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preliminary data sheet sda 9489x pip iv advanced sda 9589x sophisticus high-end picture-in-picture ics edition feb. 28, 2001 6251-562-1pd
p-dso28-1 micronas -2 high-end picture-in-picture (pip) ics version 1.3 cmos type package sda 9489x p-dso28-1 sda 9589x p-dso28-1 sda 9489x sda 9589x preliminary data sheet general description sda 9489x ?pip iv advanced? and sda 9589x ?sophisticus? belong to a new generation of picture- in-picture (pip) processors that combine high-quality digital pip signal processing, digital multistandard color decoding and ad/da conversion on a single chip. both devices are equipped with cvbs and y/c input interfaces. in addition the sda sda 9589x is also able to process yuv input signals for displaying high quality video signals e.g. coming from a dvd source. figure 0-1 picture-in-picture the integrated digital color decoder is able to decode all analog tv standards (pal, ntsc and secam) and detects the standard automatically. therefore the ic is suited for world-wide use. a picture reduction from 1/4 to 1/81 of original size selectable in fine steps is possible. the transfer functions of the decimation filters are optimally matched to the selected picture size reduction and can furthermore be adjusted to the viewer?s requirements by a selectable peaking. a maximum of 324 luminance and 2x81 chrominance pixels per line are stored in the memory. the pip supports split-screen applications as well as multi-pip display.
micronas -3 sda 9489x sda 9589x preliminary data sheet 1 features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 2 pin configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 3 block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 4 system description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 4.1 analog frontend . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 4.1.1 input selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 4.1.2 ad-conversion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10 4.1.3 automatic gain control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 4.1.4 signal magnitudes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 4.2 inset synchronization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 4.3 chroma decoding and standard identification . . . . . . . . . . . . . . . . . . . . . .13 4.4 comb filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15 4.5 luminance processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15 4.6 decimation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 4.6.1 single pip mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 4.6.2 continuos zoom . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 4.6.3 horizontal and vertical fine positioning . . . . . . . . . . . . . . . . . . . . . . . . .19 4.6.4 multi display mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 4.6.5 split screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 4.6.6 multi-pip mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 4.7 display control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 4.7.1 100 hz frame mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25 4.7.2 mixed standard applications and (s)vga support . . . . . . . . . . . . . . . . .26 4.7.3 display standard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27 4.7.4 picture positioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28 4.7.5 wipe in / wipe out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29 4.8 output signal processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30 4.8.1 luminance peaking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30 4.8.2 rgb matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31 4.8.3 frame generation and colored background . . . . . . . . . . . . . . . . . . . . .32 4.8.4 16:9 inset picture support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33 4.8.5 parent clock generation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33 4.8.6 select signal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34 4.8.7 automatic brightness reduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34 4.9 on screen display (osd) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35 4.9.1 display format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35 4.9.2 character programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35 4.9.3 character and character background color . . . . . . . . . . . . . . . . . . . . . .36 4.10 da-conversion and rgb / yuv switch . . . . . . . . . . . . . . . . . . . . . . . . . . .36 4.10.1 pedestal level adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37 4.10.2 contrast, brightness and peak level adjustment . . . . . . . . . . . . . . . . . .38
sda 9489x sda 9589x micronas -4 preliminary data sheet 4.11 data slicer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 4.11.1 closed caption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 4.11.2 widescreen signalling (wss) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39 4.11.3 indication of new data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 4.11.4 violence protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 5 application examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 6 i2c bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 6.1 i2c bus address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 6.2 i2c-bus format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 6.3 i2c bus command table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43 6.4 i2c bus command description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 7 pin description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78 8 absolute maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 9 recommended operating range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 10 characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86 11 diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 12 application circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .100
micronas 1-5 sda 9489x sda 9589x features preliminary data sheet 1features single chip solution: ? ad-conversion for cvbs or y/c or yuv 1) , multistandard color decoding, pll for synchronization of inset channel, decimation filtering, embedded memory, rgb- matrix, da-conversion, rgb/yuv switch, data-slicer and clock generation integrated on chip analog inputs: ? 3x cvbs or 1x cvbs and 1x y/c or 1xyuv 1) alternatively ? clamping of each input ? all adcs with 8 bit amplitude resolution ? automatic gain control (agc) for y and cvbs inset synchronization: ? multiple time constants for reliable synchronization ? automatic recognition of 625 lines / 525 lines standard color decoder: ? pal-b/g, pal-m, pal-n(argentina), pal60, ntsc-m, ntsc4.4 and secam ? adjustable color saturation ? hue control for ntsc ? automatic chroma control (-24 db ... +6 db) ? automatic recognition of chroma standards: different search strategies selectable ? single crystal for all standards ? if-characteristic compensation filter decimation: ? pip sizes between 1/81 and 1/4 adjustable with steps of 2 lines and 4 pixel ? resolution up to 324 luminance and 2x81 chrominance pixels per inset line ? horizontal and vertical filtering dependent on picture size ? automatic zoom in/out possible with three speeds display features: ? 7 bit per pixel stored in memory ? field and joint-line free frame mode display (even at 100/120 hz aabb with picture sizes<=1/9) ? two ?split-screen? modes with horizontal decimation of 2 and vertical of 1.5 or 1.0 ?pop display ? up to 12 pictures of 1/36th size (11 still and 1 moving) ? up to 6 pictures of 1/16th size (5 still and 1 moving) ? up to 3 pictures of 1/9th size (2 still and 1 moving) ? display on vga and svga screen (f h limited to 40khz) ? 8 different read frequencies for 16:9 compatibility ? line doubling mode for progressive scan applications 1) sda 9589x only
sda 9489x sda 9589x features micronas 1-6 preliminary data sheet ? freeze picture ? coarse positioning at 4 corners of the parent picture ? fine positioning at steps of 4 pixels and 2 lines ? wipe in / out programmable with 3 time periods output signal processing: ?7 bit dac ? rgb or yuv switch: insertion of an external source without pip processing ? digital interpolation for anti-imaging ? adjustable transient improvement for luma (peaking) ? contrast, brightness and pedestal level adjustable ? analog outputs: y, +(b-y), +(r-y), or y, -(b-y), -(r-y) or rgb ? three rgb matrices available: ntsc(japan), ntsc(usa) or ebu ? 64 different background colors and 4096 different frame colors ? plain or 3d frame with variable width and height data slicing: ? slicing of closed-caption (cc) or wide-screen-signaling (wss) data ? violence blocking capability (v-chip) ? several filter for xds data extraction on-screen display: ? 64 characters programmable ? 5 characters displayed in every pip picture or 3 rows of 20 characters each ? 4 different character luminance values or frame color ? 4 background luminance values or (semi-) transparent mode i 2 c-bus control (400 khz) high stability clock generation pdso 28-1 package (smd) full sda 9488x and sda 9588x backward compatibility sda 9388x / sda 9389x pinout compatibility 3.3v supply voltage (5v input capable)
micronas 2-7 sda 9489x sda 9589x pin configuration preliminary data sheet 2 pin configuration figure 2-1 pinning figure 2-2 package outlines out3 16 sel 15 out2 17 out1 18 xin xq 2 vsp 4 sda 5 scl 6 vss 8 vdd 7 i2c 9 int 10 in1 11 in2 12 in3 13 fsw 14 cvbs1 28 27 vrefm 26 cvbs2 25 vrefl 24 cvbs3 23 vssa1 22 vdda1 21 vssa2 20 vdda2 19 hsp 3 vrefh pdso 28 -1 1
sda 9489x sda 9589x pin configuration micronas 2-8 preliminary data sheet table 2-1 pin description numb er name type description 1 xin i crystal oscillator (input) or external clock input 2 xq o crystal oscillator (output) 3 hsp i/ttl horizontal sync for parent channel 4 vsp i/ttl vertical sync for parent channel 5sdai/oi 2 c-bus data 6scl ii 2 c-bus clock 7 vdd s digital supply voltage 8 vss s digital ground 9i2c ii 2 c address 10 int o/ttl interrupt 11 in1 i/ana v/r input for external yuv/rgb source 12 in2 i/ana y/g input for external yuv/rgb source 13 in3 i/ana u/b input for external yuv/rgb source 14 fsw i fast switch input for yuv/rgb switch 15 sel o fast blanking output for pip 16 out3 o/ana analog output: chrominance signal +(b-y) or -(b-y) or b 17 out2 o/ana analog output: luminance signal y or g 18 out1 o/ana analog output: chrominance signal +(r-y) or -(r-y) or r 19 vdda2 s analog supply voltage for dac 20 vssa2 s analog ground for dac 21 vrefh i/ana uppper reference voltage for adc and dac 22 vdda1 s analog supply voltage for adc 23 vssa1 s analog ground for adc 24 cvbs3 i/ana cvbs3 or v (sda 9589x) or c input 25 vrefl i/o lower reference voltage for adc 26 cvbs2 i/ana cvbs2 or u (sda 9589x) or y (from y/c) input 27 vrefm i/o mid-level reference voltage for adc 28 cvbs1 i/ana cvbs1 or y (from yuv, sda 9589x) input i= input / ana=analog / o= output / ttl=digital (ttl) / s=supply voltage
micronas 3-9 sda 9489x sda 9589x block diagram preliminary data sheet 3 block diagram figure 3-1 block diagram rgb matrix peaking over- sampling insertion edram 768 kbit frame generation display controller parent sync processing clock synthesizer memory controller skewcomp. h/v scaler decimation color decoder pal/ secam/ ntsc y/c and sync sep. inset sync processing input select clamp gain demux data slicer acquisition i 2 c controller mux triple adc 3x8bit 1) triple dac 3x7bit in1 in3 fs w out 1 out 2 out 3 sel fast rgb/yuv switch in2 vdda2vssa2 vdd vss cvbs1 cvbs2 cvbs3 vrefh vrefl vdda1 vssa1 xin xq i2c scl sda hsp vsp vrefm xtal 20.25 mhz intr 28 26 24 25 21 27 22 23 71920 12 10 9 65 34 15 16 17 18 14 13 12 11 8 dcvbs/dy duv/dchr osd 1) sda 9589x, sda 9489x: 2x8bit
sda 9489x sda 9589x system description micronas 4-10 preliminary data sheet 4 system description 4.1 analog frontend 4.1.1 input selection an analog inset cvbs signal can be fed to the inputs cvbs1-3 of sda 9589x/sda 9489x. each of these sources is selectable via i 2 c bus ( cvbsel ). cvbs2 and cvbs3 can be used as separate y/c inputs. at sda 9589x yuv sources can be connected to cvbs1, cvbs2 and cvbs3 provided yuv operation being enabled ( yuvsel ). using an external switch sda 9589x can operate in applications with both yuv and cvbs signals. 4.1.2 ad-conversion all signal are clamped and ad-converted with an amplitude resolution of 8bit. cvbs and y signals are clamped to the sync bottom whereas u/v and c signals are clamped to their mid-level during blanking. figure 4-1 clamping timing cvbsel yuvsel input remark d1 d0 cvbs1 cvbs2 cvbs3 0 0 0 cvbs 0 1 0 cvbs 1 0 0 y (vbs) c y/c mode 1 1 0 cvbs x x 1 y (vbs) u (cb) v (cr) yuv mode (only sda 9589x) table 4-1 input selection inset video hd clampi clmpid clmpist
micronas 4-11 sda 9489x sda 9589x system description preliminary data sheet the clamping pulse can be shifted in position ( clmpist ) and length ( clmpid ) to adjust to the specific application. the adcs are driven by a 20.25 mhz free running crystal clock which is not related to the incoming cvbs signal. to avoid aliasing by subsampling the cvbs signal and the y/c signals should be band- limited to 10mhz. in the same manner the u/v signal frequency spectrum should not exceed 5 mhz. the digital filtering suppresses all frequencies above the usable spectrum. 4.1.3 automatic gain control to accommodate to different cvbs input voltages an automatic gain control has been implemented. the chip works correctly for input voltages in the range from 0.5 to 1.5v pp . for best signal-to-noise ratio, the maximum cvbs amplitude is recommended if available. the agc behavior can be chosen out of four possibilities ( agcmde ). the sync height serves as reference for the gain control in the typical application. when using overflow detection only, the gain is set to maximum and is reduced whenever an overflow occurs. this procedure will be executed again when a channel change is detected or the gain control is manually reset by agcres . figure 4-2 agc characteristic 4.1.4 signal magnitudes the nominal cvbs signal with 75% color has a magnitude of 1 v pp . the upper headroom is left to permit signals with 100% color resulting in 1.23 v pp . the y signal must always contain the sync part. its levels correspond to the cvbs levels except for the missing color and burst. after a/d conversion the video part is clamped to its black value and is amplified to 224 digital steps. the nominal signal levels ensure correct brightness and saturation. the yuv signal levels conform to the itu 601 recommendation. 0 2 4 6 8 10 12 14 16 0 0.5 1 1.5 2 automatic gain control characteristic agcval input voltage [v]
