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SiI 141B PanelLink Digital Receiver
General Description
The SiI 141B uses PanelLink Digital technology to support displays ranging from VGA to High Refresh XGA (25-86 MHz), which is ideal for LCD desktop monitor applications. With a flexible single or dual pixel out interface and selectable output drive, the SiI 141B receiver supports up to true color panels (24 bit/pixel, 16.7M colors) in 1 pixel/clock mode (18 bit/pixel in 2 pixel/clock mode). PanelLink also features an inter-pair skew tolerance up to 1 full input clock cycle. The SiI 141B is pin for pin compatible with the SiI 141 but incorporates a number of enhancements. These include an improved jitter tolerant PLL design, new HSYNC filter and power down when the clock is inactive. All PanelLink products are designed on a scaleable CMOS architecture to support future performance requirements while maintaining the same logical interface. System designers can be assured that the interface will be fixed through a number of technology and performance generations. PanelLink Digital technology simplifies PC design by resolving many of the system level issues associated with high-speed digital design, providing the system designer with a digital interface solution that is quicker to market and lower in cost.
(R)
May 2001 Features
* * * * * * * * Scaleable Bandwidth: 25-86 MHz (VGA to High Refresh XGA) Low Power: 3.3V core operation & power-down mode Automatic power down when clock is inactive High Skew Tolerance: 1 full input clock cycle (15ns at 65 MHz) Pin-compatible with SiI 101, SiI 141 Sync Detect: for Plug & Display "Hot Plugging" Cable Distance Support: over 5m with twisted-pair, fiber-optics ready Compliant with DVI 1.0 (DVI is backwards compatible with VESA(R) P&DTM and DFP)
SiI 141B Pin Diagram
24-bit Input Data for 1-pixel/clock mode
8-bit Channel 2 Data 1-pixel/clock 8-bit Channel 1 Data 1-pixel/clock 8-bit Channel 0 Data 1-pixel/clock
18-bit Even Data for 2-pixel/clock mode
6-bit Odd Channel 0 Data 2-pixel/clock ODCK GND VCC Q19 Q18 6-bit Even Channel 2 Data 2-pixel/clock Q17 Q16 Q15 Q14 Q13 Q12 Q11 6-bit Even Channel 1 Data 2-pixel/clock OGND OVCC Q10 Q9 Q8 Q7 Q6 Q5
18-bit Odd Data for 2-pixel/clock mode
DE Q20 Q21 Q22 Q23 OGND Q24 6-bit Odd Channel 1 Data 2-pixel/clock OVCC Q25 VCC Q26 Q27 Q28 Q29 6-bit Odd Channel 2 Data 2-pixel/clock Q30 Q31 Q32 Q33 Q34 Q35
41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 75 68 62 71 66 72 74 77 61 63 69 64 67 76 65 70 73 78 79 80
20 19 18 17 16 15 14 13
Q4 Q3 Q2 Q1 Q0
OVCC VSYNC OGND HSYNC GND CTL3 CTL2 CTL1 SCDT DFO PIXS OGND PDO PD RESERVED GENERAL PURPOSE CONTROL CONTROL
SII141B
80-Pin TQFP
(Top View)
12 11 10 9 8 7 6 5 4 3 2 1
AGND
AGND
HSYNC_DEJTR
DIFFERENTIAL SIGNAL
OCK_INV
PGND
GND
AVCC
AVCC
EXT_RES
RXC+
PVCC
VCC
RX2+
RX1+
RX0+
RXC-
RX2-
RX1-
RX0-
ST
MISC.
