phyBOARD -Wega Expansion Boards Application Guide

phyBOARD -Wega Expansion Boards Application Guide
®
phyBOARD -Wega
Expansion Boards
Application Guide
Document No.:
L-793e_0
Product:
PCB. No.:
Power Module (PEB-POW-01)
1410.0
Product:
PCB. No.:
Evaluation Board (PEB-EVAL-01)
1413.0
Product:
PCB. No.:
HDMI Adapter (PEB-AV-01)
1406.0
Edition:
November 2013
A product of a PHYTEC Technology Holding company
phyBOARD-Wega Expansion Boards
Copyrighted products are not explicitly indicated in this manual. The absence of the trademark (™, or
®) and copyright (©) symbols does not imply that a product is not protected. Additionally, registered
patents and trademarks are similarly not expressly indicated in this manual.
The information in this document has been carefully checked and is considered to be entirely reliable.
However, PHYTEC Messtechnik GmbH assumes no responsibility for any inaccuracies. PHYTEC
Messtechnik GmbH neither gives any guarantee nor accepts any liability whatsoever for consequential
damages resulting from the use of this manual or its associated product. PHYTEC Messtechnik GmbH
reserves the right to alter the information contained herein without prior notification and accepts no
responsibility for any damages that might result.
Additionally, PHYTEC Messtechnik GmbH offers no guarantee nor accepts any liability for damages
arising from the improper usage or improper installation of the hardware or software. PHYTEC
Messtechnik GmbH further reserves the right to alter the layout and/or design of the hardware without
prior notification and accepts no liability for doing so.
© Copyright 2013 PHYTEC Messtechnik GmbH, D-55129 Mainz.
Rights - including those of translation, reprint, broadcast, photomechanical or similar reproduction and
storage or processing in computer systems, in whole or in part - are reserved. No reproduction may
occur without the express written consent from PHYTEC Messtechnik GmbH.
Address:
EUROPE
NORTH AMERICA
PHYTEC Messtechnik GmbH
Robert-Koch-Str. 39
D-55129 Mainz
GERMANY
PHYTEC America LLC
203 Parfitt Way SW, Suite G100
Bainbridge Island, WA 98110
USA
Ordering
+49 (6131) 9221-32
Information: [email protected]
1 (800) 278-9913
[email protected]
Technical
Support:
+49 (6131) 9221-31
[email protected]
1 (800) 278-9913
[email protected]
Fax:
+49 (6131) 9221-33
1 (206) 780-9135
Web Site:
http://www.phytec.de
http://www.phytec.eu
http://www.phytec.com
Preliminary Edition November 2013
© PHYTEC Messtechnik GmbH 2013
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Contents
List of Figures ...............................................................................................................................ii
List of Tables.................................................................................................................................ii
Conventions, Abbreviations and Acronyms .............................................................................iii
Preface ...........................................................................................................................................v
1
Introduction .........................................................................................................................1
2
Power Module (PEB-POW-01) ..........................................................................................2
2.1 Block Diagram..............................................................................................................2
2.2 View of the PEB-A-002................................................................................................2
2.3 Pin Description: ............................................................................................................3
2.3.1 Pinout of the Power Input X1:.........................................................................3
2.3.2 Pinout of the Power Output X2: ......................................................................3
2.4 Status LEDs (D13 and D14) .........................................................................................4
3
Evaluation Board (PEB-EVAL-01)....................................................................................5
3.1 Block Diagram..............................................................................................................5
3.2 View of the PEB-A-002................................................................................................6
3.3 RS-232 Connectivity (X4) :RS-232..............................................................................6
3.3.1 Software Implementation ................................................................................7
3.4 Debug Interface (X3) ....................................................................................................7
3.5 User LEDs (D1, D2, D3) ..............................................................................................8
3.5.1 Software Implementation ................................................................................8
3.6 Switches (S1, S2, S3)....................................................................................................8
3.6.1 Software Implementation ................................................................................8
4
HDMI Adapter (PEB-AV-01).............................................................................................9
4.1 Block Diagram............................................................................................................10
4.2 View of the PEB-AV-01.............................................................................................10