sda 9489x sda 9589x system description micronas 4-12 preliminary data sheet figure 4-3 cvbs/y and chroma adc input signal range figure 4-4 uv input signal range table 4-2 adc conversion range and required input signal voltage agcval conversion range cryc signal range sry signal range src conversion range cruv signal range sruv d3 d2 d1 d0 0000 0.5v pp 0.42v pp ... ... ... 1000 1.2v pp 1.0v pp 0.89v pp 0.8v pp 0.7v pp ... ... ... 1111 1.5v pp 1.25v pp lower headroom sry = 1 vpp cryc = 1.2 vpp src = 0.89 vpp 75% chroma 100% chroma burst white black burst 0 32 128 224 255 0 68 217 255 4 cryc = 1.2 vpp upper headroom upper headroom lower headroom cruv = 0.8 vpp sruv = 0.7 vpp 0 16 128 240 255 75% u 212 44 cruv = 0.8 vpp sruv = 0.7 vpp 0 16 128 240 255 212 44 lower headroom upper headroom upper headroom lower headroom 75% v
micronas 4-13 sda 9489x sda 9589x system description preliminary data sheet 4.2 inset synchronization horizontal and vertical sync pulses are separated after elimination of the high frequency components of the cvbs signal by a low pass filter. horizontal sync pulses are generated by a digital phase-locked-loop (dpll). its time constant is adjustable between fast and slow behavior in four steps ( pllitc ) to consider different input sources (e.g. vcr). noisy input signals become more stable when a noise-reduction is enabled ( nsred ). additionally weak input signals from a satellite dish (?fishes?) become more stable when satnr is enabled. both should be enabled to have best available performance. when nosigb is enabled, a colored background is shown instead of the picture when pip is out of synchronization. the detected line standard is indicated by syncstat . 4.3 chroma decoding and standard identification the system is able to decode ntsc and pal signals with a subcarrier of 3.58mhz and 4.43mhz (pal b/m/n/60, ntsc m/4.4) as well as secam signals with 4.05/4.2mhz subcarrier. the system may be forced to a certain standard, or an automatic standard detection can be used ( cstand ). for automatic standard detection, some standards which are not likely to be received can be ignored to improve the detection process. depending on the detected line standard (525 or 625 lines) the color standard detection circuit searches for 60 hz signals (ntsc-m / pal-m / pal 60 / ntsc44) or 50 hz signals (pal-b / secam / pal-n) respectively. within each line standard, the standard is detected by consequently switching from one to another. this standard detection process can be set to medium or fast behavior (locksp). in medium behavior 30 fields (in fast 20) are used to detect the standard. if not being successful within this time period the system tries to detect another one. for secam detection, a choice between two recognition levels is possible ( scmidl ) and the evaluated burst position is selectable ( bgpos ). . table 4-3 considered color standards for automatic standard detection for getting the chrominance information the digitized video signal is multiplied with the regenerated color subcarrier once in-phase and once phase-shifted by 90. after lowpass filtering digital uv is available for pal and ntsc. the subcarrier is regenerated cstandex ntsc- m pal60 pal-n pal-m pal-b secam ntsc 44 d1 d0 00 0 . 1 10 11
sda 9489x sda 9589x system description micronas 4-14 preliminary data sheet by a digital pll. at secam operation the pll runs free and generates the line-wise alternating subcarriers. a cordic structure demodulates the frequency-modulated uv signals. the following secam de-emphasis filter characteristic is adjustable (deemp) . the chroma signal can be filtered before demodulation by means of a selectable if- prefilter ( ifcomp ). figure 4-5 secam de-emphasis filter characteristic and if-compensation filter characteristic the hue control ( hue ) influences the phase of the demodulation subcarrier between -44.8 and 43.4 in steps of 1.4. this is provided for ntsc only and adjustment is ineffective for pal and secam signals. the reference for the subcarrier generation is a crystal stable clock of 20.25000 mhz. in order to avoid color standard detection problems, the maximum deviation of this frequency should not exceed 100ppm. for a good pll locking behavior a maximum deviation of 40ppm is recommended. a small frequency adjustment (-150 ... +310 ppm) is possible for using a crystal with small frequency deviations (scadj) . for test purposes, cpll allows to open the loop of the chroma pll. for deviations in the chroma signal up to 30db, a stable output amplitude after chroma decoding is achieved due to the acc (automatic chroma control). if the chroma signal (color burst) is below a selectable threshold ( ckill ), the color will be switched off. alternatively the color-killer can be bypassed and the color can be switched on or off under all conditions ( colon ). by setting accfix , the automatic chroma control is disabled and set to a default value. 3.58 4.4 2 3 4 5 6 10 7.5 5 2.5 0 2.5 5 frequency [mhz] gain [db] 0 0.5 1 1.5 2 2.5 20 15 10 5 0 frequency [mhz] gain [db] deemp = ?00? deemp = ?01? deemp = ?10? deemp = ?11? ifcomp = ?00? ifcomp = ?01? ifcomp = ?10?
micronas 4-15 sda 9489x sda 9589x system description preliminary data sheet table 4-4 color-killer adjustment the bandwidth of the chroma filter is adjustable via chrbw . the bandwidth depends on whether the decoder is in secam operation or not. a change in chrbw does not result in a chrominance position shift on the screen. ckstat can be read out and gives information whether the color is switched on or off. stdet indicates the detected color standard. additionally palid signals whether a pal signal or a ntsc signal is applied. 4.4 comb filtering depending on the selected picture size and color standard, a comb filtering is performed for luminance and chrominance. a comb filter uses the spectral interleaving of the encoded luminance and chrominance to separate both without cross artifacts. thus cross-color and cross-luminance are suppressed effectively. for ntsc sources, a comb filtering is performed for all picture sizes. due to reduced bandwidth in horizontal and vertical direction a strong reduction of cross artifacts can be achieved for pal signals. the same applies for the luminance signal of secam signals. 4.5 luminance processing the a/d-converted cvbs (or y) signal is digitally clamped to back porch. depending on the transmitted standard and operational area, an offset between black- and blanking level can be found in the incoming signal (?7.5 ire?). as for some applications a black offset is not desired, controlling may be done using lmofst . the positive or negative offset is added to the y signal before scaling. ckill colon color killed at damping of d1 d0 0 0 0 30 db 0 1 0 18 db 1 1 0 24 db 1 1 0 color always off x x 1 color always on
sda 9489x sda 9589x system description micronas 4-16 preliminary data sheet figure 4-6 black level correction of luminance signal the color carrier is removed out of a cvbs signal by means of a notch filter. it is set to the corresponding color carrier (3.58 or 4.4 mhz) only if the standard is detected permanently. this prevents the luminance sharpness of being changed within the standard search process. for y signals the notch is disabled. for a fine adjustment of delaycompensation between luminance and chrominance, ycdel allows a luminance shifting in 16 steps of 50ns. 4.6 decimation 4.6.1 single pip mode luminance and chrominance signals are filtered in horizontal and vertical direction. the coarse horizontal and vertical picture size (1/2, 1/3, 1/4, 1/6) is independently programmable with sizehor and sizever . a fine adjustment in steps of 4 pixel and 2 lines is possible by hshrink and vshrink , which allows correct aspect ratio for multistandard applications (50/60 hz mixed mode, (s)vga). for main decimation factors, the stored number of pixel and lines are listed in the following tables. blank value black value blank value black value blank value black value blank value black value lmofst ='00' (no additional offset) lmofst ='00' (no additional offset) lmofst ='10' (reduction of 16 lsb) lmofst ='01' (addition of 16 lsb) m standard signals b/g/h/i/n standard signals received signal processed signal
micronas 4-17 sda 9489x sda 9589x system description preliminary data sheet table 4-5 number of stored pixel per line dependent on sizehor table 4-6 number of stored lines per field 4.6.2 continuos zoom the continuos zoom feature changes the picture size rapidly in an animated manner. it is available in single-pip mode for picture sizes smaller or equal 1/4 of the undecimated picture. there are three possibilities of using the zoom feature: the pip is zoomed via hshrink and vshrink manually. this requires an i 2 c protocol each time the picture size should change. czmen should be used to synchronize the update of hshrnk/vshrnk with sizehor/sizever . a different way is to make usage of the automatic zooming. the zoom speed can be controlled by czmspd. when switching pip on or off by using pipon , the pip zooms automatically to the selected picture size or disappears at size of 1/81. a zooming between two picture sizes can be performed by changing the hshrink , vshrink, sizehor, sizever values when czmen is enabled. then the new picture size is obtained by zooming and not taken immediately. automatic zooming is only possible in frame mode . being in field mode , the picture size remains stable until frame mode occurs or until the internal counter reaches the desired sizehor horizontal scaling pip pixel per line d1 d0 y (b-y) (r-y) 0 0 2:1 324 81 81 0 1 3:1 216 54 54 1 0 4:1 160 40 40 1 1 6:1 108 27 27 sizever vertical scaling pip lines d1 d0 625 lines source 525 lines source 0 0 2:1 132 108 01 3:1 88 72 10 4:1 66 54 11 6:1 44 36
sda 9489x sda 9589x system description micronas 4-18 preliminary data sheet picture size. then the size changes immediately. equal to the wipe process, the zooming direction depends on the coarse position ( cpos). table 4-7 number of stored lines per field dependent on vshrnk 0 0 2132 2108 02 4664,0154 1 0 2,03 130 2,03 106 1 2 4,13 64 4,15 52 2 0 2,06 128 2,08 104 2 2 4,25 62 4,31 50 3 0 2,09 126 2,13 102 3 2 4,41 60 4,5 48 4 0 2,13 124 2,16 100 4 2 4,56 58 4,69 46 5 0 2,16 122 2,2 98 5 2 4,72 56 4,9 44 6 0 2,2 120 2,25 96 6 2 4,88 54 5,13 42 7 0 2,23 118 2,3 94 7 2 5,06 52 5,39 40 8 0 2,28 116 2,34 92 8 2 5,28 50 5,7 38 9 0 2,31 114 2,41 90 9 2 5,5 48 10 0 2,36 112 2,45 88 10 2 5,75 46 11 0 2,41 110 2,52 86 0 3 6 44 6 36 12 0 2,44 108 2,58 84 1 3 6,28 42 6,38 34 13 0 2,48 106 2,64 82 2 3 6,61 40 6,75 32 14 0 2,53 104 2,7 80 3 3 6,94 38 7,22 30 15 0 2,59 102 2,77 78 4 3 7,31 36 7,73 28 16 0 2,64 100 2,84 76 5 3 7,78 34 8,3 26 17 0 2,69 98 2,92 74 6 3 8,25 32 9 24 18 0 2,75 96 7 3 8,81 30 9,8 22 19 0 2,81 94 8 3 9,42 28 10,78 20 20 0 2,88 92 9 3 10,17 26 21 02,9490 10311,0224 01 388 372 1 1 3,07 86 3,09 70 2 1 3,14 84 3,19 68 3 1 3,21 82 3,28 66 413,3803,3864 5 1 3,38 78 3,49 62 6 1 3,47 76 3,61 60 7 1 3,56 74 3,73 58 8 1 3,66 72 3,87 56 9 1 3,77 70 10 1 3,89 68 625 lines 525 lines 625 lines 525 lines
micronas 4-19 sda 9489x sda 9589x system description preliminary data sheet table 4-8 number of stored pixel per line dependent on hshrnk 4.6.3 horizontal and vertical fine positioning all picture sizes are pre-centered inside the frame. in addition, if necessary the vertical and horizontal acquisition area can be shifted by vfp for vertical and hfp for horizontal direction. 0 0 2,00 324 0 1 3,00 216 0 3 6,00 108 1 0 2,02 320 1 1 3,04 212 1 3 6,23 104 2 0 2,05 316 2 1 3,11 208 2 3 6,48 100 3 0 2,08 312 3 1 3,17 204 3 3 6,75 96 4 0 2,10 308 4 1 3,23 200 4 3 7,04 92 5 0 2,13 304 5 1 3,29 196 5 3 7,35 88 6 0 2,16 300 6 1 3,37 192 6 3 7,70 84 7 0 2,19 296 7 1 3,44 188 7 3 8,10 80 8 0 2,22 292 8 1 3,51 184 8 3 8,52 76 9 0 2,25 288 9 1 3,60 180 9 3 8,99 72 10 0 2,28 284 10 1 3,67 176 10 3 9,51 68 11 0 2,31 280 11 1 3,76 172 11 3 10,12 64 12 0 2,35 276 12 1 3,84 168 12 3 10,64 60 13 0 2,38 272 13 1 3,94 164 14 0 2,41 268 0 2 4,05 160 15 0 2,45 264 1 2 4,16 156 16 0 2,49 260 2 2 4,27 152 17 0 2,53 256 3 2 4,38 148 18 0 2,57 252 4 2 4,50 144 19 0 2,61 248 5 2 4,63 140 20 0 2,66 244 6 2 4,77 136 21 0 2,70 240 7 2 4,91 132 22 0 2,74 236 8 2 5,06 128 23 0 2,80 232 9 2 5,22 124 24 0 2,84 228 10 2 5,41 120 25 0 2,89 224 11 2 5,59 116 26 0 2,95 220 12 2 5,78 112
sda 9489x sda 9589x system description micronas 4-20 preliminary data sheet 4.6.4 multi display mode sda 9589x and sda 9489x offer the feature to display a sub-picture more than once. the picture size and arrangement depends on the display mode ( dispmod ) and not on sizehor or sizever . hence variable scaling is not possible in these modes. table 4-9 multi-display modes the display modes are shown in the appendix. the sizes of the partial pictures are listed in table 4-11 . 4.6.5 split screen for split screen applications two selectable ?double window? modes in which one half of the picture is generated by the ?sophisticus?/?pip iv advanced? can be used. the split screen mode can be selected by two possible combinations of dispmod . figure 4-7 double window mode 1.5 (left picture) and mode 1 (right picture) display mode dispmod size picture configuration pixel lines d1 d0 625 525 100sizehor/ sizever hsrhnk/ vshrnk single pip mode 324 - 60 132 - 24 108 - 20 2 0 1 3 x1/9 one upon another (same content) 216 264 216 3 1 0 4 x 1/16 one upon another (same content) 156 264 216
micronas 4-21 sda 9489x sda 9589x system description preliminary data sheet the d1.5 mode is suited for displaying split screen on 16:9 tubes keeping the aspect ratio. the dw1 format covers the full height of the screen. 4.6.6 multi-pip mode there is a great variety of multi-pip modes available. up to 11 different still pictures and one moving picture can be shown. this is useful to give an overview over broadcasted programmes (e.g. tuner-scan) or for supervising purposes. for multi-pip modes only three fixed picture sizes are available (1/9, 1/16 or 1/36). the picture size and arrangement depends on the display mode ( dispmod ) and not on sizehor or sizever . variable scaling is thus not possible in these modes. because of limited memory capacity, the number of frozen multi-pictures is limited dependent on picture size to the number shown in the table below: table 4-10 maximum number of pictures in multi-pip mode the partial picture that is written is addressed via wrpos . with infrm , a frame for separation of every pip can be selected. this is adjustable to single or dual pip mode ( infrmod ). the current updated picture can be highlighted with piphlt . to avoid garbage pictures after switching from one mode to another the selected picture can be blanked with pipblk . mpipbg defines wether the picture will be blanked with black or with the adjusted background color. for compatibility reasons to other devices, the dispmod register is split into two segments. if a display mode is chosen that is not implemented, the pip insertion is switched off automatically ( pipon = ?0?). the sizes of the partial pictures correspond to the sizes of the inset pictures of the single pip modes. picture sizes maximum number of pictures (including one live picture) 1/9 3 1/16 6 1/36 12
