Blackfin A-V EZ-Extender Manual (Rev. 1.0)

Blackfin A-V EZ-Extender
Manual
Revision 1.0, January 2005
Part Number
82-000870-01
Analog Devices, Inc.
One Technology Way
Norwood, Mass. 02062-9106
a
Copyright Information
© 2005 Analog Devices, Inc., ALL RIGHTS RESERVED. This document may not be reproduced in any form without prior, express written
consent from Analog Devices, Inc.
Printed in the USA.
Limited Warranty
The A-V EZ-Extender is warranted against defects in materials and workmanship for a period of one year from the date of purchase from Analog
Devices or from an authorized dealer.
Disclaimer
Analog Devices, Inc. reserves the right to change this product without
prior notice. Information furnished by Analog Devices is believed to be
accurate and reliable. However, no responsibility is assumed by Analog
Devices for its use; nor for any infringement of patents or other rights of
third parties which may result from its use. No license is granted by implication or otherwise under the patent rights of Analog Devices, Inc.
Trademark and Service Mark Notice
The Analog Devices logo, Blackfin, VisualDSP++, and EZ-KIT Lite are
registered trademarks of Analog Devices, Inc.
All other brand and product names are trademarks or service marks of
their respective owners.
Regulatory Compliance
The Blackfin A-V EZ-Extender has been certified to comply with the
essential requirements of the European EMC directive 89/336/EEC
(inclusive 93/68/EEC) and, therefore, carries the “CE” mark.
The Blackfin A-V EZ-Extender had been appended to Analog Devices
Development Tools Technical Construction File referenced
“DSPTOOLS1” dated December 21, 1997 and was awarded CE Certification by an appointed European Competent Body and is on file.
The EZ-KIT Lite evaluation system contains ESD
(electrostatic discharge) sensitive devices. Electrostatic charges readily accumulate on the human
body and equipment and can discharge without
detection. Permanent damage may occur on devices
subjected to high-energy discharges. Proper ESD
precautions are recommended to avoid performance
degradation or loss of functionality. Store unused
EZ-KIT Lite boards in the protective shipping
package.
CONTENTS
PREFACE
Product Overview ........................................................................... ix
Purpose of This Manual .................................................................. xi
Intended Audience .......................................................................... xi
Manual Contents ........................................................................... xii
What’s New in This Manual ........................................................... xii
Technical or Customer Support ..................................................... xiii
Supported Products ....................................................................... xiii
Product Information ...................................................................... xiv
Related Documents .................................................................. xiv
Notation Conventions .................................................................... xvi
A-V EZ-EXTENDER INTERFACES
A-V EZ-Extender Setup ................................................................ 1-1
Analog Audio Interface .................................................................. 1-2
Analog Video Interface .................................................................. 1-3
Camera Module Interfaces ............................................................. 1-4
Flat Panel Display Interface ........................................................... 1-6
Blackfin A-V EZ-Extender Manual
v
CONTENTS
A-V EZ-EXTENDER HARDWARE REFERENCE
System Architecture ...................................................................... 2-2
Jumpers ........................................................................................ 2-7
Video Test Loopback Jumpers (JP1.1/2, JP1.3/4, JP1.5/6) ....... 2-7
Connector Voltage Selection Jumper (JP2) ............................... 2-7
TWI Source Selection Jumpers (JP3.3/5/7, JP3.4/6/8) ............. 2-7
PDWN Connection Jumper (JP3.9/10) ................................... 2-9
Decoder HSync Disconnect Jumper (JP3.11/12) ...................... 2-9
Decoder VSync Connection Jumper (JP3.13/14) ..................... 2-9
Encoder HRef Connection Jumper (JP3.15/16) ..................... 2-10
Encoder VSync Connection Jumper (JP3.17/18) ................... 2-10
Decoder Output Enable Jumper (JP3.19/20) ......................... 2-10
SNAPSHOT_FODD Disconnect Jumper (JP3.21/22) ........... 2-10
PPI Clock Setup Jumpers (JP4.1/2, JP4.3/4, JP4.5/6, JP4.7/8) 2-10
PPI0 D8–15 Enable Jumper (JP5.1/2) ................................... 2-11
VID_OUT Data Bus Control Jumpers (JP5.3/4, JP5.5/6) ...... 2-11
PPI0_SYNC1 Direction Setup Jumper (JP6.1/3/5) ................ 2-12
PPI0_SYNC2 Direction Setup Jumper (JP6.2/4/6) ................ 2-12
I2S Enable Jumper (JP7.1/2) ................................................. 2-13
SPORT Data Connection Jumpers (JP7.3/4, JP7.5/6) ............ 2-13
VID_OUT Bus Sync Source Select Jumpers (JP8.1/3/5, JP8.2/4/6)
2-13
VID_OUT Bus Sync Enable Jumper (JP8.7/8) ...................... 2-13
AV_RESET Source Jumper (JP9.1/3/5) ................................. 2-14
vi
Blackfin A-V EZ-Extender Manual
CONTENTS
PPI0_D Direction Setup Jumper (JP9.2/4/6) ......................... 2-14
Audio Loopback Jumpers (JP10.1/2, JP10.3/4) ...................... 2-14
BILL OF MATERIALS
INDEX
Blackfin A-V EZ-Extender Manual
vii
CONTENTS
viii
Blackfin A-V EZ-Extender Manual
PREFACE
Thank you for purchasing the Blackfin® A-V EZ-Extender, Analog
Devices, Inc. (ADI) extension board to the EZ-KIT Lite® evaluation system for ADSP-BF533, ADSP-BF537, and ADSP-BF561 Blackfin
processors.
The Blackfin processors are embedded processors that support a Media
Instruction Set Computing (MISC) architecture. This architecture is the
natural merging of RISC, media functions, and digital signal processing
characteristics towards delivering signal processing performance in a
microprocessor-like environment.
The EZ-KIT Lite and A-V EZ-Extender are designed to be used in conjunction with the VisualDSP++® development environment.
VisualDSP++ offers a powerful programming tool with new flexibility that
significantly decreases the time required to port software code to a processor, reducing time-to-market.
To learn more about Analog Devices development software, go to
http://www.analog.com/processors/tools/.
Product Overview
The Blackfin A-V EZ-Extender is a separately sold extension board that
plugs onto the expansion interface of the ADSP-BF533, ADSP-BF537, or
ADSP-BF561 EZ-KIT Lite evaluation system. The extension board aids
the design and prototyping phases of ADSP-BF533, ADSP-BF537, or
ADSP-BF561 processor targeted applications.
Blackfin A-V EZ-Extender Manual
ix
Product Overview
The board extends the capabilities of the evaluation system by providing a
connection to a video decoder, a video encoder, multiple camera evaluation boards, a flat panel display, and a 3-stereo input channel, 2-stereo
output channel audio codec.
The following is a list of the Blackfin A-V EZ-Extender interfaces.
• Analog Audio Interface
D
D
AD1836A Analog Devices 96 kHz audio codec
five 3.5 mm audio jacks, stacked in one connector
• Analog Video Interface
D
D
ADV7183B video decoder with three input RCA phono
jacks
ADV7179 video encoder with three output RCA phono
jacks
• OmniVision Camera Module Interface
D
D
Connection to OmniVision Camera Evaluation Modules,
for example: OV6630AA
32-pin, right angle, 0.1 in. spacing, female socket
• Micron Camera Module Interface
D
D
Connection to Micron Camera Evaluation Modules,
for example: MT9V022
26-pin, right angle, 0.1 in. spacing, female socket
• Kodak Camera Module Interface
D
D
x
Connection to Kodak Camera Evaluation Modules,
for example: KAC-9628
28-pin, right angle, 0.1 in. spacing, female socket
Blackfin A-V EZ-Extender Manual
Preface
• Flat Panel Display Interface
D
D
Connection to Flat Panel Displays,
for example, NL6448BC20-08E
DF9B-31S-1V connector
Before using any of the interfaces, follow the setup procedure in “A-V
EZ-Extender Setup” on page 1-1.
Example programs are available to demonstrate the capabilities of the
Blackfin A-V EZ-Extender board.
Purpose of This Manual
The Blackfin A-V EZ-Extender Manual describes the operation and configuration of the components on the extension board. A schematic and a bill
of materials are provided as a reference for future Blackfin processor board
designs.
Intended Audience
This manual is a user’s guide and reference to the Blackfin A-V
EZ-Extender. Programmers who are familiar with the Analog Devices
Blackfin processor architecture, operation, and development tools are the
primary audience for this manual.
Programmers who are unfamiliar with VisualDSP++ or EZ-KIT Lite evaluation software should refer to the ADSP-BF533, ADSP-BF537, or
ADSP-BF561 Evaluation System Manual, VisualDSP++ online Help, and
user’s or getting started guides. For the locations of these documents, refer
to “Related Documents”.
Blackfin A-V EZ-Extender Manual
xi
Manual Contents
Manual Contents
The manual consists of:
• Chapter 1, “A-V EZ-Extender Interfaces” on page 1-1
Provides basic board information.
• Chapter 2, “A-V EZ-Extender Hardware Reference” on page 2-1
Provides information on the hardware aspects of the board.
• Appendix A, “Bill Of Materials” on page A-1
Provides a list of components used to manufacture the
EZ-Extender board.
• Appendix B, “Schematics” on page B-1
Provides the resources to allow EZ-KIT Lite board-level debugging
or to use as a reference design.
appendix is not part of the online Help. The online Help
L This
viewers should go to the PDF version of the Blackfin A-V
EZ-Extender Manual located in the Docs\EZ-KIT Lite Manuals
folder on the installation CD to see the schematics. Alternatively,
the schematics can be found on the Analog Devices Web site,
www.analog.com/processors.
What’s New in This Manual
This is the first edition of the Blackfin A-V EZ-Extender Manual.
xii
Blackfin A-V EZ-Extender Manual
Preface
Technical or Customer Support
You can reach processor Tools Support in the following ways.
• Visit the Embedded Processing and processor products Web site at
http://www.analog.com/processors/technicalSupport
• E-mail tools questions to
[email protected]
• E-mail processor questions to
[email protected]
• Phone questions to 1-800-ANALOGD
• Contact your Analog Devices, Inc. local sales office or authorized
distributor
• Send questions by mail to:
Analog Devices, Inc.
One Technology Way
P.O. Box 9106
Norwood, MA 02062-9106
USA
Supported Products
The Blackfin A-V EZ-Extender is designed as an extension board to the
ADSP-BF533, ADSP-BF537, and ADSP-BF561 EZ-KIT Lite evaluation
systems.
Blackfin A-V EZ-Extender Manual
xiii
Product Information
Product Information
You can obtain product information from the Analog Devices Web site,
from the product CD-ROM, or from the printed publications (manuals).
Analog Devices is online at www.analog.com. Our Web site provides information about a broad range of products—analog integrated circuits,
amplifiers, converters, and digital signal processors.
Related Documents
For information on product related development software, see the following publications.
Table 1. Related Processor Publications
Title
• ADSP-BF533 Embedded Processor Datasheet
• ADSP-BF536/ADSP-BF537 Embedded Processor Datasheet
• ASP-BF561 Blackfin Embedded Symmetric
Multi-Processor Datasheet
General functional description, pinout, and
timing.
• ADSP-BF533 Blackfin Processor Hardware
Reference
• ADSP-BF537 Blackfin Processor Hardware
Reference
• ASP-BF561 Blackfin Processor Hardware
Reference
Description of internal processor architecture
and all register functions
Blackfin Processor Instruction Set Reference
xiv
Description
Description of all allowed processor assembly
instructions.
Blackfin A-V EZ-Extender Manual
Preface
Table 2. Related VisualDSP++ Publications
Title
• ADSP-BF533 EZ-KIT Lite Evaluation System Manual
• ADSP-BF537 EZ-KIT Lite Evaluation System Manual
• ADSP-BF561 EZ-KIT Lite Evaluation System Manual
Description
Description of the EZ-KIT Lite features and
usage.
Note: For the ADSP-BF537 EZ-KIT Lite,
there is additional Getting Started with
ADSP-BF537 EZ-KIT Lite.
VisualDSP++ User’s Guide
Description of VisualDSP++ features and usage
VisualDSP++ Assembler and Preprocessor Manual
Description of the assembler function and
commands
VisualDSP++ C/C++ Complier and Library
Manual for Blackfin Processors
Description of the complier function and commands for Blackfin processors
VisualDSP++ Linker and Utilities Manual
Description of the linker function and commands
VisualDSP++ Loader Manual
Description of the loader function and commands
All documentation is available online. Most documentation is available in
printed form.
Visit the Technical Library Web site to access all processor and tools manuals and data sheets:
http://www.analog.com/processors/resources/technicalLibrary
Blackfin A-V EZ-Extender Manual
xv
Notation Conventions
Notation Conventions
Text conventions used in this manual are identified and described as
follows.
Example
Description
Close command
(File menu)
Titles in reference sections indicate the location of an item within the
VisualDSP++ environment’s menu system (for example, the Close
command appears on the File menu).
{this | that}
Alternative required items in syntax descriptions appear within curly
brackets and separated by vertical bars; read the example as this or
that. One or the other is required.
[this | that]
Optional items in syntax descriptions appear within brackets and separated by vertical bars; read the example as an optional this or that.
