TMS320C6424
Evaluation Module
2007 DSP Development Systems
Reference
Technical
TMS320C6424 Evaluation
Module Technical Reference
509125-0001 Rev. A
February 2007
SPECTRUM DIGITAL, INC.
12502 Exchange Drive, Sui t e 440 Stafford, TX. 77477
Tel: 281.494.4505 Fax: 281.494.5310
sales@spectrumdigital .com www.spectr umdi gital.com
IMPORTANT NOTICE
Spectrum Digital, Inc. reserves the right to make changes to its products or to discontinue any
product or service without notice. Customers are advised to obtain the latest version of relevant
information to verify that the data being relied on is current before placing orders.
Spectrum Digital, Inc. warrants performance of its products and related software to current
specifications in accordance with Spectrum Digital’s standard warranty. Testing and other quality
control techniques are utilized to the extent deemed necessary to support this warranty.
Please be aware that the products described herein are not intended for use in life-support
appliances, devices, or systems. Spectrum Digital does not warrant nor is Spectrum Digital liable for
the product described herein to be used in other than a development environment.
Spectrum Digital, Inc. assumes no liability for applications assistance, customer product design,
software performance, or infringement of patents or services described herein. Nor does Spectrum
Digital warrant or represent any license, either express or implied, is granted under any patent right,
copyright, or other intellectual property right of Spectrum Digital, Inc. covering or relating to any
combination, machine, or process in which such Digital Signal Processing development products or
services might be or are used.
WARNING
This equipment is intended for use in a laboratory test environment only. It generates, uses, and can
radiate radio frequency energy and has not been tested for compliance with the limits of computing
devices pursuant to subpart J of part 15 of FCC rules, which are designed to provide reasonable
protection against radio frequency interference. Operation of this equipment in other environments
may cause interference with radio communications, in which case the user at his own expense will be
required to take whatever measures necessary to correct this interference.
Copyright © 2007 Spectrum Digital, Inc.
Contents
1 Introduction to the C6424 Evaluation Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Provides you with a description of the C6424 Evaluation Module, key features, and block diagram.
1.1 Key Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
1.2 Functional Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
1.3 Basic Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
1.4 Memory Map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
1.5 Configuration Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.6 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.7 Power Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
2 Board Component s . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Describes the operation of the major board components on the C6424 Evaluation Module.
2.1 EMIF Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2.1.1 DDR2 Memory Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2.1.2 Flash, NAND Flash, SRAM Memory Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2.2 Peripheral Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2.2.1 VLYNQ Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2.2.2 UART Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2.3 AIC33 Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
2.4 Ethernet Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
2.5 I2C Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
2.5.1 I/O Expanders . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
2.5.2 I2C EEPROM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
2.6 S/PDIF Analog, and Optical Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
2.7 Daughter Card Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
2.8 C6424 Core CPU Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
2.9 C6424 Core Voltage Select . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
3 Physical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Describes the physical layout of the C6424 Evaluation Module and its connectors.
3.1 Board Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
3.2 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
3.2.1 J10, S/PDIF Out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
3.2.2 J16, +5V Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
3.2.3 J20, Mini PCI Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
3.2.4 J501, Embedded Mini USB Emulation Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7
3.2.5 P3, Ethernet Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7
3.2.6 P4, PCI Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
3.2.7 P8, RS-232 UART . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
3.2.8 P10, Audio Line In Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11
3.2.9 P1 1, Microphone In Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 1
3.2.10 P12, Headphone Out Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 1
3.2.11 P13, Audio Line Out Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12
3.2.12 P14, S/PDIF Out (Optical) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12
3.2.13 DC_P1, Memory/Video Expansion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3- 13
3.2.14 DC_P2, Peripheral Expansion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-14
3.2.15 DC_P3, VLYNQ Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15
3.3 Jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15
3.3.1 JP1 Jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16
3.3.2 JP2 Jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16
3.3.3 JP3 Jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16
3.3.4 JP4 Jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16
3.4 LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-17
3.5 Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-17
3.5.1 SW1, Bootload Mode Selections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-18
3.5.2 SW2, Bootload Configuration Select . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
3.5.3 SW3, EMDATA Select . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
3.5.4 SW4, 4 Position User Readable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
3.5.5 SW5, Power On Reset Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
3.5.6 SW6, Reset Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19
3.5.7 SW7, Slide Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-20
3.6 Test Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-21
A Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1
Contains the schematics for the C6424 Evaluation Module
B Mechanical Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1
Contains the mechanical information about the C6424 Evaluation Module
About This Manual
This document describes the board level operations of the C6424 Evaluation Module
(EVM). The EVM is based on the Texas Instruments TMS320C6424 Processor.
The C6424 Evaluation Module is a table top card that allows engineers and software
developers to evaluate certain characteristics of the C6424 processor to determine if
the processor meets the designers application requirements. Evaluators can create
software to execute on board or expand the system in a variety of ways.
Notational Conventions
This document uses the following conventions.
The C6424 Evaluation Module will sometimes be referred to as the C6424 EVM or
EVM.
Program listings, program examples, and interactive displays are shown in a special
italic typeface. Here is a sample program listing.
equations
!rd = !strobe&rw;
Information About Cautions
This book may contain cautions.
This is an example of a caution statement.
A caution statement describes a situation that could potentially damage your software,
or hardware, or other equipment. The information in a caution is provided for your
protection. Please read each caution carefully.
Related Documents, Application Notes and User Guides
Information regarding this device can be found at the following Texas Instruments
website:
http://www.ti.com
Table 1: Manual History
Revision History
A Alpha Release
Table 2: Board History
Revision History
A Alpha Release
1-1
Chapt e r 1
Introduction to the
C6424 EVM
Chapter One provides a description of the C6424 EVM along with the
key features and a block diagram of the circuit board.
Topic Page
1.1 Key Features 1-2
1.2 Functional Overview 1-3
1.3 Basic Operation 1-4
1.4 Memory Map 1-4
1.5 Configuration Switch Settings 1-5
1.6 Power Supply 1-5
1.7 Power Measurement 1-5
Spectrum Digital, Inc
1-2 C6424 EVM Technical Reference
1.1 Key Features
The C6424 EVM is a PCI based or standalone development platform that enables
users to evaluate and develop applications for the TI C64xx processor family.
Schematics, list of materials, and application notes are available to ease hardware
development and reduce time to market.
The EVM comes with a full complement of on board devices that suit a wide variety of
application environments. Key features include:
• A Texas Instruments C6424 processor operating up to 600 Mhz.
• 128 Mbytes of DDR2 DRAM
• UART I/O Interface
• 16 Mbytes of non-volatile Flash memory, 64 Mbytes NAND Flash, 2 Mbytes SRAM
• AIC33 stereo codec
• I2C Interface with onboard eeprom and expanders
• 10/100 MBS Ethernet Interface
• Configurable boot load options
• Embedded JTAG emulation interface
• 4 user LEDs and 4 position user switch
• Single voltage power supply (+5V)
• Expansion connectors for daughter card use
• VLYNQ Interface
• S/PDIF Interface, analog, and optical
Spectrum Digital, Inc
1-3
1.2 Functional Overview of the C6424 EVM
The C6424 on the EVM interfaces to on-board peripherals through integrated device
interfaces and a 16-bit wide EMIF bus. The DDR2 memory is connected to its own
dedicated 32 bit wide bus. The EMIF bus is jumper selectable to be connected to the
Flash, SRAM, NAND, and daughter card expansion connectors which are used for
add-on boards.
An on-board AIC33 codec allows the DSP to transmit and receive analog audio signals.
The I2C bus is used for the codec control interface, while the McBSP controls the audio
stream. Signal interfacing is done through 3.5mm audio jacks that correspond to
microphone input, line input, line output, and headphone outputs.
The EVM includes 4 user LEDs, and 4 position user DIP switch which can be used to
provide the user with interactive feedback. These interfaces are implemented via
I2C expanders.
VLYNQ, and ethernet MAC interfaces are integrated peripherals on the C6424
processor exploiting its system on a chip architecture. VLYNQ is available when the
PCI is not used.
An included 5V external power supply is used to power the board. On-board switching
voltage regulators provide the +1.2V CPU core voltage and +3.3V for peripherals and
+1.8V DDR2 memory. The board is held in reset until these supplies are within
operating specifications.
Code Composer communicates with the EVM through an embedded emulator or via
the 14 pin external JTAG connector.
Figure 1-1, Block Diagram C6424 EVM
VLNQ
Mini P C I
ENET
RJ45
PWR
MIC IN
LINE IN
LINE OUT
NOR
Flash
32
EMIF
McBSP1 or McASP0
PCI Connector
I
2
C Bus
LEDs
Ext JTAG
RS-232
USB
EMU
RST
12
AEM2
AEM1
AEM0
PCI
NAND
Flash
SRAM
1234
HP Out
3.3V I/O Supply
POR
1.2V Core Supply
1.8V Supply
DIP
DDR2
DDR2
SPI ROM
Embedded
JTAG Emulator
AIC33
Codec
UART Switches
UARTs
ENET
PHY
RMII MII
S/PDIF
(optical)
S/PDIF
C6424
McBSP0
34
1234567
BM0
BM1
BM2
BM3
FASTB
ENDIAN
8/16
JTAG
DC_P1
DC_P2
Spectrum Digital, Inc
1-4 C6424 EVM Technical Reference
1.3 Basic Operation
The EVM is designed to work with TI’s Code Composer Studio development. Code
Composer communicates with the board through the embedded emulator or an
external JTAG emulator. To start, follow the instructions in the Quick Start Guide to
install Code Composer. This process will install all of the necessary development tools,
documentation and drivers.
Detailed information about the EVM including examples and reference material is
available on the EVM’s CD-ROM.
1.4 Memory Map
The C64xx family of processors have a large byte addressable address space, some
limitations to byte addressing are determined by peripheral interconnection to the
C6424 device. Program code and data can be placed anywhere in the unified
address space. Addresses are multiple sizes depending on hardware implementation.
Refer to the appropriate device data sheets for more details.
The memory map shows the address space of a C6424 processor on the left with
specific details of how each region is used on the right. By default, the internal memory
sits at the beginning of the address space. Portions of memory can be remapped in
software as L2 cache rather than fixed RAM.
The part incorporates a dual EMIF interface. One dedicated EMIF directly interfaces to
the DDR2 memory. The Flash, NAND Flash, or SRAM are mapped into CS2 space and
selectable via JP2. When CS2 is used for daughter card interfacing JP2 must be set
appropriately.
Cache/RAM
C6424 EVM
Address
0x10800000
0x42000000
0x44000000
0x48000000
0x4C000000
0x80000000
Figure 1-2, Memory Map, C6424 EVM
CS2
CS3
0x46000000 CS4
CS5
VLNQ
DDR
Spectrum Digital, Inc
1-5
1.5 Configuration Switch Settings
The EVM has a two configuration switches that allow users to control the operational
state of the processor when it is released from reset. The configuration switches are
labeled SW1 and SW2 on the EVM board.
Switch SW1 configures the boot mode that will be used when the DSP starts executing.
By default the switches are configured to EMIF boot (out of 16-bit Flash). Refer to
section 3.5.1 for the boot load options using switch SW1.
1.6 Power Supply
The EVM operates from a single +5V external power supply connected to the main
power input (J16), a 2.5 MM. barrel-type plug. Internally, the +5V input is converted
into +1.2V, +1.8V and +3.3V using Texas Instruments swift voltage regulators. The
+1.2V supply is used for the DSP core while the +3.3V supply is used for the DSP's I/O
buffers and other chips on the board. The +1.8 volt supply is used for C6424
DDR2 interface, and DDR2 memory.
There are three power test points on the EVM; TP23, TP34, and TP38. These test
points provide a convenient mechanism to check the EVM’s multiple power supplies.
The table below shows the voltages for each test point and what the supply is used for.
1.7 Power Measurement
The EVM supports power test points to allow measurement of the various power rails
on the C6424 device. Series resistors are used in the device’s power domains
thereby measuring the voltage across these resistors. The current can be calculated
via V = I * R.
Refer to the test point section in chapter 3 for detailed information on measuring current
on the C6424 device.
Table 1: Power Test Points
Test Point Voltage Voltage Use
TP23 +1.2 V C6424 Core
TP34 +3.3V DSP I/O and logic
TP38 +1.8 V DDR2 Memory, DSP I/O, and logic
Spectrum Digital, Inc
1-6 C6424 EVM Technical Reference
2-1
Chapt e r 2
Board Components
This chapter describes the operation of the major board components on
the C6424 EVM.
Topic Page
2.1 EMIF Interfaces 2-2
2.1.1 DDR2 Memory Interface 2-2
2.1.2 Flash, NAND Flash, SRAM Memory Interface 2-2
2.2 Peripheral Interfaces 2-2
2.2.1 VLYNQ Interface 2-2
2.2.2 UART Interface 2-2
2.3 AIC33 Interface 2-3
2.4 Ethernet Interface 2-4
2.5 I2C Interface 2-4
2.5.1 I/O Expanders 2-5
2.5.2 I2C EEPROM 2-7
2.6 S/PDIF Analog, and Optical Interfaces 2-7
2.7 Daughter Card Interface 2-8
2.8 C6424 Core CPU Clock 2-8
2.9 C6424 Core Voltage Select 2-8
Spectrum Digital, Inc
2-2 C6424 EVM Technical Reference
2.1 EMIF Interfaces
A separate 16 bit EMIF with multiple chip selects divide up the address space and allow
for asynchronous accesses on the EVM. On board the CS2 is used for Flash, NAND
Flash, or SRAM.
2.1.1 DDR2 Memory Interface
The C6424 device incorporates a dedicated 32 bit wide DDR2 memory bus. The
EVM uses two 512 megabit 16 bit wide memories on this bus, for a total of 128
megabytes of memory for program, data, and video storage. The internal DDR
controller uses a PLL to control the DDR memory timing. The interface supports rates
up to 166 Mhz., and is clocked on differential edges for optimal performance. Memory
refresh for DDR2 is handled automatically by the C6424 internal DDR controller.
2.1.2 Flash, NAND Flash, SRAM Memory Interface
The C6424 has 16 megabytes of NOR Flash, or 64 megabytes of NAND Flash, or
2 megabyte of SRAM memory mapped into the CS2 space. This NOR Flash memory,
and NAND Flash memory are used primarily for boot loading. SRAM is used for
debugging application code. The CS2 space is configured as 16 bits wide on the
C6424 EVM for NOR Flash, SRAM. The NAND flash is always configured as an 8 bit
device.
2.2 Peripheral Interfaces
The C6424 has several peripheral interfaces which allow the user to interface to
external devices. These interfaces are outlined in the following sections.
2.2.1 VLYNQ Interface
The C6424 brings its internal VLYNQ interface out to a mini PCI connector J20 and
small 20 pin connector DC_P3. The VLYNQ interface is multiplexed on the PCI/EM bus
and this bus must be reconfigured after boot up to support VLYNQ. A multiplexer is
used to minimize board layout stubs and allow as direct as possible interface for the
VLYNQ signals. VLYNQ is not operational if the board is used in a PCI slot.
2.2.2 UART Interface
The internal UART0 on the C6424 device is driven to connector P8. The UART’s
interface is routed to a Texas Instruments MAX3221 RS-232 line driver prior to being
brought out to a male DB-9 connector, P8. The on board UART signals can be disabled
by pulling the RS232_ENABLEn signal high via the daughter card connectors.
Spectrum Digital, Inc
2-3
2.3 AIC33 Interface
The EVM uses a Texas Instruments TLV320AIC33 stereo codec for input and output of
audio signals. The codec samples analog signals on the microphone or line inputs and
converts them into digital data so it can be processed by the DSP. When the DSP is
finished with the data it uses the codec to convert the samples back into analog signals
on the line output so the user can hear the output.
The codec communicates using two serial channels, one to control the codec’s internal
configuration registers and one to send and receive digital audio samples. The I2C bus
is used as the unidirectional control channel. The control channel is generally only used
when configuring the codec, it is typically idle when audio data is being transmitted,
The default configuration is to use the McBSP is used as the bi-directional data
channel. However, optionally the McASP can be used to drive the data channel. Data
channel selection is controller via an on board I2C expander. All audio data flows
through the data channel. Many data formats are supported based on the three
variables of sample width, clock signal source and serial data format. The EVM
examples generally use a 16-bit sample width with the codec in master mode so it
generates the frame sync and bit clocks at the correct sample rate without effort on the
DSP side.
The codec has a fixed clock from a 12 Mhz. source. The internal sample rate generate
subdivides the 12 MHz clock to generate common frequencies such as 48KHz and
8KHz. The sample rate is set by a codec register. The figure below shows the codec
interface on the C6424 EVM.
Figure 2-2, C6424 EVM CODEC INTERF ACE
DOUT
DIN
BCLK
WCLK
MIC IN
LINE IN
LINE OUT
HP OUT
M
cASP
or
McBSP
I2S Format
AIC33 Codec
Digital Analog
MIC IN
LINE IN
LINE OUT
HP OUT
SCL
SDA
I
2
C
Control
SCL
SDA I
2
C For mat
DX
DR
CLKR
CLKX
FSR
FSX
Cont rol Regi s ters
ADC
DAC
AXR[0]
AXR[1]
ACLKR
ACLKX
AFSR
AFSX
Spectrum Digital, Inc
2-4 C6424 EVM Technical Reference
2.4 Ethernet Interface
The C6424 integrates an ethernet MAC on chip. The EVM supports RMII and MII
protocols. The mode of operation is switch selectable via SW3. This interface is routed
to the PHY via CBT switches. The EVM uses an Micrel KS8001L PHY. The 10/100 Mbit
interface is isolated and brought out to a RJ-45 standard ethernet connector, P3. The
PHY directly interfaces to the C6424. The ethernet address is stored in the I2C serial
ROM during manufacturing.
The RJ-45 has 2 LEDs integrated into its connector. The LEDs are green and yellow
and indicate the status of the ethernet link. The green LED, when on, indicates link and
when blinking indicates link activity. The yellow LED, when illuminated, indicates full
duplex mode.
2.5 I2C Interface
The I2C bus on the C6424 is ideal for interfacing to the control registers of many
devices. On the C6424 EVM the I2C bus is used to configure the stereo Codec, I/O
expanders. An I2C ROM is also interfaced via the serial bus. The format of the bus is
shown in the figu re below.
The addresses of the on board peripherals are shown in the table below.
Table 1: I2C Memory Map
Device Address R/W Device Function
PCF 8574A 0x38 R/W U10 User Input
PCF 8574A 0x39 R/W U11 User LEDs
PCF 8574A 0x3A R/W U13 PLL, User I/O
PCF8574A 0x3B R/W U64 User I/O
TLV320AIC33 0x1B R/W U43 CODEC
24WC256 0x50 R/W U25 I2C EEPROM
Figure 2-4, I2C Bus Format
Start Slave Address W ACK Sub Address ACK-S Data ACK-S Stop
Write Sequence
Start Slave Address R Data STOP
Read Sequence
Spectrum Digital, Inc
2-5
2.5.1 I/O Expanders
The C6424 EVM uses four I2C expanders to handle various bit I/O functions. Each
of these is an 8 bit I/O expander, a PCF8574A. At Power Up Reset the expanders are
initialized to 0xFF, all ones. The functions for each of the I/O expanders are shown in
the tables below.
Table 2: U10 I/O Expander
Pin Number Function Description
P0 Jum per JP1 Read only user jumper
P1 SW7 Slide Switch Read only slide switch
P2 Reserved None
P3 Reserved None
P4 SW4-1 Read only user switch
P5 SW4-2 Read only user switch
P6 SW4-3 Read only user switch
P7 SW4-4 Read only user switch
Table 3: U11 I/O Expander
Pin Number Function Description
P0 User LED DS1 0=T urns LED on, 1=Turns LED off
P1 User LED DS2 0=T urns LED on, 1=Turns LED off
P2 User LED DS3 0=T urns LED on, 1=Turns LED off
P3 User LED DS4 0=T urns LED on, 1=Turns LED off
P4 VLYNQ Reset 0=Removes Reset, 1=Applies Reset
P5 Reserved None
P6 User I/O DC_P2 To daughter card, DC_P2 Pin 81
P7 User I/O DC_P2 To daughter card, DC_P2 Pin 82
Spectrum Digital, Inc
2-6 C6424 EVM Technical Reference
* only one should be enabled at a time
Table 4: U13 I/O Expander
Pin Numbe r Function Description
P0 User I/O Daughter Card, DC_P2 Pin 87
P1 User I/O Daughter Card, DC_P2 Pin 88
P2 User I/O Daughter Card, DC_P2 Pin 85
P3 User I/O Daughter Card, DC_P2 Pin 84
P4 Reserved
P5 Reserved
P6 Reserved
P7 Reserved
Table 5: U64 I/O Expander
Pin Numbe r Function Description
P0 McBSP_Enable to AIC23 * 1=Enable, 0=Disable
P1 McASP_Enable to AIC23 * 0=Enable, 1=Disable
P2 SPDIF Enable * 0=Enable, 1=Disable
P3 Reserved None
P4 Reserved None
P5 Reserved None
P6 Reserved None
P7 Core Voltage Select 0 = 1.05 Volt, 1 = 1.2 Volt
Spectrum Digital, Inc
2-7
2.5.2 I2C EEPROM
The C6424 EVM incorporates an I2C eeprom that can be used for booting or general
purpose storage.
