an1453

ISL54100AHDMI-EVALZ, ISL54105ACRZ-EVALZ Operation
Manual for Intersil’s 4:1 and 1:1 TMDS (HDMI)
Regenerator Evaluation Kits
®
Application Note
April 1, 2009
AN1453.2
Thank you for requesting Intersil’s high-performance TMDS
signal multiplexor/regenerator/retimer evaluation kit. This
document contains all information needed to successfully
install software and control the evaluation hardware.
Included Files and Hardware
Windows® is a registered trademark of Microsoft
Corporation.
• Schematic (PDF format)
HDMI™ is a trademark of HDMI Licensing, LLC
• “ISL5410xA.exe” software installer (“x” can be “0” or “5”)
PC Requirements
• USB type-A to type-B Cable
The software works best with Microsoft Windows 2000 or
XP, and requires a minimum of 6MB free RAM, 5MB free
hard disk space, and a USB (1.1 or higher) port.
• Power Supply: AC adapter to 5VDC converter
ISL54100A (4→1)
ISL54100AHDMI-EVALZ
1
• Evaluation Board (either ISL54100A or ISL54105A)
• Datasheet (PDF format)
• Layout (PDF format)
ISL54105A (1→1)
ISL54105ACRZ-EVALZ
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
1-888-INTERSIL or 1-888-468-3774 | Intersil (and design) is a registered trademark of Intersil Americas Inc.
Copyright Intersil Americas Inc. 2009. All Rights Reserved
All other trademarks mentioned are the property of their respective owners.
Application Note 1453
Table of Contents
Definitions ..................................................................................................................................................................................... 3
Evaluation Software Installation .................................................................................................................................................... 3
Connecting the Evaluation Board .................................................................................................................................................. 4
Evaluation Kit Operation ................................................................................................................................................................ 5
Hardware Setup ....................................................................................................................................................................... 5
ISL5410xA Register Defaults ................................................................................................................................................... 5
Hardware Operation ................................................................................................................................................................. 6
ISL54100A ........................................................................................................................................................................... 6
ISL54105A ........................................................................................................................................................................... 7
Software Operation .................................................................................................................................................................. 7
ISL54100A-only Software Features ..................................................................................................................................... 8
ISL54105A-only Software Features ..................................................................................................................................... 8
Display Issues .......................................................................................................................................................................... 8
ISL54101A/ISL54102A ............................................................................................................................................................. 8
HDMI Control Signals (DDC, HPD, and CEC) .............................................................................................................................. 9
Troubleshooting ............................................................................................................................................................................ 9
Software Issues ........................................................................................................................................................................ 9
USB Port .............................................................................................................................................................................. 9
USB Driver Installation ......................................................................................................................................................... 10
Hardware Issues ....................................................................................................................................................................... 10
Notes ........................................................................................................................................................................................ 10
ISL54100AHDMI-EVALZ Schematics ........................................................................................................................................... 11
ISL54105ACRZ-EVALZ Schematics ............................................................................................................................................. 14
ISL54100HDMI-EVALZ BILL OF MATERIALS ...........................................................................................................................................16
ISL54105ACRZ-EVALZ BILL OF MATERIALS ............................................................................................................................. 19
ISL54100AHDMI-EVALZ Layout ................................................................................................................................................... 21
ISL54105ACRZ-EVALZ Layout ..................................................................................................................................................... 28
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April 1, 2009
Application Note 1453
Definitions
Evaluation Software Installation
I2C
Launch the Installation Setup Wizard (the file ending in “.exe”)
included with this evaluation kit and follow the instructions.
Upon completion, a shortcut to the program can then be
activated from the Windows Start Menu under StartÆAll
Programs→Intersil. The main program files will be installed in
the C:\Program Files\Intersil\ directory. The USB driver file
windrvr6.sys will be placed into
C:\WINDOWS\system32\drivers and an INF file will be
installed under C:\WINDOWS\INF.
Inter-Integrated Circuit – A two-wire serial communications
bus designed by Philips Semiconductors. I2C is a
multi-master bus, which means that multiple chips can
connect to the same bus and each one can act as a master
by initiating a data transfer. Many devices use I2C, especially
video devices such as computer monitors, televisions, and
VCRs.
DDC
Display Data Channel – A VESA standard for I2C
communication between a monitor and a video adapter.
Using DDC, a monitor (the “sink”) can inform a video card
(the “source”) about its properties, such as maximum
resolution and color depth. The video card can then use this
information to present valid options to the user configuring
the display.
The instructions shown in the captions below demonstrate a
typical installation (ISL54105 eval software shown, other
boards’ installations are essentially identical).
TMDS
Transition Minimized Differential Signaling – A high-speed
(Gbit/s) data transmission scheme used by HDMI. At the
electrical level TMDS uses CML1 with two 50Ω terminations
to 3.3V. At the data level TMDS has a custom 8b/10b data
encoding scheme to maintain DC-balance.
HDMI
High Definition Multimedia Interface – HDMI is a collection of
physical connector (cable) standards, electrical standards,
and data (protocol) standards. Together, these provide a
medium for securely transmitting digital audiovisual data
from a source (DVD Player) to a sink (HDTV).
FIGURE 1. PRESS "NEXT" TO CONTINUE
GUI
Graphical User Interface – A software interface which is
graphical and presents the user with visual options for
program control; the counter is the command line.
HPD
Hot Plug Detect – Modern display standards make use of an
“HPD” pin that allows two devices to sense an
interconnection. When an HDMI cable is first connected, the
sink (display) will sense 5V power from the source
(computer/DVD player), and the sink will drive its HPD pin
high to let the source know it is ready for video information.
USB
Universal Serial Bus – A serial bus and cabling standard to
interface devices and PCs.
FIGURE 2. BY DEFAULT, THE INSTALLER WILL PUT THE
EVAL SOFTWARE UNDER "C:\PROGRAM
FILES\INTERSIL\". PRESS "NEXT" TO
CONTINUE.
1.
http://en.wikipedia.org/wiki/Current_mode_logic
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April 1, 2009
Application Note 1453
FIGURE 3. PRESS "NEXT" TO CREATE THE INTERSIL
FOLDER IN THE START MENU
FIGURE 5. SELECT "YES, NOW AND EVERY TIME..." AND
CLICK "NEXT"
FIGURE 4. PRESS THE "INSTALL" BUTTON TO COPY ALL
THE NECESSARY FILES ONTO THE PC
FIGURE 6. ENSURE THE RECOMMENDED OPTION IS
SELECTED AND PRESS "NEXT"
Connecting the Evaluation Board
After installation of the evaluation software, reboot the PC if
requested. Apply power to the evaluation board using the
provided 5V power supply. Connect the USB cable to the
evaluation board. The Microsoft Windows operating system
will see the evaluation board as a new device, and will try to
load an appropriate driver for it.
FIGURE 7. THE HARDWARE WIZARD WILL LOCATE AND
INSTALL THE ISL5410xA DRIVERS
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AN1453.2
April 1, 2009
Application Note 1453
Write “0x10” to Channel Selection register 0x02 to reset our
TMDS regenerator to its silicon-default values.
FIGURE 8. DONE! CLICK "FINISH" TO CLOSE THE WIZARD
FIGURE 9. ON XP SYSTEMS, A POP-UP MESSAGE MAY
DISPLAY THE CONNECTION STATUS OF THE
ISL5410xA HARDWARE
Evaluation Kit Operation
Hardware Setup
Please follow the steps below in order to make use of our
evaluation board.
Plug the power supply into the wall, and connect the 5V
connector to the board’s power jack. Connect a DVI/HDMI
video sink (monitor, HDTV, etc) to the output connector.
Connect a DVI/HDMI video source (PC, DVD player, etc) to
the input connector.
ISL5410xA Register Defaults
FIGURE 10. ISL54100AHDMI-EVALZ BOARD WITH PORT
LABEL
The ISL54100A and ISL54105A datasheets mention
“recommended default” values. Intersil has programmed the
evaluation board’s microcontroller to overwrite two of the
silicon default values: the PLL bandwidth bits (register 0x10
bits [1:0]) and clock hysteresis bits (register 0x03 bits [6:5])
When the PLL bandwidth is set lower, the ISL5410xA will
reject more high-band jitter. High-band jitter present on
TMDS lines can make it difficult for HDTVs/monitors to track
the input signal, and this effect is most noticeable for highdatarate signals over long cables.
The ISL5410xA detects activity in one of two ways: common
mode detection or hysteresis detection. Common mode
activity detection is less robust, since it only looks at the DC
voltage level on the clock pin. Hysteresis detection mode
looks for movement on the clock pin.
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AN1453.2
April 1, 2009
Application Note 1453
Figure 12 shows four switches which can put the ISL54100A
into a variety of states (detailed in Tables 1 and 2). The Addr
pins can be used to change the ISL54100A’s I2C device
address. Designs which have multiple ISL54100As
connected to the same I2C bus need to give each device a
different I2C address.