4.3 Pinout of the HDMI Connetor X3: .............................................................................11
4.4 Jumper.........................................................................................................................12
4.5 Software Implementation............................................................................................12
5
Revision History.................................................................................................................13
Index ............................................................................................................................................14
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phyBOARD-Wega Expansion Boards
List of Figures
Figure 1:
View of the phyBOARD-Wega with A/V- and Expansion Connetor........................1
Figure 2:
Block Diagram Power Module (PEB-POW-01) ........................................................2
Figure 3:
View of the Power Module (PEB-POW-01) ..............................................................2
Figure 4:
Pinout of the Power Input Connector X1 ...................................................................3
Figure 5:
Pinout of the Power Output Connector X2.................................................................3
Figure 6:
Block Diagram Evaluation Board (PEB-EVAL-01) ..................................................5
Figure 7:
View of the Evaluation Board (PEB-EVAL-01)........................................................6
Figure 8:
RS-232 Connector P1 Signal Mapping ......................................................................6
Figure 9:
Block Diagram Power Module (PEB-POW-01) ......................................................10
Figure 10: View of the HDMI Adapter (PEB-AV-01) ..............................................................10
Figure 11: HDMI Connector X3 Pinout.....................................................................................11
List of Tables
Table 1:
Abbreviations and Acronyms used in this Manual....................................................iv
Table 2:
Pin description of the Power Input Connector X1......................................................3
Table 3:
Pin description of the Power Output Connector X2 ...................................................3
Table 4:
JTAG Connector X3 Signal Assignment....................................................................7
Table 5:
HDMI Connector X3 Pinout.....................................................................................11
Table 6:
U1 HDMI I²C Address via J1and J2.........................................................................12
ii
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Conventions, Abbreviations and Acronyms
Conventions, Abbreviations and Acronyms
This application guide describes the first three expansion boards for the PB-00802-xxx
Singe
Board
Computer
(SBC)
in
the
following
referred
to
as
phyBOARD-Wega-AM335x. The manual specifies the expansion board's design and
function. Precise specifications for the used ICs can be found in the manufacturers' Data
Sheet/User's Manual.
Conventions
The conventions used in this manual are as follows:
ƒ Signals that are preceded by an "n", "/", or “#”character (e.g.: nRD, /RD, or #RD), or
that have a dash on top of the signal name (e.g.: RD) are designated as active low
signals. That is, their active state is when they are driven low, or are driving low.
ƒ A "0" indicates a logic zero or low-level signal, while a "1" represents a logic one or
high-level signal.
ƒ The hex-numbers given for addresses of I2C devices always represent the 7 MSB of
the address byte. The correct value of the LSB which depends on the desired
command (read (1), or write (0)) must be added to get the complete address byte. E.g.
given address in this manual 0x41 => complete address byte = 0x83 to read from the
device and 0x82 to write to the device.
ƒ Tables which describe jumper settings show the default position in bold, blue text.
ƒ Text in blue italic indicates a hyperlink within, or external to the document. Click
these links to quickly jump to the applicable URL, part, chapter, table, or figure.
Abbreviations and Acronyms
Many acronyms and abbreviations are used throughout this manual. Use the table below
to navigate unfamiliar terms used in this document.
© PHYTEC Messtechnik GmbH 2013
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phyBOARD-Wega Expansion Boards
Abbreviation
A/V
BSP
CB
DFF
DSC
EMB
EMI
GPI
GPIO
GPO
IRAM
J
JP
NC
PCB
PDI
PEB
PMIC
PoE
PoP
POR
RTC
SBC
SMT
SOM
Sx
Sx_y
VSTBY
Table 1:
iv
Definition
Audio/Video
Board Support Package (Software delivered with the Development
Kit including an operating system (Windows, or Linux) preinstalled
on the module and Development Tools).
Carrier Board; used in reference to the phyBOARD-Wega
Development Kit Carrier Board.
D flip-flop.
Direct Solder Connect
External memory bus.
Electromagnetic Interference.
General purpose input.
General purpose input and output.
General purpose output.
Internal RAM; the internal static RAM on the Texas Instruments
AM335x microcontroller.
Solder jumper; these types of jumpers require solder equipment to
remove and place.
Solderless jumper; these types of jumpers can be removed and placed
by hand with no special tools.
Not Connected
Printed circuit board.
PHYTEC Display Interface; defined to connect PHYTEC display
adapter boards, or custom adapters
PHYTEC Extension Board
Power management IC
Power over Ethernet
Package on Package
Power-on reset
Real-time clock.