This eeprom is also used to store the ethernet MAC address and the board’s revision.
The MAC address is also labeled on the board. Care should be taken not to erase
these items when user information is stored in the eeprom. Spectrum Digital uses
addresses 0x7F00 to 0x7FFF for manufacturing information. This information is
shown in the table below.
2.6 S/PDIF Analog, and Optical Interfaces
The McBSP’s FSR pin on the C6424 can be configured to operate as a S/PDIF
transmitter. The C6424 EVM supports both analog and optical interfaces. The
analog S/PDIF output pin is routed to a driver and filter circuit before being output on
J10. I2C Expander U64 output P2 is used to enable the S/PDIF interface. When
S/PDIF is selected on the expander (P2=0), the McASP enable should be disabled and
the McBSP enable should be disabled.Another driver is used to interface the optical
transmitter P14. When the S/PDIF interface is enabled the TLV320AIC33 codec is
disabled, the WCLK should be disabled prior to enabling the S/PDIF output.
The McBSP interface can be disabled for daughter card use by pulling the
AIC_ENABLEn signal high from the daughter card connector.
Table 6: C6424 MAC Addresses
Address Contents
0x7F00 EMAC Address 0
(most signi ficant)
0x7F01 EMAC Address 1
0x7F02 EMAC Address 2
0x7F03 EMAC Address 3
0x7F04 EMAC Address 4
0x7F05 EMAC Address 5
0x7F06 Reserved
0x7F07 Board Revision
Spectrum Digital, Inc
2-8 C6424 EVM Technical Reference
2.7 Daughter Card Interfaces
The EVM provides expansion connectors that can be used to accept plug-in daughter
cards. The daughter card allows users to build on their EVM platform to extend its
capabilities and provide customer and application specific I/O. The expansion
connectors are for all major interfaces including memory, peripherals, and video
expansion.
The pin outs for this interface are documented in Section 3.
The connectors provide access to the DSP’s EMIF signals to interface with memories
and memory mapped devices. The video capture port is brought out to the daughter
card interface.
Several signals are used to disable the on board video peripherals so that they can be
used by the expansion connector. The table below indicates the operation of these
signals.
Other than the buffering, most daughter card signals are not modified on the board.
2.8 C6424 Core CPU Clock
The C6424 EVM uses a 27 Megahertz crystal to generate the input clock. The
C6424 has an internal PLL which can multiply the input clock to generate the internal
clock. The PLL multiplier is set via software on the C6424 device.
2.9 C6424 Core Voltage Select
The C6424 EVM has the ability to adjust the core voltage between 1.2 volts and
1.05 volts. an I/O expander is used to control this I2C feature.
Table 7: Daughter Card Interface
Signal Function
AIC33_ENABLEn Disconnects CPU from on board codec
EMADD_ENABLEn Disables upper on board EMIF address lines
MEM_EMD7-0_ENABLEn Disables CPU from on board data bus D0-D7
MEM_EMD15-8_ENABLEn Disables CPU from on board data bus D15-D8
ENET_ENABLEn Disconnects CPU from on board ethernet PHY
RS232_ENABLEn Disconnects CPU from on board UART
3-1
Chapt e r 3
Physical Description
This chapter describes the physical layout of the C6424 EVM and its
interfaces.
Topic Page
3.1 Board Layout 3-3
3.2 Connecto rs 3-4
3.2.1 J10, S/PDIF Out 3-5
3.2.2 J16, +5V Input 3-5
3.2.3 J20, Mini PCI Interface 3-6
3.2.4 J501, Embedded Mini USB Emulation Interface 3-7
3.2.5 P3, Ethernet Interface 3-7
3.2.6 P4, PCI Connector 3-8
3.2.7 P8, RS-232 UART 3-10
3.2.8 P10, Audio Line In Connector 3-11
3.2.9 P11, Microphone In Connector 3-11
3.2.10 P12, Headphone Out Connector 3-11
3.2.11 P13, Audio Line Out Connector 3-12
3.2.12 P14, S/PDIF Out (Optical) 3-12
3.2.13 DC_P1, Memory/Video Expansion 3-13
3.2.14 DC_P2, Peripheral Expa nsion 3-14
3.2.15 DC_P3, VLYNQ Connector 3-15
Spectrum Digital, Inc
3-2 C6424 EVM Technical Reference
Topic Page
3.3 Jumpers 3-15
3.3.1 JP1 Jumper 3-16
3.3.2 JP2 Jumper 3-16
3.3.3 JP3 Jumper 3-16
3.3.4 JP4 Jumper 3-16
3.4 LEDs 3-17
3.5 Switches 3-17
3.5.1 SW1, Bootload Mode Selections 3-18
3.5.2 SW2, Bootload Configuration Select 3-19
3.5.3 SW3, EMIF Dat a Select 3-19
3.5.4 SW4, 4 Positio n User Readable 3-19
3.5.5 SW5, Power On Reset Switch 3-19
3.5.6 SW6, Reset Swit ch 3-19
3.5.7 SW7, Slide Switch 3-20
3.6 Test Points 3-21
Spectrum Digital, Inc
3-3
3.1 Board Layout
The C6424 EVM is a 8.75 x 4.5 inch (210 x 115 mm.) ten (10) layer printed circuit
board which is powered by an external +5 volt only power supply. Figure 3-1 shows the
layout of the C6424 EVM.
Figure 3-1, C6424 EVM, Interfaces Top Side
SW2
J501
P11
J16
J10
DC_P1
SW6
DC_P2
P3
P4
P8
DS501
DS5
DS1-DS4
J6
P10
P14
P12
P13
SW4
SW5
SW7
SW3
SW1
JP4
JP3
JP1
JP2
DC_P3
J20
DS501
Spectrum Digital, Inc
3-4 C6424 EVM Technical Reference
3.2 Connectors
The EVM has twenty three (23) connectors providing interfaces to various peripherals.
These connectors are described in the following sections.
* Not populated
Table 1: Connectors
Connector Size Function
J6 14 External
Emulati on Head er
J10 RCA S/PDIF Out
J16 2.5 mm +5V In
J20 2 x 62 Mini PCI Interface
J501 Mini USB Embedded USB
Emulation Interface
P3 RJ-45 Ethernet
P4 PCI PCI
P8 9 Pin D-sub RS-232 UAR T
P10 3.5 mm Stereo Line In
P11 3.5 mm Microphone In
P12 3.5 mm Headphone Out
P13 3.5 mm Stereo Line Out
P14 Optical S/PDIF Out
DC_P1 2x50 Expansion
DC_P2 2x45 Expansion
DC_P3 2x10 Expansion
Spectrum Digital, Inc
3-5
3.2.1 J10, S/PDIF Out
J10 is an RCA jack used as an analog output from the McBSP FSR signal on the DSP.
This connector brings out the S/PDIF signal. Do NOT plug into this connector with the
power on. The figure below shows this connector as viewed from the card edge.
3.2.2 J16, +5V Input
Connector J16 is the input power connector. This connector bring in +5 volts to the
EVM. This is a 2.5 mm. jack. The figure below shows this connector as viewed from
the card edge.
Table 2: J10, S/PDIF, RCA Jack
Pin # Signal Name
1 S/PDIF Analog output
2GND
Figure 3-2, J10, S/PDIF Out, RCA Jack
Pin 2, Shield (ground)
Pin 1, Signal Output
PC Board
J14 +5V
Ground
Front View
Figure 3-3, J16, +5 Volt Input Connector
Spectrum Digital, Inc
3-6 C6424 EVM Technical Reference
3.2.3 J20, Mini PCI Interface
Connector J20 provides a mini-PCI on the C6424 EVM. Do NOT plug into this
connector with the power on. The table below shows the signals on this connector.
Table 3: J16, VLYNQ Card Interface
Pin # Signal
2,3,4,5,6,7,8,10,11,
12,13,15,17,18,29,
30,38,39,47,49,51,
53,55,57,71,73,75,
77,80,82,84,86,93,
98,100,104,105,
106,107,108,109,
113,115,116,117,
118,120,122,123,
124
NC
9,14,20,23,25,27
32,33,34,35,37,41,
42,44,45,46,48,50,
52,54,56,58,60,62,
64,66,68,69,72,74,
76,78,79,81,83,85,
87,90,91,92,94,95,
96,99,101,102,
110,114,119
GND
111 VCC_1.8V
1,19,28,31,40,63,
70,88,89 VCC_3.3V
97,103 VCC_5V
16 VLYNQ_CLK
21 VLYNQ_RXD0
22 VLYNQ_RXD1
24 VLYNQ_SCRUN
26 VLYNQ_RESET
59 VLYNQ_RXD2
61 VLYNQ_RXD3
36 VLYNQ_TXD0
65 VLYNQ_TXD2
67 VLYNQ_TXD3
43 VLYNQ_TXD1
Spectrum Digital, Inc
3-7
3.2.4 J501, Embedded Mini USB Emulation Interface
This connector allows the user to run software development tools and emulation
without an external emulator. The signals on this connector are shown in the table
below.
3.2.5 P3, Ethernet Interface
The P3 connector is used to provide an 10/100 Mbps Ethernet interface. This is a
standard RJ-45 connector. The pinout for the P3 connector is shown in the table below.
Two LEDs are embedded into the connector to report link status.
Table 4: J501, Embedded Mini USB Emulation Interface
Pin # Signal Name
1 VBUS
2D-
3D+
4 ID (not used)
5 Ground
Table 5: P3, Ethernet Interface
Pin # Signal Pin # Signal
1 LXT_TDP 2 LXT_TDM
3 LXT_RDP 4 LXT_TDCT
5NC6LXT_RDM
7NC8 GND
Table 6: Ethernet LEDs
LED # Color
LED1 Green
LED2 Yellow
Spectrum Digital, Inc
3-8 C6424 EVM Technical Reference
3.2.6 P4, PCI Connector
The P4 connector is a card edge PCI interface. This connector has an “A” and “B” side.
Because of the card seating notches the pin numbers are not contiguous. The “B” side
is the top component side. The I/O direction field is referenced from the PCI slot.
Table 7: P4, PCI Connector, “A” Side
Pin Signal I/O Description Pin Signal I/O Description
1 TRST- Not Used 2 +1 2 V olts Not Used
3 TMS Not Used 4 TDI I/O Tied to TDO
5 +5 Volts +5 Volts Power 6 INTA- O Interrupt Out
7 INTC- O Interrupt Out 8 +5 Volts +5 Volts Power
9 Rsvd.0 Not Used 10 +V I/O Not Used
11 Rsvd.1 Not Used 12 Key.1 Key
13 Key.2 Key 14 +3.3 Vaux Not Used
15 RST- I PCI_Re setn 16 +V I/O O Not Used
17 GNT- O Grant- 18 GND Ground
19 PME- 20 AD30 I/O/Z Ad dress/Data 30
21 +3.3 Volts Not Used 22 AD28 I/O/Z Address/Data 28
23 A D26 I/O /Z Ad dre ss/Da ta 26 24 GN D
25 AD24 I/O/Z Address/Data 24 26 IDSEL I Initialization Device Select
27 +3.3 Volts Not Used 28 AD22 I/O/Z Address/Data 22
29 AD20 I/O/Z Addre ss/Da ta 20 30 GN D G ro un d
31 A D18 I/O/Z Ad dre ss/D a ta 18 32 AD16 I/O/Z Ad dre ss/Da ta 16
33 +3.3 Volts Not Used 34 FRAME- I Frame
35 GND Ground 36 TRDY- I/O/Z Target Ready
37 GND Ground 3 8 STOP- I/O/Z St op D irect ion
39 +3.3 Volts Not Used 40 SDONE O Done
41 SBO- 42 GND Ground
43 PAR I/O/Z Parity 44 AD15 I/ O/Z A d dre ss/Da ta 15
45 +3.3 Volts Not Used 46 AD13 I/O/Z Address/Data 13
47 AD11 I/O/Z A d dre ss/Da ta 11 48 GN D Gro un d
49 AD9 I/O/Z Address/Data 9 50 Key .3 Key
51 Key.4 Key 52 C/BE0 Command/Byte Enable0
53 +3.3 Volts Not Used 54 AD6 I/O/Z Addre ss/Data 6
55 AD4 I/O/Z Address/Data 4 56 GND Ground
57 AD2 I/O/Z Address/Data 2 58 AD0 I/O/Z Address/Data 0
59 +V I/O Not Used 60 REQ64- Not Used
61 +5 Volts +5 Volts Power 62 +5 Volts +5 Volts Power
Spectrum Digital, Inc
3-9
The signals on the “B” side of the connector are shown in the table below.
Table 8: P4, PCI Connector, “B” Side
Pin Signal I/O Description Pin Signal I/O Description
1 -12 Volts Not Used 2 TCK I Not Used
3 GND Ground 4 TDO I Tied to TDO
5 +5 Volts +5 Volt Power 6 +5 Volts I +5 Volt Power
7 INTB- Interrupt OUT 8 INTD- Interrupt Out
9 PRSNT1- O Power Requirement 10 Rsvd.2
11 PRSNT2- O Power Requirement 12 Key.5 Key
13 Key.6 Key 14 Rsvd.3
15 GND Ground 16 CLK S ystem Clock
17 GND Ground 18 REQ-
19 +V I/O Not Used 20 AD31 I/O/Z Address/Data 31
21 AD29 I/O/Z Ad dre ss/Da ta 29 22 GND G ro un d
23 A D27 I/O/Z Addre ss/Da ta 27 24 AD 25 I/ O/Z A d dre ss/Da ta 25
25 +3.3 Volts Not Used 26 C/BE3 I/O/Z Command/Byte Enable 3
27 AD23 I/O/Z Ad dre ss/Da ta 23 28 GND G ro un d
29 A D21 I/O/Z Addre ss/Da ta 21 30 AD 19 I/ O/Z A d dre ss/Da ta 19
31 +3.3 Volts Not Used 32 A D17 I/ O/Z A d dre ss/Da ta 17
33 C/BE2- I/O/Z Co mm and /B yte Enab le 2 3 4 GN D Gro un d
35 IRDY- I Initiator Ready 36 +3.3 Volts Not Used
37 DEVSEL- I/O/Z Device Select 38 GND Ground
39 LOC K- I Resource Locked 40 PERR- I/O/Z Parity Erro r
41 +3.3 Volts Not Used 42 SERR- O System Error
43 +3.3 Volts Not Used 44 C/BE1- I/O/Z Command/Byte Enable 1
45 AD14 I/O/Z Addre ss/Data 14 46 GN D Ground
47 A D12 I/O/Z Addre ss/Da ta 12 48 AD 10 I/ O/Z A d dre ss/Da ta 10
49 M66EN O 66 Mhz Enabl e 50 Key.7 Key
51 Key.8 Key 52 AD8 I/O/Z Address/Data 8
53 AD7 I/O/Z Address/Data 7 54 +3.3 Volts Not Used
55 AD5 I/O/Z Address/Data 5 56 AD3 I/O/Z Address/Data 3
57 GND Ground 58 AD1 I/O/Z Address/Data 1
59 +V I/O Not Used 60 ACK64- Not Used
61 +5 Volts +5 Volt Power 62 +5 Volts +5 Volt Power
Spectrum Digital, Inc
3-10 C6424 EVM Technical Reference
3.2.7 P8, RS-232 UART Connector
The C6424 EVM has an RS-232 connector which brings out the SCI transmit and
receive signals to be used as UART. This UART uses the MAX3221 RS-232 line driver
and is routed to a male 9 pin D-connector, P8. The pin positions for the P8 connector
as viewed from the edge of the printed circuit board are shown below.
The pin numbers and their corresponding signals are shown in the table below. This
corresponds to a standard dual row to DB-9 connector interface used on personal
computers.
Table 9: P8, RS-232 UART Pinout
Pin # Signal Name
1 No Connect
2RXD
3TXD
4 No Connect
5GND
6 No Connect
7 No Connect
8 No Connect
9 No Connect
Figure 3-4, P8, DB9 Male Connector
6
7
8
9
12
34
5
Spectrum Digital, Inc
3-11
3.2.8 P10, Audio Line In Connector
The audio line in is a stereo input. The input connector is a 3.5 mm stereo jack. The
signals on the mating plug are shown in the figure below.
3.2.9 P11, Microphone Connector
The input is a 3.5 mm. stereo jack. Both inputs are connected to the microphone so it is
monaural. The signals on the plug are shown in the figure below.
3.2.10 P12, Headphone Connector
Connector P12 is a headphone/speaker jack. It can drive standard headphones or a
high impedance speaker directly. The standard 3.5 mm jack is shown in the figure
below.
Left Line In
Ground
Figure 3-5, Audio Line In Stereo Jack
Right Line In
Microphone In
Ground
Figure 3-6, Microphone Stereo Jack
Microphone Bias
Left Headphone
Ground
Figure 3-7, Headphone Jack
Right Headphone
Spectrum Digital, Inc
3-12 C6424 EVM Technical Reference
3.2.11 P13, Audio Line Out Connector
The audio line out is a stereo output. The output connector is a 3.5 mm stereo jack. The
signals on the mating plug are shown in the figure below.
3.2.12 P14, S/PDIF Out (Optical)
P14 is an optical transmitter connector used as an output from the McBSP FSR signal
on the C6424 DSP. This connector brings out an optical S/PDIF signal. Do NOT plug
into this connector with the power on. The figure below shows this connector as viewed
from the card edge.