TABLE 1. POWER DOWN AND AUTO SEL EN DESCRIPTION
SWITCH LABEL
"ON" STATE
"OFF" STATE
Power Down
Minimal power consumption Normal operation
mode; TMDS lines are
open-circuited
Auto Sel En
Ignore Sel 1 and Sel 0.
Select first port with active
clock (try A, B, C, D)
Select port
according to state
of Sel 0 and Sel 1
TABLE 2. SEL 0 AND SEL 1 SWITCH DESCRIPTION
SWITCH STATE
SEL 1
SEL 0
SELECTED
PORT
Off
Off
Port A
Off
On
Port B
On
Off
Port C
On
On
Port D
FIGURE 11. ISL54105ACRZ-EVALZ BOARD WITH PORT
LABELS
Note that a hardware channel selection (Sel 0 and Sel 1) can
be overridden by an I2C software channel select command.
Hardware Operation
The ISL54100A board and ISL54105A board have different
hardware controls as shown in Figure 12.
The evaluation boards are designed to indicate the
ISL5410xA’s state of operation. In the event of hardware
issues, these LEDs may help the user locate any problems.
ISL54100A
TABLE 3. ISL54100A BOARD LED DESCRIPTION
LED DESIGNATOR
FIGURE 12. ISL54100A DIP SWITCHES IN THE
"AUTO-SELECT" POSITION
"ON" STATE DESCRIPTION
D1
3.3V rail is low
D2
Flashes during µC reset
D3
Sink (output) device connected
D6
3.3V rail detected
D10
Active clock on Port A
D11
Active clock on Port B
D16
Active clock on Port C
D17
Active clock on Port D
D18
CH_SEL_1 high
D20
CH_SEL_0 low
TABLE 4. RELATIONSHIP BETWEEN ROTARY SWITCH POSITION AND REGISTER SETTING
SWITCH
POSITION
“0”
“1”
“2”
“3”
“4”
“5”
“6”
“7”
“8”
“9”
“A”
“B”
“C”
“D”
“E”
“F”
REGISTER
BITS
0000
0001
0010
0011
0100
0101
0110
0111
1000
1001
1010
1011
1100
1101
1110
1111
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April 1, 2009
Application Note 1453
FIGURE 13. ISL54105A ROTARY SWITCHES AND RESET
BUTTON
Figure 13 shows the Equalization switch and Preemphasis
switch which adjust the input and output gains of the
ISL54100A. The equalization bits (register 0x08 bits [3:0])
control the gain applied to the incoming signal. The
preemphasis bits (register 0x06 bits [7:4]) increase the
high-frequency content of the output signal2. For both
switches, “F” represents the maximum and “0” the minimum.
Note that if the rotary switches are turned, the other nibble of
that register is reset to 0x0, and will need to be reprogrammed
as required using the input boxes on the GUI.
TABLE 5. ISL54105A BOARD LED DESCRIPTION
LED DESIGNATOR
"ON" STATE DESCRIPTION
D1
3.3V rail detected
D2
Active clock on input
D4
Flashes during µC reset
FIGURE 15. ISL54105A SOFTWARE GUI
Note that the grayed-out registers are read-only (0x00, 0x01,
0x0A, 0x0B, and 0x0C).
Click on the “Read All Registers” button and the ISL5410xA
register values should populate across every field
(Figure 17). The “Re-Calibrate Termination” button forces
the ISL5410xA to manually recalibrate the TMDS
termination impedances (see register 0x03 bit 7).
If the register values come back as all “0” (Figure 16), verify
that the I2C address is set to match the board. The I2C
address is set through the “SerAddr” box in the ISL54100A
GUI or “I2C Addr” field in the ISL54105A GUI.
If the I2C address is correct for the board and the software is
still not able to read the registers, please proceed to
“Troubleshooting” on page 9 of this document.
Software Operation
The user can launch the software from either the Start Menu,
or from the user-specified installation path on the hard drive.
Once launched, the user will see one of the following screens:
FIGURE 14. ISL54100A SOFTWARE GUI
FIGURE 16. RESULT OF A REGISTER READ WHEN DEVICE
I2C ADDRESS IS SET INCORRECTLY
2. Preemphasis (high frequency boost) is used to partially offset
the high frequency attenuation of long cables.
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AN1453.2
April 1, 2009
Application Note 1453
To change a register value, simply select one or both
nibbles3 of the desired register and type the new number.
FIGURE 18. "REGISTER DEFINITIONS" DROP-DOWN MENU
FIGURE 17. REGISTERS HAVE BEEN READ; NOW
CHANGING THE UPPER NIBBLE OF REGISTER
0x03
Should the user desire to change both upper/lower nibbles in
a register, it is important to type both digits in under a
second. The software is written to automatically read back
any changes, so a slow typist may only get one value in
before that register is automatically read back, causing
unintended values to be written.
Some shortcuts for changing the selected register’s value
are:
ISL54100A-ONLY SOFTWARE FEATURES
The ISL54100A board has multiple input HDMI ports, so the
“Channel Select” box in the lower left region of the GUI will
modify the IC’s channel select setting (register 0x02 bits
[1:0]). Remember that software-control overrides the state of
the hardware channel select pins.
The software contains the option to force the output HPD pin
high (“Force Output HPdetect”). This pin is normally driven
by the device connected to the board’s output port (the sink).
Manual control of the HPD pin may be useful for
experimentation and debugging purposes.
ISL54105A-ONLY SOFTWARE FEATURES
• Up Arrow – Increment by 1
• Down Arrow – Decrement by 1
• Page Up – Increment by 16 (increment high nibble by 1)
• Page Down – Decrement by 16 (decrement high nibble by 1)
The user can find a complete listing of register bits in the
datasheet, or in the “register definitions” drop-down menu as
shown in Figure 18.
The ISL54105A software has a box labeled “Scan I2C”.
When clicked, the ISL54105A software will try every I2C
address from 0x00 to 0x7F (0 to 127) and stop when a
response is found for a particular address. This allows users
to connect the evaluation board’s I2C lines (SDA, SCL,
GND) to a different board’s I2C lines and quickly find the new
board’s ISL54105A’s I2C address.
Display Issues
In the event that a display or monitor does not show any
image, please verify the board’s settings and proceed to
“Troubleshooting” on page 9 of this document.
ISL54101A/ISL54102A
The fundamental pinout is the same across all regenerators
using the QFP128 package.
Since the ISL54102A is a 2:1 regenerator, it has input/status
pins for ports A and B only. The 1:1 regenerator ISL54101A
has input/status pins for port A only.
3. A nibble is four bits, or half of one byte. 0xF2 has two nibbles,
0xF = 0b1111 and 0x2 = 0b0010.
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April 1, 2009
Application Note 1453
HDMI Control Signals (DDC, HPD, and
CEC)
The ISL54105A and ISL54100A boards handle the DDC,
HPD, and CEC control signals differently. The ISL54105A
board’s control signals are wired directly from the input to the
output since it is a 1:1 design. The ISL54100A design has to
multiplex these control signals as well as the TMDS signals
as shown in Figure 20.
Source Side
Input port A
control pins
2
Sink Side
2
2
Input port B
control pins
DDC Switch
2
Output port
control pins
2
Chan Sel
2
The logic for HPD/DDC multiplexing is shown in Figure 19.
Input port C
control pins
Microcontroller
System
power
on
User Input
Input port D
control pins
FIGURE 20. INTERCONNECTIONS BETWEEN DDC (BLUE),
HPD (RED), DDC SWITCH, AND A µC
uC sets all source
HPD pins low
The CEC signal is a serial communications bus for all
connected devices, and all CEC signals are shorted
together. See the HDMI spec for more information.
Troubleshooting
No
Sink HPD or
port selection
change?
Software Issues
USB PORT
Yes
The software should be able to communicate with the
evaluation board as soon as it is launched. If there is a
communication problem, the following dialog box should be
displayed:
uC sets all source
HPD pins low
Sink HPD
high?
No
Yes
Set selected port’s
source HPD high
FIGURE 21. ERROR DETECTING USB CONNECTION TO
EVALUATION BOARD
If this dialog is present, open the Windows Control Panel.
Double-click on the “System” icon and select the “Hardware”
tab, then click on Device Manager. The screen shown in
Figure 22 should now be present.
FIGURE 19. LOGIC FLOW CHART FOR MUXING HDMI
CONTROL SIGNALS
FIGURE 22. WINDOWS DEVICE MANAGER SHOWING
EVALUATION BOARD USB DRIVERS
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AN1453.2
April 1, 2009
Application Note 1453
There should be a “Jungo” entry, with an item for Intersil’s
evaluation board. This indicates the driver is properly
installed and is communicating with the evaluation board. If
this is not visible, or there are any error messages, take the
following actions:
• Verify that the evaluation board has power and the USB
cable connects between the evaluation board and the PC
• Disconnect the USB cable and then reconnect the USB
cable between the evaluation board and PC
• Close all instances of the ISL5410xA application and
restart the software
If none of this works, try rebooting, and then try installing the
software on a different PC to verify correct operation of the
evaluation board and software.
