CAT6612 single-link hdmi transmitter www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 2/29 general description the CAT6612 is a high-performance and low-cost si ngle channel hdmi transmitter, fully compliant with hdmi 1.2, hdcp 1.1 and backward compatible to dvi 1.0 specifications. the CAT6612 serves to provide the most cost-effective hdmi solution for dtv-ready consumer electronics such as settop boxes, dvd players and a/v receiver s, 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. aside from the various video output formats supported, the CAT6612 also supports 2 channels of i 2 s digital audio, with sampling rate up to 192khz and sa mple size up to 24 bits. CAT6612 also support s/pdif input of up to 192khz sampling rate. by default the CAT6612 comes with integrated hdcp roms whic h are pre-progr ammed with hdcp keys that ensures secure digital content transmi ssion. users need not worry about the procurement and maintainence of the hdcp keys. features �? single channel hdmi transmitter �? compliant with hdmi 1.2, hdcp 1.1 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, svg a, xga, sxga up to uxga �? various video input interface supporting digital video standards such as: �? 24-bit rgb/ycbcr 4:4:4 �? 16/20/24-bit ycbcr 4:2:2 �? 8/10/12-bit ycbcr 4:2:2 (ccir-656) �? 12-bit double data rate interface �? bi-direction color space conversion (c sc) between rgb and ycbcr color spaces with programmable coefficients. �? up/down sampling between yc bcr 4:4:4 and ycbcr 4:2:2 �? dithering for conversion fr om 12-bit component and 8-bit �? digital audio input interface supporting �? audio sample rate: 32~192 khz �? sample size: 16~24 bits �? one i2s interface supporting 2-channel audio www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 3/29 �? s/pdif interface supporting pcm, dolby digital, dts digital audio transmission at up to 192khz �? compatible with iec 60958 and iec 61937 �? 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 au dio input interface with or without mclk. �? integrated pre-pr ogrammed hdcp keys �? purely hardware hdcp engine increasing the robustness and security of hdcp operation �? monitor detection through hot plug detect ion and receiver termination detection �? intelligent, programmable power management �? 80-pin lqfp package �? rohs compliant ( 100% green available ) ordering information model temperature range package type green/pb free option CAT6612cq 0~70 80-pin lqfp green www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 4/29 pin diagram 40 nc 39 38 37 agnd 36 tx2p 35 tx2m 34 avcc 33 tx1p 32 31 30 29 28 27 26 25 24 23 pvcc1 22 pgnd1 21 entest 20 ddcscl 19 ddcsda 18 hpd 17 int# 16 ivdd 15 ivss 14 ovss 13 ovdd 12 sck 11 ws 10 i2s0 9 rsvd 8 rsvd 7 rsvd 6 mclk 5 spdif 4 ivdd 3 ivss 2 vsync 1 hsync d13 d12 d11 d10 d9 pclk d8 d7 d6 d5 ovdd ovss ivss ivdd d4 d3 d2 d1 d0 de 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 41 pcadr 42 sysrstn 43 pcscl 44 pcsda 45 ivdd 46 ovss 47 ovdd 48 d23 49 d22 50 d21 51 d20 52 d19 53 d18 54 d17 55 d16 56 d15 57 d14 58 ivdd 59 ivss 60 ivss CAT6612 lqfp-80 top view tx1m agnd tx0p tx0m avcc txcp txcm agnd rext rsvd rsvd figure 1. CAT6612 pin diagram www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 5/29 pin description digital video input pins pin name direction description type pin no. d[23:0] input digital vi deo input pins. d[23:12] are only used in 24-bit single-edged mode. in 12-bit, dual-edged mode d[23:12] should be tied to ground. lvttl 49-58, 61-65, 67-70, 75-79 de input data enable lvttl 80 hsync input horizontal sync. signal lvttl 1 vsync input vertical sync. signal lvttl 2 pclk input input data clock lvttl 66 digital audio input pins pin name direction description type pin no. mclk input audio master clock input lvttl 6 sck input i2s serial clock input lvttl 12 ws input i2s word select input lvttl 11 i2s0 input i2s serial data input lvttl 10 spdif input s/pdif audio input lvttl 5 programming pins pin name direction description type pin no. int# output interrupt output. default active-low (5v-tolerant) lvttl 17 sysrstn input hardware reset pin. ac tive low (5v-tolerant) schmitt 42 ddcscl i/o i 2 c clock for ddc (5v-tolerant) schmitt 20 ddcsda i/o i 2 c data for ddc (5v-tolerant) schmitt 19 pcscl input serial programming clock for chip programming (5v-tolerant) schmitt 43 pcsda i/o serial programming data for ch ip programming (5v-tolerant) schmitt 44 pcadr input serial programming device address select lvttl 41 hpd input hot plug detection (5v-tolerant) lvttl 18 entest input must be tied low via a resistor. lvttl 21 nc must be left unconnected 41 rsvd could be