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| d a t a sh eet preliminary speci?cation supersedes data of 1996 sep 11 file under integrated circuits, ic22 1996 oct 02 integrated circuits SAA7182A; saa7183a digital video encoder (euro-denc2)
1996 oct 02 2 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a features monolithic cmos 3.3 v device with 5 v input stages digital pal/ntsc/secam encoder system pixel frequency 13.5 mhz accepts mpeg decoded data on 8-bit wide input port. input data format cb, y, cr etc. (ccir 656) or y and cb, cr on 16 lines three dacs for cvbs, y and c operating at 27 mhz with 10 bit resolution three dacs for rgb operating at 27 mhz with 9 bit resolution, rgb sync on cvbs and y analog multiplexing between internal rgb and external rgb on-chip cvbs, y, c and rgb output simultaneously closed captioning and teletext encoding including sequencer and filter line 23 wide screen signalling encoding on-chip cr, y, cb to rgb dematrix, including gain adjustment for y and cr, cb, optionally to be by-passed for cr, y, cb output on rgb dacs fast i 2 c-bus control port (400 khz) encoder can be master or slave programmable horizontal and vertical input synchronization phase programmable horizontal sync output phase internal colour bar generator (cbg) overlay with look-up tables (luts) 8 3 bytes macrovision pay-per-view copy protection system as option, also used for rgb output. this applies to saa7183a only. the device is protected by usa patent numbers 4631603, 4577216 and 4819098 and other intellectual property rights. use of the macrovision anti-copy process in the device is licensed for non-commercial home use only. reverse engineering or disassembly is prohibited. please contact your nearest philips semiconductor sales office for more information controlled rise/fall times of output syncs and blanking down-mode of dacs pqfp80 or plcc84 package. general description the SAA7182A; saa7183a encodes digital yuv video data to an ntsc, pal, secam cvbs or s-video signal and also rgb. optionally, the yuv to rgb dematrix can be by-passed providing the digital-to-analog converted cb, y, cr signals instead of rgb. the circuit accepts ccir compatible yuv data with 720 active pixels per line in 4:2:2 multiplexed formats, for example mpeg decoded data. it includes a sync/clock generator and on-chip digital-to-analog converters (dacs). the circuit is compatible to the dig-tv2 chip family. ordering information type number package name description version SAA7182Awp; saa7183awp plcc84 plastic leaded chip carrier; 84 leads sot189-2 qfp80 plastic quad ?at package; 80 leads (lead length 1.95 mm); body 14 20 2.8 mm sot318-2 1996 oct 02 3 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a quick reference data symbol parameter min. typ. max. unit v dda3 3.3 v analog supply voltage 3.1 3.3 3.5 v v ddd3 3.3 v digital supply voltage 3.0 3.3 3.6 v v ddd5 5 v digital supply voltage 4.75 5.0 5.25 v i dda analog supply current -- 110 ma i ddd3 3.3 v digital supply current -- 80 ma i ddd5 5 v digital supply current -- 10 ma v i input signal voltage levels ttl compatible v o(p-p) analog output signal voltages y, c, cvbs and rgb without load (peak-to-peak value) - 1.4 - v r l load resistance 75 - 300 w ile lf integral linearity error -- 2 lsb dle lf differential linearity error -- 1 lsb t amb operating ambient temperature 0 - +70 c 1996 oct 02 4 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a block diagram fig.1 block diagram; plcc84. handbook, full pagewidth i 2 c-bus interface data manager secam processor encoder sync clock output interface d a rgb processor d a 184834 50 35 36 20 47 45 44 48 75 63, 64, 68, 70, 72, 74 37 dp0 to dp7 mp7 to mp0 key ttx ovl2 to ovl0 3, 15, 24, 30, 39, 42, 51, 79, 81 5, 14, 22, 29, 38, 46, 49, 80, 82 2, 23, 40, 41, 43, 66 78 77 59 56 54, 57, 60 73 71 69 52, 67, 76 65 53 62 61 58 55 reset sda scl rtci cdir rcv1 rcv2 ttxrq cref xtalo xtali llc testb v dda4 to v dda9 sa cvbs y chroma v ssa1 to v ssa3 testc seli ri red green blue i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control dbdr 8 v ssd1 to v ssd9 v ddd1 to v ddd9 v dda1 to v dda3 n.c. sp ap gi bi internal control bus clock and timing 8 8 8 8 3 8 8 8 y y c cbcr y cbcr 3 21 9 10 to 13 16 to 19 25 to 28 31 to 34 6 to 8 SAA7182A saa7183a mgd668 1996 oct 02 5 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.2 block diagram; qfp80. h andbook, full pagewidth i 2 c-bus interface data manager secam processor encoder sync clock output interface d a rgb processor d a 73 72 71 75 38 25 26 11 35 33 32 36 63 52, 53, 56, 58, 60, 62 27 key ttx 6, 14, 20, 29, 31, 39, 67, 69, 74 5, 13, 19, 28, 34, 37, 68, 70, 76 30, 40 66 65 48 45 43, 46, 49 61 59 57 41, 55, 64 54 42 51 50 47 44 reset sda scl rtci cdir rcv1 rcv2 ttxrq cref xtalo xtali llc testb v dda4 to v dda9 sa cvbs y chroma testc seli ri red green blue i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control i 2 c-bus control dbdr 8 v ssd1 to v ssd9 v ddd1 to v ddd9 v dda1 to v dda3 n.c. sp ap gi bi internal control bus clock and timing 8 8 8 8 3 8 8 8 y y c cbcr y cbcr 3 12 80 1 to 4 7 to 10 15 to 18 21 to 24 77 to 79 SAA7182A saa7183a mgd670 dp0 to dp7 mp7 to mp0 ovl2 to ovl0 v ssa1 to v ssa3 1996 oct 02 6 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a pinning symbol pin description plcc84 qfp80 reset 1 73 reset input, active low. after reset is applied, all digital i/os are in input mode. the i 2 c-bus receiver waits for the start condition. n.c. 2 - not connected v ssd1 3 6 digital ground 1 sa 4 75 the i 2 c-bus slave address select input pin. low: slave address = 88h, high = 8ch. v ddd1 5 13 digital supply voltage 1 (3.3 v) ovl2 6 77 3-bit overlay data input. this is the index for the internal look-up table. ovl1 7 78 ovl0 8 79 key 9 80 key input for ovl. when high it selects ovl input. dp0 10 1 lower 4 bits of the data port. input for multiplexed cb, cr data if 16 line input mode is used. dp1 11 2 dp2 12 3 dp3 13 4 v ddd2 14 5 digital supply voltage 2 (5 v) v ssd2 15 14 digital ground 2 dp4 16 7 upper 4 bits of the data port. input for multiplexed cb, cr data if 16 line input mode is used. dp5 17 8 dp6 18 9 dp7 19 10 ttxrq 20 11 teletext request output, indicating when bit stream is valid. ttx 21 12 teletext bit stream input. v ddd3 22 28 digital supply voltage 3 (3.3 v) n.c. 23 - not connected v ssd3 24 20 digital ground 1 mp7 25 15 upper 4 bits of mpeg port. it is an input for ccir 656 style multiplexed cb, y, cr data, or for y data only, if 16 line input mode is used. mp6 26 16 mp5 27 17 mp4 28 18 v ddd4 29 19 digital supply voltage 4 (5 v) v ssd4 30 29 digital ground 4 mp3 31 21 lower 4 bits of mpeg port. it is an input for ccir 656 style multiplexed cb, y, cr data, or for y data only, if 16 line input mode is used. mp2 32 22 mp1 33 23 mp0 34 24 rcv1 35 25 raster control 1 for video port. this pin receives/provides a vs/fs/fseq signal. rcv2 36 26 raster control 2 for video port. this pin provides an hs pulse of programmable length or receives an hs pulse. 1996 oct 02 7 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a rtci 37 27 real time control input. if the llc clock is provided by an saa7111 or saa7151b, rtci should be connected to the rtco pin of the respective decoder to improve the signal quality. v ddd5 38 68 digital supply voltage 5 (3.3 v) v ssd5 39 39 digital ground 5 n.c. 40 40 not connected n.c. 41 - not connected v ssd6 42 31 digital ground 6 for oscillator n.c. 43 30 not connected xtali 44 32 crystal oscillator input (from crystal). if the oscillator is not used, this pin should be connected to ground. xtalo 45 33 crystal oscillator output (to crystal). v ddd6 46 34 digital supply voltage 6 for oscillator (3.3 v) cref 47 35 clock reference signal. this is the clock quali?er for dig-tv2 compatible signals. llc 48 36 line-locked clock. this is the 27 mhz master clock for the encoder. the i/o direction is set by the cdir pin. v ddd7 49 37 digital supply voltage 7 (5 v) cdir 50 38 clock direction. if cdir input is high, the circuit receives a clock and optional cref signal, otherwise if cdir is low, cref and llc are generated by the internal crystal oscillator. v ssd7 51 67 digital ground 7 v ssa1 52 41 analog ground 1 for the dacs. testc 53 42 analog test pin. leave open-circuit for normal operation. v dda1 54 43 analog supply voltage 