USB DRIVER INSTALLATION
After rebooting the PC, please verify that the following files
are in the following locations for the ISL54105A board:
• windrvr6.sys in C:\WINDOWS\system32\Drivers
• ISL54105ACQZ-EVALZ.inf in C:\WINDOWS\INF
• ISL54105A_HDMI.exe in C:\Program Files\ISL54105A
...or for the ISL54100A board:
• windrvr6.sys in C:\WINDOWS\system32\Driver
• ISL54100AHDMI-EVALZ.inf in C:\WINDOWS\INF
• ISL54100A_HDMI.exe in C:\Program Files\ISL54100A
Hardware Issues
If the USB connection is functioning, but the DVI/HDMI
monitor does not display an image, take the following steps:
• Hook the source directly to the sink, bypassing the
ISL5410xA. If no image is displayed, resolve that problem
before reinserting the ISL5410xA.
• Try changing the video resolution on the source to 480p or
800x600 pixels. Some HDTVs can not accept resolutions
10
common to PCs (1600x1200), and some monitors can not
accept resolutions common to DVD players (1080p).
• Ensure the correct ISL54100A input is selected.
• Ensure the correct monitor/HDTV input is selected.
• Check to see if input and output connections are reversed
• Close the software and reset the µC with the push-button
switch.
• Use a voltmeter to verify the board is receiving a logic-high
HPD signal from the video sink.
• Check to see the “3.3V present” LEDs are lit (see Tables 3
and 5) and check the 3.3V rail with a voltmeter.
If the power cord is plugged into the board and connected to
the wall, and the “power good” LEDs are not lit, check to see
if the ISL54100A’s fuse has blown (see F4 – next to the input
power connector).
If the fuse is blown or the board is otherwise not functioning
as expected, please contact your distributor or local Intersil
Sales Office for further assistance.
Notes
1. Using the PRE-EMPH rotary switch to modify the
pre-emphasis will clear the contents of the "Transmit
Current" (register 0x06[4:0]) nibble. Since the default
transmit current is the standard 10mA, this is rarely a
problem. If a transmit current higher than 10mA is
desired, it must be programmed via the I2C/USB
interface.
2. The hardware RESET button resets both the USB
microcontroller and the ISL54105A. Resetting the
microcontroller will disrupt the USB connection to the PC.
Fortunately a hardware reset is never needed in normal
operation - both the ISL54105A and the microcontroller
should power on working correctly and stay in that state
until power is removed. However, if the RESET button is
pressed and communication is lost, simply closing and
restarting the evaluation software should restore
communication.
AN1453.2
April 1, 2009
ISL54100AHDMI-EVALZ Schematics
1
2
3
4
5
6
Default Address is set for 0x3F
3.3V
103
2
ISL54100
pin map
(top view)
4 resistors (designation R?) added to board to resolve micro-controller detection of presense/loss of input +5V
3
D
4
DDC_5V+_A
HPD_A
19
2
5
8
11
17
20
21
22
23
MMUN2211LT1G
Q1
3
1
2
GND
GND
Rx2-_A
64
Rx1-_A
Rx2+_A
Rx0+_A
Rx2-_A
Rx0-_A
Rx1+_A
RxC+_A
Rx1-_A
RxC-_A
Rx0+_A
CEC
Rx0-_A
CEC
RxC+_A
RxC-_A
15
Rx2+_B
Rx2-_B
Rx1+_B
Rx1-_B
Rx0+_B
Rx0-_B
RxC-_B
DDC_CLK_A
19
MMUN2211LT1G
Q3
2
5
8
11
17
20
21
22
23
3
1
2
GND
GND
15
Rx2+_C
Rx2-_C
Rx0+_B
Rx1+_C
Rx0-_B
Rx1-_C
Rx0+_C
RxC+_B
RxC-_B
CEC
Rx0-_C
RxC+_C
CEC
RxC-_C
16
Rx2+_D
Rx2-_D
Rx1+_D
Rx1-_D
Rx0+_D
Rx0-_D
RxC+_D
RxC-_D
19
MMUN2211LT1G
Q4
2
5
8
11
17
20
21
22
23
3
HPc_off
1
2
GND
GND
DDC_DATA_C
TX2+
TX2TX1+
TX1TX0+
HP_DETECT TX0TXC+
GND
TXCGND
CEC
GND
NC
GND
GND
DDC_SCL
GND
GND
GND
DDC_SDA
GND
GND
HPD_D
19
R4
1K
MMUN2211LT1G
Q5
2
5
8
11
17
20
21
22
23
3
HPd_off
1
2
GND
GND
Rx0+_C
Rx0-_C
RxC+_C
ISLRESET
ISLRESET
RxC-_C
CEC
CEC
37
RESET
POWER_DOWN
connection added for micro-controller
HDMI input
Channel C
15
R13
102
101
100
99
CH3_ACTIVE
CH2_ACTIVE
19
HP3
3
GND
2
5
8
11
17
20
21
22
23
C
1
HP3
2
GND
GND
From DDC Mux Switch ISL43840
DDC_CLK_TX
R10
510
CH3_ACTIVE_LED
R11
510
CH2_ACTIVE_LED
CH1_ACTIVE
CH0_ACTIVE
to detect ISL54100 power down condition
CH_SEL_0
R19
Rx2-_D
POW ER_DOW N
1
AUTO_CH_SEL
2
R200 510
3
510
510
Rx1+_D
R190 510
Rx1-_D
4
Rx0+_D
D18
LED, GREEN
Rx0-_D
RxC+_D
off
CEC
MMUN2211LT1G
HDMI input
Channel D
SW6A
8
SWITCH-DIP4
SW6B
7
SWITCH-DIP4
SW6C
6
SWITCH-DIP4
SW6D
5
SWITCH-DIP4
Q30
3
16
1
2
3
2
channel select 1
off
channel select 0
D17
LED, GREEN
LED, GREEN
LED, GREEN
LED, GREEN
PWR&DDC rev B1
PWR&DDC (sheet 2)
DDC_SEL0
DDC_SEL1
Channel select 0
1
DDC_CLK_A
DDC_CLK_B
DDC_CLK_C
DDC_CLK_D
DDC_CLK_A
DDC_CLK_B
DDC_CLK_C
DDC_CLK_D
DDC_DATA_A
DDC_DATA_B
DDC_DATA_C
DDC_DATA_D
DDC_DATA_A
DDC_DATA_B
DDC_DATA_C
DDC_DATA_D
DDC_CLK_TX
DDC_DATA_TX
Channel Select, Power Down and AutoChannel Select
HDMI_CONNECTOR
Default switch settings
AN1453.2
April 1, 2009
3
Title ISL54100AHDMI-EVALZ
Size:
GND
4
B
Number:
- input/output
Revision: C
Intersil, Corp.