[this,…]
Optional item lists in syntax descriptions appear within brackets
delimited by commas and terminated with an ellipse; read the example
as an optional comma-separated list of this.
.SECTION
Commands, directives, keywords, and feature names are in text with
letter gothic font.
filename
Non-keyword placeholders appear in text with italic style format.
L
a
[
xvi
Note: For correct operation, ...
A Note provides supplementary information on a related topic. In the
online version of this book, the word Note appears instead of this
symbol.
Caution: Incorrect device operation may result if ...
Caution: Device damage may result if ...
A Caution identifies conditions or inappropriate usage of the product
that could lead to undesirable results or product damage. In the online
version of this book, the word Caution appears instead of this symbol.
Warning: Injury to device users may result if ...
A Warning identifies conditions or inappropriate usage of the product
that could lead to conditions that are potentially hazardous for the
devices users. In the online version of this book, the word Warning
appears instead of this symbol.
Blackfin A-V EZ-Extender Manual
Preface
conventions, which apply only to specific chapters, may
L Additional
appear throughout this document.
Blackfin A-V EZ-Extender Manual
xvii
Notation Conventions
xviii
Blackfin A-V EZ-Extender Manual
1 A-V EZ-EXTENDER
INTERFACES
After a setup procedure for a custom system utilizing the Blackfin A-V
EZ-Extender, a ADSP-BF533, ADSP-BF537 or ADSP-BF561 EZ-KIT
Lite, and an evaluation module, the chapter describes each of the evaluation interfaces the extender supports.
The information is presented in the following order.
• “Analog Audio Interface” on page 1-2
• “Analog Video Interface” on page 1-3
• “Camera Module Interfaces” on page 1-4
• “Flat Panel Display Interface” on page 1-6
A-V EZ-Extender Setup
It is very important to set up all of the components of the system containing the A-V EZ-Extender before applying power to that system. The
following procedure is recommended for the correct setup.
Power your system when these steps are completed:
1. Read the applicable design interface section in this chapter—the
text provides an overview of the capabilities of the interface.
2. Read “System Architecture” on page 2-2 to understand the physical
connections of the extension board. For detailed information, refer
to “Schematics on page B-1”.
Blackfin A-V EZ-Extender Manual
1-1
Analog Audio Interface
3. Set the jumpers on A-V EZ-Extender board. Use the block diagram
in Figure 2-1 on page 2-3 in conjunction with “Jumpers” on
page 2-7.
4. Set the switches and jumpers on EZ-KIT Lite board. If not already,
familiarize yourself with the documentation and schematics of the
EZ-KIT Lite (see “Related Documents” on page -xiv). Compare
the expansion interface signals of the A-V EZ-Extender board with
the signals of the EZ-KIT Lite board to ensure there is no contention. For example, it may be necessary to disable other devices
connected to the Parallel Peripheral Interface (PPI) of the processor, change the routing of the PPI clocks, and disable the push
buttons.
5. Configure any other interfacing boards, for example, another
EZ-Extender or camera evaluation board.
Analog Audio Interface
For an audio application, the A-V EZ-Extender uses the AD1836A multichannel 96 kHz audio codec. The AD1836A is a high-performance,
single-chip codec that provides three stereo digital-to-analog converters
(outputs) and two stereo analog-to-digital converters (inputs) using ADI’s
patented multi-bit sigma-delta architecture. The board includes an SPI
port, allowing the processor to adjust volume and other parameters. For a
general overview of the audio interface connections, see Figure 2-1 on
page 2-3. For more detailed information, see “Schematics on page B-1”.
of the expansion interface interfaces with the serial port of the
AD1836A codec. The processor is capable of transferring data to the
audio codec in time-division multiplexed (TDM) or I2S mode. The I2S
mode allows the codec to operate at a 96 kHz sample rate but allows only
two channels of output. TDM mode can operate at a maximum of 48 kHz
SPORT0
1-2
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Interfaces
sample rate but allows simultaneous use of all input and output channels.
To operate in I2S mode, the JP7.1/2 jumper must be installed. For more
information, see “I2S Enable Jumper (JP7.1/2)” on page 2-13.
The internal registers of the AD1836A audio codec can be programmed
via the SPI port of the processor. (For information on how to program the
configuration registers, refer to the AD1836A datasheet.) The AD1836A
codec reset comes either from a flag pin located at PPI1_D11 of the expansion interface or from the EZ-KIT Lite reset signal. For information on
how to configure the reset, see “AV_RESET Source Jumper (JP9.1/3/5)”
on page 2-14.
Before using the interface, follow the steps in “A-V EZ-Extender Setup”
on page 1-1.
Example programs demonstrating the capabilities of the audio interface
are included in the A-V EZ-Extender installation directory.
For more information about AD1836A, go to http://www.analog.com
and search for AD1836A.
Analog Video Interface
The A-V EZ-Extender supports video input and output applications with
an on-board video encoder and decoder. The ADV7179 video encoder
provides up to three output channels of analog video, while the
ADV7183B video decoder provides up to three input channels of analog
video. Both the encoder and the decoder connect to the PPI0 of the expansion interface, while the encoder also can connect to the PPI1 (if the
processor has two PPI ports). For a general overview of the analog video
interface connectors, see Figure 2-1 on page 2-3. For more detailed information, see “Schematics on page B-1”.
Blackfin A-V EZ-Extender Manual
1-3
Camera Module Interfaces
To use ADV7179 and ADV7183B, set up all of the jumpers related to the
PPI data signals, frame sync signals, and clock signal. To program the
internal register of the video devices, configure the Two Wire Interface
signals (see “TWI Source Selection Jumpers (JP3.3/5/7, JP3.4/6/8)” on
page 2-7). Finally, determine the source of the encoder or decoder reset
(see “AV_RESET Source Jumper (JP9.1/3/5)” on page 2-14.)
Before using the interface, follow the steps in “A-V EZ-Extender Setup”
on page 1-1.
Example programs demonstrating the capabilities of the analog video
interface are included in the A-V EZ-Extender installation directory.
For more information about ADV7179 and ADV7183B, go to
http://www.analog.com and search for ADV7179 or ADV7183B.
Camera Module Interfaces
The A-V EZ-Extender has three right-angle connectors (J4, J6, and P4)
with the control signals necessary to interface with three different manufactures camera evaluation modules. For a general overview of the camera
module interface connections, see Figure 2-1 on page 2-4. For more
detailed information, see “Schematics on page B-1”. Figure 1-1 shows the
orientation of the camera modules, as each camera connects to the board.
The J6 connector is designated for a Micron camera sensor evaluation
module. The interface has been tested with the Micron MT9V022 camera
evaluation module. For information about Micron camera sensors and
evaluation boards, go to http://www.micron.com.
The J4 connector is designated for an OmniVision camera sensor evaluation module. The interface has been tested with the OmniVision
OV6630AA camera evaluation module. For information about OmniVision camera sensors and evaluation boards, go to http://www.ovt.com.
1-4
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Interfaces
Micron
Audio
Kodak
P4
J4
J6
EZ-KIT
Figure 1-1. Camera Orientation
The P4 connector is designated for a Kodak camera sensor evaluation
module. The interface has been tested with the Kodak KAC-9628 camera
evaluation module. For information about Kodak camera sensors and
evaluation boards, go to http://www.kodak.com.
To connect the Blackfin A-V EZ-Extender to a camera module, first
determine the source of the PPI clock. To learn about possible clock settings, refer to “PPI Clock Setup Jumpers (JP4.1/2, JP4.3/4, JP4.5/6,
JP4.7/8)” on page 2-10. Then set the direction of the data and the frame
sync signals, which depend upon the camera’s configuration. The data
must be set as an input to the PPI port. For more information, refer to
“System Architecture” on page 2-2 and “Jumpers” on page 2-7.
Before using these interfaces, follow the steps in “A-V EZ-Extender
Setup” on page 1-1.
Blackfin A-V EZ-Extender Manual
1-5
Flat Panel Display Interface
Example programs demonstrating the capabilities of the camera module
interface are included in the A-V EZ-Extender installation directory.
Flat Panel Display Interface
The Flat Panel Display (FPD) interface consists of a 31-pin, DF9 connector linked to the PPI port and frame sync signals of the processor. For a
general overview of the display interface connections, see Figure 2-1 on
page 2-4. For more detailed information, see the “Schematics on page
B-1”.
A timing and functional analysis is required to determine if a specific LCD
module can connect to the Blackfin A-V EZ-Extender. An example of a
display that can connect to the extender is the NEC NL6448BC20-08 display (http://www.ee.nec.de/).
Please note that the power for the backlight feature of the LCD module
must be provided by the customer (use the backlight inverter recommended by the manufacturer). It is also necessary to purchase a cable to
connect the A-V EZ-Extender to the display. An example of such a cable is
FDC31/xxxxAFF03 from Axon Cable (http://www.axon-cable.com, part
number FDC31/xxxxAFF03). Different length cables are available.
Before using the interface, follow the steps in “A-V EZ-Extender Setup”
on page 1-1.
Example programs demonstrating the capabilities of the flat panel display
interface are included in the A-V EZ-Extender installation directory.
1-6
Blackfin A-V EZ-Extender Manual
2 A-V EZ-EXTENDER
HARDWARE REFERENCE
This chapter describes the hardware design of the A-V EZ-Extender.
The following topics are covered.
• “System Architecture” on page 2-2
Describes the configuration of the extension board and explains
how the board components interface with the processor and
EZ-KIT Lite.
• “Jumpers” on page 2-7
Describes the function of the configuration jumpers.
Blackfin A-V EZ-Extender Manual
2-1
System Architecture
System Architecture
A block diagram of the Blackfin A-V EZ-Extender is shown in Figure 2-1.
Not shown in the diagram is the analog audio interface, which is a simple
connection between the serial port of the processor and the AD1836A
audio codec. The audio interface connects directly to SPORT0 of the expansion interface.
In Figure 2-1, unidirectional buffers are show as triangle symbols, while
bidirectional buffers are shown as two overlapping triangles. For both
types of buffers, the output-enable signal comes out of the top and is
active LOW. For the bidirectional buffers, a second signal for the direction is
shown. When this net is pulled HIGH, the buffer is driving in the direction
of the arrow in the center, when LOW, the buffer is driving in the opposite
direction.
applying power to the system, follow the steps in “A-V
L Before
EZ-Extender Setup” on page 1-1.
Video interfaces can be split into two main signal sets: VID_IN and
VID_OUT. Both signal sets consist of a 16-bit data bus, two frame sync signals, and data clock. VID_IN connects to the video decoder and all of the
camera interfaces. VID_IN connects only to PPI0 of the EZ-KIT Lite.
VID_OUT connects to the video encoder and the flat panel display interface.
On the expansion interface, VID_OUT connects to either PPI0 or PPI1 of the
EZ-KIT Lite.
Table 2-1 summarizes the signals coming and going on the expansion
interface connectors.
2-2
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Hardware Reference
U7 - Encoder (Out)
P[7:0]
VID_OUT_D[7:0]
JP3.15/16
FLAG_SDA
JP3.17/18
JP3.3/5/7
PPI1_D2
CLK
SDA
SCL
JP3.4/6/8
PPI1_D11
JP3.13/14
JP3.19/20
PPI0_DAT[15-0]
JP9.2/4/6
VID_IN_D[15:0]
Expansion
Interface Signals
See also
JP5.1/2
U10
5v
JP2
P6 - FPDI
RGB[15:0]
U16
JP5.5/6
PPI1_DAT[15-0]
HS
VS
T/~R
CK
JP8.1/3/5
U15
V_IN
J4 - OmniVision
Y[7:0]
UV[7:0]
HREF
VSYNC
U17
PPI1_SYNC2
JP8.7/8
U14
VID_IN_SYNC1_HSYNC
T/~R
U14
VID_IN_SYNC2_VSYNC
JP6.2/4/6
SDA
SCL
V_IN
JP8.2/4/6
PPI0_SYNC2
PCLK
TX_CLK
RESET
PPI1_SYNC1
JP6.1/3/5
OE
AVIN1
AVIN4
AVIN5
LN_VALID
FRAME_VALID
VID_OUT_D[15:0]
3.3v
PPI0_SYNC1
SDA
SCL
J6 - Micron
DATA[9:0]
T/~R
JP5.3/4
HSYNC
VSYNC
RESET
U11
RESET
U2 - Decoder (In)
P[15:8]
CLK
CLK_OUT
DAC_A
DAC_B
DAC_C
RESET
JP9.1/3/5
JP3.11/12
HSYNC
VSYNC
FLAG_SCL_
DIR_CTRL
PPI1_D3
VID_IN_D[7:0]
PCLK
EXCLK
SDA
SCL
PWDN
FODD
RESET
V_IN
T/~R
P4 - Eastman Kodak
D[11:0]
U1
HSYNC
VSYNC
JP4
27MHz
PPI0_CLK
PCLK
MCLK
U13
U8
U12
SDA
SCL
SKT
PPI1_CLK
JP3.9-10
PPI1_D10
SNAPSHOT_
FODD_SSEL
PPI1_D15
JP3.21/22
Pull-up
Represents location of
the lowest pin number
in jumper series
Blackfin A-V EZ-Extender Manual
JP1, JP5.1/2, JP7, JP10 and the Audio
Interface are not shown in this block
diagram.