tied to either low or high, or just left connected in the way of cat6611 7, 8, 9, 38, 39 www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 6/29 hdmi front-end interface pins pin name direction description type pin no. tx2p analog hdmi channel 2 positive output tmds 36 tx2m analog hdmi channel 2 negative output tmds 35 tx1p analog hdmi channel 1 positive output tmds 33 tx1m analog hdmi channel 1 negative output tmds 32 tx0p analog hdmi channel 0 positive output tmds 30 tx0m analog hdmi channel 0 negative output tmds 29 txcp analog hdmi clock chan nel positive output tmds 27 txcm analog hdmi clock chan nel negative output tmds 26 rext analog external resistor for setting tmds output level. default tied to avcc via a 475-ohm smd resistor. analog 24 power/ground pins pin name description type pin no. ivdd digital logic power (1.8v) power 4, 16, 45, 59, 74 ivss digital logic ground ground 3, 15, 46, 60, 73 ovdd i/o pin power (3.3v) power 13, 48, 71 ovss i/o pin ground ground 14, 47, 72 avcc hdmi analog frontend power (3.3v) power 28, 34 agnd hdmi analog frontend ground ground 25, 31, 37 pvcc1 hdmi core pll power (3.3v) power 23 pgnd1 hdmi core pll ground ground 22 www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 7/29 functional description CAT6612 provides complete solutions for hdmi s ource 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 up/ down sampling. the following picture is the functional block digram of CAT6612, which describes clearly the data flow. video data capture & de generator audio data capture color space conversion 4:2:2 4:4:4 pixel repeat hdcp cipher & encryption enginer tmds transmitter (dvi/hdmi) i2c master (to hdcp eeprom) i2c master (hdcp controller) i2c slave (to host) configuration register blocks pclk vsync hsync de d[23:0] ws i2s0 spdif pcadr ddcscl ddcsda mclk sck pcscl pcsda romscl romsda tx2p/m tx1p/m tx0p/m txcp/m interrupt controller hpd int sysrstn figure 2. functional blo ck diagram of CAT6612 video data processing flow figure 3 depicts the video data processing flow. for the purpose of retaining maximum flexibility, most of the block enablings and path bypassings are cont rolled through register programming. please refer to CAT6612 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 a lways readily available from input pins, the preparation of the data enable an d 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 pr ocessing including ycbcr up/down-sampling, color-space conversion and dithering. dependi ng on the selected input and output video formats, different processing blocks are either enabled or by passed via register control. for the sake of www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 8/29 flexibility, this is all done in software register programming. therefore, extr a care should be taken in keeping the selected input-output format combi nation and the corresponding video processing block selection. please refer to the CAT6612 prog ramming guide for suggested register setting. pclk h/vsync de d[23:0] embedded ctrl. signals extraction de generator h/vsync de de data h/vsync clock ycbcr422 to ycbcr444 (upsampler) ycbcr �[ rgb (csc) dithering 12-to-8 ycbcr444 to ycbcr422 (downsampler) hdcp tmds driver tx2 tx1 tx0 txc figure 3. video data pro cessing flow of CAT6612 designated as d[23:0], t he 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. although not explicitly depicted in figure 3, input video clo ck (pclk) can be configured to be multiplied by 0.5, 2 or 4, so as to support special formats such as ccir-656 and pixe l-repeating. this is also enabled by software programming. general description of block functions is as follows: extraction of embedded control signals (embedded ctrl. si gnals 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 str eams includes start of active video (sav) and end of active video (eav) that this block us es to extract the required control signals. 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 CAT6612, this block is used to generate appropriate de signal from hsync, vsync and clock. upsampling (ycbcr422 to ycbcr444) www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 9/29 in cases where input signals are in ycbcr 4:2:2 form at and output is selected as 4:4:4, this block is enabled to do the upsampling. well-designed signal filtering is employed to avoid visible artifacts generated during upsampling. 