9 81 51 44 QQ :71 28 2 , IT66121FN 07 55 -3 68 53 Low Power Transmitter with HDMI1.4 3D 公 司 , Datasheet ITE TECH. INC. 深 圳 市 金 合 讯 科 技 有 限 Specification V1.02 www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 1/40 IT66121FN General Description QQ :71 44 51 81 9 The IT66121 is a high-performance and low-power single channel HDMI transmitter, fully compliant with HDMI 1.3a, HDCP 1.2 and backward compatible to DVI 1.0 specifications. IT66121 also provide the HDMI1.4 3D feature, which enables direct 3D displays through an HDMI link. The IT66121 serves to provide the most cost-effective HDMI solution for DTV-ready consumer electronics such as set-top boxes, DVD players and A/V receivers, as well as DTV-enriched PC products such as notebooks and desktops, without compromising the performance. Its backward compatibility to DVI standard allows connectivity to myriad video displays such as LCD and CRT monitors, in addition to the ever-so-flourishing Flat Panel TVs. 07 55 -3 68 53 28 2 , Aside from the various video output formats supported, the IT66121 also supports 8 channels of I2S digital audio, with sampling rate up to 192kHz and sample size up to 24 bits. IT66121 also support S/PDIF input of up to 192kHz sampling rate. The newly supported High-Bit Rate (HBR) audio by HDMI Specifications v1.3 is provided by the IT66121 in two interfaces: with the four I2S input ports or the S/PDIF input port. With both interfaces the highest possible HBR frame rate is supported at up to 768kHz 公 有 限 and maintenance of the HDCP keys. 司 , By default the IT66121 comes with integrated HDCP ROMs which are pre-programmed with HDCP keys that ensures secure digital content transmission. Users need not worry about the procurement 深 圳 市 Features 金 合 讯 科 技 The IT66121 also provides a complete solution of Consumer Electronics Control (CEC) function. This optional CEC feature of HDMI specification allows the user to control two or more CEC-enabled devices through HDMI network. With IT66121 embedded CEC PHY, user can use high-level software API to easily implement all the necessary remote control commands. The CEC bus related protocol is handled by the CEC PHY which eliminates extra loading of the MCU. Single channel HDMI transmitter Compliant with HDMI 1.3a, HDCP 1.2 and DVI 1.0 specifications Supporting pixel rates from 25MHz to 165MHz DTV resolutions: 480i, 576i, 480p, 576p, 720p, 1080i up to 1080p PC resolutions: VGA, SVGA, XGA, SXGA up to UXGA Various video input interface supporting digital video standards such as: 24-bit RGB/YCbCr 4:4:4 with RB swap option www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 2/40 IT66121FN QQ :71 44 51 81 9 16/20/24-bit YCbCr 4:2:2 with YC swap option 8/10/12-bit YCbCr 4:2:2 (CCIR-656) BTA-T1004 format DE-only interface DDR option Support HDMI1.4 3D feature Frame packing mode up to [email protected]/24Hz and [email protected]/60Hz Top and Bottom up to [email protected]/60Hz Side-by-Side (Half) up to [email protected]/60Hz Side-by-Side (Full) up to [email protected]/60Hz Bi-direction Color Space Conversion (CSC) between RGB and YCbCr color spaces with 司 , 07 55 -3 68 53 28 2 , programmable coefficients. Digital audio input interface supporting audio sample rate: 32~192 kHz sample size: 16~24 bits four I2S interfaces supporting 8-channel audio S/PDIF interface supporting PCM, Dolby Digital, DTS digital audio transmission at up to 192kHz Support for high-bit-rate (HBR) audio such as DTS-HD and Dolby TrueHD through the four I2S interface or the S/PDIF interface, with frame rates as high as 768kHz Compatible with IEC 60958 and IEC 61937 深 圳 市 金 合 讯 科 技 有 限 公 Software programmable HDMI output current, enabling user to optimize the performance for fixed-cable systems or those with pre-defined cable length MCLK input is optional for audio operation. Users could opt to implement audio input interface with or without MCLK. Integrated pre-programmed HDCP keys Purely hardware HDCP engine increasing the robustness and security of HDCP operation Monitor detection through Hot Plug Detection and Receiver Termination Detection Embedded full-function pattern generator Intelligent, programmable power management Embedded hardware controlled CEC PHY Ultra low power consumption, operation power is less than 70mw at 1080p@60Hz format. 64-pin (9x9 mm) QFN package www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 3/40 IT66121FN Ordering Information Temperature Range Package Type Green/Pb free Option IT66121FN -20~75 64-pin QFN Green 深 圳 市 金 合 讯 科 技 有 限 公 司 , 07 55 -3 68 53 28 2 , QQ :71 44 51 81 9 Model www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 4/40 IT66121FN ENTEST TX2P TX2M DVDD12 TX1P TX1M TX0P TX0M AVCC12 TXCP TXCM REXT PVCC33 PVCC12 CEC 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 81 9 PCADR Pin Diagram OVDD 34 15 IVDD12 35 D23 36 D22 37 D21 38 D20 39 D19 40 D18 41 D17 42 D16 43 D15 44 D14 45 D13 46 D12 47 D11 48 DDCSDA HPD , QQ :71 14 51 16 44 DDCSCL SYSRSTN 33 58 59 60 61 62 63 64 D1 D0 DE HSYNC VSYNC 有 限 57 D2 技 56 D3 OVDD33 12 PCSCL 11 PCSDA 10 INT 9 VCC33 8 IVDD12 7 SCK/MCLK 6 WS 5 I2S0 4 I2S1 3 I2S2 2 I2S3/SPDIF 1 OVDD PIN65: GND PAD Figure 1. IT66121FN pin diagram 深 圳 市 金 合 讯 科 55 D4 PCLK 54 IVDD12 D9 53 D5 D10 52 D6 51 D7 50 D8 49 公 司 , 07 55 -3 68 53 QFN-64 9x9 (Top View) 28 2 IT66121FN 13 www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 5/40 IT66121FN Pin Description Digital Video Input Pins Direction Description D[23:0] Input Digital video input pins. Type Pin No. LVTTL 36-50, Input Data enable HSYNC Input Horizontal sync. signal VSYNC Input Vertical sync. signal PCLK Input Input data clock Input Description 2 I S serial clock input /SPDIF master clock input 2 WS Input I S word select input I2S0 Input I2S 0 serial data input I2S1 Input 07 55 -3 68 53 SCK/MCLK Direction 28 2 Digital Audio Input Pins Pin Name 52-55, 57-61 LVTTL 62 LVTTL 63 LVTTL 64 LVTTL 51 Type Pin No. LVTTL 7 LVTTL 6 LVTTL 5 LVTTL 4 LVTTL 3 LVTTL 2 Type Pin No. , QQ :71 DE 44 51 81 9 Pin Name 2 I S 1 serial data input 2 Input I S 2 serial data input I2S3/SPDIF Input I2S 3 serial data input /SPDIF audio input 公 司 , I2S2 有 限 HDMI Interface Pins Direction Description CEC I/O CEC signal (5V-tolerant) Schmitt 17 DDCSCL I/O I2C Clock for DDC (5V-tolerant) Schmitt 16 I C Data for DDC (5V-tolerant) Schmitt 15 Hot Plug Detection (5V-tolerant) LVTTL 14 Type Pin No. I/O HPD Input 金 合 DDCSDA 讯 科 2 技 Pin Name 市 TMDS front-end interface pins Description Analog HDMI Channel 2 positive output TMDS 30 Analog HDMI Channel 2 negative output TMDS 29 TX1P Analog HDMI Channel 1 positive output TMDS 27 TX1M Analog HDMI Channel 1 negative output TMDS 26 TX0P Analog HDMI Channel 0 positive output TMDS 25 TX0M Analog HDMI Channel 0 negative output TMDS 24 TXCP Analog HDMI Clock Channel positive output TMDS 22 TX2P TX2M Direction 深 圳 Pin Name www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 6/40 IT66121FN TXCM Analog HDMI Clock Channel negative output TMDS 21 REXT Analog External resistor for setting TMDS output level. Default tied to Analog 20 AGND via a 5.6K-Ohm SMD resistor. 