sda 9489x sda 9589x system description micronas 4-22 preliminary data sheet table 4-11 display modes 4.7 display control the on-chip memory capacity is 768 kbits. provided that the same standard (50 or 60 hz) video sources are applied to inset and parent channel, joint-line free frame mode display is possible. this means that every incoming field is processed and displayed by the sda 9589x/sda 9489x processors. the result is a high vertical and time resolution. for this purpose the standard is analyzed internally and frame mode display is blocked display mode dispmod size picture configuration pixel lines d6 d5 d4 d3 d2 625 525 4 0 0 0 0 1 2 x 1/9, one upon another 216 176 144 5 0 0 0 1 0 2 x 1/9, side by side 432 88 72 6 0 0 0 1 1 3 x 1/9, side by side 648 88 72 7 0 0 1 0 0 3 x 1/9 one upon another 216 264 216 8 0 0 1 0 1 4 x 1/16 side by side 624 66 54 9 0 0 1 1 0 6 x 1/16 inverted u shaped 624 132 108 10 0 0 1 1 1 6 x 1/16 u shaped 624 132 108 11 0 1 0 0 0 4 x 1/16 2 rows of 2 pictures 312 132 108 12 0 1 0 0 1 4 x 1/16 one upon another 156 264 216 13 0 1 0 1 0 12 x 1/36 6 rows of 2 pictures 216 264 216 14 0 1 0 1 1 12 x 1/36 2 rows of 6 pictures 648 88 72 15 0 1 1 0 0 9 x 1/36 3 rows of 3 pictures 324 132 108 16 0 1 1 0 1 12 x 1/36 3 rows of 4 pictures 432 132 108 17 0 1 1 1 0 11 x 1/36 angular of 11 pictures 648 264 216 18 0 1 1 1 1 9 x 1/36 angular of 9 pictures 540 220 180 19 1 0 0 0 0 1x1/3 double window (v=1.5) 324 176 144 20 1 0 0 0 1 1x1/2 double window (v=1) 324 264 216 21 10010 osd only all other pip off (pipon=0)
micronas 4-23 sda 9489x sda 9589x system description preliminary data sheet automatically, if the described restrictions are not fulfilled. then only every second incoming field is shown (field mode). field mode normally shows joint-lines. this is caused by an update of the memory during read out. the result is that one part of the picture contains new picture information and the other part contains one earlier written field. the switching from or to frame mode is free of artifacts. activation of frame-mode display is blocked automatically if at least one of the following conditions is not fulfilled: inset and parent channel have the same field repetition frequency. this means that frame mode is possible only for 50hz inset and parent sources or 60hz inset and parent sources. interlace signal is detected for inset and parent channel. for progressive scan or (s)vga display therefore only field mode is possible. for some vcrs in trick mode, often no interlace is detected also. the number of lines is within a predefined range for inset ( fmacti ) or parent ( fmactp ) channel (assuming standard signals according to itu) table 4-12 required number of lines for frame mode display the system may be forced to field mode by means of fiesel. either first or second field is selectable. ?one of both? takes every second field independent of the field number. this is meant for sources generating only one field (e.g. video-games). for progressive scan conversion systems and hdtv / (s)vga displays a line doubling mode is available ( progen ). every line of the inset picture is read twice. memory writing is stopped by freeze bit. the field stored in the memory is then continuously read. as the picture decimation takes place before storing, the picture size of a frozen picture can not be changed. synchronization of memory reading with the parent channel is achieved by processing the parent horizontal and vertical synchronization signals connected to the pin hsp for horizontal synchronization and pin vsp for vertical synchronization. hspinv or vspinv respectively allow an inversion of the expected signal polarity. fmactp parent standard number of lines per field fmacti inset standard number of lines per field 0 50 hz 310...315 0 50 hz 310...315 1 50 hz 290...325 1 50 hz 290...325 0 60 hz 260...265 0 60 hz 260...265 1 60 hz 250...275 1 60 hz 250...275
sda 9489x sda 9589x system description micronas 4-24 preliminary data sheet figure 4-8 field detection and phase adjustment of vertical pulse (vsp) depending on the phase between inset and parent signals a correction of the display raster for the read out data is performed. as the external vsp and hsp signals may come from different devices with different delay paths, the phase between v-sync and h-sync is adjustable ( vspdel ). an incorrect setting of vspdel may result in wrong or unreliable field detection of parent channel. normally a noise reduction of the incoming parent vertical pulse is performed. with this function missing vertical pulses are compensated. the circuit works for 50/60 hz applications as well as progressive and 100/120hz application. (s)vga signals are supposed to be very stable and therefore not supported by the noise suppression. by means of vspnsrq, vertical noise suppression is switched off. a great variety of combinations of inset and parent frequencies are possible. the following table shows some constellations. vspdel vspdel max =151 (75) s values in brackets () apply for 100hz systems field 0 window field 1 window th = 64 (32) s th/2 = 32 (16) s hsp vsp vspd (internal)
micronas 4-25 sda 9489x sda 9589x system description preliminary data sheet table 4-13 available features with varying inset and parent standards 4.7.1 100 hz frame mode if the picture size is smaller or equal than 1/9 pip a true frame mode display for 100hz parent standard with a double field repetition rate is possible (display raster ?? only). the picture size is indicated by the horizontal and vertical decimation factors that must be equal or below 1/3 of undecimated picture size in both directions. this guarantees enough memory for a joint-line free picture with full vertical resolution. for bigger pictures only field mode is supported. the 100 hz frame mode is activated if readd =?1? for the above mentioned picture sizes. for an acceptable quality without line flicker or motion artifacts only the mode ?? is supported for hsp and vsp. if the sequence ?? is detected, the field mode will be activated again. continous switching between these modes is possible, resulting in continous switching between field- and frame mode. inset frequency 1) 1) standard signals supposed parent frequency 1) (hsp/vsp) frame mode correct aspect ratio (single pip) correct aspect ratio (multi display) vertical noise suppression selectable 50 50i 50 60i 60 50i 60 60i 50 50p 50 60p 60 50p 60 60p 50 100i 2) 2) aabb only and picture size smaller than 1/9 50 120i 60 100i 60 120i 2) 50 (s)vga 3) 3) valid for some parent frequencies. please refer to chapter 4.7.2 60 (s)vga 3)
sda 9489x sda 9589x system description micronas 4-26 preliminary data sheet 4.7.2 mixed standard applications and (s)vga support table 4-14 examples of supported parent signals remark (n apel x n aline @ f v ) f h (khz) t h ( s) t hact ( s) lines/ active f dot (mhz) scan correct aspect ratio 720x576@50hz (tv) 15.6 64.0 52.0 625/ 576 13.5 interlace 702x488@60hz (tv) 15.7 63.6 52.7 525/ 488 13.5 interlace 720x576@100hz (tv 100 hz) 31.2 32.0 26.0 625/ 576 27 interlace 702x488@120hz (tv 120 hz) 31.2 31.8 26.4 525/ 488 27 interlace 720x576@50hz (tv progressive) 31.2 32.0 26.0 625/ 576 27 prog- ressive 702x488@60hz (tv progressive) 31.2 31.8 26.4 525/ 488 27 prog- ressive 640x480@60hz (vga) 31.5 31.8 25.4 525/ 480 25.2 prog- ressive 640x480@72hz (vga) 37.9 26.4 20.3 520/ 480 31.5 prog- ressive 640x480@75hz (vga) 37.5 26.7 20.3 500/ 480 31.5 prog- ressive 800x600@56hz (svga) 35.2 28.4 22.2 625/ 600 36.0 prog- ressive 800x600@60hz (svga) 37.9 26.4 20.0 625/ 600 40.0 prog- ressive 800x600@72hz (svga) 48.1 20.8 16.0 666/ 600 50.0 prog- ressive 800x600@75hz (svga) 46.9 21.3 16.2 625/ 600 49.5 prog- ressive 800x600@85hz (svga) 53.7 18.6 14.2 631/ 600 56.3 prog- ressive 1024x768@43hz (svga) 35.5 28.2 22.8 817/ 768 44.9 interlace
micronas 4-27 sda 9489x sda 9589x system description preliminary data sheet sda 9589x and sda 9489x allow multiple scan rates for the use in desktop video applications, vga compatible or 100hz tv sets. all features are provided in ?normal? operating modes at auto detected 50hz and 60 hz parent and inset standards. 2f h modes (100/120hz and progressive) are supported by line frequency- and pixel clock doubling and are not detected automatically. even on a 16:9 picture tube correct aspect ratio can be displayed by selecting the suitable parent clock. the video synthesizer generates also a special pixel clock for vga display (see chapter 5.5.9 for details). as (s)vga consists of a variety of scan rates the correct aspect ratio is not adjustable for all modes with the parent clock ( hzoom ) because of the limited count of frequencies. for single pip only, correct aspect ratio is maintained by the vertical and horizontal scaler ( hshrink and vshrink ). it is possible to display (s)vga sources for parent display, as long as the horizontal frequency is lower than 40 khz and the signal does not contain more than 1023 lines. for progressive scan mode, progen must be set. additionally field-mode should be forced to prevent unallowed frame-mode displaying ( fiesel ). as the (s)vga normally does not fit to the display raster generated in the vertical noise suppression, vspnsrq should be disabled. (s)vga signals for inset channel are not supported. table 4-15 selection of display field repetition 4.7.3 display standard for a single-pip, the number of displayed lines depends on the selected picture size and on the signal standard. for multi picture display, the number of displayed lines depends on the selected picture size and on the signal standard of the parent signal. additionally, a standard can be forced by dispstd . progen readd expected input signal 0 0 50 or 60 hz signal interlace 0 1 100 or 120 hz signals interlace 1 0 (reserved) 1 1 50 or 60 hz or (s)vga signal progressive
sda 9489x sda 9589x system description micronas 4-28 preliminary data sheet table 4-16 display standard selection if a 625 lines picture is shown with a 525 lines parent signal, some lines are missing on top and bottom of picture. if a 525 lines picture is shown with a 625 lines display standard, missing lines at top and bottom are filled with background color or black depending on mpipbg . figure 4-9 50 and 60 hz multi pip display on 50 hz and 60 hz display 4.7.4 picture positioning the display position of the inset picture is programmable to the 4 corners of the parent picture ( cpos ). from there pip can be moved to the middle of the tv picture with poshor and posver . the corner positions can be centered coarsely on the screen with posofh and posofv . depending on coarse position, one pip corner remains stable when changing the picture size. dispstd dispmod display standard d1 d0 0 0 0 pip depends on detected inset standard (single pip) 0 0 >0 pip depends on detected parent standard (multi display) 0 1 x pip display is always in 625 lines mode 1 0 x pip display is always in 525 lines mode 1 1 x freeze last detected display standard and size 625 lines / 50 hz 525 lines / 60 hz
micronas 4-29 sda 9489x sda 9589x system description preliminary data sheet table 4-17 coarse positioning there are 256 horizontal locations (4 pixel increments) and 256 vertical locations (2 line increments). the pixel width on the screen depends on the selected hzoom factor. even pop-positions (picture outside picture) in 16:9 applications are possible. figure 4-10 coarse positioning 4.7.5 wipe in / wipe out with the wipe in / wipe out function it is possible to let appear or disappear the complete inset picture starting or ending at the corner of the inset picture position defined by cpos . thereby the size of the visible picture-part is continuously increased and decreased respectively. during this procedure the frame is shown with its chosen widths. 3 different wipe in / out time periods or ?no wipe? are programmable via wipespd . the wipe algorithm always works in horizontal and vertical direction. cpos coarse position reference corner of pip increasing posver increasing poshor d1 d0 0 0 upper left upper left down right 0 1 upper right upper right down left 1 0 lower left lower left up right 1 1 lower right lower right up left poshor posver poshor posver cpos='01' cpos='10' cpos='11' cpos='00'
sda 9489x sda 9589x system description micronas 4-30 preliminary data sheet figure 4-11 wipe display if wipespd is set accordingly, pipon controls the wipe operation. when pipon changes the wipe operation starts. during this period, the readable pipstat indicates the ongoing wipe-process. a transition of pipon from ?0? to ?1? triggers the wipe-in. the wipe-in process stops when the picture reaches its programmed size. when pipon changes from ?1? to ?0? the wipe-out starts. the wipe-out is finished when the pip picture vanishes. even for multi-picture display wipe operation is possible. a change of pipon or wipespd during wipe operation has only an effect after the wipe operation has been finished. 4.8 output signal processing 4.8.1 luminance peaking to improve picture sharpness, a peaking filter which amplifies higher frequencies of the input signal is implemented. the amount of peaking can be varied in seven steps by ypeak . the setting ?000? switches off the peaking. the value ?001? is recommended as this value provides a good compromise between sharpness impression and annoying aliasing. the characteristic for all possible settings is shown in fig. (4-12). the emphasized frequency depends on the adjusted decimation. the gain maximum is always located before the band-limit ensuring optimal picture impression. cpos='01' cpos='10' cpos='11' cpos='00' cpos='01' cpos='10' cpos='11' cpos='00' cpos='01' cpos='10' cpos='11' cpos='00' wipe in wipe out
micronas 4-31 sda 9489x sda 9589x system description preliminary data sheet figure 4-12 characteristics of selectable peaking factors (0.5 = band limit) coring should be switched on by ycor to reduce noise, which is also amplified when peaking is enabled. as the coring stage is in front of the peaking filter, 1 lsb noise will not be peaked. 4.8.2 rgb matrix the chip contains three different matrices, one suited for ebu standards, one suited for ntsc-japan and one suited for ntsc-usa, which are selected via mat . the signal outfor switches between yuv output or rgb output. the signal uvpolar inverts the u and v channels and results in y-u-v output. the standard magnitudes and angles of the color-difference signals in the uv-plane are defined as follows: table 4-18 rgb matrices characteristics the color saturation can be adjusted with satadj register in 16 steps between 0 and 1.875. values above 1.0 may clip the chrominance signals. mat magnitudes angles standard d1 d0 (b-y) (r-y) (g-y) (b-y) (r-y) (g-y) 0 0 2.028 1.14 0.7 0 90 236 ebu 0 1 2.028 1.582 0.608 0 95 240 ntsc (japan) 1 0 2.028 2.028 0.608 0 105 250 ntsc (usa) 1 1 (reserved) 0 0.1 0.2 0.3 0.4 0.5 0 1 2 3 4 5 6 7 8 9 10 normed fre q uenc y gain [db] ypeak = ?000? ypeak = ?001? ypeak = ?010? ypeak = ?011? ypeak = ?100? ypeak = ?101? ypeak = ?110? ypeak = ?111?
