ADV3000

3:1 HDMI/DVI Switch with Equalization ADV3000 FEATURES 3 inputs, 1 output HDMI/DVI links Enables HDMI 1.3-compliant receiver 4 TMDS channels per link Supports 250 Mbps to 2.25 Gbps data rates Supports 25 MHz to 225 MHz pixel clocks Equalized inputs for operation with long HDMI cables (20 meters at 2.25 Gbps) Fully buffered unidirectional inputs/outputs Globally switchable, 50 Ω on-chip terminations Pre-emphasized outputs Low added jitter Single-supply operation (3.3 V) 4 auxiliary channels per link Bidirectional unbuffered inputs/outputs Flexible supply operation (3.3 V to 5 V) HDCP standard compatible Allows switching of DDC bus and 2 additional signals Output disable feature Reduced power dissipation Removable output termination Allows building of larger arrays Two ADV3000s support HDMI/DVI dual-link Standards compatible: HDMI receiver, HDCP, DVI Serial (I2C slave) and parallel control interface 80-lead, 14 mm × 14 mm LQFP, Pb-free package FUNCTIONAL BLOCK DIAGRAM PP_CH[1:0] PP_OCL PP_EQ PP_EN PP_PRE[1:0] RESET PARALLEL SERIAL I2C_SDA I2C_SCL I2C_ADDR0 VTTI 2 2 ADV3000 CONTROL LOGIC AVCC DVCC AMUXVCC AVEE DVEE VTTO CONFIG INTERFACE + IP_A[3:0] IN_A[3:0] – + IP_B[3:0] IN_B[3:0] – + IP_C[3:0] 4 4 4 4 4 4 SWITCH CORE EQ 4 4 PE + OP[3:0] – ON[3:0] IN_C[3:0] – HIGH SPEED VTTI AUX_A[3:0] AUX_B[3:0] AUX_C[3:0] BUFFERED 4 4 4 SWITCH CORE LOW SPEED UNBUFFERED BIDIRECTIONAL 4 AUX_COM[3:0] 06712-002 Figure 2. GENERAL DESCRIPTION The ADV3000 is an HDMI™/DVI switch featuring equalized TMDS inputs and pre-emphasized TMDS® outputs, ideal for systems with long cable runs. Outputs can be set to a high impedance state to reduce the power dissipation and/or to allow the construction of larger arrays using the wire-OR technique. The ADV3000 is provided in an 80-lead LQFP, Pb-free, surfacemount package, specified to operate over the −40°C to +85°C temperature range. APPLICATIONS Multiple input displays Projectors A/V receivers Set-top boxes Advanced television (HDTV) sets GAME CONSOLE PRODUCT HIGHLIGHTS HDTV SET HDMI RECEIVER SET-TOP BOX 1. DVD PLAYER NameBrand Power DV D Supports data rates up to 2.25 Gbps, enabling 1080p deep color (12-bit color) HDMI formats, and greater than UXGA (1600 × 1200) DVI resolutions. Input cable equalizer enables use of long cables at the input (more than 20 meters of 24 AWG cable at 2.25 Gbps). Auxiliary switch routes a DDC bus and two additional signals for a single-chip, HDMI 1.3 receive-compliant solution. 01:18 Figure 1. Typical HDTV Application 06712-001 ADV3000 2. 3. Rev. 0 Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 www.analog.com Fax: 781.461.3113 ©2007 Analog Devices, Inc. All rights reserved. ADV3000 TABLE OF CONTENTS Features .............................................................................................. 1 Applications....................................................................................... 1 Functional Block Diagram .............................................................. 1 General Description ......................................................................... 1 Product Highlights ........................................................................... 1 Revision History ............................................................................... 2 Specifications..................................................................................... 3 Absolute Maximum Ratings............................................................ 5 Thermal Resistance ...................................................................... 5 Maximum Power Dissipation ..................................................... 5 ESD Caution.................................................................................. 5 Pin Configuration and Function Descriptions............................. 6 Typical Performance Characteristics ............................................. 