3 GHz HDMI 5:2 Crosspoint Transceiver with On-Screen Display ADV7625 Data Sheet FEATURES 2 independent HDMI transmitters 3 GHz support on all outputs EDID data extraction Hot Plug detect (HPD) inputs Audio return channel (ARC) receiver per transmitter 3 GHz color space converter (CSC) per transmitter Audio HDMI-compatible audio interface 2 independent 8-channel audio extraction ports 2 independent 8-channel audio insertion ports S/PDIF (IEC 60958-compatible) digital audio input/output Super Audio CD® (SACD) with DSD input/output interface High bit rate (HBR) audio Dolby® TrueHD DTS-HD Master Audio™ Full audio input and output support General Interrupt controller Standard identification (STDI) circuit Software libraries, driver, and application available 5-input, 2-output crosspoint HDMI transceiver HDMI support 3 GHz video support (up to 4k × 2k) Audio return channel (ARC) 3D TV support Content type bits CEC 1.4-compatible Extended colorimetry Character- and icon-based on-screen display (OSD) 3D OSD overlay on all mandatory 3D formats Support for OSD overlay on 3 GHz video formats High-bandwidth Digital Content Protection (HDCP 1.4) HDCP repeater support: up to 127 KSVs supported 300 MHz maximum TMDS clock frequency (up to 4k × 2k) 48-/36-/30-bit Deep Color input modes supported Ultralow jitter digital PLL (100% deskew) TTL pixel port input Allows digital video input to facilitate analog video support Interlaced-to-progressive converter 2 independent HDMI receivers for 5 input ports 3 GHz support on all inputs Adaptive equalizer for cable lengths up to 30 meters Flexible internal EDID RAM supports dual EDIDs Replication of either dual EDID on any input port 5 V detect inputs Hot Plug assert control outputs APPLICATIONS AVR Soundbar with HDMI repeater support Matrix switch Other repeater applications FUNCTIONAL BLOCK DIAGRAM ADV7625 HDMI_RX_B TMDS DDC HDMI_RX_C TMDS DDC HDMI_RX_D TMDS DDC HDMI_RX_E TMDS DDC CEC A HDCP HDCP HDMI RXs 5:2 CROSSPOINT MUX TMDS DDC ARC CP-LITEs OSD HDMI TXs HDCP TMDS DDC ARC HDCP RX EDID WITH 2 REPLICATOR I C HDMI_TX_A HDMI_TX_B CEC B DIGITAL AUDIO INPUT PORTS DIGITAL AUDIO OUTPUT PORTS PIXEL PORT INPUT SPI INTERRUPTS TX EDID/HDCP CONTROLLER 11831-001 HDMI_RX_A TMDS DDC Figure 1. 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Technical Support www.analog.com ADV7625 Data Sheet TABLE OF CONTENTS Features .............................................................................................. 1 Power Supply Recommendations ................................................. 22 Applications ....................................................................................... 1 Power-Up Sequence ................................................................... 22 Functional Block Diagram .............................................................. 1 Power-Down Sequence .............................................................. 22 Revision History ............................................................................... 2 Theory of Operation ...................................................................... 23 General Description ......................................................................... 3 HDMI Receivers ......................................................................... 23 Detailed Functional Block Diagram .............................................. 4 HDCP Repeater Functionality ................................................. 23 Specifications..................................................................................... 5 Digital Audio Ports .................................................................... 23 Digital, HDMI, and AC Specifications ...................................... 5 On-Screen Display ..................................................................... 23 Data and I C Timing Characteristics ......................................... 6 Pixel Port Input ........................................................................... 23 Power Specifications .................................................................. 13 HDMI Transmitters ................................................................... 23 Absolute Maximum Ratings .......................................................... 15 I2C Interface ................................................................................ 23 Package Thermal Performance ................................................. 15 Other Features ............................................................................ 23 ESD Caution ................................................................................ 15 Outline Dimensions ....................................................................... 24 Pin Configuration and Function Descriptions ........................... 16 Ordering Guide .......................................................................... 24 2 REVISION HISTORY 12/13—Revision 0: Initial Version Rev. 0 | Page 2 of 24 Data Sheet ADV7625 GENERAL DESCRIPTION The ADV7625 is a high performance, five-input, dual-output, High-Definition Multimedia Interface (HDMI®) transceiver with crosspoint and splitter capabilities. The ADV7625 supports 3 GHz video and features two independent HDMI receivers, two independent HDMI transmitters, two audio output ports, two audio input ports, and a pixel port input. The ADV7625 supports all HDCP repeater functions through fully tested Analog Devices, Inc., repeater software libraries and drivers. The ADV7625 offers two audio output ports and two audio input ports. Each audio port supports the extraction and insertion of up to eight channels of audio data out of or into the HDMI streams. HDMI audio formats, including I2S, S/PDIF, direct stream digital (DSD), and high bit rate (HBR) audio are supported. The HDMI receivers and transmitters in the ADV7625 support the reception and transmission of 3 GHz video formats up to 4k × 2k at 24 Hz/25 Hz/30 Hz, in addition to all mandatory HDMI 3D TV formats. The receivers and transmitters also provide support for THX® Media Director™. The ADV7625 has an integrated on-screen display (OSD) generator that enables the creation and control of high quality character- and icon-based system status and control displays. The OSD can be overlaid on 3 GHz video formats and 3D video. Customers who are interested in using OSD are provided