Subject to Change without Notice
6-bit Even Channel 0 Data 2-pixel/clock
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
SiI 141B Functional Block Diagram
ST PIXS DFO OCK_INV PDO HSYNC_DEJTR EXT_RES Termination Control 8 RX2+ RX2VCR DATA RECOVERY CH2 CLT3 CLT2 DE2 24/36
SiI-DS-0037-C
Q[35:0/23:0] ODCK DE HSYNC PANEL INTERFACE LOGIC
8 RX1+ RX1VCR DATA RECOVERY CH1 INTERCHANNEL SYNC. CLT1 DECODER PLL_SYNC DE1
VSYNC
SCDT
8 RX0+ VCR RX0DATA RECOVERY CH0 VSYNC HSYNC DE0 CLT1 CLT2 CLT3
RXC+ VCR RXCPLL
Absolute Maximum Conditions
Note: Permanent device damage may occur if absolute maximum conditions are exceeded. Functional operation should be restricted to the conditions described under Normal Operating Conditions. Symbol Parameter Min Typ Max Units VCC Supply Voltage 3.3V -0.3 4.0 V VI Input Voltage -0.3 VCC+ 0.3 V VO Output Voltage -0.3 VCC+ 0.3 V TA Ambient Temperature (with power applied) -25 105 C TSTG Storage Temperature -65 150 C Thermal Resistance (Junction to Ambient) 45 C /W JA
Normal Operating Conditions
Symbol VCC VCCN TA Parameter Supply Voltage Supply Voltage Noise Ambient Temperature (with power applied) Min 3.0 0 Typ 3.3 25 Max 3.6 100 70 Units V mVP-P C
DC Digital I/O Specifications
Under normal operating conditions unless otherwise specified. Symbol Parameter Conditions Min Typ Max Units VIH High-level Input Voltage 2 V VIL Low-level Input Voltage 0.8 V VOH High-level Output Voltage 2.4 V VOL Low-level Output Voltage 0.4 V VCINL Input Clamp Voltage1 ICL = -18mA GND -0.8 V VCIPL Input Clamp Voltage1 ICL = 18mA IVCC + 0.8 V VCONL Output Clamp Voltage1 ICL = -18mA GND -0.8 V VCOPL Output Clamp Voltage1 ICL = 18mA OVCC + 0.8 V IIL Input Leakage Current -10 10 A Note: 1 Guaranteed by design. Voltage undershoot or overshoot cannot exceed absolute maximum conditions for a pulse of greater than 3 ns or one third of the clock cycle.
Silicon Image, Inc.
2
Subject to Change without Notice
SiI 141B DC Specifications
SiI-DS-0037-C
Under normal operating conditions unless otherwise specified. Low drive strength values, when ST=0, are shown in brackets. Symbol Parameter Conditions Min Typ Max Units IOHD Output High Drive VOUT = 2.4 Data and Controls ST=1 5.0 10.3 17.6 mA ST=0 2.5 5.2 8.8 IOLD Output Low Drive VOUT = 0.4 Data and Controls ST=1 -5.5 -8.3 -11.2 mA ST=0 -2.8 -4.2 -5.6 IOHC ODCK High Drive VOUT = 2.4 ST=1 10.1 20.6 35.1 mA ST=0 5.0 10.3 17.6 IOLC ODCK Low Drive VOUT = 2.0 ST=1 -11.1 -16.7 -22.4 mA ST=0 -5.5 -8.3 -11.2 VID Differential Input Voltage 75 1000 mV Single Ended Amplitude IPDL Output leakage current to ground in 10 A high impedance mode (PD, PDO = LOW) IPD Power-down Current1 50 100 A ICLKI Power-down Current RXC Inactive 4 7 mA IPDO Power-down-output Current 125 155 mA CLOAD = 10pF ICCR Receiver Supply Current ODCK=86MHz, 1-pixel/clock mode2 157 182 mA REXT_SWING = 510 Typical Pattern3 CLOAD = 10pF 172 194 mA REXT_SWING = 510 Worst Case Pattern4 Notes: 1 The transmitter must be in power-down mode, powered off, or disconnected for the current to be under this maximum. 2 For worst case I/O power consumption. 3 The Typical Pattern contains a gray scale area, checkerboard area, and text. 4 Black and white checkerboard pattern, each checker is one pixel wide.
Silicon Image, Inc.