Single Board Computer; used in reference to the PBA-CD-02
/phyBOARD-Wega-AM335x module
Surface mount technology.
System on Module; used in reference to the PCL-051
/phyCORE-AM335x module
User button Sx (e.g. S1, S2) used in reference to the available user
buttons, or DIP-Switches on the CB.
Switch y of DIP-Switch Sx; used in reference to the DIP-Switch on
the carrier board.
SOM standby voltage input
Abbreviations and Acronyms used in this Manual
© PHYTEC Messtechnik GmbH 2013
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Preface
Preface
As a member of PHYTEC's new phyBOARD® product family the
phyBOARD-Wega-AM335x is one of a series of PHYTEC System on Modules (SBCs)
that offers various functions and configurations. PHYTEC supports a variety of 8-/16and 32-bit controllers in two ways:
(1)
as the basis for Rapid Development Kits which serve as a reference and evaluation
platform
(2)
as insert-ready, fully functional phyBOARD® OEM modules, which can be
embedded directly into the user’s peripheral hardware design.
Implementation of an OEM-able SBC subassembly as the "core" of your embedded
design allows you to focus on hardware peripherals and firmware without expending
resources to "re-invent" microcontroller circuitry. Furthermore, much of the value of the
phyBOARD® SBC lies in its layout and test.
PHYTEC's new phyBOARD® product family consists of a series of extremely compact
embedded control engines featuring various processing performance classes.
Production-ready Board Support Packages (BSPs) and Design Services for our hardware
will further reduce your development time and risk and allow you to focus on your
product expertise. Take advantage of PHYTEC products to shorten time-to-market,
reduce development costs, and avoid substantial design issues and risks. With this new
innovative full system solution you will be able to bring your new ideas to market in the
most timely and cost-efficient manner.
For more information go to:
http://www.phytec.de/de/leistungen/entwicklungsunterstuetzung.html
www.phytec.eu/europe/oem-integration/evaluation-start-up.html
or
In order to receive product specific information on changes and updates in the best way
also in the future, we recommend to register at
http://www.phytec.de/de/support/registrierung.html or
http://www.phytec.eu/europe/support/registration.html
For technical support and additional information concerning your product, please visit
the support section of our web site which provides product specific information, such as
errata sheets, application notes, FAQs, etc.
http://www.phytec.de/de/support/faq/faq-phyBOARD-Wega-AM335x.html or
http://www.phytec.eu/europe/support/faq/faq-phyBOARD-Wega-AM335x.html
© PHYTEC Messtechnik GmbH 2013
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phyBOARD-Wega Expansion Boards
Declaration of Electro Magnetic Conformity of the PHYTEC
phyBOARD-Wega-AM335x Expansion Boards
PHYTEC Expansion Boards for phyBOARD-Wega-AM335x (henceforth products) are
designed for installation in electrical appliances or as dedicated Evaluation Boards (i.e.:
for use as a test and prototype platform for hardware/software development) in
laboratory environments.
Caution:
PHYTEC products lacking protective enclosures are subject to damage by ESD and,
hence, may only be unpacked, handled or operated in environments in which sufficient
precautionary measures have been taken in respect to ESD-dangers. It is also necessary
that only appropriately trained personnel (such as electricians, technicians and engineers)
handle and/or operate these products. Moreover, PHYTEC products should not be
operated without protection circuitry if connections to the product's pin header rows are
longer than 3 m.
PHYTEC products fulfill the norms of the European Union’s Directive for Electro
Magnetic Conformity only in accordance to the descriptions and rules of usage indicated
in this hardware manual (particularly in respect to the pin header row connectors, power
connector and serial interface to a host-PC).
Implementation of PHYTEC products into target devices, as well as user modifications
and extensions of PHYTEC products, is subject to renewed establishment of conformity
to, and certification of, Electro Magnetic Directives. Users should ensure conformance
following any modifications to the products as well as implementation of the products
into target systems.
vi
© PHYTEC Messtechnik GmbH 2013
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Preface
Product Change Management and information in this manual on parts populated
on the SOM / SBC
When buying a PHYTEC SOM / SBC, you will, in addition to our HW and SW
offerings, receive a free obsolescence maintenance service for the HW we provide.
Our PCM (Product Change Management) Team of developers, is continuously
processing, all incoming PCN's (Product Change Notifications) from vendors and
distributors concerning parts which are being used in our products.