with Blimp, the Analog Devices OSD development tool. Each HDMI receiver features an integrated equalizer that ensures robust operation of the interface with cable lengths up to 30 meters. The HDMI receivers share a 768-byte volatile extended display identification data (EDID) memory, which can facilitate one or two EDIDs, one for each receiver. Each HDMI port features dedicated 5 V detect and Hot Plug™ assert pins. The ADV7625 features a TTL pixel port input that facilitates the reception of digital video data from an analog front-end decoder (for example, the ADV7180, ADV7181D, or ADV7842). The ADV7625 is provided in a space-saving, 260-ball, 15 mm × 15 mm CSP_BGA surface-mount, RoHS-compliant package and is specified over the 0°C to 70°C temperature range. Each HDMI transmitter supports audio return channel (ARC) and features an integrated HDMI CEC controller that supports capability discovery and control (CDC). Rev. 0 | Page 3 of 24 Rev. 0 | Page 4 of 24 Figure 2. Detailed Functional Block Diagram SAMPLER EQUALIZER EQUALIZER DDC CONTROL PLLs I2C CONTROLLER SAMPLER SAMPLER EQUALIZER EQUALIZER SAMPLER HDMI RX2 HDMI RX1 4:2:2 TO 4:4:4 CP-LITE B 4:2:2 TO 4:4:4 CP-LITE A ARC_B PIXEL PORT INPUT INTERLACED-TO-PROGRESSIVE (480i/576i ONLY) RX2 AUDIO EXTRACTION RX1 AUDIO EXTRACTION ARC_A TX HPD/ARC PCLK DE VS HS P0* P15* CS ALSB SDA SCL HDCP *PINS FOR PIXEL PORT INPUT SIGNALS P15 TO P0 ARE SHARED WITH AP1_IN AND AP2_IN AUDIO INPUT PORT PINS. DDC_SCL_RXA DDC_SDA_RX A DDC_SCL_RXB DDC_SDA_RXB DDC_SCL_RXC DDC_SDA_RXC DDC_SCL_RXD DDC_SDA_RXD DDC_SCL_RXE DDC_SDA_RXE RXE_0± RXE_1± RXE_2± RXA_C± RXB_C± RXC_C± RXD_C± RXE_C± SAMPLER EQUALIZER 5V DETECT AP1_OUT0 DIGITAL AUDIO OUTPUT PORT 1 AP1_OUT_MCLK AP1_OUT_SCLK AP1_OUT5 HPA CONTROL HDCP KEYS MEMORY TXB_ARC+ TXB_HPD_ARC– TXA_ARC+ TXA_HPD_ARC– RXA_HPA RXB_HPA RXC_HPA RXD_HPA RXE_HPA RXA_5V RXB_5V RXC_5V RXD_5V RXE_5V RXA_0± RXA_1± RXA_2± RXB_0± RXB_1± RXB_2± RXC_0± RXC_1± RXC_2± RXD_0± RXD_1± RXD_2± CLOCK GENERATION DIGITAL AUDIO OUTPUT PORT 2 AP2_OUT0 XTAL– AP2_OUT_MCLK AP2_OUT_SCLK AP2_OUT5 HDCP SPI OSD BLEND B OSD OSD BLEND A DIGITAL AUDIO INPUT PORT 1 AP1_IN0*/AUD1_IN HDMI TXA TX EDID/HDCP CONTROLLER CEC MASTER B CEC MASTER A INTERRUPT CONTROLLER HDMI TXB TXB AUDIO INSERTION TXA AUDIO INSERTION DIGITAL AUDIO INPUT PORT 2 TXB_C± TXB_0± TXB_1± TXB_2± TXA_C± TXA_0± TXA_1± TXA_2± DDC_SCL_TXA DDC_SDA_TXA DDC_SCL_TXB DDC_SDA_TXB CEC_B CEC_A TXB PLL TXA PLL CSC AP1_IN_MCLK* AP1_IN_SCLK*/AUD1_IN_SCLK AP1_IN5*/AUD1_IN_LRCLK CSC AP2_IN0*/AUD2_IN DCM HDCP AP2_IN_MCLK* AP2_IN_SCLK*/AUD2_IN_SCLK AP2_IN5*/AUD2_IN_LRCLK DCM HDCP XTAL+ ADV7625 Data Sheet DETAILED FUNCTIONAL BLOCK DIAGRAM INT2 INT1 EP_MOSI EP_MISO EP_SCLK EP_CS 11831-002 Data Sheet ADV7625 SPECIFICATIONS AVDD_TXA = 1.8 V ± 5%, AVDD_TXB = 1.8 V ± 5%, CVDD = 1.8 V ± 5%, DVDD = 1.8 V ± 5%, DVDDIO = 3.3 V ± 5%, PVDD = 1.8 V ± 5%, PVDD_TXA = 1.8 V ± 5%, PVDD_TXB = 1.8 V ± 5%, TVDD = 3.3 V ± 5%, TMIN to TMAX = 0°C to 70°C. DIGITAL, HDMI, AND AC SPECIFICATIONS Table 1. Parameter DIGITAL INPUTS Input High Voltage (VIH) Input Low Voltage (VIL) Input Leakage Current (IIN) Input Capacitance (CIN) DIGITAL INPUTS (5 V TOLERANT) 1 Input High Voltage (VIH) Input Low Voltage (VIL) Input Leakage Current (IIN) Test Conditions/Comments Min Typ Max Unit 0.8 +60 20 V V µA pF 0.8 +450 +60 V V µA µA 2 −60 2.85 RXA_5V, RXB_5V, RXC_5V, RXD_5V, RXE_5V All other 5 V tolerant digital inputs DIGITAL OUTPUTS Output High Voltage (VOH) Output Low Voltage (VOL) High Impedance Leakage Current (ILEAK) Output Capacitance (COUT) DIGITAL OUTPUTS (5 V TOLERANT) 2 Output High Voltage (VOH) Output Low Voltage (VOL) AC SPECIFICATIONS TMDS Input Clock Range TMDS Output Clock Frequency −450 −60 2.4 20 V V µA pF 0.4 V V 300 300 MHz MHz 0.4 10 4.85 25 25 The following pins are 5 V tolerant inputs: DDC_SCL_RXA, DDC_SDA_RXA, DDC_SCL_RXB, DDC_SDA_RXB, DDC_SCL_RXC, DDC_SDA_RXC, DDC_SCL_RXD, DDC_SDA_RXD, DDC_SCL_RXE, DDC_SDA_RXE, RXA_5V, RXB_5V, RXC_5V, RXD_5V, RXE_5V, CEC_A, DDC_SCL_TXA, DDC_SDA_TXA, TXA_HPD_ARC−, TXA_ARC+, CEC_B, DDC_SCL_TXB, DDC_SDA_TXB, TXB_HPD_ARC−, and TXB_ARC+. 2 The following pins are 5 V tolerant outputs: RXA_HPA, RXB_HPA, RXC_HPA, RXD_HPA, and RXE_HPA. 1 Rev. 0 | Page 5 of 24 ADV7625 Data Sheet DATA AND I2C TIMING CHARACTERISTICS Table 2. Parameter VIDEO SYSTEM CLOCK AND XTAL Crystal Nominal Frequency Crystal Frequency Stability External Clock Source Symbol VIH Input Low Voltage VIL Pixel Port Input Clock Frequency Range External crystal must operate at 1.8 V XTAL driven with external clock source XTAL driven with external clock source Interlaced-to-progressive converter not enabled Interlaced-to-progressive converter enabled (480i, 576i) EP_MISO Hold Time Typ Max Unit ±50 MHz ppm 1.2 13.5 V 0.4 V 148.5 MHz 13.5 MHz 27 49.152 98.304 5.6448 MHz MHz MHz MHz 5 ms 400 t1 t2 t3 t4 t5 t6 t7 t8 600 1.3 600 600 100 300 300 0.6 kHz ns µs ns ns ns ns ns µs SPI Mode 0 t9, t10 t11, t12 1 × EP_SCLK periods 1 × EP_SCLK periods 1000 40 1.5 × EP_SCLK periods 1.5 × EP_SCLK periods 60 40 60 ns ns t15 0 ns % duty cycle % duty cycle ns t15 0 ns t16 2.15 ns t16 2.15 ns t13 t14 EP_SCLK Low Time EP_MOSI Start of Data Invalid to EP_SCLK Falling Edge EP_CS Start of Data Invalid to EP_SCLK Falling Edge EP_SCLK Falling Edge to EP_MOSI End of Data Invalid EP_SCLK Falling Edge to EP_CS End of Data Invalid EP_MISO Setup Time Min 27.0 Input High Voltage Serial Port EP_SCLK Frequency Audio SCLK Frequency Audio MCLK Frequency Audio DSD Clock Frequency RESET FEATURE Reset Pulse Width I2C PORTS (FAST MODE) xCL Frequency 1 xCL Minimum Pulse Width High1 xCL Minimum Pulse Width Low1 Start Condition Hold Time Start Condition Setup Time xDA Setup Time 2 xCL and xDA Rise Time1, 2 xCL and xDA Fall Time1, 2 Setup Time (Stop Condition) SERIAL PORT, MASTER MODE 3, 4 EP_CS Falling Edge to EP_SCLK Rising/Falling Edge EP_SCLK Rising/Falling Edge to EP_CS Rising Edge EP_CS Pulse Width 5 EP_SCLK High Time Test Conditions/Comments t17 t18 Valid regardless of the EP_SCLK active edge used Valid regardless of the EP_SCLK active edge used Rev. 0 | Page 6 of 24 7.5 ns 0 ns Data Sheet Parameter SERIAL PORT, SLAVE MODE3, 4 EP_CS Falling Edge to EP_SCLK Rising Edge Final EP_SCLK Rising Edge to EP_CS Rising Edge EP_CS Pulse Width5 EP_SCLK High Time ADV7625 Symbol Test Conditions/Comments SPI Mode 0 t22 10 ns 20 × EP_SCLK periods t23 t24 t25 t26 t27 45 55 