1001 Murphy Ranch Road
Milpitas, CA 95035
USA
Date: 25-Jan-2009
Sheet 1 of 3
Time: 19:11:23
File: C:\Temporary\ISL54100HDMI-EVALZ.revC.DDB - Documents\Schematic\HDMI input-output
5
FIGURE 23. ISL54100AHDMI-EVALZ INPUT/OUTPUT
DDC_SEL0
DDC_SEL1
Channel select 1
Auto channel select
off
D16
CH_SEL_0
CH_SEL_1
Auto channel select
MMUN2211LT1G
Q31
D11
GND
Power down
on
B
D10
Status LED for active channel
Power Down
D20
LED, GREEN
RxC-_D
CEC
CH0_ACTIVE_LED
CH_SEL_0
CH_SEL_1
3.3V
POWER_DOWN
Rx2+_D
CH1_ACTIVE_LED
R8
510
71
TEST
16
15
C45
10uF MMUN2211LT1G
Q2
DDC_DATA_TX
R9
510
DDC_DATA_D
2
CEC
CH_SEL_1
1
3
4
6
7
9
10
12
13
14
CEC
HDMI_CONNECTOR
CH3_ACTIVE
CH2_ACTIVE
CH1_ACTIVE
CH0_ACTIVE
GND
1
TXC+
+
3216 size
10V 20%
Active Channel Status
Rx1-_C
DDC_CLK_D
DDC_CLK_D
TX0TXC-
18 DDC+5V+_O
Output DVI connector
R20
TX2+
TX2TX1+
TX1TX0+
HP_DETECT TX0TXC+
GND
TXCGND
CEC
GND
NC
GND
GND
DDC_SCL
GND
GND
GND
DDC_SDA
GND
TX0+
TX2+
5V+
TX2TX1+
TX1TX0+
TX0- HP_DETECT
TXC+
TXCGND
CEC
GND
NC
GND
GND
DDC_SCL
GND
GND
GND
DDC_SDA
GND
GND
GND
Rx1+_C
J10
5V+
ISLRESET
3.16K, 1%
3.3V
18
D3
LED, RED
Rx2-_C
DDC_CLK_C
DDC_DATA_D
RX2+_D
RX2-_D
RX1+_D
RX1-_D
RX0+_D
RX0-_D
RXC+_D
RXC-_D
Rx2+_C
HDMI_CONNECTOR
DDC_5V+_D
TX1-
20 RES_CAL
22
RES_EXT
RES_CAL
RES_EXT_1
3.3V
R37
15K
TX2TX1+
15
DDC_DATA_C
DDC_CLK_C
1
3
4
6
7
9
10
12
13
14
TX2+
R12
1.0K, 1%
AUTO_CH_SEL
HPD_C
R3
1K
5V+
1
3
4
6
7
9
10
12
13
14
ISLRESET
SDA
SCL
3.3V
CH_SEL_0
GND
RX2+_C
RX2-_C
RX1+_C
RX1-_C
RX0+_C
RX0-_C
RXC+_C
RXC-_C
J9
18
B
56
55
53
52
50
49
30
29
DDC_SEL0
DDC_SEL1
SDA
SCL
16
HDMI_CONNECTOR
DDC_5V+_C
I2C-ADDR2
I2C-ADDR1
87
86
84
83
81
80
90
89
TX2+
TX2TX1+
TX1TX0+
TX0TXC+
TXC-
Channel B
DDC_CLK_B
R36
15K
I2C-ADDR3
HDMI input
DDC_DATA_B
DDC_CLK_B
45
44
42
41
35
34
27
26
7
I2C-ADDR4
DDC_SEL0
DDC_SEL1
F3
FUSE - 500mA - fast
1206 size
Rx2-_B
Rx1-_B
I2C-ADDR5
D
Temination and micro controller (sheet 3)
Temination&micro rev B1
J11
Rx2+_B
Rx1+_B
I2C-ADDR6
69
70
SDA
SCL
RX2+_B
RX2-_B
RX1+_B
RX1-_B
RX0+_B
RX0-_B
RXC+_B
RXC-_B
CH_SEL_1
DDC_DATA_B
5
4
126
125
123
122
13
12
6
I2C-ADDR7
R6
510
66
HPb_off
TX2+
TX2TX1+
TX1TX0+
HP_DETECT TX0TXC+
GND
TXCGND
CEC
GND
NC
GND
GND
DDC_SCL
GND
GND
GND
DDC_SDA
GND
5
65
64
39
38
1
128
103
ADDR6
ADDR5
ADDR4
ADDR3
ADDR2
ADDR1
ADDR0
16
Not installed
SW1B
15
Not installed
SW1C
14
Not installed
SW1D
13
Not installed
SW1E
12
Not installed
SW1F
11
Not installed
SW1G
10
Not installed
SW1H
8
9
Not installed
6
DDC_CLK_TX
DDC_DATA_TX
A
Application Note 1453
HPD_B
R2
1K
5V+
1
3
4
6
7
9
10
12
13
14
Default I2C address is 0x00
(on Top side of PCB)
ISL54100
RX2+_A
RX2-_A
RX1+_A
RX1-_A
RX0+_A
RX0-_A
RXC+_A
RXC-_A
J8
18
GND
U1A
118
117
115
114
112
111
10
9
HDMI input
Channel A
16
HDMI_CONNECTOR
DDC_5V+_B
ISL54100
Rx1+_A
RxC+_B
R35
15K
A
65
39
DDC_DATA_A
DDC_CLK_A
C
Rx2+_A
PD
DDC_DATA_A
1
3
4
6
7
9
10
12
13
14
67
HPa_off
TX2+
TX2TX1+
TX1TX0+
HP_DETECT TX0TXC+
GND
TXCGND
CEC
GND
NC
GND
GND
DDC_SCL
GND
GND
GND
DDC_SDA
GND
2
11
R1
1K
5V+
68
GND
38
J7
18
R34
15K
5V
SW1A
HP_ACTIVE_LED
1
HP_ACTIVE_LED_OUT
102
1
1
128
2
Note:
All resistors are 5%, 0603 unless noted elsewise.
All capacitors are 10%, 0603, ceramic unless noted elsewise.
All LEDs are 1206 size unless noted elsewise.
ISL54100AHDMI-EVALZ Schematics (Continued)
1
2
3
4
5
6
3
POWERIN
5V
1
U3
4
VO
VIN
3
D9
BZX84C5V6
2
+
1
2
C5
C2
10uF
3216 size 0.1uF
10V 20%
R210
100K
REG_VDD 5
VDD
C6
GND
GND
0.1uF
R211
PGND
SGND
10
REG_FB
2
1
R80
30.1K, 1%
EL7532
GND
JP3
J4
Red Power ON LED
+
C7
22uF
3216 size
20% 6.3V
GND
R81
95.3K, 1%
1
2
3
4
LED, RED
J5
4 HEADER - not installed
J6
C10
2200pF
GND
GND
FIDUCIAL_PCB
SYM2
GND
SYM1
These 4 items are the 4 corner mountig holes.
RoHS symbol for PCB
LOGO_ROHS
1
C46
R22
0.033uF
3.3V
All 0.1uF and 0.01uF capacitors within this frame are 0402 size.
100
U1B
ISL54100
SOT23
8
11
14
C12
C14
2
TP18
TEST POINT
TP19
TP20
TEST POINT TEST POINT
TP22
TEST POINT
TP23
TEST POINT
TP24
TEST POINT
0.1uF
+
C3
10uF
3216 size
20% 10V
GND
C15
0.1uF
GND
C11
0.1uF
GND
C108
0.01uF
GND
C30
0.01uF
GND
0.1uF
17
18
25
28
31
58
C32
resistor (designation R?) added to boar
d and D19 removed to resolve DDC level requirement for HDMI compliance
15
16
19
C104
C13
0.1uF
C34
C36
0.1uF
VD16
VD19
GND17
GND18
VD25
VD28
VD31
VD58
GND
3
C23
C25
0.1uF
0.1uF
SOT23
C27
C29
0.1uF
0.1uF
4:1 Mux for DDC Channel CLK and DATA
1
110
113
116
119
121
124
127
3
6
C21
5V
C31
C33
0.1uF
2
0.1uF
U8
24
C35
0.1uF
GND24
VD110
VD113
VD116
VD119
VD121
VD124
VD127
VD3
VD6
C37
+
C4
10uF
3216 size
10V
20% GND
21
C16
23
GND15
0.1uF
0.1uF
VD21
GND23
0.1uF
2
TP17
TEST POINT
1
1
GND
TP15
TP16
TEST POINT TEST POINT
VD8
VD11
VD14
0.1uF
GND
3.3V
VD108
VD106
VD105
GND109
GND107
GND104
VD98
VD73
VD61
GND97
GND72
GND60
VD94
VD92
VD77
VD63
GND62
GND59
108
106
105
109
107
104
C18
C17
0.1uF
0.1uF
5
GND
ENABLE A
V+
17
0.1uF
94
92
77
63
GND
GND
C87
C81
0.1uF
C38
0.1uF
0.1uF
GND
GND
GND
C89
C88
C84
DDC_CLK_A
DDC_CLK_B
DDC_CLK_C
DDC_CLK_D
13
16
15
12
A0
A1
A2
A3
0.1uF
GND
COM_A
14
1
C90
0.1uF
2
CH_SEL_1
CH_SEL_0
R82
0 ohm
R83
0 ohm
DDC_SELECT1
DDC_SELECT0
8
10
11
9
B0
B1
B2
B3
ADD2B
ADD2A
ADD1A
ADD1B
COM_B
1
VGND
ISL43840
R26
DDC_SEL1
0 ohm
R28
DDC_SEL0
VDD DDC1
5
DDC_CLK_TX
0.1uF
N.C
C28
C91
0.1uF
C95
0.1uF
GND
DDC2
4
0.1uF
DDC_DATA_TX
AN1453.2
April 1, 2009
2
C102
C103
0.1uF
VD33
VD36
VD40
VD43
VD46
VD48
VD51
VD54
VD57
0.1uF
0.1uF
DDC Accelerator
18
GND
B
0.1uF
32
47
GND32
GND47
GND96
GND75
95
74
C86
C40
96
75
DIODE SCHOTTKY
1.0uF
1.0uF
D59
GND
GND
GND93
GND91
GND85
GND88
GND82
GND79
GND78
GND76
93
91
85
88
82
79
78
76
Power and GND for U1
GND
6
7
A
GND
DDC_SEL1
Title ISL54100AHDMI-EVALZ
Size: B
DDC_SEL0
0 ohm
1
C96
0.1uF
ISL54103
DDC_DATA_TX
GND
NC
C26
0.1uF
U12A
DDC_CLK_TX
VD95
VD74
GND7
GND120
33
36
40
43
46
48
51
54
57
C24
3
DDC_DATA_A 19
DDC_DATA_B 20
DDC_DATA_C 3
DDC_DATA_D 2
DDC_DATA_A
DDC_DATA_B
DDC_DATA_C
DDC_DATA_D
7
120
GND
ENABLE B
0.1uF
0.1uF
0.1uF
C39
62
59
GND
GND
0.1uF
C20
C22
DDC_CLK_A
DDC_CLK_B
DDC_CLK_C
DDC_CLK_D
C19
GND
98
73
61
97
72
60
0.1uF
4
C
3
4
FIGURE 24. ISL54100AHDMI-EVALZ POWER/DDC
Number:
- power/ddc
Revision:C
Intersil, Corp.