8 Theory of Operation ...................................................................... 12 Introduction ................................................................................ 12 Input Channels............................................................................ 12 Output Channels ........................................................................ 12 Auxiliary Switch.......................................................................... 13 Serial Control Interface.................................................................. 14 Reset ............................................................................................. 14 Write Procedure.......................................................................... 14 Read Procedure........................................................................... 15 Switching/Update Delay ............................................................ 15 Parallel Control Interface .............................................................. 16 Serial Interface Configuration Registers ..................................... 17 High Speed Device Modes Register......................................... 17 Auxiliary Device Modes Register............................................. 18 Receiver Settings Register ......................................................... 18 Input Termination Pulse Register 1 and Register 2 ............... 18 Receive Equalizer Register 1 and Register 2 ........................... 18 Transmitter Settings Register.................................................... 18 Parallel Interface Configuration Registers .................................. 19 High Speed Device Modes Register......................................... 19 Auxiliary Device Modes Register............................................. 19 Receiver Settings Register ......................................................... 20 Input Termination Pulse Register 1 and Register 2 ............... 20 Receive Equalizer Register 1 and Register 2 ........................... 20 Transmitter Settings Register.................................................... 20 Application Information................................................................ 21 Pinout........................................................................................... 21 Cable Lengths and Equalization............................................... 22 PCB Layout Guidelines.............................................................. 22 Outline Dimensions ....................................................................... 26 Ordering Guide .......................................................................... 26 REVISION HISTORY 8/07—Revision 0: Initial Version Rev. 0 | Page 2 of 28 ADV3000 SPECIFICATIONS TA = 27°C, AVCC = 3.3 V, VTTI = 3.3 V, VTTO = 3.3 V, DVCC = 3.3 V, AMUXVCC = 5 V, AVEE = 0 V, DVEE = 0 V, differential input swing = 1000 mV, TMDS outputs terminated with external 50 Ω resistors to 3.3 V, unless otherwise noted. Table 1. Parameter DYNAMIC PERFORMANCE Maximum Data Rate (DR) per Channel Bit Error Rate (BER) Added Deterministic Jitter Added Random Jitter Differential Intrapair Skew Differential Interpair Skew 1 EQUALIZATION PERFORMANCE Receiver (Highest Setting) 2 Transmitter (Highest Setting) 3 INPUT CHARACTERISTICS Input Voltage Swing Input Common-Mode Voltage (VICM) OUTPUT CHARACTERISTICS High Voltage Level Low Voltage Level Rise/Fall Time (20% to 80%) INPUT TERMINATION Resistance AUXILIARY CHANNELS On Resistance, RAUX On Capacitance, CAUX Input/Output Voltage Range POWER SUPPLY AVCC QUIESCENT CURRENT AVCC Conditions/Comments NRZ PRBS 223 − 1 DR ≤ 2.25 Gbps, PRBS 27 − 1, EQ = 12 dB At output At output Boost frequency = 825 MHz Boost frequency = 825 MHz Differential 150 AVCC − 800 AVCC − 10 AVCC − 600 75 Min 2.25 10−9 25 1 1 40 12 6 1200 AVCC AVCC + 10 AVCC − 400 175 ps (p-p) ps (rms) ps