sda 9489x sda 9589x system description micronas 4-32 preliminary data sheet 4.8.3 frame generation and colored background with frsel a colored frame is added to the inset picture. the chip can display two different types of frames, one simple monochrome frame and a more sophisticated frame giving a three dimensional impression. figure 4-13 normal frame and 3d frame the frame elements are always placed outside the inset picture, except for the inner shade of three dimensional frame or inner frame in multi-pip mode. there is no shift of the inset picture position if the inset frame width is modified. figure 4-14 selectable picture configurations frame no frame color background no background color frame color shades no dark/light pip picture background picture character no character luminance frame color character background transparent char. background luminance semi-transparent
micronas 4-33 sda 9489x sda 9589x system description preliminary data sheet 4096 frame colors are programmable by fry , fru , and frv , 4 bits for each component. horizontal and vertical width of the frame are programmable independently by frwidh and frwidv . if desired, frame color is displayed over the whole pip size or whole picture size of the main channel when pipbg is set accordingly. 64 background colors are programmable by bgy , bgu , bgv , 2 bits for each component. alternatively bgfrc sets the background to frame color. 4.8.4 16:9 inset picture support to remove dark stripes at 16:9 inset pictures the vertical display area is shrinkable with vpsred . the number of omitted lines depends on the vertical decimation factor. table 4-19 number of lines without and with reduction of vertical picture size . figure 4-15 16:9 inset picture without and with reduction of vertical picture size 4.8.5 parent clock generation the phase of the output signals is locked to the rising edge of the horizontal sync pulse. the frequency varies in a certain range to ensure correct aspect ratio for 16:9 applications depending on hzoom . the horizontal and vertical scaling can be used for all display frequencies. vertical decimation factor displayed lines (50hz) displayed lines (50hz) with reduction displayed lines (60hz) displayed lines (60hz) with reduction 1 264 214 216 175 ... 644 35 36 29
sda 9489x sda 9589x system description micronas 4-34 preliminary data sheet table 4-20 format conversion using hzoom for variations of parental horizontal frequency (e.g. vcr), a digital correction of the position is useful to stabilize the picture ( poscor ). this circuit detects a varying parental line frequency and moves the picture to the place, where it would have been without this frequency deviation. the deviation is calculated once a field. 4.8.6 select signal for controlling an external rgb or yuv switch a select signal is supplied. the delay of this signal is programmable for adaptation to different external output signal processing devices ( seldel ). figure 4-16 select timing 4.8.7 automatic brightness reduction displaying a bright pip picture, the beamcurrent-limitation of the parent system may become active. this may cause the parent picture to be influenced by the inset picture. therefore a detection circuit reduces the brightness of the inset picture when the average brightness is above a selectable threshold. after bright picture content has disappeared, the initial brightness reappears. the threshold is adjustable via abrthd and the speed via abrspd . both settings have to be selected for parent system accordingly. display format inset picture format desired pip format required parent frequency value of hzoom d2 d1 d0 4:3 4:3 4:3 27 0 0 0 4:3 4:3 16:9 20.25 0 0 1 16:9 4:3 4:3 36 0 1 0 16:9 16:9 16:9 36 0 1 0 seldel pip signal outx sel frame picture
micronas 4-35 sda 9489x sda 9589x system description preliminary data sheet 4.9 on screen display (osd) 4.9.1 display format the on screen display allows to insert a block of 5 characters into each of the pip pictures. the characters are placed in a box (background) whose width is 64 pixels and height is 12 lines. this box is placed in the upper left corner of the pip picture. 64 different characters are stored in a character rom. each character is defined by a pixel matrix consisting of 10 lines and 12 pixels per line. a doubling of the character?s height and width is achieved by chrdhw . the osd starting position is not influenced. osd display is also possible if pip is switched off ( dispmod =?100011?). now 3 lines of 20 characters each are displayed at the pip position. figure 4-17 example of osd-only mode figure 4-18 example of transparent mode (normal and double size osd) 4.9.2 character programming the characters are programmed via i2c bus using a 7 bit code which is identical with the ascii code except for some of the special characters. the codes are stored in a character ram consisting of 60 cells. the character codes can be transmitted in two ways: each character position can be addressed separately by its 7 bit address or the characters can be written consecutively starting at an arbitrarily chosen position. in this case the address is increased automatically. the 7 bit address consists of two parts: the 4 msbs are used to chose one of the partial pictures and the 3 lsbs to select one of the 5 characters per block.
sda 9489x sda 9589x system description micronas 4-36 preliminary data sheet 4.9.3 character and character background color the character?s color is either same as frame color ( chrfrc ) or the character appears with a grey value programmable with chry . the character?s background box is influenced by chrbgon and chrbgy . it can be made transparent so that behind the characters the inset picture becomes visible. alternatively the semi-transparent mode can be chosen. at this mode the background box contains the original picture content with reduced luminance value. this mode offers a good trade-off between reduction of visible display area and character readability. 4.10 da-conversion and rgb / yuv switch sda 9589x and sda 9489x include three 7bit da-converters. brightness brtadj , contrast conadj and overall amplitude pklr , pklg , pklb of the output signal are adjustable. external rgb or yuv signals can be connected to the inputs in1...3. by forcing the fsw input to high-level these signals are switched to the outputs out1...3 while the internal signals are switched off. the fsw input signal is passed through to the sel output. the setting of rgbins determines wether an rgb insertion is possible and which source, the external picture or the pip, gets priority. figure 4-19 visualization of rgb/yuv insertion the external rgb or yuv signals are each clamped to the reference levels of the dacs to force uniform black levels in each channel. the clamping needs careful adjustment especially for vga applications. the position and the length of the blanking pulse as well as the clamping pulse are adjustable ( clppos, clplen) . if readd is set to ?1? (100hz mode), all pulses are shortened by one half. hzoom influences the adjustment range of osd rgb/vyu r/v g/y b/u fsw sel osd osd osd rgbins='10' pipon='1' rgbins='00' pipon='1' osd osd rgbin='1x' pipon='0' osd osd rgbins='11' pipon='1' xin xq hsp vsp sda scl vdd vss i2c int in1 in2 in3 fsw sel out3 out2 out1 vdda2 vssa2 vrefh vdda1 vssa1 cvbs3 vrefl cvbs2 vrefm cvbs1 pip iv
micronas 4-37 sda 9489x sda 9589x system description preliminary data sheet the clamping and blanking pulse because of the modified clock frequency, but the pulse length is kept nearly constant. figure 4-20 pip horizontal blanking timing table 4-21 pip horizontal blanking timing 4.10.1 pedestal level adjustment the pedestal level adjustment controlled by i 2 c signals blklr , blklg , blklb enables the correction of small offset errors, possibly appearing at the successive blanking stage of rgb processor. this adjustment has an effect on the setup level during the active line interval of each channel like the brightness adjustment but has an readd clpdel clplen a ( s) blanking start b ( s) blanking duration c ( s) clamping start d ( s) clamping duration d2 d1 d0 d1 d0 0 00000 -1.5 10.5 3 5 0 1 1 1 0 0 -11 10.5 -6.4 5 0 0 0 0 0 1 -1.5 7.9 2.2 3.8 0 1 1 1 0 1 -11.0 7.9 -7.3 3.8 1 0 0 0 0 0 -0.8 5.3 1.5 2.5 1 1 1 1 0 0 -5.5 5.3 -3.2 2.5 1 00001 -0.8 4 1.1 1.9 1 1 1 1 0 1 -5.5 4 -3.6 1.9 blankp hsp clampp a parent video allowed hsp range 256 t b d c
sda 9489x sda 9589x system description micronas 4-38 preliminary data sheet enhanced resolution of 0.5 lsb. the maximum possible offset amounts to 7.5 lsbs. in yuv mode ( outfor = ?1?) the action depends on the setting of blkinvr and blkinvb . if blkinvr ( blkinvb ) is active the offset applies to the blank level of the rv ( bu ) channel during the clamping interval for shifting the setup level to the negative direction. in rgb mode ( outfor = ?0?) blkinvr and blkinvb have no effect. 4.10.2 contrast, brightness and peak level adjustment the peak level adjustment modifies the magnitude of each channel separately. it should be used to adapt once the signal levels to the following stage. the contrast adjustment influences all three channels and allows a further increase of 30% of the peak level magnitude. the effect of the brightness adjustment depends on the selected output mode (rgb/yuv). in yuv mode it changes the offset of the out2 (y) signal only while in rgb mode it changes the offset of all three channels at the same time. the brightness increase is up to 20%. figure 4-21 pedestal level adjustment 64 outfor = ?1? (yuv mode) blklr = 0 blklr = 15 outfor = ?0? (rgb mode) 0 blklr = 15 blklb = 15 blklb = 0 blklb = 15 blklg = 15 blklr = 0 blklb = 0 blklg = 0 blkinvr = blkinvb = ?0? 64 blklr = 0 blklr = 15 blklb = 15 blklb = 0 blkinvr = blkinvb = ?1? out1, 3 out1, 3 out1 - 3
micronas 4-39 sda 9489x sda 9589x system description preliminary data sheet 4.11 data slicer depending on service , closed caption data (?line 21?) or wss (widescreen signalling) is sliced by the digital data slicer and can be read out from i 2 c interface. the line number of the sliced data is selectable with sellnr . therefore wss and cc can be processed in different regions (e.g. cc with pal m). the closed caption data is assumed to conform with the itu standards eia-608 and eia-744-a. wss data is assumed to conform with ets 300 294 (2nd edition, may 1996). 4.11.1 closed caption the closed caption data stream contains different data services. in field 1 (line 21) the captions cc1 and cc2 and the text pages t1 and t2 are transmitted whereas in field 2 (line 284) caption cc3, cc4, text t3, t4 and the xds data are transmitted. for more information please refer to the above mentioned standards. raw cc as well as prefiltered data is provided alternatively. with the built-in programmable xds-filter ( xdscls ), the program-rating information (?v-chip?) as well as others can be filtered out. the xds filter reduce traffic on the i 2 c bus and save calculation power of the main controller. if no class filter is selected, all incoming data (both fields) is sliced and provided by the i 2 c interface. when one or more class filters are chosen, only data in field 2 is sliced. any combination of class filters is allowed. each ?class? is divided into ?types? which can be sorted out by the xds-secondary filter ( xdstpe ). any combination of type filter is allowed. some type filter require an appropriate class filter. 4.11.2 widescreen signalling (wss) in wss mode ( service =?1?) no filtering is possible. all sliced data is passed to the output registers. in this case xdstpe selects the field number of the data to be sliced. in europe wss carries for instance information about aspect ratio and movie mode. 4.11.3 indication of new data the sliced and possibly filtered data is available in dataa and datab . the corresponding status bits are datav and slfield . when new data were received, datav becomes ?1? and the controller must read dataa , datab and the status information. after both data bytes were read datav becomes ?0? until new data arrives. it must be ensured that the data polling is activated once per field (16.7 or 20 ms) or every second field (33.3 or 40 ms), depending on the slicer configuration and inset field frequency. the field number of the data in dataa and datab can be found in slfield . if one or more xds-class filter are activated, slfield contains always ?1?. additionally pin 10 (int) may flag that new data is received. default this pin is in tri-state mo d e to b e c o mp a t ib l e w ith micronas' s d a938 8 x/93 8 9x pip d e vi c es. it can al s o be configured by irqcon to output a single short pulse when new data is available or behave equal to datav . in the last case the output remains active until the two data