9 Programming Pins PCSCL Input Serial Programming Clock for chip programming (5V-tolerant) PCSDA I/O Serial Programming Data for chip programming (5V-tolerant) INT# Output Interrupt output. Default active-low (5V-tolerant) ENTEST Input Must be tied low via a resistor. PCADR Input Serial programming device address select SYSRSTN Input Hardware reset pin. Active LOW Power/Ground Pins Description IVDD12 Digital logic power (1.2V) OVDD OVDD33 5V-tolerant I/O power (3.3V) VCC33 Internal ROM power (3.3V) PVCC12 Type Pin No. Schmitt 12 Schmitt 11 LVTTL 10 Type Pin No. LVTTL 31 LVTTL 32 Schmitt 33 Pin No. 8, 35, 56 I/O Pin power (1.8V or 2.5V or 3.3V) Power 1, 34 Power 13 Power 9 HDMI core PLL power (1.2V) Power 18 PVCC33 HDMI core PLL power (3.3V) Power 19 AVCC12 HDMI analog frontend power (1.2V) Power 23 DVDD12 HDMI digital frontend power (1.2V) Power 28 GND Exposed ground pad Ground 65 深 圳 市 金 合 讯 科 技 有 限 公 , Power 司 Pin Name QQ :71 Description 28 2 Direction 07 55 -3 68 53 Pin Name , System Control Pins Type 81 Description 51 Direction 44 Pin Name www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 7/40 IT66121FN Functional Description Color Space Conversion 4:2:2 4:4:4 Pixel Repeat Video Data Capture & DE Generator SCK/MCLK WS I2S0 I2S1 I2S2 I2S3/SPDIF QQ :71 I2C Master (HDCP Controller) , I2C Master (to HDCP EEPROM) 07 55 -3 68 53 PCLK VSYNC HSYNC DE D[23:0] I2C Slave (to host) ROMSDA Audio Data Capture 公 有 限 INT DDCSCL DDCSDA CEC PHY CEC TX2P/M HDCP Cipher & Encryption Enginer , PCADR Configuration Register Blocks ROMSCL TMDS Transmitter (DVI/HDMI) TX1P/M TX0P/M TXCP/M 司 SYSRSTN PCSDA 28 2 PCSCL 44 51 81 9 IT66121 is a low-power version of HDMI 1.3 transmitter and provides complete solutions for HDMI Source systems by implementing all the required HDMI functions. In addition, advanced processing algorithms are employed to optimize the performance of video processing such as color space conversion and YCbCr up/down-sampling. The following picture is the functional block diagram of IT66121, which describes clearly the data flow. Interrupt Controller HPD 讯 科 技 Figure 2. Functional block diagram of IT66121 Video Data Processing Flow 深 圳 市 金 合 Figure 3 depicts the video data processing flow. For the purpose of retaining maximum flexibility, most of the block enabling and path bypassing are controlled through register programming. Please refer to IT66121 Programming Guide for detailed and precise descriptions. As can be seen from Figure 3, the first step of video data processing is to prepare the video data (Data), data enable signal (DE), video clock (Clock), horizontal sync and vertical sync signals (H/VSYNC). While the video data and video clock are always readily available from input pins, the preparation of the data enable and sync signals require special extraction process (Embedded Ctrl. Signals Extraction & DE Generator) depending on the format of input video data. All the data then undergo a series of video processing including color-space conversion and YCbCr www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 8/40 IT66121FN PCLK Clock H/VSYNC QQ :71 DE DE Generator DE D[23:0] YCbCr « RGB (upsampler) (CSC) , Data YCbCr444 to YCbCr422 HDCP TMDS Driver (downsampler) TX2 TX1 TX0 TXC 有 限 公 司 , YCbCr422 to YCbCr444 28 2 H/VSYNC DE 07 55 -3 68 53 Embedded Ctrl. Signals Extraction 44 H/VSYNC 51 81 9 up/down-sampling. Depending on the selected input and output video formats, different processing blocks are either enabled or bypassed via register control. For the sake of flexibility, this is all done in software register programming. Therefore, extra care should be taken in keeping the selected input-output format combination and the corresponding video processing block selection. Please refer to the IT66121 Programming Guide for suggested register setting. 讯 科 技 Figure 3. Video data processing flow of IT66121 市 金 合 Designated as D[23:0], the input video data could take on bus width of 8 bits to 24 bits. This input interface could be configured through register setting to provide various data formats as listed in Table 1. 深 圳 Although not explicitly depicted in Figure 3, input video clock (PCLK) can be configured to be multiplied by 0.5, 1, 2 or 4, so as to support special formats such as CCIR-656 and pixel-repeating. This is also enabled by software programming. General description of block functions is as follows: Extraction of embedded control signals (Embedded Ctrl. Signals Extraction) Input video formats with only embedded sync signals rely on this block to derive the proper Hsync, Vsync and DE signals. Specifically, CCIR-656 video stream includes Start of Active Video (SAV) and www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 9/40 IT66121FN End of Active Video (EAV) that this block uses to extract the required control signals. 9 Generation of data enable signal (DE Generator) DE signal defines the region of active video data. In cases where the video decoders supply no such DE signals to IT66121, this block is used to generate appropriate DE signal from Hsync, Vsync and Clock. 44 51 81 Upsampling (YCbCr422 to YCbCr444) In cases where input signals are in YCbCr 4:2:2 format and output is selected as 4:4:4, this block is enabled to do the upsampling. QQ :71 Bi-directional Color Space Conversion (YCbCr « RGB) Many video decoders only offer YCbCr outputs, while DVI 1.0 supports only RGB color space. In order to offer full compatibility between various Source and Sink combination, this block offers bi-directional 07 55 -3 68 53 28 2 , RGB « YCbCr color space conversion (CSC). To provide maximum flexibility, the matrix coefficients of the CSC engine in IT66121 are fully programmable. Users of IT66121 could elect to employ their preferred conversion formula. Downsampling (YCbCr444 to YCbCr422) In cases where input signals are in YCbCr 4:4:4 format and output is selected as YCbCr 4:2:2, this block is enabled to do the downsampling. 司 , HDCP engine (HDCP) The HDCP engine in IT66121 handles all the processing required by HDCP mechanism in hardware. Software intervention is not necessary except checking for revocation. Preprogrammed HDCP keys are also embedded in IT66121. Users need not worry about the purchasing and management of the 公 HDCP keys. 