ps dB dB mV mV mV mV ps Ω Ω pF V V mA mA mA mA mA mA mA mA mW mW mW ms ms ns Typ Max Unit Gbps Single-ended high speed channel Single-ended high speed channel 135 50 100 8 Single-ended DC bias = 2.5 V, ac voltage = 3.5 V, f = 100 kHz DVEE Operating range Outputs disabled Outputs enabled, no pre-emphasis Outputs enabled, maximum pre-emphasis Input termination on 4 Output termination on, no pre-emphasis Output termination on, maximum pre-emphasis 3 30 52 95 5 35 72 3.2 AMUXVCC 3.3 40 60 110 40 40 80 7 0.01 271 574 910 3.6 44 66 122 54 46 90 8 0.1 361 671 1050 200 1.5 V TTI V TTO DVCC AMUXVCC POWER DISSIPATION Outputs disabled Outputs enabled, no pre-emphasis Outputs enabled, maximum pre-emphasis TIMING CHARACTERISTICS Switching/Update Delay RESET Pulse Width High speed switching register: HS_CH All other configuration registers 115 384 704 50 Rev. 0 | Page 3 of 28 ADV3000 Parameter SERIAL CONTROL INTERFACE 5 Input High Voltage, VIH Input Low Voltage, VIL Output High Voltage, VOH Output Low Voltage, VOL PARALLEL CONTROL INTERFACE Input High Voltage, VIH Input Low Voltage, VIL 1 2 Conditions/Comments Min 2 Typ Max Unit V V V V V V 0.8 2.4 0.4 2 0.8 Differential interpair skew is measured between the TMDS pairs of a single link. ADV3000 output meets the transmitter eye diagram as defined in the DVI Standard Revision 1.0 and the HDMI Standard Revision 1.3. 3 Cable output meets the receiver eye diagram mask as defined in the DVI Standard Revision 1.0 and the HDMI Standard Revision 1.3. 4 Typical value assumes only the selected HDMI/DVI link is active with nominal signal swings and that the unselected HDMI/DVI links are deactivated. Minimum and maximum limits are measured at the respective extremes of input termination resistance and input voltage swing. 5 The ADV3000 is an I2C slave and its serial control interface is based on the 3.3 V I2C bus specification. Rev. 0 | Page 4 of 28 ADV3000 ABSOLUTE MAXIMUM RATINGS Table 2. Parameter AVCC to AVEE DVCC to DVEE DVEE to AVEE V TTI V TTO AMUXVCC Internal Power Dissipation High Speed Input Voltage High Speed Differential Input Voltage Low Speed Input Voltage I2C® and Parallel Logic Input Voltage Storage Temperature Range Operating Temperature Range Junction Temperature Rating 3.7 V 3.7 V ±0.3 V AVCC + 0.6 V AVCC + 0.6 V 5.5 V 2.2 W AVCC − 1.4 V < VIN < AVCC + 0.6 V 2.0 V DVEE − 0.3 V < VIN < AMUXVCC + 0.6 V DVEE − 0.3 V < VIN < DVCC + 0.6 V −65°C to +125°C −40°C to +85°C 150°C THERMAL RESISTANCE θJA is specified for the worst-case conditions: a device soldered in a 4-layer JEDEC circuit board for surface-mount packages. θJC is specified for no airflow. Table 3. Thermal Resistance Package Type 80-Lead LQFP θJA 55 θJC 17.8 Unit °C/W MAXIMUM POWER DISSIPATION The maximum power that can be safely dissipated by the ADV3000 is limited by the associated rise in junction temperature. The maximum safe junction temperature for plastic encapsulated devices is determined by the glass transition temperature of the plastic, approximately 150°C. Temporarily exceeding this limit may cause a shift in parametric performance due to a change in the stresses exerted on the die by the package. Exceeding a junction temperature of 175°C for an extended period can result in device failure. To ensure proper operation, it is necessary to observe the maximum power rating as determined by the coefficients in Table 3. Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. ESD CAUTION Rev. 0 | Page 5 of 28 ADV3000 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS AUX_COM0 AUX_COM1 AUX_COM2 AUX_COM3 AMUXVCC AUX_A0 AUX_A1 AUX_A2 AUX_A3 AUX_B0 AUX_B1 AUX_B2 AUX_B3 AUX_C0 AUX_C1 AUX_C2 AUX_C3 PP_EQ PP_EN DVEE 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 AVCC 1 IN_B0 IP_B0 IN_B1 IP_B1 IN_B2 IP_B2 IN_B3 2 3 4 5 PIN 1 60 59 58 57 56 55 54 53 52 AVCC IP_C3 IN_C3 AVEE IP_C2 IN_C2 VTTI IP_C1 IN_C1 AVEE IP_C0 IN_C0 AVCC AVEE VTTI AVCC AVEE I2C_SDA I2C_SCL PP_OCL VTTI 6 7 8 9 IP_B3 10 IN_A0 11 IP_A0 12 IN_A1 13 IP_A1 14 VTTI 15 IN_A2 16 IP_A2 17 IN_A3 18 IP_A3 19 AVEE 20 ADV3000 TOP VIEW (Not to Scale) 51 50 49 48 47 46 45 44 43 42 41 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 VTTO VTTO OP0 OP1 OP2 ON0 ON1 ON2 DVEE ON3 OP3 RESET DVCC DVCC PP_PRE0 I2C_ADDR0 PP_PRE1 PP_CH0 PP_CH1 DVCC Figure 3. Pin Configuration Table 4. Pin Function Descriptions Pin No. 1, 45, 48, 60 2 3 4 5 6, 15, 46, 54 7 8 9 10 11 12 13 14 16 17 18 19 20, 44, 47, 51, 57 21 22, 76 23 24 Mnemonic AVCC IN_B0 IP_B0 IN_B1 IP_B1 V TTI IN_B2 IP_B2 IN_B3 IP_B3 IN_A0 IP_A0 IN_A1 IP_A1 IN_A2 IP_A2 IN_A3 IP_A3 AVEE I2C_ADDR0 DVEE PP_CH0 PP_CH1 Type 1 Power HS I HS I HS I HS I Power HS I HS I HS I HS I HS I HS I HS I HS I HS I HS I HS I HS I Power Control Power Control Control Description Positive Analog Supply. 3.3 V nominal. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. Input Termination Supply. Nominally connected to AVCC. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. Negative Analog Supply. 0 V nominal. I2C Address LSB. Negative Digital and Auxiliary Multiplexer Power Supply. 0 V nominal. High Speed Source Selection Parallel Interface LSB. High Speed Source Selection Parallel Interface MSB. Rev. 0 | Page 6 of 28 06712-003 ADV3000 Pin No. 25, 31, 40 26 27 28, 34 29 30 32 33 35 36 37 38 39 40 41 42 43 49 50 52 53 55 56 58 59 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 77 78 79 80 1 Mnemonic DVCC ON0 OP0 V TTO ON1 OP1 ON2 OP2 ON3 OP3 RESET PP_PRE0 PP_PRE1 DVCC PP_OCL I2C_SCL I2C_SDA IN_C0 IP_C0 IN_C1 IP_C1 IN_C2 IP_C2 IN_C3 IP_C3 PP_EN PP_EQ AMUXVCC AUX_C3 AUX_C2 AUX_C1 AUX_C0 AUX_COM3 AUX_COM2 AUX_COM1 AUX_COM0 AUX_B3 AUX_B2 AUX_B1 AUX_B0 AUX_A3 AUX_A2 AUX_A1 AUX_A0 Type 1 Power HS O HS O Power HS O HS O HS O HS O HS O HS O Control Control Control Power Control Control Control HS I HS I HS I HS I HS I HS I HS I HS I Control Control Power LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O LS I/O Description Positive Digital Power Supply. 3.3 V nominal. High Speed Output Complement. High Speed Output. Output Termination Supply. Nominally connected to AVCC. High Speed Output Complement. High Speed Output. High Speed Output Complement. High Speed Output. High Speed Output Complement. High Speed Output. Configuration Registers Reset. Normally pulled up to AVCC. High Speed Pre-Emphasis Selection Parallel Interface LSB. High Speed Pre-Emphasis Selection Parallel Interface MSB. Positive Digital Supply. 3.3 V nominal. High Speed Output Current Level Parallel Interface. I2C Clock. I2C Data. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. High Speed Input Complement. High Speed Input. High Speed Output Enable Parallel Interface. High Speed Equalization Selection Parallel Interface. Positive Auxiliary Multiplexer Supply. 5 V typical. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Common Input/Output. Low Speed Common Input/Output. Low Speed Common Input/Output. Low Speed Common Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. Low Speed Input/Output. HS = high speed, LS = low speed, I = input, O = output. Rev. 0 | Page 7 of 28 ADV3000 TYPICAL PERFORMANCE CHARACTERISTICS TA = 27°C, AVCC = 3.3 V, VTTI = 3.3 V, VTTO = 3.3 V, DVCC = 3.3 V, AMUXVCC = 5 V, AVEE = 0 V, DVEE = 0 V, differential input swing = 1000 mV, TMDS outputs terminated with external 50 Ω resistors to 3.3 V, pattern = PRBS 27 − 1, data rate = 2.25 Gbps, unless otherwise noted. HDMI CABLE DIGITAL PATTERN GENERATOR EVALUATION BOARD ADV3000 SERIAL DATA ANALYZER SMA COAX CABLE 06712-004 REFERENCE EYE DIAGRAM AT TP1 TP1 TP2 TP3 Figure 4. Test Circuit Diagram for RX Eye Diagram 250mV/DIV 06712-005 250mV/DIV 0.125UI/DIV AT 2.25Gbps 0.125UI/DIV AT 2.25Gbps Figure 5. RX Eye Diagram at TP2 (Cable = 2 meters, 30 AWG) Figure 7. RX Eye Diagram at TP3, EQ = 6 dB (Cable = 2 meters, 30 AWG) 250mV/DIV 06712-006 250mV/DIV 