45 55 t28 9 t29 0.45 to 0.55 × PCLK period 0.45 to 0.55 × PCLK period % duty cycle % duty cycle ns ns ns ns t30 Data latched on rising edge 1.0 % duty cycle % duty cycle ns t31 Data latched on rising edge 1.4 ns t32 Data latched on falling edge 1.0 ns t33 Data latched on falling edge 1.4 ns t37 t38 t39 t37 45 55 45 55 2.3 1.6 45 55 45 55 t38 t39 1.0 3.5 t40 45 55 45 55 APx_IN_SCLK Low Time APx_IN DSD Data Setup Time APx_IN DSD Data Hold Time AUDIO OUTPUT PORTS, I2S OUTPUT APx_OUT_SCLK High Time ns 0.5 1.4 5.5 AUDx_IN_SCLK Low Time AUDx_IN Data Setup Time AUDx_IN Data Hold Time AUDIO INPUT PORTS, DSD INPUT APx_IN_SCLK High Time Unit ns APx_IN_SCLK Low Time APx_IN Data Setup Time APx_IN Data Hold Time AUDx_IN_SCLK High Time Max 10 PCLK Low Time5 Pixel Port Input, Setup Time, SDR and DDR Modes Pixel Port Input, Hold Time, SDR and DDR Modes Pixel Port Input, Setup Time, DDR Mode Pixel Port Input, Hold Time, DDR Mode AUDIO INPUT PORTS, I2S INPUT APx_IN_SCLK High Time Typ t20 EP_SCLK Low Time EP_MOSI Setup Time EP_MOSI Hold Time EP_SCLK Falling Edge to EP_MISO Start of Data Invalid EP_SCLK Falling Edge to EP_MISO End of Data Invalid VIDEO DATA AND CONTROL INPUTS PCLK High Time5 Min t41 t42 2.3 1.6 t46 45 55 45 55 APx_OUT_SCLK Low Time APx_OUT LRCLK Transition Time t47 APx_OUT LRCLK Transition Time t48 Start of invalid LRCLK to falling APx_OUT_SCLK edge Falling APx_OUT_SCLK edge to end of invalid LRCLK Rev. 0 | Page 7 of 24 % duty cycle % duty cycle ns ns % duty cycle % duty cycle ns ns % duty cycle % duty cycle ns ns 10 % duty cycle % duty cycle ns 10 ns ADV7625 Data Sheet Parameter APx_OUT Data Transition Time Symbol t49 APx_OUT Data Transition Time t50 AUDIO OUTPUT PORTS, DSD OUTPUT APx_OUT_SCLK High Time t51 Test Conditions/Comments Start of invalid data to falling APx_OUT_SCLK edge Falling APx_OUT_SCLK edge to end of invalid data APx_OUT_SCLK Low Time APx_OUT DSD Data Transition Time t52 APx_OUT DSD Data Transition Time t53 Min Typ Max 10 Unit ns 10 ns 45 55 45 55 10 % duty cycle % duty cycle ns 10 ns Start of invalid data to falling APx_OUT_SCLK edge Falling APx_OUT_SCLK edge to end of invalid data xCL refers to SCL, DDC_SCL_RXA, DDC_SCL_RXB, DDC_SCL_RXC, DDC_SCL_RXD, and DDC_SCL_RXE. xDA refers to SDA, DDC_SDA_RXA, DDC_SDA_RXB, DDC_SDA_RXC, DDC_SDA_RXD, and DDC_SDA_RXE. 3 SPI Mode 0 only. 4 All serial port measurements are for CPHA = 0, CPOL = 0 (clock is low in idle state; negative edge of clock is used to transmit data and positive edge is used to sample data). 5 Measurements guaranteed by design only. 1 2 Timing Diagrams t3 t5 t3 xDA t1 t6 t2 t7 t4 11831-003 xCL t8 Figure 3. I2C Timing t13 t9 t10 t11 t12 EP_CS EP_SCLK EP_MOSI 24-BIT ADDRESS 23 22 21 ... 3 2 DUMMY BYTE 1 0 7 6 5 4 3 2 1 0 DATA OUT 1 EP_MISO DATA OUT 2 11831-004 INSTRUCTION (0x0B) 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Figure 4. Detailed SPI Master Timing Diagram (SPI Mode 0, CPOL = CPHA = 0) t14 t17 t17 t15 t18 t16 t18 EP_SCLK EP_MOSI EP_CS EP_MISO (FALLING EDGE CAPTURE) 11831-005 EP_MISO (RISING EDGE CAPTURE) Figure 5. SPI Master Mode Timing (SPI Mode 0) Rev. 0 | Page 8 of 24 Data Sheet ADV7625 t23 t22 t20 EP_CS EP_SCLK W/R EP_MOSI 7 6 5 4 3 2 1 0 7 6 5 4 3 2 DATA IN 0 1 0 7 6 5 4 3 DATA IN 1 2 1 0 7 6 7 6 DATA OUT 0 7 6 5 4 3 2 4 3 2 1 0 1 0 1 0 DATA OUT 0 DUMMY BYTE DELAY MODE 1 EP_MISO DELAY MODE 0 EP_MISO 5 5 4 3 2 DATA OUT 1 1 0 7 6 5 4 3 2 11831-006 SUBADDRESS DEVICE ADDRESS Figure 6. Detailed SPI Slave Timing Diagram (SPI Mode 0, CPOL = CPHA = 0) t24 t25 t28 t26 t27 EP_SCLK EP_MOSI 11831-007 EP_MISO Figure 7. SPI Slave Mode Timing (SPI Mode 0) t29 t30 t31 PCLK 11831-008 P[15:0] HS VS DE Figure 8. Pixel Port Input, Noninterleaved SDR Video Data and Control Timing t29 PCLK t32 t31 t33 t30 11831-009 P[15:0] HS VS DE Figure 9. Pixel Port Input, Noninterleaved DDR Video Data and Control Timing Rev. 0 | Page 9 of 24 ADV7625 Data Sheet t37 SCLK t38 t39 I2S[3:0] LRCLK AUDIO INPUT PORTS I2S SIGNAL ASSIGNMENT INPUT PORT SCLK AUD1_IN AUD2_IN LRCLK I2S[3:0] AUD1_IN_SCLK AUD1_IN_LRCLK AUD1_IN (I2S0 ONLY) AUD2_IN_SCLK AUD2_IN_LRCLK AUD2_IN (I2S0 ONLY) AP1_IN AP1_IN_SCLK AP1_IN5 AP1_IN[4:1] AP2_IN AP2_IN_SCLK AP2_IN5 AP2_IN[4:1] 11831-012 NOTES 1. AUD1_IN AND AUD2_IN PORTS NOT AVAILABLE WHEN AP1_IN AND AP2_IN PORTS USED. 2. AP1_IN AND AP2_IN PORTS NOT AVAILABLE WHEN PIXEL PORT INPUT USED. Figure 10. I2S Input Timing LRCLK LEFT RIGHT SCLK MSBLEFT I2S[3:0] MSBRIGHT LSB 32 CLOCK SLOTS 11831-013 32 CLOCK SLOTS LSB I2S STANDARD I2S FORMAT = 00 Figure 11. I2S Standard Audio, Data Width 16 to 24 Bits per Channel LRCLK LEFT RIGHT SCLK LSBRIGHT MSBLEFT LSBLEFT MSBRIGHT LSB 16 CLOCK SLOTS 16 CLOCK SLOTS 11831-014 I2S[3:0] Figure 12. I2S Standard Audio, 16-Bit Samples Only Rev. 0 | Page 10 of 24 Data Sheet LRCLK ADV7625 RIGHT LEFT SCLK I2S[3:0] MSB MSB MSB MSB MSB – 1 LSB MSB MSB EXTENDED MSB MSB MSB LSB MSB – 1 MSB EXTENDED 32 CLOCK SLOTS 32 CLOCK SLOTS 11831-015 SERIAL AUDIO RIGHT JUSTIFIED I2S FORMAT = 01 Figure 13. Serial Audio, Right-Justified LRCLK RIGHT LEFT SCLK MSB I2S[3:0] LSB MSB LSB 32 CLOCK SLOTS 32 CLOCK SLOTS 11831-016 SERIAL AUDIO LEFT JUSTIFIED I2S FORMAT = 10 Figure 14. Serial Audio, Left-Justified LRCLK CHANNEL B CHANNEL A SCLK MSB V U C P LSB MSB V 32 CLOCK SLOTS U C P 32 CLOCK SLOTS FRAME n FRAME n + 1 AES3 DIRECT AUDIO I2S FORMAT = 11 Figure 15. AES3 Direct Audio t40 APx_IN_SCLK t41 t42 APx_IN[5:0] NOTES 1. APx REFERS TO THE AUDIO INPUT PORTS AP1_IN AND AP2_IN. Figure 16. DSD Input Timing Rev. 0 | Page 11 of 24 11831-017 LSB 11831-018 I2S[3:0] ADV7625 Data Sheet t 46 APx_OUT_SCLK t 47 LRCLK t48 I2Sx LEFT-JUSTIFIED MODE t49 MSB MSB – 1 t50 I2Sx I2S MODE t49 MSB MSB – 1 t50 I2Sx RIGHT-JUSTIFIED MODE t49 MSB LSB t50 11831-020 NOTES 1. APx REFERS TO THE AUDIO OUTPUT PORTS AP1_OUT AND AP2_OUT. 2. LRCLK IS A SIGNAL ACCESSIBLE VIA APx_OUT5. 