深 圳 市 金 合 讯 科 技 有 限 TMDS driver (TMDS Driver) The final stop of the data processing flow is TMDS serializer. The TMDS driver serializes the input parallel data and drive out the proper electrical signals to the HDMI cable. The output current level is controlled through connecting a precision resistor of proper value to Pin 20 (REXT). www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 10/40 IT66121FN Supported Input Video Formats Table 1 lists the input video formats supported by IT66121. Input Pixel clock frequency (MHz) Video Bus DDR/ Hsync/ Space Format Width SDR Vsync 24 SDR 12 YCbCr 1080i SXGA 1080p UXGA Separate 13.5 27 65 74.25 74.25 108 148.5 162 DDR Separate 13.5 27 65 74.25 74.25 24 DDR Separate 13.5 32.5 37.125 37.125 54 74.25 81 24 SDR Separate 13.5 27 65 74.25 74.25 108 148.5 162 12 DDR Separate 13.5 27 65 74.25 74.25 24 DDR Separate 13.5 32.5 37.125 37.125 54 74.25 81 16/20/24 SDR 65 74.25 108 148.5 162 74.25 74.25 108 148.5 162 16/20/24 DDR 8/10/12 SDR 8/10/12 DDR 27 Embedded 13.5 27 51 44 QQ :71 , 13.5 74.25 Separate 13.5 32.5 37.125 37.125 54 74.25 81 Embedded 13.5 32.5 37.125 37.125 54 74.25 81 65 Separate 27 54 130 148.5 148.5 Embedded 27 54 130 148.5 148.5 Separate 13.5 27 65 74.25 74.25 13.5 27 65 74.25 74.25 Embedded 司 4:2:2 Separate 9 720p 28 2 4:4:4 XGA 07 55 -3 68 53 4:4:4 480p , RGB 480i 81 Color Table 1. Input video formats supported by IT66121 讯 科 技 有 限 公 Notes: 1. Table cells that are left blanks are those format combinations that are not supported by IT66121. 2. Embedded sync signals are defined by CCIR-656 standard, using SAV/EAV sequences of FF, 00, 00, XY. 3. The original pixel clock of 480i is 13.5MHz. HDMI standard mandates that a 27MHz pixel clock be used and pixel repeating is employed to keep the frequency range of the HDMI link within control. Audio Data Capture and Processing 深 圳 市 金 合 IT66121 takes in four I2S inputs as well as one S/PDIF input of audio data. The four I 2S inputs allow transmission of 8-channel uncompressed audio data at up to 192kHz sample rate. The S/PDIF input allows transmission of uncompressed PCM data (IEC 60958) or compressed multi-channel data (IEC 61937) at up to 192kHz. Note that MCLK input is optional for the IT66121. By default IT66121 generates the MCLK internally to process the audio. Neither I2S nor S/PDIF inputs requires external MCLK signal. However, if the jitter or the duty cycle of the input S/PDIF is considerable, coherent external MCLK input is recommended and such configuration could be enabled through register setting. Refer to IT66121 Programming Guide for such setting. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 11/40 IT66121FN 51 81 9 High-Bit-Rate (HBR) Audio is first introduced in the HDMI 1.3 standard. It is called upon by high-end audio system such as DTS-HD and Dolby TrueHD. No specific interface is defined by the HBR standard. The IT66121 supports HBR audio in two ways. One is to employ the four I2S inputs simultaneously, where the original streaming HBR audio is broken into four parallel data streams before entering the IT66121. The other is to use the S/PDIF input port. Since the data rate here is as high as 98.304Mbps, a coherent MCLK is required in this application. 44 Interrupt Generation QQ :71 The system micro-controller should take in the interrupt signal output by IT66121 at PIN 10 (INT). INT pin can be configured as Push-pull or Tristate mode depending on user’s application. IT66121 generates an interrupt signal with events involving the following signals or situations: 07 55 -3 68 53 28 2 , 1. Hot-plug detection (Pin 14, HPD) experiences state changes. 2. Receiver detection circuit reports the presence or absence of an active termination at the TMDS Clock Channel (RxSENDetect) 3. DDC bus is hanged for any reasons 4. Audio FIFO overflows 5. HDCP authentication fails 6. Audio/Video data is stable or not 司 , A typical initialization of HDMI link should be based on interrupt signal and appropriate register probing. Recommended flow is detailed in IT66121 Programming Guide. Simply put, the microcontroller should 技 有 限 公 monitor the HPD status first. Upon valid HPD event, move on to check RxSENDetect register to see if the receiver chip is ready for further handshaking. When RxSENDetect is asserted, start reading EDID data through DDC channels and carry on the rest of the handshaking subsequently. 深 圳 市 金 合 讯 科 If the micro-controller makes no use of the interrupt signal as well as the above-mentioned status registers, the link establishment might fail. Please do follow the suggested initialization flow recommended in IT66121 Programming Guide. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 12/40 IT66121FN Configuration and Function Control 9 IT66121 includes two serial programming ports by default (i.e. with embedded HDCP keys): one for interfacing with micro-controller, the other for accessing the DDC channels of HDMI link. 44 51 81 The serial programming interface for interfacing the micro-controller is a slave interface, comprising PCSCL (Pin 12) and PCSDA (Pin 11). The micro-controller uses this interface to monitor all the statuses and control all the functions. Two device addresses are available, depending on the input QQ :71 logic level of PCADR (Pin 32). If PCADR is pulled high by the user, the device address is 0x9A. If pulled low, 0x98. 07 55 -3 68 53 28 2 , The I2C interface for accessing the DDC channels of the HDMI link is a master interface, comprising DDCSCL (Pin 16) and DDCSDA (Pin 15). IT66121 uses this interface to read the EDID data and perform HDCP authentication protocol with the sink device over the HDMI cable. For temporarily storing the acquired EDID data, IT66121 includes a 32 bytes dedicated FIFO. The micro-controller may command IT66121 to acquire 32 bytes of EDID information, read it back and then continue to read the next 32 bytes until getting all necessary EDID information. 司 , The HDCP protocol of IT66121 is completely implemented in hardware. No software intervention is needed except for revocation list checking. Various HDCP-related statuses are stored in HDCP Slave Addr (7) R A 讯 科 S 技 有 限 公 registers for the reference of micro-controller. Refer to IT66121 Programming Guide for detailed register descriptions. The HDCP Standard also specifies a special message read protocol other than the standard I2C protocol. See Figure 4 for checking HDCP port link integrity. Read Data (8) A Read Data (8) A Read Data (8) NA P 金 合 S=Start; R=Read; A=Ack; NA=No Ack; P=Stop 市 Figure 4. HDCP port link integrity message read 深 圳 All serial programming interfaces conform to standard I2C transactions and operate at up to 100kHz. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 13/40 IT66121FN Electrical Specifications Unit Core logic supply voltage -0.5 1.5 V OVDD33 5V-tolerance I/O pins supply voltage -0.3 4.0 V OVDD 1.8V I/O pins supply voltage (OVDD=1.8V) -0.3 2.5 V OVDD 2.5V I/O pins supply voltage (OVDD=2.5V) -0.3 3.2 V OVDD 3.3V I/O pins supply voltage (OVDD=3.3V) -0.3 4.0 V VCC33 ROM supply voltage -0.3 4.0 V AVCC12 HDMI analog frontend supply voltage -0.5 1.5 V PVCC12 HDMI core PLL supply voltage -0.5 1.5 V PVCC33 HDMI core PLL supply voltage -0.3 4.0 V DVDD12 HDMI AFE digital supply voltage -0.5 1.5 V VI Input voltage -0.3 OVDD+0.3 V VO Output voltage -0.3 OVDD+0.3 V TJ Junction Temperature 125 C TSTG Storage Temperature 150 C ESD_HB Human body mode ESD sensitivity 51 IVDD12 Typ 44 Min. QQ :71 Parameter 07 55 -3 68 53 28 2 , Symbol 81 Max 9 Absolute Maximum Ratings -65 V , 2000 有 限 公 司 ESD_MM Machine mode ESD sensitivity 200 V Notes: 1. Stresses above those listed under Absolute Maximum Ratings might result in permanent damage to the device. 2. Refer to Functional Operation Conditions for normal operation. Typ Max Unit 讯 科 Parameter IVDD12 Core logic supply voltage 1.14 1.2 1.26 V OVDD33 I/O pins supply voltage 3.0 3.3 3.6 V 1.8V I/O pins supply voltage 1.62 1.8 1.98 V 2.5V I/O pins supply voltage 2.25 2.5 2.75 V 3.0 3.3 3.6 V ROM supply voltage 3.0 3.3 3.6 V HDMI analog frontend supply voltage 1.14 1.2 1.26 V PVCC12 HDMI core PLL supply voltage 1.14 1.2 1.26 V PVCC33 HDMI core PLL supply voltage 3.0 3.3 3.6 V DVDD12 HDMI AFE digital supply voltage 1.14 1.2 1.26 V VCCNOISE Supply noise 100 mVpp TA Ambient temperature 70 C 金 合 Min. 市 Symbol 技 Functional Operation Conditions OVDD VCC33 AVCC12 深 圳 3.3V I/O pins supply voltage www.ite.com.tw 0 25 T8720F V0.7.1 Apr-2013 Rev:1.02 14/40 IT66121FN Junction to ambient thermal resistance ja Notes: 1. AVCC12, PVCC12 and PVCC33 should be regulated. 2. See System Design Consideration for supply decoupling and regulation. C/W 深 圳 市 金 合 讯 科 技 有 限 公 司 , 07 55 -3 68 53 28 2 , QQ :71 44 51 81 9 40 www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 15/40 IT66121FN DC Electrical Specification Under functional operation conditions VOH IIN IOZ IOL Vswing Schmitt 0.63 0.75 0.7 0.94 9 0.8 1.06 1.22 V V 1.39 Schmitt trigger positive Schmitt going threshold voltage1 Output low voltage1 1.05 LVTTL 1 1 Input leakage current Tri-state output leakage current1 Serial programming TMDS output LVTTL 1.4 all -10 all -10 TMDS single-ended swing3 Single-ended standby TMDS output current3 1.14 1.35 0.4 Schmitt output sink current2 QQ :71 44 going threshold voltage1 81 0.6 V 400 +10 600 1.70 0.4 2.1 +10 1.48 1.92 V 0.4 V V 2.9 +10 -10 +10 A -10 +10 -10 +10 A 2.5 10 mA 400 600 mV 10 A -10 400 600 10 10 公 IOFF LVTTL Schmitt trigger negative Output high voltage 2.0 , VOL 1.7 Unit 28 2 VT+ 1.2 07 55 -3 68 53 VT- Input low voltage LVTTL 1 , VIL Input high voltage1 For 3.3V OVDD Min Typ Max 司 VIH Pin Type For 2.5V OVDD Min Typ Max 51 Symbol Parameter For 1.8V OVDD Min Typ Max 市 金 合 讯 科 技 有 限 Notes: 1. Guaranteed by I/O design. 2. The serial programming output ports are not real open-drain drivers. Sink current is guaranteed by I/O design under the condition of driving the output pin with 0.2V. In a real serial programming environment, multiple devices and pull-up resistors could be present on the same bus, rendering the effective pull-up resistance much lower than that specified by the I2C Standard. When set at maximum current, the serial programming output ports of IT66121 are capable of pulling down an effective pull-up resistance as low as 500 connected to 5V termination voltage to the standard I2C VIL. When experiencing insufficient low level problem, try setting the current level to higher than default. Refer to IT66121 Programming Guide for proper register setting. 3. Limits defined by HDMI standard 深 圳 Audio AC Timing Specification Under functional operation conditions Symbol Parameter FS_I2S I2S sample rate FS_SPDIF S/PDIF sample rate www.ite.com.tw Conditions Up to 8 channels Min 32 2 channels 32 Typ Max 192 Unit kHz 192 kHz T8720F V0.7.1 Apr-2013 Rev:1.02 16/40 IT66121FN Fpixel PCLK pixel clock frequency TCDE PCLK dual-edged clock period2 2 FCDE PCLK dual-edged clock frequency TPDUTY PCLK clock duty cycle TPJ PCLK worst-case jitter Single-edged clocking 25 165 MHz Dual-edged 13.47 40 ns clocking 25 MHz 40% TS Video data setup time TH Video data hold time 3 TSDE Video data setup time3 Single-edged clocking Unit ns 60% 2.0 ns ns 0.7 ns 1.5 ns , Dual-edged 1.5 Max 40 74.25 QQ :71 3 Typ 9 1 Min 6.06 51 Conditions 44 Under functional operation conditions Symbol Parameter Tpixel PCLK pixel clock period1 81 Video AC Timing Specification 3 深 圳 市 金 合 讯 科 技 有 限 公 司 , 07 55 -3 68 53 28 2 clocking THDE Video data hold time 0.7 ns Notes: 1. Fpixel is the inverse of Tpixel. Operating frequency range is given here while the actual video clock frequency should comply with all video timing standards. Refer to Table 1 for supported video timings and corresponding pixel frequencies. 2. 12-bit dual-edged clocking is supported up to 74.5MHz of PCLK frequency, which covers 720p/1080i. 3. All setup time and hold time specifications are with respect to the latching edge of PCLK selected by the user through register programming. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 17/40 IT66121FN Operation Supply Current Specification Normal Operation Mode TYPICAL Mode TTL input test 3.3V, 2.5V and 1.8V HDCP In/Out Audio Deep Color 48K2Ch 8bits Off 8bits 81 Mode Video Pattern 51 Resolution 9 Video 44 Format 720P@60Hz HDMI On DVI Off YUV444 to RGB444 QQ :71 480P@60Hz MAX Mode TTL input test 3.3V, 2.5V and 1.8V Mode Audio Deep Color 司 Video Resolution 28 2 No CSC 07 55 -3 68 53 1600x1200@60Hz , 1080P@60Hz HDCP In/Out 192K2Ch 8bits No CSC Off 8bits Video Pattern , Format 480P@60Hz HDMI On 市 深 圳 IOVDD33 IVCC33 IPVCC33 www.ite.com.tw Off 技 讯 科 DVI 金 合 Symbol RGB444 有 限 1080P@60Hz 1600x1200@60Hz YUV444to 公 720P@60Hz Video Timing PCLK(MHz) TYPICAL MAX Unit 480P60 8-bit 27.0 0.07 0.07 mA 720P60 8-bit 74.25 0.07 0.07 mA 1080P60 8-bit 148.5 0.07 0.07 mA 1600x1200P60 8-bit 162.0 0.07 0.07 mA 480P60 8-bit 27.0 0.04 0.04 mA 720P60 8-bit 74.25 0.04 0.04 mA 1080P60 8-bit 148.5 0.04 0.04 mA 1600x1200P60 8-bit 162.0 0.00 0.00 mA 480P60 8-bit 27.0 1.68 1.68 mA T8720F V0.7.1 Apr-2013 Rev:1.02 18/40 IT66121FN 74.25 5.77 5.77 mA 1080P60 8-bit 148.5 3.16 3.16 mA 1600x1200P60 8-bit 162.0 3.53 3.53 mA 480P60 8-bit 27.0 4.77 6.10 mA 720P60 8-bit 74.25 11.02 13.24 mA 1080P60 8-bit 148.5 21.22 1600x1200P60 8-bit 162.0 16.745 480P60 8-bit 27.0 1.36 720P60 8-bit 74.25 3.44 1080P60 8-bit 148.5 1600x1200P60 8-bit 162.0 480P60 8-bit 27.0 720P60 8-bit 81 20.6 mA 1.36 mA 3.44 mA 6.69 6.69 mA 7.2 7.2 mA 9.95 9.95 mA 74.25 10.69 10.69 mA 1080P60 8-bit 148.5 11.84 11.84 mA 1600x1200P60 8-bit 162.0 12.0 12.0 mA 