PWDN
SNAPSHOT
EXT_SYNC
RESET
V_IN
2-3
System Architecture
Table 2-1. Signals of Expansion Interface Connectors
Net/Bus Name
(Direction)
A-V EZ-Extender Function
Relevant
Configuration
Jumpers
PPI0_D[0:15]
VID_IN_D[0:15]
Connects the processor’s PPI0 data pins to the
or the VID_OUT_D[0:15] busses,
depending on the jumper settings. This allows PPI0 to
interface with all of the possible video interfaces on the
board. This bus can be bidirectional, where the direction
can be fixed with a jumper or controlled by a flag pin.
JP5.3/4,
JP9.2/4/5
The clock related to the data on PPI0. This can come
from an onboard oscillator, from one of the video interfaces, or from a socket that allows a user-supplied oscillator.
JP4.1/2,
JP4.3/4,
JP4.5/6,
JP4.7/8
PPI0_SYNC1
The frame sync signal going to the processor’s
(Bi)
PPI0_SYNC1 pin. The signal behaves as the HSYNC or
HREF for the video interfaces. The signal also can be used
to drive the FPDI HS signal. The signal can be bidirec-
JP6.1/3/5,
JP8.1/3/5,
JP8.7/8
(Bi)
PPI0_CLK
(Output)
tional, where the direction is fixed with a jumper or is
controlled by a flag pin.
PPI0_SYNC2
The frame sync signal going to the processor’s
(Bi)
PPI0_SYNC2 pin. The signal behaves as the VSYNC or
VREF for the video interfaces. The signal also can be used
to drive the FPDI VS signal. This signal can be bidirec-
JP6.2/4/6,
JP8.2/4/6,
JP8.7/8
tional, where the direction can be fixed with a jumper or
is controlled by a flag pin.
PPI1_D[0:15]
(Bi)
PPI1_D10
(Bi)
2-4
Connects the processors PPI1 data pins to the
bus. The VID_OUT_D[0:15] bus
interfaces with the output video interfaces (FPDI and the
video encoder). The bus can be bidirectional but
intended to be an input. Changing the direction is necessary only for test purposes and allows PPI0 to loop-back
to PPI1. D2, D3 and D10 of the bus have other functionality (see below).
JP5.3/4,
JP5.5/6,
JP3.9/10,
JP3.3/5/7
JP3.4/6/8
Multifunction net that typically functions as the D10 pin
of PPI1 but, with a jumper, also can connect to the PDWN
input of the OmniVision interface and the Kodak interface.
JP3.9/10,
JP5.3/4,
JP5.5/6
VID_OUT_D[0:15]
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Hardware Reference
Table 2-1. Signals of Expansion Interface Connectors (Cont’d)
Net/Bus Name
(Direction)
PPI1_D2
(Bi)
PPI1_D3
A-V EZ-Extender Function
Relevant
Configuration
Jumpers
Multifunction net typically functions as the D2 pin of
JP3.3/5/7,
but also can function as the data signal for the pro- JP5.3/4,
cessor’s Two Wire Interface (TWI). Used to program the JP5.5/6
internal configuration registers of most video interfaces.
PPI1
Multifunction net typically functions as the D2 pin of
JP3.4/6/8,
but also can function as the data signal for the pro- JP5.3/4,
cessor’s TWI. Used to program the internal configuration JP5.5/6
registers of most video interfaces.
(Bi)
PPI1
FLAG_SDA
In systems whose processor does not have a TWI, the sig- JP3.3/5/7
nal connects to one of the processor’s flag pins to emulate
the data pin of the TWI and to configure the internal
configure registers of most video interfaces.
(Bi)
FLAG_SCL_DIR_
CTRL
(Input)
PPI1_CLK
(Output)
PPI1_FS1
(Input)
PPI1_FS2
(Input)
SNAPSHOT_FODD
_SSEL
(Bi)
SCK
(Input)
MOSI
(Output)
In systems whose processor does not have a TWI, the sig- JP3.4/6/8
nal connects to one of the processor’s flag pins to emulate
the clock signal of the TWI and to configure the internal
configure registers of most video interfaces.
The clock driving the EZ-KIT Lite’s PPI1 clock input.
The source of this clock can be the PPI0_CLK, the
onboard 27 MHz oscillator, or a socket accepting oscillators of other frequencies.
JP4.1/2,
JP4.3/4,
JP4.5/6,
JP4.7/8
The signal driven to the HS signal of the FPDI. The output going to the FPDI can be disabled by a jumper.
JP8.1/3/5,
JP8.7/8
The signal driven to the VS signal of the FPDI. The output going to the FPDI can be disabled by a jumper.
JP8.2/4/6,
JP8.7/8
Audio codec SPI slave select signal; also can connect to
the SNAPSHOT input of the Kodak interface or the FODD
output of the OmniVision interface.
JP3.21/22
The SPI serial clock used to program the control register
of AD1836A audio codec.
The SPI serial output data signal used to program the
control register of AD1836A audio codec.
Blackfin A-V EZ-Extender Manual
2-5
System Architecture
Table 2-1. Signals of Expansion Interface Connectors (Cont’d)
Net/Bus Name
(Direction)
A-V EZ-Extender Function
MISO
The SPI serial input data signal used to read the control
register of the AD1836A audio codec.
(Output)
RSCLK0
(Bi)
RFS0
(Bi)
DR0PRI
(Output)
DR0SEC
(Output)
TSCLK0
(Bi)
TFS0
(Bi)
DT0PRI
Relevant
Configuration
Jumpers
Processor’s SPORT0 receive clock signal connected to the
serial clock on the digital side of the audio codec analog
input. In I2S mode, the signal can connect to the TSCLK0
net.
JP7.1/2
Processor’s SPORT0 receive frame sync signal connected
to the frame sync on the digital side of the audio codec
analog input. In I2S mode, the signal can connect to the
TFS0 net.
JP7.1/2
Connection to the data output of the audio codec. Can
be disconnected with a jumper if the signal is needed for
another purpose.
JP7.3/4
Secondary connection to the data output of the audio
codec. Can be disconnected with a jumper if the signal is
needed to be used for another purpose.
JP7.5/6
Processor’s SPORT0 transmit clock signal. Connects to the
serial clock on the digital side of the audio codec’s analog
output. In I2S mode, the signal can connect to the
RSCLK0 net.
JP7.1/2
Processor’s SPORT0 transmit frame sync signal. Connects
to the frame sync on the digital side of the audio codec
analog output. In I2S mode, the signal can connect to the
RFS0 net.
JP7.1/2
Connection to the data input of the audio codec.
(Input)
DT0SEC
(Input)
2-6
Secondary connection to the data input of the audio
codec.
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Hardware Reference
Jumpers
Before using the Blackfin A-V EZ-Extender, follow the steps in “A-V
EZ-Extender Setup” on page 1-1.
Figure 2-2 shows the locations of all of the jumper headers. The jumper
headers are divided to show the placement and rotation of each jumper.
The jumpers are described by the pins of the header on which the jumpers
can be placed. For example, JP3.4/6/8 refers to a single jumper that can
be placed across pins 4 and 6, or pins 6 and 8, of JP3. The dark pin indicates pin 1 of each header.
Video Test Loopback Jumpers (JP1.1/2, JP1.3/4,
JP1.5/6)
For test purposes only, the video test jumpers are used to loop-back the
video encoder’s output signals to the video decoder’s input signals. By
default, none of these jumpers are installed.
Connector Voltage Selection Jumper (JP2)
The camera module and LCD display interfaces can be powered via the
extender. The actual voltage of these interfaces, 3.3V or 5V, is determined
by the placement of the JP2 jumper (see Table 2-2).
TWI Source Selection Jumpers (JP3.3/5/7,
JP3.4/6/8)
Due to the fact that some Blackfin processors feature a built-in Two Wire
Interface (TWI), while others need to emulate the interface with programmable flags, the two jumpers are provided to plug on the A-V
EZ-Extender to both sources (see Table 2-3).
Blackfin A-V EZ-Extender Manual
2-7
Jumpers
JP1
JP2
JP4
JP3
JP6
JP7
JP8
JP9
JP5
JP10
Figure 2-2. Jumper Locations
Table 2-2. Jumper Locations and their Connector Voltages
2-8
Jumper Location
Connector Voltage
JP2.1/2
3.3V
JP2.2/3
5V
Not installed
No power
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Hardware Reference
Table 2-3. Jumper Locations and TWI Interface Sources
Jumper Pin Locations
TWI Interface Source
JP3.3/5
and JP3.4/6
Programmable Flags
JP3.5/7
and JP3.6/8
Processor’s TWI
PDWN Connection Jumper (JP3.9/10)
Depending on the application, the PDWN pin of the OmniVision and
Kodak cameras can be left floating or can be controlled by a flag pin (see
Table 2-4).
Table 2-4. PWDN Pin Connections
JP3.9/10
PDNW Connection
Uninstalled
PDWN is not used, and by default, the cameras function in standard
mode.
Installed
The PDWN functionality of the cameras is controlled by a processor flag
pin.
Decoder HSync Disconnect Jumper (JP3.11/12)
To connect the horizontal sync signal of the video decoder to the PPI0
frame sync signal of the processor, install the JP3.11/12 jumper; otherwise, the decoder’s horizontal sync is disconnected.
Decoder VSync Connection Jumper (JP3.13/14)
To connect the vertical sync signal of the video decoder to the PPI0 frame
sync signal of the processor, install the JP3.13/14 jumper; otherwise, the
decoder’s vertical sync is disconnected.
Blackfin A-V EZ-Extender Manual
2-9
Jumpers
Encoder HRef Connection Jumper (JP3.15/16)
To connect the horizontal sync signal of the video encoder to the PPI0
frame sync signal of the processor, install the JP3.15/16 jumper; otherwise, the encoder’s horizontal reference is disconnected.
Encoder VSync Connection Jumper (JP3.17/18)
To connect the vertical sync signal of the video encoder to the PPI0 frame
sync signal of the processor, install the JP3.17/18 jumper; otherwise, the
encoder’s vertical sync is disconnected.
Decoder Output Enable Jumper (JP3.19/20)
When installed, the JP3.19/20 jumper enables the video decoder’s data
output signals on the VID_IN bus.
SNAPSHOT_FODD Disconnect Jumper (JP3.21/22)
The SNAPSHOT_FODD net of the A-V EZ-Extender is a general-purpose flag
pin. The flag pin connects to both the SNAPSHOT signal of the Kodak camera evaluation board and the FODD control signal of the OmniVision
camera evaluation board. Do not install the jumper unless the processor
needs to control the signals. The flag pin also connects to the SPI select
pin of the AD1836A audio codec—when the audio interfaces is being
used, do not install this jumper.
PPI Clock Setup Jumpers (JP4.1/2, JP4.3/4, JP4.5/6,
JP4.7/8)
The PPI_CLK signals of PPI0 and PPI1 are setup using the clock setup
jumpers. Table 2-5 shows the results of the jumper connections. For more
information about the clock settings, refer to Figure 2-1 on page 2-4.
2-10
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Hardware Reference
Table 2-5. Jumper Results
Jumper
Result
JP4.1/2
Connects EXT_VID_CLK to an onboard 27 MHz oscillator. For more information about the EXT_VID_CLK signal, see the description of JP4.3/4.
JP4.3/4
Connects PPI0_CLK to the EXT_VID_CLK net. The EXT_VID_CLK net is the
external clock, which drives the input clock of all the camera module interface
connectors, plus the flat panel display connector. Depending on the installation
of the other JP4 jumpers, EXT_VID_CLK can be generated by the PIXEL_CLK
net, the VDEC_CLKOUT net, a socket (U8), or the onboard 27 MHz oscillator.
JP4.5/6
Connects VDEC_CLKOUT to PPI0_CLK. VDEC_CLKOUT drives the PPI0 clock
when the video decoder is used.
JP4.7/8
Connects the PIXEL_CLK net, which is an output from the three camera module
interfaces, to PPI0_CLK.
PPI0 D8–15 Enable Jumper (JP5.1/2)
The JP5.1/2 jumper, when not installed, disables the upper 8-bits of the
PPI0 data bus. This allows the signals connected to the upper 8-bits of the
PPI data bus on the EZ-KIT Lite to be used for another purpose.
To disable and reuse the upper 8-bits of the VID_IN and PPI0 data busses,
install the JP5.1/2 jumper.
VID_OUT Data Bus Control Jumpers (JP5.3/4,
JP5.5/6)
The JP5.3/4 and JP5.5/6 jumpers are used together to set the direction of
as well as to enable or disable the drivers driving the VID_OUT data bus.
Table 2-6 shows the results of different combinations of the JP5.3/4 and
JP5.5/6 jumpers.