0.125UI/DIV AT 2.25Gbps 0.125UI/DIV AT 2.25Gbps Figure 6. RX Eye Diagram at TP2 (Cable = 20 meters, 24 AWG) Figure 8. RX Eye Diagram at TP3, EQ = 12 dB (Cable = 20 meters, 24 AWG) Rev. 0 | Page 8 of 28 06712-008 06712-007 ADV3000 TA = 27°C, AVCC = 3.3 V, VTTI = 3.3 V, VTTO = 3.3 V, DVCC = 3.3 V, AMUXVCC = 5 V, AVEE = 0 V, DVEE = 0 V, differential input swing = 1000 mV, TMDS outputs terminated with external 50 Ω resistors to 3.3 V, pattern = PRBS 27 − 1, data rate = 2.25 Gbps, unless otherwise noted. HDMI CABLE DIGITAL PATTERN GENERATOR EVALUATION BOARD ADV3000 SERIAL DATA ANALYZER SMA COAX CABLE 06712-009 REFERENCE EYE DIAGRAM AT TP1 TP1 TP2 TP3 Figure 9. Test Circuit Diagram for TX Eye Diagrams 250mV/DIV 06712-010 250mV/DIV 0.125UI/DIV AT 2.25Gbps 0.125UI/DIV AT 2.25Gbps Figure 10. TX Eye Diagram at TP2, PE = 2 dB Figure 12. TX Eye Diagram at TP3, PE = 2 dB (Cable = 2 meters, 30 AWG) 250mV/DIV 06712-011 250mV/DIV 0.125UI/DIV AT 2.25Gbps 0.125UI/DIV AT 2.25Gbps Figure 11. TX Eye Diagram at TP2, PE = 6 dB Figure 13. TX Diagram at TP3, PE = 6 dB (Cable = 10 meters, 28 AWG) Rev. 0 | Page 9 of 28 06712-013 06712-012 ADV3000 TA = 27°C, AVCC = 3.3 V, VTTI = 3.3 V, VTTO = 3.3 V, DVCC = 3.3 V, AMUXVCC = 5 V, AVEE = 0 V, DVEE = 0 V, differential input swing = 1000 mV, TMDS outputs terminated with external 50 Ω resistors to 3.3 V, pattern = PRBS 27 − 1, data rate = 2.25 Gbps, unless otherwise noted. 0.6 2m CABLE = 30AWG 5m TO 20m CABLES = 24AWG 0.5 0.6 2m CABLE = 30AWG 5m TO 20m CABLES = 24AWG 0.5 DETERMINISTIC JITTER (UI) DETERMINISTIC JITTER (UI) 0.4 2.25Gbps EQ = 12dB 1.65Gbps EQ = 6dB 2.25Gbps EQ = 6dB 1.65Gbps EQ = 12dB 0.4 1.65Gbps, PE OFF 0.3 2.25Gbps, PE OFF 0.2 2.25Gbps, PE MAX 0.3 0.2 0.1 06712-014 0.1 06712-017 1.65Gbps, PE MAX 0 0 0 5 10 15 20 25 0 5 10 HDMI CABLE LENGTH (m) 15 20 HDMI CABLE LENGTH (m) Figure 14. Jitter vs. Input Cable Length (See Figure 4 for Test Setup) Figure 17. Jitter vs. Output Cable Length (See Figure 9 for Test Setup) 50 EQ = 12dB 45 40 1200 1000 JITTER (ps) 30 25 20 15 10 480p 480i 1080i/720p 1080p 12-BIT 1.65Gbps EYE HEIGHT (mV) 06712-015 35 1080p 8-BIT 800 600 DJ (p-p) 400 200 RJ (rms) 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 06712-018 5 0 2.4 0 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 DATA RATE (Gbps) DATA RATE (Gbps) Figure 15. Jitter vs. Data Rate Figure 18. Eye Height vs. Data Rate 50 45 40 800 700 600 EYE HEIGHT (mV) 06712-016 35 JITTER (ps) 30 25 DJ (p-p) 20 15 10 5 0 3.0 3.1 3.2 RJ (rms) 3.3 3.4 3.5 500 400 300 200 06712-019 100 0 2.5 3.6 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 SUPPLY VOLTAGE (V) SUPPLY VOLTAGE (V) Figure 16. Jitter vs. Supply Voltage Figure 19. Eye Height vs. Supply Voltage Rev. 0 | Page 10 of 28 ADV3000 TA = 27°C, AVCC = 3.3 V, VTTI = 3.3 V, VTTO = 3.3 V, DVCC = 3.3 V, AMUXVCC = 5 V, AVEE = 0 V, DVEE = 0 V, differential input swing = 1000 mV, TMDS outputs terminated with external 50 Ω resistors to 3.3 V, pattern = PRBS 27 − 1, data rate = 2.25 Gbps, unless otherwise noted. 50 50 40 40 JITTER (ps) JITTER (ps) 30 DJ (p-p) 20 30 DJ (p-p) 20 10 06712-020 10 RJ (rms) 0 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 RJ (rms) 0 2.5 2.7 2.9 3.1 3.3 3.5 2.0 3.7 DIFFERENTIAL INPUT SWING (V) INPUT COMMON-MODE VOLTAGE (V) Figure 20. Jitter vs. Differential Input Swing Figure 23. Jitter vs. Input Common-Mode Voltage 50 45 DIFFERENTIAL INPUT TERMINATION RESISTANCE (Ω) 120 115 110 105 100 95 90 06712-024 40 35 JITTER (ps) 30 25 20 15 10 5 0 –40 –20 0 RJ (rms) 20 40 60 80 06712-021 DJ (p-p) 85 80 –40 100 –20 0 20 40 60 80 100 TEMPERATURE (°C) TEMPERATURE (°C) Figure 21. Jitter vs. Temperature Figure 24. Differential Input Termination Resistance vs. Temperature 160 140 RISE/FALL TIME 20% TO 80% (ps) FALL TIME 120 RISE TIME 100 80 60 40 06712-022 20 0 –40 –20 0 20 40 60 80 100 TEMPERATURE (°C) Figure 22. Rise and Fall Time vs. Temperature Rev. 0 | Page 11 