Left Line Out
Ground
Figure 3-8, Audio Line Out Stereo Jack
Right Line Out
Spectrum Digital, Inc
3-13
3.2.13 DC_P1, Memory/Video Expansion-
Table 10: DC_P1, Memory/Video Expansion
Pin Signal Conn Pin Signal Conn
1 GROUND 2 GROUND
3 PCLK_GP[54] 4 MEM_D15-8_ENABLE
5 RESERVED 6 GROUND
7 EM_D[12]_GP39] 8 EM_D[11]_GP40]
9 EM_D[13]_GP[38] 10 EM_D[10]_GP[41]
11 EM_D[14]_GP[37] 12 EM_D[9]_GP[42]
13 EM_D[15]_GP[36] 14 EM_D[8]_GP[43]
15 GROUND 16 GROUND
17 RNW_GP[35] 18 EM_A[21]_GP[34]
19 VD_GP[53] 20 HD_GP[52]
21 EM_A[17]_GP[47] 22 EM_A[16]_GP[48]
23 EM_A[18]_GP[46] 24 EM_A[15]_GP[49]
25 EM_A[19]_GP[45] 26 EM_A[14]_GP[50]
27 EM_A[20]_GP[44] 28 EM_A[13]_GP[51]
29 GROUND 30 GROUND
31 VCLK_GP[31] 32 EM_CS4n_GP[32]
33 GROUND 34 GROUND
35 VPBECLK_GP[30] 36 EM_CS5n_GP[33]
37 GROUND 38 GROUND
39 GP[25]_BOOTMODE3 40 GP[26]_FASTBOOT
41 GP[24]_BOOTMODE2 42 GP[27]
43 GP[23]_BOOTMODE1 44 GP[28]
45 GP[22]_BOOTMODE0 46 GP[29]
47 GROUND 48 GROUND
49 EM_D[3]_GP[17] 50 EM_D[4]_GP[18]
51 EM_D[2]_GP[16] 52 EM_D[5]_GP[19]
53 EM_D[1]_GP[15] 54 EM_D[6]_GP[20]
55 EM_D[0]_GP[14] 56 EM_D[7]_GP[21]
57 GROUND 58 GROUND
59 EM_A[3]_GP[11] 60 EM_A[4]_GP[10]_(AEAW2)
61 EM_A[1]_(ALE)_GP[9]_(AEAW1) 62 EMA[2]_(CLE)_GP[8]_(AEAW0)
63 EM_BA[0]_GP[6]_(AEM1) 64 EM_A[0]_GP[7]_(AEM2)
65 EM_BA[1]_GP[6]_(AEM0) 66 EM_CS2n__GP[12]
67 EM_WAIT_(RDY/BSTn) 68 EM_CS3n_GP[13]
69 GROUND 70 GROUND
71 EM_A[5]_GP[96] 72 EM_A[9]_GP[92]
73 EM_A[6]_GP[95] 74 EM_A[10]_GP[91]
75 EM_A[7]_GP[94] 76 EM_A[11]_GP[90]
77 EM_A[8]_GP[93] 78 EM_A[12]_GP[89]
79 EM_WEn 80 EM_OEn
81 GROUND 82 GROUND
83 MEM_D7-0_ENABLE 84 CLKOUT0_PWM2_GP[84]
85 EMADD_ENABLE 86 GROUND
87 RESETn 88 GP[4]_PWM1
89 SYS_RESETn 90 I2C_INT_ENABLEn
91 VCC_1V8 92 VCC_1V8
93 GROUND 94 GROUND
95 VCC_3V3 96 VCC_3V3
97 GROUND 98 GROUND
99 VCC_5V 100 VCC_5V
Spectrum Digital, Inc
3-14 C6424 EVM Technical Reference
3.2.14 DC_P2, Peripher al Expansion
Table 11: DC_P2, Peripheral Expansion
Pin Signal Conn Pin Signal Conn
1 GROUND 2 GROUND
3 VCC_5V 4 VCC_5V
5 VCC_3V3 6 VCC_3V3
7 8 GROUND
9 CLKS1_TINPOL_GP[98] 10 CLKS0_TINPOL_GP[97]
11 GP[00] 12 GP[01]
13 GP[02] 14 GP[03]
15 RS232_ENABLEn 16 GROUND
17 URXD0_GP[85] 18 URTS0_PWM0_GP[88]
19 UTXD0_GP[86] 20 UCTS0_GP[87]
21 GROUND 22 GROUND
23 TINP1L_URXD1_GP[56] 24 TOUT1L_UTXD1_GP[55]
25 GROUND 26 CAN_ENABLEn
27 AUDIO_CLK 28 GROUND
29 AXR0[3]_FSR0_GP[102] 30 AXR0[2]_FSX0_GP[103]
31 AFSR0_DR0_GP[100] 32 AXR0[1]_DX0_GP[104]
33 AHCLKR0_CLKR0_GP[101] 34 ACLKR0_CLKX0_GP[99]
35 GROUND 36 GROUND
37 I2C_CLK 38 I2C_DATA
39 AIC33_ENABLEn 40 GROUND
41 AXR0_FSR1_GP[106] 42 AMUTEIN0_FSX1_GP[109]
43 AMUTE0_DR1_GP[110] 44 ACHLKX0_CLKR1_GP[108]
45 ACLKX0_CLKX1_GP[106] 46 AFSX0_DX1_GP[107]
47 GROUND 48 GROUND
49 RESET_OUTn 50 SPARE
51 SPARE 52 HCNTL0_MRXER_GP[76]
53 HDS1n_RXD1_GP[79] 54 HDS2n_RXD0_GP[78]
55 HINTn_RXD3_GP[82] 56 HRDYn_RXD2_GP[80]
57 GROUND 58 HD09_COL_GP[67]
59 HHWIL_RXDV_GP[74] 60 GROUND
61 HD10_CRS_GP[68] 62 HRNW_RXCLK_GP[77]
63 GROUND 64 GROUND
65 HCSnMDC_GP[81] 66 HASn_MDIO_GP[83]
67 GROUND 68 GROUND
69 HD11_TXD3_GP[69] 70 HD12_TXD2_GP[70]
71 HD13_TXD1_GP[71] 72 HD14_TXD0_GP[72]
73 HCNTL1_TXEN_GP[75] 74 ENET_ENABLEn
75 GROUND 76 GROUND
77 SPARE 78 HD15_TXCLK_GP[73]
79 GROUND 80 GROUND
81 USER_I2C_IO.A0P6 82 USER_I2C_IO.A0P7
83 SPARE 84 SPARE
85 USER_I2C_IO.A1P2 86 USER_I2C_IO.A1P3
87 USER_I2C_IO.A1P0 88 USER_I2C_IO.A1P1
89 GROUND 90 GROUND
Spectrum Digital, Inc
3-15
3.2.15 DC_P3, VLYNQ Connector
The DC_P3 connector allows the user to connect the VLYNQ interface to other logic.
The pinout for the DC_P3 connector is shown in the table below.
3.3 Jumpers
The C6424 EVM has four (4) jumpers which are used to make certain logic or feature
determinations on the board. The function of each jumper is described in the table
below.
* Not populated
Table 12: DC_P3, VLYNQ Header
Pin # Signal Conn Pin # Signal Conn
1 HD00_VLYNQ_SCRUN_GP[58] 2 VLYNQ_CLOCK_GP[57]
3 GROUND 4 GROUND
5 HD01_VLYNQ_RXD0_GP[59] 6 HD05_VLYNQ_TXD0_GP[63]
7 HD02_VLYNQ_RXD1_GP[60] 8 HD06_VLYNQ_TXD1_GP[64]
9 GROUND 10 GROUND
11 VCC_3V3 12 DC_P3_VLYNQ_RESETn
13 HD03_VLYNQ_RXD2_GP[61] 14 HD07_VLYNQ_TXD2_GP[65]
15 HD04_VLYNQ_RXD3_GP[62] 16 HD08_VLYNQ_TXD3_GP[66]
17 GROUND 18 GROUND
19 VCC_5V 20 VCC_5V
Table 13: Jumpers
Jumper # Function Size
JP1 User Jumper 1x2
JP2 CS2 Select 2x4
JP3 *Reset 1x2
JP4 *Power Up Reset 1x2
Spectrum Digital, Inc
3-16 C6424 EVM Technical Reference
3.3.1 JP1 Jumper
Jumper JP1 is a read only user accessible input. It can be read by the I2C expander
U10, bit 0. When the jumper is in the 1-2 position a logic “1” is read. When the jumper
is in the 2-3 position a logic “0” is read.
3.3.2 JP2 Jumper
Jumper JP2 is a jumper bank used to select the routing of the CS2 signal. It can be
routed to Flash ROM, SRAM, NAND Flash, and daughter card connector. Only one of
these 1-2 selections should be made. The positions are shown in the figure below.
3.3.3 JP3 Jumper
Jumper JP3 is a jumper used to allow external switches to interface to the C6424
power up reset signal.
3.3.3 JP4 Jumper
Jumper JP4 is a jumper used to allow external switches to interface to the C6424
reset signal.
Figure 3-9, JP2 Jumper
CS2-SEL
1
2
FLASH
SRAM
NAND
DC
JP2
Spectrum Digital, Inc
3-17
3.4 LEDs
The C6424 EVM has eight (8) LEDs. Four of these LEDs (DS1-4) are under user
control and addressed over the I2C bus. LED DS5 indicates the presence of +5 volts on
the board. The remaining LEDs, DS501 and DS502 indicate embedded USB status.
DS502 is on when embedded USB emulation is selected and off when the external
JTAG emulator is plugged into connector J6. DS501 blinks as packets are sent to and
from the embedded USB emulator. The LED functions are summarized in the table
below.
3.5 Switches
The C6424 EVM has seven (7) switches. These switches are used to create certain
actions on the board or to select certain functions on the board. The switch functions
are summarized in the table below.
Table 14: LEDs
LED # Use Color
DS1 User Defined Green
DS2 User Defined Green
DS3 User Defined Green
DS4 User Defined Green
DS5 +5V pres ent Red
DS501 Embedded Emulation Status Green
DS502 Embedded/external EMU Green
Table 15: Switches
LED # Function
SW1 Bootload Mode Select
SW2 C6424 Muxing Configuration
SW3 Ethernet Phy Mode Select
SW4 4 Position User Readable
SW5 Power On Reset
SW6 Reset
SW7 Slide Switch
Spectrum Digital, Inc
3-18 C6424 EVM Technical Reference
3.5.1 SW1, Bootload Mode Select
Switch SW1 is an 8 position switch used to select the source of the bootload. Seven (7)
of the eight (8) positions are used. The selections are shown in the tables below.
x = don’t care, * these boot modes must be accompanied with FASTBOOT = 1.
Position 6 of switch SW1 is used to select the endianess mode of the memory. The
sele ctions are shown in the table below.
Position 7 of switch SW1 is used to select the width of the memory. The selections are
shown in the table belo w.
Table 16: SW1, Bootload Mode Select
SW1[4:1] SW1[5] Auto
Detected Boot
Description Notes DSPBOOTADDR
default
0000 x x Emula ti on Boot
In this mode, F ASTBOOT
setting is don’t care (not
used by bootloader code)
C6424 is master 0x0010 0000
0001 1* 0 HPI Boot C6424 is slave 0x0010 0000
0001 1* 1 PCI Boot without auto-
initialization C6424 is slave 0x0010 0000
0010 1* 0 PCI Boot with auto-
initialization C6424 is slave 0x0010 0000
0010 1* 1 HPI Boot C6424 is slave 0x0010 0000
0100 0 x EMIFA ROM Direct Boot C6424 is master 0x4200 0000
0100 1 x EMIFA ROM Fast Boot C6424 is master 0x0010 0000
0101 x x I2C Boot C6424 is master 0x0010 0000
0110 1* x SPI Boot
(McBS P per iph era l ) C6424 is master 0x0010 0000
0111 1* x NAND Flash C6424 is master 0x0010 0000
1000 x x UART C6424 is master 0x0010 0000
1011 x x EMAC Boot through
secondary bootloader C6424 is slave 0x0010 0000
Table 17: SW1, Position 6, Endianess Select
Position
Description Position Endianess
Endianess Select 0 Big Endian
Endianess Select 1 Little Endian
Table 18: SW1, Position 7, Memory Width Select
Position
Description Position Memory Width
Memory Width Select 0 8 Bits
Memory Width Select 1 16 Bits
Spectrum Digital, Inc
3-19
3.5.2 SW2, Bootload Configuration Select
Switch SW2 is an 4 position switch used to select the C6424 multiplexing options
at reset. Three (3) of the four (4) positions are used. The selection are shown in the
table below.
3.5.3 SW3, EMIF Data Select
Switch SW3 is used to select between data bus pins for the asynchronous EMIF
controller. The functions of this switch are shown in the table below.
3.5.4 SW4, 4 Position User Readable
Switch SW4 is a 4 position bank of user readable switches via the I2C exp and er. The
individual switches can be placed in any position and read by the user software
from the expander. See the section on I2C expander s for more infor ma tion .
3.5.5 SW5, Power On Reset Switch
Switch SW5 is a momentary switch that asserts power on reset to the C6424 device.
3.5.6 SW6, Reset Switch
Switch SW6 is a mome ntary switch that asserts a reset to the C6424 proces sor.
Table 19: SW2, Bootload Configuration Select
SW2[2:0]
AEM2:0 Description
000 No EMIF
010 16 bit EMIF
101 8 bit EMIF - NAND flash
Table 20: SW3, EMDATA Select
Position Function Description
1 RMII/MII Select Selects mode of Ethernet Phy
0=RMII, 1= MII
2 Reserved
Spectrum Digital, Inc
3-20 C6424 EVM Technical Reference
3.5.7 SW7, Slide Switch
Switch SW7 is a 2 position slide switch used by demonstration software. The switch is
read via a I2C expander. Refer to the I2C section for more informa t ion .
Spectrum Digital, Inc
3-21
3.6 Test Points
The EVM has 42 test points. All test points appear on the top of the board. The
following figure identifies the position of each test point. the next table list each test
point and the signa l appea r ing on that test point.
Figure 3-10, C6424 EVM, Test Points
TP1
TP8
TP7
TP6,TP2
TP4,TP5
TP10
TP36
TP23
TP22
TP25
TP15
TP16
TP17
TP26
TP18
TP27
TP28
TP29
TP31
TP30
TP33
TP37
TP32
TP34
TP12
TP48,TP49
TP38
TP46
TP43
TP47
TP9
TP41
TP21
TP42
TP40
TP64
Spectrum Digital, Inc
3-22 C6424 EVM Technical Reference
Table 21: C6424 EVM Test Points
Test Point
#Signal Test Point
#Signal
TP1 RESETOUTn TP26 GND
TP2 RSV4 TP27 GND
TP6 RSV5 TP28 GND
TP7 GND TP29 GND
TP8 GND TP30 GND
TP9 GND TP31 VCC_5V
TP10 GND TP32 3V3_PWR_OK
TP12 Ethernet PHY Interrupt Pin TP36 1V8_PWR_OK
TP15 Codec MFP2 Pin TP40 C6424 I2CCLK
TP16 Codec MPF3 Pin TP41 C6424 I2CDATA
TP17 Codec GPIO1 Pin TP61 TOUT1L
TP18 Codec GPIO2 Pin TP64 TINP1L
TP21 CORE_PWR_OK TP69 C6424 PWM1
TP25 GND
Table 22: Power Pair Test Points
Power Pairs
Input1 Input2 Power Domain Resistance Between
Inputs
TP4 TP5 DDR_VDDL 0.1 ohms
TP22 TP23 DSP_CORE_VDD 0.025 ohm s
TP33 TP34 VCC_ 3V 3 0.025 ohms
TP37 TP38 VCC_ 1V 8 0.025 ohms
TP42 TP43 DVD_ 3V 3 0.025 ohms
TP47 TP46 D VD D_ 1V 8 0.025 ohms
TP48 TP49 PLLPWR18 0.1 ohms
TP52 TP53 VDDA_1P1V 0.1 ohms
A-1
Appendix A
Schematics
This appendi x con tains the sc hem ati cs for the C642 4 EVM.
Spectrum Digital, Inc
A-2 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 1 30
B
TMS320C6424 Evaluation Module
TITLE SHEET
SHEET01 - TITLE
SHEET02 - BLOCK DIAGRAM
SHEET03 - DSP CLKS/RST/EMU
SHEET04 - EMULATION
SHEET05 - DSP Serial/I2C
SHEET06 - DSP EMIF/PCI/ENET
SHEET07 - DSP DDR Interface
SHEET08 - DSP GND-pins
SHEET09 - DSP Power Pins
SHEET10 - Boot DIP Switches
SHEET11 - I2C Expanders
SHEET12 - I2C Expanders 2
SHEET13 - DDR2 Memories
SHEET14 - EMIF Muxing
SHEET15 - NAND-Flash/SRAM
SHEET16 - NOR-Flash/EEPROM
SHEET17 - ENET Muxing
SHEET18 - ENET
SHEET19 - RS232
SHEET20 - PCI-Mux
SHEET21 - PCI-Mux II
SHEET22 - PCI-Connector
SHEET23 - mPCI VLYNQ Connector
SHEET24 - AIC33
SHEET25 - SPDIF
SHEET26 - EMIF DC Connector
SHEET27 - EMAC/MCBSP DC Conn.
SHEET28 - VLYNQ/EMIF DC Conn.
SHEET29 - RESET SUPERVISOR
SHEET30 - POWER
SCHEMATIC CONTENTS
REV
ENGR
2
REVISION STATUS OF SHEETS
1
11
SH
DATE
14 12 13
DATE
ENGR-MGR
MFG
7
DWN
DATE
8
DATE
10
SH
DATE
CHK
RLSE
APPLICATION
REV
35
NEXT ASSY
DATE
6
DATE
9
QA
USED ON
4
15
AAA AA
AAAA
R.R.P.
T.W.K.
R.R.P.
R.R.P.
C.M.D.
R.R.P.
R.R.P.