Blackfin A-V EZ-Extender Manual
2-11
Jumpers
Table 2-6. Jumper Combinations
JP5.3/4
JP5.5/6
VID_OUT Status
Uninstalled
Uninstalled
VID_OUT, PPI1 are all not
the state of JP9.2/4/6
Uninstalled
Installed
PPI1
drives VID_OUT
Installed
Uninstalled
PPI0
drives VID_OUT
Installed
Installed
PPI0
driven; PPI0 depends on
drives VID_OUT, and VID_OUT drives PPI1
(loopback mode)
PPI0_SYNC1 Direction Setup Jumper (JP6.1/3/5)
The direction of the PPI0_SYNC1 signal can be either fixed or programmed,
depending on the state of a general-purpose flag. Table 2-7 shows how to
set the direction of PPI0_SYNC1.
Table 2-7. Setting Direction of PPI0_SYNC1 (JP6.1/3/5)
Jumper Location
PPI0_SYNC1 Direction
JP6.1/3
Controlled by flag pin
JP6.3/5
Input to processor
Uninstalled
Output from processor
PPI0_SYNC2 Direction Setup Jumper (JP6.2/4/6)
The direction of the PPI0_SYNC2 signal can either be fixed or programmed,
depending on the state of a general-purpose flag. Table 2-8 shows how to
set the direction of PPI0_SYNC2.
2-12
Blackfin A-V EZ-Extender Manual
A-V EZ-Extender Hardware Reference
Table 2-8. Setting Direction of PPI0_SYNC2 (JP6.2/4/6)
Jumper Location
PPI0_SYNC2 Direction
JP6.2/4
Controlled by flag pin
JP6.4/6
Input to processor
Uninstalled
Output from processor
I 2 S Enable Jumper (JP7.1/2)
When the JP7.1/2 jumper is installed, the SPORT signals are routed for
I2S SPORT communication protocol mode. To accomplish this, the
receive and transmit clocks of the processor are routed to be driven by the
output clock of the AD1836A. The same is done for the frame sync
signals.
SPORT Data Connection Jumpers (JP7.3/4, JP7.5/6)
The JP7.3/4 and JP7.5/6 jumpers connect data output pins (ASDATA1 and
ASDATA2) of the audio codec to the primary and secondary SPORT data
input pins of the processor. The audio codec is driving these pins—with
the help of the JP7.3/4 and JP7.5/6 jumpers, the processor’s pins can be
reused when the audio codec is not used.
VID_OUT Bus Sync Source Select Jumpers
(JP8.1/3/5, JP8.2/4/6)
The source of the PPI frame sync signals depends on the PPI port driving
the VID_OUT bus. When using PPI0, place the jumpers at JP8.1/3 and
JP8.2/4. When using PPI1, place the jumpers at JP8.3/5 and JP8.4/6.
VID_OUT Bus Sync Enable Jumper (JP8.7/8)
To enable the VID_OUT frame sync signals, install the JP8.7/8 jumper.
Blackfin A-V EZ-Extender Manual
2-13
Jumpers
AV_RESET Source Jumper (JP9.1/3/5)
The source of the ICs reset on the A-V EZ-Extender is controlled by
either a flag pin or a system reset, the latter also resetting the Blackfin processor (see Table 2-9).
Table 2-9. Jumper Reset Sources
Jumper Location
Reset Source
JP9.1/3
Flag pin multiplexed with PPI1_D11
JP9.3/5
System reset generator
Uninstalled
ICs are not reset
PPI0_D Direction Setup Jumper (JP9.2/4/6)
The direction of the PPI0_D[15:0] signal can be a fixed direction or can be
programmed, depending on the state of a general-purpose flag. Table 2-10
shows how to set the direction of PPI0_D[15:0].
Table 2-10. Setting Direction of PPI0_D[15:0] (JP9.2/4/6)
Jumper Location
PPI0_D[15:0] Direction
JP9.2/4
Controlled by flag pin
JP9.4/6
Input to processor
Uninstalled
Output from processor
Audio Loopback Jumpers (JP10.1/2, JP10.3/4)
The JP10.1/2 and JP10.3/4 jumpers loop back the audio input to the output for test purposes and should not be installed.
2-14
Blackfin A-V EZ-Extender Manual
A BILL OF MATERIALS
The bill of materials corresponds to the board schematics on page B-1.
Please check the latest schematics on the Analog Devices website,
http://www.analog.com/Processors/Processors/DevelopmentTools/tec
hnicalLibrary/manuals/DevToolsIndex.html#Evaluation%20Kit%20Manuals.
Blackfin A-V EZ-Extender Manual
A-1
A-2
Blackfin A-V EZ-Extender Manual
#
57
6
12
11
2
5
1
8
8
12
6
Ref.
1
2
3
4
5
6
7
8
9
10
11
680pF 50V 5% 0603
100PF 50V 5% 0603
0.22uF 25V 10% 805
CERM
120PF 50V 5% 0603
82NF 50V 5% 805
X7R
10UF 10V +80/–20% 0805
1UF 16V 10% 0603
0.01UF 16V 10% 0603
330PF 50V 5% 0603
2200pF 50V 5% 0603
0.1UF 16V 10%603
Description
AVX
PANASONIC
AVX
Manufacturer
AVX
PANASONIC
PANASONIC
AVX
C84,C88–90,C122–123
PANASONIC
C77,C91–92,C97,C105–106, PANASONIC
C109
C73,C85,C101,C112,
C120–121
C71,C74,C82–83,C127–128, PANASONIC
C141
C5
C42,C45,C59,C79–80
C27,C39
C2–3,C6,C16,C25,C29,C36, KEMET
C41
C18,C20–21,C28,C31,C35,
C98
C102,C113–114,C116,
C140,C142
C1,C4,C7–8,C10–15,C17,
C19
Reference Designator
ECJ–1VC1H681J
ECJ–1VC1H101J
08053C224FAT
ECJ–1VC1H121J
08055C823JAT2A
ECJ–2FF1A106Z
ECJ–1VB1C105K
06035A331JAT2A
ECJ–1VB1H222K
0603YC104KAT2A
Part Number
#
6
10
6
10
1
4
5
3
1
1
Ref.
12
13
14
15
16
17
Blackfin A-V EZ-Extender Manual
18
19
20
21
CT5–11,CT14–16
CT1–4,CT12–13
J1–3
FER4–8
FER1–3,FER9
3.5MM 5xAUDIO_JACK
CON035
5X 3.5MM AUDIO JACK
J5
IDC 16X2 IDC16X2RASOC J4
SOCKET RA
0.05 45X2 CON019
SMT SOCKET
600 100MHZ 200MA 603
0.50 BEAD
600 100MHZ 500MA 1206
0.70 BEAD
PANASONIC
Manufacturer
PCE3062TR–ND
TAJB106K016R
ECJ–1VC1H102J
ECJ–1VC1H221J
Part Number
FOXCONN
SAMTEC
SAMTEC
MURATA
DIGIKEY
JA33331–R55
SSW–116–02–F–D–RA
SFC–145–T2–F–D–A
BLM11A601SPT
240–1019–1–ND
ANALOG DEVICES AD1580BRT
DIG01
AVX
C9,C24,C72,C86,C93,C100, PANASONIC
C103
C87,C94–96,C125–126
Reference Designator
10MA AD1580BRT SOT23D D1
1.2V–SHUNT–REF
10uF 16V 20% CAP002
ELEC
10uF 16V 10% B
TANT
0.001UF 50V 5% 0603
220PF 50V 5% 0603
Description
Bill Of Materials
A-3
A-4
Blackfin A-V EZ-Extender Manual
1
3
31
32
1
27
3
1
26
30
1
25
6
5
24
29
1
23
2
1
22
28
#
Ref.
Reference Designator
0.05 45x2 CON018
HEADER
GREEN–SMT LED001
GULL–WING
2.2UH 0.63 10% 805
0.68UH 0.72 10% 805
IDC 4X2 IDC4X2_M_SMT
IDC 13X2
IDC13X2_M_SMT
IDC 3X1 IDC3X1
GOLD
IDC 2X2 IDC2X2
GOLD
IDC 3X2 IDC3X2_SMT
RCA 3X2 CON024
RA
P1–3
LED1
L4–6
L1–3,L7–9
JP4,JP8
JP3
JP2
JP10
JP1,JP5–7,JP9
J7
IDC 13x2RA IDC13x2_F_RA J6
13x2 IDC RA FEMALE
Description
SAMTEC
PANASONIC
MURATA
MURATA
SAMTEC
SAMTEC
DIGI–KEY
DIGI–KEY
SAMTEC
SWITCHCRAFT
SAMTEC
Manufacturer
TFC–145–32–F–D
LN1361C
LQG21N2R2K10
LQG21NR68K10T1
TSM–104–01–T–DV
TSM–113–01–T–DV
S1011–03–ND
S2011–02–ND
TSM–103–01–T–DV
PJRAS3X2S01
SSW–113–02–F–D–RA
Part Number
Blackfin A-V EZ-Extender Manual
1
1
12
1
6
7
21
1
1
2
34
35
36
37
38
39
40
41
42
43
1
1
33
44
#
Ref.
150 1/8W 1% 1206
100K 1/10W 5% 0603
76.8K 100MW 1% 805
147K 100MW 1% 805
10K 1/10W 5% 0603
0 1/10W 5% 0603
1K 1/10W 5% 0603
680 1/8W 5% 1206
75.0 1/10W 1% 0603
85X
1.5K 100MW 5% 805
FPDI 31PIN CON034
FLAT PANEL DISP CONNECTOR
IDC 14x2RA
IDC14x2_M_RA
14X2 IDC RA MALE
Description
R41
R39–40
R38
R36
R2–4,R10,R32,R37,R44–48,
R51
R15,R20,R25,R111,R115,
R130
R13–14,R18–19,R23–24
R114
R11–12,R16–17,R21–22,
R26–31
R1
P6
P4
Reference Designator
PANASONIC
VISHAY
DIGIKEY
DIGIKEY
VISHAY
PHYCOMP
YAGEO
AVX
DIGI–KEY
AVX
HIROSE
SULLINS
Manufacturer
ERJ–8ENF1500V
CRCW0603104JRT1
311–76.8KCCT–ND
311–147KCCT–ND
CRCW0603103JRT1
9C06031A0R00JLHFT
9C06031A1001JLHFT
CR32–681J–T
9T06031A75R0FBHFT
CR21–1501F–T
DF9–31P–1V
PTC14DBAN
Part Number
Bill Of Materials
A-5
A-6
Blackfin A-V EZ-Extender Manual
#
1
2
8
4
2
16
4
4
6
6
12
6
6
Ref.
45
46
47
48
49
50
51
52
53
54
55
56
57
11K 1/10W 1% 0603
3.32K 1/10W 1% 0603
51B
5.49K 1/10W 1% 0603
1.65K 1/10W 1% 0603
2.74K 1/10W 1% 0603
43B
750K 1/10W 1% 0603
85D
237 1/10W 1% 0603
5.76K 1/10W 1% 0603
74B
22 1/10W 5% 805
22 1/10W 5% 0603
33 1/10W 1% 0603
33 100MW 5% 805
1.2K 1/16W 5% 402
Description
VISHAY/DALE
VISHAY
DIG01
AVX
PANASONIC
Manufacturer
DIGI–KEY
DIGI–KEY
DIGI–KEY
DIGI–KEY
DIGI–KEY
DIGI–KEY
R82,R90,R93–94,R123,R126 DIGI–KEY
R81,R91–92,R95,R124–125
R75,R83,R86–87,R89,
R99–101
R74,R84–85,R88,R117–118
R71,R78–80,R112–113
R65,R69,R127,R129
R64,R70,R106,R110
R61–63,R67,R72–73,R76–77, DIGI–KEY
R105
R53,R55
R50, R146–148
R5,R8,R33,R68,R142–145
R49,R52
R42
Reference Designator
311–11KHTR–ND
311–3.32KHTR–ND
311–5.49KHTR–ND
311–1.65KHTR–ND
311–2.74KHTR–ND
311–750KHTR–ND
311–237HTR–ND
311–5.76KHTR–ND
CRCW0805220JRT1
CRCW0603220JRT1
311–33.0HTR–ND
CR21–330JTR
ERJ–2GEJ122X
Part Number
#
6
6
4
1
1
3
7
1
1
8
Ref.
58
59
60
61
62
63
Blackfin A-V EZ-Extender Manual
64
65
66
67
AD8606AR SOIC8
OPAMP
ADV7183BKSTZ LQFP80
VID–DECODER
12.288MHZ SMT OSC003
TS201/21262
SN74LVC1G125 SOT23–5
SINGLE–3STATE–BUFFER
74LVTH16245MTD
TSSOP48
16BIT–BUFFER–TXRX
74LVTH16244MTD
TSSOP48
16BIT–BUFFER–DRIVER
27MHZ SMT OSC003
22 125MW 5% RNS001
604 1/10W 1% 0603
49.9K 1/10W 1% 0603
68C
Description
Manufacturer
U20–23,U25–28
U2
U18
U12–13,U15,U17,U19,
U29–30
U11,U14,U16
U10
U1
RN1–4
R98,R102–104,R133,R136
SG–8002CA–PCC–ND
SN74LVC1G125DBVR
74LVTH16245MTD
74LVTH16244MTD
SG–8002CA MP
744C083220JCT–ND
311–604HTR–ND
311–49.9KHTR–ND
Part Number
ANALOG DEVICES AD8606AR
ANALOG DEVICES ADV7183BKSTZ
DIG01
TI
FAIRCHILD
FAIRCHILD
EPSON
DIGIKEY
DIGI–KEY
R96–97,R108–109,R137–138 DIGI–KEY
Reference Designator
Bill Of Materials
A-7
A-8
Blackfin A-V EZ-Extender Manual
1
1
71
72
1
1
70
74
3
69
1
1
68
73
#
Ref.