Possible impacts to the functionality of our products, due to changes of functionality or
obsolesce of a certain part, are being evaluated in order to take the right masseurs in
purchasing or within our HW/SW design.
Our general philosophy here is: We never discontinue a product as long as there is
demand for it.
Therefore we have established a set of methods to fulfill our philosophy:
Avoiding strategies
•
•
•
Avoid changes by evaluating long-livety of parts during design in phase.
Ensure availability of equivalent second source parts.
Stay in close contact with part vendors to be aware of roadmap strategies.
Change management in case of functional changes
•
•
•
Avoid impacts on product functionality by choosing equivalent replacement parts.
Avoid impacts on product functionality by compensating changes through HW
redesign or backward compatible SW maintenance.
Provide early change notifications concerning functional relevant changes of our
products.
Change management in rare event of an obsolete and non replaceable part
•
•
Ensure long term availability by stocking parts through last time buy management
according to product forecasts.
Offer long term frame contract to customers.
Therefore we refrain from providing detailed part specific information within this
manual, which can be subject to continuous changes, due to part maintenance for
our products.
In order to receive reliable, up to date and detailed information concerning parts
used for our product, please contact our support team through the contact
information given within this manual.
© PHYTEC Messtechnik GmbH 2013
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phyBOARD-Wega Expansion Boards
viii
© PHYTEC Messtechnik GmbH 2013
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Introduction
1
Introduction
The PHYTEC Expansion Boards PEB-AV-01, PEB-EVAL-01 and PEB-POW-01 are the
first three add-on modules for PHYTEC’s phyBOARD-Wega Single Board Computer.
These add-on modules allow easy development of complex applications with off-theshelf components.
PHYTEC Expansion Boards PEB-xxx-xxx are designed to be plugged into connectors
X67 (power connector), X69 (expansion connector), or X70 & X71 (A/V connector) on
the phyBOARD-Wega PB-00802-xxx.
All add-on modules are supported within the BSPs 1 available for the phyBOARD SBC.
Precise specifications for the components populating the board can be found in the
applicable User’s Manuals or Data Sheets.
optional
Figure 1:
1
:
View of the phyBOARD-Wega with A/V- and Expansion Connetor
To ensure that the PEB of your choice is supported by the BSP use only the latest BSP, or check on the PHYTEC
website from which version on the driver is implemented.
© PHYTEC Messtechnik GmbH 2013
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phyBOARD-Wega Expansion Boards
2
Power Module (PEB-POW-01)
The Power Module offers the following features:
• Subminiature Expansion Board (72 x 45 mm) achieved through modern SMD
technology
• 12 V - 24 V input voltage
• 5 V and 3.3 V output voltage
• Power good signal (connected to nRESET_IN on the phyBOARD-Wega)
Please note that all module connections are not to exceed their expressed maximum
voltage or current. Maximum signal input values are indicated in the corresponding
controller manuals/data sheets. As damage from improper connections varies according
to use and application, it is the user's responsibility to take appropriate safety measures to
ensure that the module connections are protected from overloading through connected
peripherals.
2.1
Block Diagram
Power Module PEB-POW-01
X1
2-pole
Combicon
Figure 2:
Power
Supply
X2
6-pole
Power Connector
Block Diagram Power Module (PEB-POW-01)
2.2 View of the PEB-A-002
Figure 3:
2
View of the Power Module (PEB-POW-01)
© PHYTEC Messtechnik GmbH 2013
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Power Module (PEB-POW-01)
2.3 Pin Description:
2.3.1
Pinout of the Power Input X1:
Figure 4:
Pinout of the Power Input Connector X1
Pin Signal
Description
1
X_VIN 12 V - 24 V input voltage
2
GND
Table 2:
2.3.2
Ground
Pin description of the Power Input Connector X1
Pinout of the Power Output X2:
Figure 5:
Pinout of the Power Output Connector X2
Pin Signal
Description
1
VCC5V
+5 V power supply
2
GND
Ground
3
VCC3V3
+3.3 V power supply
4
N.C.
Not Connected
5
PWR_GOOD
Power good signal (connected to
nRESET_IN on the phyBOARD Wega)
6
N.C.
Not Connected
Table 3:
Pin description of the Power Output Connector X2
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phyBOARD-Wega Expansion Boards
2.4
Status LEDs (D13 and D14)
The Power Module provides two green status LEDs (D13 and D14) on board.