06/01/2006
06/01/2006
16 17 18 19 20
21 22 23 24 25 06/01/2006
06/01/2006
06/01/2006
06/01/2006
06/01/2006
REV
SH
AAAAAAA
26 27 28 29 30
AA
A
A
AA
A
AAA
AAA
A
I2C Address Table
00111000B USER INPUT Expander - 0111(A2)(A1)(A0)PCF8574
00111001B PCF8574
ADDRESS
BINARY DEVICE FUNCTION
LED Expander - 0111(A2)(A1)(A0)
00111010B
00111011B
PCF8574
PCF8574 IO Expander - 0111(A2)(A1)(A0)
IO Expander - 0111(A2)(A1)(A0)
01010000B
00011011B
EEPROM - 1010(A2)(A1)(A0)
AUDIO CODEC - 00110(MFP1)(MFP0) AIC33
HEX
CAT24C256
0x38
0x39
0x3A
0x3B
0x50
0x1B
REV
SH
Spectrum Digital, Inc
A-3
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 2 30
B
TMS320C6424 Evaluation Module
BLOCK DIAGRAM
I2C Expanders
DC Connector
I2C EEPROM
EMIF SwitchNAND/NOR/SRAM
Boot DIP Switches
DC Connector
ENET SwitchesENET XCVR
EMAC
DC Connector
PCI Switches/Mux
PCI Edge Conn
I2C
EMIF/
McASP1/PCI
EMIF-Ctrl
EMIF-Addr/PCI
EMIF/RMII
UHPI/PCI/EMAC
GIO/PCI
PWM1
Timer0
McBSP1/MCASP0
Timer1/UART1
UART0/PWM0
DDR2 IF
PLL
Emulator
VLYNQ/PCI/
UHPI
PCI AD
S/PDIF Out
Audio Switch Stereo Codec
McBSP/McASP
DC Connector
DC Connector
UART Switches RS-232 XCVR
DDR2 SDRAM
Crystal/Osc
EMU Header
VLYNQ
mPCI Connector
VLYNQ
DC Connector
McBSP0/McASP0
SPI EEPROM
Socket
DSP
Power Supplies
Reset Logic
MISC
DC Connector
Embedded
EMU
EMU Muxes
Spectrum Digital, Inc
A-4 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
VCC_3V3
VCC_1V8
VCC_3V3
VCC_3V3
PCIEN21
RESET_OUTn 20,27
SYS_RESETn16,18,24,26,29
RESETn4,20,26
RESET_OUT 17
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 3 30
B
TMS320C6424 Evaluation Module
DSP CLKS/RST/EMU
OPTIO NAL OSCILLAT OR POPULATION
CRYSTAL AND CAPS REMOVED WHEN
OSCILLATOR IS USED
SILKSCREEN:
RESETn
ASFL3-27.00 0MHZ-EK-T
102229-0027
U1ATMS320C6424
RSV4 L15
MXO
J19
RESETOUTn N3
RESETn
M4
nPOR
N4
MXI/CLKIN
K19
PCIEN
T3
RSV3 L5
RSV2 K5
MXVSS
K18
U69 SN74AHC1G14DCKRG4
3
4
5
2
1
R5 0
SW6
PUSHBUTTON SW
A
AA BB
B
C2 18 pF
Y1
27MHz
C195
.1uF
TP1
TP30
R4NO-POP
R233
C1
1uF
TP2
TP30
JP3
HEADER 2 NO-POP
1
2
C4 18 pF
R188
10K
R19 no-pop
R1
10K
U2
NO-POP
VCC 4
OUT 3
GND
2
EN
1
C3
.1uF
L1
BLM21PG221SN1D
12 R3
NO-POP
Spectrum Digital, Inc
A-5
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
T_TDO
T_EMU1
T_EMU0
T_TMS
T_TRSTn
T_TMS
T_TDO
T_TDI
T_TCK
XDS_TDO
DSP_TMS
DSP_TDO
DSP_TDI
XDS_TDI
XDS_TCK
XDS_TMS
T_TCK_RET
XDS_EMU0
T_EMU1
T_EMU0
T_TRSTn
XDS_TRST#
DSP_EMU0
DSP_TRST#
DSP_EMU1
XDS_TCK_RTN
XDS_TCK_RTN
XDS_TDO
XDS_EMU0
XDS_TCK
XDS_TDI
XDS_TMS XDS_TRST#
XDS_EMU1
XDS_EMU1
T_TCK
T_TCK_RET
XDS_TVD
DSP_TCK
DSP_TMS
DSP_TDO
DSP_TDI
DSP_TCK
DSP_TRST#
DSP_EMU1
DSP_EMU0
EMU_STS
T_TDI
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_5V
EMU_SYS_RESETn29
RESETn3,20,26
ALT_AIC33_CLK24
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 4 30
B
TMS320C6424 Evaluation Module
DSP CLKS/RST/EMU
SILKSCREEN:
EMULATION H EADER
JTAG MULTIPLEXERS
USB
EMBEDDED
EMU ON
R148 NO POP
J6
TSW-107-14-G-D-006
TRST 2
GND 4
nc6
GND 8
GND 10
GND 12
EMU1 14
TMS
1TDI
3PD
5TDO
7TCKRET
9TCK
11 EMU0
13
R6
1K
U41
SN74CBTLV3257PWR
1A 4
4B1
14
2A 7
3B1
11 3A 9
4A 12
4B2
13
S
1
1B1
2
OE
15
3B2
10
1B2
32B1
52B2
6
VCC 16
GND 8
Embedded_USB
Embedded_USB
5V
USB_DSP_RSTn
T_TDO
T_TCK
T_TMS
T_TRSTn
T_EMU0
T_EMU1
T_TDI
3.3V
PONRSn
GND
T_TCK_RET
CLK_12MHZ
CLK_24MHZ
R8 33
C166
0.1uF
R152
10K
C169
NO POP
R13 1K
R150
10K
U1FTMS320C6424
EMU1
N2 EMU0
P2
TDO
P3
TDI
P4
TRSTn
R2
TCK
N1
TMS
R3
DS502
Green
C168
0.1uF
U37
SN74LVC1G32
1
24
53
C165
0.1uF
C164
0.1uF
C163
0.1uF
U35
SN74LVC1G32
1
24
53
U539
SN74CBTLV3257PWR
1A 4
4B1
14
2A 7
3B1
11 3A9
4A 12
4B2
13
S
1
1B1
2
OE
15
3B2
10
1B2
32B1
52B2
6
VCC 16
GND 8
R9 33
C167
0.1uF
U38
SN74AHC1G14DCKRG4
3
4
5
2
R149
150
R12 NO-POP
R10 NO-POP R11 1K
R151
10K
Spectrum Digital, Inc
A-6 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
PWM1_I2C_INT
VCC_3V3
VCC_3V3
VCC_3V3
UTXD0 19,27
I2C_DATA 11,12,16,24,27
URXD0 19,27
I2C_CLK 11,12,16,24,27
TOUT1L 19,27
TINP1L 19,27
UCTS0 27
URTS0 27
CLK_OUT 26
DR124,27 FSX124,27 PWM1 26
AD0_GP[0] 21
AD2_GP[2] 21
AD1_GP[1] 21
CLKX016,24,27
TINP0L27
CLKR124,27 DX124,27 CLKX124,27
DR016,24,27
CLKR027 DX016,24,27 FSX016,27 FSR027
FSR124,27
TOUT0L27
AD4_GP[3] 21
I2C_INT_ENABLEn26
I2C_INT11
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 5 30
B
TMS320C6424 Evaluation Module
DSP Serial/CAN/I2C
R14 33
R436 33
R432 0
TP64
TP-60
TP40
TP-30
TP41
TP-30
R16
2.2K
U3
74LVC1G125DCKRG4
3 5
42
1
TP61
TP-60
R15
2.2K
R435 33
U1ETMS320C6424
SCL M2
CLKS1/TINP0L/GP[98]
K2
ACLKR0/CLKX0/GP[99]
H1
CLKS0/TOUT0L/GP[97]
J4
AMUTEIN0/FSX1/GP[109]
F2
AFSX0/DX1/GP[107]
G2
AXR0[0]/FSR1/GP[105]
H2
AMUTE0/DR1/GP[110]
G3
AFSR0/DR0/GP[100]
H4
ACLKX0/CLKX1/GP[106]
F1
AHCLKR0/CLKR0/GP[101]
J2
AHCLKX0/CLKR1/GP[108]
G1
AXR0[1]/DX0/GP[104]
J3 AXR0[2]/FSX0/GP[103]
H3 AXR0[3]/FSR0/GP[102]
G4
SDA M3
URXD0/GP[85] L2
UTXD0/GP[86] K3
TINP1L/URXD1/GP[56] L4
TOUT1L/UTXD1/GP[55] K4
UCTS0/GP[87] L1
URTS0/PWM0/GP[88] L3
GP[4]/PWM1 F3
CLK_OUT/PWM2/GP[84] M1
AD[0]/GP[0] E1
AD[1]/GP[1] E2
AD[2]/GP[2] E3
AD[4]/GP[3] E4
C7
.1uF
R18
NO-POP
R430 0
R434 33
R433 33
R251
10K
R431 0
R429 0
Spectrum Digital, Inc
A-7
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
EM_D[15]
EM_D[14]
EM_D[12]
EM_D[10]
EM_D[8]
EM_D[13]
EM_D[11]
EM_D[9]
EM_D[2]
EM_D[5]
EM_D[1]
EM_D[4]
EM_D[6]
EM_D[7]
EM_D[3]
EM_D[0]
RMII_SELECT
VCC_3V3
VCC_3V3
EM_A02_CLE 15,16,26
EM_BA1 10,15,16,26
EM_BA0 10,15,16,26
EM_A00 10,15,16,26
EM_A01_ALE 15,16,26
COL21 CRS21 TXD321 TXD221 TXD121
TXCLK21 TXD021
RXCLK 21
RXD3 21
RXD2 21
RXD1 21
RXD0 21
RXER 21
TXEN 21
RXDV 21
MDC 21
MDIO 21
EM_OEn15,16,26
RMREFCLK26 RMRXD0_EM_CS4 26
RMRXD1_EM_CS5 26
EM_A21 14,26
EM_A04 10,15,16,26
EM_A03 15,16,26
EM_D[0]14,26 EM_D[1]14,26 EM_D[2]14,26 EM_D[3]14,26 EM_D[4]14,26 EM_D[5]14,26 EM_D[6]14,26 EM_D[7]14,26
EM_D[8]14,26 EM_D[9]14,26
EM_D[10]14,26 EM_D[11]14,26 EM_D[12]14,26 EM_D[13]14,26 EM_D[14]14,26 EM_D[15]14,26
PTRDYn21
AD1820 AD1620 AD1720 PCBE2n20 PFRAMEn20 PIDRDYn20
PDEVSELn21 PPERn21
PCICLK20
EM_WAIT_BSYn15,26 EM_WEn15,16,26
RMII_SELECT 12,17,18
EM_A05_AD19 20
EM_A06_AD20 20
EM_A07_AD22 20
EM_A08_AD21 20
EM_A09_PIDSEL 20
EM_A10_AD23 20
EM_A11_AD24 20
EM_A12_PCBE3 20
EM_A13_AD25 20
EM_A14_AD27 20
EM_A15_AD29 20
EM_A16_PGNTn 20
EM_A17_AD31 20
EM_A18_PRSTn 20
EM_A19_PREQn 20
EM_A20_PINTAn 20
EM_RNW 26
AD26 20
AD28 20
AD30 20
EM_CS2 14
EM_CS3 26
RMTXEN26
RMTXD0_8_1610,26
RMTXD1_LENDIAN10,26 GP[26]_FASTBOOT10,26
GP[25]_BOOTMODE310,26 GP[24]_BOOTMODE210,26 GP[23]_BOOTMODE110,26 GP[22]_BOOTMODE010,26
RMRXER26
RMCRSVD26
GP[53]26 GP[54]26
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 6 30
B
TMS320C6424 Evaluation Module
DSP VP/EMIF/PCI/ENET
WAIT_BSYn PULL UP ON PAGE 16
R166 20K
R311 0
RN14F RPACK8-22
A
6B11
U29
50MHz
VCC
4
OUT
3GND 2
EN 1
RN14H RPACK8-22
A
8B9
RN14ARPACK8-22 A1
B
16
RN2 RPACK8-22
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
RN6 RPACK8-10
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
R28 0
RN14BRPACK8-22 A2
B
15
R313 0
C135
0.1uF
R27 22
RN1 RPACK8-22
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
R165 NO-POP
R168 NO-POP
RN14G RPACK8-22
A
7B10
RN14CRPACK8-22 A3
B
14
R312 0
RN4 RPACK8-22
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
U1GTMS320C6424
EM_WAIT/(RDY/BSYn)
E15
EM_OEn
D15 EM_WEn
E14
EM_A[0]/GP[7]/(AEM2) B17
EM_A[1]/(ALE)/GP[9] A16
EM_A[2]/(CLE)/GP[8] B16
EM_A[4]/GP[10] A17
EM_A[3]/GP[11] B18
EM_A[5]/AD19/GP[96] B8
EM_A[6]/AD20/GP[95] D8
EM_A[7]/AD22/GP[94] C9
EM_A[8]/AD21/GP[93] B9
EM_A[9]/PIDSEL/GP[92] D9
EM_A[10]/AD23/GP[91] A9
EM_A[11]/AD24/GP[90] C10
EM_A[12]/PCBE3/GP[89] D10
RMREFCLK/GP[31]
D19
EM_A[15]/AD29/GP[49] B11
GP[53]
A13 GP[54]
A14 RMRXER/GP[52]
A15
EM_A[14]/AD27/GP[50] A10
EM_A[13]/AD25/GP[51] B10
EM_A[21]/GP[34] D12
EM_BA[0]/GP[6]/(AEM1) C17
EM_BA[1]/GP[5]/(AEM0) C16
EM_CS2n/GP[12] C19
EM_CS3n/GP[13] C18
RMRXD0/EM_CS4n/GP[32] E19
EM_D[8]/GP[43]
A12
EM_D[3]/GP[17]
E16 EM_D[4]/GP[18]
E18 EM_D[5]/GP[19]
E17 EM_D[6]/GP[20]
F16 EM_D[7]/GP[21]
F17
EM_D[9]/GP[42]
B13 EM_D[10]/GP[41]
C13 EM_D[11]/GP[40]
D14 EM_D[12]/GP[39]
B14 EM_D[13]/GP[38]
C14 EM_D[14]/GP[37]
B15 EM_D[15]/GP[36]
C15
RMRXD1/EM_CS5n/GP[33] F19
EM_A[16]/PGNTn/GP[48] C11
EM_A[17]/AD31/GP[47] A11
EM_A[18]/PRSTn/GP[46] D11
EM_A[19]/PREQn/GP[45] B12
EM_A[20]/PINTAn/GP[44] C12
EM_D[2]/GP[16]
D17 EM_D[1]/GP[15]
D18 EM_D[0]/GP[14]
D16
HD0/VLYNQ_SCRUN/AD18/GP[58]
C8 HD1/VLYNQ_RXD0/AD16/GP[59]
D7 HD2/VLYNQ_RXD1/AD17/GP[60]
A8 HD3/VLYNQ_RXD2/PCBE2n/GP[61]
B7 HD4/VLYNQ_RXD3/PFRAMEn/GP[62]
C7 HD5/VLYNQ_TXD0/PIRDYn/GP[63]
A6 HD6/VLYNQ_TXD1/PTRDYn/GP[64]
D6 HD7/VLYNQ_TXD2/PDEVSELn/GP[65]
B6 HD8/VLYNQ_TXD3/PPERRn/GP[66]
A5
HD9/MCOL/PSTOPn/GP[7]
C6 HD10/MCRS/PSERRn/GP[68]
B5 HD11/MTXD3/PCBE1/GP[69]
C5 HD12/MTXD2/PPAR/GP[70]
D5 HD13/MTXD1/AD14/GP[71]
B4
HD14/MTXD0/AD15/GP[72]
D4 HD15/MTXCLK/AD12/GP[73]
A4
HRDYn/MRXD2/PCBE0/GP[80] D2
HCNTL0/MRXER/AD10/GP[76] B3
HCNTL1/MTXEN/AD11/GP[75] D3
HASn/MDIO/AD3/GP[83] D1
HCSn/MDCLK/AD5/GP[81] C1
HDS1n/MRXD1/AD7/GP[79] B2
HDS2n/MRXD0/AD9/GP[78] C3
HHWIL/MRXDV/AD13/GP[74] C4
HINTn/MRXD3/AD6/GP[82] C2
HRNW/MRXCLK/AD8/GP[77] A3
RMCRSVD/GP[30]
G19
RMTXEN/GP[29]
H15 RMTXD0/GP[28]/(8_16)
H16 RMTXD1/GP[27]/(ENDIAN)
H17 GP[26]/(FASTBOOT)
G17 GP[25]/(BOOTMODE3)
G16 GP[24]/(BOOTMODE2)
G15 GP[23]/(BOOTMODE1)
F15 GP[22]/(BOOTMODE0)
F18
VLYNQ_CLOCK/PCICLK/GP[57]
A7 AD26 E10
AD28 E11
AD30 E12
EM_RNW/GP[35] D13
R184 0
R167 20K
RN14ERPACK8-22 A5
B
12 RN14DRPACK8-22 A4
B
13
Spectrum Digital, Inc
A-8 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
BDDR_A1
BDDR_A2
BDDR_A0
BDDR_A3
BDDR_A4
BDDR_A5
BDDR_A6
BDDR_A7
BDDR_A8
BDDR_A9
BDDR_A10
BDDR_A11
BDDR_A12
DDR_A0
DDR_A1
DDR_A2
DDR_A3
DDR_A4
DDR_A5
DDR_A6
DDR_A7
DDR_A8
DDR_A9
DDR_A10
DDR_A11
BDDR_BS02
BDDR_BS01
BDDR_BS00 DDR_A12
DDR_BS00
DDR_BS01
DDR_BS02
DDR_CAS
DDR_WE
DDR_RAS
BDDR_CAS
BDDR_WE
BDDR_RAS
BDDR_CLK_N DDR_CLK_N
BDDR_CLK DDR_CLK
DDR_CKEBDDR_CKE
BDDR_CS DDR_CS
BDDR_DQM0
BDDR_DQM1
BDDR_DQM2
BDDR_DQM3
DDR_DQS0
DDR_DQS1
DDR_DQS2
DDR_DQS3 DDR_PADREFN
DDR_PADREFP
VREF_STL
DDR_D6
DDR_D8
DDR_D12
DDR_D14
DDR_D20
DDR_D16
DDR_D19
DDR_D21
DDR_D22
DDR_D23
DDR_D17
DDR_D25
DDR_D26
DDR_D28
DDR_D31
DDR_D27
DDR_D29
DDR_D0
DDR_D1
DDR_D2
DDR_D3
DDR_D4
DDR_D5
DDR_D7
DDR_D9
DDR_D10
DDR_D11
DDR_D13
DDR_D15
DDR_D18
DDR_D24
DDR_D30
DDR_DQM0
DDR_DQM1
DDR_DQM2
DDR_DQM3
VCC_1V8
VCC_1V8
DDR_A[0:12] 13
DDR_BS02 13
DDR_BS01 13
DDR_BS00 13
DDR_WE 13
DDR_CAS 13
DDR_RAS 13
DDR_CLK_N 13
DDR_CLK 13
DDR_CKE 13
DDR_CS 13
DDR_DQM0 13
DDR_DQM3 13
DDR_DQM1 13
DDR_DQM2 13
DDR_DQS213 DDR_DQS313
DDR_DQS113 DDR_DQS013
DDR_D[0:31]13
VREF_STL13
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 7 30
B
TMS320C6424 Evaluation Module
DSP DDR Interface
Follo w the DDR PCB Layou t App Note
SURF ACE MOUNT TEST POINT PADS
USED FOR VERIFYING DDR TIMINGS
U1CTMS320C6424
DDR_A[0] W13
DDR_ZN T10
DDR_D[0]
T1
DDR_DQS[0]
U4
DDR_DQM[0] T4
DDR_CSn T9
DDR_CLK0n W8
DDR_CLK0 W7
DDR_CKE V8
DDR_CASn T7
DDR_BS[0] U8
RSV5 R13
DDR_A[1] U13
DDR_A[2] V13
DDR_A[3] U12
DDR_A[4] V12
DDR_A[5] W12
DDR_A[6] W11
DDR_A[7] V11
DDR_A[8] V10
DDR_A[9] U11
DDR_A[10] U10
DDR_A[11] W10
DDR_A[12] W9
DDR_BS[1] V9
DDR_BS[2] U9
DDR_DQM[1] T6
DDR_DQM[2] T14
DDR_DQM[3] T16
DDR_DQS[1]
U6 DDR_DQS[2]
U14 DDR_DQS[3]
U16 DDR_ZP T11
DDR_RASn U7
DDR_WEn T8
DDR_D[1]
T2 DDR_D[2]
U1 DDR_D[3]
U2 DDR_D[4]
V2 DDR_D[5]
U3 DDR_D[6]
V3 DDR_D[7]
W3 DDR_D[8]
V4 DDR_D[9]
W4 DDR_D[10]
U5 DDR_D[11]
V5 DDR_D[12]
W5 DDR_D[13]
V6 DDR_D[14]
W6 DDR_D[15]
V7 DDR_D[16]
W14 DDR_D[17]
V14 DDR_D[18]
W15 DDR_D[19]
V15 DDR_D[20]
U15 DDR_D[21]
W16 DDR_D[22]
V16 DDR_D[23]
T17 DDR_D[24]
V17 DDR_D[25]
U17 DDR_D[26]
T18 DDR_D[27]
W17 DDR_D[28]
U18 DDR_D[29]
V18 DDR_D[30]
U19 DDR_D[31]
T19
DDR_VDDDLL T12
DDR_VSSDLL T13
DDR_VREF
T15
R30 10
R84 22
RN11 RPACK4-22
1
2
3
45
6
7
8
RN9 RPACK4-22
1
2
3
4 5
6
7
8
R34 0
R87 22
R85 22
TP9
TP-60
TP7
TP-60
R76
1K 1%
TP8
TP-60
C9
0.1uF
C8
0.1uF
R86 22
TP6
TP-30
R77
1K 1%
L3
BLM21PG221SN1D
1 2
R32 200
RN10 RPACK4-22
1
2
3
4 5
6
7
8
TP4
TP-30
R31 10
R29 22
TP10
TP-60
RN7 RPACK4-22
1
2
3
4 5
6
7
8
C5
0.1uF
R33 200
C10
1uF
R35 0.1
C111
0.1uF TP5
TP-30
RN8 RPACK4-22
1
2
3
4 5
6
7
8
Spectrum Digital, Inc
A-9
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 8 30
B
TMS320C6424 Evaluation Module
DSP DACS/GND-pins
U1DTMS320C6424
RSV7(OPEN) P19
RSV8(OPEN) P18
RSV9(OPEN) N18
RSV10(OPEN) N17
RSV6(VSS)
N19
RSV15(VSS)
N16
RSV12(VSS) P15
RSV11(VSS) P16
RSV13(VSS)
N15
RSV14(VSS)
P17
U1HTMS320C6424
Vss.1
A19 Vss.2
B1 Vss.3
B19
Vss.5
E9 Vss.6
E13
Vss.4
E7
Vss.11
F12 Vss.12
F14
Vss.7
F4 Vss.8
F6 Vss.9
F8
Vss.16
G11 Vss.17
G13 Vss.18
G18
Vss.13
G5
Vss.15
G9
Vss.21
H10 Vss.22
H12 Vss.23
H14 Vss.24
H19
Vss.19
H6 Vss.20
H8
Vss.28
J11 Vss.29