ADP3336ARM MSOP8
ADJ 500MA REGULATOR
SN74AHC1G00 SOT23–5
SINGLE–2–INPUT–NAND
8 PIN DIP TH–TH
CARRIER SOCKETED PIN
ADV7179 LFCSP40
VIDEO ENCODER
SN74LVC1G32 SOT23–5
SINGLE–2 INPUT OR
GATE
AD8061ART SOT23–5
300MHZ–AMP
AD1836AASMQFP52
MULTI–CHANNEL–
96KHZ–CODEC
Description
VR1
U9
U8
U7
U6
U3–5
U24
Reference Designator
Part Number
SN74LVC1G32DBVR
SN74AHC1G00DBVR
614–93–308–31–007
ANALOG DEVICES ADP3336ARM–REEL
TI
MILL–MAX
ANALOG DEVICES ADV7179KCP
TI
ANALOG DEVICES AD8061ART–REEL
ANALOG DEVICES AD1836AAS
Manufacturer
A
B
C
D
1
1
2
2
Blackfin A-V EZ-Extender
Schematic
3
3
DNP = Do Not Populate
See Manual For all Jumper Settings
ANALOG
DEVICES
4
Board No.
C
Date
A
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
TITLE
Title
Size
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
12-1-2004_18:50
D
1
of
12
A
B
C
3.3V
EXPANSION INTERFACE (TYPE B)
5V
1
D
Expanison Connector
1
Expanison Connector 2
Bottom Of Board
Top Of Board
Bottom Of Board
Top Of Board
P1_[5:86]
P1
1
2
2
3
4
4
P1_5
5
6
P1_6
6
5
P1_5
P1_7
7
8
P1_8
P1_8
8
7
P1_7
P1_9
9
10
P1_10
P1_10
10
9
P1_9
P1_11
11
12
P1_12
P1_12
12
11
P1_11
P1_13
13
14
P1_14
P1_14
14
13
P1_13
P1_15
15
16
P1_16
P1_16
16
15
P1_15
P1_17
17
18
P1_18
P1_18
18
17
P1_19
19
20
P1_20
P1_20
20
19
P1_21
21
22
P1_22
P1_22
22
21
P1_21
P1_23
23
24
P1_24
P1_24
24
23
P1_23
P1_25
25
26
P1_26
P1_26
26
25
P1_25
P1_27
27
28
P1_28
P1_28
28
27
P1_27
P1_29
29
30
P1_30
P1_30
30
29
P1_29
P1_31
31
32
P1_32
P1_32
32
31
P1_33
33
34
P1_34
P1_34
34
33
P1_35
35
36
P1_36
P1_36
36
35
P1_35
P2_[5:86]
J1
P1_6
1
P2
1
3
3
P2_5
5
6
P2_6
P2_6
P2_7
7
8
P2_8
P2_8
9
10
11
12
13
14
P2_15
15
16
P2_16
P1_17
P2_17
17
18
P1_19
P2_19
19
20
P2_21
21
22
P2_23
23
24
25
26
P2_26
P2_27
27
28
P2_29
29
P1_31
P2_31
P1_33
P2_33
SCK
P2_11
2
J2
2
1
4
4
3
6
5
P2_5
P2_7
8
7
10
9
12
11
14
13
P2_16
16
15
P2_15
P2_18
P2_18
18
17
P2_17
P2_20
P2_20
20
19
P2_19
P2_22
P2_22
22
21
P2_21
24
23
P2_23
P2_26
26
25
P2_28
P2_28
28
27
P2_27
30
P2_30
P2_30
30
29
P2_29
31
32
P2_32
P2_32
32
31
P2_31
33
34
P2_34
P2_34
34
33
P2_33
35
36
36
35
37
38
38
37
39
40
40
39
41
42
42
41
MOSI
MOSI
MISO
MISO
SCK
P2_11
P2_23
2
3
PPI0_SYNC1
R149
10K
0603
DR0SEC
PPI0_SYNC2
PPI0_SYNC2
DT0SEC
DT0SEC
DT0PRI
DT0PRI
PPI0_SYNC1
2
DR0SEC
37
38
38
37
P1_39
39
40
P1_40
P1_40
40
39
P1_39
P1_41
41
42
P1_42
P1_42
42
41
P1_41
P1_43
43
44
P1_44
P1_44
44
43
P1_43
PPI0_D4
43
44
PPI0_D5
PPI0_D5
44
43
PPI0_D4
P1_45
45
46
P1_46
P1_46
46
45
P1_45
PPI0_D6
45
46
PPI0_D7
PPI0_D7
46
45
PPI0_D6
P1_47
47
48
P1_48
P1_48
48
47
P1_47
PPI0_D8
47
48
PPI0_D9
PPI0_D9
48
47
PPI0_D8
P1_49
49
50
P1_50
P1_50
50
49
P1_49
PPI0_D10
49
50
PPI0_D11
PPI0_D11
50
49
PPI0_D10
P1_51
51
52
P1_52
P1_52
52
51
P1_51
PPI0_D12
51
52
PPI0_D13
PPI0_D13
52
51
PPI0_D12
P1_53
53
54
P1_54
P1_54
54
53
P1_53
PPI0_D14
53
54
PPI0_D15
PPI0_D15
54
53
PPI0_D14
P1_55
55
56
P1_56
P1_56
56
55
P1_55
55
56
56
55
P1_57
57
58
P1_58
P1_58
58
57
P1_57
57
58
P1_59
59
60
P1_60
P1_60
60
59
P1_59
P2_59
59
60
P2_60
P1_61
61
62
P1_62
P1_62
62
61
P1_61
P2_61
61
62
P2_62
P1_63
63
64
P1_64
P1_64
64
63
P1_63
P2_63
63
64
P2_64
P1_65
65
66
P1_66
P1_66
66
65
P1_65
P2_65
65
66
P1_67
67
68
P1_68
P1_68
68
67
P1_67
P2_67
67
P1_69
69
70
P1_70
P1_70
70
69
P1_69
P2_69
69
P2_71
P2_73
DR0PRI
RFS0
RSCLK0
P2_55
FLAG_SDA
TFS0
TFS0
TSCLK0
TSCLK0
SNAPSHOT_FODD_SSEL
DR0PRI
RFS0
RSCLK0
P2_55
58
57
P2_60
60
59
P2_59
P2_62
62
61
P2_61
P2_64
64
63
P2_63
P2_66
P2_66
66
65
P2_65
68
P2_68
P2_68
68
67
P2_67
70
P2_70
P2_70
70
69
P2_69
71
72
P2_72
P2_72
72
71
P2_71
73
74
P2_74
P2_74
74
73
P2_73
75
76
76
75
FLAG_SCL_DIR_CTRL
FLAG_SDA
71
72
PPI0_D0
PPI0_D0
72
71
PPI0_D1
73
74
PPI0_D2
PPI0_D2
74
73
PPI0_D1
PPI0_D3
75
76
P1_76
P1_76
76
75
PPI0_D3
P1_77
77
78
P1_78
P1_78
78
77
P1_77
P2_77
77
78
P2_78
P2_78
78
77
P2_77
P1_79
79
80
P1_80
P1_80
80
79
P1_79
P2_79
79
80
P2_80
P2_80
80
79
P2_79
P1_81
81
82
P1_82
P1_82
82
81
P1_81
P2_81
81
82
P2_82
P2_82
82
81
P2_81
P1_83
83
84
P1_84
P1_84
84
83
P1_83
P2_83
83
84
P2_84
P2_84
84
83
P2_83
P1_85
85
86
P1_86
P1_86
86
85
P1_85
P2_85
85
86
P2_86
P2_86
86
85
P2_85
87
88
88
87
87
88
88
87
89
90
90
89
89
90
90
89
45X2
CON018
PPI0_CLK
45X2
CON019
45X2
CON018
3
45X2
CON019
PPI0_D[15:0]
3.3V
5V
DNP = Do Not Populate
See Manual For all Jumper Settings
C59
10UF
0805
4
C45
10UF
0805
ANALOG
DEVICES
C48
0.1UF
603
C46
0.1UF
603
Title
Size
A
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
EXPANSION INTERFACE (1, 2)
Board No.
C
Date
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
2-9-2005_16:10
D
2
of
12
A
B
C
D
EXPANSION INTERFACE (TYPE B)
5V
3.3V
1
5V
1
Expanison Connector 2
Bottom Of Board
Top Of Board
PPI1_D[15:0]
POWER
LED1
GREEN-SMT
LED001
P3_[1:90]
P3
1
2
3
4
P3_5
5
6
P3_6
P3_7
P3_8
PPI1_D1
J3
PPI1_D0
PPI1_D0
P3_6
1
4
3
PPI1_D1
6
5
P3_5
P3_7
R114
680
1206
7
8
8
7
PPI1_D3
9
10
PPI1_D2
PPI1_D2
10
9
PPI1_D3
PPI1_D5
11
12
PPI1_D4
PPI1_D4
12
11
PPI1_D5
PPI1_D7
13
14
PPI1_D6
PPI1_D6
14
13
PPI1_D7
PPI1_D9
15
16
PPI1_D8
PPI1_D8
16
15
PPI1_D9
PPI1_D11
17
18
PPI1_D10
PPI1_D10
18
17
PPI1_D11
PPI1_D13
19
20
PPI1_D12
PPI1_D12
20
19
PPI1_D13
PPI1_D15
21
22
PPI1_D14
PPI1_D14
22
21
PPI1_D15
23
24
24
23
25
26
26
25
28
27
30
29
P3_29
PPI1_CLK
2
27
28
29
30
P3_31
31
32
P3_32
P3_32
32
31
P3_31
P3_33
33
34
P3_34
P3_34
34
33
P3_33
P3_35
35
36
P3_36
P3_36
36
35
P3_35
P3_37
37
38
P3_38
P3_38
38
37
P3_37
P3_39
39
40
40
39
P3_39
P3_45
42
43
44
45
P3_47
46
47
P3_49
48
49
P3_51
50
51
P3_53
52
53
54
P3_42
P3_46
P3_48
P3_50
P3_52
P3_54
PPI1_FS2
P3_42
P3_46
P3_48
P3_50
P3_52
P3_54
42
41
44
43
46
45
48
47
50
49
52
51
54
53
5V
PPI1_FS1
3.3V
PWDN
P3_51
VDEC_HS
R37
10K
0603
P3_53
VDEC_VS
P3_55
55
56
P3_56
P3_56
56
55
P3_55
P3_57
57
58
P3_58
P3_58
58
57
P3_57
VENC_VSYNC
P3_60
P3_60
60
59
P3_59
P3_61
61
62
P3_62
P3_62
62
61
P3_61
63
64
64
63
65
66
66
65
P3_67
67
68
P3_68
P3_68
68
67
P3_67
P3_69
69
70
P3_70
P3_70
70
69
P3_69
P3_71
71
P3_73
73
72
P3_72
P3_72
72
71
P3_71
74
P3_74
P3_74
74
73
P3_73
P3_75
75
76
P3_76
P3_76
76
75
P3_75
P3_77
77
78
P3_78
P3_78
78
77
P3_77
P3_79
79
80
P3_80
P3_80
80
79
P3_79
P3_81
81
82
P3_82
P3_82
82
81
P3_81
P3_83
83
84
P3_84
P3_84
84
83
P3_83
P3_85
85
86
P3_86
P3_86
86
85
P3_85
87
88
88
87
89
90
P3_90
P3_90
90
89
P3_89
P3_64
P3_64
45X2
CON018
3.3V
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
PPI1_D2
P3_49
60
2
SDA
P3_47
59
1
FLAG_SDA
P3_45
P3_59
3.3V
2
JP3
VENC_HREF
P3_63
3
41
RESET
P3_28
PPI1_CLK
P3_29
PPI1_FS1
P3_28
P3_8
2
DEC_DATA_OE
SNAPSHOT_FODD
FLAG_SCL_DIR_CTRL
SCL
PPI1_D3
to TWI of ADSP-BF537 EZ-KIT Lite
PPI1_D10
VID_IN_SYNC1_HREF
VID_IN_SYNC2_VSYNC
SNAPSHOT_FODD_SSEL
P3_63
IDC13X2_M_SMT
13X2
9 Jumpers
3
P3_89
45X2
CON019
5V
DNP = Do Not Populate
See Manual For all Jumper Settings
4
C80
10UF
0805
C81
0.1UF
603
C79
10UF
0805
ANALOG
DEVICES
C78
0.1UF
603
Title
Size
A
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
EXPANSION INTERFACE (3)
Board No.