sda 9489x sda 9589x system description micronas 4-40 preliminary data sheet registers dataa/datab are read. both modes are useful to avoid continous polling of the i2c bus. the micro-controller initiates i2c transfers only when required. figure 4-22 example in pseudo-code for reading the data 4.11.4 violence protection the rating information is sent in the program rating packet of the current (sometimes future) class in the xds data stream. if only this information is desired the corresponding xds filter (class 01h, type 05h) should be used to suppress other data. the class/packet bytes (0105h) precede the 2 bytes rating information. each sequence is closed by the end-of-packet byte (0fh) and a checksum. this checksum complements the byte truncated sum of all bytes to 00h. except comparison of the received rating with the adjusted user rating threshold the micro-controller should check the parity of each byte and validate the checksum to avoid miss-interpretation of wrong received data. the sda 9589x/sda 9489x offer some alternatives to blocking the pip channel completely by switching it off (fig. (4-23)). figure 4-23 possibilities of pip blocking the mosaic mode ( mosaic ) hides details of the picture by reduced sharpness and increased aliasing. the picture looks scrambled and is less perceptible. while (1){ i2c_read pip4_adr, status_reg_adr, status if (status & data_valid_mask) { i2c_read_inc pip4_adr, dataa_reg_adr, dataa, datab, status process_data dataa, datab, status } } ?blue screen? ?mosaic? ?warning message? this program contains violent scenes
micronas 5-41 sda 9489x sda 9589x application examples preliminary data sheet 5 application examples the f o ll o w i ng t w o f i gur e s s h ow 100 / 12 0 hz ap p lic a t i o ns w ith the micronas f e atur e box sda 9400/01. as the chip supports two i2c addresses and owns a rgb switch dual-pip applications are easy to implement. the arrangement for best possible performance is shown in the fig. (5-1). figure 5-1 sda 9589x application with insertion in front of the featurebox the output of two ?sophisticus? are connected to the yuv (or rgb) input of the video processor of the main channel. due to the 4:2:2 processing within the sda 9400 the inset picture remains brilliant. figure 5-2 sda 9589x application with insertion behind the featurebox connecting the sda 9589x/sda 9489x directly to the rgb input of the rgb processor is possible as well. one picture is generated from sda 9589x/sda 9489x device, the other one from the featurebox. this cheap implementation preserves the chroma of inset channel at its full bandwidth, although frame mode is only possible for pip pictures cvbs (y/c, yuv) cvbs (y/c) sda9589x sda9589x analog / digital frontend featurebox i.e.sda 9400 yuv 2h in1-3 in1-3 out1-3 out1-3 hsp/vsp hsp/vsp yuv 1h h/v 2h h/v 1h backend i.e. sda9380 additional 1f h source additional 2f h sources sda 9400 sda9589x i2c i2c +3.3v sda9589x cvbs (y/c, yuv) sda9589x sda9589x cvbs (y/c, yuv) cvbs (y/c) analog / digital frontend featurebox i.e. sda 9400 yuv 2h yuv 1h h/v 2h h/v 1h backend i.e. sda9380 sda9589x in1-3 out1-3 hsp/vsp additional 2f h sources sda 9400 sda9589x i2c sda9400 sda9589x
sda 9489x sda 9589x application examples micronas 5-42 preliminary data sheet smaller than 1/9. the output of an osd/text processor may be fed to the rgb switch of the sda 9589x/sda 9489x.
micronas 6-43 sda 9489x sda 9589x i2c bus preliminary data sheet 6i 2 c bus 6.1 i 2 c bus address table 6-1 primary address (pin 9=?low-level?) table 6-2 secondary address (pin 9 = ?high-level?) 6.2 i 2 c-bus format write operation is possible at registers 00h-21h only, read operation is possible at registers 28, 2ah-2ch only. an automatic address increment function is implemented. write address1 11010110 (d6h) read address1 11010111 (d7h) write address2 11011110 (deh) read address2 11011111 (dfh) write s 1101x110 a subaddress a data byte a **** a p read s 1101x110 a subaddress a sr 1101x111 a data byte n na p s: start condition / sr repeated start condition / a: acknowledge / p: stop condition / na: no acknowledge
sda 9489x sda 9589x i2c bus micronas 6-44 preliminary data sheet 6.3 i 2 c bus command table subadd (hex) data byte d7 d6 d5 d4 d3 d2 d1 d0 00h pipon cpos1 cpos0 yuvsel readd progen fiesel1 fiesel0 01h poshor7 poshor6 poshor5 poshor4 poshor3 poshor2 poshor1 poshor0 02h posver7 posver6 posver5 posver4 posver3 posver2 posver1 posver0 03h vfp3 vfp2 vfp1 vfp0 hfp3 hfp2 hfp1 hfp0 04h dispstd1 dispstd0 freeze mosaic sizehor1 sizehor0 sizever1 sizever0 05h fpstd1 fpstd0 pipbg1 pipbg0 fmactp hzoom2 hzoom1 hzoom0 06h hspinv vspinv vspnsrq vspdel4 vspdel3 vspdel2 vspdel1 vspdel0 07h frsel infrm vpsred frwidh2 frwidh1 frwidh0 frwidv1 frwidv0 08h rgbins1 rgbins0 verblk seldown seldel3 seldel2 seldel1 seldel0 09h poscor dispmod1 dispmod0 clpdel4 clpdel3 clpdel2 clpdel1 clpdel0 0ah agcres agcmd1 agcmd0 agcval3 agcval2 agcval1 agcval0 nosigb 0bh cvbsel1 cvbsel0 clmpid1 clmpid0 clmpist1 clmpist0 lmofst1 lmofst0 0ch pllitc1 pllitc0 nsred1 nsred0 ycdel3 ycdel2 ycdel1 ycdel0 0dh cstand2 cstand1 cstand0 cstdex1 cstdex0 locksp ckill1 ckill0 0eh bgpos scmidl0 deemp1 deemp0 colon accfix chrbw1 chrbw0 0fh ifcomp1 ifcomp0 hue5 hue4 hue3 hue2 hue1 hue0 10h satnr fmacti cpllof scadj4 scadj3 scadj2 scadj1 scadj0 11h conadj3 conadj2 conadj1 conadj0 blklr3 blklr2 blklr1 blklr0 12h brtadj3 brtadj2 brtadj1 brtadj0 blklg3 blklg2 blklg1 blklg0 13h triout refint blkinvr blkinvb blklb3 blklb2 blklb1 blklb0 14h pklr7 pklr6 pklr5 pklr4 pklr3 pklr2 pklr1 pklr0 15h pklg7 pklg6 pklg5 pklg4 pklg3 pklg2 pklg1 pklg0 16h pklb7 pklb6 pklb5 pklb4 pklb3 pklb2 pklb1 pklb0
micronas 6-45 sda 9489x sda 9589x i2c bus preliminary data sheet after power on the grey marked data bits are set to '1', all other to ?0?. 17h mat1 mat0 bgy1 bgy0 fry3 fry2 fry1 fry0 18h outfor uvpolar bgu1 bgu0 fru3 fru2 fru1 fru0 19h (reserved) bgfrc bgv1 bgv0 frv3 frv2 frv1 frv0 1ah satadj3? satadj2 satadj1 satadj0? ypeak2 ypeak1 ypeak0 ycor 1bh xdscls4 xdscls3 xdscls2 xdscls1 xdscls0 xdstpe2 xdstpe1 xdstpe0 1ch uvseq mpipbg service sellnr1 sellnr0 irqcon2 irqcon1 irqcon0 1dh (reserved) (reserved) (reserved) (reserved) (reserved) pipblk palidl1 palidl0 1eh posofv2 posofv1 posofv0 posofh4 posofh3 posofh2 posofh1 posofh0 1fh (reserved) (reserved) (reserved) vshrnk4 vshrnk3 vshrnk2 vshrnk1 vshrnk0 20h (reserved) (reserved) (reserved) hshrnk4 hshrnk3 hshrnk2 hshrnk1 hshrnk0 21h (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) clplen1 clplen0 22h piphlt abrthd3 abrthd2 abrthd1 abrthd0 abrspd2 abrspd1 abrspd0 23h infrmod dispmod6 dispmod5 dispmod4 dispmod3 dispmod2 wipesp1? wipesp0 24h czmen czmsp1 czmsp0 (reserved) wrpos3 wrpos2 wrpos1 wrpos0 25h chrfrc chrdhw chry1 chry0 chrbgy1 chrbgy0 chrbgon 1 chrbgon 0 26h osdon chradr6 chradr5 chradr4 chradr3 chradr2 chradr1 chradr0 27h chrclr chrcod6 chrcod5 chrcod4 chrcod3 chrcod2 chrcod1 chrcod0 28h frmmd pipstat syncst1 syncst0 ckstat stdet2 stdet1 stdet0 29h (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) 2ah dataa7 dataa6 dataa5 dataa4 dataa3 dataa2 dataa1 dataa0 2bh datab7 datab6 datab5 datab4 datab3 datab2 datab1 datab0 2ch device1 device0 prnstd palid datav slfield subadd (hex) data byte d7 d6 d5 d4 d3 d2 d1 d0
sda 9489x sda 9589x i2c bus micronas 6-46 preliminary data sheet 6.4 i 2 c bus command description subaddress 00h pipon pip on d7 switches the pip insertion on 0 pip insertion off 1 pip insertion on cpos coarse position d6 d5 coarse positioning of the picture 0 0 upper left position 0 1 upper right position 1 0 lower left position 1 1 lower right position yuvsel yuv select d4 select yuv mode 0 cvbs or y/c source 1 yuv source readd read double mode d3 double read frequency for compatibility with systems that use 2fh (e.g.100 hz, progressive) 0 pip display with single read frequency and 2x oversampling 1 pip display with double read frequency
micronas 6-47 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 01h subaddress 02h progen progressive scan enable d2 for compatibility with progressive scan systems 0 each line of pip is read once (normal operation) 1 each line of pip is read twice (line doubling operation) fiesel field select d1 d0 set field or frame display mode 0 0 frame mode (if possible) 0 1 field mode (first field only) 1 0 field mode (second field only) 1 1 field mode (one of both) poshor horizontal picture position d7-d0 horizontal position adjustment of the pip in steps of 4 pixel shift direction depends on the coarse positioning of the picture posver vertical picture position d7-d0 vertical position adjustment of the pip in steps of 1 lines shift direction depends on the coarse positioning of the picture
sda 9489x sda 9589x i2c bus micronas 6-48 preliminary data sheet subaddress 03h subaddress 04h hfp horizontal fine positioning d7 d6 d5 d4 changes the position of the horizontal acquisition window by steps of 2 pixel note 1000-16 pixel (-0.8 s), most right position of the image values refer to the undecimated picture .. 00000 pixel, nominal center position .. 0111+14 pixel (0.7 s), most left position vfp vertical fine positioning d3 d2 d1 d0 changes the position of the vertical acquisition window by steps of 1 line note 1000-8 lines, most upper position of the imagevalues refer to the undecimated picture .. 00000 lines, nominal center position .. 0111+7 lines, most lower position dispstd display standard d7 d6 selects the line standard of pip display 0 0 pip depends on detected parent standard (multi pip) or inset standard (single pip) 0 1 pip display is always in 625 line mode 1 0 pip display is always in 525 line mode 1 1 freeze last detected display standard and size
micronas 6-49 sda 9489x sda 9589x i2c bus preliminary data sheet freeze freeze picture d5 interrupts the inset picture writing and displays still picture 0 live picture 1 still picture mosaic mosaic mode d4 hides picture details, intended for use with parental control 0 mosaic mode off 1 mosaic mode on sizehor horizontal size d3 d2 horizontal decimation 0 0 reduction = 2 0 1 reduction = 3 1 0 reduction = 4 1 1 reduction = 6 sizever vertical size d1 d0 vertical decimation 0 0 reduction = 2 0 1 reduction = 3 1 0 reduction = 4 1 1 reduction = 6
sda 9489x sda 9589x i2c bus micronas 6-50 preliminary data sheet subaddress 05h fpstd force parent standard d7 d6 forces the parent standard to one of the following modes 0 0 auto-detect parent standard 0 1 50hz/625 lines parent standard forced 1 0 60hz/525 lines parent standard forced 1 1 freeze last detected standard pipbg pip background display d5 d4 selects the background display 0 0 pip visible, no background display 0 1 pip invisible, background display in pip 1 0 pip visible, full screen background display 1 1 pip invisible, background display in pip and full screen background fmactp frame mode activation parent d3 selects the parent condition for the activation of the frame mode 0 frame mode active for standard parent video sources only 1 frame mode active for some nonstandard sources also hzoom horizontal zoom d2 d1 d0 selects the parent (display) clock frequency 0 0 0 27.34 mhz 0 0 1 20.25 mhz 0 1 0 35.27 mhz 0 1 1 25.43 mhz 1 0 0 26.67 mhz 1 0 1 20.63 mhz 1 1 0 34.17mhz 1 1 1 28.04 mhz
micronas 6-51 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 06h subaddress 07h hspinv horizontal sync pulse inversion d7 inverts the polarity of hsp 0 no inversion, raising edge is sync reference 1 hsp inverted, falling edge is sync reference vspinv vertical sync pulse inversion d6 inverts the polarity of vsp 0 no inversion, raising edge is sync reference 1 vsp inverted, falling edge is sync reference vspnsrq vertical sync pulse noise reduction d5 activates automatic v insertion that generates vertical sync pulses in case of missing external vsp 0on 1off vspdel vertical sync pulse delay d4 d3 d2 d1 d0 delay of the vertical sync pulse in steps of 128 parent clocks note 00000no delay (0) delay depends on hzoom ... 11111maximum delay, 4096 clocks of parent frequency frsel frame select d7 selects between the normal frame and the shaded frame 0normal frame 1 shaded frame with 3d impression