1001 Murphy Ranch Road
Milpitas, CA 95035
USA
Date: 25-Jan-2009
Sheet 2 of 3
Time: 19:11:48
File: C:\Temporary\ISL54100HDMI-EVALZ.revC.DDB - Documents\Schematic\Power and DDC lines
56
Application Note 1453
R23
210K
%
Intersil logo for PCB
LOGO_INTERSIL
GND
3
3
TP14
TEST POINT
D
D6
GND
Vo = 0.8(1+(R81/R80))
Vo = 0.8(1+(95.3K/30.1K))
Vo = 0.8(1+3.166)
Vo = 0.8(4.166)
Vo = 3.333
Q6
Si2323DS
FUSE - 1A - fast C8
1206 size
0.1uF
EN
PG
SYNC
GND
0 ohm
2
FB
7
8
6
REG_LED
1
12
GND
F4
3
LX
R21
0 ohm
R5
1K
L1
REG_LX
1.8uH
2
3
FIDUCIAL_PCB
FID3
J3
9
1
5V
DC POWER JACK
FIDUCIAL_PCB
3.3V
2
1POWERIN
2
J1
FID2
TP13
TEST POINT
SOT23
1
5V POWERINPUT
FID1
ISL54100AHDMI-EVALZ Schematics (Continued)
4
5
D8
PESD0402-060
D5
PESD0402-060
D13
PESD0402-060
D15
PESD0402-060
D24
PESD0402-060
D22
PESD0402-060
2
2
2
2
TX1-
2
TX1+
Rx2+_D
2
Rx2-_D
Rx2+_A
2
Rx2-_A
2
TX2-
2
TX2+
Rx1+_D
D26
PESD0402-060
6
D28
PESD0402-060
D32
PESD0402-060
D30
PESD0402-060
2
3
Rx1-_D
2
2
Rx1+_A
2
1
Rx1-_A
D34
PESD0402-060
D36
PESD0402-060
D
1
1
1
1
1
1
1
D29
PESD0402-060
1
D27
PESD0402-060
GND
GND
GND
GND
GND
GND
GND
GND
D33
PESD0402-060
D31
PESD0402-060
GND
GND
2
1
GND
2
GND
2
2
2
D25
PESD0402-060
D23
PESD0402-060
GND
D35
PESD0402-060
D37
PESD0402-060
1
D21
PESD0402-060
1
D14
PESD0402-060
GND
1
D12
PESD0402-060
D7
PESD0402-060
2
TXC-
2
Rx0+_D
2
Rx0+_A
2
TXC+
2
TX0-
2
13
TX0+
1
GND
Rx0-_D
1
GND
RxC+_D
Rx0-_A
2
GND
RxC-_D
RxC+_A
1
GND
RxC-_A
1
GND
1
1
GND
1
1
GND
1
1
GND
1
1
D
GND
GND
3.3V
Rx1-_B
GND
Rx1+_B
GND
Rx2-_B
Rx2+_B
R18
2
2
2
2
R17
1K
D39
PESD0402-060
D38
PESD0402-060
D40
PESD0402-060
C
1K
D41
PESD0402-060
D1
LED, RED
R7
1K
D2
LED, GREEN
R14
1K
SDA
SCL
1
1
1
1
3.3V
GND
GND
GND
GND
JP2
These 6 signals are kept to maintain
compatablity with prior firmware.
SDA_MP
SCL_MP
P0.7 is status LED on USB module board
RxC-_B
D46
PESD0402-060
4 HEADER - not installed
DDC_5V+_B
D48
PESD0402-060
32
31
30
29
28
27
26
25
1
2
3
4
U2
4 HEADER - not installed
1
1
1
GND
GND
GND
GND
5
6
Rx1-_C
Rx1+_C
2
1
D-conn
5V_USB_POWER
C1
2
2
2
2
D45
PESD0402-060
D47
PESD0402-060
1uF
0.1uF
VDDuC
Rx2+_C
D43
PESD0402-060
C9
D+conn
USB-TYPE_B
GND
Rx2-_C
4
3
1
2
3
4
5
6
7
8
C42
1uF
C41
0.1uF
5V
GND
R15
1K
3.3V
D4
BAV70
1
1
1
GND
GND
R27
1K
RxC-_C
Rx0+_C
C47
C48
1uF
0.1uF
GND
teststructures
Test structure
Reset_uC
C43
1
1
1
1
1uF
GND
GND
GND
GND
POWER_DOWN connection added for micro-controller
to detect ISL54100 power down condition
ISLRESET
DDC_SEL1
DDC_SEL0
C44
2
4
6
8
10
1
3
5
7
9
R16
1K
A
JTAG HEADER
0.1uF
GND
SW3
SW-PB (BS3-1000)
GND
Title ISL54100AHDMI-EVALZ
Size:
GND
AN1453.2
April 1, 2009
1
2
B
J2
GND
D53
PESD0402-060
A
ISLRESET
C2D
2
2
2
2
2
1
D52
PESD0402-060
TEST POINT
POWER_DOWN
HPd_off
HPc_off
HPb_off
HPa_off
R29
open
SOT23
Rx0-_C
D51
PESD0402-060
TP3
HP3
DDC_SEL1
DDC_SEL0
RxC+_C
D50
PESD0402-060
TEST POINT
TP1
TEST POINT
2
3
DDC_5V+_D
3
1
1
GND
P1.2
P1.3
P1.4
P1.5
P1.6
P1.7
P2.0
P2.1
GND
D49
PESD0402-060
GND
P0.1
P0.0
GND
D+
DVDD
REGIN
VBUS
TP2
DDC_5V+_C
24
23
22
21
20
19
18
17
9
10
11
12
13
14
15
16
1
J12
GND
D+
SHELL
SHELL
D5V+
C8051F320
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
P1.0
P1.1
2
2
2
2
D44
PESD0402-060
D42
PESD0402-060
JP1
P0.3 is NSS for SPI bus on USB module board
P0.2 is MOSI for SPI bus on USB module board
P0.1 is MISO for SPI bus on USB module board
P0.0 is SCK for SPI bus on USB module board
Rx0+_B
1
2
3
4
0 ohm
GND
/RST/C2CK
P3.0/C2D
P2.7
P2.6
P2.5
P2.4
P2.3
P2.2
Rx0-_B
SDA
SCL
0 ohm
R84
DDC_5V+_A
P0.6 is status LED on USB module board
RxC+_B
B
R85
3
4
B
Number:
- ESD/uC
Revision: C
Intersil, Corp.
1001 Murphy Ranch Road
Milpitas, CA 95035
USA
Date: 25-Jan-2009
Sheet 3 of 3
Time: 19:12:07
File: C:\Temporary\ISL54100HDMI-EVALZ.revC.DDB - Documents\Schematic\ESD and uController
5
FIGURE 25. ISL54100AHDMI-EVALZ ESD/MICROCONTROLLER
6
Application Note 1453
C
ISL54105ACRZ-EVALZ Schematics
1
2
3
4
5
6
CEC
DDC_SCL
DDC_SDA
HP_DETECT
TP7
TP8
R4
1.8K
R5
1.8K
D
D
HDMI spec dictates the capacitance to GND
on DDC_SDA or DDC_SCL < 50pF
5V
14
U1
HDMI Input
5V_DDC
CEC
15
DDC_SCL
16
DDC_SDA
39
1
34
36
55
58
62
64
67
68
70
71
72
HDMI_CONNECTOR
3.3V
This section is for bypass caps on the ISL54105A
(All 0.1uF capacitors under this frame are 0402 size)
C6
C1
4.7uF
1206 size
GND20% 10V
C10
0.1uF
0.1uF
GND
C7
GND
0.1uF
GND
C13
0.1uF
C11
0.1uF
B
3
4
5
6
8
10
13
14
17
21
24
27
28
29
30
31
35
40
42
51
52
54
59
60
61
63
65
GND
C14
0.1uF
GND
C15
C18
0.1uF
0.1uF
GND
C8
GND
C19
0.1uF
GND
0.1uF
GND
C20
C22
0.1uF
0.1uF
GND
C21
0.1uF
GND
GND
C12
0.1uF
GND
GND
D59
If a company will attempt HDMI qualification,
schottky diode D59 is critical--it will reduce
leakage when the ISL54105A is powered off.