C
Date
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
1-6-2005_16:35
D
3
of
12
A
B
C
D
PPI0_D[15:0]
RN1
1
1
1
R1A
2
R2A
3
R3A
4
R4A
R1B
R2B
R3B
R4B
8
PPI0_D0
7
PPI0_D1
6
PPI0_D2
PPI0_D0
47
5
PPI0_D3
PPI0_D1
46
PPI0_D2
44
PPI0_D3
43
PPI0_D4
41
PPI0_D5
40
PPI0_D6
38
PPI0_D7
37
PPI0_D8
36
VID_OUT_D[15:0]
U10
U11
VID_IN_D0
VID_IN_D[15:0]
VID_IN_D1
3
VID_IN_D2
5
VID_IN_D3
2
2
6
VID_IN_D4
8
VID_IN_D5
9
VID_IN_D6
11
VID_IN_D7
12
VID_IN_D8
13
VID_IN_D9
14
VID_IN_D10
16
VID_IN_D11
17
VID_IN_D12
19
VID_IN_D13
20
VID_IN_D14
22
VID_IN_D15
23
22
RNS001
47
1A1
46
1A2
44
1A3
43
1A4
41
1A5
40
1A6
38
1A7
37
1A8
36
2A1
35
2A2
33
2A3
32
2A4
30
2A5
29
2A6
27
2A7
26
2A8
1B1
1B2
1B3
1B4
1B5
1B6
1B7
1B8
2B1
2B2
2B3
2B4
2B5
2B6
2B7
2B8
RN2
1
R1A
2
R2A
3
R3A
4
R4A
R1B
R2B
R3B
R4B
8
PPI0_D4
7
PPI0_D5
6
PPI0_D6
5
PPI0_D7
22
RNS001
1
2
3
4
R1A
R1B
R2A
R2B
R3A
R3B
R4A
R4B
8
PPI0_D8
7
PPI0_D9
6
PPI0_D10
5
PPI0_D11
22
RNS001
PPI0_D9
35
PPI0_D10
33
PPI0_D11
32
PPI0_D12
30
PPI0_D13
29
PPI0_D14
27
PPI0_D15
26
RN4
1
2
3
4
T/~R2
OE1
OE2
1
R1A
R1B
R2A
R2B
R3A
R3B
R4A
R4B
8
PPI0_D12
7
PPI0_D13
6
PPI0_D14
5
PPI0_D15
1
PPI0_EN
48
22
RNS001
VID_IN_DIR_CTRL
24
24
48
25
1A2
1A3
1A4
2A1
2A2
2A3
2A4
2
1Y1
3
1Y2
5
1Y3
6
1Y4
8
2Y1
9
2Y2
11
2Y3
12
2Y4
VID_OUT_D0
13
3Y1
14
3Y2
16
3Y3
17
3Y4
19
4Y1
20
4Y2
22
4Y3
23
4Y4
VID_OUT_D8
VID_OUT_D1
VID_OUT_D2
VID_OUT_D3
VID_OUT_D4
VID_OUT_D5
VID_OUT_D6
VID_OUT_D7
RN3
25
T/~R1
1A1
3A1
3A2
3A3
3A4
4A1
4A2
4A3
4A4
VID_OUT_D9
VID_OUT_D10
VID_OUT_D11
VID_OUT_D12
VID_OUT_D13
VID_OUT_D14
VID_OUT_D15
OE1
2
OE2
OE3
OE4
74LVTH16244MTD
TSSOP48
PPI0_HI_EN
74LVTH16245MTD
TSSOP48
PPI1_D[15:0]
U16
3.3V
3.3V
3.3V
R46
10K
0603
R44
10K
0603
R54
10K
0603
JP9
3
1
PPI1_D11
AV_RESET
RESET
2
3
4
5
6
JP5
1
FLAG_SCL_DIR_CTRL
VID_IN_DIR_CTRL
IDC3X2_SMT
3X2
2 Jumpers
2
3
4
5
6
R57
10K
0603
R59
10K
0603
PPI0_HI_EN
PPI0_EN
PPI1_EN
IDC3X2_SMT
3X2
PPI1_D0
47
PPI1_D1
46
PPI1_D2
44
PPI1_D3
43
PPI1_D4
41
PPI1_D5
40
PPI1_D6
38
PPI1_D7
37
PPI1_D8
36
PPI1_D9
35
PPI1_D10
33
PPI1_D11
32
PPI1_D12
30
PPI1_D13
29
PPI1_D14
27
PPI1_D15
26
1
PPI0_EN
24
48
25
PPI1_EN
2
1B1
3
1B2
5
1B3
6
1B4
8
1B5
9
1B6
11
1B7
12
1B8
13
2B1
14
2B2
16
2B3
17
2B4
19
2B5
20
2B6
22
2B7
23
2B8
1A1
1A2
1A3
1A4
1A5
1A6
1A7
1A8
2A1
2A2
2A3
2A4
2A5
2A6
2A7
2A8
VID_OUT_D0
VID_OUT_D1
VID_OUT_D2
VID_OUT_D3
VID_OUT_D4
VID_OUT_D5
VID_OUT_D6
VID_OUT_D7
VID_OUT_D8
3
VID_OUT_D9
VID_OUT_D10
VID_OUT_D11
VID_OUT_D12
VID_OUT_D13
VID_OUT_D14
VID_OUT_D15
T/~R1
T/~R2
OE1
OE2
74LVTH16245MTD
TSSOP48
3.3V
3.3V
3.3V
DNP = Do Not Populate
See Manual For all Jumper Settings
4
C62
0.1UF
603
C56
0.1UF
603
C55
0.1UF
603
C61
0.1UF
603
C66
0.1UF
603
ANALOG
DEVICES
C76
0.1UF
603
SN74ALVTH16244
Size
SN74ALVTH16244
A
Board No.
C
Date
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
DATA ROUTING
Title
74LVTH16245MTD
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
12-1-2004_14:50
D
4
of
12
A
B
C
D
Video In Frame Sync Setup
U14
3.3V
2
1B1
3
1B2
5
1B3
6
1B4
8
1B5
9
1B6
11
1B7
12
1B8
13
2B1
14
2B2
16
2B3
17
2B4
19
2B5
20
2B6
22
2B7
23
2B8
VID_IN_SYNC1_HREF
1
R55
22
805
VID_IN_SYNC2_VSYNC
1A1
1A2
1A3
1A4
1A5
1A6
1A7
1A8
2A1
2A2
2A3
2A4
2A5
2A6
2A7
2A8
47
PPI Clock Setup
PPI0_SYNC1
46
3.3V
44
43
41
R56
10K
0603
40
38
R51
10K
0603
R43
10K
0603
DNP
37
36
PPI0_SYNC2
1
JP6
1
2
1
OE/NC
VID_IN_SYNC1_DIR_CTL
3
4
5
6
5
OUT
SOCKET
DIP8SOC
33
32
R49
33
805
U8
FLAG_SCL_DIR_CTRL
35
VID_IN_SYNC2_DIR_CTL
30
IDC3X2_SMT
3X2
2 Jumpers
29
U19
R148
22
0603
1
R53
22
805
27
27MHZ_CLK
26
1
T/~R1
24
T/~R2
48
OE1
25
OE2
2
4
SN74LVC1G125
SOT23-5
VID_IN_SYNC1_DIR_CTL
VID_IN_SYNC2_DIR_CTL
JP4
1
2
3
4
5
6
7
8
EXT_VID_CLK
VDEC_CLKOUT
PIXEL_CLK
IDC4X2_M_SMT
4X2
4 Jumpers
74LVTH16245MTD
TSSOP48
3.3V
TP9
TP10
R48
10K
0603
2
U13
R50
22
0603
1
2
2
4
PPI0_CLK
SN74LVC1G125
SOT23-5
VID_OUT_SYNC_EN
2
VID_OUT_SYNC1
R146
22
0603
1
U15
U17
4
VID_OUT_SYNC1_HREF
VID_OUT_SYNC2
SN74LVC1G125
SOT23-5
R147
22
0603
1
VID_OUT_SYNC_EN
2
4
VID_OUT_SYNC2_VSYNC
SN74LVC1G125
SOT23-5
3.3V
TP11
TP12
3.3V
U12
PPI0_SYNC1
VID_OUT_SYNC1
PPI1_FS1
VID_OUT_SYNC_EN
JP8
1
2
3
4
5
6
7
8
EXT_VID_CLK
3
R52
33
805
1
3
R66
10K
0603
Video Out Frame Sync Setup
R58
10K
0603
2
4
PPI1_CLK
PPI0_SYNC2
SN74LVC1G125
SOT23-5
VID_OUT_SYNC2
PPI1_FS2
IDC4X2_M_SMT
4X2
3 Jumpers
3.3V
4
3.3V
C51
0.1UF
603
3.3V
C64
0.1UF
603
3.3V
C67
0.1UF
603
3.3V
C69
0.1UF
603
C65
0.1UF
603
DNP = Do Not Populate
See Manual For all Jumper Settings
3.3V
C68
0.1UF
603
ANALOG
DEVICES
C63
0.1UF
603
OSC SOC
SN74LVC1G125 SN74LVC1G125 SN74LVC1G125
74LVTH16245MTD
Date
A
Board No.
C
SN74LVC1G125
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
FS/CLK CONFIG
Title
Size
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
1-18-2005_9:12
D
5
of
12
A
B
C
CONN_SUPPLY
D
Micron Interface
Kodak Interface
VID_IN_D[15:0]
J6
VID_IN_D1
2
1
VID_IN_D0
VID_IN_D3
4
3
VID_IN_D2
VID_IN_D5
6
5
VID_IN_D4
VID_IN_D7
8
7
VID_IN_D6
VID_IN_D9
10
9
VID_IN_D8
12
11
1
AV_RESET
SDA
EXT_VID_CLK
14
13
16
15
18
17
20
19
22
21
24
23
26
25
5V
3.3V
Micron Interface
P4
J4
J6
CONN_SUPPLY
TP13
1
JP2
1
VID_IN_SYNC1_HREF
2
3
VID_IN_SYNC2_VSYNC
OmniVision Interface
SCL
IDC3X1
3X1
1 Jumper
C44
0.1UF
603
C42
10UF
0805
PIXEL_CLK
IDC13X2_F_RA
13X2RA
Flat Panal Display Interface
CONN_SUPPLY
CONN_SUPPLY
P6
J4
VID_IN_D0
2
VID_IN_D2
VID_IN_D4
VID_IN_D6
Y0
2
1
Y1
Y2
4
3
Y3
Y4
6
5
Y5
Y6
8
7
Y7
PWDN
PWDN
10
9
VID_IN_D1
VID_IN_D3
VID_IN_D5
RESET
SCL
EXT_VID_CLK
VID_IN_D8
VID_IN_D10
VID_IN_D12
VID_IN_D14
SDA
12
11
FODD
SCL
14
13
HREF
GND
16
15
VSYNC
GND
18
17
PCLK
EXCLK
20
19
VIN
22
21
VIN
UV0
24
23
UV1
UV2
26
25
UV3
UV4
28
27
UV5
UV6
30
29
UV7
32
31
28
VCC2
29
CK
U9
VID_IN_D7
1
4
HS
AV_RESET
2
SDA
VCC1
SNAPSHOT_FODD
VS
SN74AHC1G00
SOT23-5
see JP3
VID_IN_SYNC1_HREF
R0
VID_IN_SYNC2_VSYNC
R1
PIXEL_CLK
R2
OmniVision Interface
VID_IN_D15
VID_OUT_D2
10
VID_OUT_D3
11
R5
VID_OUT_D4
13
VID_OUT_D5
14
G1
15
G2
VID_OUT_D6
16
VID_OUT_D8
17
G4
18
G5
VID_OUT_D9
VID_OUT_D[15:0]
VID_OUT_D7
VID_OUT_D10
20
CONN_SUPPLY
21
VID_OUT_D11
22
VID_OUT_D12
23
VID_OUT_D13
24
VID_OUT_D14
25
B5
VID_OUT_D15
R4
10K
0603
R2
10K
0603
R9
10K
0603
DNP
R7
10K
0603
DNP
R6
10K
0603
DNP
B1
B2
B3
B4
ENAB
CONN_SUPPLY
6
9
B0
3
VID_OUT_SYNC2_VSYNC
VID_OUT_D1
G3
IDC16X2RASOC
16X2
VID_OUT_SYNC1_HREF
4
8
G0
VID_IN_D13
EXT_VID_CLK
3
VID_OUT_D0
R4
VID_IN_D11
2
7
R3
VID_IN_D9
2
3
27
30
31
P4
VID_IN_SYNC1_HREF
1
2
SNAPSHOT
SNAPSHOT_FODD
see JP3
GND1
1
GND2
5
GND3
12
3
4
VID_IN_D0
5
6
VID_IN_D2
7
8
VID_IN_D1
GND4
19
VID_IN_D4
9
10
VID_IN_D3
GND5
26
VID_IN_D6
11
12
VID_IN_D5
VID_IN_D8
13
14
VID_IN_D7
VID_IN_D10
15
16
VID_IN_D9
17
18
VID_IN_D11
19
20
21
22
PWDN
23
24
EXT_SYNC
25
26
27
28
PIXEL_CLK
VID_IN_SYNC2_VSYNC
EXT_VID_CLK
CON034
Kodak Interface
31PIN
3.3V
SCL
4
DNP = Do Not Populate
See Manual For all Jumper Settings
PWDN
see JP3
SDA
RESET
ANALOG
DEVICES
PPI0_D15
C60
0.1UF
603
AV_RESET
IDC14X2_M_RA
14X2RA
Size
Date
A
B
Board No.