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 si nk combination, this blo ck offers bi-directional rgb ? ycbcr color space conversion (csc). to provide maximum flexibility, the maxtrix coefficients of the csc engine in CAT6612 are fu lly programmable. users of cat6 612 could elect to employ their preferred conversion formula. dithering (dithering 12-to-8) all the video processings in CAT6612 are done in 12 bits per channel in order to minimize rounding errors and other computational residuals that occur during pr ocessing. for outputing to the 8-bits-per-channel formats, decimation from 12 bits to 8 bits is required. this block performs the necessary dithering for decimation to pr event visible artifa cts from appearing. downsampling (ycbcr444 to ycbcr422) in cases where input signals are in ycbcr 4:4:4 fo rmat and output is selected as ycbcr 4:2:2, this block is enabled to do the downsampling. well-designed signal filtering is employed to avoid visible artifacts generated during downsampling. hdcp engine (hdcp) the hdcp engine in CAT6612 handles all the processing requried by hdcp mechanism in hardware. software intervention is not necessary except checking for revocation. preprogrammed hdcp keys are also embedded in CAT6612. users need not wo rry about the purchasing and management of the hdcp keys as chip advanced technology will take care of them. 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 resi stor of proper value to pin 24 (rext). www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 10/29 supported input video formats table 1 lists the input video formats supported by CAT6612. input pixel clock frequency (mhz) color space video format input chs bus width hsync/ vsync 480i 480p xga 720p 1080i sxga 1080p uxga 3 24 separate 13.5 27 65 74.25 74.25 108 148.5 162 rgb 4:4:4 1 12 separate 13.5 27 65 74.25 74.25 108 148.5 3 24 separate 13.5 27 65 74.25 74.25 108 148.5 162 4:4:4 1 12 separate 13.5 27 65 74.25 74.25 108 148.5 separate 13.5 27 65 74.25 74.25 108 148.5 162 2 16/20/24 embedded 13.5 27 65 74.25 74.25 108 148.5 162 separate 27 54 130 148.5 148.5 ycbcr 4:2:2 1 8/10/12 embedded 27 54 130 148.5 148.5 table 1. input video formats supported by CAT6612 notes: 1. table cells that are left blanks are those form at combinations that ar e not supported by CAT6612. 2. input channel number is defined by the way the three color components (either r, g & b or y, cb & cr) are arranged. refer to video data bus mappings starting page 17 for better understanding. 3. embedded sync signals are defined by ccir-656 standard , using sav/eav sequences of ff, 00, 00, xy. 4. the original pixel clock of 480i is 13.5mhz. hdmi standard mandates that a 27mhz pixe l clock be used and pixel repeating is employed to keep the frequenc y range of the hdmi link within control. audio data capture and processing CAT6612 takes in one i 2 s inputs as well as one s/pdif input of audio data. the i 2 s input allows transmission of 2-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 CAT6612. by default CAT6612 generates the mclk internally to process the audio. neither i 2 s nor s/pdif inputs requires mclk inpu t, coherent or not. however, if the user prefers inputing mclk from external audio source, such conf iguration could be enabled through register setting. refer to cat661 2 programming guide for such setting. interrupt generation the system micro-controller should take in the in terrupt signal output by CAT6612 at pin 17 (int). CAT6612 generates an interr upt signal with events invo lving the following signals or situations: 1. hot-plug detection (pin 18, hpd) experiences state changes. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 11/29 2. receiver detection circuit reports the presence or absence of an active termination at the tmds clock channel (register 0eh[5], rxsendetect) 3. ddc bus is hanged for any reasons 4. audio fifo overflows 5. hdcp authentication fails 6. video data is stable or not a typical initialization of hdmi lin k should be based on interrupt signal and appropriate register probing. recommended flow is detailed in CAT6612 programming guide. simp ly put, the microcontroller should monitor the hpd status first. upon valid hpd event, move on to chec k 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. 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 CAT6612 programming guide. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 12/29 configuration and function control CAT6612 includes two serial programming ports by default (i.e. with embedded hdcp keys): one for interfacing with micro-controller, the other fo r accessing the ddc channels of hdmi link. if the customer elects to use CAT6612 with external hdcp keys, there's an additional serial programming port for interfacing with the hdcp rom. the serial programming interface for interfacing the micro-controller is a slave interface, comprising pcscl (pin 43) and pcsda (pin 44). the micro-cont roller uses this interface to monitor all the statuses and control all the functions. two device addresses are available, depending on the input logic level of pcadr (pin 41). if pcadr is pulled high by t he user, the device address is 0x9a. if pulled low, 0x98 . the i 2 c interface for accessing the ddc channels of the hdmi link is a master interface, comprising ddcscl (pin 20) and ddcsda (pin 19). CAT6612 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, CAT6612 includes a 32 bytes dedicated fifo. the micro-controller may command CAT6612 to acquire 32 bytes of edid information, read it back and then continue to read the next 32 bytes until getting all neccessary edid informations. the hdcp protocol of cat6 612 is completely implemented in hardware. no software intervention is needed except for revocation list checking. various hdcp-related statuses are stored in hdcp registers for the refere nce of micro-controller. refer to CAT6612 programming guide for detailed register descriptions. the hdcp st andard also specifies a special me ssage read protocol other than the standard i 2 c protocol. see figure 4 for checking hdcp port link integrity. slave addr (7) s r a read data (8) a read data (8) a read data (8) na p s=start; r=read; a=ack; na=no ack; p=stop figure 4. hdcp port link integrity message read shall the user opt to purchas e CAT6612 with external hdcp ro m, pin 72 (romscl) and pin 71 (romsda) form the third serial programming port and interface with the external hdcp rom. this interface is a master one. all serial programming interf aces conform to standard i 2 c transactions and operate at up to 100khz. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 13/29 electrical specifications absolute maximum ratings symbol parameter min. typ max unit ivdd core logic supply voltage -0.3 2.5 v ovdd i/o pins supply voltage -0.3 4.0 v avcc hdmi analog frontend supply voltage -0.3 4.0 v pvcc1 hdmi core pll supply voltage -0.3 4.0 v v i input voltage -0.3 ovdd+0.3 v v o output voltage -0.3 ovdd+0.3 v t j junction temperature 125 c t stg storage temperature -65 150 c esd_hb human body mode esd sensitivity 2000 v esd_mm machine mode esd sensitivity 200 v notes: 1. stresses above those listed under absolute maximum rati ngs might result in permanent damage to the device. 2. refer to functional operation conditions for normal operation. functional operation conditions symbol parameter min. typ max unit ivdd core logic supply voltage 1.71 1.8 1.89 v ovdd i/o pins supply voltage 2.97 3.3 3.63 v avcc hdmi analog frontend supply voltage 3.135 3.3 3.465 v pvcc1 hdmi core pll supply voltage 3.135 3.3 3.465 v v ccnoise supply noise 100 mv pp t a ambient temperature 0 25 70 c ja junction to ambient thermal resistance 40 c/w notes: 1. avcc and pvcc1 should be regulated. 2. see system design consi deration at page 24 for suppl y decoupling and regulation. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 14/29 operation supply cu rrent specification symbol parameter conditions typ max unit hdmi-1 21.0 22.5 ma hdmi-2 46.1 48.6 ma i ivdd_op ivdd current under normal operation hdmi-3 80.9 86.0 ma hdmi-1 0.16 0.45 ma hdmi-2 0.10 0.47 ma i ovdd_op ovdd current under normal operation hdmi-3 0.06 0.49 ma hdmi-1 8.6 9.5 ma hdmi-2 15.0 17.0 ma i avcc_op avcc current under normal operation hdmi-3 26.0 29.0 ma hdmi-1 1.7 1.9 ma hdmi-2 4.3 4.6 ma i pvcc1_op pvcc1 current under normal operation hdmi-3 8.8 9.4 ma hdmi-1 72 87 mw hdmi-2 147 176 mw pw total_op total power consumption under normal operation 3 hdmi-3 261 310 mw notes: 1. typ: ovdd=avcc=pv cc1= 3.3v, ivdd=1.8v max: ovdd=avcc=pvcc1= 3.6v, ivdd=1.98v 2. hdmi-1: 480p with 2-channel audio, pclk=27mhz hdmi-2: 720p/1080i with 2-channel audio, pclk=74.25mhz hdmi-3: 1080p with 2-channel audio, pclk=148.5mhz 3. pw total_op are calculated by multiplying the supply currents with th eir corresponding supply voltage and summing up all the items. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 15/29 dc electrical specification under functional operation conditions symbol parameter pin type conditions min. typ max unit v ih input high voltage 1 lvttl 2.0 v v il input low voltage 1 lvttl 0.8 v v t switching threshold 1 lvttl 1.5 v v t- schmitt trigger negative going threshold voltage 1 schmitt 0.8 1.1 v v t+ schmitt trigger positive going threshold voltage 1 schmitt 1.6 2.0 v v ol output low voltage 1 lvttl i ol =2~16ma 0.4 v oh output high voltage 1 lvttl i oh =-2~-16ma 2.4 i in input leakage current 1 all v in =5.5v or 0 5 a i oz tri-state output leakage current 1 all v in =5.5v or 0 10 a i ol serial programming output sink current 2 schmitt v out =0.2v 4 16 ma v swing tmds output single-ended swing 3 tmds r load =50 v load =3.3v r ext =475 400 600 ma v ohtmds tmds output high voltage 3 tmds v load -10mv v load + 10mv v i off single-ended standby output current 3 tmds v out =0 10 a notes: 1. guaranteed by i/o design. 