1 for the rgb dacs (3.3 v). blue 55 44 analog output of the blue component. bi 56 45 analog input that can be switched to blue when seli = high. v dda2 57 46 analog supply voltage 2 for rgb dacs (3.3 v). green 58 47 analog output of green component. gi 59 48 analog input that can be switched to green when seli = high. v dda3 60 49 analog supply voltage 3 for rgb dacs (3.3 v). red 61 50 analog output of red component. ri 62 51 analog input that can be switched to red when seli = high. v dda4 63 52 analog supply voltage 4 for dacs (3.3 v). v dda5 64 53 analog supply voltage 5 for dacs (3.3 v). seli 65 54 select analog input. digital-to-analog converted rgb output when seli = low; ri, gi and bi output when seli = high. n.c. 66 - not connected v ssa2 67 55 analog ground 2 for the dacs. v dda6 68 56 analog supply voltage 6 for dacs (3.3 v). chroma 69 57 analog output of the chrominance signal. v dda7 70 58 analog supply voltage 7 for the y/c/cvbs dacs (3.3 v). symbol pin description plcc84 qfp80 1996 oct 02 8 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a y 71 59 analog output of vbs signal. v dda8 72 60 analog supply voltage 8 for the y/c/cvbs dacs. cvbs 73 61 analog output of the cvbs signal. v dda9 74 62 analog supply voltage 9 for the y/c/cvbs dacs. testb 75 63 analog test pin. leave open-circuit for normal operation. v ssa3 76 64 analog ground 3 for the dacs. ap 77 65 test pin. connected to digital ground for normal operation. sp 78 66 test pin. connected to digital ground for normal operation. v ssd8 79 69 digital ground 8 v ddd8 80 76 digital supply voltage 8 (3.3 v) v ssd9 81 74 digital ground 9 v ddd9 82 70 digital supply voltage 9 (5 v) scl 83 71 i 2 c-bus serial clock input. sda 84 72 i 2 c-bus serial data input/output. symbol pin description plcc84 qfp80 1996 oct 02 9 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.3 pin configuration; plcc84. handbook, full pagewidth SAA7182A saa7183a mgd669 12 dp2 dp3 v ddd2 v ssd2 dp4 dp5 dp6 dp7 ttxrq ttx v ddd3 n.c. v ssd3 mp7 mp6 mp5 mp4 v ddd4 v ssd4 mp3 mp2 v dda9 cvbs v dda8 y v dda7 chroma v dda6 v ssa2 n.c. seli v dda5 v dda4 ri red v dda3 gi green v dda2 bi blue v dda1 mp1 mp0 rcv1 rcv2 rtci v ddd5 v ssd5 n.c. n.c. v ssd6 n.c. xtali xtalo v ddd6 cref llc v ddd7 cdir v ssd7 v ssa1 testc dp1 dp0 key ovl0 ovl1 ovl2 v ddd1 sa v ssd1 n.c. reset sda scl v ddd9 v ssd9 v ddd8 v ssd8 sp ap v ssa3 testb 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 11 10 9 8 7 6 5 4 3 2 1 84 83 82 81 80 79 78 77 76 75 1996 oct 02 10 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.4 pin configuration; qfp80. handbook, full pagewidth SAA7182A saa7183a mgd671 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 60 59 58 57 56 64 63 62 61 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 v dda8 y v dda7 chroma v dda6 v ssa3 testb v dda9 cvbs v ssa2 seli v dda5 v dda4 ri red v dda3 gi green v dda2 bi blue v dda1 testc v ssa1 v ddd2 v ssd1 dp4 dp5 dp6 dp0 dp1 dp2 dp3 dp7 ttxrq ttx v ddd1 v ssd2 mp7 mp6 mp5 mp4 v ddd4 v ssd3 mp3 mp2 mp1 mp0 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 key ovl0 ovl1 ovl2 v ddd8 sa v ssd9 reset sda scl v ddd9 v ssd8 v ddd5 v ssd7 sp ap rcv1 rcv2 rtci v ddd3 v ssd4 n.c. v ssd6 xtali xtalo v ddd6 cref llc v ddd7 cdir v ssd5 n.c. 1996 oct 02 11 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a functional description the digital video encoder (euro-denc2) encodes digital luminance and colour difference signals into analog cvbs and simultaneously s-video signals. ntsc-m, pal b/g, secam standards and sub-standards are supported. both interlaced and non-interlaced operation is possible for all standards. in addition, the de-matrixed y, cb, and cr input is available on three separate analog outputs as red, green and blue. under software control the dematrix can be by-passed to output digital-to-analog converted cr, y, and cb signals on rgb outputs. separate digital gain adjustment for luminance and colour difference signals is available. analog on-chip multiplexing between internal digital-to-analog converted rgb and external ri, gi and bi signals is also supported. the basic encoder function consists of subcarrier generation, colour modulation and insertion of synchronization signals. luminance and chrominance signals are filtered in accordance with the standard requirements of rs-170-a and ccir 624 . for ease of analog post filtering the signals are twice oversampled with respect to the pixel clock before digital-to-analog conversion. for total filter transfer characteristics see figs 5, 6, 7, 8, 9 and 10. the dacs for y, c, and cvbs are realized with full 10-bit resolution, dacs for rgb are with 9-bit resolution. the mpeg port (mp) accept 8 line multiplexed cb, y, cr data. the 8-bit multiplexed cb-y-cr formats are ccir 656 (d1 format) compatible, but the sav and eav codes can be decoded optionally, when the device is to operate in slave mode. alternatively, 8-bits y on mp port and 8-bit multiplexed cb, cr on dp port can be chosen as input. a crystal-stable master clock (llc) of 27 mhz, which is twice the ccir line-locked pixel clock of 13.5 mhz, needs to be supplied externally. optionally, a crystal oscillator input/output pair of pins and an on-chip clock driver is provided. it is also possible to connect a philips digital video decoder (saa7111 or saa7151b) in conjunction with a cref clock qualifier to euro-denc2. via the rtci pin, connected to rtco of a decoder, information concerning actual subcarrier, pal-id, and if connected to saa7111, definite subcarrier phase can be inserted. the euro-denc2 synthesizes all necessary internal signals, colour subcarrier frequency, and synchronization signals, from that clock. european teletext encoding is supported if an appropriate teletext bitstream is applied to the ttx pin. wide screen signalling data can be loaded via the i 2 c-bus, and is inserted into line 23 for standards using 50 hz field rate. the ic also contains closed caption and extended data services encoding (line 21), and supports anti-taping signal generation in accordance with macrovision; it also supports overlay via key and three control bits by a 24 8 lut. a number of possibilities are provided for setting different video parameters such as: black and blanking level control colour subcarrier frequency variable burst amplitude etc. during reset ( reset = low) and after reset is released, all digital i/o stages are set to input mode. a reset forces the i 2 c-bus interface to abort any running bus transfer and sets register 3a to 03h, register 61 to 06h and registers 6bh and 6eh to 00h. all other control registers are not influenced by a reset. data manager in the data manager, real time arbitration on the data stream to be encoded is performed. depending on the polarity of pin key, the mp input (or mp/dp input) or ovl input are selected to be encoded to cvbs and y/c signals, and output as rgb. key controls ovl entries of a programmable lut for encoded signals and for rgb output. the common key switching signal can be disabled by software for the signals to be encoded (y, c and cvbs), such that ovl will appear on rgb outputs, but not on y, c and cvbs. ovl input under control of key can be also used to insert decoded teletext information or other on-screen data. optionally, the ovl colour luts located in this block, can be read out in a pre-defined sequence (8 steps per active video line), achieving, for example, a colour bar test pattern generator without need for an external data source. the colour bar function is only under software control. 