41
53
C9
0.1uF
RX2+
RX2RX1+
RX1RX0+
RX0RXC+
RXC-
ADDR6
ADDR5
ADDR4
ADDR3
ADDR2
ADDR1
ADDR0
33
32
20
19
69
66
57
Device will respond to I2C address 0x00
HDMI Output
GND
TEST (NC)
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
TX2+
TX2TX1+
TX1TX0+
TX0TXC+
TXC-
48
47
46
45
44
43
50
49
CEC
R11
1K; 1%
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
VD
RES_TERM
RES_BIAS
5V_DDC
J10
TX2+
TX2TX1+
TX1TX0+
TX0TXC+
TXC3.3V
7
RES_TERM
9
RES_BIAS
C5
0.01uF
1
3
4
6
7
9
10
12
13
14
DDC_SCL
15
DDC_SDA
16
TX2+
5V+
TX2TX1+
TX1TX0+
TX0- HP_DETECT
TXC+
TXCGND
CEC
GND
NC
GND
GND
DDC_SCL
GND
GND
GND
DDC_SDA
GND
GND
18
C
19
HP_DETECT
2
5
8
11
17
20
21
22
23
HDMI_CONNECTOR
GND
R12
3.16K; 1%
LED illuminated when source is active
GND
ACTIVE
56
ACTIVE
R32
1K
LED_ACTIVE
D2
LED, RED
B
Notes:
All discrete Resistors and Capacitors are
0603 size unless noted otherwise.
GND
PD
RESET
VD_ESD
VD_ESD
C16
0.1uF
2
GND
18
ISLRESET
All Resistors are 5% tolerance unless
noted otherwise.
37
38
SDA
SCL
All Capacitors are 20% tolerance unless
noted otherwise.
GND
GND
uC & power.dsn
All capacitors are Ceramic unless noted
otherwise.
3.3V
J2
1
2
3
4
73
GND
SDA
SCL
GND (pad)
GND
26
25
23
22
16
15
12
11
RX2+
Rx2Rx1+
Rx1Rx0+
Rx0RxC+
RxC-
GND
4 HEADER - not installed
SCL_MP
SDA_MP
ISLRESET
SCL_MP
SDA_MP
SCL
SDA
GND
ISLRESET
A
A
AN1453.2
April 1, 2009
1
2
3
4
FIGURE 26. ISL54105ACRZ-EVALZ MAIN
Title ISL54105ACRZ-EVALZ
- main
Size: B
Revision: B
Number:
Intersil, Corp.
1001 Murphy Ranch Rd
Milpitas, CA 95035
USA
Date: 22-Oct-2008
Sheet 1 of 2
Time: 19:38:24
File: C:\Temporary\ISL54105ACRZ-EVALZ.revB.ddb - Documents\ISL54105ACRZ-EVALZ.revB.dsn
5
6
Application Note 1453
TX2+
TX2TX1+
TX1TX0+
HP_DETECT TX0TXC+
GND
TXCGND
CEC
GND
NC
GND
GND
DDC_SCL
GND
GND
GND
DDC_SDA
GND
2
5
8
11
17
20
21
22
23
C
1
3
4
6
7
9
10
12
13
14
5V+
HP_DETECT19
C3
4.7uF
1206 size
GND20% 10V
ISL54105
J9
18
ISL54105ACRZ-EVALZ Schematics (Continued)
1
2
3
4
D1
*U2* V_out = 3.3V @
750mA; V_dropout=260mV
U2
GND
5V POWERINPUT
J1
3
D
1
2
3
4
2.0ohm - 0.5W
R1
5V
1
TP1
GND
LED, GREEN
TPS77833
GND
EN
IN
IN
6
5
PG pin is high-Z when power is good (LED D1 turns on)
PG pin is GND when power is outside spec (LED D1 turns off)
8
7
6
5
PG
NC
OUT
OUT
R19
PG
1K
1
3.3V_b4header
2
JP2
JUMPER-2 HEADER
C4
10uF
LDO_in
3.3V
D
2
DC POWER JACK
C2
10uF
GND
GND
15
TP2
TEST POINT
GND
TP3
TEST POINT
TP4
TEST POINT
TP5
TEST POINT
TP6
TEST POINT
GND
GND
3.3V
D4
LED, GREEN
R33
1K
R34
1K
C
R18
SDA_MP
SCL_MP
SDA_MP
SCL_MP
3.3V
4
3
2
1
1K
4
3
2
1
J3
RP3
1K resistor pack
5
6
7
8
32
31
30
29
28
27
26
25
5
6
7
8
1
2
3
4
J3 - For future use
SW3
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
P1.0
P1.1
4 HEADER - not installed
1
4
3
6
BIT0
BIT1
VDD_uC
C93
1uF
USB-TYPE_B
C94
1uF
R35
1K
B
BIT4
2
4
6
8
10
1
2
3
4
5
6
J11 - For future use
JTAG HEADER
1
4
3
6
J11
1
2
3
4
5
6
HEADER_6
ISLRESET
Reset_uC
2
5
RP4
1K resistor pack
BIT0
BIT1
BIT2
BIT3
Rotary switches - use RTE1601N44 or 94HBB16T
CM1
GND
2
5
Tx Pre-Emphasis
HEX_SW_ROTARY_ITT_RTE
GND
B
FID1
RoHS symbol for PCB
LOGO_ROHS
ISLRESET
FIDUCIAL_PCB
5V
<-- 5V power goes into REGIN, not VDD
FID2
J5
SW2
Push-button switch (SMT)
SYM2
Intersil logo for PCB
LOGO_INTERSIL
J4
Reset_uC_JTAG
SYM1
3.3V
1K
GND
C99
1uF
Tx EQ
SW4
BIT7
C2D
R36
CM1
GND
BIT6
9
10
11
12
13
14
15
16
GND
BIT0
BIT1
BIT2
BIT3
HEX_SW_ROTARY_ITT_RTE
BIT5
GND
J8
1
3
5
7
9
C8051F320
BIT3
8
7
6
5
USB_5V_PC
U4
P1.2
P1.3
P1.4
P1.5
P1.6
P1.7
P2.0
P2.1
8
7
6
5
USB_D(+)_uC
USB_D(-)_uC
2
1
P0.1
P0.0
GND
D+
DVDD
REGIN
VBUS
BIT2
1
2
3
4
4
3
24
23
22
21
20
19
18
17
1
2
3
4
5
6
GND
D+
SHELL
SHELL
D5V+
/RST/C2CK
P3.0/C2D
P2.7
P2.6
P2.5
P2.4
P2.3
P2.2
1
2
3
4
5
6
7
8
CON3
SYM3
C92
1uF
FIDUCIAL_PCB
Intersil logo for 4 layer PCB
4-layer
J6
GND
GND
FID3
SYM4
No Pb symbol for PCB
No_Pb
FIDUCIAL_PCB
SYM5
Power symbol for PCB
Power logo
GND
J7
Normally open - momentary contact
GND
A
A
These 4 items are the 4 corner mountig holes.
AN1453.2
April 1, 2009
1
2
3
4
Title ISL54105ACRZ-EVALZ
- power/uC
Size: B
Revision: B
Number:
These items are for PCB assembly and legend
Intersil, Corp.
1001 Murphy Ranch Rd
Milpitas, CA 95035
USA
Date: 22-Oct-2008
Sheet 2 of 2
Time: 19:38:24
File: C:\Temporary\ISL54105ACRZ-EVALZ.revB.ddb - Documents\uC & power.dsn
5
FIGURE 27. ISL54105ACRZ-EVALZ POWER/MICROCONTROLLER
6
Application Note 1453
C
Application Note 1453
TABLE 6. ISL54100HDMI-EVALZ BILL OF MATERIALS
PART NUMBER
REFERENCE
DESIGNATOR
QTY UNITS
ISL54100HDMIEVALZRVCPCB
1
ea
H1044-00103-25V10-T
2
ea
H1044-00104-25V10-T
40
H1044-00104-25V10-T
DESCRIPTION
MANUFACTURER
MANUFACTURER
PART
PWB-PCB, ISL54100HDMI-EVALZ, TBD
RVC, ROHS
ISL54100HDMIEVALZRVCPCB
C104, C108
CAP, SMD, 0402, 0.01µF, 25V,
10%, X7R, ROHS
AVX
04023C103KAT
ea
C11-C19, C21-C39,
C81, C84, C87-C89,
C91
CAP, SMD, 0402, 0.1µF, 25V,
10%, X5R, ROHS
TDK
C1005X5R1E104K
0
ea
C95, C96, C102, C103 CAP, SMD, 0402, 0.1µF, 25V,
10%, X5R, ROHS
TDK
C1005X5R1E104K
H1045-00104-25V10-T
9
ea
C5, C6, C8, C20, C41, CAP, SMD, 0603, 0.1µF, 25V,10%,
C42, C44, C48, C90
X7R, ROHS
MURATA
GRM39X7R104K025AD
H1045-00105-25V10-T
6
ea
C1, C9, C40, C43,
C47, C86
CAP, SMD, 0603, 1µF, 25V, 10%,
X5R, ROHS
MURATA
GRM188R61E105KA12D
H1045-00222-50V10-T
1
ea
C10
CAP, SMD, 0603, 2200pF,
50V,10%, X7R, ROHS
PANASONIC
ECJ-1VBH222K
H1045-00333-25V10-T
1
ea
C46
CAP, SMD, 0603, 33000pF, 25V,
10%, X7R, ROHS
PANASONIC
ECJ-1VB1E333K
H1065-00106-10V10-T
4
ea
C2-C4, C45
CAP, SMD, 1206, 10µF, 10V,
10%, X7R, ROHS
VENKEL
C1206X7R100-106KNE
H1065-00226-6R3V10-T
1
ea
C7
CAP, SMD, 1206, 22µF, 6.3V,
10%, X5R, ROHS
MURATA
GRM31CR60J226KE19L
1008PS-182KLB
1
ea
L1
COILCRAFT
COIL-PWR INDUCTOR, SMD,
3.8mm, 1.8µH, 10%, 2.1A, 225MHz,
SHIELDED
1008PS-182K
47151-1001
5
ea
J7-J11
CONN-HDMI HEADER ASSY,
SMD, 19P, RECEPT., R/A, ROHS
MOLEX
47151-1001
61729-0010BLF
1
ea
J12
CONN-USB TYPE B,
RECEPTACLE, PCB MOUNT, R/A,
ROHS
FCI
61729-0010BLF
90131-0125
1
ea
J2
CONN-HEADER, TH, 2X5, 2.54mm, MOLEX
TIN, STRAIGHT, ROHS
90131-0125
PJ-202A
1
ea
J1
CONN-POWER JACK, BLACK,
2.1mm, PCB MNT, R/A, ROHS
CUI, INC
PJ-202A
BAV70-TP
1
ea
D4
DIODE-DUAL SWITCHING, SMD,
SOT23, 3P, 75V, 350mW, ROHS
MICRO
BAV70-TP
COMMERCIAL CO.