3
Subject to Change without Notice
SiI 141B AC Specifications
SiI-DS-0037-C
Under normal operating conditions unless otherwise specified. Low drive strength values, when ST=0, are given below. Symbol Parameter Conditions Min Typ Max Units TDPS Intra-Pair (+ to -) Differential Input Skew 86 MHz 470 ps TCCS Channel to Channel Differential Input Skew 86 MHz 7 ns 65 MHz 465 ps Worst Case Differential Input Clock Jitter tolerance1,2 TIJIT 86 MHz 350 ps DLHT Low-to-High Transition Time: Data and Controls CL = 10pF; ST = 1 3.5 ns (43 MHz, 2-pixel/clock, PIXS=1) 4.5 ns CL = 5pF; ST = 0 Low-to-High Transition Time: Data and Controls CL = 10pF; ST = 1 3.5 ns (65 MHz, 1-pixel/clock, PIXS=0) 4.5 ns CL = 5pF; ST = 0 Low-to-High Transition Time: ODCK CL = 10pF; ST = 1 1.6 ns (43 MHz, 2-pixel/clock, PIXS=1) 2.1 ns CL = 5pF; ST = 0 CL = 10pF; ST = 1 1.6 ns Low-to-High Transition Time: ODCK (65 MHz, 1-pixel/clock, PIXS=0) CL = 5pF; ST = 0 2.1 ns DHLT CL = 10pF; ST = 1 3.0 ns High-to-Low Transition Time: Data and Controls (43 MHz, 2-pixel/clock, PIXS=1) 4.2 ns CL = 5pF; ST = 0 CL = 10pF; ST = 1 3.0 ns High-to-Low Transition Time: Data and Controls (65 MHz, 1-pixel/clock, PIXS=0) 4.2 ns CL = 5pF; ST = 0 CL = 10pF; ST = 1 1.5 ns High-to-Low Transition Time: ODCK (43 MHz, 1-pixel/clock, PIXS=0) 1.9 ns CL = 5pF; ST = 0 CL = 10pF; ST = 1 1.5 ns High-to-Low Transition Time: ODCK (65 MHz, 1-pixel/clock, PIXS=0) 1.9 ns CL = 5pF; ST = 0 Data, DE, VSYNC, HSYNC, and CTL[3:1] Setup Time to TSETUP CL = 10pF; ST = 1 3.6 ODCK falling edge (OCK_INV = 0) or to ODCK rising 3.0* ns edge (OCK_INV = 1) 18.4 ns CL = 5pF; ST = 0 *OCK_INV = 1 19.0* Data, DE, VSYNC, HSYNC, and CTL[3:1] Hold Time from CL = 10pF; ST = 1 THOLD 8.0 ns ODCK falling edge, (OCK_INV = 0) or from ODCK rising 8.4* edge (OCK_INV = 1) 24.0 ns CL = 5pF; ST = 0 *OCK_INV = 0 24.5* RCIP ODCK Cycle Time (1 pixel/clock) 11.6 40 ns FCIP ODCK Frequency (1 pixel/clock) 25 86 MHz RCIP ODCK Cycle Time (2 pixels/clock) 23.3 80 ns FCIP ODCK Frequency (2 pixels/clock) 12.5 43 MHz CL = 10pF, ST=1 5.0 RCIH ODCK High Time 4.4 ns 65 MHz, One Pixel / Clock, PIXS = 0 3 CL = 5pF, ST=0 9.0 ns 43 MHz, Two Pixel / Clock, PIXS = 1 3 CL = 10pF, ST=1 8.2 CL = 5pF, ST=0 CL = 10pF, ST=1 6 RCIL ODCK Low Time 5 ns 65 MHz, One Pixel / Clock, PIXS = 0 3 CL = 5pF, ST=0 9 ns 43 MHz, Two Pixel / Clock, PIXS = 1 3 CL = 10pF, ST=1 9 CL = 5pF, ST=0 THSC Link disabled (DE inactive) to SCDT low1 160 ms Link disabled (Tx power down) to SCDT low 5 200 250 ms TFSC Link enabled (DE active) to SCDT high6 Falling 40 DE edges TCLKPD Delay from RXC+/- Inactive to high impedance outputs RXC+/- = 25MHz 10 s TCLKPU Delay from RXC+/- active to data active RXC+/- = 25MHz 100 s TPDL Delay from PD/ PDO Low to high impedance outputs 8 ns 1 Notes: Jitter defined as per DVI 1.0 Specification, Section 4.6 Jitter Specification. 2 Jitter measured with Clock Recovery Unit as per DVI 1.0 Specification, Section 4.7 Electrical Measurement Procedures. 3 Output clock duty cycle is independent of the differential input clock duty cycle and the IDCK duty cycle. 4 The setup and hold timing for the data and controls relative to the ODCK rising edge (OCK_INV=1) is by design the same as the falling edge timing. 5 Measured when transmitter was powered down (see SiI/AN-0005 "PanelLink Basic Design /Application Guide," Section 2.4). 6 Refer to the transmitter datasheet for minimum DE high and low time 7 Data is active (i.e. not tri-stated) but not valid yet. Data and controls are valid only when SCDT goes high. See TFSC and Figure 7.