1996 oct 02 12 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a encoder v ideo path the encoder generates out of y, u and v baseband signals luminance and colour subcarrier output signals, suitable for use as cvbs or separate y and c signals. luminance is modified in gain and in offset (latter programmable in a certain range to enable different black level set-ups). after having been inserted a fixed synchronization level, in accordance with standard composite synchronization schemes, and blanking level, programmable also in a certain range to allow for manipulations with macrovision anti-taping, additional insertion of agc super-white pulses, programmable in height, is supported. in order to enable easy analog post filtering, luminance is interpolated from 13.5 mhz data rate to 27 mhz data rate, providing luminance in 10-bit resolution. this filter is also used to define smoothed transients for synchronization pulses and blanking period. for transfer characteristic of the luminance interpolation filter see figs 7 and 8. chrominance is modified in gain (programmable separately for u and v), standard dependent burst is inserted, before baseband colour signals are interpolated from 6.75 mhz data rate to 27 mhz data rate. one of the interpolation stages can be bypassed, thus providing a higher colour bandwidth, which can be made use of for y and c output. for transfer characteristics of the chrominance interpolation filter see figs 5 and 6. the amplitude of inserted burst is programmable in a certain range, suitable for standard signals and for special effects. behind the succeeding quadrature modulator, colour in 10-bit resolution is provided on subcarrier. the numeric ratio between y and c outputs is in accordance with set standards. t eletext insertion and encoding pin ttx receives a teletext bitstream sampled at the llc clock, each teletext bit is carried by four or three llc samples. phase variant interpolation is achieved on this bitstream in the internal teletext encoder, providing sufficient small phase jitter on the output text lines. ttxrq provides a fully programmable request signal to the teletext source, indicating the insertion period of bitstream at lines selectable independently for both fields. the internal insertion window for text is set to 360 teletext bits including clock run-in bits. for protocol and timing see fig.19. c losed caption encoder using this circuit, data in accordance with the specification of closed caption or extended data service, delivered by the control interface, can be encoded (line 21). two dedicated pairs of bytes (two bytes per field), each pair preceded by run-in clocks and framing code, are possible. the actual line number where data is to be encoded in, can be modified in a certain range. data clock frequency is in accordance with definition for ntsc-m standard 32 times horizontal line frequency. data low at the output of the dacs corresponds to 0 ire, data high at the output of the dacs corresponds to approximately 50 ire. it is also possible to encode closed caption data for 50 hz field frequencies at 32 times horizontal line frequency. a nti - taping (saa7183a only ) for more information contact your nearest philips semiconductors sales office. rgb processor this block contains a dematrix in order to produce red, green and blue signals to be fed to a scart plug. before y, cb and cr signals are de-matrixed, individual gain adjustment for y and colour difference signals and 2 times oversampling for luminance and 4 times oversampling for colour difference signals is performed. for transfer curves of luminance and colour difference components of rgb see figs 9 and 10. secam processor secam specific pre-processing is achieved in this block by a pre-emphasis of colour difference signals (for gain and phase see figs 11 and 12). a baseband frequency modulator with a reference frequency shifted from 4.286 mhz to dc carries out secam modulation in accordance with appropriate standard or optionally wide clipping limits. after the hf pre-emphasis, also applied on a dc reference carrier (anti-cloche filter; see figs 13 and 14), line-by-line sequential carriers with black reference of 4.25 mhz (db) and 4.40625 mhz (dr) are generated using specified values for fsc programming bytes. alternating phase reset in accordance with secam standard is carried out automatically. during vertical blanking the so-called bottle pulses are not provided. 1996 oct 02 13 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a output interface/dacs in the output interface encoded both y and c signals are converted from digital-to-analog in 10-bit resolution. y and c signals are also combined to a 10-bit cvbs signal. the cvbs output occurs with the same processing delay as the y and c outputs. absolute amplitudes at the input of the dac for cvbs is reduced by 15 16 with respect to y and c dacs to make maximum use of conversion ranges. red, green and blue signals are also converted from digital-to-analog, each providing a 9-bit resolution. it is also possible to feed through three external analog rgb signals at pins ri, bi and gi when pin seli = high outputs of the dacs can be set together in two groups via software control to minimum output voltage for either purpose. synchronization synchronization of the euro-denc2 is able to operate in two modes; slave mode and master mode. in the slave mode, the circuit accepts synchronization pulses at the bidirectional rcv1 port. the timing and trigger behaviour related to rcv1 can be influenced by programming the polarity and on-chip delay of rcv1. active slope of rcv1 defines the vertical phase and optionally the odd/even and colour frame phase to be initialized, it can be also used to set the horizontal phase. if the horizontal phase is not to be influenced by rcv1, a horizontal pulse needs to be supplied at the rcv2 pin. timing and trigger behaviour can also be influenced for rcv2. if there are missing pulses at rcv1 and/or rcv2, the time base of euro-denc2 runs free, thus an arbitrary number of synchronization slopes may miss, but no additional pulses (with the incorrect phase) must occur. if the vertical and horizontal phase is derived from rcv1, rcv2 can be used for horizontal or composite blanking input or output. alternatively, the device can be triggered by auxiliary codes in a ccir 656 data stream at the mp port in the master mode, the time base of the circuit continuously runs free. on the rcv1 port, the ic can output: a vertical sync signal (vs) with 3 or 2.5 lines duration, or; an odd/even signal which is low in odd fields, or; a field sequence signal (fseq) which is high in the first of 4, 8, 12 fields respectively. on the rcv2 port, the ic can provide a horizontal pulse with programmable start and stop phase; this pulse can be inhibited in the vertical blanking period to build up, for example, a composite blanking signal. the polarity of both rcv1 and rcv2 is selectable by software control. the length of a field and the start and end of its active part can be programmed. the active part of a field always starts at the beginning of a line. i 2 c-bus interface the i 2 c-bus interface is a standard slave transceiver, supporting 7-bit slave addresses and 400 kbits/s guaranteed transfer rate. it uses 8-bit subaddressing with an auto-increment function. all registers are write only, except one readable status byte. two i 2 c-bus slave addresses are selected: 88h: low at pin sa 8ch: high at pin sa. input levels and formats euro-denc2 expects digital y, cb, cr data with levels (digital codes) in accordance with ccir 601 . for c and cvbs outputs, deviating amplitudes of the colour difference signals can be compensated by independent gain control setting, while gain for luminance is set to predefined values, distinguishable for 7.5 ire set-up or without set-up. for rgb outputs variable amplification of the y, cb and cr components is provided, enabling adjustment of contrast and colour saturation in certain range. reference levels are measured with a colour bar, 100% white, 100% amplitude and 100% saturation. 1996 oct 02 14 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 1 ccir 601 signal component levels notes 1. transformation: a) r = y + 1.3707 (cr - 128) b) g = y - 0.3365 (cb - 128) - 0.6982 (cr - 128) c) b = y + 1.7324 (cb - 128). 