BZX84C5V6LT1G-T
1
ea
D9
DIODE-ZENER, SMD, SOT23, 5.6V, ON
BZX84C5V6LT1G
225mW, ROHS
SEMICONDUCTOR
NSR0320MW2T1G-T
1
ea
D59
DIODE-SCHOTTKY BARRIER,
ON
NSR0320MW2T1G
SMD, 2P, SOD-323, 20V, 1A, ROHS SEMICONDUCTOR
597-3111-407F-T
3
ea
D1 D3 D6
LED, SMD, 1206, RED, 30mA,
60mW, 17mcd, ROHS
DIALIGHT
597-3111-407F
597-3311-407F-T
7
ea
D2, D10, D11,
D16-D18, D20
LED, SMD, 1206, GREEN, 75mW,
3mcd, Pb-Free
DIALIGHT
597-3311-407F
C1Q-1
1
ea
F4
FUSE, SMD, 1206, 1A, 125V,
0.21W, VERY FAST-ACTING,
ROHS
BEL FUSE INC.
C1Q-1
C1Q-500
1
ea
F3
FUSE, SMD, 1206, 0.5A, 125V,
0.14W, VERY FAST-ACTING,
ROHS
BEL FUSE INC.
C1Q-500
16
AN1453.2
April 1, 2009
Application Note 1453
TABLE 6. ISL54100HDMI-EVALZ BILL OF MATERIALS (Continued)
PART NUMBER
REFERENCE
DESIGNATOR
QTY UNITS
DESCRIPTION
MANUFACTURER
MANUFACTURER
PART
C8051F320-GQ
1
ea
IC-USB MICROCONTROLLER,
U2
(Program by Engineer 32P, LQFP, 10-BIT, 25MIPS, ROHS
after installation)
SILICON
LABORATORIES
C8051F320-GQ
EL7532IYZ
1
ea
U3
IC-2A STEP-DOWN REGULATOR,
10P, MSOP, MONOLITHIC
INTERSIL
EL7532IY
ISL43840IRZ
1
ea
U8
IC-DUAL MULTIPLEXER ANALOG
SWITCH, 20P, QFN, 4X4, ROHS
INTERSIL
ISL43840IRZ
ISL54100CQZ
1
ea
U1
IC-TMDS REGENERATOR,128P,
MQFP, ROHS
INTERSIL
ISL54100CQZ
ISL54103IHZ
1
ea
U12
IC-DDC ACCELERATOR, 5P,
SOT-23, ROHS
INTERSIL
ISL54103IHZ
PESD0402-060-T
40
ea
D5, D7, D8, D12-D15,
D21-D53
TVS-ZENER DIODE, ESD
PROTECTOR, SMD, 0402, 6V,
ROHS
TYCO
ELECTRONICS
RAYCHEM
PESD0402-060
MMUN2211LT1G-T
7
ea
Q1-Q5, Q30, Q31
TRANSISTOR-NPN, BIAS
RESISTOR, SOT23, 50V,
100mA, ROHS
ON
MMUN2211LT1G
SEMICONDUCTOR
SI2323DS-T1-E3
1
ea
Q6
TRANSIST-MOS, P-CHANNEL,
SMD, SOT23, -20V, -3.7A, ROHS
VISHAY
SI2323DS-T1-E3
H2510-01001-1/16W1-T
1
ea
R12
RES, SMD, 0402, 1k, 1/16W, 1%,
TF, ROHS
VENKEL
CR0402-16W-102JT
H2510-03161-1/16W1-T
1
ea
R13
RES, SMD, 0402, 3.16k, 1/16W, 1%, VENKEL
TF, ROHS
H2511-00R00-1/10W-T
8
ea
R21, R26, R28,
R82-R85, R211
RESISTOR, SMD, 0603, 0Ω, 1/10W,
TF, ROHS
H2511-01000-1/10W5-T
1
ea
R22
RES, SMD, 0603,100Ω, 1/10W, 5%, PANASONIC
TF, ROHS
ERJ-3GSYJ101V
H2511-01001-1/10W5-T
12
ea
R1-R5, R7, R14-R18,
R27
RES, SMD, 0603, 1k, 1/10W, 5%,
TF, ROHS
MCR03EZPJ102
H2511-01003-1/10W5-T
1
ea
R210
RES, SMD, 0603, 100k, 1/10W, 5%, YAGEO
TF, ROHS
9C06031A1003JLHFT
H2511-01502-1/10W5-T
4
ea
R34-R37
RES, SMD, 0603,15k,1/10W, 5%,
TF, ROHS
ERJ-3GEYJ153V
H2511-02103-1/10W1-T
1
ea
R23
RES, SMD, 0603, 210k, 1/10W, 1%, VENKEL
TF, ROHS
CR0603-10W-2103FT
H2511-03012-1/10W1-T
1
ea
R80
RESISTOR, SMD, 0603, 30.1k,
1/10W, 1%, TF, ROHS
CR0603-10W-3012FT
H2511-05100-1/10W5-T
9
ea
R6, R8-R11, R19,
R20, R190, R200
RES, SMD, 0603, 510Ω, 1/10W, 5%, VENKEL
TF, ROHS
CR0603-16W-511JT
H2511-09532-1/10W1-T
1
ea
R81
RES, SMD, 0603, 95.3k, 1/10W, 1%, VENKEL
TF, ROHS
CR0603-10W-9532FT
206-4
1
ea
SW6
SWITCH, TH, DIP, 4P, RAISED,
TOP ACTUATED, SPST, ROHS
CTS
206-4
B3S-1000
1
ea
SW3
SWITCH-TACTILE, PUSH, SMD,
6mm, SPST, MOM, 160gf, ROHS
OMRON
B3S-1000
4-40X1/2-SCREW
4
ea
Four corners
SCREW, 4-40X1/2in, PAN,
NYLON, PHILLIPS, ROHS
4-40X3/4-STANDOFF
4
ea
Four corners
STANDOFF, 4-40X3/4in, F/F, HEX,
NYLON
KEYSTONE
1902D
17
ROHM
PANASONIC
VENKEL
CR0402-16W-3161FT
AN1453.2
April 1, 2009
Application Note 1453
TABLE 6. ISL54100HDMI-EVALZ BILL OF MATERIALS (Continued)
PART NUMBER
QTY UNITS
REFERENCE
DESIGNATOR
DESCRIPTION
10X12-STATIC-BAG
1
ea
Place assy in bag
BAG, STATIC,10X12, ZIP LOC
DNP
0
ea
D54-D57
DO NOT POPULATE OR
PURCHASE
DNP
0
ea
J13-J18
DO NOT POPULATE OR
PURCHASE
DNP
0
ea
JP1-JP3
DO NOT POPULATE OR
PURCHASE
DNP
0
ea
R24, R25, R29-R33
DO NOT POPULATE OR
PURCHASE
DNP
0
ea
SW1
DO NOT POPULATE OR
PURCHASE
DNP
0
ea
TP1-TP3, TP13-TP20, DO NOT POPULATE OR
TP22-TP24
PURCHASE
LABEL-SERIAL NUMBER
1
ea
18
MANUFACTURER
INTERSIL
MANUFACTURER
PART
212403-015
LABEL, FOR SERIAL NUMBER
AND BOM REV #
AN1453.2
April 1, 2009
Application Note 1453
TABLE 7. ISL54105ACRZ-EVALZ BILL OF MATERIALS
PART NUMBER
REFERENCE
DESIGNATOR
QTY UNITS
ISL54105ACRZEVALZRVBPCB
1
ea
H1044-00103-25V10-T
1
ea
H1044-00104-25V10-T
16
H1045-00105-25V10-T
DESCRIPTION
MANUFACTURER
MANUFACTURER
PART
PWB-PCB, ISL54105ACRZ-EVALZ,
REVB, ROHS
GORILLA
CIRCUITS INC.