3. I2Sx ARE SIGNALS ACCESSIBLE VIA APx_OUT1 TO APx_OUT4. Figure 17. I2S Output Timing t53 t51 APx_OUT_SCLK t52 NOTES 1. APx REFERS TO THE AUDIO OUTPUT PORTS AP1_OUT AND AP2_OUT. Figure 18. DSD Output Timing Rev. 0 | Page 12 of 24 11831-021 APx_OUT[5:0] Data Sheet ADV7625 POWER SPECIFICATIONS Table 3. Parameter POWER SUPPLIES HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply CURRENT CONSUMPTION—MUX MODE 1, 2 HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Core Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply CURRENT CONSUMPTION—AUDIO EXTRACT/ AUDIO INSERT MODE1, 3 HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Core Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply CURRENT CONSUMPTION—PIXEL PORT INPUT MODE1, 4 HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Core Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply CURRENT CONSUMPTION—SPLITTER MODE1, 5 HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Core Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply Symbol Min Typ Max Unit AVDD_TXA AVDD_TXB CVDD DVDD DVDDIO PVDD PVDD_TXA PVDD_TXB TVDD 1.71 1.71 1.71 1.71 3.14 1.71 1.71 1.71 3.14 1.8 1.8 1.8 1.8 3.3 1.8 1.8 1.8 3.3 1.89 1.89 1.89 1.89 3.46 1.89 1.89 1.89 3.46 V V V V V V V V V IAVDD_TXA IAVDD_TXB ICVDD IDVDD IDVDDIO IPVDD IPVDD_TXA IPVDD_TXB ITVDD 23.2 23.2 196 326.1 0.1 69.7 71.5 71.5 116 mA mA mA mA mA mA mA mA mA IAVDD_TXA IAVDD_TXB ICVDD IDVDD IDVDDIO IPVDD IPVDD_TXA IPVDD_TXB ITVDD 26.2 26.2 184 436.0 0.05 64 71.1 71.1 115 mA mA mA mA mA mA mA mA mA IAVDD_TXA IAVDD_TXB ICVDD IDVDD IDVDDIO IPVDD IPVDD_TXA IPVDD_TXB ITVDD 16.0 25.5 184 164 0.05 64.1 55.2 69.5 115.2 mA mA mA mA mA mA mA mA mA IAVDD_TXA IAVDD_TXB ICVDD IDVDD IDVDDIO IPVDD IPVDD_TXA IPVDD_TXB ITVDD 26.2 26.2 93 243.5 0.05 33.5 71.1 71.1 115 mA mA mA mA mA mA mA mA mA Rev. 0 | Page 13 of 24 ADV7625 Parameter CURRENT CONSUMPTION—POWER-DOWN MODE 01, 6 HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Core Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply CURRENT CONSUMPTION—POWER-DOWN MODE 11, 7 HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Core Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply CURRENT CONSUMPTION—EXAMPLE MAXIMUM OPERATING MODE1, 8 HDMI TxA Analog Power Supply HDMI TxB Analog Power Supply Comparator Power Supply Digital Core Power Supply Digital I/O Power Supply PLL Power Supply HDMI TxA PLL Power Supply HDMI TxB PLL Power Supply Termination Power Supply Data Sheet Symbol Min Typ Max Unit IAVDD_TXA IAVDD_TXB ICVDD IDVDD IDVDDIO IPVDD IPVDD_TXA IPVDD_TXB ITVDD 0.65 0.65 0.84 0.25 0.21 0.02 0.05 0.05 0.14 mA mA mA mA mA mA mA mA mA IAVDD_TXA IAVDD_TXB ICVDD IDVDD IDVDDIO IPVDD IPVDD_TXA IPVDD_TXB ITVDD 0.95 0.95 0.84 0.95 0.21 0.02 0.05 0.05 0.14 mA mA mA mA mA mA mA mA mA IAVDD_TXA IAVDD_TXB ICVDD IDVDD IDVDDIO IPVDD IPVDD_TXA IPVDD_TXB ITVDD 30.00 30.00 213.00 530.00 0.25 79.00 79.00 80.00 127.00 mA mA mA mA mA mA mA mA mA Data recorded during lab characterization. Typical current consumption values are recorded with nominal voltage supply levels and at room temperature. ADV7625 configured in mux mode with two active HDMI Rx inputs and two HDMI Tx outputs in use. 4k × 2k at 30 Hz video format with pseudo random test pattern applied to each active HDMI Rx input port. HDMI Rx termination closed on the two active HDMI Rx input ports and open on the three unused HDMI Rx input ports. HDMI Tx source termination enabled. 3 ADV7625 configured in audio extract/audio insert mode with two active HDMI Rx inputs and two HDMI Tx outputs in use. Audio extracted from both active HDMI Rx inputs and output on AP1_OUT and AP2_OUT. Audio inserted on HDMI Tx outputs from AP1_IN and AP2_IN input ports, respectively. HBR audio used. 4k × 2k at 30 Hz video format with pseudo random test pattern applied to both active HDMI Rx input ports. HDMI Rx port termination closed on the two active HDMI Rx input ports and open on the three unused HDMI Rx input ports. HDMI Tx source termination enabled. OSD not enabled. 4 ADV7625 configured in pixel port input mode with pixel port input, one HDMI Rx input, and two HDMI Tx outputs in use. 1080p video format applied to pixel port input and output on one HDMI Tx output. Stereo I2S audio inserted on this HDMI Tx output from one AUDx_IN input. No audio extraction. 4k × 2k at 30 Hz video format with pseudo random test pattern applied to HDMI Rx input and output on second HDMI Tx output. HBR audio inserted on this HDMI Tx output from the connected HDMI Rx input. HDMI Rx port termination closed on the active HDMI Rx input port and open on the four unused HDMI Rx input ports. HDMI Tx source termination enabled. OSD not enabled. 5 ADV7625 configured in splitter mode with one HDMI Rx input and two HDMI Tx outputs in use. 4k × 2k at 30 Hz video format with pseudo random test pattern applied to one HDMI Rx input and output on both HDMI Tx outputs using splitter mode. HBR audio from HDMI Rx input inserted on the HDMI Tx outputs. No audio extraction. HDMI Rx port termination closed on the active HDMI Rx input port and open on the four unused HDMI Rx input ports. HDMI Tx source termination enabled. OSD enabled and blended on both HDMI Tx outputs using splitter mode. 6 ADV7625 configured in Power-Down Mode 0 with two HDMI Rx inputs and two HDMI Tx outputs connected. In Power-Down Mode 0, all blocks are powered down except for the I2C slave. 7 ADV7625 configured in Power-Down Mode 1 with two HDMI Rx inputs and two HDMI Tx outputs connected. In Power-Down Mode 1, all blocks are powered down except for the I2C slave and the CEC (to monitor wake-up interrupts). 8 ADV7625 configured in an example maximum operating mode with two active HDMI Rx inputs and two HDMI Tx outputs in use. HBR audio from the two active HDMI Rx inputs inserted on the corresponding HDMI Tx outputs. No audio extraction. 4k × 2k at 30 Hz video format with pseudo random test pattern applied to each of the five HDMI Rx input ports. HDMI Rx port termination closed on all five HDMI Rx input ports (not recommended). HDMI Tx source termination enabled. OSD enabled. Maximum current consumption values recorded with maximum power supply levels at device maximum operating temperature. 1 2 Rev. 0 | Page 14 of 24 Data Sheet ADV7625 ABSOLUTE MAXIMUM RATINGS PACKAGE THERMAL PERFORMANCE Table 4. Parameter AVDD_TXA to GND AVDD_TXB to GND CVDD to GND DVDD to GND PVDD to GND PVDD_TXA to GND PVDD_TXB to GND DVDDIO to GND TVDD to GND Digital Inputs Voltage to GND 5 V Tolerant Digital Inputs to GND1 Digital Outputs Voltage to GND XTAL+, XTAL− Pins Maximum Junction Temperature (TJ MAX) Storage Temperature Range Infrared Reflow, Soldering (20 sec) 1 Rating 2.2 V 2.2 V 2.2 V 2.2 V 2.2 V 2.2 V 2.2 V 4.0 V 4.0 V GND − 0.3 V to DVDDIO + 0.3 V up to a maximum of 4.0 V 5.5 V GND − 0.3 V to DVDDIO + 0.3 V up to a maximum of 4.0 V −0.3 V to PVDD + 0.3 V 125°C −65°C to +150°C 260°C The following inputs are 5 V tolerant: DDC_SCL_RXA, DDC_SDA_RXA, DDC_ SCL_RXB, DDC_SDA_RXB, DDC_SCL_RXC, DDC_SDA_RXC, DDC_SCL_RXD, DDC_SDA_RXD, DDC_SCL_RXE, DDC_SDA_RXE, RXA_5V, RXB_5V, RXC_5V, RXD_5V, RXE_5V, CEC_A, DDC_SCL_TXA, DDC_SDA_TXA, TXA_HPD_ARC−, TXA_ARC+, CEC_B, DDC_SCL_TXB, DDC_SDA_TXB, TXB_HPD_ARC−, and TXB_ARC+. 