2. representation of r, g and b (or cr, y and cb) at the output is 9 bits at 27 mhz. table 2 8-bit multiplexed format (similar to ccir 601 ) table 3 16-bit multiplexed format (dtv2 format) colour signals (1) ycbcrr (2) g (2) b (2) white 235 128 128 235 235 235 yellow 210 16 146 235 235 16 cyan 170 166 16 16 235 235 green 145 54 34 16 235 16 magenta 106 202 222 235 16 235 red 81 90 240 235 16 16 blue 41 240 110 16 16 235 black 16 128 128 16 16 16 time bits 01224567 sample cb 0 y 0 cr 0 y 1 cb 2 y 2 cr 2 y 3 luminance pixel number 0123 colour pixel number 0 2 time bits 01234567 sample y line y 0 y 1 y 2 y 3 sample uv line cb 0 cr 0 cb 2 cr 2 luminance pixel number 0123 colour pixel number 0 2 1996 oct 02 15 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a bit allocation map table 4 slave receiver (slave address 88h or 8ch) register function sub address data byte d7 d6 d5 d4 d3 d2 d1 d0 null 00 00000000 null 25 00000000 wide screen signal 26 wss7 wss6 wss5 wss4 wss3 wss2 wss1 wss0 wide screen signal 27 wsson 0 wss13 wss12 wss11 wss10 wss9 wss8 null 28 00000000 null 37 00000000 gain y for rgb 38 0 0 0 gy4 gy3 gy2 gy1 gy0 gain cd for rgb 39 0 0 0 gcd4 gcd3 gcd2 gcd1 gcd0 input port control 3a cbenb diskey pcref symp demoff fmt16 y2c uv2c ovl lut y0 42 ovly07 ovly06 ovly05 ovly04 ovly03 ovly02 ovly01 ovly00 ovl lut u0 43 ovlu07 ovlu06 ovlu05 ovlu04 ovlu03 ovlu02 ovlu01 ovlu00 ovl lut v0 44 ovlv07 ovlv06 ovlv05 ovlv04 ovlv03 ovlv02 ovlv01 ovlv00 ovl lut y7 57 ovly77 ovly76 ovly75 ovly74 ovly73 ovly72 ovly71 ovly70 ovl lut u7 58 ovlu77 ovlu76 ovlu75 ovlu74 ovlu73 ovlu72 ovlu71 ovlu70 ovl_lut_v7 59 ovlv77 ovlv76 ovlv75 ovlv74 ovlv73 ovlv72 ovlv71 ovlv70 chrominance phase 5a chps7 chps6 chps5 chps4 chps3 chps2 chps1 chps0 gain u 5b gainu7 gainu6 gainu5 gainu4 gainu3 gainu2 gainu1 gainu0 gain v 5c gainv7 gainv6 gainv5 gainv4 gainv3 gainv2 gainv1 gainv0 gain u msb, black level 5d gainu8 0 blckl5 blckl4 blckl3 blckl2 blckl1 blckl0 gain v msb, blanking level, decoder type 5e gainv8 dectyp blnnl5 blnnl4 blnnl3 blnnl2 blnnl1 blnnl0 ccr, blanking level vbi 5f ccrs1 ccrs0 blnvb5 blnvb4 blnvb3 blnvb2 blnvb1 blnvb0 null 60 00000000 standard control 61 downb downa inpi ygs secam scbw pal fise burst amplitude 62 rtce bsta6 bsta5 bsta4 bsta3 bsta2 bsta1 bsta0 subcarrier 0 63 fsc07 fsc06 fsc05 fsc04 fsc03 fsc02 fsc01 fsc00 1996 oct 02 16 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a subcarrier 1 64 fsc15 fsc14 fsc13 fsc12 fsc11 fsc10 fsc09 fsc08 subcarrier 2 65 fsc23 fsc22 fsc21 fsc20 fsc19 fsc18 fsc17 fsc16 subcarrier 3 66 fsc31 fsc30 fsc29 fsc28 fsc27 fsc26 fsc25 fsc24 line 21 odd 0 67 l21o07 l21o06 l21o05 l21o04 l21o03 l21o02 l21o01 l21o00 line 21 odd 1 68 l21o17 l21o16 l21o15 l21o14 l21o13 l21o12 l21o11 l21o10 line 21 even 0 69 l21e07 l21e06 l21e05 l21e04 l21e03 l21e02 l21e01 l21e00 line 21 even 1 6a l21e17 l21e16 l21e15 l21e14 l21e13 l21e12 l21e11 l21e10 rcv port control 6b srcv11 srcv10 trcv2 orcv1 prcv1 cblf orcv2 prcv2 trigger control 6c htrig7 htrig6 htrig5 htrig4 htrig3 htrig2 htrig1 htrig0 trigger control 6d htrig10 htrig9 htrig8 vtrig4 vtrig3 vtrig2 vtrig1 vtrig0 multi control 6e sblbn 0 phres1 phres0 0 0 flc1 flco closed caption/teletext control 6f ccen1 ccen0 ttxen ccln4 ccln3 ccln2 ccln1 ccln0 rcv2 output start 70 rcv2s7 rcv2s6 rcv2s5 rcv2s4 rcv2s3 rcv2s2 rcv2s1 rcv2s0 rcv2 output end 71 rcv2e7 rcv2e6 rcv2e5 rcv2e4 rcv2e3 rcv2e2 rcv2e1 rcv2e0 msbs rcv2 output 72 0 rcv2e10 rcv2e9 rcv2e8 0 rcv2s10 rcv2s9 rcv2s8 ttx request h start 73 ttxhs7 ttxhs6 ttxhs5 ttxhs4 ttxhs3 ttxhs2 ttxhs1 ttxhs0 ttx request h end 74 ttxhe7 ttxhe6 ttxhe5 ttxhe4 ttxhe3 ttxhe2 ttxhe1 ttxhe0 msbs ttx request h 75 0 ttxhe10 ttxhe9 ttxhe8 0 ttxhs10 ttxhs9 ttxhs8 ttx odd request v s 76 ttxovs7 ttxovs6 ttxovs5 ttxovs4 ttxovs3 ttxovs2 ttxovs1 ttxovs0 ttx odd request v e 77 ttxove7 ttxove6 ttxove5 ttxove4 ttxove3 ttxove2 ttxove1 ttxove0 ttx even request v s 78 ttxevs7 ttxevs6 ttxevs5 ttxevs4 ttxevs3 ttxevs2 ttxevs1 ttxevs0 ttx even request v e 79 ttxeve7 ttxeve6 ttxeve5 ttxeve4 ttxeve3 ttxeve2 ttxeve1 ttxeve0 first active line 7a fal7 fal6 fal5 fal4 fal3 fal2 fal1 fal0 last active line 7b lal7 lal6 lal5 lal4 lal3 lal2 lal1 lal0 msb vertical 7c 0 lal8 0 fal8 ttxeve8 ttxove8 ttxevs8 ttxovs8 null 7d 00000000 disable ttx line 7e line15 line14 line13 line12 line11 line10 line9 line8 disable ttx line 7f line23 line22 line21 line20 line19 line18 line17 line16 register function sub address data byte d7 d6 d5 d4 d3 d2 d1 d0 1996 oct 02 17 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a i 2 c-bus format table 5 i 2 c-bus address; see table 6 table 6 explanation of table 5 notes 1. x is the read/write control bit; x = logic 0 is order to write; x = logic 1 is order to read, no subaddressing with read. 2. if more than 1 byte data is transmitted, then auto-increment of the subaddress is performed. slave receiver table 7 subaddress 26 and 27 table 8 subaddress 38 and 39 s slave address ack subaddress ack data 0 ack -------- data n ack p part description s start condition slave address 1000100x or 1000110x (note 1) ack acknowledge, generated by the slave subaddress (note 2) subaddress byte data data byte -------- continued data bytes and acks p stop condition data byte logic level description wss0 to wss13 - wide screen signalling bits 3 to 0 = aspect ratio 7 to 4 = enhanced services 10 to 8 = subtitles 13 to 11 = reserved wsson 0 wide screen signalling output is disabled 1 wide screen signalling output is enabled data byte description gy0 to gy4 gain luminance of rgb (cr, y and cb) output, ranging from (1 - 16 32 ) to (1 + 15 32 ). suggested nominal value = - 6 (11010b), depending on external application. gcd0 to gcd4 gain colour difference of rgb (cr, y and cb) output, ranging from (1 - 16 32 )to(1+ 15 32 ). suggested nominal value = - 6 (11010b), depending on external application. 1996 oct 02 18 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 9 subaddress 3a data byte logic level description uv2c 0 cb, cr data are twos complement. 1 cb, cr data are straight binary. default after reset. y2c 0 y data is twos complement. 1 y data is straight binary. default after reset. fmt16 0 selects cb, y, cr and y on 8 lines on mp port ( ccir 656 compatible). default after reset. 1 selects cb and cr on dp port and y on mp port. demoff 0 y, cb and cr for rgb dematrix is active. default after reset. 1 y, cb and cr for rgb dematrix is bypassed. symp 0 horizontal and vertical trigger is taken from rcv2 and rcv1 respectively. default after reset. 1 horizontal and vertical trigger is decoded out of ccir 656 compatible data at mp port. pcref 0 normal polarity of cref for dig-tv2 compatible input signals. 1 inverted polarity of cref for dig-tv2 compatible input signals. diskey 0 ovl keying enabled for y, c and cvbs outputs. default after reset. 1 ovl keying disabled for y, c and cvbs outputs. cbenb 0 data from input ports is encoded. default after reset. 1 colour bar with programmable colours (entries of ovl_luts) is encoded. the luts are read in upward order from index 0 to index 7. 1996 oct 02 19 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 10 subaddress 42 to 59 notes 1. contents of ovl look-up tables. all 8 entries are 8-bits. data representation is in accordance with ccir 601 (y, cb and cr), but twos complement, e.g. for a 100 100 (upper number) or 100 75 (lower number) colour bar. 2. for normal colour bar with cbenb = logic 1. table 11 subaddress 5a note 1. phase of encoded colour subcarrier (including burst) relative to horizontal sync. can be adjusted in steps of 360/256 degrees. colour data byte (1) index (2) ovly ovlu ovlv white 107 (6bh) 0 (00h) 0 (00h) 0 107 (6bh) 0 (00h) 0 (00h) yellow 82 (52h) 144 (90h) 18 (12h) 1 34 (22h) 172 (ach) 14 (0eh) cyan 42 (2ah) 38 (26h) 144 (90h) 2 03 (03h) 29 (1dh) 172 (ach) green 17 (11h) 182 (b6h) 162 (a2h) 3 240 (f0h) 200 (c8h) 185 (b9h) magenta 234 (eah) 74 (4ah) 94 (5eh) 4 212 (d4h) 56 (38h) 71 (47h) red 209 (d1h) 218 (dah) 112 (70h) 5 193 (c1h) 227 (e3h) 84 (54h) blue 169 (a9h) 112 (70h) 238 (eeh) 6 163 (a3h) 84 (54h) 242 (f2h) black 144 (90h) 0 (00h) 0 (00h) 7 144 (90h) 0 (00h) 0 (00h) data byte (1) value result chps tbf pal-b/g and data from input ports tbf pal-b/g and data from look-up table tbf ntsc-m and data from input ports tbf ntsc-m and data from look-up table 1996 oct 02 20 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 12 subaddress 5b and 5d notes 1. gainu = - 2.17 nominal to +2.16 nominal. 2. gainu = - 2.05 nominal to +2.04 nominal. table 13 subaddress 5c and 5e notes 1. gainv = - 1.55 nominal to +1.55 nominal. 2. gainv = - 1.46 nominal to +1.46 nominal. table 14 subaddress 5d notes 1. output black level/ire = blckl 25/63 + 24; recommended value: blckl = 60 (3ch) normal. 