sda 9489x sda 9589x i2c bus micronas 6-52 preliminary data sheet subaddress 08h infrm inner frame activation d6 actives inner frame (4 pixel width, 2 lines height) for multi-pip display 0 inner frame off 1 inner frame on vpsred vertical picture size reduction d5 reduces vertical picture size to suppress black bars in 16:9 programs 0 no reduction 1 reduction on frwidh frame width horizontal d4 d3 d2 adjusts the horizontal width of the pip frame in steps of one pixel 0 0 0 no horizontal frame ... 1117 pixel frwidv frame width vertical d1 d0 adjusts the vertical width of the pip frame in steps of one line 0 0 no vertical frame ... 1 1 3 lines rgbins rgb insertion d7 d6 controls the insertion of external rgb/yuv sources 0 0 no external insertion possible, fsw input inactive 0 1 external insertion forced (fsw = 1) 1 0 external insertion with fsw possible (priority of fsw input) 1 1 external insertion with fsw possible (priority of pip)
micronas 6-53 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 09h verblk vertical blanking d5 switches the vertical blanking mode 0 blanking level at dac outputs only during line-blanking intervals 1 blanking level at dac outputs during line-blanking intervals and field- blanking intervals, 16 lines following the parent vertical synchronization pulse are blanked seldown select down d4 switches the driver type at the output of the sel pin 0 open source output 1 ttl output seldel select delay d3 d2 d1 d0 adjusts the delay of select signal 1 0 0 0 -8 clock periods of display clock .. 0 0 0 0 0 clock periods of display clock .. 0 1 1 1 +7 clock cycles of display clock poscor position correction d7 activates correction of display position 0 position correction disabled 1 position correction enabled
sda 9489x sda 9589x i2c bus micronas 6-54 preliminary data sheet subaddress 0ah dispmod display mode d6 d5 selects display modes with equal pictures 0 0 single pip mode 0 1 3 x1/9 pip (same content) 1 0 4 x1/16 pip (same content) 1 1 (reserved) clpdel clamping delay d4 d3 d2 d1 d0 delay of the clamping pulse for the external rgb/yuv inputs in steps of 8 parent clock periods 0 0 0 0 0 no delay (0) ... 1 1 1 1 1 maximum delay, 256 clock periods of parent frequency agcres automatic gain control reset d7 resets agc 0 normal operation 1 reset of agc agcmd agc mode d6 d5 controls the agc operation 0 0 evaluation of sync height and adc overflow 0 1 evaluation of sync height only 1 0 evaluation of adc overflow only 1 1 agc fixed (gain depends on agcval)
micronas 6-55 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 0bh agcval automatic gain control value d4 d3 d2 d1 agc value for fixed mode (agcmd=?11?) 0 0 0 0 input voltage 0.5 vpp .. 1 0 0 0 input voltage 1 vpp .. 1 1 1 1 input voltage 1.5 vpp nosigb no signal behavior d0 controls behavior if synchronization is not possible (no source applied) 0 noisy picture 1 colored background cvbsel cvbs select d7 d6 select cvbs source 0 0 cvbs1 0 1 cvbs2 1 0 y/c (y@cvbs2 / c@cvbs3) 1 1 cvbs3 clmpid clamping duration d5 d4 adjusts duration of clamping pulse for adc (inset channel) 000.5 s 010.9 s 101.2 s 111.5 s
sda 9489x sda 9589x i2c bus micronas 6-56 preliminary data sheet subaddress 0ch clmpist clamping pulse start d3 d2 adjusts delay of clamping pulse for adc refered to the horizontal sync 001.0 s 011.5 s 102.0 s 112.5 s lmofst luminance offset d1 d0 modifies black to blank level offset 0 0 no offset 0 1 offset of 16 lsb 1 0 offset of -8 lsb 1 1 offset of -16 lsb pllitc inset pll time constant d7 d6 switches the time constant of the inset pll 0 0 vcr1 (very fast) 01vcr2 10tv1 1 1 tv2 (very slow) nsred noise reduction inset pll d5 d4 selects the level of noise reduction note 0 0 noise reduction disabled 0 1 weak noise reduction may cause trouble for vcr signals 1 0 heavy noise reduction 1 1 medium noise reduction
micronas 6-57 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 0dh ycdel y/c delay d3 d2 d1 d0 adjusts the delay between luminance and chrominance 1 0 0 0 -8 pixel (-0.4 s with respect to undecimated picture) .. 0000 0 pixel .. 0 1 1 1 +7 pixel (0.35 s) cstand color standard d7 d6 d5 forces the desired color standard 0 0 0 automatic standard identification 001ntsc-m 0 1 0 pal-n (argentina) 011pal-m 100ntsc44 1 0 1 pal-b/g/h/i/d 1 1 0 secam 111pal60 cstdex color standard exclusion d4 d3 excludes standards from automatic standard identification 0 0 ignore pal-m / pal-n 0 1 ignore secam, pal b/g, pal60, ntsc4.4 1 0 ignore pal-m /pal-n / ntsc-m 1 1 ignore pal-m / pal-n / ntsc4.4 / pal60 locksp standard identification speed d2 sets the speed of the color standard recognition 0 medium 1fast
sda 9489x sda 9589x i2c bus micronas 6-58 preliminary data sheet subaddress 0eh ckill color killer threshold d1 d0 damping of color carrier to switch color off note 0 0 -30 db only valid if color killer active (colon=?0?), values are approximative 0 1 -18 db 1 0 -24 db 1 1 color always off bgpos burst gate position d7 adjusts position of burst gate (secam only) 0 normal position 10.5 s delayed scmidl secam identification level d6 changes secam identification sensitivity 0 default 1 enhanced deemp deemphase selection d5 d4 adjusts secam deemphase filter 00filter1 0 1 itu recommendation 10filter2 11filter3 colon color on d3 disable color killer 0 color killer active 1 color forced on
micronas 6-59 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 0fh accfix disable automatic chroma control d2 disables the automatic chroma control (acc) 0 acc active 1 acc fixed (acc set to nominal value) chrbw chroma bandwidth d1 d0 pal secam remark 0 0 wide small adjusts chroma bandwidth 0 1 medium medium 1 0 reserved 11small wide ifcomp if-compensation filter d7 d6 equalizes the if-stage characteristic 0 0 no filtering 0 1 chroma bandpass active 1 0 if-compensation bandpass (6db/octave) 1 1 reserved hue hue control d5 d4 d3 d2 d1 d0 phase of color subcarrier for ntsc remark 1 0 0 0 0 0 -44.8 skin color becomes greenish .. 0000000 .. 0 1 1 1 1 1 43.4 skin color becomes redish
sda 9489x sda 9589x i2c bus micronas 6-60 preliminary data sheet subaddress 10h subaddress 11h satnr satellite noise reduction d7 stabilizes the horizontal pll for bad satellite signals (?fishes?) 0 disabled 1 enabled fmacti frame mode activation inset d6 sets the inset condition for the activation of the frame mode 0 frame mode only active for standard inset video sources 1 enhanced frame mode activation range cpllof chroma pll off d5 opens loop of chroma pll (only for test and servicing) 0 chroma pll active 1 chroma pll opened (free running oscillator) scadj color subcarrier adjustment d4 d3 d2 d1 d0 color subcarrier frequency fine adjustment 0 0 0 0 0 max. negative deviation (-150 ppm) ... 0 0 1 1 1 default (for nominal crystal frequency ... 1 1 1 1 1 max. positive deviation (+310 ppm) conadj contrast adjustment d7 d6 d5 d4 adjusts the contrast of the picture, acts on out1-out3 0000nominal contrast .. 1111+30% contrast increase
micronas 6-61 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 12h subaddress 13h blklr blanking level red d3 d2 d1 d0 adjusts the pedestal level of the out1 channel in steps of 0.5lsb 0 0 0 0 no pedestal .. 1 1 1 1 +7.5lsb offset brtadj brightness adjustment d7 d6 d5 d4 adjusts the brightness of the picture, acts on out1-out3 in rgb mode (yuvfor = ?0?) and on out1 in yuv mode (yuvfor = ?1?) 0 0 0 0 nominal brightness .. 1 1 1 1 +20% brightness increase blklg blanking level green d3 d2 d1 d0 adjusts the pedestal level of the out2 channel in steps of 0.5lsb 0 0 0 0 no pedestal .. 1 1 1 1 +7.5lsb offset triout tristate output d7 sets out1-out3 to tristate mode (high resistance) 0 normal operation, outputs are active 1 pins out1-3 are in tri-state mode
sda 9489x sda 9589x i2c bus micronas 6-62 preliminary data sheet refint refresh intervall d6 changes the refresh rate of edram note 0 normal refresh let it to this default value 1 fast refresh blkinvr blanking inversion red d5 inverts the sign of the out1 channel offset (blklr) 0 offset added during the active picture 1 offset added during blanking blkinvb blanking inversion blue d4 inverts the sign of the out3 channel offset (blklb) 0 offset added during the active picture 1 offset added during blanking blklb blanking level blue d3 d2 d1 d0 adjusts the pedestal level of the out3 channel in steps of 0.5lsb 0000no pedestal .. 1111+7.5lsb offset
micronas 6-63 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 14h subaddress 15h pklr peak level red d7 d6 d5 d4 d3 d2 d1 d0 peak to peak output voltage of the out1 channel note 000000000.3 v pp values refer to contrast (conadj) and brightness (brtadj) at minimum ... 110000001 v pp ... 111111111.2 v pp pklg peak level green d7 d6 d5 d4 d3 d2 d1 d0 peak to peak output voltage of the out2 channel note 000000000.3 v pp values refer to contrast (conadj) and brightness (brtadj) at minimum ... 110000001 v pp ... 111111111.2 v pp
sda 9489x sda 9589x i2c bus micronas 6-64 preliminary data sheet subaddress 16h subaddress 17h pklb peak level blue d7 d6 d5 d4 d3 d2 d1 d0 peak to peak output voltage of the out2 channel note 000000000.3 v pp values refer to contrast (conadj) and brightness (brtadj) at minimum ... 110000001 v pp ... 111111111.2 v pp mat rgb matrix select d7 d6 selects the rgb matrix coefficients for yuv to rgb conversion 0 0 ebu- matrix 0 1 ntsc-japan matrix 1 0 ntsc-usa matrix 1 1 (reserved) bgy background color y d5-d4 adjusts the y background color component the values gives the two msbs of the y background signal fry frame color y d3-d0 adjusts the y frame color component the value gives the 4 msbs of the y frame signal
micronas 6-65 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 18h subaddress 19h outfor output format d7 switches between rgb output and yuv output 0 rgb output signals, matrix active 1 yuv output signals uvpolar uv polarity d6 switches between uv or inverted uv output, has no influence in rgb mode 0 +u / +v output 1 -u / -v output bgu background color u d5-d4 adjusts the u background color component the values gives the two msbs of the u background signal fru frame color u d3-d0 adjusts the u frame color component the value gives the 4 msbs of the u frame signal bgfrc background frame color d6 selects background color table or frame color table for background color 0 background color according to bgy, bgu, bgv 1 background color according to fry, fru, frv
sda 9489x sda 9589x i2c bus micronas 6-66 preliminary data sheet subaddress 1ah bgv background color v d5-d4 adjusts the v background color component the values gives the two msbs of the v background signal frv frame color v d3-d0 adjusts the v frame color component the value gives the 4 msbs of the v frame signal satadj color saturation adjustment d7 d6 d5 d4 adjusts the color saturation in steps of x/8 0000no color .. 1000nominal saturation .. 11111.875 times saturation ypeak y peaking adjustment d3 d2 d1 adjusts luminance peaking 0 0 0 no peaking 0 1 1 recommended value 1 1 1 strongest peaking ycor y coring enable d0 suppresses noise introduced by peaking 0 coring off 1 1lsb coring
micronas 6-67 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 1bh subaddress 1ch xdscls xds class select d7 d6 d5 d4 d3 closed caption xds-primary filter (class) 00000transparent, no filtering 1xxxx?current? class selected x 1 x x x ?future? class selected x x 1 x x ?channel? class selected x x x 1 x ?miscellaneous? class selected xxxx1?public services? class selected xdstpe xds type select/wss field select d2 d1 d0 xds-secondary filter type meaning wss field note 0 0 0 all no filtering 0 behavior of these bits depends on selected data- service 0 0 1 05h program rating 1 0 1 0 01h, 04h time information only 0/1 0 1 1 40h out of band only 0/1 1 0 0 01h, 02h, 03h, 04h, 0dh, 40h vcr information 0/1 1 0 1 01h, 04h, 05h time information and program rating 0/1 1 1 0 05h, 40h out of band and program rating 0/1 1 1 1 01h, 02h, 03h, 04h, 05h, 0dh, 40h vcr information and program rating 0/1 uvseq uv sequence d7 changes the uv multiplex sequence remark 0 u and v are correct valid only if yuvsel =?1? 1 u and v are exchanged