480P60 8-bit 27.0 0.87 0.87 mA 720P60 8-bit 74.25 2.32 2.32 mA 1080P60 8-bit 148.5 2.6 2.6 mA 1600x1200P60 8-bit 162.0 2.85 2.85 mA 480P60 8-bit 27.0 0.13 0.15 mA 720P60 8-bit 74.25 0.3 0.37 mA 1080P60 8-bit 148.5 0.49 0.65 mA 1600x1200P60 8-bit 162.0 0.44 0.75 mA 480P60 8-bit 27.0 26.676 28.338 mW 720P60 8-bit 74.25 53.358 56.253 mW 1080P60 8-bit 148.5 63.228 68.848 mW 1600x1200P60 8-bit 162.0 63.84 65.535 mW 480P60 8-bit 27.0 0.036 0.065 mA IOVDD 720P60 8-bit 74.25 0.132 0.164 mA TTL input is 2.5V 1080P60 8-bit 148.5 0.248 0.328 mA 1600x1200P60 8-bit 162.0 0.264 0.461 mA 480P60 8-bit 27.0 25.6752 27.372 mW 07 55 -3 68 53 IAVCC12 有 限 技 讯 科 51 44 深 圳 市 金 合 PTOTAL TTL input is 3.3V 公 When OVDD=3.3V IOVDD TTL input is 3.3V 24.63 司 , IPVCC12 28 2 IDVDD12 , mA QQ :71 IIVDD12 9 720P60 8-bit When OVDD=2.5V PTOTAL www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 19/40 IT66121FN TTL input is 2.5V 720P60 8-bit 74.25 50.7324 53.6658 mW 1080P60 8-bit 148.5 60.4056 65.1216 mW 1600x1200P60 8-bit 162.0 60.7368 62.6682 mW 480P60 8-bit 27.0 0.000 IOVDD 720P60 8-bit 74.25 0.043 TTL input is 1.8V 1080P60 8-bit 148.5 0.115 1600x1200P60 8-bit 162.0 480P60 8-bit 27.0 PTOTAL 720P60 8-bit 74.25 TTL input is 1.8V 1080P60 8-bit 148.5 1600x1200P60 8-bit 162.0 0.052 mA 0.172 mA QQ :71 9 81 mA 0.121 0.228 mA 25.632 27.294 mW 50.6256 53.5314 mW 60.246 64.933 mW 60.5652 62.3886 mW Standby Mode Standby Mode 28 2 , 44 51 0.000 07 55 -3 68 53 When OVDD=1.8V TTL input test 3.3V, 2.5V and 1.8V HDCP Video In/Out Format 1080P@60Hz On YUV444toRGB444 Audio Deep Color On 8bits Video Pattern Unit 讯 科 Standby PCLK / No PCLK Unit 0.023 / 0.023 mA 0.000 / 0.000 mA 3.3V 0.023 / 0.023 mA 0.000 / 0.000 mA 0.539 / 0.114 mA IDVDD12 0.174 / 0.173 mA IAVCC12 0.000 / 0.000 mA 1.2V 0.846 / 0.287 mA IPVCC12 0.133 / 0.000 mA IOVDD (3.3V) 0.102 / 0.000 mA IOVDD (3.3V) 0.102 / 0.000 mA IOVDD (2.5V) 0.056 / 0.000 mA IOVDD (2.5V) 0.056 / 0.000 mA 0.016 / 0.000 TTL input is 3.3V mA IOVDD (1.8V) 0.016 / 0.000 mA 技 Standby PCLK / No PCLK 深 圳 有 限 公 司 , Resolution Symbol IVCC33 IPVCC33 市 IIVDD12 金 合 IOVDD33 IOVDD (1.8V) www.ite.com.tw PTOTAL Symbol 1.4277 / 0.4203 mW T8720F V0.7.1 Apr-2013 Rev:1.02 20/40 IT66121FN TTL input is 2.5V PTOTAL 1.2311 / 0.4203 mW TTL input is 1.8V PTOTAL 1.1199 / 0.4203 mW Notes: 1. PTOTAL are calculated by multiplying the supply currents with their corresponding supply voltage and summing up all the items. 81 9 Video Data Bus Mappings RGB SDR/DDR 24 SDR 12 DDR 24 DDR 4:4:4 24 4:4:4 DDR 24 司 , SDR 公 4:2:2 DDR SDR 8/10/12 DDR 有 限 8/10/12 Clocking 1X 0.5X 1X 0.5X Separate Embedded Separate Embedded Separate Embedded Separate Embedded 1X 0.5X 2X 1X Table Figure 3 5 12 12 13 13 3 5 12 12 13 13 4 6 5 7 14 14 Note 1 8 10 7 9 Note 2 15 15 讯 科 技 Separate DDR 16/20/24 16/20/24 Separate SDR 12 YCbCr H/Vsync , Bus Width 28 2 Video Format 07 55 -3 68 53 Color Space QQ :71 44 51 IT66121 supports various input data mappings and formats, including those with embedded control signals only. Corresponding register setting is mandatory for any chosen input data mappings. Refer to IT66121 Programming Guide for detailed instruction. Table 2. Input video format supported by IT66121 深 圳 市 金 合 Notes: 1. The mapping of this format is the same as Table 5 and the timing diagram is similar to Figure 14 except the syncs are embedded. 2. The mapping of this format is the same as Table 8 and the timing diagram is similar to Figure 15 except the syncs are separated. With certain input formats, not all 24 data input pins are used. In that case, it is recommended to tie the unused input pins to ground. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 21/40 IT66121FN 24-bit RGB/YCbCr444 (Separate Syncs) 司 公 有 限 81 51 44 QQ :71 , 28 2 YCbCr Cb0 Cb1 Cb2 Cb3 Cb4 Cb5 Cb6 Cb7 Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Cr0 Cr1 Cr2 Cr3 Cr4 Cr5 Cr6 Cr7 HSYNC VSYNC DE 07 55 -3 68 53 RGB B0 B1 B2 B3 B4 B5 B6 B7 G0 G1 G2 G3 G4 G5 G6 G7 R0 R1 R2 R3 R4 R5 R6 R7 HSYNC VSYNC DE , Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE 9 These are the simplest formats, with a complete definition of every pixel in each clock period. Timing diagram is depicted in Fig.5. D[23:16] 讯 科 技 Table 3. Mappings of 24-bit RGB/YCbCr444 (separate syncs) val R/Crpix0 R/Crpix1 R/Crpix2 R/Crpix3 R/Crpix4 R/Crpix5 R/Crpix6 .... val val val D[15:8] val G/Ypix0 G/Ypix1 G/Ypix2 G/Ypix3 G/Ypix4 G/Ypix5 G/Ypix6 .... val val val val B/Cbpix0 B/Cbpix1 B/Cbpix2 B/Cbpix3 B/Cbpix4 B/Cbpix5 B/Cbpix6 .... val val val 市 金 合 blank 深 圳 D[7:0] Pixel0 Pixel1 Pixel2 Pixel3 Pixel4 Pixel5 Pixel6 ... blank PCLK DE H/VSYNC Figure 5. 24-bit RGB/YCbCr444 (separate syncs) www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 22/40 IT66121FN 16/20/24-bit YCbCr422 with Separate Syncs YCbCr 4:2:2 format does not have one complete pixel for every clock period. Luminace channel (Y) is given for every pixel, while the two chroma channels are given alternatively on every other clock period. The DE period should contain an even number of clock periods. QQ :71 44 51 81 9 YCbCr 4:2:2 24-bit Pixel#2N Pixel#2N+1 Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 Y10 Y10 Y11 Y11 Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 Cb10 Cr10 Cb11 Cr11 HSYNC HSYNC VSYNC VSYNC DE DE 07 55 -3 68 53 28 2 , YCbCr 4:2:2 20-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 HSYNC HSYNC VSYNC VSYNC DE DE , 司 公 有 限 技 Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE YCbCr 4:2:2 16-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 grounded grounded grounded grounded grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 HSYNC HSYNC VSYNC VSYNC DE DE blank Pixel0 Pixel1 Pixel2 Pixel3 Pixel4 Pixel5 Pixel6 ... D[23:12] val Cbpix0 Crpix0 Cbpix2 Crpix2 Cbpix4 Crpix4 Cbpix6 .... val val val 市 金 合 讯 科 Table 4. Mappings of 16/20/24-bit YCbCr422 with separate syncs val Ypix0 Ypix1 Ypix2 Ypix3 Ypix4 Ypix5 Ypix6 .... val val val 深 圳 D[11:0] blank PCLK DE H/VSYNC Figure 6. 16/20/24-bit YCbCr422 with separate syncs www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 23/40 IT66121FN 16/20/24-bit YCbCr422 with Embedded Syncs This is similar to the previous format. The only difference is that the syncs are embedded. Bus width could be 16-bit, 20-bit or 24-bit. 81 51 44 QQ :71 , 28 2 07 55 -3 68 53 司 公 YCbCr 4:2:2 24-bit Pixel#2N Pixel#2N+1 Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 Y10 Y10 Y11 Y11 Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 Cb10 Cr10 Cb11 Cr11 grounded grounded grounded grounded grounded grounded 9 YCbCr 4:2:2 20-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 grounded grounded grounded grounded grounded grounded , YCbCr 4:2:2 16-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 grounded grounded grounded grounded grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 grounded grounded grounded grounded grounded grounded 有 限 Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE 讯 科 技 Table 5. Mappings of 16/20/24-bit YCbCr422 with embedded syncs 金 合 blank val 深 圳 D[11:0] 市 D[23:12] val blank SAV Pixel0 Pixel1 Pixel2 Pixel3 Pixel4 Pixel5 Pixel6 ... EAV val val val val Cbpix0 Crpix0 Cbpix2 Crpix2 Cbpix4 Crpix4 Cbpix6 .... val val FF 00 00 XY Ypix0 Ypix1 Ypix2 Ypix3 Ypix4 Ypix5 Ypix6 .... FF 00 PCLK DE H/VSYNC Figure 7. 