2. output black level/ire = blckl 26/63 + 24; recommended value: blckl = 45 (2dh) normal. data byte description conditions remarks gainu variable gain for cb signal; input representation accordance with ccir 601 white-to-black = 92.5 ire (1) gainu = 0 output subcarrier of u contribution = 0 gainu = 118 (76h) output subcarrier of u contribution = nominal white-to-black = 100 ire (2) gainu = 0 output subcarrier of u contribution = 0 gainu = 125 (7dh) output subcarrier of u contribution = nominal nominal gainu for secam encoding value = 106 (6ah) data byte description conditions remarks gainv variable gain for cr signal; input representation accordance with ccir 601 white-to-black = 92.5 ire (1) gainv = 0 output subcarrier of v contribution = 0 gainv = 165 (a5h) output subcarrier of v contribution = nominal white-to-black = 100 ire (2) gainv = 0 output subcarrier of v contribution = 0 gainv = 175 (afh) output subcarrier of v contribution = nominal nominal gainv for secam encoding value = - 129 (17fh) data byte description conditions remarks blckl variable black level; input representation accordance with ccir 601 white-to-sync = 140 ire (1) blckl = 0 output black level = 24 ire blckl = 63 (3fh) output black level = 49 ire white-to-sync = 143 ire (2) blckl = 0 output black level = 24 ire blckl = 63 (3fh) output black level = 50 ire 1996 oct 02 21 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 15 subaddress 5e notes 1. output black level/ire = blnnl 25/63 + 17; recommended value: blnnl = 58 (3ah) normal. 2. output black level/ire = blnnl 26/63 + 17; recommended value: blnnl = 63 (3fh) normal. table 16 subaddress 5f table 17 logic levels and function of ccrs data byte description conditions remarks blnnl variable blanking level white-to-sync = 140 ire (1) blnnl = 0 output blanking level = 17 ire blnnl = 63 (3fh) output blanking level = 42 ire white-to-sync = 143 ire (2) blnnl = 0 output blanking level = 17 ire blnnl = 63 (3fh) output blanking level = 43 ire dectyp rtci logic 0 real time control input from saa7151b logic 1 real time control input from saa7111 data byte description blnvb variable blanking level during vertical blanking interval is typically identical to value of blnnl ccrs select cross colour reduction ?lter in luminance; see table 17 ccrs1 ccrs0 function 0 0 no cross colour reduction; for overall transfer characteristic of luminance see fig.7 0 1 cross colour reduction #1 active; for overall transfer characteristic see fig.7 1 0 cross colour reduction #2 active; for overall transfer characteristic see fig.7 1 1 cross colour reduction #3 active; for overall transfer characteristic see fig.7 1996 oct 02 22 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 18 subaddress 61: data byte logic level description fise 0 864 total pixel clocks per line; default after reset 1 858 total pixel clocks per line pal 0 ntsc encoding (non-alternating v component) 1 pal encoding (alternating v component); default after reset scbw 0 enlarged bandwidth for chrominance encoding (for overall transfer characteristic of chrominance in baseband representation see figs 5 and 6); wide clipping for secam 1 standard bandwidth for chrominance encoding (for overall transfer characteristic of chrominance in baseband representation see figs 5 and 6); default after reset secam 0 no secam encoding; default after reset 1 secam encoding activated ygs 0 luminance gain for white - black 100 ire; default after reset 1 luminance gain for white - black 92.5 ire including 7.5 ire set-up of black inpi 0 pal switch phase is nominal; default after reset 1 pal switch phase is inverted compared to nominal downa 0 dacs for cvbs, y and c in normal operational mode; default after reset 1 dacs for cvbs, y and c forced to lowest output voltage downb 0 dacs for r, g and b in normal operational mode; default after reset 1 dacs for r, g and b forced to lowest output voltage 1996 oct 02 23 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 19 subaddress 62a table 20 subaddress 62b notes 1. recommended value: bsta = 102 (66h). 2. recommended value: bsta = 72 (48h). 3. recommended value: bsta = 106 (6ah). 4. recommended value: bsta = 75 (4bh). table 21 subaddress 63 to 66 (four bytes to program subcarrier frequency) note 1. examples: a) ntsc-m: f fsc = 227.5, f llc = 1716 ? fsc = 569408543 (21f07c1fh). b) pal-b/g: f fsc = 283.7516, f llc = 1728 ? fsc = 705268427 (2a098acbh). c) secam: f fsc = 274.304, f llc = 1728 ? fsc = 681786290 (28a33bb2h). data byte logic level description rtce 0 no real time control of generated subcarrier frequency 1 real time control of generated subcarrier frequency through saa7151b or saa7111 (timing see fig.18) data byte description conditions remarks bsta amplitude of colour burst; input representation in accordance with ccir 601 white-to-black = 92.5 ire; burst = 40 ire; ntsc encoding bsta = 0 to 1.25 nominal (1) white-to-black = 92.5 ire; burst = 40 ire; pal encoding bsta = 0 to 1.76 nominal (2) white-to-black = 100 ire; burst = 43 ire; ntsc encoding bsta = 0 to 1.20 nominal (3) white-to-black = 100 ire; burst = 43 ire; pal encoding bsta = 0 to 1.67 nominal (4) ?xed burst amplitude with secam encoding data byte description conditions remarks fsc0 to fsc3 f fsc = subcarrier frequency (in multiples of line frequency); f llc = clock frequency (in multiples of line frequency) see note 1 fsc3 = most signi?cant byte fsc0 = least signi?cant byte fsc round f fsc f llc ------- - 2 32 ? ? ?? = 1996 oct 02 24 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 22 subaddress 67 to 6a note 1. lsbs of the respective bytes are encoded immediately after run-in and framing code, the msbs of the respective bytes have to carry the parity bit, in accordance with the de?nition of line 21 encoding format. table 23 subaddress 6b data byte (1) description l21o0 ?rst byte of captioning data, odd ?eld l21o1 second byte of captioning data, odd ?eld l21e0 ?rst byte of extended data, even ?eld l21e1 second byte of extended data, even ?eld data byte logic level description prcv2 0 polarity of rcv2 as output is active high, rising edge is taken when input, respectively; default after reset 1 polarity of rcv2 as output is active low, falling edge is taken when input, respectively orcv2 0 pin rcv2 is switched to input; default after reset 1 pin rcv2 is switched to output cblf 0 if orcv2 = high, pin rcv2 provides an href signal (horizontal reference pulse that is de?ned by rcv2s and rcv2e, also during vertical blanking interval); default after reset if orcv2 = low and bit symp = low, signal input to rcv2 is used for horizontal synchronization only (if trcv2 = 1); default after reset 1 if orcv2 = high, pin rcv2 provides a composite-blanking-not signal, this is a reference pulse that is de?ned by rcv2s and rcv2e, excluding vertical blanking interval, which is de?ned by fal and lal if orcv2 = low and bit symp = low, signal input to rcv2 is used for horizontal synchronization (if trcv2 = 1) and as an internal blanking signal prcv1 0 polarity of rcv1 as output is active high, rising edge is taken when input; default after reset 1 polarity of rcv1 as output is active low, falling edge is taken when input orcv1 0 pin rcv1 is switched to input; default after reset 1 pin rcv1 is switched to output trcv2 0 horizontal synchronization is taken from rcv1 port (at bit symp = low) or from decoded frame sync of ccir 656 input (at bit symp = high); default after reset 1 horizontal synchronization is taken from rcv2 port (at bit symp = low) srcv1 - de?nes signal type on pin rcv1; see table 24 1996 oct 02 25 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 24 logic levels and function of srcv1 table 25 subaddress 6c and 6d table 26 subaddress 6d table 27 subaddress 6e table 28 logic levels and function of phres data byte as output as input function srcv11 srcv10 0 0 vs vs vertical sync each ?eld; default after reset 0 1 fs fs frame sync (odd/even) 1 0 fseq fseq ?eld sequence, vertical sync every fourth ?eld (pal = 0), eighth ?eld (pal = 1) or twelfth ?eld (secam = 1) 1 1 not applicable not applicable - data byte description htrig sets the horizontal trigger phase related to signal on rcv1 or rcv2 input values above 1715 (fise = 1) or 1727 (fise = 0) are not allowed increasing htrig decreases delays of all internally generated timing signals reference mark: analog output horizontal sync (leading slope) coincides with active edge of rcv used for triggering at htrig = tbf (tbf) data byte logic level description vtrig - sets the vertical trigger phase related to signal on rcv1 input increasing vtrig decreases delays of all internally generated timing signals, measured in half lines variation range of vtri g=0to31 (1fh) data byte logic level description sblbn 0 