sda 9489x sda 9589x i2c bus micronas 6-68 preliminary data sheet mpipbg multi-pip background d6 selects the background color for multi-pip mode 0black 1 same as background color service data service select d5 selects data service for slicing 0closed caption 1 widescreen signalling (wss) sellnr select line number d4 d3 line number of data service field 0 (field1) remark 0 0 [ntsc] 20 (283), [pal m] 17 (280) wss 0 1 [ntsc] 21 (284), [pal m] 18 (281) closed caption 1 0 [pal b/g] 22 (329) closed caption 1 1 [pal b/g] 23 (330) wss irqcon interrupt request pin configuration d2 d1 d0 output of int pin is: remark 0 0 0 tri-state (high-z) 0 0 1 interrupt, when new data received (neg. polarity) pulse length is approximately 2 s 0 1 0 interrupt, when new data received (pos. polarity) 0 1 1 equivalent to datav for both registers (neg. polarity) 1 0 0 equivalent to datav for both registers (pos. polarity) 1 0 1 inset v-pulse (neg. polarity) pulse length is 50ns 1 1 0 inset field high = first field, low = second field, 1 1 1 inset clamping pulse (neg. polarity) only for test purpuse
micronas 6-69 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 1d subaddress 1eh pipblk pip blank d2 blanks the current picture by setting it to background color 0 no blank 1 blanks the current selected ( wrpos ) pip palidl pal id level d1 d0 sensitivity of identification of pal/ntsc signals 0 0 high rejection of pal/ntsc .. 1 1 low rejection of pal/ntsc posofv position offset vertical d7 d6 d5 vertical position offset in steps of 4 lines 100-16 lines ... 0000 lines ... 0 1 1 +12 lines posofh position offset horizontal d4 d3 d2 d1 d0 horizontal position offset in steps of 16 pixel 10000-256 pixel ... 000000 pixel ... 01111+240 pixel
sda 9489x sda 9589x i2c bus micronas 6-70 preliminary data sheet subaddress 1fh subaddress 20h subaddress 21h vshrnk vertical shrink d4 d3 d2 d1 d0 changes the vertical size in steps of 2 lines note 0 0 0 0 0 no shrink, picture size according to sizever max. usable value depends on sizever ... 11111max. possible shrink hshrnk horizontal shrink d4 d3 d2 d1 d0 changes the horzontal size in steps of 4 pixel note 00000no shrink, picture size according to sizehor max. usable value depends on sizever ... 11111max. possible shrink clplen clamping pulse length d1 d0 clamping pulse length blanking duration note 0 0 5us 10.5us the clamping pulse length and the blanking is also influenced by the setting of readd and hzoom 0 1 3.75us 7.9us 1 0 2.5us 5.2us 1 1 1.25us 2.6us
micronas 6-71 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 22h subaddress 23h piphlt pip highlighting d7 highlights the current selected (wrpos) pipr 0 no highlighting 1 highlighting the pip abrthd automatic brightness reduction threshold d6 d5 d4 d3 threshold adjustment for reduction of luminance magnitude 0000abr off 0 0 0 1 abr threshold at luminance value of 240 .. 1 1 1 1 abr threshold at luminance value of 180 abrspd automatic brightness reduction speed d2 d1 d0 speed adjustment for reduction of luminance magnitude 0 0 0 2 fields ... 1 1 1 16 fields infrmod inner frame modification d7 modifies the look of the frame for dual-pip applications 0 inner frame suited for usage of single sda 9589x/9489x applications 1 inner frame suited for usage of dual sda 9589x/9489x applications
sda 9489x sda 9589x i2c bus micronas 6-72 preliminary data sheet subaddress 24h dispmod display mode d6 d5 d4 d3 d2 selects the single pip modes, multi- pip modes or double-window mode note 00000single pip mode see table 4- 11 for description of modes ... 1 0 1 0 osd only mode wipesp wipe speed d1 d0 selects the period for opening/closing the pip window 0 0 wipe off 0 1 1/3 second 1 0 2/3 second 1 1 1 second czmen continuos zoom enable d7 controls the update of the picture size 0 delayed execution of hdec/vdec/hshrnk/vshrnk update 1 picture size will be updated czmsp continuos zoom speed d6 d5 speed setting for continous zooming note 0 0 no zoom 1 step means 20 pixel and 8 lines (pal) or 6 lines (ntsc) decrement or increment 0 1 1 step per 1 fields 1 0 1 step per 2 fields 1 1 1 step per 4 fields
micronas 6-73 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 25h wrpos write position d3 d2 d1 d0 position of the current written picture note 0 0 0 0 first writing position = first picture number of last valid writing position depends on display mode ( dispmod ) 0 0 0 1 second writing position .. 1 0 0 1 maximum writing position chrfrc character frame color d7 modifies the character color 0 character luminance table used 1 frame color table used chrdhw character double height and width d6 doubles the characters? height and width 0 normal height and width 1 double height and width chry character luminance d5 d4 character luminance level (ire) note 0 0 60 valid only if chrfrc = ?0?, character chrominance is 0 ire 0170 1080 1190
sda 9489x sda 9589x i2c bus micronas 6-74 preliminary data sheet subaddress 26h chrbgy character background luminance d3 d2 character background luminance level (ire) 0010 0120 1030 1140 chrbgon character background on d1 d0 defines the characters? background note 0 0 no character background (transparent mode) 0 1 character background (dependent on chrbgy) 1 0 semi-transparent mode (black&white) not possible in case of active background in pip 1 1 semi-transparent mode (colored) osdon osd on d7 switches osd on 0osd off 1osd on
micronas 6-75 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 27h subaddress 28h chradr character address d6 d5 d4 d3 d2 d1 d0 no. picture no. character note 0000000 0 0 will be auto- incremented with every write access to chrcod 0000001 0 1 ... ... ... 0000100 0 4 0001001 1 1 ... ... ... 1011100 11 4 chrclr character clear d7 resets all characters to ?blank? character 0 no blank 1 character reset chrcod character code d6-d0 character code, see appendix frmmd frame mode indication d7 pip displays field or frame mode 0 field mode, one field is repeated twice 1 frame mode, both fields are displayed
sda 9489x sda 9589x i2c bus micronas 6-76 preliminary data sheet pipstat pip status d6 indication of visibility of pip, corresponds to pipon 0 pip off 1 pip on syncst inset synchronization status d5 d4 inset synchronization pll is 0 0 not locked to cvbs signal 01 1 0 locked to cvbs signal (60 hz) 1 1 locked to cvbs signal (50 hz) ckstat color killer status d3 chroma is 0off 1on stdet standard detection d2 d1 d0 detected color standard 0 0 0 nonstandard or standard not detected 001ntsc-m 0 1 0 pal-m 011ntsc44 1 0 0 pal60 1 0 1 pal-n 1 1 0 secam 1 1 1 pal-b/g
micronas 6-77 sda 9489x sda 9589x i2c bus preliminary data sheet subaddress 2ah subaddress 2bh subaddress 2ch dataa first data byte d7-d0 first word of sliced data, d7 = msb, d0 = lsb datab second data byte d7-d0 second word of sliced data, d7 = msb, d0 = lsb device device identification d5 d4 micronas pip ic 0 0 sda 9488x (pip iv basic) 0 1 sda 9489x (pip iv advanced) 1 0 sda 9588x (octopus) 1 1 sda 9589x (sophisticus) prnstd parent standard detection d3 status of parent (display) standard detection 0 60hz field frequency detected 1 50hz field frequency detected palid pal identification d2 identification of pal signal note 0 ntsc signal not valid if stdet= ?000? 1 pal signal
sda 9489x sda 9589x i2c bus micronas 6-78 preliminary data sheet datav data valid d1 new data indication, used for data flow control (polling mode) 0 data read via i 2 c or no data available 1 new data received and available in dataa and datab slfield sliced data field number d0 dataa and datab are from 0 first field 1 second field
micronas 7-79 sda 9489x sda 9589x pin description preliminary data sheet 7 pin description pin schematic remark 1 (xin) 2 (xq) crystal oscillator, input can be used for external clocking 3 (hsp) 4 (vsp) schmitt-trigger input with high hysteresis, for best jitter performance use pulses with steep slopes 5 (sda) 6 (scl) low-side driver not used for scl, slope of acknowledge is limited 9 (i2c) i2c address selection, only static switch supported xin xq vdd vdd vdd hsp vsp vdd sda scl vdd slope control i2c vdd
sda 9489x sda 9589x pin description micronas 7-80 preliminary data sheet 10 (int) 11 12 13 (in1 in2 in3) clamped rgb/yuv video inputs, if not used let open or connect with 10nf to ground 14 (fsw) fast switch input 15 (sel) low-side driver can be disabled (open source mode) pin schematic remark int vdd in1 in2 in3 vdd + - v cl fsw vdd sel vdd
micronas 7-81 sda 9489x sda 9589x pin description preliminary data sheet 16 (out3) 17 (out2) 18 (out1) rgb/yuv video outputs 21 (vrefh) 25 (vrefl) 27 (vrefm) reference voltage for adc and dac 24 (cvbs3) 26 (cvbs2) 28 (cvbs1) clamped video inputs pin schematic remark o ut1 o ut2 o ut3 vdd + - vrefh vdd vdd vdd vrefm vrefl cvbs1 cvbs2 cvbs3 vdd vdd
sda 9489x sda 9589x absolute maximum ratings micronas 8-82 preliminary data sheet 8 absolute maximum ratings all voltages listed are referenced to ground (0v, v ss ) except where noted. stresses above those listed here may cause permanent damage to the device. exposure to absolute maximum rating conditions for extended periods may affect device reliability. maximum ratings are absolute ratings; exceeding only one of these values may cause irreversible damage to the integrated circuit. parameter symbol limit values unit remark min. max. ambient temperature t a 070c storage temperature t stg -55 125 c junction temperature t j 125 c soldering temperature t sold 260 c duration <10s input voltage v i -0.3v v dd +0.3v 1 except sda, scl, hsp, vsp v i -0.3 5.5 v sda, scl, hsp, vsp only output voltage v q -0.3v v dd +0.3v 1 except sda v q -0.3 5.5 v sda only supply voltages v dd -0.3 3.6 v supply voltage differentials -0.25 0.25 v total power dissipation p tot 0.86 w latch-up protection i lu -100 100 ma esd robustness v esd,hbm -2000 2000 v hbm: 1.5k , 100pf
micronas 9-83 sda 9489x sda 9589x recommended operating range preliminary data sheet 9 recommended operating range parameter symbol limit values unit remark min. typ. max. supply voltages v ddxx 3.15 3.3 3.45 v ambient temperature t a 0 25 70 c main horizontal / vertical sync inputs: vsp, hsp hsp signal frequency f ph 15.000 15.625 16.250 khz 1f h mode hsp signal frequency f p2h 30.000 31.250 32.500 khz 2f h mode hsp signal frequency f p2h 11.7 25.2 48 khz vga mode hsp signal rise time t r 100 ns noisefree transition hsp signal high time t hh 200 ns hsp signal low time t lh 900 ns vsp signal frequency f pv 50/60 hz vsp signal frequency f pv 100/120 hz scan rate conversion vsp signal high time t hv 200 ns vsp signal low time t lv 200 ns inset input: cvbs1, cvbs2, cvbs3 horizontal frequency f h 15.734 khz 60 hz input horizontal frequency f h 15.625 khz 50 hz input amplitude of synchronization pulse v sync 300 mv length of horizontal synchronization puls t dh 4.7 s length of vertical synchronization puls t dv 22 s chroma amplitude a chr 300 mv burst input coupling capacitors c cli 2.2 10 100 nf necessary for proper clamping cvbs source resistance r srci 100 500
sda 9489x sda 9589x recommended operating range micronas 9-84 preliminary data sheet input voltage range at inputs cvbs1-3 vi 0.5 1 1.5 v dep. on agc setting reference voltages:vrefl, vrefm, vrefh reference voltage low v refl 1.05 1.11 1.17 v reference voltage middle v refm 1.81 1.91 2.00 v reference voltage high v refh 3.15 3.3 v dda1 v rgb/yuv switch:in1,in2,in3,fsw input coupling capacitors c cls 2.2 10 100 nf necessary for proper clamping source resistance r srcs 100 500 input voltage range at inputs in1-3 v is 0.311.6v input voltage range at inputs fsw v if 0.311.6v i2c address: i2c input voltage range for address v sa1 00.8v input voltage range for address v sa2 2.8 v ddd v fast i2c bus (all values are referred to min(v ih ) and max(v il )) this specification of the bus lines need not be identical with the i/o stages specification because of optional series resistors between bus lines and i/o pins. scl clock frequency f scl 0400khz inactive time before start of transmission t buf 1.3 s set-up time start condition t su;sta 0.6 s hold time start condition t hd;sta 0.6 s scl low time t low 1.3 s parameter symbol limit values unit remark min. typ. max.