ISL54105ACRZEVALZRVBPCB
C5
CAP, SMD, 0402, 0.01µF, 25V, 10%,
X7R, ROHS
AVX
04023C103KAT
ea
C6-C16, C18-C22
CAP, SMD, 0402, 0.1µF, 25V, 10%,
X5R, ROHS
TDK
C1005X5R1E104K
4
ea
C92, C93, C94, C99
CAP, SMD, 0603, 1µF, 25V, 10%,
X5R, ROHS
MURATA
GRM188R61E105KA1
2D
H1065-00106-25V10-T
2
ea
C2, C4
CAP, SMD, 1206, 10µF, 25V, 10%,
X5R, ROHS
VENKEL
C1206X5R250-106KNE
H1065-00475-25V10-T
2
ea
C1, C3
CAP, SMD, 1206, 4.7µF, 25V, 10%,
X5R, ROHS
KEMET
C1206C475K3PACTU
500254-1927
2
ea
J9, J10
CONN-HDMI RECEPTACLE, SMD,
15x12, 19P, R/A, ROHS
MOLEX
500254-1927
61729-0010BLF
1
ea
CON3
CONN-USB TYPE B, RECEPTACLE,
PCB MOUNT, R/A, ROHS
FCI
61729-0010BLF
68000-236-1X4
0
ea
DNP (J2, J3)
CONN-HEADER, 1X4, BRKAWY
1X36, 2.54mm, ST
BERG/FCI
68000-236
68000-236-1X6
0
ea
DNP (J11)
CONN-HEADER, 1X6, BRKAWY
1X36, 2.54mm, ST
BERG/FCI
68000-236
69190-202HLF
1
ea
JP2
CONN-HEADER, 1X2, RETENTIVE,
2.54mm, ST, ROHS
BERG/FCI
69190-202HLF
90131-0125
1
ea
J8
CONN-HEADER, TH, 2X5, 2.54mm,
TIN, STRAIGHT, ROHS
MOLEX
90131-0125
PJ-202A
1
ea
J1
CONN-POWER JACK, BLACK,
2.1mm, PCB MNT, R/A, ROHS
CUI, INC
PJ-202A
SPC02SYAN
1
ea
JP2
CONN-JUMPER, SHORTING, 2PIN,
BLACK, GOLD, ROHS
SULLINS
SPC02SYAN
NSR0320MW2T1G-T
1
ea
D59
DIODE-SCHOTTKY BARRIER, SMD, ON
NSR0320MW2T1G
2P, SOD-323, 20V, 1A, ROHS
SEMICONDUCTOR
597-3111-407F-T
1
ea
D2
LED, SMD, 1206, RED, 30mA, 60mW, DIALIGHT
17mcd, ROHS
597-3111-407F
597-3311-407F-T
2
ea
D1, D4
LED, SMD, 1206, GREEN, 75mW,
3mcd, Pb-Free
DIALIGHT
597-3311-407F
C8051F320-GQ
1
ea
U4
IC-USB MICROCONTROLLER, 32P,
LQFP, 10-BIT, 25MIPS, ROHS
SILICON
LABORATORIES
C8051F320-GQ
ISL54105ACRZ
1
ea
U1
IC-TMDS REGENERATOR, 72P,
QFN, 10x10, ROHS
INTERSIL
ISL54105ACRZ
TPS77833D
1
ea
U2
IC-LDO REGULATOR, 8P, SOIC,
POS.FIXED, 3.3V, 750mA, ROHS
TEXAS
INSTRUMENTS
TPS77833D
742C083102JPTR
2
ea
RP3, RP4
RES ARRAY, SMD, 0603,1k, 1/16W,
5%, 4 RES, ISOLATED, ROHS
CTS
742C083102JPTR
H2510-01001-1/16W1-T
1
ea
R11
RES, SMD, 0402, 1k, 1/16W, 1%, TF,
ROHS
VENKEL
CR0402-16W-102JT
H2510-03161-1/16W1-T
1
ea
R12
RES, SMD, 0402, 3.16k, 1/16W, 1%,
TF, ROHS
VENKEL
CR0402-16W-3161FT
H2511-01001-1/10W1-T
7
ea
R18, R19, R32-R36
RES, SMD, 0603, 1k, 1/10W, 1%, TF,
ROHS
KOA
RK73H1JTTD1001F
19
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Application Note 1453
TABLE 7. ISL54105ACRZ-EVALZ BILL OF MATERIALS (Continued)
PART NUMBER
REFERENCE
DESIGNATOR
QTY UNITS
DESCRIPTION
MANUFACTURER
MANUFACTURER
PART
H2511-01801-1/10W1-T
2
ea
R4, R5
RES, SMD, 0603,1.8k, 1/10W,1%, TF, VENKEL
ROHS
CR0603-10W-1801FT
H2513-00020-1/2W1-T
1
ea
R1
RES, SMD, 1206, 2Ω,1/2W,1%, TF,
ROHS
SUSUMU
RL1632R-2R00-F
94HBB16T
2
ea
SW3, SW4
SWITCH-ROTARY DIP, TH, 16POS,
SPDT, HEXADECIMAL, ROHS
GRAYHILL
94HBB16T
B3S-1000
1
ea
SW2
SWITCH-TACTILE, PUSH, SMD,
6mm, SPST, MOM, 160gf, ROHS
OMRON
B3S-1000
4-40X1/2-SCREW
4
ea
Four corners
SCREW, 4-40X1/2in, PAN, NYLON,
PHILLIPS, ROHS
4-40X3/4-STANDOFF
4
ea
Four corners
STANDOFF, 4-40X3/4in, F/F, HEX,
NYLON
KEYSTONE
1902D
5X8-STATIC-BAG
1
ea
Place assy in bag
BAG, STATIC, 5X8, ZIP LOC
INTERSIL
212403-013
DNP
0
ea
TP1-TP8
DO NOT POPULATE OR PURCHASE
LABEL-SERIAL
NUMBER
1
ea
20
LABEL, FOR SERIAL NUMBER AND
BOM REV #
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ISL54100AHDMI-EVALZ Layout
21
Application Note 1453
FIGURE 28. TOP SILK SCREEN
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Application Note 1453
ISL54100AHDMI-EVALZ Layout (Continued)
FIGURE 29. TOP LAYER, TOP SOLDER MASK AND TOP PASTE
22
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Application Note 1453
ISL54100AHDMI-EVALZ Layout (Continued)
FIGURE 30. TOP OVERLAY
23
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Application Note 1453
ISL54100AHDMI-EVALZ Layout (Continued)
FIGURE 31. BOTTOM LAYER, BOTTOM SOLDER MASK AND BOTTOM PASTE
24
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Application Note 1453
ISL54100AHDMI-EVALZ Layout (Continued)
FIGURE 32. BOTTOM OVERLAY
25
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Application Note 1453
ISL54100AHDMI-EVALZ Layout (Continued)
FIGURE 33. INTERNAL PLANE 1
26
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Application Note 1453
ISL54100AHDMI-EVALZ Layout (Continued)
FIGURE 34. INTERNAL PLANE 2
27
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ISL54105ACRZ-EVALZ Layout
28
Application Note 1453
FIGURE 35. TOP SILK SCREEN
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ISL54105ACRZ-EVALZ Layout
(Continued)
29
Application Note 1453
FIGURE 36. TOP OVERLAY AND MECHANICAL LAYER 2
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Application Note 1453
ISL54105ACRZ-EVALZ Layout (Continued)
FIGURE 37. TOP LAYER AND TOP PASTE
30
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ISL54105ACRZ-EVALZ Layout (Continued)
31
Application Note 1453
FIGURE 38. INTERNAL PLANE 1 AND MECHANICAL LAYER 2
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ISL54105ACRZ-EVALZ Layout (Continued)
32
Application Note 1453
FIGURE 39. INTERNAL PLANE 2 AND MECHANICAL LAYER 2
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ISL54105ACRZ-EVALZ Layout (Continued)
33
Application Note 1453
FIGURE 40. BOTTOM OVERLAY AND MECHANICAL LAYER 2
AN1453.2
April 1, 2009
Application Note 1453
ISL54105ACRZ-EVALZ Layout (Continued)
FIGURE 41. BOTTOM LAYER AND BOTTOM PASTE
Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without notice. Accordingly, the reader is cautioned to
verify that the Application Note or Technical Brief is current before proceeding.
For information regarding Intersil Corporation and its products, see www.intersil.com
34
AN1453.2
April 1, 2009
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