16/20/24-bit YCbCr422 with embedded syncs www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 24/40 IT66121FN 深 圳 市 金 合 讯 科 技 有 限 公 司 , 07 55 -3 68 53 28 2 , QQ :71 44 51 81 9 Note: 1. FF, 00, 00, XY information are mapped to D[11:4] 2. 20-bit mode is compatible with BT1120 format 20-bit mode www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 25/40 IT66121FN 16/20/24-bit YCbCr422 with Embedded Syncs (BTA-T1004 Format) The BTA-T1004 format is similar to the previous format except the SAV and EAV positions. QQ :71 44 51 81 9 YCbCr 4:2:2 24-bit Pixel#2N Pixel#2N+1 Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 Y10 Y10 Y11 Y11 Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 Cb10 Cr10 Cb11 Cr11 grounded grounded grounded grounded grounded grounded 07 55 -3 68 53 28 2 , YCbCr 4:2:2 20-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 grounded grounded grounded grounded grounded grounded , 司 公 有 限 Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE YCbCr 4:2:2 16-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 grounded grounded grounded grounded grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 grounded grounded grounded grounded grounded grounded 讯 科 技 Table 6. Mappings of YCbCr422 with embedded syncs (BTA-T1004 format) blank blank D[23:12] Pixel0 Pixel1 Pixel2 Pixel3 Pixel4 Pixel5 Pixel6 ... EAV val FF 00 Cbpix0 Crpix0 Cbpix2 Crpix2 Cbpix4 Crpix4 Cbpix6 .... FF 00 val val 00 XY Ypix0 Ypix1 Ypix2 Ypix3 Ypix4 Ypix5 Ypix6 .... 00 XY val 深 圳 市 D[11:0] 金 合 SAV PCLK DE H/VSYNC Figure 8. 16/20/24-bit YCbCr422 with embedded syncs (BTA-T1004 format) Note: 1. FF, 00, 00, XY information are mapped to D[23:16] and D[11:4] www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 26/40 IT66121FN 8/10/12-bit YCbCr422 with Embedded Syncs 51 44 QQ :71 28 2 , 司 公 有 限 技 YCbCr 4:2:2 12-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded grounded grounded grounded grounded C0 Y0 C1 Y1 C2 Y2 C3 Y3 C4 Y4 C5 Y5 C6 Y6 C7 Y7 C8 Y9 C9 Y9 C10 Y10 C11 Y11 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded , YCbCr 4:2:2 10-bit 1st PCLK 2nd PCLK grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded C0 Y0 C1 Y1 C2 Y2 C3 Y3 C4 Y4 C5 Y5 C6 Y6 C7 Y7 C8 Y8 C9 Y9 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded 07 55 -3 68 53 YCbCr 4:2:2 8-bit 1st PCLK 2nd PCLK grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded C0 Y0 C1 Y1 C2 Y2 C3 Y3 C4 Y4 C5 Y5 C6 Y6 C7 Y7 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE 81 9 This format is another variation of the YCbCr formats. The bus width is further reduced by half compared from the previous YCbCr 4:2:2 formats, to either 8-bit, 10-bit or 12-bit. To compensate for the halving of data bus, PCLK is doubled. With the double-rate input clock, luminance channel (Y) and chroma channels (Cb or Cr) are alternated. blank blank SAV Pixel0 Pixel1 Pixel2 ... ... Crpix2/3 .... EAV 市 金 合 讯 科 Table 7. Mappings of 8/10/12-bit YCbCr422 with embedded syncs 深 圳 D[23:16]&[3:0] D[15:4] val FF 00 00 XY Cbpix0/1 Ypix0 Crpix0/1 Ypix1 Cbpix2/3 Ypix2 FF 00 PCLK DE H/VSYNC www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 27/40 IT66121FN Figure 9. 8/10/12-bit YCbCr422 with embedded syncs 深 圳 市 金 合 讯 科 技 有 限 公 司 , 07 55 -3 68 53 28 2 , QQ :71 44 51 81 9 Note: 1. FF, 00, 00, XY information are mapped to D[15:8] 2. 8-bit mode is compatible with CCIR656 format 3. 10-bit mode is compatible with BT1120 format 10-bit mode www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 28/40 IT66121FN 8/10/12-bit YCbCr422 with Separate Syncs This format is simply the variation of previously mentioned one plus separate syncs. YCbCr 4:2:2 10-bit YCbCr 4:2:2 8-bit 2nd PCLK 1st PCLK 2nd PCLK Pixel#2N Pixel#2N+1 grounded grounded grounded grounded grounded grounded grounded grounded C0 C1 C2 C3 C4 C5 C6 C7 grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 grounded grounded grounded grounded grounded grounded C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 grounded grounded grounded grounded grounded grounded Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 grounded grounded grounded grounded C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 grounded grounded grounded grounded Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y9 Y9 Y10 Y11 有 限 公 81 51 44 QQ :71 , 28 2 07 55 -3 68 53 司 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded HSYNC VSYNC DE 9 1st PCLK grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded HSYNC VSYNC DE grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded HSYNC VSYNC DE , Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE YCbCr 4:2:2 12-bit 技 Table 8. Mappings of 8/10/12-bit YCbCr422 with separate syncs 金 合 D[23:16]&[3:0] 讯 科 blank val Cbpix0/1 Ypix0 Pixel1 Crpix0/1 Ypix1 Pixel2 Cbpix2/3 Ypix2 ... ... Crpix2/3 .... blank val val val 市 D[15:4] Pixel0 深 圳 PCLK DE H/VSYNC Figure 10. 8/10/12-bit YCbCr422 with separate syncs www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 29/40 IT66121FN The IT66121 supports another IO mapping method of YCbCr 4:2:2 formats which we call Non-sequential IO Mode. The only difference between these two modes is the Y/Cb/Cr data mapping sequence of the IO pin. The following tables show the different mappings of these two modes. Non-sequential IO mode of 16/20/24-bit YCbCr422 QQ :71 44 51 81 9 YCbCr 4:2:2 24-bit Pixel#2N Pixel#2N+1 Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 Y10 Y10 Y11 Y11 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 Cb10 Cr10 Cb11 Cr11 HSYNC HSYNC VSYNC VSYNC DE DE 07 55 -3 68 53 28 2 , YCbCr 4:2:2 20-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded Y0 Y0 Y1 Y1 grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 HSYNC HSYNC VSYNC VSYNC DE DE , 司 公 有 限 Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE YCbCr 4:2:2 16-bit Pixel#2N Pixel#2N+1 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 HSYNC HSYNC VSYNC VSYNC DE DE 技 深 圳 市 金 合 讯 科 Table 9. Mappings of 16/20/24-bit YCbCr422 non-sequential IO mode www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 30/40 IT66121FN Non-sequential IO mode of 8/10/12-bit YCbCr422 QQ :71 44 51 81 9 YCbCr 4:2:2 12-bit Pixel#2N Pixel#2N+1 C0 Y0 C1 