micronas 9-85 sda 9489x sda 9589x recommended operating range preliminary data sheet scl high time t high 0.6 s set-up time data t su;dat 100 ns hold time data t hd;dat 00.9s sda/scl rise/fall times t r , t f 20+$ 300 ns $=0.1c b /pf set-up time stop condition t su;sto 0.6 s capacitive load/bus line c b 400 pf i2c bus inputs/output: sda, scl high-level input voltage v ih 3v 5.5v 1 also for sda/scl input stages low-level input voltage v il -0.25v 1.5 v spike duration at inputs 0 0 50 ns low-level output current i ol 6ma digital to analog converters (7-bit):out1, out2, out3 load resistance r l 10 k load capacitance c l 30 pf crystal specification: xin, xq frequency f xtal 20.248 20.25 20.252 mhz deviation outside this range will cause color decoding failures maximum permissible frequency deviation f max / f xtal -100 100 10 -6 deviation outside this range will cause color decoding failures recommended permissible frequency deviation f/f xtal -40 0 40 10 -6 parameter symbol limit values unit remark min. typ. max.
sda 9489x sda 9589x recommended operating range micronas 9-86 preliminary data sheet in the operating range the functions given in the circuit description are fulfilled. load capacitance c l 12 27 39 pf series resonance resistance r s 25 motional capacitance c 1 27 ff parallel capacitance c 0 7pf parameter symbol limit values unit remark min. typ. max.
micronas 10-87 sda 9489x sda 9589x characteristics preliminary data sheet 10 characteristics (assuming recommended operating conditions) parameter symbol limit values unit remark min. typ. max. average total supply current i ddtot 180 210 240 ma all digital inputs (ttl, i2c) input capacitance c i 7pf input leakage current -10 10 a incl. leakage current of sda output stage sel high-level output voltage v oh 2.4 v v dd vi oh =-200a high-level output voltage v oh 1.5v v dd vi oh =-4.5ma low-level output voltage v ol 0.4 v i ol =1.6ma, only valid if bit seldown= 1 fsw low-level input voltage v il -0.25 0.4 v high-level input voltage v ih 0.9 v dd +0.5 v delay fsw in -> sel out 10 ns i2c inputs: sda/scl schmitt trigger hysteresis v hys 0.1 0.2 0.5 v not tested i2c input / output: sda (referenced to scl; open drain output) low-level output voltage v ol 0.4 v i ol =3ma low-level output voltage v ol 0.6 v i ol =max
sda 9489x sda 9589x characteristics micronas 10-88 preliminary data sheet output fall time from min(v ih ) to max(v il ) t of 20+0.1* c b /pf 250 ns 10pf ? c b ? 40 0pf analog inputs cvbs1, cvbs2, cvbs3 cvbs input leakage current i l -100 100 na clamping inactive cvbs input capacitance c i 7pf input clamping error cle -1 1 lsb settled state input clamping current | i clp | 43 326 a dependent on clamping error max. input clamping current deviation | i clpx |/ | i clp | -40 40 % reference voltage difference v refh - v refl 0.5 1.5 v vdda1=3.3 v d.c. differential nonlinearity dnl -1 1 lsb v refh -v refl = max crosstalk between cvbs inputs ct -50 db digital to analog converters (7-bit): outputs out1, out2, out3 d.c. differential nonlinearity dnle -0.5 0.5 lsb full range output voltage v ol 0.3 v con, uamp, vamp, yamp = 0 full range output voltage v oh 1.6 v con, uamp, vamp, yamp = max parameter symbol limit values unit remark min. typ. max.
micronas 10-89 sda 9489x sda 9589x characteristics preliminary data sheet output voltage v o 0.911.1vcon, uamp, vamp, yamp = default, vref = const. deviation of out1-3 (matching) m ch -3 3 % contrast increase con 30 % output amplitude ratio (u oh -u ol )/u ol amp 400 % brightness increase brt 15 lsb pedestal level variation ped +/- 7.5 lsb rgb / yuv switch; in1, in2, in3 input voltage range v i 1.2 vpp bandwith (-3db) bw 25 mhz r l >10k ; c l =20pf gain g 0.9 1.1 gain difference rgb g 3%f<4mhz crosstalk between inputs ct i -40 db f=5mhz, (r-g-b, u- v) crosstalk between inputs ct i -45 db f=5mhz, (y-uv) isolation (off state) d 45 db f=5mhz clamping level difference at output clpe 15 mv between external and internal source colordecoder/synchronization and luminance processing horizontal pll pull-in- range f hf /f h 13.3 17.4 khz vcr1 and vcr2 parameter symbol limit values unit remark min. typ. max.
sda 9489x sda 9589x characteristics micronas 10-90 preliminary data sheet the listed characteristics are ensured over the operating range of the integratd circuit. typical characteristics specify mean values expected over the production spread. if not otherwise specified, typical characteristics apply at t a = 25 ? c and the given supply voltage. horizontal pll pull-in- range f hf /f h 13.3 17.4 khz tv1 and tv2 amplitude of synchronization pulse v sync 60 600 mv agc set to 1.2 v input signals length of horizontal synchronization pulse t dh 1.8 s length of vertical synchronization pulse t dv 22 s acc range cr acc -24 +6 db agc range cr agc -7.5 +2 db chroma pll pull-in- range f sc +/- 500 hz nominal crystal frequency data slicer data level v d 266 350 434 mv cc data height v d 280 350 420 mv cc eye height eh 26.6 % co channel distortion cd25 174 mv 25khz co channel distortion cd50 155 mv 50khz max. permissible noise n 20 db parameter symbol limit values unit remark min. typ. max.
micronas 11-91 sda 9489x sda 9589x diagrams preliminary data sheet 11 diagrams figure 11-1 display mode 0 with picture sizes 1/4 and 1/9 figure 11-2 display mode 0 with picture sizes 1/16 and 1/36
sda 9489x sda 9589x diagrams micronas 11-92 preliminary data sheet figure 11-3 display mode 0 (with scaling) and display mode 11 figure 11-4 display mode 2 and 3 (all pictures with same content) figure 11-5 display modes 4 and 5 0 1 2 3 0 1 0 1
micronas 11-93 sda 9489x sda 9589x diagrams preliminary data sheet figure 11-6 display modes 6 and 7 figure 11-7 display modes 8 and 12 figure 11-8 display modes 9 and 10 0 1 2 0 1 2 0 1 2 3 0 1 2 3 0 1 2 3 4 5 0 1 2 3 4 5
sda 9489x sda 9589x diagrams micronas 11-94 preliminary data sheet figure 11-9 display modes 13 and 14 figure 11-10 display modes 15 and 16 figure 11-11 display modes 17 and 18 0 1 2 3 4 5 6 7 8 9 10 11 0 1 2 3 4 5 6 7 8 9 10 11 0 1 2 3 4 5 6 7 8 0 1 2 3 4 5 6 7 8 9 10 11 0 1 2 3 4 5 6 7 8 9 10 0 1 2 3 4 5 6 7 8
micronas 11-95 sda 9489x sda 9589x diagrams preliminary data sheet display mode 20 (double window 1) and 19 (double window 1.5) figure 11-12 combination of display modes 17/ 18 and 9/ 10 (dual pip application) figure 11-13 display modes 19 and 20 (dual pip application)
sda 9489x sda 9589x diagrams micronas 11-96 preliminary data sheet figure 11-14 osd character set 1011010=5a 1011110=5e 1011111=5 f 0001010=0a 0100000=20 0100001=21 0100100=24 0100101=25 0001011=0b 0101010=2a 0101011=2b 0101101=2d 0110000=30 0110001=31 0110010=32 0110011=33 0110100=34 0110101=35 0101111=2f 0110110=36 0111000=38 0111001=39 0111100=3c 0111101=3d 0110111=37 0111110=3e 1000001=41 1000010=42 1000011=43 1000100=44 1000101=45 1000110=46 0111111=3f 1000111=47 1001001=49 1001010=4a 1001011=4b 1001100=4c 1001101=4d 1001110=4e 1001000=48 1001111=4f 1010001=51 1010010=52 1010100=54 1010101=55 1010110=56 1010000=50 1010111=57 1011001=59 1011101=5d 1011000=58 1011011=5b 1010011=53 0100011=23 0000001=01 0000010=02 0000011=03 0000100=04 0000101=05 0000110=06 0001000=08 0001001=09 0000111=07
micronas 11-97 sda 9489x sda 9589x diagrams preliminary data sheet figure 11-15 general application with 3 cvbs sources and teletext-processor figure 11-16 general application with yuv source from dvd rgb r(v) g(y) b(u) rgb processor cvbs 1 cvbs 2 cvbs 3 teletext or osd processor optional 2 nd pip r g b hsp vsp fsw tuner1 sel main channel decoder & sync cvbs 1 tuner2 y u v rgb r(v) g(y) b(u) rgb processor y, u, v teletext or osd processor optional 2 nd pip r g b hsp vsp fsw sel main channel decoder & sync cvbs 1 tuner2 y u v
sda 9489x sda 9589x diagrams micronas 11-98 preliminary data sheet figure 11-17 characteristic (pal) of luminance decimation filter for different peaking factors 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/4 pip frequency [mhz] gain [db] 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/9 pip frequency [mhz] gain [db] 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/16 pip frequency [mhz] gain [db] 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/36 pip frequency [mhz] gain [db]
micronas 11-99 sda 9489x sda 9589x diagrams preliminary data sheet figure 11-18 characteristic (ntsc) of luminance decimation filter for different peaking factors 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/4 pip frequency [mhz] gain [db] 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/9 pip frequency [mhz] gain [db] 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/16 pip frequency [mhz] gain [db] 6 3 0 1 2 3 4 5 6 7 8 9 10 40 30 20 10 0 10 ypeak = '010' ypeak = '100' ypeak = '111' 1/36 pip frequency [mhz] gain [db]
sda 9489x sda 9589x diagrams micronas 11-100 preliminary data sheet figure 11-19 characteristic of chrominance decoder filter (small, medium and narrow) 6 3 0 0.25 0.5 0.75 1 1.25 1.5 1.75 2 2.25 2.5 40 30 20 10 0 10 1/4 pip 1/9 pip 1/16 pip 1/36 pip frequency [mhz] gain [db] 6 3 0 0.25 0.5 0.75 1 1.25 1.5 1.75 2 2.25 2.5 40 30 20 10 0 10 1/4 pip 1/9 pip 1/16 pip 1/36 pip frequency [mhz] gain [db] 6 3 0 0.25 0.5 0.75 1 1.25 1.5 1.75 2 2.25 2.5 40 30 20 10 0 10 1/4 pip 1/9 pip 1/16 pip 1/36 pip frequency [mhz] gain [db]
micronas 12-101 sda 9489x sda 9589x application circuit preliminary data sheet 12 application circuit xin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 xq hsp vsp sda scl vdd vss i2c int in1 in2 in3 fsw sel out3 out2 out1 vdda2 vssa2 vrefh vdda1 vssa1 cvbs3 vrefl cvbs2 vrefm cvbs1 sda9589x x1 20.25 mhz c2 * 27p c1 * 27p hp vp r2 100 r1 100 scl sda c5 10n c6 10n c7 10n buin gyin rvin int i2c address deh d6h j1 c4 10n c3 10 +3.3v +3.3v l1 10 buout gyout rvout sel c18 10n c19 10n c20 10n cvbs1 cvbs2 cvbs3 or or fsw c15 1 c16 10n c13 10 r7 75 r4 75 r3 75 r5 75 l3 10 +3.3v c8 10n l2 10 +3.3v c9 1 c10 10n c11 1 c14 10n c12 10n c17 10 r6 75 r8 75 cvbs1 y c y u v *) exact value depends on crystal specification
all information and data contained in this data sheet are without any commitment, are not to be considered as an offer for conclusion of a contract, nor shall they be construed as to create any liability. any new issue of this data sheet invalidates previous issues. product availability and delivery are exclusively subject to our respective order confirmation form; the same applies to orders based on development samples deliv- ered. by this publication, micronas gmbh does not assume responsibil- ity for patent infringements or other rights of third parties which may result from its use. further, micronas gmbh reserves the right to revise this publication and to make changes to its content, at any time, without obligation to notify any person or entity of such revisions or changes. no part of this publication may be reproduced, photocopied, stored on a retrieval system, or transmitted without the express written consent of micronas gmbh. sda 9489x, sda 9589x preliminary data sheet 1 0 2 m i c r onas micronas gmbh hans-bunte-strasse 19 d-79108 freiburg (germany) p.o. box 840 d-79008 freiburg (germany) tel. +49-761-517-0 fax +49-761-517-2174 e-mail: docservice@micronas.com internet: www.micronas.com printed in germany order no. 6251-562-1pd

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