D13 illustrates the availability of the VCC5V generation and D14 indicates the presence
of VCC3V3.
4
© PHYTEC Messtechnik GmbH 2013
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Evaluation Board (PEB-EVAL-01)
3
Evaluation Board (PEB-EVAL-01)
The Evaluation Board offers the following features:
• Subminiature Expansion Board (72 mm x 72 mm) achieved through modern SMD
technology
• Three User LEDs and three switches 1
• JTAG interface for AM335x
• RS232 interface (UART 0)
• Second expansion socket to connect another expansion board
Please note that all module connections are not to exceed their expressed maximum
voltage or current. Maximum signal input values are indicated in the corresponding
controller manuals/data sheets. As damage from improper connections varies according
to use and application, it is the user's responsibility to take appropriate safety measures to
ensure that the module connections are protected from overloading through connected
peripherals.
3.1
Block Diagram
Evaluation Module PEB-EVAL-01
X5
60-pole
Exp. Connector
X_nINTR1_GPIO0_20
X_nGPIO0_7
X_nGPIO3_10
X_GPIO3_7
X1
60-pole
Expansion
Connector
X_GPIO3_8
X_GPIO3_9
JTAG
UART 0
I²C 0
Figure 6:
1
:
RS232
Transceiver
S1
S2
S3
D1
D2
D3
JTAG - X3
20-pole
Pin Header
RS232 - X4
9-pole
Sub-D
I²C EEPROM
Block Diagram Evaluation Board (PEB-EVAL-01)
Note: User LEDs D1 and D2 are not available for PCB version 1413.0!
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phyBOARD-Wega Expansion Boards
3.2 View of the PEB-A-002
Figure 7:
View of the Evaluation Board (PEB-EVAL-01)
3.3 RS-232 Connectivity (X4) :RS-232
Connector X4 is a female DE9 sub-connector and provides a connection interface to
UART0 of the AM335x. The TTL level signals from the phyBOARD-Wega-AM335x
are converted to RS-232 level signals. Figure 8 below shows the signal mapping of the
RS-232 level signals at connector X4.
The RS-232 interface is hard-wired and no jumpers must be configured for proper
operation.
1
6
2
7
3
8
4
9
5
Figure 8:
6
Pin 2:
TxD-RS232
Pin 3:
RxD-RS232
Pin 5:
GND
RS-232 Connector P1 Signal Mapping
© PHYTEC Messtechnik GmbH 2013
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Evaluation Board (PEB-EVAL-01)
3.3.1
Software Implementation
/dev/ttyO0 for UART0 has been implemented within the BSP. /dev/ttyO0 is the standard
console, mainly used for debugging and control of software updates.
3.4 Debug Interface (X3)
The Evaluation Board is equipped with a JTAG interface for downloading program code
into the external flash, internal controller RAM or for debugging programs currently
executing. The JTAG interface extends to a 2.54 mm pitch pin header at X3 which
allows for attaching a 2x10 pin, 2.54 mm pitch socket. Figure 7 shows the position of the
debug interface (JTAG connector X3) on the phyBOARD-Wega-AM335x module.
See the following table for details on the JTAG signal pin assignment. The pull-up or
pull-down resistors can be located in the phyCORE schematics.
Signal
VSUPPLY
(VCC3V3)
GND
GND
GND
GND
GND
GND
GND
GND
GND
Table 4:
3
Pin Row*
A
B
2
1
4
6
8
10
12
3
5
7
9
11
14
16
18
20
13
15
17
19
Signal
TREF
(VCC3V3 via 100 Ω)
X_nJTAG_TRST (10 kΩ pull-up)
X_JTAG_TDI (10 kΩ pull-up)
X_JTAG_TMS (10 kΩ pull-up)
X_JTAG_TCK (10 kΩ pull-down)
X_JTAG_RTCK
Connected to X_JTAG_TCK on
phyCORE
X_JTAG_TDO (10 kΩ pull-up)
X_nRESET_OUT 3
NC
NC
JTAG Connector X3 Signal Assignment
Same Signal as X_nRESET_IN but after Reset Supervisor IC. For more information look at phyCORE schemetics.