Y1 C2 Y2 C3 Y3 grounded grounded grounded grounded grounded grounded grounded grounded C4 Y4 C5 Y5 C6 Y6 C7 Y7 C8 Y9 C9 Y9 C10 Y10 C11 Y11 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded , YCbCr 4:2:2 10-bit 1st PCLK 2nd PCLK grounded grounded grounded grounded C0 Y0 C1 Y1 grounded grounded grounded grounded grounded grounded grounded grounded C2 Y2 C3 Y3 C4 Y4 C5 Y5 C6 Y6 C7 Y7 C8 Y8 C9 Y9 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded 28 2 YCbCr 4:2:2 8-bit 1st PCLK 2nd PCLK grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded C0 Y0 C1 Y1 C2 Y2 C3 Y3 C4 Y4 C5 Y5 C6 Y6 C7 Y7 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded 07 55 -3 68 53 Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE , 公 司 Table 10. Mappings of 8/10/12-bit YCbCr422 non-sequential IO mode 深 圳 市 金 合 讯 科 技 有 限 In additional to the previous input formats, there are three options can be supported by the IT66121. DE-only option can be used for those input formats without H/VSync information. Dual-edge triggering with half bus width option can be used to reduce the necessary bus width and dual-edge triggering with half pixel clock option allows half input pixel clock. No all the input formats listed above can support three options and please refer to the IT66121 programming guide for more information. Some examples shown below are the corresponding timing relations when these options are enabled. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 31/40 IT66121FN 81 51 44 QQ :71 , 28 2 公 司 YCbCr Cb0 Cb1 Cb2 Cb3 Cb4 Cb5 Cb6 Cb7 Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Cr0 Cr1 Cr2 Cr3 Cr4 Cr5 Cr6 Cr7 grounded grounded DE 07 55 -3 68 53 RGB B0 B1 B2 B3 B4 B5 B6 B7 G0 G1 G2 G3 G4 G5 G6 G7 R0 R1 R2 R3 R4 R5 R6 R7 grounded grounded DE , Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE 9 DE-Only Option: use 24-bit RGB/YCbCr444 (DE-only mode) as example R/Crpix0 R/Crpix1 R/Crpix2 R/Crpix3 R/Crpix4 R/Crpix5 R/Crpix6 .... val val val val G/Ypix0 G/Ypix1 G/Ypix2 G/Ypix3 G/Ypix4 G/Ypix5 G/Ypix6 .... val val val val B/Cbpix0 B/Cbpix1 B/Cbpix2 B/Cbpix3 B/Cbpix4 B/Cbpix5 B/Cbpix6 .... val val val 金 合 D[15:8] ... val Pixel1 Pixel2 Pixel3 Pixel4 Pixel5 blank 市 D[7:0] Pixel0 技 D[23:16] Pixel6 讯 科 blank 有 限 Table 11. Mappings of 24-bit RGB/YCbCr444 (DE-only mode) 深 圳 PCLK DE H/VSYNC Figure 11. 24-bit RGB/YCbCr444 (DE-only mode) www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 32/40 IT66121FN 81 51 , QQ :71 44 YCbCr 1st edge 2nd edge Cb0 Y4 Cb1 Y5 Cb2 Y6 Cb3 Y7 Cb4 Cr0 Cb5 Cr1 Cb6 Cr2 Cb7 Cr3 Y0 Cr4 Y1 Cr5 Y2 Cr6 Y3 Cr7 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded HSYNC VSYNC DE 公 司 , 07 55 -3 68 53 28 2 RGB 1st edge 2nd edge B0 G4 B1 G5 B2 G6 B3 G7 B4 R0 B5 R1 B6 R2 B7 R3 G0 R4 G1 R5 G2 R6 G3 R7 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded HSYNC VSYNC DE Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE 9 Dual-Edge Triggering with Half Bus Width: use 12-bit RGB/YCbCr444 format as example D[23:12] 金 合 D[11:8] 深 圳 市 D[7:4] D[3:0] 技 Pixel0 Pixel1 Pixel2 ... 讯 科 blank 有 限 Table 12. Mappings of 12-bit RGB/YCbCr444 dual-edge triggering (separate syncs) ... blank val G/Ypix0 R/Crpix0 G/Ypix1 R/Crpix1 G/Ypix2 R/Crpix2 G/Ypix3 [3:0] [7:4] [3:0] [7:4] [3:0] [7:4] [3:0] .... val val val val B/Cbpix0 R/Crpix0 B/Cbpix1 R/Crpix1 B/Cbpix2 R/Crpix2 B/Cbpix3 [7:4] [3:0] [7:4] [3:0] [7:4] [3:0] [7:4] .... val val val val B/Cbpix0 G/Ypix0 B/Cbpix1 G/Ypix1 B/Cbpix2 G/Ypix2 B/Cbpix3 [3:0] [7:4] [3:0] [7:4] [3:0] [7:4] [3:0] .... val val val PCLK DE H/VSYNC Figure 12. 12-bit RGB/YCbCr444 dual-edge triggering (separate syncs) www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 33/40 IT66121FN Dual-Edge Triggering with Half Pixel Clock: 司 81 51 44 QQ :71 , 28 2 有 限 公 YCbCr Cb0 Cb1 Cb2 Cb3 Cb4 Cb5 Cb6 Cb7 Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Cr0 Cr1 Cr2 Cr3 Cr4 Cr5 Cr6 Cr7 HSYNC VSYNC DE 07 55 -3 68 53 RGB B0 B1 B2 B3 B4 B5 B6 B7 G0 G1 G2 G3 G4 G5 G6 G7 R0 R1 R2 R3 R4 R5 R6 R7 HSYNC VSYNC DE , Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE 9 Example 1: 24-bit RGB/YCbCr444 with Separate Syncs and Dual-Edge Triggering Pixel6 ... val R/Crpix0 R/Crpix1 R/Crpix2 R/Crpix3 R/Crpix4 R/Crpix5 R/Crpix6 .... val val val D[15:8] val G/Ypix0 G/Ypix1 G/Ypix2 G/Ypix3 G/Ypix4 G/Ypix5 G/Ypix6 .... val val val D[7:0] val B/Cbpix0 B/Cbpix1 B/Cbpix2 B/Cbpix3 B/Cbpix4 B/Cbpix5 B/Cbpix6 .... val val val 深 圳 市 金 合 D[23:16] Pixel0 讯 科 blank 技 Table 13. Mappings of 24-bit RGB/YCbCr444 dual-edge triggering (separate syncs) Pixel1 Pixel2 Pixel3 Pixel4 Pixel5 blank PCLK DE H/VSYNC Figure 13. 24-bit RGB/YCbCr444 dual-edge triggering (separate syncs) www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 34/40 IT66121FN Example 2: 16/20/24-bit YCbCr422 with Separate Syncs using Dual-Edge Triggering 司 QQ :71 44 51 81 9 YCbCr 4:2:2 24-bit 1st edge 2nd edge Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 Y10 Y10 Y11 Y11 Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 Cb10 Cr10 Cb11 Cr11 HSYNC HSYNC VSYNC VSYNC DE DE 07 55 -3 68 53 28 2 , YCbCr 4:2:2 20-bit 1st edge 2nd edge grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 Y8 Y8 Y9 Y9 grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 Cb8 Cr8 Cb9 Cr9 HSYNC HSYNC VSYNC VSYNC DE DE , YCbCr 4:2:2 16-bit 1st edge 2nd edge grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y0 Y1 Y1 Y2 Y2 Y3 Y3 Y4 Y4 Y5 Y5 Y6 Y6 Y7 Y7 grounded grounded grounded grounded grounded grounded grounded grounded Cb0 Cr0 Cb1 Cr1 Cb2 Cr2 Cb3 Cr3 Cb4 Cr4 Cb5 Cr5 Cb6 Cr6 Cb7 Cr7 HSYNC HSYNC VSYNC VSYNC DE DE 公 Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE D[23:12] 金 合 D[11:0] Pixel0 讯 科 blank 技 有 限 Table 14. Mappings of 16/20/24-bit YCbCr422 dual-edge triggering (separate syncs) Pixel1 Pixel2 Pixel3 Pixel4 Pixel5 Pixel6 ... blank val Cbpix0 Crpix0 Cbpix2 Crpix2 Cbpix4 Crpix4 Cbpix6 .... val val val val Ypix0 Ypix1 Ypix2 Ypix3 Ypix4 Ypix5 Ypix6 .... val val val 深 圳 市 PCLK DE H/VSYNC Figure 14. 16/20/24-bit YCbCr422 dual-edge triggering (separate syncs) www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 35/40 IT66121FN Example 3: 8/10/12-bit YCbCr422 with Embedded Syncs using Dual-Edge Triggering YCbCr 4:2:2 8-bit YCbCr 4:2:2 10-bit YCbCr 4:2:2 12-bit 2nd edge 1st edge 2nd edge 1st edge 2nd edge grounded grounded grounded grounded grounded grounded grounded grounded C0 C1 C2 C3 C4 C5 C6 C7 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y9 Y9 Y10 Y11 grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded grounded 81 51 44 QQ :71 , 28 2 07 55 -3 68 53 , 司 9 1st edge 公 Pin Name D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 HSYNC VSYNC DE 有 限 Table 15. Mappings of 8/10/12-bit YCbCr422 dual-edge triggering (embedded syncs) blank blank Pixel0 D[23:16]&[3:0] FF 00 00 XY Cbpix0/1 Ypix0 Pixel1 Crpix0/1 Ypix1 Pixel2 Cbpix2/3 Ypix2 ... ... Crpix2/3 .... EAV FF 00 深 圳 市 PCLK val 金 合 D[15:4] 讯 科 技 SAV DE H/VSYNC Figure 15. 