vertical blanking is de?ned by programming of fal and lal; default after reset 1 vertical blanking is forced in accordance with ccir 624 (50 hz) or rs170a (60 hz) phres - selects the phase reset mode of the colour subcarrier generator; see table 28 flc - ?eld length control; see table 29 data byte function phres1 phres0 0 0 no reset or reset via rtci from saa7111 if bit rtce = 1; default after reset 0 1 reset every two lines or secam-speci?c if bit secam = 1 1 0 reset every eight ?elds 1 1 reset every four ?elds 1996 oct 02 26 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 29 logic levels and function of flc table 30 subaddress 6f table 31 logic levels and function of ccen table 32 subaddress 70 to 72 data byte function flc1 flc0 0 0 interlaced 312.5 lines/?eld at 50 hz, 262.5 lines/?eld at 60 hz; default after reset 0 1 non-interlaced 312 lines/?eld at 50 hz, 262 lines/?eld at 60 hz 1 0 non-interlaced 313 lines/?eld at 50 hz, 263 lines/?eld at 60 hz 1 1 non-interlaced 313 lines/?eld at 50 hz, 263 lines/?eld at 60 hz data byte logic level description ccen - enables individual line 21 encoding; see table 31 ttxen 0 disables teletext insertion 1 enables teletext insertion sccln - selects the actual line, where closed caption or extended data are encoded line = (sccln + 4) for m-systems line = (sccln + 1) for other systems data byte function ccen1 ccen0 0 0 line 21 encoding off 0 1 enables encoding in ?eld 1 (odd) 1 0 enables encoding in ?eld 2 (even) 1 1 enables encoding in both ?elds data byte description rcv2s start of output signal on rcv2 pin values above 1715 (fise = 1) or 1727 (fise = 0) are not allowed ?rst active pixel at analog outputs (corresponding input pixel coinciding with rcv2) at rcv2s = tbfh (tbfh) rcv2e end of output signal on rcv2 pin values above 1715 (fise = 1) or 1727 (fise = 0) are not allowed last active pixel at analog outputs (corresponding input pixel coinciding with rcv2) at rcv2e = tbfh (tbfh) 1996 oct 02 27 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a table 33 subaddress 73 to 75 table 34 subaddress 76, 77 and 7c table 35 subaddress 78, 79 and 7c table 36 subaddress 7a to 7c table 37 subaddress 7a to 7c s ubaddresses in subaddresses 5b, 5c, 5d, 5e and 62 all ire values are rounded up. data byte description ttxhs start of signal on pin ttxrq (standard for 50 hz ?eld rate = tbf) values above 1715 (fise = 1) or 1727 (fise = 0) are not allowed ttxhe end of signal on pin ttxrq (standard for 50 hz ?eld rate = ttxhs + 1402) values above 1715 (fise = 1) or 1727 (fise = 0) are not allowed data byte description ttxovs ?rst line of occurrence of signal on pin ttxrq in odd ?eld = ttxovs + 1 (50 hz ?eld rate) ttxove last line of occurrence of signal on pin ttxrq in odd ?eld = ttxove (50 hz ?eld rate) data byte description ttxevs ?rst line of occurrence of signal on pin ttxrq in even ?eld = ttxevs + 1 (50 hz ?eld rate) ttxeve last line of occurrence of signal on pin ttxrq in even ?eld = ttxeve (50 hz ?eld rate) data byte description fal ?rst active line = fal + 4 for m-systems, = fal + 1 for other systems, measured in lines fal = 0 coincides with the ?rst ?eld synchronization pulse lal last active line = lal + 3 for m-systems, = lal for other system, measured in lines lal = 0 coincides with the ?rst ?eld synchronization pulse data byte description line individual lines in both ?elds (pal counting) can be disabled for insertion of teletext by the respective bits, disabled line = linexx (50 hz ?eld rate) this bit mask is effective only, if the lines are enabled by ttxovs/ttxove and ttxevs/ttxeve 1996 oct 02 28 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a slave transmitter table 38 slave transmitter (slave address 89h or 8dh) table 39 no subaddress register function subaddress data byte d7 d6 d5 d4 d3 d2 d1 d0 status byte - ver2 ver1 ver0 ccrdo ccrde 0 fseq o_e data byte logic level description ver - version identi?cation of the device. it will be changed with all versions of the ic that have different programming models. current version is 001 binary. ccrdo 1 closed caption bytes of the odd ?eld have been encoded. 0 the bit is reset after information has been written to the subaddresses 67 and 68. it is set immediately after the data has been encoded. ccrde 1 closed caption bytes of the even ?eld have been encoded. 0 the bit is reset after information has been written to the subaddresses 69 and 6a. it is set immediately after the data has been encoded. fseq 1 during ?rst ?eld of a sequence (repetition rate: ntsc = 4 ?elds, pal = 8 ?elds, secam = 12 ?elds. 0 not ?rst ?eld of a sequence. o_e 1 during even ?eld. 0 during odd ?eld. 1996 oct 02 29 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.5 chrominance transfer characteristic 1. handbook, full pagewidth 6 8 10 12 14 6 0 024 mbe737 - 6 - 12 - 18 - 30 - 24 - 36 - 42 - 54 - 48 f (mhz) g v (db) (1) (2) (1) scbw = 1. (2) scbw = 0. fig.6 chrominance transfer characteristic 2. (1) scbw = 1. (2) scbw = 0. handbook, halfpage 0 0.4 0.8 1.6 2 0 - 4 - 6 - 2 mbe735 1.2 f (mhz) g v (db) (1) (2) 1996 oct 02 30 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a handbook, full pagewidth 6 (1) (2) (4) (3) 8101214 6 0 024 mgd672 - 6 - 12 - 18 - 30 - 24 - 36 - 42 - 54 - 48 f (mhz) g v (db) fig.7 luminance transfer characteristic 1. (1) ccrs1 = 0; ccrs0 = 1. (2) ccrs1 = 1; ccrs0 = 0. (3) ccrs1 = 1; ccrs0 = 1. (4) ccrs1 = 0; ccrs0 = 0. fig.8 luminance transfer characteristic 2. handbook, halfpage 02 (1) 6 1 0 - 1 - 2 - 3 - 4 - 5 mbe736 4 f (mhz) g v (db) (1) ccrs1 = 0; ccrs0 = 0. 1996 oct 02 31 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.9 luminance transfer characteristic in rgb. handbook, full pagewidth 6 8 10 12 14 6 0 024 mgb708 - 6 - 12 - 18 - 30 - 24 - 36 - 42 - 54 - 48 f (mhz) g v (db) fig.10 colour difference transfer characteristic in rgb. handbook, full pagewidth 6 8 10 12 14 6 0 024 mgb706 - 6 - 12 - 18 - 30 - 24 - 36 - 42 - 54 - 48 f (mhz) g v (db) 1996 oct 02 32 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.11 gain of secam pre-emphasis. handbook, full pagewidth 0.6 10 0 0 0.2 0.4 1.4 1.6 0.8 1 1.2 mgb705 2 4 6 8 g v (db) f (mhz) fig.12 phase of secam pre-emphasis. handbook, full pagewidth 0.6 30 0 0 0.2 0.4 1.4 1.6 0.8 1 1.2 mgb704 20 10 j (deg) f (mhz) 1996 oct 02 33 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.13 gain of secam anti-cloche. handbook, full pagewidth 0.6 20 0 0 0.2 0.4 1.4 1.6 0.8 1 1.2 mgb703 4 8 12 16 g v (db) f (mhz) fig.14 phase of secam anti-cloche. handbook, full pagewidth 0.6 80 0 0 0.2 0.4 1.4 1.6 0.8 1 1.2 mgb702 20 40 60 j (deg) f (mhz) 1996 oct 02 34 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a characteristics v ddd(3) = 3.0 to 3.6 v; v ddd(5) = 4.75 to 5.25 v; t amb =0to+70 c; unless otherwise speci?ed. symbol parameter conditions min. max. unit supply v dda(3) analog supply voltage (3.3 v) 3.1 3.5 v v ddd(3) digital supply voltage (3.3 v) 3.0 3.6 v v ddd(5) digital supply voltage (5 v) 4.75 5.25 v i dda analog supply current note 1 - 110 ma i ddd(3) digital supply current (3.3 v) note 1 - 80 ma i ddd(5) digital supply current (5 v) note 1 - 10 ma inputs v il low level input voltage (except sda, scl, ap, sp and xtali) - 0.5 +0.8 v v ih high level input voltage (except llc, sda, scl, ap, sp and xtali) 2.0 v ddd(5) + 0.5 v high level input voltage (llc) 2.4 v ddd(5) + 0.5 v i li input leakage current - 1 m a c i input capacitance clocks - 10 pf data - 8pf i/os at high impedance - 8pf outputs v ol low level output voltage (except sda and xtalo) note 2 0 0.6 v v oh high level output voltage (except llc, sda, and xtalo) note 2 2.4 v ddd(5) + 0.5 v high level output voltage (llc) note 2 2.6 v ddd(5) + 0.5 v i 2 c-bus; sda and scl v il low level input voltage - 0.5 +1.5 v v ih high level input voltage 3.0 v ddd(5) + 0.5 v i i input current v i = low or high - 10 +10 m a v ol low level output voltage (sda) i ol =3ma - 0.4 v i o output current during acknowledge 3 - ma clock timing (llc) t llc cycle time note 3 34 41 ns d duty factor t high /t llc note 4 40 60 % t r rise time note 3 - 5ns t f fall time note 3 - 6ns input timing t su;dat input data set-up time (any other except cdir, scl, sda, reset, ap and sp) 6 - ns t hd;dat input data hold time (any other except cdir, scl, sda, reset, ap and sp) 3 - ns 1996 oct 02 35 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a notes 1. at maximum supply voltage with highly active input signals. 