2. the serial programming output ports are not real o pen-drain drivers. sink curr ent 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 i 2 c standard. when set at maximum current, the serial programming output ports of CAT6612 are capable of pulling down an ef fective pull-up resistance as low as 500 connected to 5v termination voltage to the standard i 2 c v il . when experiencing insufficient low level pr oblem, try setting the current level to higher than default. refer to CAT6612 programming guide for proper register setting. 3. limits defined by hdmi 1.2 standard audio ac timing specification under functional operation conditions symbol parameter conditions min. typ max unit f s_i2s i 2 s sample rate up to 2 channels 32 192 khz f s_spdif s/pdif sample rate 2 channels 32 192 khz www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 16/29 video ac timing specification under functional operation conditions symbol parameter conditions min. typ max unit t pixel pclk pixel clock period 1 6.06 40 ns f pixel pclk pixel clock frequency 1 single-edged clocking 25 165 mhz t cde pclk dual-edged clock period 2 13.47 40 ns f cde pclk dual-edged clock frequency 2 dual-edged clocking 25 74.25 mhz t pduty pclk clock duty cycle 40% 60% t pj pclk worst-case jitter 2.0 ns t s video data setup time 3 1.5 ns t h video data hold time 3 single-edged clocking 0.7 ns t sde video data setup time 3 1.5 ns t hde video data hold time 3 dual-edged clocking 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 vi deo timings and corresponding pixel frequencies. 2. 12-bit dual-edged clocking is supported up to 74.5m hz of pclk frequency, which covers 720p/1080i. 3. all setup time and hold time specific ations are with respect to the latc hing edge of pclk selected by the user through register programming. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 17/29 video data bus mappings CAT6612 supports various input data mappings and fo rmats, including those with embedded control signals only. corresponding register setting is m andatory for any chosen input data mappings. refer to CAT6612 programming guide for detailed instruction. color space video format input channels bus width h/vsync clocking table 3 24 seperate 1x 3 rgb 4:4:4 1 12 seperate dual-edged 8 3 24 seperate 1x 3 4:4:4 1 12 seperate dual-edged 8 seperate 1x 4 2 16/20/24 embedded 1x 5 seperate 2x 7 ycbcr 4:2:2 1 8/10/12 embedded 2x 6 table 2. input video format supported by CAT6612 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.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 18/29 rgb 4:4:4 and ycbcr 4:4:4, 24 bits with separate syncs these are the simpliest formats, with a complete defin ition of every pixel in each clock period. timing diagram is depicted in fig. 5 in the example of rgb. the timi ng of ycbcr 4:4:4 follow suits. pin name rgb ycbcr d0 b0 cb0 d1 b1 cb1 d2 b2 cb2 d3 b3 cb3 d4 b4 cb4 d5 b5 cb5 d6 b6 cb6 d7 b7 cb7 d8 g0 y0 d9 g1 y1 d10 g2 y2 d11 g3 y3 d12 g4 y4 d13 g5 y5 d14 g6 y6 d15 g7 y7 d16 r0 cr0 d17 r1 cr1 d18 r2 cr2 d19 r3 cr3 d20 r4 cr4 d21 r5 cr5 d22 r6 cr6 d23 r7 cr7 hsync hsync hsync vsync vsync vsync de de de table 3. rgb & ycbcr 4:4:4 mappings r pix0 r pix1 r pix2 r pix3 r pix4 r pix5 r pix6 .... g pix0 g pix1 g pix2 g pix3 g pix4 g pix5 g pix6 .... b pix0 b pix1 b pix2 b pix3 b pix4 b pix5 b pix6 .... val val val d[23:16] d[15:8] d[7:0] val val val val val val val val val blank pixel0 pixel2 pixel1 pixel3 pixel5 pixel4 pixel6 ... blank pclk de h/vsync figure 5. rgb 4:4: 4 timing diagram www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 19/29 ycbcr 4:2:2 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 channel s are given alternatively on every other clock period. the average bit amount of y is twice that of cb or cr. depending on the bus width, each component could take on different lengths. the de period should contain an even number of clock periods. figure 6 gives a timing ex ample of 16-bit ycbcr 4:2:2. t he 20-bit and 24-bit versions are similar. ycbcr 4:2:2 16-bit ycbcr 4:2:2 20-bit ycbcr 4:2:2 24-bit pin name pixel#2n pixel#2n+1 pixel#2n pixel#2n+1 pixel#2n pixel#2n+1 d0 grounded grounded grounded grounded y0 y0 d1 grounded grounded grounded grounded y1 y1 d2 grounded grounded y0 y0 y2 y2 d3 grounded grounded y1 y1 y3 y3 d4 