J13 Vss.30
J15 Vss.31
J17 Vss.32
J18
Vss.25
J5 Vss.26
J7 Vss.27
J9
Vss.33
K1
Vss.36
K10
Vss.39
K16
Vss.34
K6 Vss.35
K8
Vss.42 L11
Vss.43 L13
Vss.44 L17
Vss.45 L19
Vss.40 L7
Vss.41 L9
Vss.48 M10
Vss.49 M12
Vss.50 M14
Vss.51 M16
Vss.52 M17
Vss.53 M18
Vss.54 M19
Vss.46 M6
Vss.37
K12 Vss.38
K14
Vss.10
F10
Vss.14
G7
Vss.47 M8
Vss.58 N11
Vss.59 N13
Vss.60 N14
Vss.55 N5
Vss.56 N7
Vss.57 N9
Vss.63 P10
Vss.64 P12
Vss.65 P14
Vss.61 P6
Vss.62 P8
Vss.66 R1
Vss.70 R11
Vss.71 R15
Vss.72 R17
Vss.73 R18
Vss.74 R19
Vss.67 R5
Vss.68 R7
Vss.69 R9
Vss.75 V19
Vss.76 W1
Vss.77 W2
Spectrum Digital, Inc
A-10 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
DVDD_3V3
DVDD_1V8
DVDD_3V3
CVDD_CORE
CVDD_CORE
CVDD_CORE
DVDD_3V3
DVDD_1V8
CVDD_CORE
DSP_CORE_VDD
VCC_3V3
VCC_1V8
VCC_1V8
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 9 30
B
TMS320C6424 Evaluation Module
DS P Po we r Pin s
Place n ear DDR side of package
POWER TEST POINT AT THE REGULATOR FOR 1.2 V
THESE PINS ARE FOR
LAYOUT SYMBOL FOR
SOCKET MOUNTING PINS &
SOCKET MOUNTING HOLES
C50
0.1uF
C73
1uF
C72
0.1uF
C51
0.1uF
L6
BLM21PG221SN1D
12
C59
0.1uF
C60
0.1uF
U1LTMS320C6424
MH1
1
MH2
2
MH3
3
MH4 4
MH5 5
MH6 6
C70
0.1uF
U1JTMS320C6424
DVdd33.3
A18
DVdd33.1
A1
DVdd33.4
E6 DVdd33.5
E8
DVdd33.2
A2
DVdd33.9
F11 DVdd33.10
F13
DVdd33.6
F5 DVdd33.7
F7 DVdd33.8
F9
DVdd33.15
G14
DVdd33.11
G6
DVdd33.17
H18 DVdd33.16
H5
DVdd33.18 J1
DVdd33.20 J14
DVdd33.23 K17
DVdd33.24 L6
DVdd33.26 M15
DVdd33.25 M5
DVdd33.27 N6
DVdd33.28 P1
DVdd33.21 J16
DVdd33.19 J6
DVdd33.22 K15
DVdd33.12
G8 DVdd33.13
G10 DVdd33.14
G12
C33
0.1uF
U1BTMS320C6424
DVDDR2.1
L14 MXVDD
L18
DVDDR2.5
P11 DVDDR2.6
P13
DVDDR2.2
P5 DVDDR2.3
P7 DVDDR2.4
P9
DVDDR2.10 R10
DVDDR2.11 R12
DVDDR2.12 R14
DVDDR2.13 R16
DVDDR2.7
R4 DVDDR2.8
R6
DVDDR2.9 R8
DVDDR2.14 T5
DVDDR2.15 V1
DVDDR2.16 W18
DVDDR2.17 W19
C62
0.1uF
TP49
TP-30
R320 0.1
C36
0.1uF
U1KTMS320C6424
RSV1 E5
PLLPWR18 L16
C34
0.1uF
+C28
33uF
C58
0.1uF
C19
0.1uF
U1ITMS320C6424
CVdd.17 M11
CVdd.16 M9
CVdd.15 M7
CVdd.7
J12
CVdd.13 L10
CVdd.14 L12
CVdd.18 M13
CVdd.12 L8
CVdd.9
K9 CVdd.10
K11
CVdd.8
K7 CVdd.19 N8
CVdd.20 N10
CVdd.21 N12
CVdd.1
H7
CVdd.3
H11 CVdd.2
H9 CVdd.11 K13
CVdd.6
J10 CVdd.5
J8 CVdd.4
H13
C46
0.1uF
C44
0.1uF
C23
0.1uF
TP47
TP-60
C190
0.1uF
C32
0.1uF
C67
0.1uF
C24
0.1uF
C71
1000pF
C64
0.1uF
C65
0.1uF
C48
0.1uF
C61
0.1uF
C63
0.1uF
C26
0.1uF
C54
0.1uF
+C69
33uF
C66
0.1uF
C52
0.1uF
TP43
TP-60
TP42
TP-60
C37
0.1uF
+C39
33uF
+C41
33uF
C25
0.1uF
C49
0.1uF
C45
0.1uF
C35
0.1uF
C42
0.1uF
C47
0.1uF
TP48
TP-30
C43
0.1uF
R319
0.025
+C57
33uF
C20
0.1uF
C30
0.1uF
TP46
TP-60
C189
0.1uF
R317
0.025
+C55
33uF
C21
0.1uF
C188
0.1uF
C22
0.1uF
C29
0.1uF
+C56
33uF
+C27
33uF
C53
0.1uF
C31
0.1uF
Spectrum Digital, Inc
A-11
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
VCC_3V3
VCC_3V3
VCC_3V3
EM_A00 6,15,16,26
EM_BA0 6,15,16,26
EM_BA1 6,15,16,26
EM_A04 6,15,16,26
RMTXD0_8_166,26
RMTXD1_LENDIAN6,26 GP[26]_FASTBOOT6,26
GP[25]_BOOTMODE36,26 GP[24]_BOOTMODE26,26 GP[23]_BOOTMODE16,26 GP[22]_BOOTMODE06,26
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 10 30
B
TMS320C6424 Evaluation Module
Boot DIP Switches
BM0
BM1
BM2
BM3
FASTB
LENDIAN
8_16
1
2
3
4
5
6
7
8
ON
SW1
DIP_SWITCH-8
1
2
3
4
5
6
7
89
10
16
15
14
13
12
11
R43
20K
RN13 RPACK8-1.5K
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
R45 1.5K
R175
20K
R173 1.5K
R357
1.5K
R44 1.5K
R258
20K
R42
20K R176
20K
RN12
RPACK8-20K
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
R174 1.5K
1
2
3
4
ON
SW2
DIP_SWITCH-4
1
2
3
4 5
6
7
8
R364
20K
Spectrum Digital, Inc
A-12 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
I2C_INT5
I2C_CLK5,12,16,24,27I2C_DATA5,12,16,24,27
VLYNQ_RESET23,28
USER_I2C_IO.A0P727 USER_I2C_IO.A0P627
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 11 30
B
TMS320C6424 Evaluation Module
I2C Expanders
SILKSCREEN:
USER SWITCHES
USER CONTROLLED LEDS
C187
.1uF
R17 1K
RN37
RPACK8-10K
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
R7 1K
R67
330
JP1
3 PIN JUMPER
1
2
3
SW4 PADDLE D IP-4
DS2
LED_GRN
U10
PCF8574APWRG4
GND 15
P3 14
A0 6
A1 7
A2 9
P0 10
P2 12
P111
VDD
5SDA
4SCL
2INT
1P7
20 P6
19 P5
17 P4
16 NC.1 3
NC.2 8
NC.4
18 NC.3
13
R66
330
R64
330
U66
SN74AHC1G14DCKRG4
3
4
5
2
1
SW7
GS01MSAKE
12
3
4 5
DS3
LED_GRN
RN20
RPACK4-10K
1
2
3
4 5
6
7
8
U11
PCF8574APWRG4
GND 15
P3 14
A0 6
A1 7
A2 9
P0 10
P2 12
P1 11
VDD
5SDA
4SCL
2INT
1P7
20 P6
19 P5
17 P4
16 NC.1 3
NC.2 8
NC.4
18 NC.3
13
RN38
RPACK4-1K
1
2
3
45
6
7
8
C91
.1uF
C90
.1uF
DS4
LED_RED
DS1
LED_GRN
R74
10K
R65
330
Spectrum Digital, Inc
A-13
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
I2C_CLK5,11,16,24,27I2C_DATA5,11,16,24,27
I2C.IOP3
I2C_CLK5,11,16,24,27 I2C_DATA5,11,16,24,27
I2C.IOP5
I2C.IOP4
CORE_VDD_SELECT 29
RMII_SELECT 6,17,18
USER_I2C_IO.A1P0 27
USER_I2C_IO.A1P1 27
USER_I2C_IO.A1P2 27
USER_I2C_IO.A1P3 27
I2C.IOP6
McBSP_ONn 24
McASP_ONn 24
AIC33_ENABLEn27
SPDIF_ONn 24
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 12 30
B
TMS320C6424 Evaluation Module
I2C Expanders
1
2
SW3
DIP_SWITCH-2
1
23
4
R162 1K
U42
SN74AHC1G14DCKRG4
3
4
5
2
1
U64
PCF8574APWRG4
GND 15
P3 14
A0 6
A1 7
A2 9
P0 10
P2 12
P1 11
VDD
5SDA
4SCL
2INT
1P7
20 P6
19 P5
17 P4
16 NC.1 3
NC.2 8
NC.4
18 NC.3
13
U74
SN74LVC1G32
1
24
53
C205
0.1uF
R161 1K
R252
NO-POP
U13
PCF8574APWRG4
GND 15
P3 14
A0 6
A1 7
A2 9
P0 10
P2 12
P1 11
VDD
5SDA
4SCL
2INT
1P7
20 P6
19 P5
17 P4
16 NC.1 3
NC.2 8
NC.4
18 NC.3
13
RN34
RPACK4-10K
1
2
3
45
6
7
8
C170
0.1uF
C92
0.1uF
U73
SN74LVC1G32
1
24
53
RN15
RPACK8-10k
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
C185
0.1uF
RN22
RPACK4-10K
1
2
3
45
6
7
8
R185
10K
C206
0.1uF
R253
10K
Spectrum Digital, Inc
A-14 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
DDR_BS00
DDR_BS01
DDR_BS02
DDR_CLK_N
DDR_CLK
DDR_CS
DDR_BS02
DDR_BS01
DDR_BS00
DDR_CLK
DDR_CLK_N
BDDR_D17
BDDR_D19
BDDR_D31
BDDR_D30
BDDR_D29
BDDR_D27
BDDR_D28
BDDR_D26
DDR_CAS
DDR_CKE
DDR_RAS
DDR_WE
BDDR_D25
DDR_CS
DDR_RAS
DDR_CKE
DDR_CAS
DDR_WE
BDDR_D24
BDDR_D20
BDDR_D23
BDDR_D22
BDDR_D22
BDDR_D21
BDDR_D20
BDDR_D19
BDDR_D18
BDDR_D17
BDDR_D16
BDDR_D29
BDDR_D30
BDDR_D28
BDDR_D27
BDDR_D25
BDDR_D23
BDDR_D21
BDDR_D31
BDDR_D24
DDR_A1
DDR_A5
DDR_A0
DDR_A2
DDR_A3
DDR_A4
DDR_A10
DDR_A8
DDR_A7
DDR_A9
DDR_A6
DDR_A11
DDR_A12
BDDR_D26
DDR_A4
DDR_A3
DDR_A12
DDR_A11
DDR_A2
DDR_A6
DDR_A0
DDR_A5
DDR_A9
DDR_A1
DDR_A7
DDR_A8
DDR_A10
VREF_STL
BDDR_DQS1DDR_DQS1
BDDR_DQS0DDR_DQS0
BDDR_DQS3
BDDR_DQS2
DDR_DQM1
DDR_DQM0 DDR_DQM3
BDDR_D[16:31]
DDR_D5
DDR_D4
DDR_D7
BDDR_D7
DDR_D29
BDDR_D1
BDDR_D4
DDR_D30
BDDR_D[0:15]
BDDR_D9
BDDR_D2 DDR_D3
BDDR_D15
BDDR_D5
DDR_D26
DDR_D20
DDR_D6
DDR_D8
DDR_D25
DDR_D17
DDR_D1
BDDR_D3
DDR_D27
DDR_D21
BDDR_D13
BDDR_D7
BDDR_D5
BDDR_D10
DDR_D13
DDR_D15
DDR_D22
BDDR_D3
BDDR_D6
DDR_D24
BDDR_D1
DDR_D10
BDDR_D15
DDR_D14
DDR_D12
BDDR_D14 DDR_D23
BDDR_D8BDDR_D13
BDDR_D4 DDR_D19
DDR_D11
BDDR_D12
BDDR_D0
BDDR_D10
BDDR_D11
BDDR_D8
BDDR_D9
DDR_D31
DDR_D9
BDDR_D11 DDR_D28
BDDR_D14
BDDR_D12
BDDR_D6
DDR_DQM2
DDR_DQS2
DDR_DQS3
BDDR_D2
BDDR_D0 DDR_D0
DDR_D2
DDR_D18
DDR_D16
BDDR_D16
BDDR_D18
VREF_STL
VREF_STL
VCC_1V8VCC_1V8
DDR_D[0:31]7
DDR_A[0:12]7
DDR_BS027DDR_BS017DDR_BS007
DDR_WE7DDR_CKE7
DDR_CLK7
DDR_RAS7
DDR_CLK_N7
DDR_CAS7DDR_CS7
DDR_DQM27DDR_DQM37
DDR_DQS27
DDR_DQS17
DDR_DQS07
DDR_DQM17DDR_DQM07
VREF_STL 7
DDR_DQS37
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 13 30
B
TMS320C6424 Evaluation Module
DDR2 Memories
64 MEGABYTES 64 MEGABYTES
Layout for t he 92-ball DDR Pack age but populate the 84-b all EDE5116AFSE.
Ball as signments ar e incorrect for 84-bal l package.
Use -5C-E (533MHz) or -4A-E (400MHz) speed grade?
C100
0.1uF
C105
0.1uF
R8122
C108
0.1uF
C104
0.1uF
R80 22
C113
0.1uF
C109
0.1uF
C97
0.1uF
RN27 RPACK4-22
1
2
3
4 5
6
7
8
RN24 RPACK4-22
1
2
3
4 5
6
7
8
+C103
22uF
R8322
C106
0.1uF
RN26 RPACK4-22
1
2
3
4 5
6
7
8
RN25 RPACK4-22
1
2
3
4 5
6
7
8
RN23 RPACK4-22
1
2
3
4 5
6
7
8
C95
0.1uF
C110
0.1uF
R78 22
C112
0.1uF
R82 22
C96
0.1uF
C107
0.1uF
RN29 RPACK4-22
1
2
3
4 5
6
7
8
RN28 RPACK4-22
1
2
3
4 5
6
7
8
U17
92-ball DDR Package
A12
V2 A11
U7 A10
R2 A9
U3 A8
U8 A7
U2 A6
T7 A5
T3
A4
T8 A3
T2 A2
R7 A1
R3 A0
R8 BA2
P1 BA1
P3 BA0
P2
NC.1
AA9 NC.2
AA8 NC.3
AA2 NC.4
AA1 NC.5
D2 NC.6
V8 NC.7
A9 NC.8
A8 NC.9
A2 NC.10
A1 NC.11
H2
RFU.1
V3 RFU.2
V7 ODT
N9
CS#
P8 CAS#
P7 RAS#
N7 WE#
N3 CKE
N2
CK
M8 CK#
N8
UDQS#/NU
D8 UDQS
E7 LDQS#/NU
H8 LDQS
J7
UDM
E3 LDM
J3
VDD.1 M9
VDD.2 H1
VDD.3 R9
VDD.4 D1
VDD.5 V1
VDDQ.1 F3
VDDQ.2 F7
VDDQ.3 K1
VDDQ.4 K3
VDDQ.5 K7
VDDQ.6 K9
VDDQ.7 D9
VDDQ.8 F1
VDDQ.9 F9
VDDQ.10 H9
VDDL M1
VREF M2
DQ15 E9
DQ14 E1
DQ13 G9
DQ12 G1
DQ11 G3
DQ10 G7
DQ9 F2
DQ8 F8
DQ7 J9
DQ6 J1
DQ5 L9
DQ4 L1
DQ3 L3
DQ2 L7
DQ1 K2
DQ0 K8
VSS.1 U9
VSS.2 T1
VSS.3 H3
VSS.4 D3
VSS.5 M3
VSSQ.1 G8
VSSQ.2 J8
VSSQ.3 D7
VSSQ.4 J2
VSSQ.5 E2
VSSQ.6 L8
VSSQ.7 L2
VSSQ.8 E8
VSSQ.9 H7
VSSQ.10 G2
VSSDL M7
RN30 RPACK4-22
1
2
3
4 5
6
7
8
C101
0.1uF
C99
0.1uF
+C102
22uF
C93
0.1uF
C98
0.1uF
C94
0.1uF
R79 22
U16
92-ball DDR Package
A12
V2 A11
U7 A10
R2 A9
U3 A8
U8 A7
U2 A6
T7 A5
T3
A4
T8 A3
T2 A2
R7 A1
R3 A0
R8 BA2
P1 BA1
P3 BA0
P2
NC.1
AA9 NC.2
AA8 NC.3
AA2 NC.4
AA1 NC.5
D2 NC.6
V8 NC.7
A9 NC.8
A8 NC.9
A2 NC.10
A1 NC.11
H2
RFU.1
V3 RFU.2
V7 ODT
N9
CS#
P8 CAS#
P7 RAS#
N7 WE#
N3 CKE
N2
CK
M8 CK#
N8
UDQS#/NU
D8 UDQS
E7 LDQS#/NU
H8 LDQS
J7
UDM
E3 LDM
J3
VDD.1 M9
VDD.2 H1
VDD.3 R9
VDD.4 D1
VDD.5 V1
VDDQ.1 F3
VDDQ.2 F7
VDDQ.3 K1
VDDQ.4 K3
VDDQ.5 K7
VDDQ.6 K9
VDDQ.7 D9
VDDQ.8 F1
VDDQ.9 F9
VDDQ.10 H9
VDDL M1
VREF M2
DQ15 E9
DQ14 E1
DQ13 G9
DQ12 G1
DQ11 G3
DQ10 G7
DQ9 F2
DQ8 F8
DQ7 J9
DQ6 J1
DQ5 L9
DQ4 L1
DQ3 L3
DQ2 L7
DQ1 K2
DQ0 K8
VSS.1 U9
VSS.2 T1
VSS.3 H3
VSS.4 D3
VSS.5 M3
VSSQ.1 G8
VSSQ.2 J8
VSSQ.3 D7
VSSQ.4 J2
VSSQ.5 E2
VSSQ.6 L8
VSSQ.7 L2
VSSQ.8 E8
VSSQ.9 H7
VSSQ.10 G2
VSSDL M7
Spectrum Digital, Inc
A-15
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
MEM.EM_D11
MEM.EM_D10
MEM.EM_D9
MEM.EM_D8
MEM.EM_D15
MEM.EM_D14
MEM.EM_D13
MEM.EM_D12
B.EM_A16
B.EM_A15
B.EM_A14
B.EM_A13
B.EM_A17
B.EM_A20
B.EM_A19
B.EM_A18
MEM.EM_A14
MEM.EM_A20
MEM.EM_A13
MEM.EM_A19
MEM.EM_A18
MEM.EM_A16
MEM.EM_A17
MEM.EM_A15
EM_D1
EM_D0 MEM.EM_D1
MEM.EM_D0
EM_D7
EM_D6 MEM.EM_D7
MEM.EM_D6
EM_D4
EM_D5 MEM.EM_D5
MEM.EM_D4
MEM.EM_D2
MEM.EM_D3
EM_D3
EM_D2
MEM.EM_A21
EM_D[15]
EM_D[14]
EM_D[12]
EM_D[10]
EM_D[8]
EM_D[13]
EM_D[11]
EM_D[9]
MEM.EM_A14
MEM.EM_A13
MEM.EM_A16
MEM.EM_A15
MEM.EM_A21
MEM.EM_A20
MEM.EM_A19
MEM.EM_A17
MEM.EM_A18
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
MEM.EM_D[7:0] 15,16
MEM_EMD7-0_ENABLEn26
MEM.EM_D[15:8] 15,16
MEM_D15-8_ENABLEn26
EMA21-13_ENABLEn26
EM_D[2]6,26 EM_D[3]6,26 EM_D[4]6,26 EM_D[5]6,26
EM_D[7]6,26 EM_D[6]6,26 EM_D[1]6,26 EM_D[0]6,26
EM_CS26SRAM_CEn 15
NAND_CEn 15
DC_EM_CS2n 26
FLASH_CEn 16
EM_D[8]6,26 EM_D[9]6,26
EM_D[10]6,26 EM_D[11]6,26
EM_D[12]6,26 EM_D[13]6,26 EM_D[14]6,26 EM_D[15]6,26
B.EM_A1920,26
B.EM_A1720,26
B.EM_A1520,26 B.EM_A1420,26 B.EM_A1320,26
B.EM_A1820,26
B.EM_A2020,26
B.EM_A1620,26
EM_A216,26
MEM.EM_A[20:13] 15,16
MEM.EM_A21 16
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 14 30
B
TMS320C6424 Evaluation Module
EMIF Muxing
SILKSCREEN:
EM_CS2 SELECT
PIN 1 TO 2 FLASH
PIN 5 TO 6 SRAM
PIN 3 TO 4 NAND FLASH
PIN 7 TO 8 DAUGHTERCARD
U18
SN74CBTLV3384PW
1A1
31A2
41A3
71A4
81A5
11 2A1
14 2A2
17 2A3
18 2A4
21 2A5
22
1B1 2
1B2 5
1B3 6
1B4 9
1B5 10
2B1 15
2B2 16
2B3 19
2B4 20
2B5 23
VCC 24
GND 12
1OE
12OE
13
RN31 RPACK8-47K
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
R190
10K
R89 47K
C114
0.1uF
C117
0.1uF
R88
NO-POP
U19
SN74CBTLV3384PW
1A1
31A2
41A3
71A4
81A5
11 2A1
14 2A2
17 2A3
18 2A4
21 2A5
22
1B1 2
1B2 5
1B3 6
1B4 9
1B5 10
2B1 15
2B2 16
2B3 19
2B4 20
2B5 23
VCC 24
GND 12
1OE
12OE
13
C115
0.1uF
U21
SN74CBTLV3384PW
1A1
31A2
41A3
71A4
81A5
11 2A1
14 2A2
17 2A3
18 2A4
21 2A5
22
1B1 2
1B2 5
1B3 6
1B4 9
1B5 10
2B1 15
2B2 16
2B3 19
2B4 20
2B5 23
VCC 24
GND 12
1OE
12OE
13
R92
NO-POP
R90
NO-POP
R247
10K
JP2
CONN 4x2
2
4
6
8
1
3
5
7
R248
10K
Spectrum Digital, Inc
A-16 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
MEM.EM_D3
MEM.EM_D2
MEM.EM_D1
MEM.EM_D7
MEM.EM_D0
MEM.EM_D6
MEM.EM_D5
MEM.EM_D4
MEM.EM_A18 MEM.EM_A17
MEM.EM_A16
MEM.EM_A15
MEM.EM_A14
MEM.EM_A13
MEM.EM_D0
MEM.EM_D2
MEM.EM_D3
MEM.EM_D1
MEM.EM_D6
MEM.EM_D5
MEM.EM_D4
MEM.EM_D7
MEM.EM_D10
MEM.EM_D11
MEM.EM_D9
MEM.EM_D14
MEM.EM_D8
MEM.EM_D15
MEM.EM_D13
MEM.EM_D12
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
SRAM_CEn14
NAND_CEn14 EM_OEn6,16,26
EM_WEn6,16,26 EM_A01_ALE6,16,26 EM_A02_CLE6,16,26
EM_WAIT_BSYn6,26
MEM.EM_D[7:0] 14,16
MEM.EM_D[15:8] 14,16
MEM.EM_A[18:13]14,16
EM_BA16,10,16,26 EM_A006,10,16,26
EM_A01_ALE6,16,26 EM_A02_CLE6,16,26 EM_A036,16,26 EM_A046,10,16,26