2. the levels have to be measured with load circuits of 1.2 k w to 3.0 v (standard ttl load) and c l = 25 pf. 3. the data is for both input and output direction. 4. with llc in input mode. in output mode, with a crystal connected to xtalo/xtali duty factor is typically 50%. 5. if an internal oscillator is used, crystal deviation of nominal frequency is directly proportional to the deviation of subcarrier frequency and line/field frequency. 6. for full digital range, without load, v dda = 3.3 v. the typical voltage swing is 1.4 v, the typical minimum output voltage (digital zero at dac) is 0.2 v. crystal oscillator f n nominal frequency (usually 27 mhz) 3rd harmonic - 30 mhz d f/f n permissible deviation of nominal frequency note 5 - 50 +50 10 - 6 c rystal specification t amb operating ambient temperature 0 70 c c l load capacitance 8 - pf r s series resistance - 80 w c 1 motional capacitance (typical) 1.5 - 20% 1.5 +20% ff c 0 parallel capacitance (typical) 3.5 - 20% 3.5 +20% pf data and reference signal output timing c l output load capacitance 7.5 40 pf t h output hold time 4 - ns t d output delay time - 25 ns chroma, y, cvbs and rgb outputs v o(p-p) output signal voltage (peak-to-peak value) note 6 1.35 1.45 v r int internal serial resistance 1 3 w r l output load resistance 75 300 w b output signal bandwidth of dacs - 3db 10 - mhz ile lf integral linearity error of dacs - 2 lsb dle lf differential linearity error of dacs - 1 lsb symbol parameter conditions min. max. unit 1996 oct 02 36 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.15 clock data timing. handbook, full pagewidth mbe742 llc clock output 0.6 v 1.5 v 2.6 v 2.0 v 0.8 v 2.4 v 0.6 v input data output data not valid valid valid not valid valid valid llc clock input 0.8 v 1.5 v 2.4 v t high t hd; dat t llc t high t llc t d t hd; dat t hd; dat t su; dat t f t f t r t r fig.16 functional timing. the data demultiplexing phase is coupled to the internal horizontal phase. the phase of the rcv2 signal is programmed to tbf (tbf for 50 hz) in this example in output mode (rcv2s). handbook, full pagewidth mp(n) llc cb(0) y(0) cr(0) y(1) cb(2) rcv2 mgb699 1996 oct 02 37 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a fig.17 digital tv timing. the data demultiplexing phase is coupled to the internal horizontal phase. the cref signal applies only for the 16 line digital tv format, because these signals are only valid in 13.5 mhz. the phase of the rcv2 signal is programmed to tbf (tbf for 50 hz) in this example in output mode (rcv2s). handbook, full pagewidth llc cref mp(n) y(0) cb(0) y(1) cr(0) y(2) cb(2) y(3) cr(2) y(4) cb(4) dp(n) rcv2 mbe739 fig.18 rtci timing. (1) sequence bit: pal = logic 0 then (r - y) line normal; pal = logic 1 then (r - y) line inverted. ntsc = logic 0 then no change. (2) reserved bits: 235 with 50 hz systems; 232 with 60 hz systems. (3) only from saa7111 decoder. (4) saaa7111 provides (22 : 0) bits, resulting in 3 reserved bits before sequence bit. handbook, full pagewidth 128 13 14 19 67 68 01 0 0 21 rtci hpll increment fscpll increment (4) h/l transition count start 4 bits reserved valid sample invalid sample not used in SAA7182A/83a sequence bit (1) reset bit (3) 5 bits reserved 8/llc reserved (2) mgd673 low time slot: 1996 oct 02 38 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a teletext timing time t fd is the time needed to interpolate input data ttx and inserting it into the cvbs and y output signal, such that it appears at t ttx = 10.2 m s after the leading edge of the horizontal synchronization pulse. time t pd is the pipeline delay time introduced by the source that is gated by ttxrq in order to deliver ttx data. since the pulse representing the ttxrq signal is fully programmable in duration and rising/falling edges (ttxhs and ttxhe), the ttx data is always inserted at the correct position of 10.2 m s after the leading edge of outgoing horizontal synchronization pulse. time t ttxwin is the internally used insertion window for ttx data; it has a constant length that allows insertion of 360 teletext bits (maximum) at a text data rate of 6.9375 mbits/s. the insertion window is not opened if the control bit ttxen is zero. t eletext protocol the frequency relationship between ttx bit clock and the system clock llc for 50 hz field rate is given by the relationship of line frequency multiples, which means 1728/444. thus 37 ttx bits correspond to 144 llc clocks, each bit has a duration of nearly 4 llc clocks. the chip-internal sequencer and variable phase interpolation filter minimizes the phase jitter, and thus generates a bandwidth limited signal, which is digital-to-analog converted for the cvbs and y outputs. at the ttx input, bit duration scheme repeats after 37 ttx bits or 144 llc clocks. the protocol demands that txx bits 10, 19, 28 and 37 are carried by three llc samples, all others by four llc samples. after a cycle of 37 ttx bits, the next bits with three llc samples are bits 47, 56, 65 and 74; this scheme holds for all succeeding cycles of 37 ttx bits, until 360 ttx bits (including 16 run-in bits) are completed. for every additional line with ttx data, the bit duration scheme starts in the same way. using appropriate programming, all suitable lines of the odd field (ttxovs and ttxove) plus all suitable lines of the even field (ttxevs and ttxeve) can be used for teletext insertion. fig.19 teletext timing diagram. handbook, full pagewidth t ttxwin t ttx t pd t fd cvbs/y ttx ttxrq textbit #: 1 2 3 4 5 6 7 8 9 10 11 434 43 4 1/llc 1/llc 12 13 14 15 16 17 18 19 20 21 22 23 24 mgb701 1996 oct 02 39 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a application information handbook, full pagewidth 10 m h 1 nf 10 pf x1 27.0 mhz 3rd harmonic v ssd v ssd v ssd v ddd2 v ssd v dda4 v dda5 v dda6 v dda8 v dda9 v ddd6 v ssd6 xtalo xtali v dda3 10 pf 100 nf v dda2 v ssa v dda1 100 nf v ssd v ssd v ssd v ssd v ssd v ssd v ssd v ddd4 100 nf v ddd7 100 nf v ddd9 100 nf v ddd1 100 nf v ddd3 100 nf v ddd5 100 nf v ddd8 100 nf v ssd1 to v ssd5 and v ssd7 to v ssd9 3, 15, 24, 30, 39, 51, 79, 81 75 w 27 w 0.7 v (p-p) (2)(4) 2 w (1) red 61 v ssa 100 nf v ssa 100 nf 100 nf v ssa 100 nf v ssa 100 nf v ssa 100 nf v ssa 100 nf v ssa v ssa 100 nf v ssa 100 nf v ssa 75 w 27 w 0.7 v (p-p) (2)(4) 2 w (1) green 58 v ssa 75 w 27 w 0.7 v (p-p) (2)(4) 2 w (1) blue 55 v ssa 75 w 8 w 1.23 v (p-p) (2) 2 w (1) cvbs 73 v ssa 75 w 13 w 1.0 v (p-p) (2) 2 w (1) y 71 v ssa v ssa1 to v ssa3 75 w 13 w 0.62 v (p-p) (2) 2 w (1) chroma seli 65 bi 56 qi 59 ri 62 69 52, 67, 76 + 3.3 v analog 3.3 v oscillator 14 29 49 82 + 5 v digital 5 22 38 80 44 45 42 46 74 72 v dda7 70 68 64 red green blue 63 60 57 54 digital inputs and outputs + 3.3 v digital SAA7182A saa7183a (3) mgd674 fig.20 application environment of the euro-denc2; plcc84. (1) typical value. (2) for 100 100 colour bar. (3) philips 12nc ordering code: 9922 520 30003. (4) depending on gy/gcd value. 1996 oct 02 40 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a handbook, full pagewidth 10 m h 1 nf 10 pf x1 27.0 mhz 3rd harmonic v ssd v ssd v ssd v ddd2 v ssd v dda4 v dda5 v dda6 v dda8 v dda9 v ddd6 v ssd6 xtalo xtali v dda3 10 pf 100 nf v dda2 v ssa v dda1 100 nf v ssd v ssd v ssd v ssd v ssd v ssd v ssd v ddd4 100 nf v ddd7 100 nf v ddd9 100 nf v ddd1 100 nf v ddd3 100 nf v ddd5 100 nf v ddd8 100 nf v ssd1 to v ssd5 and v ssd7 to v ssd9 6, 14, 20, 29, 39, 67, 69, 74 75 w 27 w 0.7 v (p-p) (2)(4) 2 w (1) red 50 v ssa 100 nf v ssa 100 nf 100 nf v ssa 100 nf v ssa 100 nf v ssa 100 nf v ssa 100 nf v ssa v ssa 100 nf v ssa 100 nf v ssa 75 w 27 w 0.7 v (p-p) (2)(4) 2 w (1) green 47 v ssa 75 w 27 w 0.7 v (p-p) (2)(4) 2 w (1) blue 44 v ssa 75 w 8 w 1.23 v (p-p) (2) 2 w (1) cvbs 61 v ssa 75 w 13 w 1.0 v (p-p) (2) 2 w (1) y 59 v ssa v ssa1 to v ssa3 75 w 13 w 0.62 v (p-p) (2) 2 w (1) chroma seli 54 bi 45 qi 48 ri 51 57 41, 55, 64 + 3.3 v analog 3.3 v oscillator 5 19 37 70 + 5 v digital 13 28 68 76 32 33 31 34 62 60 v dda7 58 56 53 red green blue 52 49 46 43 digital inputs and outputs + 3.3 v digital SAA7182A saa7183a (3) mgd707 fig.21 application environment of the euro-denc2; qfp80. (1) typical value. (2) for 100 100 colour bar. (3) philips 12nc ordering code: 9922 520 30003. (4) depending on gy/gcd value. 