© PHYTEC Messtechnik GmbH 2013
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phyBOARD-Wega Expansion Boards
3.5 User LEDs (D1, D2, D3)
The Evaluation Board provides three user LEDs on board, a red (D1), a yellow (D2) and
a green (D3).
Caution:
User LED D1 and D2 are not available for PCB version 1413.0! Moreover GPIO3_7
must not be declared as output for PCB version 1405.0 of the phyBOARD-Wega,
otherwise the system will not be reset by a software reboot!
3.5.1
Software Implementation
D3 can by controlled by setting GPIO3_9 to the desired output level. A high-level turns
the LED on, a low-level turns it off.
For setting and resetting the green user LED on the expansion board just enter:
cd /sys/devices/platform/leds-gpio/leds/peb_eval_01:green:led3
echo 1 > brightness
echo 0 > brightness
3.6 Switches (S1, S2, S3)
The Evaluation Board features three switches (S1, S2, S3) which can be freely assigned
to custom specific functions.
3.6.1
Software Implementation
S1 extends to GPIO0_20. S2 is conneted to GPIO0_7 and S3 switches GPIO3_10.
Touching one of the switches results in a low-level at the corresponding GPIO.
For getting values from the three user buttons on the expansion board just enter
cd /sys/class/gpio
echo 20 > export
echo 7 > export
echo 106 > export
and get the values with
cat gpio20/value
cat gpio7/value
cat gpio106/value
8
© PHYTEC Messtechnik GmbH 2013
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HDMI Adapter (PEB-AV-01)
4
HDMI Adapter (PEB-AV-01)
The HDMI Adapter offers the following features:
• Subminiature Expansion Board (72 mm x 22 mm) achieved through modern SMD
technology
• HDMI interface
• Audio over I²S
The High-Definition Multimedia Interface (HDMI) Adapter (PEB-AV-01) converts the
parallel display signals from the phyCORE-AM335x processor to HDMI signals. The
used IC (TDA19988BHN/C1) is compliant to HDMI 1.4a, DVI 1.0 and supports a
maximum pixel clock of 165 MHz for the RGB input signals. Audio streams via I²S-bus
reaches a sampling rate up to 192 kHz. Please refer to the AM335x Technical Reference
Manual and TDA19988 Product data sheet for more information. The HDMI interface
brought out at a standard HDMI type A connector (X3) on the HDMI Adapter comprises
the following signal groups: three pairs of data signals, one pair of clock signals, an I²C
bus which is exclusively for the HDMI interface, the Consumer Electronics Control
(CEC) signal and the hot plug detect (HPD) signal. Level shifters shift the I²C interface
signal from IO voltage (VCC3V3) to 5 V, while the data and clock signals extend
directly from the HDMI transceiver to the HDMI receptacle. The hot plug detect signal is
pulled down to ground.
The actual software supports a resolution of XGA (1024 × 768) and 720p (1280 × 720) at
a pixel clock rate of 75 MHz for the RGB input signals.
Please note that all module connections are not to exceed their expressed maximum
voltage or current. Maximum signal input values are indicated in the corresponding
controller manuals/data sheets. As damage from improper connections varies according
to use and application, it is the user's responsibility to take appropriate safety measures to
ensure that the module connections are protected from overloading through connected
peripherals.