grounded grounded grounded grounded cb0 cr0 d5 grounded grounded grounded grounded cb1 cr1 d6 grounded grounded cb0 cr0 cb2 cr2 d7 grounded grounded cb1 cr1 cb3 cr3 d8 y0 y0 y2 y2 y4 y4 d9 y1 y1 y3 y3 y5 y5 d10 y2 y2 y4 y4 y6 y6 d11 y3 y3 y5 y5 y7 y7 d12 y4 y4 y6 y6 y8 y8 d13 y5 y5 y7 y7 y9 y9 d14 y6 y6 y8 y8 y10 y10 d15 y7 y7 y9 y9 y11 y11 d16 cb0 cr0 cb2 cr2 cb4 cr4 d17 cb1 cr1 cb3 cr3 cb5 cr5 d18 cb2 cr2 cb4 cr4 cb6 cr6 d19 cb3 cr3 cb5 cr5 cb7 cr7 d20 cb4 cr4 cb6 cr6 cb8 cr8 d21 cb5 cr5 cb7 cr7 cb9 cr9 d22 cb6 cr6 cb8 cb8 cb10 cr10 d23 cb7 cr7 cb9 cb9 cb11 cr11 hsync hsync hsync hsync hsync hsync hsync vsync vsync vsync vsync vsync vsync vsync de de de de de de de table 4. mappings of ycbcr 4:2:2 with separate syncs cb pix0 [7:0] .... .... val val d[23:16] d[15:8] d[7:0] val val val val val val blank pixel0 pixel2 pixel1 pixel3 pixel5 pixel4 pixel6 ... blank pclk de h/vsync y pix0 [7:0] cr pix0 [7:0] y pix1 [7:0] cb pix2 [7:0] y pix2 [7:0] cr pix2 [7:0] y pix3 [7:0] y pix4 [7:0] y pix5 [7:0] y pix6 [7:0] cb pix4 [7:0] cr pix4 [7:0] cb pix6 [7:0] figure 6. 16-bit ycbcr 4:2:2 with separate syncs www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 20/29 ycbcr 4:2:2 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. figure 7 gives a timing example of 16-bit yc bcr 4:2:2. the 20-bit and 24-bit versions are similar. ycbcr 4:2:2 16-bit ycbcr 4:2:2 20-bit ycbcr 4:2:2 24-bit pin name pixel#2n pixel#2n+1 pixel#2n pixel#2n+1 pixel#2n pixel#2n+1 d0 grounded grounded grounded grounded y0 y0 d1 grounded grounded grounded grounded y1 y1 d2 grounded grounded y0 y0 y2 y2 d3 grounded grounded y1 y1 y3 y3 d4 grounded grounded grounded grounded cb0 cr0 d5 grounded grounded grounded grounded cb1 cr1 d6 grounded grounded cb0 cr0 cb2 cr2 d7 grounded grounded cb1 cr1 cb3 cr3 d8 y0 y0 y2 y2 y4 y4 d9 y1 y1 y3 y3 y5 y5 d10 y2 y2 y4 y4 y6 y6 d11 y3 y3 y5 y5 y7 y7 d12 y4 y4 y6 y6 y8 y8 d13 y5 y5 y7 y7 y9 y9 d14 y6 y6 y8 y8 y10 y10 d15 y7 y7 y9 y9 y11 y11 d16 cb0 cr0 cb2 cr2 cb4 cr4 d17 cb1 cr1 cb3 cr3 cb5 cr5 d18 cb2 cr2 cb4 cr4 cb6 cr6 d19 cb3 cr3 cb5 cr5 cb7 cr7 d20 cb4 cr4 cb6 cr6 cb8 cr8 d21 cb5 cr5 cb7 cr7 cb9 cr9 d22 cb6 cr6 cb8 cb8 cb10 cr10 d23 cb7 cr7 cb9 cb9 cb11 cr11 hsync grounded grounded grounded grounded grounded grounded vsync grounded grounded grounded grounded grounded grounded de grounded grounded grounded grounded grounded grounded table 5. mappings of ycbcr 4:2:2 with embedded syncs cb pix0 [7:0] .... .... val ff d[23:16] d[15:8] d[7:0] val val pixel0 pixel2 pixel1 pixel3 pixel5 pixel4 ... blank pclk de h/vsync y pix0 [7:0] cr pix0 [7:0] y pix1 [7:0] cb pix2 [7:0] y pix2 [7:0] cr pix2 [7:0] y pix3 [7:0] y pix4 [7:0] y pix5 [7:0] cb pix4 [7:0] cr pix4 [7:0] val val val 00 00 xy sav figure 7. 16-bit ycbcr 4:2:2 with embedded syncs www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 21/29 ccir-656 format the ccir-656 format is yet another va riation of the ycbcr formats. the bus width is further reduced by half compared from the previo us ycbcr 4:2:2 formats, to eith er 8-bit, 10-bit or 12-bit. to compensate for the halving of data bus, pclk is doubl ed. with the double-rate input clock, luminance channel (y) and chroma channels (cb or cr) are alte rnated. CAT6612 supports ccir-656 format of up to 720p or 1080i, with the doubled-rate clock running at 148.5mhz. ccir-656 format supports embedded syncs only. figure 8 gives an example of 8- bit ccir-656. 10-bit and 12-bit versions are similar. ccir-656 8-bit ccir-656 10-bit ccir-656 12-bit pin name 1st pclk 2nd pclk 1st pclk 2nd pclk pixel#2n pixel#2n+1 d0 grounded grounded grounded grounded c0 y0 d1 grounded grounded grounded grounded c1 y1 d2 grounded grounded c0 y0 c2 y2 d3 grounded grounded c1 y1 c3 y3 d4 grounded grounded grounded grounded grounded grounded d5 grounded grounded grounded grounded grounded grounded d6 grounded grounded grounded grounded grounded grounded d7 grounded grounded grounded grounded grounded grounded d8 c0 y0 c2 y2 c4 y4 d9 c1 y1 c3 y3 c5 y5 d10 c2 y2 c4 y4 c6 y6 d11 c3 y3 c5 y5 c7 y7 d12 c4 y4 c6 y6 c8 y9 d13 c5 y5 c7 y7 c9 y9 d14 c6 y6 c8 y8 c10 y10 d15 c7 y7 c9 y9 c11 y11 d16 grounded grounded grounded grounded grounded grounded d17 grounded grounded grounded grounded grounded grounded d18 grounded grounded grounded grounded grounded grounded d19 grounded grounded grounded grounded grounded grounded d20 grounded grounded grounded grounded grounded grounded d21 grounded grounded grounded grounded grounded grounded d22 grounded grounded grounded grounded grounded grounded d23 grounded grounded grounded grounded grounded grounded hsync grounded grounded grounded grounded grounded grounded vsync grounded grounded grounded grounded grounded grounded de grounded grounded grounded grounded grounded grounded table 6. mappings of ccir-656 .... ff d[23:16] d[15:8] d[7:0] val pixel0 pixel2 pixel1 ... blank pclk de h/vsync cb pix0 [7:0] y pix0 [7:0] cr pix0 [7:0] y pix1 [7:0] cb pix2 [7:0] y pix2 [7:0] 00 00 xy sav figure 8. 