Silicon Image, Inc.
4
Subject to Change without Notice
SiI 141B Timing Diagrams
SiI-DS-0037-C
2.0 V SII141B 10pF (5pF) 0.8 V DLHT
2.0 V
0.8 V DHLT
Figure 1. Digital Output Transition Times
RCIP RCIH 2.0 V 2.0 V 2.0 V
0.8 V RCIL
Figure 2. Receiver Clock Cycle/High/Low Times
0.8 V
RX0
VDIFF = 0V
RX1
TCCS VDIFF = 0V
RX2 Figure 3. Channel-to-Channel Skew Timing
Output Timing
ODCK_INV = 1 ODCK_INV = 0
TSETUP THOLD
QE[23:0]/QO[23:0], DE, VSYNC, HSYNC, CTL[3:1]
Figure 4. Output Data Setup/Hold Times to ODCK
Silicon Image, Inc.
5
Subject to Change without Notice
SiI 141B
PD Q[35:0], DE, VSYNC, HSYNC, CTL[3:1]
TPDL
SiI-DS-0037-C
Figure 5. Output Signals Disabled Timing from PD Active
TCLKPD
RXC Q[35:0], DE, VSYNC, HSYNC, CTL[3:1]
... ...
Figure 6. Output Signals Disabled Timing from Clock Inactive
TCLKPU + TFSC
RXC
... ...
SCDT
Figure 7. Wake-up on Clock Detect
THSC
DE SCDT
TFSC
DE
SCDT
Figure 8. SCDT Timing from DE Inactive/Active
Silicon Image, Inc.
6
Subject to Change without Notice
SiI 141B
SiI-DS-0037-C
Output Pin Description
Pin Name Q35 - Q0 Pin # See SiI 141B Pin Diagram Type Out Description Output Data [35:0]. Output data is synchronized with output data clock (ODCK). When PIXS is low Q35-Q24 are low and Q23-Q0 output 24-bit/pixel data. When PIXS is high Q17-Q0 output the even numbered pixels (pixel 0, 2, 4, ... , etc.) and Q35-Q18 output the odd numbered pixels (pixel 1, 3, 5, ... , etc.). Refer to the TFT Signal Mapping (SiI/AN-0008) and DSTN Signal Mapping (SiI/AN-0007) application notes which tabulate the relationship between the input data to the transmitter and output data from the receiver. A low level on PD or PDO will put the output drivers into a high impedance (tri-state) mode. A weak internal pull-down device brings each output to ground. Output Data Clock. A low level on PD or PDO will put the output drivers into a high impedance (tri-state) mode. A weak internal pull-down device brings each output to ground. Output Data Enable. A low level on PD or PDO will put the output drivers into a high impedance (tri-state) mode. A weak internal pull-down device brings each output to ground. Horizontal Sync output control signal. Vertical Sync output control signal. General output control signal 1. This pin is not controlled by PDO. General output control signal 2 General output control signal 3. A low level on PD or PDO will put the output drivers into a high impedance (tri-state) mode. A weak internal pull-down device brings each output to ground.
ODCK
36
Out
DE
41
Out
HSYNC VSYNC CTL1 CTL2 CTL3
12 14 8 9 10
Out Out Out Out Out
Configuration Pin Description
Pin Name OCK_INV Pin # 80 Type In Description ODCK Polarity. A low level selects normal ODCK output, which enables data latching on the falling edge. A high level (3.3V) selects inverted ODCK output, which enables data latching on the rising edge. Both conditions are for color TFT panel support. For color 24-bit DSTN panel support, please refer to the DSTN Signal Mapping (SiI/AN-0008-A) application note. Pixel Select. A low level indicates that output data is one pixel (up to 24-bit) per clock and a high level (3.3V) indicates that output data is two pixels (up to 36-bit) per clock. Output Data Format. This pin controls clock and data output format. A low level indicates that ODCK runs continuously for color TFT panel support and a high level (3.3V) indicates that ODCK is stopped (LOW) for color 24-bit DSTN panel support when DE is low. Refer to the TFT Signal Mapping (SiI/AN0007-A) and DSTN Signal Mapping (SiI/AN-0008-A) application notes for a table on TFT or DSTN panel support. A low level enables the HSYNC de-jitter circuitry. A high level disables the de-jitter circuitry. If left unconnected, the circuitry defaults to disabled. Output Driver Strength. A low level indicates low drive. A high level indicates high drive.