8/10/12-bit YCbCr422 dual-edge triggering (embedded syncs) www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 36/40 IT66121FN System Design Consideration QQ :71 44 51 81 9 As a high-performance receiver/transmitter, ITE’s RX/TX is capable of receiving/transmitting those signals that are attenuated and degraded by the HDMI cables. These signals are usually very small in amplitudes in addition to the distortion that the cable inflicts on them. The analog front-end of ITE’s RX/TX is designed to combat environment noises as well as interference to some degree. However, to get the optimum performance the system designers should follow the guideline below when designing the application circuits and PCB layout. HDMI Differential Signal The characteristic impedance of all differential PCB traces (RX2P/M, RX1P/M, RX0P/M, and 司 , 07 55 -3 68 53 28 2 , RXCP/M) should be kept 100_ all the way from the HDMI connector to ITE’s RX/TX. This is very crucial to the system performance at high speeds. When routing these 4 differential transmission lines (8 single-ended lines in total), the following guidelines should be followed: 1. The signals traces should be on the outside layers (e.g. TOP layer) while beneath it there should be a continuous ground plane in order to maintain the called micro-strip structure, giving stable and well-defined characteristic impedances. 2. Cornering, through holes, crossing and any irregular signal routing should be avoided so as to prevent from disrupting the EM field and creating discontinuity in characteristic impedance. 3. ITE’s RX/TX should be placed as close to the HDMI connector as possible. Since the TMDS signal pins of ITE’s RX/TX perfectly match the order of the connector pins, it is very 公 有 限 金 合 5. 讯 科 技 4. convenient to route the signal directly into the chip, without through holes or angling. Carefully choose the width and spacing of the differential transmission lines as their characteristic impedance depends on various parameters of the PCB: trace width, trace spacing, copper thickness, dielectric constant, dielectric thickness, etc. Careful 3D EM simulation is the best way to derive a correct dimension that enables nominal 100_ differential impedance. Please contact us directly for technical support of this issue. The sensitive HDMI differential signals should be taken when routing. To reduce the 深 圳 市 differential unbalanced effect, it is recommended to separate at least 3 times the dielectric thickness between the signal layer and the reference layer to any other adjacent signal or GND plane to reduce noise inference and jitter. (or 25 mils is enough space in almost PCB stack) ESD Consideration Special care should be taken when adding discrete ESD devices to all differential PCB traces (RX2P/M, RX1P/M, RX0P/M, and RXCP/M). ITE’s RX/TX is designed to provide ESD protection for up to 2kV at these pins. Adding discrete ESD diodes could enhance the ESD capability, but at the same time will inevitably add capacitive loads, therefore degrade the electrical performance at www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 37/40 IT66121FN QQ :71 44 51 81 9 high speeds. If not chosen carefully, these diodes coupled with less-than-optimal layout would prevent the system from passing the SINK TMDS-Differential Impedance test in the HDMI Compliance Test (Test ID 8-8). Besides, most general-purpose ESD diodes are relatively large in size, forcing the high-speed differential lines to corner several times and therefore introducing severe reflection. Carefully choosing an ESD diode that's designed for HDMI signaling could lead to a minimum loading as well as an optimized layout. Commercially available devices such as Semtech's RClamp0524p that take into consideration of all aspects are recommended. A layout example is shown in Fig. 16, with referenced FR4 PCB structure included. Note that the ESD diodes should be placed as close to the HDMI connectors as possible to yield the best ESD performances. 100ohm differentially 68 67 66 65 , RClamp0524p 64 28 2 63 62 61 GND 60 07 55 -3 68 53 59 58 57 56 55 54 53 51 50 49 47 EXAMPLE: 44 W 43 S GND DATA0CLOCK+ GND RClamp0524p 41 εr=4.3 40 CEC SCL SDA GND +5V 1.8mil 8mil HPD 100 ohm: W=9mil, S=11mil 1.4mil 技 39 CLOCK- reserved W 有 限 42 公 45 讯 科 PCB layout example for high-speed transmission lines with RClamp0524p 金 合 Figure 16: DATA0+ 司 46 DATA1+ GND , 48 GND DATA2- DATA1- GND 52 DATA2+ 深 圳 市 Notes: The PCB stack and material will affect differential impedance. The customer shall co-work with PCB provider to obtain the real 100 ohm impedance based on actual PCB stack and material. Power Supply Bypassing 1. It is recommended to bypass each group of power supply pin with a 0.1µF capacitor. 2. It is also recommended that the bypass capacitor be located within about 0.5cm distance of each power pin. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 38/40 Low ESL 0.01uF 44 Device 51 81 9 IT66121FN VCC VCC QQ :71 Decoupling Capacitor 28 2 07 55 -3 68 53 Via to GND , VSS 3. Avoid placing the capacitor on the opposite side of the PC board from the HDMI IC. 4. It is recommended to add ferrite beads for analog powers. Ex. PVDD, PVCC, AVDD etc… High Speed Digital Input/Output Signals(Both Data and Clocks) 司 , 5. Shorter power loop makes better performance. 公 1. To obtain good signal quality and avoid EMI issue, 4-layres PCB stacks are recommended. 有 限 2. Try to minimize the trace length that the digital outputs have to drive. 技 3. Keep these high speed signals refer to a continue GND or power plane, no GND or power slot break the returning current path. 金 合 讯 科 4. It’s recommended to add a series resistor of value 33 ohm to suppress reflections, reduce EMI, and reduce the current spikes. These series resistors should be place as close to the driving pins as possible. 市 5. If possible, try to place ITE’s RX/TX and related “Scalar IC” on the same PCB side and route these high speed signals not to through vias to get the better signal quality. 深 圳 6. The sensitive clock (PCLK) signals should be taken when routing. To reduce the crosstalk effect, it is recommended to separate at least 2 times the maximum dielectric thickness between the signal layer and the reference layer to any other adjacent signal to reduce noise inference and jitter. www.ite.com.tw T8720F V0.7.1 Apr-2013 Rev:1.02 39/40 IT66121FN 深 圳 市 金 合 讯 科 技 有 限 公 司 , 07 55 -3 68 53 28 2 , QQ :71 44 51 81 9 Package Dimensions www.ite.com.tw Figure 17. 64-pin QFN Package Dimensions T8720F V0.7.1 Apr-2013 Rev:1.02 40/40