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. To reduce power consumption when using the ADV7625, the user is advised to turn off unused sections of the device. Due to printed circuit board (PCB) metal variation and, therefore, variation in PCB heat conductivity, the value of θJA may differ for various PCBs. The most efficient measurement solution is obtained using the package surface temperature to estimate the die temperature because this solution eliminates the variance associated with the θJA value. The maximum junction temperature (TJ MAX) of 125°C must not be exceeded. The following equation calculates the junction temperature using the measured package surface temperature and applies only when no heat sink is used on the device under test (DUT): TJ = TS + (ΨJT × WTOTAL) where: TS is the package surface temperature (°C). ΨJT = 0.41°C/W for the 260-ball CSP_BGA (based on 2s2p test board defined in the JEDEC specification). WTOTAL = ((PVDD × IPVDD) + (PVDD_TXA × IPVDD_TXA) + (PVDD_TXB × IPVDD_TXB) + (TVDD × ITVDD) + (CVDD × ICVDD) + (AVDD_TXA × IAVDD_TXA) + (AVDD_TXB × IAVDD_TXB) + (DVDD × IDVDD) + (DVDDIO × IDVDDIO)) Note that this calculation assumes a configuration of two active HDMI Rx inputs and two active HDMI Tx outputs, where termination is open on the unused Rx input ports. A configuration of one active HDMI Rx input and two active HDMI Tx outputs (splitter mode) results in approximately 112 mW extra power dissipation on chip. ESD CAUTION Rev. 0 | Page 15 of 24 ADV7625 Data Sheet PIN CONFIGURATION AND FUNCTION DESCRIPTIONS A GND RXA_2+ RXA_1+ RXA_0+ RXA_C+ CVDD RXB_2+ RXB_1+ RXB_0+ RXB_C+ CVDD RXC_2+ RXC_1+ RXC_0+ RXC_C+ CVDD RXC_5V GND B GND RXA_2– RXA_1– RXA_0– RXA_C– CVDD RXB_2– RXB_1– RXB_0– RXB_C– CVDD RXC_2– RXC_1– RXC_0– RXC_C– CVDD RXC_HPA GND C GND CVDD CVDD TVDD TVDD GND GND TVDD TVDD GND GND TVDD TVDD GND GND CVDD GND GND D INT1 INT2 SCL SDA CS RXA_5V RXA_HPA TVDD RXD_2– RXD_2+ E AP1_ OUT0 AP1_ OUT1 ALSB RESET RXD_5V TVDD RXD_1– RXD_1+ F AP1_ OUT2 AP1_ OUT3 AP2_ OUT0 AP2_ OUT1 RXD_HPA GND RXD_0– RXD_0+ G AP1_ OUT4 AP1_ OUT5 AP2_ OUT2 AP2_ OUT3 DVDD DVDD DVDD DVDD DVDD TEST5 DDC_SCL _RXD GND RXD_C– RXD_C+ H AP1_ OUT_ MCLK AP1_ OUT_ SCLK AP2_ OUT4 AP2_ OUT5 DVDDIO GND GND GND GND GND DDC_ SDA_RXD GND CVDD CVDD J AP2_ OUT_ MCLK AP2_ OUT_ SCLK AUD1_IN AUD1_IN_ SCLK DVDDIO GND GND GND GND GND DDC_ SCL_RXE TVDD RXE_2– RXE_2+ K GND GND AUD1_IN_ AUD2_IN LRCLK GND GND GND GND GND GND DDC_ SDA_RXE TVDD RXE_1– RXE_1+ L XTAL+ XTAL– AUD2_IN_ AUD2_IN_ SCLK LRCLK GND GND GND GND GND GND RXE_HPA GND RXE_0– RXE_0+ M PVDD PVDD TEST3 TEST2 GND GND GND GND GND GND RXE_5V GND RXE_C– RXE_C+ N GND GND PVDD_ TXA PVDD_ TXA GND GND CVDD CVDD P TXA_C– TXA_C+ GND R_TXA HS VS TEST4 TEST1 R TXA_0– TXA_0+ GND AVDD_ TXA TXB_ HPD_ ARC– R_TXB GND TXB_ ARC+ T TXA_1– TXA_1+ GND AVDD_ TXA CEC_A GND GND GND GND U TXA_2– TXA_2+ GND DDC_ SCL_TXA TXA_ ARC+ PVDD_ TXB GND TXB_C+ V GND GND GND DDC_ SDA_TXA TXA_ HPD_ ARC– PVDD_ TXB GND 1 2 3 4 5 6 7 DDC_ DDC_ SDA_TXB SCL_TXB RXB_5V DDC_ DDC_ SDA_RXC SCL_RXC P9/AP2_ IN_SCLK DVDDIO EP_CS AVDD_ TXB AVDD_ TXB DVDDIO EP_SCLK TXB_0+ TXB_1+ TXB_2+ GND EP_MOSI P1/AP1_ IN_SCLK P3/AP1_ IN4 P5/AP1_ IN2 P7/AP1_ IN0 TXB_C– TXB_0– TXB_1– TXB_2– GND P0/AP1_ EP_MISO IN_MCLK P2/AP1_ IN5 P4/AP1_ IN3 P6/AP1_ IN1 GND 8 9 10 11 12 15 16 17 18 13 P8/AP2_ P10/AP2_ P12/AP2_ P14/AP2_ IN_MCLK IN5 IN3 IN1 14 Figure 19. Pin Configuration Table 5. Pin Function Descriptions Pin No. A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 Mnemonic GND RXA_2+ RXA_1+ RXA_0+ RXA_C+ CVDD RXB_2+ RXB_1+ RXB_0+ RXB_C+ CVDD RXC_2+ Function Ground HDMI Rx input HDMI Rx input HDMI Rx input HDMI Rx input Power HDMI Rx input HDMI Rx input HDMI Rx input HDMI Rx input Power HDMI Rx input P11/AP2_ P13/AP2_ P15/AP2_ IN4 IN2 IN0 CEC_B Description Ground. HDMI RxA Channel 2 True Input. HDMI RxA Channel 1 True Input. HDMI RxA Channel 0 True Input. HDMI RxA Clock True Input. Comparator Power Supply (1.8 V). HDMI RxB Channel 2 True Input. HDMI RxB Channel 1 True Input. HDMI RxB Channel 0 True Input. HDMI RxB Clock True Input. Comparator Power Supply (1.8 V). HDMI RxC Channel 2 True Input. Rev. 0 | Page 16 of 24 PCLK DE GND 11831-023 DDC_ DDC_ DDC_ DDC_ RXB_HPA SCL_RXA SDA_RXA SCL_RXB SDA_RXB Data Sheet ADV7625 Pin No. A13 A14 A15 A16 A17 A18 B1 B2 B3 B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 D1 Mnemonic RXC_1+ RXC_0+ RXC_C+ CVDD RXC_5V GND GND RXA_2− RXA_1− RXA_0− RXA_C− CVDD RXB_2− RXB_1− RXB_0− RXB_C− CVDD RXC_2− RXC_1− RXC_0− RXC_C− CVDD RXC_HPA GND GND CVDD CVDD TVDD TVDD GND GND TVDD TVDD GND GND TVDD TVDD GND GND CVDD GND GND INT1 Function HDMI Rx input HDMI Rx input HDMI Rx input Power HDMI Rx input Ground Ground HDMI Rx input HDMI Rx input HDMI Rx input HDMI Rx input Power HDMI Rx input HDMI Rx input HDMI Rx input HDMI Rx input Power HDMI Rx input HDMI Rx input HDMI Rx input HDMI Rx input Power HDMI Rx output Ground Ground Power Power Power Power Ground Ground Power Power Ground Ground Power Power Ground Ground Power Ground Ground Control D2 INT2 Control D3 SCL I2C control D4 SDA I2C control D5 CS Digital input D6 RXA_5V HDMI Rx input Description HDMI RxC Channel 1 True Input. HDMI RxC Channel 0 True Input. HDMI RxC Clock True Input. Comparator Power Supply (1.8 V). HDMI RxC 5 V Detect Pin. Ground. Ground. HDMI RxA Channel 2 Complement Input. HDMI RxA Channel 1 Complement Input. HDMI RxA Channel 0 Complement Input. HDMI RxA Clock Complement Input. Comparator Power Supply (1.8 V). HDMI RxB Channel 2 Complement Input. HDMI RxB Channel 1 Complement Input. HDMI RxB Channel 0 Complement Input. HDMI RxB Clock Complement Input. Comparator Power Supply (1.8 V). HDMI RxC Channel 2 Complement Input. HDMI RxC Channel 1 Complement Input. HDMI RxC Channel 0 Complement Input. HDMI RxC Clock Complement Input. Comparator Power Supply (1.8 V). HDMI RxC Hot Plug Assert. Ground. Ground. Comparator Power Supply (1.8 V). Comparator Power Supply (1.8 V). HDMI Rx Terminator Supply Voltage (3.3 V). HDMI Rx Terminator Supply Voltage (3.3 V). Ground. Ground. HDMI Rx Terminator Supply Voltage (3.3 V). HDMI Rx Terminator Supply Voltage (3.3 V). Ground. Ground. HDMI Rx Terminator Supply Voltage (3.3 V). HDMI Rx Terminator Supply Voltage (3.3 V). Ground. Ground. Comparator Power Supply (1.8 V). Ground. Ground. Interrupt Output. This pin can be active low or high. When an unmasked status bit changes, an interrupt is generated on this pin. Interrupt Output. This pin can be active low or high. When an unmasked status bit changes, an interrupt is generated on this pin. I2C Clock Input. This pin is open drain; connect this pin to a 3.3 V supply using a 4.7 kΩ resistor. I2C Data Input. This pin is open drain; connect this pin to a 3.3 V supply using a 4.7 kΩ resistor. Chip Select Pin. This pin must be set low or left floating for the chip to process I2C messages that are destined for the ADV7625. The ADV7625 ignores I2C messages when this pin is high. HDMI RxA 5 V Detect Pin. Rev. 0 | Page 17 of 24 ADV7625 Data Sheet Pin No. D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 E1 E2 E3 Mnemonic RXA_HPA DDC_SCL_RXA DDC_SDA_RXA DDC_SCL_RXB DDC_SDA_RXB RXB_HPA RXB_5V DDC_SDA_RXC DDC_SCL_RXC TVDD RXD_2− RXD_2+ AP1_OUT0 AP1_OUT1 ALSB Function HDMI Rx output HDMI Rx DDC HDMI Rx DDC HDMI Rx DDC HDMI Rx DDC HDMI Rx output HDMI Rx input HDMI Rx DDC HDMI Rx DDC Power HDMI Rx input HDMI Rx input Audio output Audio output I2C control E4 E15 E16 E17 E18 F1 F2 F3 F4 F15 F16 F17 F18 G1 G2 G3 G4 G7 G8 G9 G10 G11 G12 G15 G16 G17 G18 H1 H2 H3 H4 H7 H8 H9 H10 H11 RESET RXD_5V TVDD RXD_1− RXD_1+ AP1_OUT2 AP1_OUT3 AP2_OUT0 AP2_OUT1 RXD_HPA GND RXD_0− RXD_0+ AP1_OUT4 AP1_OUT5 AP2_OUT2 AP2_OUT3 DVDD DVDD DVDD DVDD DVDD TEST5 DDC_SCL_RXD GND RXD_C− RXD_C+ AP1_OUT_MCLK AP1_OUT_SCLK AP2_OUT4 AP2_OUT5 DVDDIO GND GND GND GND Miscellaneous digital HDMI Rx input Power HDMI Rx input HDMI Rx input Audio output Audio output Audio output Audio output HDMI Rx output Ground HDMI Rx input HDMI Rx input Audio output Audio output Audio output Audio output Power Power Power Power Power Test pin HDMI Rx DDC Ground HDMI Rx input HDMI Rx input Audio output Audio output Audio output Audio output Power Ground Ground Ground Ground Description HDMI RxA Hot Plug Assert. HDCP Slave Serial Clock for HDMI RxA. HDCP Slave Serial Data for HDMI RxA. HDCP Slave Serial Clock for HDMI RxB. HDCP Slave Serial Data for HDMI RxB. HDMI RxB Hot Plug Assert. HDMI RxB 5 V Detect Pin. HDCP Slave Serial Data for HDMI RxC. HDCP Slave Serial Clock for HDMI RxC. HDMI Rx Terminator Supply Voltage (3.3 V). HDMI RxD Channel 2 Complement Input. HDMI RxD Channel 2 True Input. Audio Output Port 1, Output 0. Audio Output Port 1, Output 1. Pin to set the I2C address of the I/O register map for the device. When the ALSB pin is tied low, the I/O register map I2C address is 0xB0. When the ALSB pin is tied high, the I/O register map I2C address is 0xB2. Reset Pin. HDMI RxD 5 V Detect Pin. HDMI Rx Terminator Supply Voltage (3.3 V). HDMI RxD Channel 1 Complement Input. HDMI RxD Channel 1 True Input. Audio Output Port 1, Output 2. Audio Output Port 1, Output 3. Audio Output Port 2, Output 0. Audio Output Port 2, Output 1. HDMI RxD Hot Plug Assert. Ground. HDMI RxD Channel 0 Complement Input. HDMI RxD Channel 0 True Input. Audio Output Port 1, Output 4. Audio Output Port 1, Output 5. Audio Output Port 2, Output 2. Audio Output Port 2, Output 3. Digital Power Supply (1.8 V). Digital Power Supply (1.8 V). Digital Power Supply (1.8 V). Digital Power Supply (1.8 V). Digital Power Supply (1.8 V). Test Pin 5. Leave this pin floating. HDCP Slave Serial Clock for HDMI RxD. Ground. HDMI RxD Clock Complement Input. HDMI RxD Clock True Input. Audio Output Port 1, MCLK. Audio Output Port 1, SCLK. Audio Output Port 2, Output 4. Audio Output Port 2, Output 5. Digital Interface Supply (3.3 V). Ground. Ground. Ground. Ground. Rev. 0 | Page 18 of 24 Data Sheet Pin No. H12 H15 H16 H17 H18 J1 J2 J3 J4 J7 J8 J9 J10 J11 J12 J15 J16 J17 J18 K1 K2 K3 K4 K7 K8 K9 K10 K11 K12 K15 K16 K17 K18 L1 L2 L3 L4 L7 L8 L9 L10 L11 L12 L15 L16 L17 L18 M1 M2 M3 M4 M7 M8 Mnemonic GND DDC_SDA_RXD GND CVDD CVDD AP2_OUT_MCLK AP2_OUT_SCLK AUD1_IN AUD1_IN_SCLK DVDDIO GND GND GND GND GND DDC_SCL_RXE TVDD RXE_2− RXE_2+ GND GND AUD1_IN_LRCLK AUD2_IN GND GND GND GND GND GND DDC_SDA_RXE TVDD RXE_1− RXE_1+ XTAL+ XTAL− AUD2_IN_SCLK AUD2_IN_LRCLK GND GND GND GND GND GND RXE_HPA GND RXE_0− RXE_0+ PVDD PVDD TEST3 TEST2 GND GND ADV7625 Function Ground HDMI Rx DDC Ground Power Power Audio output Audio output Audio input Audio input Power Ground Ground Ground Ground Ground HDMI Rx DDC Power HDMI Rx input HDMI Rx input Ground Ground Audio input Audio input Ground Ground Ground Ground Ground Ground HDMI Rx DDC Power HDMI Rx input HDMI Rx input Miscellaneous digital Miscellaneous digital Audio input Audio input Ground Ground Ground Ground Ground Ground HDMI Rx output Ground HDMI Rx input HDMI Rx input Power Power Test pin Test pin Ground Ground Description Ground. HDCP Slave Serial Data for HDMI RxD. Ground. Comparator Power Supply (1.8 V). Comparator Power Supply (1.8 V). Audio Output Port 2, MCLK. Audio Output Port 2, SCLK. Audio Input Port 1, I2S or S/PDIF Input. Audio Input Port 1, SCLK. Digital Interface Supply (3.3 V). Ground. Ground. Ground. Ground. Ground. HDCP Slave Serial Clock for HDMI RxE. HDMI Rx Terminator Supply Voltage (3.3 V). HDMI RxE Channel 2 Complement Input. HDMI RxE Channel 2 True Input. Ground. Ground. Audio Input Port 1, LRCLK. Audio Input Port 2, I2S or S/PDIF Input. Ground. Ground. Ground. Ground. Ground. Ground. HDCP Slave Serial Data for HDMI RxE. HDMI Rx Terminator Supply Voltage (3.3 V). HDMI RxE Channel 1 Complement Input. HDMI RxE Channel 1 True Input. ADV7625 Crystal Input. ADV7625 Crystal Output. Audio Input Port 2, SCLK. Audio Input Port 2, LRCLK. Ground. Ground. Ground. Ground. Ground. Ground. HDMI RxE Hot Plug Assert. Ground. HDMI RxE Channel 0 Complement Input. HDMI RxE Channel 0 True Input. PLL Digital Supply (1.8 V). PLL Digital Supply (1.8 V). Test Pin 3. Leave this pin floating. Test Pin 2. Leave this pin floating. Ground. Ground. Rev. 0 | Page 19 of 24 ADV7625 Data Sheet Pin No. M9 M10 M11 M12 M15 M16 M17 M18 N1 N2 N3 N4 N15 N16 N17 N18 P1 P2 P3 P4 Mnemonic GND GND GND GND RXE_5V GND RXE_C− RXE_C+ GND GND PVDD_TXA PVDD_TXA GND GND CVDD CVDD TXA_C− TXA_C+ GND R_TXA Function Ground Ground Ground Ground HDMI Rx input Ground HDMI Rx input HDMI Rx input Ground