PIXS DF0
5 6
In In
HSYNC_DEJTR ST
75 79
In In
Power Management Pin Description
Pin Name SCDT PD Pin # 7 2 Type Out In Description SyncDetect. A high level is output when DE is toggling. A low level is output when DE is inactive. See page 9. Power Down (active low). A high level (3.3V) indicates normal operation and a low level indicates power down mode. During power down mode all internal circuitry is powered down and digital I/O are set the same as when PDO is asserted. (see PDO pin description). Power Down Output (active low). A high level indicates normal operation. A low level puts the output drivers only into a high impedance (tri-state) mode. A weak internal pull-down device brings each output to ground. There is an internal pull-up resistor on PDO that defaults the chip to normal operation if left unconnected. SCDT and CTL1 are not tri-stated by this pin. See explanation of clock detect on page 8-9.
PDO
3
In
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7
Subject to Change without Notice
SiI 141B Differential Signal Data Pin Description
Pin Name RX0+ RX0RX1+ RX1RX2+ RX2RXC+ RXCEXT_RES Pin # 70 71 67 68 64 65 74 73 76 Type Analog Description TMDS Low Voltage Differential Signal input data pairs.
SiI-DS-0037-C
Analog Analog
TMDS Low Voltage Differential Signal input clock pair. Impedance Matching Control. Resistor value should be ten times the characteristic impedance of the cable. In the common case of 50 transmission line, an external 530 resistor must be connected between AVCC and this pin.
Reserved Pin Description
Pin Name RSVD Pin # 1 Type Out Description This signal must be left unconnected.
Power and Ground Pin Description
Pin Name VCC Pin # 39 50 61 11 37 62 15 28 48 4 13 26 46 63 69 66 72 77 78 Type Power Description Core VCC, must be set to 3.3V.
GND
Ground
Digital GND.
OVCC
Power
Output VCC, must be set to 3.3V.
OGND
Ground
Output GND.
AVCC AGND PVCC PGND
Power Ground Power Ground
Analog VCC, must be set to 3.3V. Analog GND. PLL VCC, must be set to 3.3V. PLL GND.
Application Information The SII141B is pin for pin compatible with the SII141 but includes two new features, HSYNC de-jitter and power down when the clock is inactive. HSYNC de-jitter enables the 141B to operate properly even when the HSYNC signal contains jitter. Pin 75 is used to enable or disable this capability (a reserved pin tied high on the SII141). Tying this pin low enables the HSYNC de-jitter circuitry while tying it high disables the circuitry. The HSYNC de-jitter circuitry operates normally with most VESA standard timings. Some DOS mode resolutions do not have timings that are a multiple of eight (HSYNC and VSYNC total times and front and back porch times are multiples of eight pixel times). If they are not a multiple of eight, operation is not guaranteed and the HSYNC de-jitter circuitry should be turned off. When HSYNC dejitter is enabled, the circuitry will introduce anywhere from 0 to 7 CLK delays in the HSYNC signal relative to the output data. The SII141B includes a new power saving feature, power down with clock detect circuit. The SII141B will go into a low power mode when there is no video clock coming from the transmitter. In this mode the entire chip is powered down except the clock detect circuitry. During this mode digital I/O are set to a high impedance (tri-state) mode. A weak internal pull-down device brings each output to ground. The device power down and wake-up times are shown in Figures 6 and 7. The SII141B also includes a sync detect feature for pin compatibility with SII141. In both the SII141 and SII141B, SCDT goes low when DE is inactive. Silicon Image, Inc. 8 Subject to Change without Notice
SiI 141B SiI-DS-0037-C In some application, SCDT is connected to the PDO pin to provide a power savings mode. In others, SCDT is connected to an external circuit to signal when an incoming video signal is available. These external devices may use an internal pull up which can cause problems. If SCDT is connected to an external circuit which has an internal pull up, then SCDT will not stay low when no video signal is present. The recommended circuit to keep SCDT low is shown Figure 9. For most applications, Silicon Image recommends a pull down resistor of 1.5 K. However, conditions within every design may vary. Please use the calculations below to determine the proper pull-down resistor value.