1996 oct 02 41 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a analog output voltages the analog output voltages are dependent on the open loop voltage of the operational amplifiers for full-scale conversion (typical value 1.4 v), the internal series resistor (typical value 2 w ), the external series resistor and the external load impedance. the digital output signals in front of the dacs under nominal conditions occupy different conversion ranges, as indicated in table 40 for a 100 100 colour bar signal. values for the external series resistors result from a 75 w load (see figs 20 and 21). the analog inputs ri, gi, and bi are shifted first by an offset of 0.16 v (typical value), followed by an amplification of 1.72 (typical value). for an input voltage of 0 to 0.7 v an open loop output voltage of 0.28 to 1.48 v is achieved, resulting in v o = 0.86 v (p-p) with an internal series resistor of 2 w , an external series resistor of 27 w at a 75 w load impedance. table 40 digital output signals conversion range conversion range (peak-to-peak cvbs, sync tip-to-peak carrier (digits) y (vbs) sync tip-to-white (digits) rgb (y) black-to-white at gdy = gdc = - 6 (digits) 1023 888 712 1996 oct 02 42 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a package outlines references outline version european projection issue date iec jedec eiaj note 1. plastic or metal protrusions of 0.01 inches maximum per side are not included. sot189-2 54 74 84 1 11 12 32 53 33 75 detail x (a ) 3 b p w m a 1 a a 4 l p b 1 b k 1 k x y e e b d h e h v m b d z d a z e e v m a pin 1 index 0 5 10 mm scale 92-11-17 95-03-11 plcc84: plastic leaded chip carrier; 84 leads sot189-2 unit a a min. max. max. max. max. 1 a 4 b p e (1) (1) (1) eh e z y w v b mm 4.57 4.19 0.51 3.30 0.53 0.33 0.021 0.013 1.27 0.51 2.16 45 o 0.18 0.10 0.18 dimensions (millimetre dimensions are derived from the original inch dimensions) d (1) 29.41 29.21 h d 30.35 30.10 e z 2.16 d b 1 0.81 0.66 k 1.22 1.07 k 1 0.180 0.165 0.020 0.13 a 3 0.25 0.01 0.05 0.020 0.085 0.007 0.004 0.007 l p 1.44 1.02 0.057 0.040 1.158 1.150 29.41 29.21 1.158 1.150 1.195 1.185 30.35 30.10 1.195 1.185 e e e d 28.70 27.69 1.130 1.090 28.70 27.69 1.130 1.090 0.085 0.032 0.026 0.048 0.042 e e inches d e 1996 oct 02 43 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a unit a 1 a 2 a 3 b p ce (1) eh e ll p qz y w v q references outline version european projection issue date iec jedec eiaj mm 0.25 0.05 2.90 2.65 0.25 0.45 0.30 0.25 0.14 14.1 13.9 0.8 1.95 18.2 17.6 1.4 1.2 1.2 0.8 7 0 o o 0.2 0.2 0.1 dimensions (mm are the original dimensions) note 1. plastic or metal protrusions of 0.25 mm maximum per side are not included. 1.0 0.6 sot318-2 d (1) (1) (1) 20.1 19.9 h d 24.2 23.6 e z 1.0 0.6 d b p e q e a 1 a l p q detail x l (a ) 3 b 24 c b p e h a 2 d z d a z e e v m a 1 80 65 64 41 40 25 pin 1 index x y d h v m b w m w m 92-12-15 95-02-04 0 5 10 mm scale qfp80: plastic quad flat package; 80 leads (lead length 1.95 mm); body 14 x 20 x 2.8 mm sot318-2 a max. 3.2 1996 oct 02 44 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a soldering introduction there is no soldering method that is ideal for all ic packages. wave soldering is often preferred when through-hole and surface mounted components are mixed on one printed-circuit board. however, wave soldering is not always suitable for surface mounted ics, or for printed-circuits with high population densities. in these situations reflow soldering is often used. this text gives a very brief insight to a complex technology. a more in-depth account of soldering ics can be found in our ic package databook (order code 9398 652 90011). re?ow soldering reflow soldering techniques are suitable for all plcc and qfp packages. the choice of heating method may be influenced by larger plcc or qfp packages (44 leads, or more). if infrared or vapour phase heating is used and the large packages are not absolutely dry (less than 0.1% moisture content by weight), vaporization of the small amount of moisture in them can cause cracking of the plastic body. for more information, refer to the drypack chapter in our quality reference handbook (order code 9397 750 00192). reflow soldering requires solder paste (a suspension of fine solder particles, flux and binding agent) to be applied to the printed-circuit board by screen printing, stencilling or pressure-syringe dispensing before package placement. several techniques exist for reflowing; for example, thermal conduction by heated belt. dwell times vary between 50 and 300 seconds depending on heating method. typical reflow temperatures range from 215 to 250 c. preheating is necessary to dry the paste and evaporate the binding agent. preheating duration: 45 minutes at 45 c. wave soldering plcc wave soldering techniques can be used for all plcc packages if the following conditions are observed: a double-wave (a turbulent wave with high upward pressure followed by a smooth laminar wave) soldering technique should be used. the longitudinal axis of the package footprint must be parallel to the solder flow. the package footprint must incorporate solder thieves at the downstream corners. qfp wave soldering is not recommended for qfp packages. this is because of the likelihood of solder bridging due to closely-spaced leads and the possibility of incomplete solder penetration in multi-lead devices. if wave soldering cannot be avoided, the following conditions must be observed: a double-wave (a turbulent wave with high upward pressure followed by a smooth laminar wave) soldering technique should be used. the footprint must be at an angle of 45 to the board direction and must incorporate solder thieves downstream and at the side corners. even with these conditions, do not consider wave soldering the following packages: qfp52 (sot379-1), qfp100 (sot317-1), qfp100 (sot317-2), qfp100 (sot382-1) or qfp160 (sot322-1). m ethod (plcc and qfp) during placement and before soldering, the package must be fixed with a droplet of adhesive. the adhesive can be applied by screen printing, pin transfer or syringe dispensing. the package can be soldered after the adhesive is cured. maximum permissible solder temperature is 260 c, and maximum duration of package immersion in solder is 10 seconds, if cooled to less than 150 c within 6 seconds. typical dwell time is 4 seconds at 250 c. a mildly-activated flux will eliminate the need for removal of corrosive residues in most applications. repairing soldered joints fix the component by first soldering two diagonally- opposite end leads. use only a low voltage soldering iron (less than 24 v) applied to the flat part of the lead. contact time must be limited to 10 seconds at up to 300 c. when using a dedicated tool, all other leads can be soldered in one operation within 2 to 5 seconds between 270 and 320 c. 1996 oct 02 45 philips semiconductors preliminary speci?cation digital video encoder (euro-denc2) SAA7182A; saa7183a definitions life support applications these products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify philips for any damages resulting from such improper use or sale. purchase of philips i 2 c components data sheet status objective speci?cation this data sheet contains target or goal speci?cations for product development. preliminary speci?cation this data sheet contains preliminary data; supplementary data may be published later. product speci?cation this data sheet contains ?nal product speci?cations. limiting values limiting values given are in accordance with the absolute maximum rating system (iec 134). stress above one or more of the limiting values may cause permanent damage to the device. these are stress ratings only and operation of the device at these or at any other conditions above those given in the characteristics sections of the speci?cation is not implied. exposure to limiting values for extended periods may affect device reliability. application information where application information is given, it is advisory and does not form part of the speci?cation. purchase of philips i 2 c components conveys a license under the philips i 2 c patent to use the components in the i 2 c system provided the system conforms to the i 2 c specification defined by philips. this specification can be ordered using the code 9398 393 40011. |
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