Ground Power Power Ground Ground Power Power HDMI Tx output HDMI Tx output Ground HDMI Tx input P15 P16 P17 P18 R1 R2 R3 R4 R5 HS VS TEST4 TEST1 TXA_0− TXA_0+ GND AVDD_TXA TXB_HPD_ARC− Pixel port input sync Pixel port input sync Test pin Test pin HDMI Tx output HDMI Tx output Ground Power HDMI Tx input R6 R_TXB HDMI Tx input R7 R8 R9 R10 R11 R12 R13 R14 R15 R16 R17 R18 T1 T2 T3 T4 T5 T6 T7 GND TXB_ARC+ DDC_SDA_TXB DDC_SCL_TXB CEC_B DVDDIO EP_CS P9/AP2_IN_SCLK P11/AP2_IN4 P13/AP2_IN2 P15/AP2_IN0 PCLK TXA_1− TXA_1+ GND AVDD_TXA CEC_A GND GND Ground HDMI Tx input HDMI Tx DDC HDMI Tx DDC HDMI Tx CEC Power Serial port control Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Pixel port input clock HDMI Tx output HDMI Tx output Ground Power HDMI Tx CEC Ground Ground Description Ground. Ground. Ground. Ground. HDMI RxE 5 V Detect Pin. Ground. HDMI RxE Clock Complement Input. HDMI RxE Clock True Input. Ground. Ground. HDMI TxA PLL Power Supply (1.8 V). HDMI TxA PLL Power Supply (1.8 V). Ground. Ground. Comparator Power Supply (1.8 V). Comparator Power Supply (1.8 V). HDMI TxA Clock Complement Output. HDMI TxA Clock True Output. Ground. This pin sets the internal reference currents for HDMI TxA. Place a 470 Ω resistor (1% tolerance) between this pin and GND. Place the external resistor as close as possible to the ADV7625. Horizontal Synchronization for Pixel Port Input Video. Vertical Synchronization for Pixel Port Input Video. Test Pin 4. Leave this pin floating. Test Pin 1. Leave this pin floating. HDMI TxA Channel 0 Complement Output. HDMI TxA Channel 0 True Output. Ground. HDMI TxA Analog Supply (1.8 V). HDMI TxB Hot Plug Detect (HPD) Signal and Audio Return Channel Complement Input. This pin sets the internal reference currents for HDMI TxB. Place a 470 Ω resistor (1% tolerance) between this pin and GND. Place the external resistor as close as possible to the ADV7625. Ground. HDMI TxB Audio Return Channel True Input. HDCP Slave Serial Data for HDMI TxB. HDCP Slave Serial Clock for HDMI TxB. HDMI TxB Consumer Electronics Control (CEC). Digital Interface Supply (3.3 V). SPI Chip Select Interface for the OSD. Pixel Port Input P9/Audio Input Port 2, SCLK. Pixel Port Input P11/Audio Input Port 2, Input 4. Pixel Port Input P13/Audio Input Port 2, Input 2. Pixel Port Input P15/Audio Input Port 2, Input 0. Pixel Clock for Pixel Port Input Video. HDMI TxA Channel 1 Complement Output. HDMI TxA Channel 1 True Output. Ground. HDMI TxA Analog Supply (1.8 V). HDMI TxA Consumer Electronics Control (CEC). Ground. Ground. Rev. 0 | Page 20 of 24 Data Sheet ADV7625 Pin No. T8 T9 T10 T11 T12 T13 T14 T15 T16 T17 T18 U1 U2 U3 U4 U5 U6 U7 U8 U9 U10 U11 U12 U13 U14 U15 U16 U17 U18 V1 V2 V3 V4 V5 Mnemonic GND GND AVDD_TXB AVDD_TXB DVDDIO EP_SCLK P8/AP2_IN_MCLK P10/AP2_IN5 P12/AP2_IN3 P14/AP2_IN1 DE TXA_2− TXA_2+ GND DDC_SCL_TXA TXA_ARC+ PVDD_TXB GND TXB_C+ TXB_0+ TXB_1+ TXB_2+ GND EP_MOSI P1/AP1_IN_SCLK P3/AP1_IN4 P5/AP1_IN2 P7/AP1_IN0 GND GND GND GND DDC_SDA_TXA TXA_HPD_ARC− Function Ground Ground Power Power Power Serial port control Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Pixel port input sync HDMI Tx output HDMI Tx output Ground HDMI Tx DDC HDMI Tx input Power Ground HDMI Tx output HDMI Tx output HDMI Tx output HDMI Tx output Ground Serial port control Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Ground Ground Ground Ground HDMI Tx DDC HDMI Tx input V6 V7 V8 V9 V10 V11 V12 V13 V14 V15 V16 V17 V18 PVDD_TXB GND TXB_C− TXB_0− TXB_1− TXB_2− GND EP_MISO P0/AP1_IN_MCLK P2/AP1_IN5 P4/AP1_IN3 P6/AP1_IN1 GND Power Ground HDMI Tx output HDMI Tx output HDMI Tx output HDMI Tx output Ground Serial port control Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Pixel port input/audio input Ground Description Ground. Ground. HDMI TxB Analog Supply (1.8 V). HDMI TxB Analog Supply (1.8 V). Digital Interface Supply (3.3 V). SPI Clock Interface for the OSD. Pixel Port Input P8/Audio Input Port 2, MCLK. Pixel Port Input P10/Audio Input Port 2, Input 5. Pixel Port Input P12/Audio Input Port 2, Input 3. Pixel Port Input P14/Audio Input Port 2, Input 1. Data Enable for Pixel Port Input Video. HDMI TxA Channel 2 Complement Output. HDMI TxA Channel 2 True Output. Ground. HDCP Slave Serial Clock for HDMI TxA. HDMI TxA Audio Return Channel True Input. HDMI TxB PLL Power Supply (1.8 V). Ground. HDMI TxB Clock True Output. HDMI TxB Channel 0 True Output. HDMI TxB Channel 1 True Output. HDMI TxB Channel 2 True Output. Ground. SPI Master Output/Slave Input for OSD. Pixel Port Input P1/Audio Input Port 1, SCLK. Pixel Port Input P3/Audio Input Port 1, Input 4. Pixel Port Input P5/Audio Input Port 1, Input 2. Pixel Port Input P7/Audio Input Port 1, Input 0. Ground. Ground. Ground. Ground. HDCP Slave Serial Data for HDMI TxA. HDMI TxA Hot Plug Detect (HPD) Signal and Audio Return Channel Complement Input. HDMI TxB PLL Power Supply (1.8 V). Ground. HDMI TxB Clock Complement Output. HDMI TxB Channel 0 Complement Output. HDMI TxB Channel 1 Complement Output. HDMI TxB Channel 2 Complement Output. Ground. SPI Master Input/Slave Output for OSD. Pixel Port Input P0/Audio Input Port 1, MCLK. Pixel Port Input P2/Audio Input Port 1, Input 5. Pixel Port Input P4/Audio Input Port 1, Input 3. Pixel Port Input P6/Audio Input Port 1, Input 1. Ground. Rev. 0 | Page 21 of 24 ADV7625 Data Sheet POWER SUPPLY RECOMMENDATIONS POWER-UP SEQUENCE 3.3V The power-up sequence for the ADV7625 is as follows. 4. 5. Hold the RESET pin low. Power up the 3.3 V supplies (DVDDIO and TVDD). After the 3.3 V supplies reach their minimum recommended value of 3.14 V, wait at least 20 ms before powering up the 1.8 V supplies. Power up the 1.8 V supplies (AVDD_TXA, AVDD_TXB, CVDD, DVDD, PVDD, PVDD_TXA, and PVDD_TXB). These supplies should be powered up at the same time; that is, there should be a difference of less than 0.3 V between them. Release the RESET pin after all supplies are established. After power-up, a complete reset is recommended. This reset can be performed by the system microcontroller. 0V 1.8V 1.8V SUPPLY 0V 3.3V 3.14V 3.3V SUPPLY tPSS ≥ 20ms RESET > 5ms 0V Figure 20. ADV7625 Supply Power-Up Sequence POWER-DOWN SEQUENCE The ADV7625 supplies can be deasserted simultaneously as long as DVDDIO or TVDD does not fall below a lower rated supply. Rev. 0 | Page 22 of 24 11831-022 1. 2. 