of 28 06712-023 ADV3000 THEORY OF OPERATION INTRODUCTION The primary function of the ADV3000 is to switch one of three (HDMI or DVI) single-link sources to one output. Each HDMI/ DVI link consists of four differential, high speed channels and four auxiliary single-ended, low speed control signals. The high speed channels include a data-word clock and three transition minimized differential signaling (TMDS) data channels running at 10× the data-word clock frequency for data rates up to 2.25 Gbps. The four low speed control signals are 5 V tolerant bidirectional lines that can carry configuration signals, HDCP encryption, and other information, depending upon the specific application. All four high speed TMDS channels in a given link are identical; that is, the pixel clock can be run on any of the four TMDS channels. Transmit and receive channel compensation is provided for the high speed channels where the user can (manually) select among a number of fixed settings. The ADV3000 has two control interfaces. Users have the option of controlling the part through either the parallel control interface or the I2C serial control interface. The ADV3000 has two user-programmable I2C slave addresses (one bit) to allow two ADV3000s to be controlled by a single I2C bus. A RESET pin is provided to restore the control registers of the ADV3000 to default values. In all cases, serial programming values override any prior parallel programming values and any use of the serial control interface disables the parallel control interface until the ADV3000 is reset. The input equalizer can be manually configured to provide two different levels of high frequency boost: 6 dB or 12 dB. The user can individually control the equalization level of all high speed input channels by selectively programming the associated RX_EQ bits in the receive equalizer register through the serial control interface. Alternately, the user can globally control the equalization level of all eight high speed input channels by setting the PP_EQ pin of the parallel control interface. No specific cable length is suggested for a particular equalization setting because cable performance varies widely between manufacturers; however, in general, the equalization of the ADV3000 can be set to 12 dB without degrading the signal integrity, even for short input cables. At the 12 dB setting, the ADV3000 can equalize more than 20 meters of 24 AWG cable at 2.25 Gbps. OUTPUT CHANNELS Each high speed output differential pair is terminated to the 3.3 V VTTO power supply through two 50 Ω on-chip resistors (see Figure 26). This termination is user-selectable; it can be turned on or off by programming the TX_PTO bit of the transmitter settings register through the serial control interface. The output termination resistors of the ADV3000 back-terminate the output TMDS transmission lines. These back-terminations, as recommended in the HDMI 1.3 specification, act to absorb reflections from impedance discontinuities on the output traces, improving the signal integrity of the output traces and adding flexibility to how the output traces can be routed. For example, interlayer vias can be used to route the ADV3000 TMDS outputs on multiple layers of the PCB without severely degrading the quality of the output signal. The ADV3000 output has a disable feature that places the outputs in an inactive mode. This mode is enabled by programming the HS_EN bit of the high speed device modes register through the serial control interface or by setting the PP_EN pin of the parallel control interface. Larger wire-OR’ed arrays can be constructed using the ADV3000 in this mode. VTTO 50Ω 50Ω INPUT CHANNELS Each high speed input differential pair terminates to the 3.3 V VTTI power supply through a pair of single-ended 50 Ω onchip resistors, as shown in Figure 25. The input terminations can be optionally disconnected for approximately 100 