C
SN74AHC1G00
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
PPI0 SETUP
Title
Note: The pin numbers look swapped on this connector
This is just industry standard pin numbering for a male connector
The footprint on the connecting board is not correct.
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
1-6-2005_16:35
D
6
of
12
VIDEO_AVIN5
2
3
4
5
6
VIDEO_DAC_A
VIDEO_DAC_C
VIDEO_DAC_B
IDC3X2_SMT
3X2
DAC_A
VIDEO_AVIN4
JP1
1
C
DAC_B
VIDEO_AVIN1
B
DAC_C
A
(WHITE) OUT
D
DAC A
DAC B
DAC C
Composite Video
CVSB
CVSB
C
Component Video
G
B
R
Differential Component Video
Y
U
V
S Video
Y
C
(RED) IN
AVIN1
AVIN4
1
AVIN5
1
R13
1K
0603
A3V
VIDEO_DAC_A
U3
5
4
L1
0.68UH
805
L4
2.2UH
805
L7
0.68UH
805
1
3
3.3V
VIDEO ENCODER
VAA1
VAA2
VAA3
VAA4
VAA5
VID_OUT_D7
VID_OUT_D[7:0]
5
VID_OUT_D6
4
VID_OUT_D5
3
VID_OUT_D4
39
VID_OUT_D3
38
VID_OUT_D2
37
VID_OUT_D1
36
VID_OUT_D0
35
1
DAC_A
P6
DAC_B
P5
20
DAC_C
P3
COMP
P2
VREF
P1
RSET
22
SDA
21
SCL
CLOCK
FIELD/VSYNC
GND1
ALSB
GND2
SDATA
GND3
SCLOCK
GND6
33
2
10
18
25
R47
10K
0603
C54
0.1UF
603
C47
0.1UF
603
R42
1.2K
402
27
2
29
R18
1K
0603
28
24
23
A3V
30
VIDEO_DAC_B
31
13
14
VENC_HREF
see JP3
VENC_VSYNC
see JP3
15
L5
2.2UH
805
L8
0.68UH
805
GND7
SCRESET/RTC
GND8
TTX
GND9
TTXREQ
GND10
J7
3X2
CON024
R17
75.0
0603
5
4
L2
0.68UH
805
1
3
2
GND5
3
R14
1K
0603
RESET
R39
100K
0603
34
9
U4
GND4
32
R26
75.0
0603
P0
3.3V
16
C28
330PF
0603
DAC A
AD8061ART
SOT23-5
P4
BLANK
AV_RESET
C18
330PF
0603
8
AGND2
P7
HSYNC
27MHZ_CLK
R11
75.0
0603
FER4
600
603
U7
2
2
A3V
J7
3X2
CON024
R12
75.0
0603
DAC B
5
AD8061ART
SOT23-5
6
6
R16
75.0
0603
7
8
C31
330PF
0603
R28
75.0
0603
R19
1K
0603
1
9
11
C20
330PF
0603
R41
150
1206
12
D1
AD1580BRT
SOT23D
2
10MA
17
19
AGND2
26
3
R23
1K
0603
40
ADV7179
LFCSP40
A3V
R40
100K
0603
VIDEO_DAC_C
U5
4
L3
0.68UH
805
L6
2.2UH
805
5
L9
0.68UH
805
1
3
2
3.3V
A3V
A3V
R21
75.0
0603
A3V
C21
330PF
0603
C35
330PF
0603
R30
75.0
0603
J7
3X2
CON024
R22
75.0
0603
2
DAC C
AD8061ART
SOT23-5
3
R24
1K
0603
DNP = Do Not Populate
See Manual For all Jumper Settings
C50
0.01UF
0603
C58
0.01UF
0603
C52
0.1UF
603
C57
0.1UF
603
C49
0.1UF
603
C53
0.1UF
603
C30
0.1UF
603
W1
COPPER
C29
0.01UF
0603
C33
0.1UF
603
C32
0.1UF
603
C37
0.1UF
603
C36
0.01UF
0603
ANALOG
DEVICES
AGND2
4
AGND2
AGND2
AGND2
AGND2
AD8061
AD8061
AD8061
Size
Board No.
C
Date
A
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
VIDEO ENCODER (OUT)
Title
ADV7179
U27
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
1-6-2005_16:35
D
7
of
12
A
B
C
D
3.3V
3.3V
AVIN1
AVIN4
AVIN5
Composite Video
CVBS
CVBS
CVBS
Differential Component Video
Y
S Video
Y
V
VIDEO DECODER
U
R10
10K
0603
C
R34
10K
0603
DNP
1
1
OE
OUT
R45
10K
0603
R3
10K
0603
U2
27MHZ_CLK
R5
33
0603
U1
R35
10K
0603
DNP
1
3
29
28
27MHZ
OSC003
XTAL
XTAL1
P15
P14
P13
66
67
SDA
68
SCL
ALSB
P12
SDA
P11
SCLK
P10
P9
64
AV_RESET
36
RESET
P8
PWRDN
P7
P6
J7
3X2
CON024
65
R15
0
0603
7
AVIN1
C19
0.1UF
603
NC[ISO]
P4
VIDEO_AVIN1
42
41
AIN1
P3
AIN7
P2
9
P1
TP1
J7
3X2
CON024
4
AVIN4
44
43
R20
0
0603
P5
C34
0.1UF
603
P0
46
45
2
AIN3
AIN9
6
LLC2
NC[LLCREF]
ELPF
58
J7
3X2
CON024
57
R25
0
0603
1
AVIN5
C22
0.1UF
603
60
59
AIN10
AIN5
AIN11
3
R27
75.0
0603
R29
75.0
0603
62
61
CT3
10UF
B
HS
C12
0.1UF
603
CT2
10UF
B
FIELD
NC[VREF]
NC[HREF]
TP3
R31
75.0
0603
C14
0.1UF
603
51
52
AIN12
NC[CLKIN]
REFOUT
CML
SFL[HFF]
NC[AEF]
NC[DV]
48
49
AGND2
CT1
10UF
B
C8
0.1UF
603
C9
0.001UF
0603
54
55
CAPY1
NC[RD]
CAPY2
OE
CAPC1
NC[GPO3]
CAPC2
NC[GPO2]
NC[GPO1]
C1
0.1UF
603
3
NC[GPO0]
C11
0.1UF
603
CT4
10UF
B
C23
0.1UF
603
C24
0.001UF
0603
50
AVDD
DVDD1
DVDD2
DVDD3
AGND2
AGND2
38
C15
0.1UF
603
C38
0.1UF
603
40
47
1.8V
3.3V
53
AGND2
PVDD
DVDDIO1
DVDDIO2
39
AGND2
56
FER2
600
1206
63
VID_IN_D6
75
VID_IN_D5
76
VID_IN_D4
5
VID_IN_D3
6
VID_IN_D2
7
VID_IN_D1
8
VID_IN_D0
VID_IN_D[7:0]
19
R8
33
0603
20
R33
33
0603
U6
1
21
4
VDEC_CLKOUT
2
22
SN74LVC1G32
SOT23-5
23
24
PVDD_ADV7183
32
33
27
C2
0.01UF
0603
26
25
C5
82NF
805
R1
1.5K
805
TP4
TP5
TP6
2
37
2
1
80
VDEC_HS
see JP3
VDEC_VS
VDEC_FIELD
see JP3
69
VDEC_VREF
70
VDEC_HREF
AIN6
NC[AFF]
AGND2
74
AIN4
VS
VIDEO_AVIN5
VID_IN_D7
AIN8
LLC1
TP2
VIDEO_AVIN4
AIN2
73
16
11
12
13
78
77
79
DEC_DATA_OE
17
18
34
1.8V
35
3.3V
3.3V
3.3V
1.8V
DVDD_ADV7183
FER3
600
1206
3
30
VR1
7
R32
10K
0603
10
72
8
DGND1
AGND3
DGND2
AGND4
DGND3
AGND5
DGND4
NC[AGND6]
DGND5
IN2
4
6
15
AGND1
AGND2
IN1
SD
1
OUT1
2
OUT2
3
OUT3
5
FB
GND
4 ADP3336ARM
MSOP8
R38
76.8K
805
C27
1UF
0603
3
C39
1UF
0603
9
R36
147K
805
14
31
71
ADV7183BKSTZ
LQFP80
FER1
600
1206
3.3V
3.3V
PVDD_ADV7183
DNP = Do Not Populate
See Manual For all Jumper Settings
3.3V
DVDD_ADV7183
C4
0.1UF
603
4
C17
0.1UF
603
C41
0.01UF
0603
C40
0.1UF
603
C13
0.1UF
603
C16
0.01UF
0603
C25
0.01UF
0603
C26
0.1UF
603
C43
0.1UF
603
C3
0.01UF
0603
C7
0.1UF
603
C6
0.01UF
0603
ANALOG
DEVICES
C10
0.1UF
603
27MHZ OSC
SN74LVC1G32
A
Board No.
C
ADV7183
U28
Date
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
VIDEO DECODER (IN)
Title
AGND2
Size
20 Cotton Road
Rev
A0193-2004
1.2
Sheet
1-6-2005_16:35
D
8
of
12
A
B
C
D
I2S_EN
I2S_EN
2
RFS0
U30
4
TFS0
RSCLK0
SN74LVC1G125
SOT23-5
R145
33
0603
1
1
U29
R144
33
0603
2
4
3.3V
TSCLK0
SN74LVC1G125
SOT23-5
R60
10K
0603
1
1
OUT1 (BLUE)
R68
33
0603
U18
3
OUT
OE
IN1 (BLACK)
AD1836_CLK
OUT2 (LIME)
12.288MHZ
OSC003
3.3V
AUDIO CODEC
3.3V
3.3V
5V
IN2 (YELLOW)
OUT3 (PINK)
A5V
R141
10K
0603
FER9
600
1206
JP7
3
4
5
DR0SEC
R107
10K
0603
6
IDC3X2_SMT
3X2
3 Jumpers
U24
47
ASDATA1
48
ASDATA2
44
ALRCLK
43
ABCLK
R142
33
0603
RFS0
R143
33
0603
RSCLK0
10
A5V115
A5V2
2
1
5V140
5V2
DR0PRI
1
46
3V
I2S_EN
1
OUT1L+
OUT1L-
8
OUT1L+
9
OUT1L-
C3
DAC1 LEFT
C4
OUT1R+
31
OUT1R+
OUT1R-
DAC1 RIGHT
B2
ADC2_LEFT
45
MCLK
AD1836_CLK
B3
OUT2L+
50
CLATCH
51
CCLK
2
CDATA
49
COUT
SNAPSHOT_FODD_SSEL
SCK
MOSI
MISO
IN1 (BLACK)
C5
ADC1_RIGHT
30
OUT1R-
2
J5
C2
ADC1_LEFT
OUT2L-
6
OUT2L+
7
OUT2L-
2
B4
DAC2 LEFT
IN2 (YELLOW)
B5
ADC2_RIGHT
A1
OUT2R+
33
OUT2R+
32
OUT2R-
OUT2R-
32
DAC1_LEFT
DAC2 RIGHT
33
OUT1 (BLUE)
34
16
IN1L+
17
IN1L-
IN1L+
ADC1 LEFT
IN1L-
OUT3L+
OUT3L-
4
OUT3L+
5
OUT3L-
35
DAC1_RIGHT
DAC3 LEFT
22
DAC2_LEFT
ADC1 RIGHT
18
IN1R+
19
IN1R-
IN1R+
IN1R-
OUT3R+
35
OUT3R+
34
OUT3R-
OUT3R-
23
DAC3 RIGHT
25
DAC2_RIGHT
20
IN2L+/CL2/CL2
21
IN2L-/CL1/CL1
22
NC/IN2L1/IN2L+
23
NC/IN2L2/IN2L-
IN2L1
IN2L2
24
NC/IN2R2/IN2R25
NC/IN2R1/IN2R+
26
IN2R-/CR1/CR1
27
IN2R+/CR2/CR2
ADC2 RIGHT
IN2R1
3
3
PD/RST
AV_RESET
AD1836AAS
MQFP52
FILTR
FILTD
DT0PRI
DT0SEC
2
DAC3_LEFT
JP10
TFS0
TSCLK0
1
2
3
3
4
4
IDC2X2
2X2
R135
0
0603
1
CON035
5XAUDIO_JACK
7
12
OUT3 (PINK)
5
DAC3_RIGHT
U27
5
13
AD1836_VREF
3
6
AD8606AR
SOIC8
11
14AGND1
28AGND2
29AGND3
AGND4
IN2R2
39
52GND1
GND2
ADC2 LEFT
38
DSDATA1
41
DSDATA2
42
DSDATA3
36
DLRCLK
37
DBCLK
OUT2 (LIME)
24
CT12
10UF
B
C131
0.1UF
603
CT13
10UF
B
C132
0.1UF
603
AGND
R111
0
0603
R130
0
0603
3
U27
1
C93
0.001UF
0603
C100
0.001UF
0603
C103
0.001UF
0603
2
C111
0.001UF
0603
AD8606AR
SOIC8
R115
0
0603
AGND
AGND
3.3V
3.3V
3.3V
3.3V
5V
A5V
A5V
DNP = Do Not Populate
See Manual For all Jumper Settings
4
C144
0.1UF
603
C145
0.1UF
603
C75
0.1UF
603
C110
0.01UF
0603
C124
0.1UF
603
C99
0.1UF
603
C115
0.1UF
603
C130
0.1UF
603
W2
COPPER
ANALOG
DEVICES
C120
0.22UF
805
MSC_COPPER
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
AUDIO
Title
AGND
SN74LVC1G125
SN74LVC1G125
12.288MHZ OSC
AD1836
AGND
Size
AGND
C
AD8606
Date
A
B
Board No.