B.EM_A0616,20,26 B.EM_A0716,20,26 B.EM_A0816,20,26 B.EM_A0916,20,26 B.EM_A1016,20,26
B.EM_A0516,20,26
B.EM_A1116,20,26 B.EM_A1216,20,26
EM_BA06,10,16,26
EM_OEn6,16,26 EM_WEn6,16,26
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
B
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 15 30
B
TMS320C6424 Evaluation Module
NAND-Flash/SRAM
Set thi s up to run 8 or 16 bi t
CE DON'T CARE DEVICE
IS61WV102 416BLL-10MI
IS61WV102 416BLL-10MLI
IS61WV2 0488BLL-25MI
IS61 WV20488BLL-25MLI
16 BIT INTERFACE 8 BIT INTERFACE
R107 NO-POP
C122
.1uF
R75NO-POP
R69
0
R98 0
DATA16
LB/UB
U22
IS62WV102416BLL-10MLI
DQ0 B6
DQ1 C5
DQ2 C6
DQ3 D5
DQ4 E5
DQ5 F5
DQ6 F6
DQ7 G6
NC.2 B1
NC.3 C1
NC.7 C2
NC.8 D2
NC.9 E2
NC.10 F2
NC.4 F1
NC.5 G1
A0
A3 A1
A4 A2
A5 A3
B3 A4
B4 A5
C3 A6
C4 A7
D4 A8
H2 A9
H3 A10
H4 A11
H5
CE
B5
WE
G5 OE
A2
NC.1 A1
NC.6 B2
A12
G3 A13
G4 A14
F3 A15
F4 A16
E4 A17
D3 A18
H1 A19
G2
GND.2
E6 GND.1
D1 VDD.1 D6
VDD.2 E1
CE2
A6 NC.11 E3
A20
H6
R96
10K
NAND512W3A2BZA6EU23
NC.D3
D3 NC.D6
D6 NC.D7
D7 NC.D8
D8 NC.E3
E3 GND1
C5 R/#B
C8 #RE
D4 #CE
C6 NC.E4
E4 NC.E5
E5 VCC1
H8 GND2
K3 NC.E6
E6 NC.E7
E7 CLE
D5 ALE
C4 #WE
C7 #WP
C3 NC.E8
E8 NC.F3
F3 NC.F4
F4 NC.F5
F5 NC.F6
F6 NC.F7 F7
NC.F8 F8
NC.G3 G3
I/O0 H4
I/O1 J4
I/O2 K4
I/O3 K5
NC.G4 G4
NC.G5 G5
NC.G6 G6
GND3 K8
VCC2 J6
NC.G7 G7
NC.H3 H3
NC.H5 H5
I/O4 K6
I/O5 J7
I/O6 K7
I/O7 J8
NC.H6 H6
NC.H7 H7
NC.J3 J3
NC.J5 J5
NC.A1
A1 NC.A2
A2 NC.B1
B1
NC.A9
A9 NC.A10
A10 NC.B9
B9 NC.B10
B10
NC.L1
L1 NC.L2
L2 NC.M1
M1 NC.M2
M2
NC.L9
L9 NC.L10
L10 NC.M9
M9 NC.M10
M10
PRE G8 R99 NO-POP
R70
0
C119
0.1uF
R93
10K
C123
.1uF
R940
R100
10K
R97
10K
R101
NO-POP
C118
0.1uF
R95
0
Spectrum Digital, Inc
A-17
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
MEM.EM_D11
MEM.EM_D10
MEM.EM_D9
MEM.EM_D15
MEM.EM_D8
MEM.EM_D14
MEM.EM_D13
MEM.EM_D12
MEM.EM_A13
MEM.EM_A14
MEM.EM_A15
MEM.EM_A16
MEM.EM_D3
MEM.EM_D2
MEM.EM_D1
MEM.EM_D7
MEM.EM_D0
MEM.EM_D6
MEM.EM_D5
MEM.EM_D4
MEM.EM_A17
MEM.EM_A18
MEM.EM_A19
MEM.EM_A20
DR0
DX0
CLKX0
FSX0
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
MEM.EM_A[20:13]14,15
EM_A006,10,15,26
EM_A01_ALE6,15,26 EM_A02_CLE6,15,26 EM_A036,15,26 EM_A046,10,15,26
EM_BA1
6,10,15,26
EM_BA06,10,15,26
FLASH_CEn14 EM_OEn6,15,26
EM_WEn6,15,26
SYS_RESETn3,18,24,26,29
MEM.EM_D[7:0] 14,15
MEM.EM_D[15:8] 14,15
B.EM_A0615,20,26 B.EM_A0715,20,26 B.EM_A0815,20,26 B.EM_A0915,20,26 B.EM_A1015,20,26
B.EM_A0515,20,26
B.EM_A1115,20,26 B.EM_A1215,20,26
MEM.EM_A2114
I2C_CLK5,11,12,24,27
I2C_DATA5,11,12,24,27
EM_BA0 6,10,15,26
FSX05,27 DR05,24,27
DX0 5,24,27
CLKX0 5,24,27
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 16 30
B
TMS320C6424 Evaluation Module
NOR-Flash/EEPROM
Interna l pull-downs
R103
10K
R71
NO-POP
C126
0.1uF
R72 0
R153 0
U25
CAT24C256
VCC
8
VSS 4
A0 1
A1 2
A2 3
SCL
6
SDA
5WP 7
R310 10K
R102
10K
R105
10K C124
0.1uF
U24
S29GL256N11FFI010
A0
E2 A1
D2 A2
C2 A3
A2 A4
B2 A5
D3 A6
C3 A7
A3 A8
B6 A9
A6 A10
C6 A11
D6 A12
B7 A13
A7 A14
C7 A15
D7 A16
E7
BYTE
F7
CE
F2 OE
G2
RESET
B5
WE
A5
VCC G5
VSS.1 H2
VSS.2 H7
RY/BY A4
DQ15/A-1 G7
DQ0 E3
DQ1 H3
DQ2 E4
DQ3 H4
DQ4 H5
DQ5 E5
DQ6 H6
DQ7 E6
DQ8 F3
DQ9 G3
DQ10 F4
DQ11 G4
DQ12 F5
DQ13 G6
DQ14 F6
A17
B3 A18
C4 A19
D5 A20
D4 A21
C5 A22
B8 A23
C8
NC6 G1
NC7 H1
NC8 A8
NC9 G8
NC/A24
F8
WP/ACC
B4
VIO.1 F1
NC1 A1
NC2 B1
NC3 C1
NC4 D1
NC5 E1
NC10 H8
VIO.2 D8
VSS.3 E8
R106
NO-POP
C366
0.1uF
C183
0.1uF
R309
10K
U65
SOCKETED_SPI_EEPROM
CS
1
SI 5
GND
4
VCC 8
HOLD 7
WP
3SO
2SCK 6
R104
10K
C125
0.1uF
R154 NO-POP
R21
10K
R73 NO-POP
Spectrum Digital, Inc
A-18 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3 VCC_3V3 EPHY.TXCLK 18
EPHY.TXD0 18
EPHY.TXD1 18
EPHY.TX_EN 18
EPHY.RXD0 18
EPHY.RXD1 18
EPHY.RX_DV 18
EPHY.RX_ER 18
EPHY.TXD2 18
EPHY.TXD3 18
EPHY.COL 18
EPHY.CRS 18
EPHY.RXD2 18
EPHY.RXD3 18
EPHY.MDIO 18
EPHY.MDC 18
B.COL21,27 B.CRS21,27
B.TXD321,27 EPHY.RX_CLK 18
B.RXCLK21,27
B.RXD221,27 B.RXD321,27 B.MDC21,27 B.MDIO21,27
B.TXD221,27
B.TXCLK21,27 B.TXD021,27 B.TXD121,27 B.TXEN21,27
B.RXD021,27 B.RXD121,27 B.RXDV21,27 B.RXER21,27
ENET_ENABLEn27
RMII_SELECT6,12,18
B_RMRXD126
B_RMTXEN26
B_RMTXD026 B_RMTXD126
B_RMCRSDV26
B_RMREFCLK26
B_RMRXER26
B_RMRXD026
RESET_OUT3
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 17 30
B
TMS320C6424 Evaluation Module
ENET Muxing
C127
0.1uF
R326
NO-POP
C196
0.1uF
R24
NO-POP
C175
0.1uF
U28
74CBTLV3257PWR
1A 4
2A 7
3A 9
4A 12
1B1
22B1
53B1
11 4B1
14
1B2
32B2
63B2
10 4B2
13
VCC 16
GND 8
OE
15 S
1
C128
0.1uF
U71
SN74LVC1G32
1
24
53
R246
10K
U26
74CBTLV3257PWR
1A 4
2A 7
3A 9
4A 12
1B1
22B1
53B1
11 4B1
14
1B2
32B2
63B2
10 4B2
13
VCC 16
GND 8
OE
15 S
1
U27
SN74CBTLV3384PW
1A1
31A2
41A3
71A4
81A5
11 2A1
14 2A2
17 2A3
18 2A4
21 2A5
22
1B1 2
1B2 5
1B3 6
1B4 9
1B5 10
2B1 15
2B2 16
2B3 19
2B4 20
2B5 23
VCC 24
GND 12
1OE
12OE
13
R22 NO-POP
U14
SN74LVC1G32
1
24
53
C129
0.1uF
Spectrum Digital, Inc
A-19
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
EPHY.LED0
EPHY.LED2
EPHY.LED0
PHYAD4
PHYAD3
PHYAD2
PHYAD1
RMII_SELECT
RMII_SELECT
PHYAD1
PHYAD2
PHYAD3
PHYAD4
EPHY.LED2
VCC_3V3
VCC_3V3
VDD_1V8PLL
VDD_1V8RX
VDD_3V3A
VDD_1V8PLL
VDD_1V8RX
VCC_3V3
VCC_3V3
PHY_1V8
PHY_1V8 GND_E_ENET
GND_E_ENET GND_E_ENET
VCC_3V3
VCC_3V3
VCC_3V3 VDD_3V3A
VCC_3V3 VCC_3V3
VCC_3V3
VDD_3V3A
VDD_3V3A
VCC_3V3
VCC_3V3VCC_3V3VCC_3V3VCC_3V3
EPHY.TXD217 EPHY.TXD317
EPHY.TXD017 EPHY.TXD117
EPHY.TX_EN17
EPHY.RX_CLK17
EPHY.MDC17
EPHY.MDIO17
SYS_RESETn3,16,24,26,29
EPHY.RXD017 EPHY.RXD117 EPHY.RXD217 EPHY.RXD317
EPHY.RX_DV17 EPHY.RX_ER17
EPHY.COL17 EPHY.CRS
17
EPHY.TXCLK17
RMII_SELECT6,12,17
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 18 30
B
TMS320C6424 Evaluation Module
ENET
SILKSCREE N:
ETHERNET
L8 BLM21PG221SN1D
C138
0.1uF
R156 10K
R234 NO-POP
R115
49.9
R192
10K
RN32 RPACK8-10
116
215
3 14
413
512
611
710
8 9
C130
0.1uF
L56
BLM21PG221SN1D
C132
4.7uF
R134
NO-POP
R137
NO-POP
R123 10K
P3 RJ45 HALO HFJ11-2450E-L21
TXD-CT
4
NC1
7GND
8
TXD+
1
TXD-
2
RXD+
3
RXD-
6RXD-CT
5
S0
14 S1
13
LED2-
12 LED2+
11 LED1-
10 LED1+
9
TP12
TP-30
R231
NO-POP
R229
NO-POP
R135
NO-POP
U68
SN74AHC1G14DCKRG4
3
4
5
2
1
C136
0.1uF
R191
NO-POP
R129
NO-POP
R126 NO-POP
C141
4.7uF
R121 10KC194
.1uF
R249 22
R114
NO_POP
R109
49.9
R232
NO-POP
U72
25MHz
VCC 4
OUT 3
GND
2
EN
1
R112
NO-POP R113
NO-POP
C143
0.1uF
C142
1000pF 2kV
C139
4.7uF
R122 10K
R136
NO-POP
R131 10K
R130
NO-POP
C193
.1uF
R128 330
C140
0.1uF
R124 6.65K
R23
10K
R132 10
R117
49.9
C199
.1uF
+C133
4.7uF C134
0.1uF
R119 10K
C131
0.1uF
R116 NO-POP
R159 10K
R120 NO-POP
R110
49.9
R127 330
L55
BLM21PG221SN1D
R233 10K
R230
NO-POP
L9 BLM21PG221SN1D
L11 BLM21PG221SN1D
U70
SN74LVC1G126DCKR
3
4
5
2
1
R155 10K
R133
1.5K
R111 22
R118 NO-POP
U30
KS8001L
TX_CLK/REF_CLK
15 TXD0
17 TXD1
18 TXD2
19 TXD3
20
TX_EN
16 TX_ER
14
COL/RMII
21 CRS/RMII_BTB
22
RX_CLK
10
RXD0/PHYAD4
6RXD1/PHYAD3
5RXD2/PHYAD2
4RXD3/PHYAD1
3RX_DV/CRSDV/PCS_LPBK
9RX_ER/ISO
11
MDC
2
MDIO
1
INT#/PHYAD0
25
TX+ 41
TX- 40
RX+ 33
RX- 32
LED0/TEST 26
LED1/SPD100 27
LED2/DUPLEX 28
XO 45
XI 46
PD#
30
REXT 37
RESET#
48
GND6
39
GND1
8GND2
12 GND3
23
GND7
44
GND4
35 GND5
36
VDDIO2 24
VDDIO1 7
VDDC1 13
VDDPLL 47
LED3/NWAYEN 29
NC1 42
NC2 43
VDDRX 31
VDDRCV 38
FXSD/FXEN 34
R157 10K
C137
4.7uF
Spectrum Digital, Inc
A-20 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
UART_TXD
UART_RXD
VCC_3V3 VCC_3V3VCC_3V3 VCC_3V3
VCC_3V3
GND_E_CAN
GND_E_RS232GND_E_RS232
GND_E_RS232
GND_E_RS232
GND_E_RS232
GND_E_RS232
GND_E_RS232
VCC_3V3
URXD05,27
TINP1L5,27 TOUT1L5,27
UTXD05,27
RS232_ENABLEn27
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 19 30
B
TMS320C6424 Evaluation Module
RS232
SILKSCREEN:
UART
+C154
47uF
L12 1uH
C153
1uF R143
10K
C156
10pF
C160
1uF
R146
NO-POP
R187
10K
R142
10K
C161
1uF
C152
.1uF U34
MAX3221CPWRG4
T_IN
11
R_OUT
9
VCC
15
GND
14
V+ 3
V- 7
C1+
2
C1-
4
C2+ 5
C2- 6
FORCEON 12
FORCEOFF 16
R_IN 8
T_OUT 13
EN
1INVALID 10
R147
10K
C157
10pF C158
10pF
R257 33R144
NO-POP
U33
74CBTLV3257PWR
1A 4
2A 7
3A 9
4A 12
1B1
22B1
53B1
11 4B1
14
1B2
32B2
63B2
10 4B2
13
VCC 16
GND 8
OE
15 S
1
P8
DB9-MALE
5
9
4
8
3
7
2
6
1
A B
C155
10pF
R145 0
L57
BLM21PG221SN1D
L58
BLM21PG221SN1D
L13 1uH
C162
1uF
C159
1uF
Spectrum Digital, Inc
A-21
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
PCI_DETECTn
PCI4.1V
PCI_DETECTn
PCI_S_AD17
PCI_S_AD16
PCI_S_AD18
PCI_S_AD22
PCI_S_AD21
PCI_S_AD23
PCI_S_AD19
PCI_P_AD17
PCI_P_AD20
PCI_P_AD21
PCI_P_AD18
PCI_P_AD22
PCI_P_AD19
PCI_P_AD23
PCI_P_AD16
PCI_S_PINTAn
PCI_DETECTn
PCI_S_RSTn
PCI_S_C/BEn3
PCI_S_AD30
PCI_S_AD31
PCI_S_AD25
PCI_S_AD26
PCI_S_AD27
PCI_S_AD28
PCI_S_AD29
PCI_S_CLKOUT0
PCI_S_GNTn
PCI_S_AD24
PCI_S_REQn0
PCI_P_AD31
PCI_P_AD30
PCI_P_AD29
PCI_P_AD28
PCI_P_AD27
PCI_P_AD26
PCI_P_AD25
PCI_P_AD24
PCI_P_PINTAn
PCI4.1V
PCI_S_AD20
VCC_3V3 VCC_3V3
VCC_3V3 VCC_3V3
PCI4.1V21
PCI_P_IRDYn22PCI_P_FRAMEn22 PCI_P_C/BEn222
VLYNQ_RXD223,28 VLYNQ_RXD323,28 VLYNQ_TXD023,28
PFRAMEn 6
PIDRDYn 6
PCBE2n 6
PCI_P_IDSEL22
AD18 6
AD16 6
AD17 6
B.EM_A0615,16,26
B.EM_A0715,16,26 B.EM_A0815,16,26
B.EM_A1015,16,26
B.EM_A0515,16,26
VLYNQ_RXD123,28 VLYNQ_RXD023,28
VLYNQ_SCRUN23,28
PCI_P_AD[31:0]21,22
B.EM_A0915,16,26
PCI_DETECTn21
AD30 6
AD26 6
AD28 6
PCICLK 6
VLYNQ_CLOCK23,28
PCI_P_CLK22 PCI_P_GNTn22 PCI_P_REQn22
PCI_P_C/BEn322
PCI_P_AD[31:0]21,22
RESETn 3,4,26
PCI_P_PINTAn22
PCI4.1V21
RESET_OUTn3,27
PCI_P_RSTn22
EM_A05_AD19 6
EM_A06_AD20 6
EM_A07_AD22 6
EM_A08_AD21 6
EM_A09_PIDSEL 6
EM_A10_AD23 6
EM_A11_AD24 6
EM_A12_PCBE3 6
EM_A13_AD25 6
EM_A14_AD27 6
EM_A15_AD29 6
EM_A16_PGNTn 6
EM_A17_AD31 6
EM_A19_PREQn 6
EM_A18_PRSTn 6
EM_A20_PINTAn 6
B.EM_A1914,26 B.EM_A1714,26 B.EM_A1514,26 B.EM_A1414,26 B.EM_A1314,26
B.EM_A1215,16,26 B.EM_A1115,16,26
B.EM_A1614,26
B.EM_A2014,26
B.EM_A1814,26
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 20 30
B
TMS320C6424 Evaluation Module
PCI-Switches
SINGLE GATE
C184
0.1uF
R338
NO-POP
RN3G RPACK8-22
A
7B10
RN5 RPACK8-33
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16 R3320
R339
NO-POP
R158 0
R30722
R171 0
U52
SN74CBT16292DGGR
NC.14 56
GND.2
19
1A 2
11A 25
1B1
54
1B2
53
GND.1
8VCC.1 17
GND.3
38 GND.4
49
NC.13 55
2A 4
3A 6
4A 9
5A 11
6A 13
7A 15
8A18
9A 21
10A 23
12A 27
NC.1 3
NC.2 5
NC.3 7
NC.4 10
NC.5 12
NC.6 14
NC.7 16
NC.8 20
S1
2B1
52 3B1
50
9B1
36
4B1
47 5B1
45 6B1
43 7B1
41 8B1
39
10B1
34
2B2
51 3B2
48 4B2
46 5B2
44 6B2
42 7B2
40 8B2
37
11B2
31 12B2
29
NC.9 22
NC.10 24
NC.11 26
NC.12 28
11B1
32 12B1
30
9B2
35 10B2
33
RN3B RPACK8-22
A
2B15
R3470
R33322
RN3D RPACK8-22
A
4B13
R181 NO-POP
RN3E RPACK8-22
A
5B12
U51
SN74CBT16292DGGR
NC.14 56
GND.2
19
1A 2
11A 25
1B1
54
1B2
53
GND.1
8VCC.1 17
GND.3
38 GND.4
49
NC.13 55
2A 4
3A 6
4A 9
5A 11
6A 13
7A15
8A 18
9A 21
10A 23
12A 27
NC.1 3
NC.2 5
NC.3 7
NC.4 10
NC.5 12
NC.6 14
NC.7 16
NC.8 20
S1
2B1
52 3B1
50
9B1
36
4B1
47 5B1
45 6B1
43 7B1
41 8B1
39
10B1
34
2B2
51 3B2
48 4B2
46 5B2
44 6B2
42 7B2
40 8B2
37
11B2
31 12B2
29
NC.9 22
NC.10 24
NC.11 26
NC.12 28
11B1
32 12B1
30
9B2
35 10B2
33
R177 0
C363
NO-POP
C186
0.1uF
RN3A RPACK8-22
A
1B16
R3310
R3290
U40
SN74LVC1G08
1
24
53
R170
10K
U36
SN74LVC1G07
3
4
5
2
1
C178
0.1uF
R172 0
RN3C RPACK8-22
A
3B14
C144
0.1uF
RN3H RPACK8-22
A
8B9
R3080
C361
5.6pF C364
5.6pF
C362
NO-POP
R337
0
U12
SN74CBT3257PW
1A 4
4B1
14
2A 7
3B1
11 3A 9
4A 12
4B2
13
S
1
1B1
2
OE
15
3B2
10
1B2
32B1
52B2
6
VCC 16
GND 8
RN3F RPACK8-22
A
6B11
C120
0.1uF
Spectrum Digital, Inc
A-22 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
PCI_DETECTn
PCI4.1V
PCI4.1V
PCI_DETECTn
PCI_S_STOPn
PCI_S_PAR
PCI_S_AD13
PCI_S_AD14
PCI_S_AD15
PCI_P_AD14
PCI_P_AD13
PCI_P_AD15 PCI_S_C/BEn1
PCI_P_AD11
PCI_P_AD12 PCI_S_AD12
PCI_S_AD11
PCI4.1V
PCI_S_SERRn
PCI_DETECTn
PCI_S_AD10
PCI_S_AD8
PCI_S_AD7
PCI_S_AD9
PCI_S_AD5
PCI_S_AD6
PCI_S_AD3
PCI_S_AD4
PCI_S_AD0
PCI_S_AD1
PCI_S_AD2
PCI_S_C/BEn0
PCI_P_AD9
PCI_P_AD10
PCI_P_AD8
PCI_P_AD5
PCI_P_AD7
PCI_P_AD6
PCI_P_AD3
PCI_P_AD0
PCI_P_AD1
PCI_P_AD2
PCI_P_AD4
VCC_3V3
VCC_5V
PCI_P_AD[31:0]20,22
PCI4.1V 20
VLYNQ_TXD123,28 VLYNQ_TXD223,28
PTRDYn 6
PDEVSELn 6
PCI_P_PERRn22
PCI_P_DEVSELn22 PCI_P_TRDYn22
COL 6
CRS 6
TXD2 6
TXD0 6
TXD1 6
RXDV 6
B.TXD017,27 B.TXD117,27 B.RXDV17,27
PPERn 6
VLYNQ_TXD323,28 B.COL17,27
PCI_P_STOPn22 PCI_P_SERRn22
B.CRS17,27
PCI_P_PAR22
B.TXD217,27
TXD3 6
PCI_P_C/BEn122
B.TXD317,27
TXCLK 6
TXEN 6
B.TXCLK17,27 B.TXEN17,27
PCIEN 3
PCI_DETECTn20
PCI_PLUGn22
PCI_DETECTn 20
RXER 6
RXD0 6
RXCLK 6
RXD1 6
MDC 6
RXD3 6
MDIO 6
RXD2 6
B.RXD217,27 B.RXD117,27 B.RXD317,27
B.RXD017,27B.RXCLK17,27
B.RXER17,27
B.MDIO17,27
B.MDC17,27
PCI_P_C/BEn022
AD0_GP[0] 5
AD2_GP[2] 5
AD1_GP[1] 5
AD4_GP[3] 5
B_GP[3]27
B_GP[1]27 B_GP[0]27
B_GP[2]27
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 21 30
B
TMS320C6424 Evaluation Module
PCI-Muxing
The PCLK s ignal trace length
must be 2.5" +/- 0.1".