ms following a source switch. The user can program which of the 12 high speed input channels employs this feature by selectively programming the associated RX_PT bits in the input termination pulse register through the serial control interface. Additionally, all the input terminations can be disconnected by programming the RX_TO bit in the receiver settings register. By default, the input termination is enabled. The input terminations are enabled and cannot be switched off when programming the ADV3000 through the parallel control interface. VTTI 50Ω 50Ω OPx ONx DISABLE AVEE Figure 26. High Speed Output Simplified Schematic IP_xx IN_xx CABLE EQ AVEE Figure 25. High Speed Input Simplified Schematic Rev. 0 | Page 12 of 28 06712-035 06712-025 IOUT ADV3000 The ADV3000 requires output termination resistors when the high speed outputs are enabled. Termination can be internal and/or external. The internal terminations of the ADV3000 are enabled by programming the TX_PTO bit of the transmitter settings register. These terminations are always enabled in parallel control mode. External terminations can be provided either by on-board resistors or by the input termination resistors of an HDMI/ DVI receiver. If both the internal terminations are enabled and external terminations are present, set the output current level to 20 mA by programming the TX_OCL bit of the transmitter settings register through the serial control interface or by setting the PP_OCL pin of the parallel control interface. The output current level defaults to the level indicated by PP_OCL upon reset. If only external terminations are provided (if the internal terminations are disabled), set the output current level to 10 mA by programming the TX_OCL bit of the transmitter settings register or by setting the PP_OCL pin of the parallel control interface. The high speed outputs must be disabled if there are no output termination resistors present in the system. The output pre-emphasis can be manually configured to provide one of four different levels of high frequency boost. The specific boost level is selected by programming the TX_PE bits of the transmitter settings register through the serial control interface, or by setting the PP_PE bus of the parallel control interface. No specific cable length is suggested for a particular pre-emphasis setting because cable performance varies widely between manufacturers. pins remain in a high impedance state. A scenario that illustrates this requirement is one where the auxiliary multiplexer is used to switch the display data channel (DDC) bus. In some applications, additional devices can be connected to the DDC bus (such as an EEPROM with EDID information) upstream of the ADV3000. Extended display identification data (EDID) is a VESA standard-defined data format for conveying display configuration information to sources to optimize display use. EDID devices may need to be available via the DDC bus, regardless of the state of the ADV3000 and any downstream circuit. For this configuration, the auxiliary inputs of the powered down ADV3000 need to be in a high impedance state to avoid pulling down on the DDC lines and preventing these other devices from using the bus. When the ADV3000 is powered from a simple resistor network, as shown in Figure 28, it uses the 5 V supply that is required from any HDMI/DVI source to guarantee high impedance of the auxiliary multiplexer pins. The AMUXVCC supply does not draw any static current; therefore, it is recommended that the resistor network tap the 5 V supplies as close to the connectors as possible to avoid any additional voltage drop. This precaution does not need to be taken if the DDC peripheral circuitry is connected to the bus downstream of the ADV3000. +5V INTERNAL (IF ANY) PIN 18 HDMI CONNECTOR PIN 18 HDMI CONNECTOR PIN 14 DVI CONNECTOR PIN 14 DVI CONNECTOR 10MΩ 10kΩ 10kΩ SOURCE A +5V +5V SOURCE C I