C
Rev
A0193-2004
1.2
Sheet
11-26-2004_10:48
D
9
of
12
A
B
C
1
R100
5.49K
0603
R93
11K
0603
D
1
C106
100PF
0603
R92
3.32K
0603
OUT1R-
C107
330PF
0603
2
U23
1
DAC1 RIGHT
3
R86
5.49K
0603
C89
680PF
0603
AD8606AR
SOIC8
R85
1.65K
0603
R102
604
0603
OUT1R+
CT8
10UF
CAP002
DAC1_RIGHT
R79
2.74K
0603
C95
220PF
0603
R109
49.9K
0603
C113
2200PF
0603
2
2
AGND
R99
5.49K
0603
R90
11K
0603
C105
100PF
0603
R91
3.32K
0603
OUT1L-
C104
330PF
0603
6
U23
7
DAC1 LEFT
5
R83
5.49K
0603
C88
680PF
0603
AD8606AR
SOIC8
R84
1.65K
0603
R104
604
0603
OUT1L+
3
CT7
10UF
CAP002
3
DAC1_LEFT
R78
2.74K
0603
C94
220PF
0603
C116
2200PF
0603
AD1836_VREF
R108
49.9K
0603
AGND
A5V
DNP = Do Not Populate
See Manual For all Jumper Settings
ANALOG
DEVICES
C112
0.22UF
805
4
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
AUDIO OUT(CH1)
Title
AGND
Size
AD8606
Board No.
C
Date
A
B
C
Rev
A0193-2004
1.2
Sheet
12-1-2004_18:50
D
10
of
12
A
B
C
D
1
1
R132
5.49K
0603
R126
11K
0603
R101
5.49K
0603
C136
100PF
0603
R125
3.32K
0603
R94
11K
0603
OUT2R-
C109
100PF
0603
R95
3.32K
0603
OUT3R-
C137
330PF
0603
2
C108
330PF
0603
U25
1
DAC2 RIGHT
6
7
DAC3 RIGHT
3
R119
5.49K
0603
C123
680PF
0603
5
AD8606AR
SOIC8
R118
1.65K
0603
U22
R133
604
0603
R87
5.49K
0603
CT15
10UF
CAP002
OUT2R+
C90
680PF
0603
AD8606AR
SOIC8
R88
1.65K
0603
R103
604
0603
OUT3R+
CT9
10UF
CAP002
DAC2_RIGHT
R113
2.74K
0603
C126
220PF
0603
R80
2.74K
0603
R138
49.9K
0603
C140
2200PF
0603
AD1836_VREF
DAC3_RIGHT
C96
220PF
0603
R96
49.9K
0603
C114
2200PF
0603
2
2
AGND
R131
5.49K
0603
R123
11K
0603
AGND
R89
5.49K
0603
C134
100PF
0603
R124
3.32K
0603
R82
11K
0603
OUT2L-
C97
100PF
0603
R81
3.32K
0603
OUT3L-
C133
330PF
0603
6
C98
330PF
0603
U25
7
DAC2 LEFT
2
1
DAC3 LEFT
5
3
R116
5.49K
0603
C122
680PF
0603
3
AD8606AR
SOIC8
R117
1.65K
0603
U22
R136
604
0603
OUT2L+
R75
5.49K
0603
CT14
10UF
CAP002
C84
680PF
0603
AD8606AR
SOIC8
R74
1.65K
0603
3
R98
604
0603
OUT3L+
CT10
10UF
CAP002
DAC2_LEFT
R112
2.74K
0603
C125
220PF
0603
DAC3_LEFT
R71
2.74K
0603
R137
49.9K
0603
C142
2200PF
0603
C87
220PF
0603
AGND
AGND
A5V
4
A5V
C135
0.22UF
805
DNP = Do Not Populate
See Manual For all Jumper Settings
ANALOG
DEVICES
C101
0.22UF
805
Size
AGND
AGND
AD8606
AD8606
B
Board No.
C
Date
C
20 Cotton Road
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
AUDIO OUT(CH2, CH3)
Title
A
R97
49.9K
0603
C102
2200PF
0603
Rev
A0193-2004
1.2
Sheet
12-1-2004_18:50
D
11
of
12
A
B
CT6
10UF
CAP002
FER6
1
R77
5.76K
0603
C
R73
5.76K
0603
D
CT5
10UF
CAP002
FER5
ADC1_LEFT
R76
5.76K
0603
R61
5.76K
0603
ADC2_LEFT
1
C83
120PF
0603
C92
100PF
0603
C91
100PF
0603
R70
237
0603
U21
2
C71
120PF
0603
2
1
1
IN1L-
AGND
IN2L2
AGND
3
3
AD8606AR
SOIC8
R63
5.76K
0603
AD8606AR
SOIC8
C86
0.001UF
0603
R62
5.76K
0603
C77
100PF
0603
R67
5.76K
0603
R72
5.76K
0603
ADC1 LEFT
C74
120PF
0603
C72
0.001UF
0603
R69
750K
0603
R64
237
0603
U21
6
ADC2 LEFT
C82
120PF
0603
AGND
R65
750K
0603
6
7
U20
7
IN1L+
5
IN2L1
5
AD8606AR
SOIC8
2
U20
AD8606AR
SOIC8
2
AGND
AGND
CT11
10UF
CAP002
FER7
R122
5.76K
0603
R121
5.76K
0603
CT16
10UF
CAP002
FER8
ADC1_RIGHT
R140
5.76K
0603
R134
5.76K
0603
ADC2_RIGHT
C128
120PF
0603
C129
100PF
0603
R106
237
0603
U26
6
C141
120PF
0603
C139
100PF
0603
2
7
1
IN1R-
AGND
IN2R2
AGND
5
3
AD8606AR
SOIC8
R105
5.76K
0603
3
U28
AD8606AR
SOIC8
C119
0.001UF
0603
R120
5.76K
0603
C118
100PF
0603
R128
5.76K
0603
R139
5.76K
0603
ADC1 RIGHT
C143
120PF
0603
C127
120PF
0603
AGND
R127
750K
0603
C117
0.001UF
0603
R129
750K
0603
R110
237
0603
U26
2
1
3
ADC2 RIGHT
6
U28
7
IN1R+
3
IN2R1
5
AD8606AR
SOIC8
AD8606AR
SOIC8
AGND
AGND
AD1836_VREF
A5V
A5V
A5V
A5V
DNP = Do Not Populate
See Manual For all Jumper Settings
C73
0.22UF
805
4
C121
0.22UF
805
C138
0.22UF
805
ANALOG
DEVICES
C85
0.22UF
805
AGND
AGND
AGND
AGND
Size
AD8606
AD8606
AD8606
C
Date
A
B
C
Nashua, NH 03063
4
PH: 1-800-ANALOGD
Blackfin A-V EZ-Extender
AUDIO IN(CH1, CH2)
Title
AD8606
20 Cotton Road
Board No.
Rev
A0193-2004
1.2
Sheet
10-15-2004_19:35
D
9
of
12
I
INDEX
A
AD1836A audio codec, x, 2-5, 2-10
ADV7183B video decoder, x
analog audio interface
see audio interface
analog video interface
see video interface
architecture, EZ-Extender, 2-2
ASDATA1-2 data output pins, 2-13
audio
codec, data inputs, 2-6
interface, x, 2-2
jacks, x
loopback jumpers, 2-14
AV_RESET source jumper, 2-14
block diagram, EZ-Extender, 2-2
C
clock setup jumpers, 2-10
customer support, xiii
D
data pins
see PPI0 and PPI1
decoder
HSync disconnect jumper, 2-9
output enable jumper, 2-10
VSync connection jumper, 2-9
E
B
bidirectional buffers, 2-2
bill of materials, A-1
Blackfin A-V EZ-Extender Manual
encoder
HRef connection jumper, 2-10
VSync connection jumper, 2-10
I-1
INDEX
expansion interface
connector summary, 2-2
DR0PRI, 2-6
DR0SEC, 2-6
DT0PRI, 2-6
DT0SEC, 2-6
FLAG_SCL_DIR_CTRL, 2-5
FLAG_SDA, 2-5
MISO, 2-6
MOSI, 2-5
PPI0_CLK, 2-4
PPI0 data pins, 2-4
PPI0_SYNC1-2, 2-4
PPI1_CLK, 2-5
PPI1_D10, 2-4
PPI1_D2-3, 2-5
PPI1 data pins, 2-4
PPI1_FS1-2, 2-5
RFS0, 2-6
RSCLK0, 2-6
SNAPSHOT_FODD_SSEL, 2-5
TFS0, 2-6
TSCLK0, 2-6
expansion interface, EZ-KIT Lite, ix
EZ-Extender
interfacing with EZ-KIT Lite, 2-1
system architecture, 2-2
F
flag pin, 2-9, 2-14
flat panel displays, xi
FODD (OmniVision camera) signal, 2-10
FPDI
HS signal, 2-4
interface, 2-5
VS signal, 2-4
frame sync signal, processor, 2-9, 2-10
frame sync signals, 2-2, 2-6, 2-13
I-2
G
general-purpose flag, 2-10, 2-12, 2-14
H
HREF, 2-4
HSYNC, 2-4
I
I2S mode, 2-6
enable jumper, 2-13
IC reset, 2-14
interfaces
analog audio, x
analog video, x
EZ-KIT Lite, 2-1
flat panel display, xi
Kodak camera modules, x
Micron camera module, x
OmniVision camera module, x
J
JP10.1/2, 2-14
JP10.3/4, 2-14
JP1.1/2, 2-7
JP1.3/4, 2-7
JP1.5/6, 2-7
JP2 connector, 2-7
JP3.11/12, 2-9
JP3.13/14, 2-9
JP3.15/16, 2-10
JP3.17/18, 2-10
JP3.19/20, 2-10
JP3.21/22, 2-5, 2-10
JP3.3/5/7, 2-4, 2-5, 2-7
JP3.4/6/8, 2-4, 2-5, 2-7
JP3.9/10, 2-4, 2-9
JP4.1/2, 2-4, 2-5, 2-10
JP4.3/4, 2-4, 2-5, 2-10
Blackfin A-V EZ-Extender Manual
INDEX
JP4.5/6, 2-4, 2-5, 2-10
JP4.7/8, 2-4, 2-5, 2-10
JP5.1/2, 2-11
JP5.3/4, 2-4, 2-5, 2-11
JP5.5/6, 2-4, 2-5, 2-11
JP6.1/3/5, 2-4, 2-12
JP6.2/4/6, 2-4, 2-12
JP7.1/2, 2-13
JP7.3/4, 2-13
JP7.5/6, 2-13
JP8.1/3/5, 2-4, 2-5, 2-13
JP8.2/4/6, 2-4, 2-5, 2-13
JP8.7/8, 2-4, 2-5, 2-13
JP9.1/3/5, 2-14
JP9.2/4/5, 2-4
JP9.2/4/6, 2-14
jumpers, 2-7
P
PDWN
connection jumper, 2-9
input, 2-4
PPI0, 2-2, 2-10, 2-13
data bus, 2-4, 2-11, 2-14
data bus enable jumper, 2-11
data direction setup jumper, 2-14
frame sync signal, 2-9
PPI0_SYNC1-2 direction setup jumpers, 2-12
PPI1, 2-10, 2-13
PPI_CLK signals, 2-10
product overview, ix
R
RFS0 net, 2-6
RSCLK0 net, 2-6
K
Kodak camera modules, x, 2-5, 2-9
KAC-9628, x
M
Micron camera modules, x
MT9V022, x
N
NL6448BC20-08E, flat panel display, xi
notation conventions, xvi
O
OmniVision camera modules, x, 2-5, 2-9
OV6630AA, x
S
SNAPSHOT_FODD disconnect jumper, 2-10
source selection jumpers, 2-7
SPI
serial clock, 2-5
serial input data signal, 2-6
serial output data signal, 2-5
SPORT
data connection jumpers, 2-13
data input pins, 2-13
Two-Wire Interface (TWI) mode, 2-13
SPORT0, 2-2
receive clock signal, 2-6
receive frame sync signal, 2-6
transmit clock signal, 2-6
system reset, 2-14
T
two wire interface, 2-5, 2-7
Blackfin A-V EZ-Extender Manual
I-3
INDEX
U
unidirectional buffers, 2-2
V
video
decoder/encoder, 2-2
interfaces, x, 2-2, 2-4
test loopback jumpers, 2-7
I-4
VID_IN bus, 2-2, 2-4, 2-10
VID_OUT bus, 2-2, 2-4, 2-11
control jumpers, 2-11
sync enable jumper, 2-13
sync source select jumpers, 2-13
voltage selection jumper, 2-7
Blackfin A-V EZ-Extender Manual
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