3. RESET Data Sheet ADV7625 THEORY OF OPERATION HDMI RECEIVERS ON-SCREEN DISPLAY The ADV7625 front end incorporates two HDMI receivers capable of receiving all HDTV formats up to 3 GHz (4k × 2k at 24 Hz/25 Hz/30 Hz). The HDMI receivers also support HDMI features including 3D TV and content type bits. A key feature of the ADV7625 is the on-chip characterand icon-based OSD generator. The generated OSD can be converted to match the 4:2:2 or 4:4:4 input format in either the RGB or YCrCb color spaces. After the OSD is generated, it is overlaid at the output resolution (any video resolution up to 4k × 2k at 24 Hz/25 Hz/30 Hz) for best performance. The OSD portion of the image is optionally semitransparent using a 5-bit alpha blend between the input video and the OSD. The OSD font characters and icons can be stored in external SPI flash memory, read directly into RAM, or they can be loaded into the on-chip RAM via the SPI or I2C interface. Each HDMI receiver in the ADV7625 incorporates an adaptive equalizer, which compensates for the high frequency losses inherent in HDMI and DVI cabling, especially at longer lengths and higher frequencies. The ADV7625 features a 768-byte internal EDID memory space, which can be used to store two independent EDIDs, one for each receiver. The memory can be partitioned to provide two 256-byte EDIDs or one 512-byte extended EDID and one 256-byte EDID. Either EDID can be replicated on any input port. The two HDMI receivers offer advanced audio functionality. Each receiver supports multichannel I2S audio for up to eight channels. The receivers also support a six-DSD channel interface, with each channel carrying an oversampled 1-bit representation of the audio signal as delivered on SACD. The ADV7625 can also receive HBR audio packet streams and output them through the HBR interface in an S/PDIF format that conforms to the IEC 60958 standard. S/PDIF is supported via the HPD back channel. The receivers also contain an audio mute controller that can detect a variety of conditions that can result in audible extraneous noise in the audio output. On detection of these conditions, the audio data can be ramped to prevent audio clicks or pops. HDCP REPEATER FUNCTIONALITY With the inclusion of HDCP 1.4, displays can receive encrypted video content. The HDMI interface of the ADV7625 allows authentication of a video receiver, decryption of encoded data at the receiver, and renewability of that authentication during transmission, as specified by the HDCP 1.4 protocol. Repeater support is also offered by the ADV7625. DIGITAL AUDIO PORTS The ADV7625 features two independent audio input ports and two independent audio output ports. The audio input and output ports provide comprehensive muxing support for the destination of the audio (for example, to either HDMI transmitter or either audio output port) and support for the source of the audio (for example, from either HDMI receiver or from either audio input port). The extracted audio can be processed by a SHARC® processor and can be reinserted back into the HDMI output stream or output via the hardware connected to the system. The pins for the pixel port input signals (P15 to P0) are shared with the AP1_IN and AP2_IN audio input ports. When the pixel port input is in use, the AUD1_IN and AUD2_IN ports can be used to provide stereo audio inputs. PIXEL PORT INPUT The ADV7625 features a 16-bit pixel input port that facilitates the reception of digital video data from an analog front-end video decoder such as the ADV7180, ADV7181D, or ADV7842. Both embedded timing and external synchronization signals are supported on the pixel port. The pixel port input also features an interlaced-to-progressive converter for 480i or 576i inputs. HDMI TRANSMITTERS The ADV7625 incorporates two HDMI transmitters, each of which supports all HDTV formats up to 3 GHz (4k × 2k at 24 Hz/25 Hz/30 Hz), ARC, and all mandatory 3D TV formats. Each HDMI transmitter can output any audio mode received from the corresponding HDMI receiver, including audio sample packets, HBR, or DSD. Each ARC receiver supports both single-ended and differential modes and simplifies cabling by combining an upstream audio capability in a conventional HDMI cable. Each transmitter features an on-chip MPU with an I2C master to perform HDCP operations and EDID read operations. I2C INTERFACE The ADV7625 supports a 2-wire serial (I2C-compatible) microprocessor bus driving multiple peripherals. The ADV7625 is controlled by an external I2C master device, such as a microcontroller. OTHER FEATURES Other features of the ADV7625 include the following: • • • • • • • Rev. 0 | Page 23 of 24 Fully qualified software low level libraries, driver, and application Complete input and output audio support Programmable interrupt request output pins: INT1 and INT2 Chip select and ALSB Low power consumption: 1.8 V digital core, 1.8 V analog, and 3.3 V digital input/output Temperature range: 0°C to 70°C 15 mm × 15 mm, Pb-free, 260-ball CSP_BGA ADV7625 Data Sheet OUTLINE DIMENSIONS A B C D E F G H J K L M N P R T U V 13.60 BSC SQ 0.80 BSC BOTTOM VIEW TOP VIEW 1.50 1.36 1.21 A1 BALL CORNER 4 2 18 16 14 12 10 8 6 7 5 3 1 17 15 13 11 9 DETAIL A DETAIL A 0.35 NOM 0.30 MIN SEATING PLANE 0.50 0.45 0.40 BALL DIAMETER 1.11 1.01 0.91 COPLANARITY 0.20 COMPLIANT TO JEDEC STANDARDS MO-275-KKAB-1. 11-18-2013-B A1 BALL CORNER 15.10 15.00 SQ 14.90 Figure 21. 260-Ball Chip Scale Package Ball Grid Array [CSP_BGA] (BC-260-1) Dimensions shown in millimeters ORDERING GUIDE Model 1, 2 ADV7625KBCZ-8 ADV7625KBCZ-8-RL EVAL-ADV7625-SMZ 1 2 Temperature Range 0°C to 70°C 0°C to 70°C Package Description 260-Ball Chip Scale Package Ball Grid Array [CSP_BGA] 260-Ball Chip Scale Package Ball Grid Array [CSP_BGA] Evaluation Board Package Option BC-260-1 BC-260-1 Z = RoHS Compliant Part. This part is programmed with internal HDCP keys. Customers must have HDCP adopter status (consult Digital Content Protection, LLC, for licensing requirements) to purchase any components with internal HDCP keys. I2C refers to a communications protocol originally developed by Philips Semiconductors (now NXP Semiconductors). HDMI, the HDMI Logo, and High-Definition Multimedia Interface are trademarks or registered trademarks of HDMI Licensing LLC in the United States and other countries. ©2013 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. D11831-0-12/13(0) Rev. 0 | Page 24 of 24