL
IM
DTS , DTS Digital Surround, and DTS Neo:6 are registered trademarks of the Digital Theater Systems, Inc. DTS-ES 96/24, DTS-ES, DTS 6.1, and DTS 96/24 are
trademarks of Digital Theater Systems, Inc. It is hereby notified that a third-party license from DTS is necessary to distribute software of DTS in any finished end-user
or ready-to-use final product.
THX Technology by Lucasarts Entertainment Company Corporation. THX is a registered trademark of Lucasarts Entertainment Company Corporation. Re-equalization and Ultra 2 are trademarks of Lucasfilm Ltd.
SRS, Circle Surround and Trusurround XT are registered trademarks of SRS Labs, Inc. Circle Surround II is a trademark of SRS Labs, Inc. The CIRCLE SURROUND
TECHNOLOGY rights incorporated in the Cirrus Logic chip are owned by SRS Labs, Inc. and by Valence Technology Ltd., and licensed to Cirrus Logic, Inc.
Users of any Cirrus Logic chip containing enabled CIRCLE SURROUND® TECHNOLOGY (i.e., CIRCLE SURROUND® LICENSEES) must first sign a license to purchase production quantities for consumer electronics applications which may be granted upon submission of a preproduction sample to, and the satisfactory passing
of performance verification tests performed by SRS Labs, Inc., or Valence Technology Ltd. E-mail requests for performance specifications and testing rate schedule
may be made to [email protected]. SRS Labs, Inc. and Valence Technology, Ltd., reserve the right to decline a use license for any submission that does not
pass performance specifications or is not in the consumer electronics classification.
All equipment manufactured using any Cirrus Logic chip containing enabled CIRCLE SURROUND® TECHNOLOGY must carry the Circle Surround® logo on the front
panel in a manner approved in writing by SRS Labs, Inc., or Valence Technology Ltd. If the Circle Surround logo is printed in users manuals, service manuals or
advertisements, it must appear in a form approved in writing by SRS Labs, Inc., or Valence Technology, Ltd. The rear panel of Circle Surround® products, users
manuals, service manuals, and all advertising must all carry the legends as described in LICENSOR'S most current version of the CIRCLE SURROUND Trademark
Usage Manual.
Microsoft and Windows Media are registered trademarks of Microsoft Corporation. The product includes technology owned by Microsoft Corporation and cannot be
used or distributed without a license from Microsoft Licensing, Inc.
, HDCD, High Definition Compatible Digital and Pacific Microsonics Inc. are either registered trademarks or trademarks of Microsoft Corporation in the United
States and/or other countries. HDCD technology provided under license from Microsoft Corporation. The product's design (and/or software) is covered by one or more
of the following: 5,479,168; 5,638,074; 5,640,161; 5,808,574; 5,838,274; 5,854,600; 5,864,311; 5,872,531 with other patents pending.
Supply of this product does not convey a license under the relevant intellectual property of Thomson multimedia and/or Fraunhofer Gesellschaft nor imply any right to
use this product in any finished end user or ready-to-use final product. An independent license for such use is required. For details, please visit
http://www.mp3licensing.com.
Motorola and SPI are trademarks of Motorola, Inc.
Intel is a registered trademark of Intel Corporation.
I2C is a trademark of Philips Semiconductor.
ARM is a registered trademark of ARM Limited.
Logic7 is a registered trademark of Harmon International Industries, Inc.
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Copyright 2009 Cirrus Logic
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