The PCI 33 M hz Signals
must be shorter than 1.5"
U54
SN74CBT16292DGGR
NC.14 56
GND.2
19
1A 2
11A 25
1B1
54
1B2
53
GND.1
8VCC.1 17
GND.3
38 GND.4
49
NC.13 55
2A 4
3A 6
4A 9
5A 11
6A 13
7A 15
8A 18
9A 21
10A 23
12A 27
NC.1 3
NC.2 5
NC.3 7
NC.4 10
NC.5 12
NC.6 14
NC.7 16
NC.8 20
S1
2B1
52 3B1
50
9B1
36
4B1
47 5B1
45 6B1
43 7B1
41 8B1
39
10B1
34
2B2
51 3B2
48 4B2
46 5B2
44 6B2
42 7B2
40 8B2
37
11B2
31 12B2
29
NC.9 22
NC.10 24
NC.11 26
NC.12 28
11B1
32 12B1
30
9B2
35 10B2
33
D5
LM4040DCIM3-4.1
2 1
C365
5.6pF
U53
SN74CBT16292DGGR
NC.14 56
GND.2
19
1A2
11A 25
1B1
54
1B2
53
GND.1
8VCC.1 17
GND.3
38 GND.4
49
NC.13 55
2A 4
3A 6
4A 9
5A 11
6A 13
7A 15
8A 18
9A 21
10A 23
12A 27
NC.1 3
NC.2 5
NC.3 7
NC.4 10
NC.5 12
NC.6 14
NC.7 16
NC.8 20
S1
2B1
52 3B1
50
9B1
36
4B1
47 5B1
45 6B1
43 7B1
41 8B1
39
10B1
34
2B2
51 3B2
48 4B2
46 5B2
44 6B2
42 7B2
40 8B2
37
11B2
31 12B2
29
NC.9 22
NC.10 24
NC.11 26
NC.12 28
11B1
32 12B1
30
9B2
35 10B2
33
C176
0.1uF
R315
0
R3340
C174
0.1uF
U39
SN74AHC1G14DCKRG4
3
4
5
2
1
R33622
C121
0.1uF
R68 1.5K
R3350
Spectrum Digital, Inc
A-23
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
PCI_P_AD0
PCI_P_AD2
PCI_P_AD4
PCI_P_AD6
PCI_P_AD11
PCI_P_AD13
PCI_P_AD15
PCI_P_AD16
PCI_P_AD18
PCI_P_AD20
PCI_P_AD22
PCI_P_AD24
PCI_P_AD26
PCI_P_AD28
PCI_P_AD30PCI_P_AD31
PCI_P_AD29
PCI_P_AD27
PCI_P_AD25
PCI_P_AD23
PCI_P_AD21
PCI_P_AD19
PCI_P_AD17
PCI_P_AD14
PCI_P_AD12
PCI_P_AD10
PCI_P_AD8
PCI_P_AD7
PCI_P_AD5
PCI_P_AD3
PCI_P_AD1
PCI_P_AD9
VCC_5V
PCIVCC_3V3
PCIVCC_3V3
VCC_5V
PCI_VIO
PCI_VIO
VCC_5V
VCC_3V3
PCI_VIO
PCIVCC_3V3
PCI_P_AD[31:0] 20,21
PCI_P_RSTn 20
PCI_P_GNTn 20
PCI_P_IDSEL 20
PCI_P_FRAMEn 20
PCI_P_TRDYn 21
PCI_P_STOPn 21
PCI_P_PAR 21
PCI_P_C/BEn0 21
PCI_P_C/BEn121
PCI_P_C/BEn320
PCI_P_C/BEn220
PCI_P_SERRn21 PCI_P_PERRn21
PCI_P_DEVSELn21
PCI_P_IRDYn20
PCI_P_REQn20
PCI_P_CLK20
PCI_P_PINTAn 20
PCI_PLUGn 21
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 22 30
B
TMS320C6424 Evaluation Module
PCI-Connector
A10,A16,B19 A59, B59
A21,A27 ,B25,B31 A33,A3 9,B41,B43
R179 0
R163 10K
C203
0.1uF
C180
0.1uF
R164 NO-POP
R178 0
R180 0
C181
0.1uF
C172
0.1uF
+
C204
33uF
C179
0.1uF
C182
0.1uF
P4
PCI Connector
TRST A1
+12V A2
TMS A3
TDI A4
+5V A5
INTA A6
INTC A7
+5V A8
Rsvd.0 A9
+V I/O A10
Rsvd.1 A11
Key.1
Key.2
3.3Vaux A14
RST A15
+V I/O A16
GNT A17
GND A18
PME A19
AD30 A20
+3.3V A21
AD28 A22
AD26 A23
GND A24
AD24 A25
IDSEL A26
+3.3V A27
AD22 A28
AD20 A29
GND A30
AD18 A31
AD16 A32
+3.3V A33
FRAME A34
GND A35
TRDY A36
GND A37
STOP A38
+3.3V A39
SDONE A40
SBO A41
GND A42
PAR A43
AD15 A44
+3.3V A45
AD13 A46
AD11 A47
GND A48
AD9 A49
Key.3
Key.4
C/BE0 A52
+3.3V A53
AD6 A54
AD4 A55
GND A56
AD2 A57
AD0 A58
+V I/O A59
REQ64 A60
+5V A61
+5V A62
-12V
B1 TCK
B2 GND
B3 TDO
B4 +5V
B5 +5V
B6 INTB
B7 INTD
B8 PRSNT1
B9 Rsvd.2
B10 PRSNT2
B11 Key.5
Key.6
Rsvd.3
B14 GND
B15 CLK
B16 GND
B17 REQ
B18 +V I/O
B19 AD31
B20 AD29
B21 GND
B22 AD27
B23 AD25
B24 +3.3V
B25 C/BE3
B26 AD23
B27 GND
B28 AD21
B29 AD19
B30 +3.3V
B31 AD17
B32 C/BE2
B33 GND
B34 IRDY
B35 +3.3V
B36 DEVSEL
B37 GND
B38 LOCK
B39 PERR
B40 +3.3V
B41 SERR
B42 +3.3V
B43 C/BE1
B44 AD14
B45 GND
B46 AD12
B47 AD10
B48 M66EN
B49 Key.7
Key.8
AD8
B52 AD7
B53 +3.3V
B54 AD5
B55 AD3
B56 GND
B57 AD1
B58 +V I/O
B59 ACK64
B60 +5V
B61 +5V
B62
Spectrum Digital, Inc
A-24 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
mPCI_VLYNQ_RSTn
VCC_1V8
VCC_3V3VCC_5V
VCC_1V8 VCC_3V3
VCC_3V3
VLYNQ_CLOCK 20,28
VLYNQ_RXD0 20,28
VLYNQ_RXD1 20,28
VLYNQ_TXD0 20,28
VLYNQ_SCRUN 20,28
VLYNQ_TXD1 21,28
VLYNQ_RESET 11,28
VLYNQ_RXD2 20,28
VLYNQ_RXD3 20,28
VLYNQ_TXD2 21,28
VLYNQ_TXD3 21,28
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 23 30
B
TMS320C6424 Evaluation Module
mPCI VLYNQ CONNECTOR
C385
0.33uF
C371
0.33uF
C373
470pF
C372
22uF
C386
0.33uF
C392
0.33uF
C374
0.33uF
C405
470pF
C381
0.33uF
C382
470pF
C376
470pF
U67
SN74LVC1G06DBVRG4
3
4
5
2
1
C394
470pF
C375
22uF
C377
0.33uF
C383
0.33uF
C379
470pF
C171
0.1uF
C378
22uF
C384
4.7uF
mPCI_VLYNQ_CONNECTOR
Power Supplies
VLYNQ
J20
mPCI_VLYNQ_CONNECTOR
VBAT 1
PIN2 2
PIN3 3
PIN4 4
PIN5 5
PIN6 6
PIN7 7
PIN8
8
GND_9
9
PIN10
10 PIN11
11
PIN12
12 PIN13
13
GND_14
14
PIN15
15
VLYNQ_CLK 16
PIN17
17 PIN18 18
D3_3V_19 19
GND_20
20
VLYNQ_TARGET_TXD0 21
VLYNQ_TARGET_TXD1 22
GND_23
23
VLYNQ_SCRUN 24
GND_25
25
VLYNQ_RESETn 26
GND_27
27
D3_3V_28 28
PIN29 29
PIN30 30
D3_3V_31 31
GND_32
32 GND_33
33 GND_34
34 GND_35
35
VLYNQ_TARGET_RXD0 36
GND_37
37
PIN38 38
PIN39
39
D3_3V_40 40
GND_41
41
GND_42
42
VLYNQ_TARGET_RXD1 43
GND_44
44
GND_45
45
GND_46
46
PIN47 47
GND_48
48
PIN49 49
GND_50
50
PIN51 51
GND_52
52
PIN53 53
GND_54
54
PIN55
55
GND_56
56
PIN57
57
GND_58
58
VLYNQ_TARGET_TXD2 59
GND_60
60
VLYNQ_TARGET_TXD3 61
GND_62
62
D3_3V_63 63
GND_64
64
VLYNQ_TARGET_RXD2 65
GND_66
66
VLYNQ_TARGET_RXD3 67
GND_68
68 GND_69
69
D3_3V_70 70
PIN71 71
GND_72
72
PIN73 73
GND_74
74
PIN75 75
GND_76
76
PIN77 77
GND_78
78 GND_79
79
PIN80 80
GND_81
81
PIN82 82
GND_83
83
PIN84 84
GND_85
85
PIN85 86
GND_87
87
D3_3V_88 88
D3_3V_89 89
GND_90
90 GND_91
91 GND_92
92
PIN93 93
GND_94
94 GND_95
95 GND_96
96
5V_97 97
PIN98 98
GND_99
99
PIN100 100
GND_101
101 GND_102
102
5V_103 103
PIN104 104
PIN105
105
PIN106
106 PIN107
107
PIN108
108
PIN109 109
GND_110
110
D1_8V 111
PIN112 112
PIN113 113
GND_114
114
PIN115 115
PIN116 116
PIN117
117 PIN118
118
GND_119
119
PIN120
120
PIN121 121
PIN122
122
PIN123
123
PIN124 124
HOLE1
125 HOLE2
126 GND_PAD1
127 GND_PAD2
128
R419
NO-POP
C380
470pF
R394
1K
C393
470pF
Spectrum Digital, Inc
A-25
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
B_CLKX1_ACLKX0
B_CLKR1_ACLKR0
B_FSX1_AFSX0
B_FSR1_AFSR0
B_DX1_AXR0[0]
B_DR1_AXR0[1]
VCC_3V3
VCC_3V3
VCC_3V3
GND_AIC GND_AIC
GND_AIC GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
GND_AIC
VCC_3V3
GND_AIC
GND_AIC
VCC_1V8
VCC_3V3
VCC_3V3 VCC_3V3
SYS_RESETn3,16,18,26,29
I2C_DATA 5,11,12,16,27
I2C_CLK 5,11,12,16,27
AUDIO_CLK27
CLKX15,27 CLKR15,27 FSX15,27
DR15,27
ALT_AIC33_CLK
DX15,27
DX05,16,27
CLKX05,16,27
SPIF_OUT 25
DR05,16,27
FSR15,27
McASP_ONn12
SPDIF_ONn12
McBSP_ONn12
SPDIF_ONn12
McASP_ONn12 McBSP_ONn12
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 24 30
B
TMS320C6424 Evaluation Module
AIC33
SILKSCREEN:
LINE IN
SILKSCREEN:
MIC
SILKSCREEN:
HP OUT
SILKSCREEN:
LINE OUT
Isolat e analog and
digital GNDs at single
location in the ground
plane
DR0 <--> AFS R0
DX0 <--> AXR 0[1]
CLKX0 < --> ACLKR0
CLKX1 < --> ACLKX0
FSR1 <--> AXR0[0]
DX1 <--> AFS X0
PLAC E THIS GATE NEAR DC _P2
R197
47K
R214 10
C244
0.1uF
U76
SN74CBTLV3125PWRG4
1A
22A
53A
94A
12 1B 3
2B 6
3B 8
4B 11
1OE
12OE
43OE
10 4OE
13
VCC 14
GND 7
C224
220pF
TP15
TP-30
U75
SN74CBTLV3384PW
1A1
31A2
41A3
71A4
81A5
11 2A1
14 2A2
17 2A3
18 2A4
21 2A5
22
1B1 2
1B2 5
1B3 6
1B4 9
1B5 10
2B1 15
2B2 16
2B3 19
2B4 20
2B5 23
VCC 24
GND 12
1OE
12OE
13
R206 NO-POP
+
C221
10uF
R209 NO-POP
C231
0.1uF
U43
TVL320AIC33IZQE
HPLOUT D1
HPLCOM E1
LINE1R+
B7 LINE1R-
B6
LINE2L+
A4 LINE2L-
B5
MICBIAS
A2
WCLK
F9
DOUT
F8
MPF2
A8
MCLK
G8
SELECT
E8 SDA D8
RIGHT_LO+ J6
DRVSS.1 E2
DRVSS.2 F2
GPIO2 J8
LEFT_LO+ J4
LEFT_LO- J5
MONO_LO- J3
DIN
E9
MIC3R
A1
LINE2R+
B4 LINE2R-
A3
HPRCOM F1
HPROUT G1
MIC3L
B3
DRVDD.1 C1
DRVDD.2 H1
AVDD_ADC B1
AVSS_ADC.1 C2
AVDD_DAC J1
AVSS_DAC.1 G2
RESET
H8
MFP0
B8 MFP1
B9
DVDD
H9
DVSS
D9 IOVDD
C9
MICDET
B2
RIGHT_LO- J7
SCL C8
MONO_LO+ J2
GPIO1 J9
LINE1L-
A5 LINE1L+
A6
BCLK
G9
MFP3
A9
AVSS_ADC.2 D2
AVSS_DAC.2 H2
R219 10
R182 10
R213 10
C228
0.1uF
TP17
TP-30
U62
SN74LVC1G32
1
24
53
TP18
TP-30
C232
0.1uF
R2000
R207 NO-POP
C227
0.1uF
P12
Headphone Out
3
4
2
1
P13
Line Out
3
4
2
1
C207
0.1uF R20
10K
R193
5.6K
+
C245 10UF,6.3V
R216 10
R218 10
R201
10K
R203
20K
L16
BLM41P750SPT
R205 10K
C225
0.1uF
C191
0.1uF
C241
0.1uF
C226
0.1uF
L21 BLM21PG221SN1D
TP16
TP-30
L23 BLM21PG221SN1D
P10
Line In
3
4
2
1
C223
0.1uF
R204
20K
C238
0.1uF
C246
0.1uF
L20
BLM21PG221SN1D
L19
BLM21PG221SN1D
C220
0.1uF
R211
20K
R210
20K
C242
0.1uF
P11
Mic In
3
4
2
1
+
C247 10UF,6.3V
C234
220pF
R198
330
R202
330
+
C243 33uF,6.3V
R356 33
C219
0.1uF
R1990
R212
20K
C239
220pF
L22 BLM21PG221SN1D
R196
5.6K
+
C240 33uF,6.3V
R222
10K
C229
0.1uF
C236
0.1uF
+C230
10uF
C235
0.1uF
R194
5.6K
R217
20K
C237
0.1uF
R195
5.6K
L24 BLM21PG221SN1D
C222
0.1uF
R221
10K
L18
BLM21PG221SN1D
R208 10K
C233
0.1uF
R215 10
Spectrum Digital, Inc
A-26 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
VCC_3V3
VCC_3V3
VCC_3V3
SPIF_OUT24
Size:
Date:
DW G NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 25 30
B
TMS320C6424 Evaluation Module
SPDIF/TVP5146-Switch
SILKSCREEN:
SPDIF OUT
SILKSCREEN:
SPDIF OUT
U49
74LVC1G125DCKRG4
3 5
42
1
U46
74LVC1G125DCKRG4
3 5
42
1
R225
100
J10 RCA JACK
1
2
R228 0
R226 0
C249
0.1uF
C253
0.1uF P14
TOTX141P
GND
1
VCC
2
IN
3
MP1
4
MP2
5
C252
0.1uF
C250
0.1uF
R224 220
Spectrum Digital, Inc
A-27
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
GP[54]
EM_D[15]_GP[36]
EM_D[11]_GP[40]
EM_D[14]_GP[37]
EM_D[13]_GP[38]
EM_D[12]_GP[39]
EM_D[8]_GP[43]
EM_A21_GP[34]
EM_A16_GP[48]
EM_A14_GP[50]
EM_A15_GP[49]
EM_A13_GP[51]EM_A20_GP[44]
EM_A19_GP[45]
EM_A17_GP[47]
EM_RNW_GP[35] RMRXER_GP[52]
RMREFCLK_GP[31]
RMRXD1_EM_CS5_GP[33]
RMRXD0_EM_CS4_GP[32]
PWM1/AXR0_4/GIO004
CLK_OUT/PWM2/GIO084
EM_A11_GP[90]
EM_A12_GP[89]
EM_A9_GP[92]
EM_A10_GP[91]
EM_OEn
EM_A05_GP[96]
EM_A06_GP[95]
EM_A07_GP[94]
EM_A08_GP[93]
EM_WEn
EM_CS3_GP[13]
EM_CS2_GP[12]
EM_A02_CLE_GP[8]
EM_A04_GP[10]
EM_A00_GP[7]_(AEM2)EM_BA0_GP[6]_(AEM1)
EM_A03_GP[11]
EM_A01_ALE_GP[9]
GP[24]_BOOTMODE2
GP[22]_BOOTMODE0
GP[23]_BOOTMODE1
GP[25]_BOOTMODE3
RMCRSDV_GP[30]
RMTXD0_GP[28]
GP[26]_FASTBOOT
RMTXD1_GP[27]
RMTXEN_GP[29]
EM_D[10]_GP[41]
EM_D[9]_GP[42]
EM_D[2]_GP[16] EM_D[5]_GP[19]
EM_D[1]_GP[15]
EM_D[4]_GP[18]
EM_D[7]_GP[21]EM_D[0]_GP[14] EM_D[6]_GP[20]
EM_D[3]_GP[17]
EM_A18_GP[46]
GP[53]
EM_BA1_GP[5]_(AEM0)
VCC_5V
VCC_3V3
VCC_5V
VCC_3V3
VCC_1V8VCC_1V8
MEM_D15-8_ENABLEn 14
SYS_RESETn3,16,18,24,29
EM_RNW6
PWM1 5
I2C_INT_ENABLEn 5
CLK_OUT 5
RESETn3,4,20
EMA21-13_ENABLEn14
MEM_EMD7-0_ENABLEn14
EM_OEn 6,15,16
B.EM_A11 15,16,20
B.EM_A12 15,16,20
B.EM_A09 15,16,20
B.EM_A10 15,16,20
B.EM_A0515,16,20 B.EM_A0615,16,20 B.EM_A0715,16,20 B.EM_A0815,16,20 EM_WEn6,15,16
EM_A02_CLE 6,15,16
EM_A04 6,10,15,16
EM_A00 6,10,15,16
DC_EM_CS2n 14
EM_WAIT_BSYn6,15
EM_BA06,10,15,16 EM_BA16,10,15,16
EM_A036,15,16
EM_A01_ALE6,15,16
EM_D[8] 6,14
EM_D[9] 6,14
EM_D[10] 6,14
EM_D[11] 6,14EM_D[12]6,14 EM_D[13]6,14 EM_D[14]6,14 EM_D[15]6,14
EM_D[0]6,14 EM_D[1]6,14 EM_D[2]6,14 EM_D[3]6,14 EM_D[4] 6,14
EM_D[5] 6,14
EM_D[6] 6,14
EM_D[7] 6,14
EM_CS3 6
RMRXD0_EM_CS4 6
RMRXD1_EM_CS5 6
RMRXD0_EM_CS46RMRXD1_EM_CS56
RMTXEN6
RMTXD0_8_166,10
RMTXD1_LENDIAN6,10
RMTXEN 6
RMTXD0_8_16 6,10
RMTXD1_LENDIAN 6,10
GP[26]_FASTBOOT 6,10
GP[24]_BOOTMODE26,10 GP[23]_BOOTMODE16,10 GP[22]_BOOTMODE06,10
GP[25]_BOOTMODE36,10
EM_A21 6,14
B.EM_A15 14,20
B.EM_A14 14,20
B.EM_A13 14,20
B.EM_A16 14,20
B.EM_A1914,20
B.EM_A1714,20 B.EM_A1814,20
B.EM_A2014,20
GP[53]6
GP[54]6
RMCRSVD6
RMCRSVD6
RMREFCLK6
RMREFCLK6
RMRXER6
RMRXER 6
B_RMRXD0 17
B_RMRXD1 17
B_RMTXEN 17
B_RMTXD0 17
B_RMTXD1 17
B_RMCRSDV 17
B_RMREFCLK 17
B_RMRXER 17
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 26 30
B
TMS320C6424 Evaluation Module
VIDEO DC Conn.