8-bit ccir-656 www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 22/29 ccir-656 + separate syncs this format is not specified by ccir-656. it's si mply the previously mentioned ccir-656 format plus separate syncs. ccir-656 8-bit ccir-656 10-bit ccir-656 12-bit pin name 1st pclk 2nd pclk 1st pclk 2nd pclk pixel#2n pixel#2n+1 d0 grounded grounded grounded grounded c0 y0 d1 grounded grounded grounded grounded c1 y1 d2 grounded grounded c0 y0 c2 y2 d3 grounded grounded c1 y1 c3 y3 d4 grounded grounded grounded grounded grounded grounded d5 grounded grounded grounded grounded grounded grounded d6 grounded grounded grounded grounded grounded grounded d7 grounded grounded grounded grounded grounded grounded d8 c0 y0 c2 y2 c4 y4 d9 c1 y1 c3 y3 c5 y5 d10 c2 y2 c4 y4 c6 y6 d11 c3 y3 c5 y5 c7 y7 d12 c4 y4 c6 y6 c8 y9 d13 c5 y5 c7 y7 c9 y9 d14 c6 y6 c8 y8 c10 y10 d15 c7 y7 c9 y9 c11 y11 d16 grounded grounded grounded grounded grounded grounded d17 grounded grounded grounded grounded grounded grounded d18 grounded grounded grounded grounded grounded grounded d19 grounded grounded grounded grounded grounded grounded d20 grounded grounded grounded grounded grounded grounded d21 grounded grounded grounded grounded grounded grounded d22 grounded grounded grounded grounded grounded grounded d23 grounded grounded grounded grounded grounded grounded hsync hsync hsync hsync vsync vsync vsync vsync de de de de table 7. mappings of ccir-656 + separate syncs .... val d[23:16] d[15:8] d[7:0] val pixel0 pixel2 pixel1 ... blank pclk de h/vsync cb pix0 [7:0] y pix0 [7:0] cr pix0 [7:0] y pix1 [7:0] cb pix2 [7:0] y pix2 [7:0] val val val blank figure 9. 8-bit ccir-656 + separate syncs www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 23/29 12-bit rgb and ycbcr 4:4:4 using dual-edge triggering this format is not specified by ccir-656. it's si mply the previously mentioned ccir-656 format plus separate syncs. rgb ycbcr pin name 1st edge 2nd edge 1st edge 2nd edge d0 b0 g4 cb0 y4 d1 b1 g5 cb1 y5 d2 b2 g6 cb2 y6 d3 b3 g7 cb3 y7 d4 b4 r0 cb4 cr0 d5 b5 r1 cb5 cr1 d6 b6 r2 cb6 cr2 d7 b7 r3 cb7 cr3 d8 g0 r4 y0 cr4 d9 g1 r5 y1 cr5 d10 g2 r6 y2 cr6 d11 g3 r7 y3 cr7 d12 grounded grounded grounded grounded d13 grounded grounded grounded grounded d14 grounded grounded grounded grounded d15 grounded grounded grounded grounded d16 grounded grounded grounded grounded d17 grounded grounded grounded grounded d18 grounded grounded grounded grounded d19 grounded grounded grounded grounded d20 grounded grounded grounded grounded d21 grounded grounded grounded grounded d22 grounded grounded grounded grounded d23 grounded grounded grounded grounded hsync hsync hsync vsync vsync vsync de de de table 8. mappings of 12-bit 4:4:4 dual-edge triggered val val val d[23:12] d[11:8] d[7:4] val val val val val val blank pixel0 pixel2 pixel1 blank pclk de h/vsync ... d[3:0] g pix0 [3:0] b pix0 [7:4] b pix0 [3:0] g pix0 [7:4] r pix0 [7:4] r pix0 [3:0] g pix1 [3:0] b pix1 [7:4] b pix1 [3:0] g pix1 [7:4] r pix1 [7:4] r pix1 [3:0] g pix2 [3:0] b pix2 [7:4] b pix2 [3:0] g pix2 [7:4] r pix2 [7:4] r pix2 [3:0] .... .... .... val val val val val val figure 10. 12-bit rgb 4:4: 4 dual-edge triggered www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 24/29 system design consideration to get the optimum perfo rmance of CAT6612, the system designer s should follow the guideline below when designing the applicati on circuits and pcb layout. 1. pin 23 (pvcc1) should be supplied with clean power : ferrite-decoupled and capacitively- bypassed , since this is the power for the tr ansmitter pll, which is crucial in determining the tmds output signal quality . excess power noise migh t degrade the system performance. 2. the characteristic impedance of all differential pcb traces (tx2p/m, tx1p/m, tx0p/m, txcp/m) should be kept 100 ? all the way from the hdmi connector to CAT6612. this is very crucial to the system performance at high speeds. when layouti ng these 4 differential transmission lines (8 single-ended lines in total), the follo wing guidelines should be followed: a. 