SCDT(pin# 7)
internal pull up
weak internal pull down
R
pull down resister
SII141B
external chip
Figure 9. Schematic for SCDT connected to external device with pull up
The external pull down resistor value depends on the pull-up circuit in the external device and can be calculated with Equation [1] and [2] if the pull up is a passive circuit. If the pull up is an active circuit, please consult the manufacture of the other device. The calculation for the maximum resistor value is shown in the equation [1] below. In powered down mode, low power consumption is achieved by making the resistor value as large as possible. Equation [1] determines the maximum value of R while ensuring that SCDT stays lower than VIL of the external chip when SCDT goes into high impedance. The small current flowing into the SII141B internal pull down resistor is ignored in equation [1].
Equation [1a]
R x VCCMAX < VIL RPull -Up + R x V ) (R R < Pull -Up IL (Vcc max - VIL )
Equation [1b]
Example :
Pull-up resistor value is 10 K, VIL of external chip is 0.8V, and maximum Vcc is 3.6V R < 2,857ohms = (10 K x 0.8V) / (3.6V - 0.8V) The resistor value should be smaller than 2,857 K. The calculation for the minimum resistor value is shown in the equation [2]. The minimum value is set so the SCDT voltage exceeds VIH of the external chip in normal operation. In equation [2], the small current flowing into the SII141B internal pull-down resistor is ignored.
Silicon Image, Inc.
9
Subject to Change without Notice
SiI 141B
Equation [2]
SiI-DS-0037-C
V R > CC I OHDMIN
or
V R > IH I OHDMIN
Example :
When ST(pin# 79) = 1,Vcc = 3.3V R > 660 = Vcc (or VIH of external chip) / Min IOHD = 3.3V / 5.0mA The resistor value should be larger than 660ohms When ST(pin# 79) = 0,Vcc = 3.3V R > 1,320 = Vcc (or VIH of external chip) / Min IOHD = 3.3V / 2.5mA The resistor value should be larger than 1,320ohms. These examples assume Vcc (or VIH) of 3.3V, with a lower VIH, the minimum pull down resistor value may be smaller.
Silicon Image, Inc.
10
Subject to Change without Notice
SiI 141B
SiI-DS-0037-C
80-pin TQFP Package Dimensions
Lead Length 1.00mm
80-pin Plastic TQFP
Lead Width 0.22mm
Lead Pitch 0.50mm
Body Size 12.00mm
Device # Lot # Date Code # SiI Rev. #
SII141BCT80 LNNNNN.NLLL XXYY X.XX
Package Height 1.15mm max.
Clearance 0.15mm max. Body Size 12.00mm Footprint 14.00mm
Body Thickness 1.0mm
Silicon Image, Inc.
11
Subject to Change without Notice
Footprint 14.00mm
SiI 141B
SiI-DS-0037-C
To obtain the most updated Application Notes and other useful information for your design application, please visit the Silicon Image web site at www.siimage.com, or contact your local Silicon Image sales office. Copyright Notice
This manual is copyrighted by Silicon Image, Inc. Do not reproduce, transform to any other format, or send/transmit any part of this documentation without the express written permission of Silicon Image, Inc.
Trademark Acknowledgment
Silicon Image, the Silicon Image logo, PanelLink and the PanelLink Digital logo are trademarks or registered trademarks of Silicon Image, Inc. All other trademarks are the property of their respective holders.
Disclaimer
This document provides technical information for the user. Silicon Image, Inc. reserves the right to modify the information in this document as necessary. The customer should make sure that they have the most recent data sheet version. Silicon Image, Inc. holds no responsibility for any errors that may appear in this document. Customers should take appropriate action to ensure their use of the products does not infringe upon any patents. Silicon Image, Inc. respects valid patent rights of third parties and does not infringe upon or assist others to infringe upon such rights.
Ordering Information
Part Number: SII141BCT80
Revision History Revision Date A 11/00 B 1/01 C 5/01
Comment Full release Added application information concerning HSYNC de-jitter and power down on clock Updated EXT_RES value for 50 transmission line.
(c) 2001 Silicon Image, Inc. 5/01 SiI-DS-0037-C
Silicon Image, Inc. 1060 E. Arques Ave Sunnyvale, CA 94086 USA
Tel: 408-616-4000 Fax: 408-830-9530 E-Mail: salessupport@siimage.com Web: www.siimage.com www.panellink.com 12 Subject to Change without Notice
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