SILKSCREEN:
DC_P1
RESERVED_PIN5
RN39 RPACK8-10
1
2
3
4
5
6
7
89
10
11
12
13
14
15
16
DC_P1
CONNECTOR 50 X 2
1
122
3
344
5
566
7
788
9
910 10
11
11 12 12
13
13 14 14
15
15 16 16
17
17 18 18
19
19 2020
21
21 22 22
23
23 24 24
25
25 26 26
27
27 28 28
29
29 30 30
31
31 32 32
33
33 34 34
35
35 36 36
37
37 38 38
39
39 40 40
41
41 42 42
43
43 44 44
45
45 46 46
47
47 48 48
49
49 50 50
51
51 52 52
53
53 54 54
55
55 56 56
57
57 58 58
59
59 60 60
61
61 62 62
63
63 64 64
65
65 66 66
67
67 68 68
69
69 7070
71
71 72 72
73
73 74 74
75
75 76 76
77
77 78 78
79
79 80 80
90 90
88 88
86 86
84 84
82 82
81
81 83
83 85
85 87
87 89
89 92 92
94 94
96 96
98 98
100 100
91
91 93
93 95
95 97
97 99
99
Spectrum Digital, Inc
A-28 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
HD15_MTXCLK_GP[73]
HD14_MTXD0_GP[72]
HD12_MTXD2_GP[70] HD11_TXD3_GP[69]
HASn_MDIO_GP[83] MDC/HCSn/AD05/GIO081
HDS2n_MRXD0_GP[78]
HRDYn_MRXD2_GP[80] HDS1n_MRXD1_GP[79]
HINTn_MRXD3_GP[82]
HCNTL0_MRXER_GP[74]
ACLKX0_CLKX1_GP[106]
AMUTE0_DR1_GP[110]
AXR0[0]_FSR1_GP[105]
AFSX0_DX1_GP[107]
AHCLKX0_CLKR1_GP[108]
AMUTEIN0_FSX1_GP[109]
AFSR0_DR0_GP[100]
AHCLKR0_CLKR0_GP[101]
AUDIO_CLK
AUDIO_CLK AXR0[3]_FSR0_GP[102]
AXR0[1]_DX0_GP[104]
ACLKR0_CLKX0_GP[99]
AXR0[2]_FSX0_GP[103]
URXD0_GP[85]
UTXD0_GP[86]UCTS0_GP[87]
URTS0_PWM0_GP[88]
B_GP[0]
B_GP[2]
B_GP[3]
B_GP[1]
HRNW_MRXCLK_GP[77] HHWIL_MRXDV_GP[74]
HD10_CRS_GP[68]
HD09_MCOL_GP[67]
TOUT1L_UTXD1_GP[55] TINP1L_URXD1_GP[56]
CLKS1_TINP0L_GP[98]CLKS0_TOUT0L_GP[97]
RESET_OUTn
I2C_CLKI2C_DATA
USER_I2C_IO.A1P0
USER_I2C_IO.A1P3
USER_I2C_IO.A1P1 USER_I2C_IO.A1P2
USER_I2C_IO.A0P6USER_I2C_IO.A0P7
HD13_MTXD1_GP[71]
HCNTL1_MTXEN_GP[75]
VCC_5V
VCC_3V3
VCC_5V
VCC_3V3
B.TXCLK17,21
B.TXD1 17,21
B.TXD017,21 B.TXD217,21 B.TXD3 17,21
B.MDIO17,21 B.MDC 17,21
B.RXD017,21 B.RXD217,21 B.RXD3 17,21
B.RXD1 17,21
B.RXER17,21
CLKX1 5,24
DR1 5,24
FSR1 5,24
DX15,24 CLKR15,24 FSX15,24
DR0 5,16,24
CLKR0 5
AUDIO_CLK 24
FSR0 5
DX05,16,24 FSX05,16
CLKX05,16,24
UTXD0 5,19
URXD0 5,19
UCTS05URTS05
B.TXEN 17,21
B.RXCLK17,21 B.RXDV 17,21
B.CRS 17,21
B.COL17,21
TOUT1L5,19 TINP1L 5,19
TOUT0L5TINP0L 5
AIC33_ENABLEn 12
RS232_ENABLEn 19
ENET_ENABLEn17
RESET_OUTn 3,20
I2C_CLK 5,11,12,16,24I2C_DATA5,11,12,16,24
USER_I2C_IO.A1P0 12USER_I2C_IO.A1P112 USER_I2C_IO.A1P2 12USER_I2C_IO.A1P312
USER_I2C_IO.A0P711 USER_I2C_IO.A0P6 11
B_GP[3]21 B_GP[0] 21
B_GP[2] 21
B_GP[1]21
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 27 30
B
TMS320C6424 Evaluation Module
EMAC/MCBSP DC Conn.
R270NO-POP
DC_P2
CONNECTOR 45 X 2
11
2
233
4
455
6
677
8
899
10
10 11 11
12
12 13 13
14
14 15 15
16
16 17 17
18
18 19 19
20
20 21 21
22
22 23 23
24
24 25 25
26
26 27 27
28
28 29 29
30
30 31 31
32
32 33 33
34
34 35 35
36
36 37 37
38
38 39 39
40
40 41 41
42
42 43 43
44
44 45 45
46
46 47 47
48
48 49 49
50
50 51 51
52
52 53 53
54
54 55 55
56
56 57 57
58
58 5959
60
60 61 61
62
62 63 63
64
64 65 65
66
66 67 67
68
68 69 69
70
70 71 71
72
72 73 73
74
74 75 75
76
76 77 77
78
78 79 79
80
80
90
90 88
88 86
86 84
84 82
82 81 81
83 83
85 85
87 87
89 89
Spectrum Digital, Inc
A-29
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
HD06_VLYNQ_TXD1_GP[64]
HD05_VLYNQ_TXD0_GP[63]
VLYNQ_CLOCK_GP[57]HD00_VLYNQ_SCRUN_GP[58]
HD01_VLYNQ_RXD0_GP[59]
HD02_VLYNQ_RXD1_GP[60]
HD03_VLYNQ_RXD2_GP[61]
HD04_VLYNQ_RXD3_GP[62] HD07_VLYNQ_TXD2_GP[65]
HD08_VLYNQ_TXD3_GP[66]
VCC_3V3
VCC_5V VCC_5V
VCC_1V8VCC_3V3 VCC_3V3
VLYNQ_TXD1 21,23
VLYNQ_SCRUN20,23
VLYNQ_RXD020,23 VLYNQ_RXD120,23 VLYNQ_TXD0 20,23
VLYNQ_CLOCK 20,23
VLYNQ_RXD220,23 VLYNQ_RXD320,23 VLYNQ_TXD2 21,23
VLYNQ_TXD3 21,23
VLYNQ_RESET11,23
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 28 30
B
TMS320C6424 Evaluation Module
VLYNQ/ EMIF DC Conn.
SILKSCREEN:
DC_P3 - VLYNQ
Note: Place ontop of tr aces going between the bus-exchange switches and the mPCI connector to improve signal integrity.
R266
1K
C177
0.1uF
U15
SN74LVC1G06DBVRG4
3
4
5
2
1
DC_P3
HEADER 10X2
1
3
5
7
9
11
13
15
17
19
2
4
6
8
10
12
14
16
18
20
R267
NO-POP
Spectrum Digital, Inc
A-30 C6424 EVM Technical Reference
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
CORE_PWR_OK
3V3_PWR_OK
1V8_PWR_OK
DSP_CORE_VDD
VCC_5V
VCC_5V
AGND
DSP_CORE_VDD
VCC_3V3 VCC_3V3
VCC_3V3
VCC_3V3
VCC_3V3
VCC_1V8 VCC_3V3
VCC_3V3
VCC_3V3
CORE_VDD_SELECT 12
SYS_RESETn 3,16,18,24,26
CORE_PWR_OK 30
1V8_PWR_OK30
EMU_SYS_RESETn
3V3_PWR_OK30
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 29 30
B
TMS320C6424 Evaluation Module
RESET SUPERVISOR
3.3 sq in AG ND,
min thermal pad
Connect
at pin
1
EMI S UPPRESION. LOCATE NEAR EACH REGULAT OR. 6
VIAS FROM PAD TO PLANE OR DIRECT TIE.
Need box mounting holes and case shielding tabs.
GND Test Points
CORE_VDD_SELECT function:
0: 1.05V
1: 1.2V
The FET and r esistor in series with it can be
remo ved if volta ge scaling is not desired .
SILKSCREEN:
nPOR
SILKSCREEN:
EXT nPOR
Reset Threhold 0.84 Volts
Reset Threhold 0.84 Volts
Reset Threhold 0.84 Volts
R288
10K
R290
10K 1%
R345
10K
TP23
TP-60
R2890
R278
10K
R283
10K 1%
R277
107 1%
+C321
10uF LESR
R349
0
R280
0.025
TP21
TP-30
TP22
TP-60
C329
NO-POP
TP30
TP-60
R274
56.0K 1%
L49
BLM41P750SPT
U56
TPS3808G09DBVRG4
RESET 1
GND 2
MR
3
CT
4
SENSE1
5VDD 6
R344
NO-POP
C328
0.1uF
C312
NO-POP
C324
1000pF
R272
0
C326
0.1uF
TP28
TP-60
U57
TPS3808G09DBVRG4
RESET 1
GND 2
MR
3
CT
4
SENSE1
5VDD 6
C319
NO-POP
TP25
TP-60
R279
10K 0.1%
R276
1.65K 1%
C368
1uF
C330
0.1uF
C320
0.1uF
C316
560pF
R287
10K 1%
+C323
100uF 4V
D10
BAS16-7-F
13
C318
0.047uF
JP4
HEADER 2 NO-POP
1
2
TP26
TP-60
S
D
G
Q4BSS123
TP29
TP-60
R284
10K
R273
56.0K 1%
U55
TPS54310PWP
101338-0001
AGND 1
VSENSE 2
COMP 3
PWRGD 4
BOOT 5
PH1 6
PH2 7
PH3 8
PH4 9
PH5 10
PGND1
11 PGND2
12 PGND3
13
VIN1
14 VIN2
15 VIN3
16
VBIAS
17 SS/ENA
18 SYNC
19 RT
20 POWERPAD
21
C327
NO-POP
C331
NO-POP
C317
3300pF
U58
TPS3808G09DBVRG4
RESET 1
GND 2
MR
3
CT
4
SENSE1
5VDD 6
R314
NO-POP
C315
0.039uF
SW5
PUSHBUTTON SW
A
AA BB
B
R275
71.5K 1%
C313
0.01uF
C322
0.1uF +C325
100 uF
R282 9.09K 1%
R281
1K
C314
0.1uF
R34633
R285 20K 1%
L50
2.7 uH
TP27
TP-60
Spectrum Digital, Inc
A-31
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
1V8_PWR_OK
1V8_PWR_OK
3V3_PWR_OK
3V3_PWR_OK
3V3_PWR_OK
AGND
VCC_3V3
VCC_5V
VCC_5V
VCC_5V
AGND
VCC_1V8
VCC_5V
CORE_PWR_OK29
CORE_PWR_OK29
3V3_PWR_OK 29
1V8_PWR_OK29
Size:
Date:
DWG NO Revision:
Sheet o f
Title:
Page Contents:
A
SPECTRUM DIGITAL INCORPORATED
509122-0001
Thursday, February 01, 2007 30 30
B
TMS320C6424 Evaluation Module
POWER
3.3 sq in AGND,
min thermal pad
Connect
at pin
1
Sets
Voltage
EMI S UPPRESION. LOCATE NEAR EACH REGULAT OR. 6
VIAS FROM PAD TO PLANE O R DIRECT TIE.
3.3V @1.5Am p Max
2.5 MM JACK
3.3 sq in AGND,
min thermal p ad
Connect
at pin
1
Sets
Voltage
EMI SU PPRESION. LOCA TE NEAR EACH REGULATOR . 6
VIAS FROM PAD TO PLANE OR DIRECT TIE.
SILKSCREEN:
5V IN
+C340
47uF
TP38
TP-60
DS5
GREEN
U60
TPS54310PWP
101338-0001
AGND 1
VSENSE 2
COMP 3
PWRGD 4
BOOT 5
PH1 6
PH2 7
PH3 8
PH4 9
PH5 10
PGND1
11 PGND2
12 PGND3
13
VIN1
14 VIN2
15 VIN3
16
VBIAS
17 SS/ENA
18 SYNC
19 RT
20 POWERPAD
21
C350
470pF
TP32
TP-30
R296 107 1%
C353
NO-POP
+C346
100 uF
TP33
TP-60
+C342
10uF LESR
C339
0.1uF
C341
0.1uF
R303 107 1%
C337
0.047uF
TP31
TP-30
L53
BLM41P750SPT
J16
RASM712
SLEEVE
SHUNT
CENTER C338
NO-POP
R304
10K
C348
0.1uF
C336 3300pF
R291
3.74K 1%
+C357
100uF 4V
C352
0.047uF
TP37
TP-60
1
C354
0.1uF
R302
2K 1%
C351 3300pF
R305 10K 1%
R438
NO-POP
C347
8200pF
C332
8200pF
R293
2K 1%
R393
NO-POP
R29710K 1%
C334
0.039uF
C356
0.1uF
C333
0.1uF R295
10K
R439
0
+C355
10uF LESR
L51
BLM41P750SPT
+C343
100uF 4V
R292
NO-POP
L52
3.3 uH
R306
0.025
+C345
100 uF 4V
C349
0.039uF
TP34
TP-60
L54
2.7 uH
U59
TPS54310PWP
101338-0001
AGND 1
VSENSE 2
COMP 3
PWRGD 4
BOOT 5
PH1 6
PH2 7
PH3 8
PH4 9
PH5 10
PGND1
11 PGND2
12 PGND3
13
VIN1
14 VIN2
15 VIN3
16
VBIAS
17 SS/ENA
18 SYNC
19 RT
20 POWERPAD
21
R298
0.025
R300
10.2K 1%
+C359
100 uF
TP36
TP-30
C358
1000pF
C335
470pF
R294
71. 5K 1%
R299
220
R301
71.5K 1%
C344
1000pF
Spectrum Digital, Inc
A-32 C6424 EVM Technical Reference
B-1
Appendix B
Mechanical Information
This appendix contains the mechanical information about the C6424
EVM produced by Spectrum Digital.
Spectrum Digital, Inc
B-2 C6424 EVM Technical Reference
THIS DRAWING IS NOT T O SCALE
Spectrum Digital, Inc
B-3
Spectrum Digital, Inc
B-4 C6424 EVM Technical Reference
Printed in U.S.A., February 2007
509125- 00 01 R ev A