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 mi cro-strip structure, giving stable and well-defined characteristic impedances. b. cornering, through holes, crossing and any i rregular signal routing should be avoided so as to prevent from disrupting the em field and creating discontinuity in characteristic impedance. c. CAT6612 should be placed as close to the hdmi connector as possible. since the tmds signal pins of CAT6612 perfectly match t he order of the connector pins, it is very convenient to route the signal directly into the chip, wit hout through holes or angling. d. carefully choose the width and spacing of the differentia l transmission lines as their characteristic impedance depends on various parameters of the pcb: trace width, trace spacing, copper thickness, dielectric constant, dielectric thickne ss, etc. careful 3d em simulation is the best way to derive a correct dimensi on that enables a nominal 100 ? differential impedance. please contact us directly for tec hnical support of this issue. 3. special care should be taken w hen adding discrete esd devices to all differential pcb traces (tx2p/m, tx1p/m, tx0p/m, txcp/m) . CAT6612 is designed to provide esd protection for up to 2kv at these pins. adding discrete esd di odes could enhance the esd capabili ty, but at the same time will inevitably add capacitive loads , therefore degrade the electrical performance at high speeds. if not chosen carefully, these diodes coupled with less-than-optimal layout could pr event the system from passing the source tmds data eye diagram test in the hdmi compliance test (test id 7-10). besides, most general-purpose esd diodes are rela tively large in size, forcing the high-speed differential lines to corner several times and theref ore introducing severe reflection. carefully choosing an esd diode that's designed for hdmi signalling 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. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 25/29 (http://www.semtech.com/products/produc t-detail.jsp?navid=h0,c2,c222,p3028) . an layout example is shown in fig. 11, with refe renced 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.. 36 35 34 33 32 31 30 29 28 27 26 25 24 23 21 37 20 19 18 data2+ gnd data2- data1+ gnd data1- data0+ gnd data0- clock+ gnd clock- cec reserved scl sda gnd +5v hpd 100ohm differentially e r =4.3 w s w 8mil 1.8mil 1.4mil 100 ohm: w=9mil, s=11mil example: gnd gnd rclamp0524p rclamp0524p figure 11. pcb layout exampl e for high-speed transmissi on lines with rclamp0524p 4. pin 24 (rext) should be connected to avcc via a 476 ? /1% precision smd resistor. this resistor is used to calibrate the tmds output current level to t he nominal value of 10ma. the resistor should be placed as close to CAT6612 as possible. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 26/29 package dimensions figure 13. 80-pin lqfp package dimensions www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 27/29 classification reflow profiles reflow profile pb-free assembly average ramp-up rate (ts max to tp) 3 /second max. preheat -temperature min(ts min ) -temperature max(ts max ) -time(ts min to ts ts max ) 150 200 60-180 seconds time maintained above: -temperature(t l ) -time(t l ) 217 60-150 seconds peak temperature(tp) 260 +0 /-5 time within 5 of actual peak temperature(tp) 20-40 seconds ramp-down rate 6 /second max. time 25 to peak temperature 8 minutes max. note: all temperature refer to topside of the pack age, measured on the package body surface. www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 28/29 carrier tray dimensions www.datasheet.co.kr datasheet pdf - http://www..net/
CAT6612 the cat logo is a registered trademark of chip advanced technology 2008 chip advanced technology inc. ? all right reserved. mar-2009 rev:1.1 29/29 headquarters: 3f, no.1, jin-shan 8 th st., hsin-chu city 300, taiwan (r.o.c.) tel: +886-3-666-8301 fax: +886-3-666-8630 website: http://www.chipadvanced.com taipei office: 4f, no.112, jhouzih st., neihu district, taipei city 114, taiwan (r.o.c.) tel: +886-2-87516119 fax: +886-2-87516359 information furnished is believe d to be accurate and reliable. however, cat inc. assumes no responsibility for the consequences for use of such information nor for any infringement of patents or other rights of third parties which may result from its use. no lic ense is granted by implication or otherwise under any patent or patent rights of cat inc. specifications mentioned in this publication are subject to change without notice. this publication supersedes and replaces all information if previously supplied. cat inc. produc ts are not authorized for use as critical components in life support devices or systems without the express written approval of cat inc. www.datasheet.co.kr datasheet pdf - http://www..net/
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