© PHYTEC Messtechnik GmbH 2013
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phyBOARD-Wega Expansion Boards
4.1
Block Diagram
HDMI Adapter PEB-AV-01
X70
40-pole
A/V Connector
#1
X71
16-pole
A/V Connector
#2
Figure 9:
Parallel
Display
I²C 0
I²S 0
Parallel
to
HDMI
Converter
HDMI
X3
HDMI
Connector
Block Diagram Power Module (PEB-POW-01)
4.2 View of the PEB-AV-01
Figure 10:
10
View of the HDMI Adapter (PEB-AV-01)
© PHYTEC Messtechnik GmbH 2013
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HDMI Adapter (PEB-AV-01)
4.3 Pinout of the HDMI Connetor X3:
Figure 11:
HDMI Connector X3 Pinout
Pin #
Signal name
2, 5, 8, GND
11, 17
1
HDMI_TX2+
3
HDMI_ TX24
HDMI_TX1+
6
HDMI_TX17
HDMI_TX0+
9
HDMI_TX010
HDMI_TXC+
12
HDMI_TXC13
HDMI_CONN_CEC
14
NC
15
HDMI_CONN_DSCL
HDMI_CONN_DSD
16
A
18
HDMI_5V
19
HDMI_CONN_HPD
20, 21,
Shield
22, 23
Table 5:
ST
SL
Description
Ground
O
O
O
O
O
O
O
O
I/O
I/O
I/O
HDMI
HDMI
HDMI
HDMI
HDMI
HDMI
HDMI
HDMI
3.3 V
5V
5V
HDMI data channel 2 negative output
HDMI data channel 2 positive output
HDMI data channel 1 positive output
HDMI data channel 1 negative output
HDMI data channel 0 negative output
HDMI data channel 0 positive output
HDMI clock positive output
HDMI clock positive output
HDMI consumer electronic control
Not connected
HDMI I²C clock signal
HDMI I²C data signal
O
I
5V
5V
5 V power supply
HDMI hot plug detection
HDMI Connector X3 Pinout
© PHYTEC Messtechnik GmbH 2013
L-793e_0
11
phyBOARD-Wega Expansion Boards
4.4
Jumper
The HDMI core and CEC core of the HDMI transmitter can be access through I2C0 bus
from the phyBOARD-Wega.
Jumpers J1 and J2 allow to configure the lower address bits A0 and A1 of the TDA19988
at U1 on the HDMI adapter. The six upper address bits of the device are fixed at ‘11100’
for the HDMI core and at ‘01101’ for the CEC core (see TDA19988 Product data sheet).
The remaining two lower address bits of the seven bit I²C device address are
configurable using jumpers J1 and J2. J1 sets address bit A0 and J2 address bit A1.
Table 5 below shows the resulting seven bit I²C device address for the four possible
jumper configurations.
HDMI core
11100 00
11100 01
11100 10
11100 11
Table 6:
4.5
J2
1+2
1+2
2+3
2+3
J1
1+2
2+3
1+2
2+3
CEC core
01101 00
01101 01
01101 10
01101 11
U1 HDMI I²C Address via J1and J2 4
Software Implementation
The driver of the HDMI adapter board gains access to its HDMI connector via device
node /dev/fb0.
In the Barebox script /env/video/display you can select between DVI_XGA (default) and
DVI_720P (16:9) by simply modifying comments of the lines
#Displays
display=DVI_XGA
#display=DVI_720P
A simple test of the framebuffer feature can then be run with:
fbtest
This will show various pictures on the display.
You can check your framebuffer resolution with the command
fbset
fbset cannot be used to change display resolution or color depth.
Depending on the framebuffer device different kernel command line are
mostly needed to do this.
4
:
12
Defaults are in bold blue text
© PHYTEC Messtechnik GmbH 2013
L-793e_0
Revision History
5
Revision History
Date
Version #
25.11.2013
Manual
L-793e_0
© PHYTEC Messtechnik GmbH 2013
Changes in this manual
First edition.
Describes the
Power Module (PEB-POW-01); PCB. No.:1410.0
Evaluation Board (PEB-EVAL-01); PCB. No.: 1413.0
HDMI Adapter (PEB-AV-01); PCB. No.: 1406.0
L-793e_0
13
phyBOARD-Wega Expansion Boards
Index
B
H
BSP ..............................................................1
Drivers .........................................................1
HDMI Adapter
Features..................................................9
HDMI Adapter
Pin Description......................................11
E
J
EMC...........................................................vi
Evaluation Board.......................................5
Evaluation Board
Features..................................................5
Evaluation Board
RS-232.....................................................6
Evaluation Board
Debug Interface.......................................7
Evaluation Board
User LEDs...............................................8
Evaluation Board
Switches ..................................................8
JTAG Interface ............................................7
D
14
P
Power Module
Pin Description........................................3
Power Input .............................................3
Power Output ..........................................3
Power Module .............................................2
Block Diagram ........................................2
Features..................................................2
S
Software.......................................................1
© PHYTEC Messtechnik GmbH 2013
L-793e_0
Suggestions for Improvement
Document:
Application Guide for phyBOARD-Wega-AM335x Expansion
Boards
Document number: L-793e_0, November 2013
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Fax : +49 (6131) 9221-33
© PHYTEC MesstechnikGmbH 2013
L-793e_0
page
Published by
© PHYTEC Messtechnik GmbH 2013
Ordering No. L-793e_0
Printed in Germany
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