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480-output tft-lcd source driver (compatible with 256-gray scales) the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version. not all products and/or types are available in every country. please check with an nec electronics sales representative for availability and additional information. pd160088 mos integrated circuit document s16771ej1v0ds00 (1st edition) date published may 2004 ns cp(k) printed in japan 2004 data sheet description the pd160088 is a source driver for tft-lcds capable of deal ing with displays with 256-gray scales. data input is based on digital input configured as 8 bits by 3 dots (1 pixel) with double clock edge, which can realize a full-color display of 16,700,000 colors by output of 256 values -corrected by an internal d/a converte r and 9-by-2 external power modules. because the output dynamic range is as large as v ss2 + 0.1 v to v dd2 ? 0.1 v, level inversion operation of the lcd?s common electrode is rendered unnecessary. also, to be able to deal with dot-line inversion, n-line inversion and column line inversion when mounted on a single side, this source driver is equipped with a built-in 8-bit d/a converter circuit whose odd output pins and even output pins res pectively output gray scale voltages of differing polarity. assuring a clock frequency of 85 mhz when driving at 2.7 v, this driver is applicable to ux ga-standard (1600 x 1200), sxga-standard (1280 x 1024) tft?lcd panels. features rsds tm (reduced swing differential signaling) interface 480 outputs input of 8 bits (gradation data) by 3 dots with double clock edge capable of outputting 256 values by means of 9-by-2 external power modules (18 units) and a d/a converter logic power supply voltage (v dd1 ) : 2.7 to 3.6 v driver power supply voltage (v dd2 ) : 10.5 to 13.5 v high-speed data transfer : f clk = 85 mhz max. (internal data trans fer speed when operating at v dd1 = 2.7 v) output dynamic range : v ss2 + 0.1 v to v dd2 ? 0.1 v apply for dot-line inversion, n-line inversion and column line inversion output voltage polarity inversion function (pol) input data inversion function (inv) controilable charge sharing function (mode) remark rsds tm is a trademark of national semiconductor corporation. ordering information part number package pd160088n-xxx tcp (tab package) pd160088nl-xxx cof (cof package) remark the tcp and cof?s external shape is customized. to or der the required shape, please contact one of our sales representatives.
data sheet s16771ej1v0ds 2 pd160088 1. block diagram ? ? ? ? ? ? line ? repair ? amp rpi1 ? rpi2 ? rpo1 rpo2 data ? register latch level ? shifter d/a ? converter voltage ? follower ? output d 00p/n -d 03p/n d 10p/n -d 13p/n d 20p/n -d 23p/n sthr s1 sthl r,/l clkp, ? clkn v dd1d/a v ss1d/a inv pol v0 ? to ? v17 v dd2 v ss2 s2 s3 s480 stb (input ? pin) test 80-bit ? bidirectional ? shift ? register ? x ? 2 ? lpc mode remark /xxx indicates active low signal.
data sheet s16771ej1v0ds 3 pd160088 2. pin configuration ( pd160088n- : tcp, pd160088nl- : cof) s480 s479 1rpi2 s478 2rpo2 s477 3 vss2 4v17 5v16 6v15 7v14 8v13 9v12 10 v11 11 v10 12 v9 13 vdd2 14 ( vss1a ) 15 d23p 16 d23n 17 ( vss1a ) 18 d22p 19 d22n 20 ( vss1a ) 21 d21p 22 d21n 23 ( vss1a ) 24 d20p 25 d20n 26 ( vss1a ) 27 d13p 28 d13n 29 ( vss1a ) 30 d12p 31 d12n 32 ( vss1a ) 33 d11p 34 d11n 35 ( vss1a ) 36 d10p 37 d10n 38 ( vss1a ) 39 r,/l 40 pol 41 inv 42 vdd1a 43 vdd1d 44 lpc 45 sthl 46 sthr 47 vss1d 48 vss1a 49 mode 50 ( vss1a ) 51 clkp 52 clkn 53 ( vss1a ) 54 stb 55 ( vss1a ) 56 d03p 57 d03n 58 ( vss1a ) 59 d02p 60 d02n 61 ( vss1a ) 62 d01p 63 d01n 64 ( vss1a ) 65 d00p 66 d00n 67 ( vss1a ) 68 vdd2 69 v8 70 v7 71 v6 72 v5 73 v4 74 v3 75 v2 76 v1 77 v0 78 vss2 s3 79 rpo1 s2 80 rpi1 s1 ic pad surface remark this figure does not specify the tcp and cof package. (v ss1a ) is recommended to connect to analog gnd on pcb fo r the return current of transmission line. and please don?t use these pins for power supply terminal with dynamic current.
data sheet s16771ej1v0ds 4 pd160088 3. pin functions (1/2) pin symbol pin name i/o description s 1 to s 480 driver output the d/a converted 256-gray-scale analog voltage is output. d 00p to d 03p , d 00n to d 03n d 10p to d 13p , d 10n to d 13n d 20p to d 23p , d 20n to d 23n display data (rsds) input the display data is input with a wi dth of 12 bits by double edge, viz., the gray scale data (8 bits) by 3 dots (1 pixel). r,/l (cmos) shift direction control input these refer to the start pulse input/out put pins when driver ics are connected in cascade. the shift directions of the shift registers are as follows. r,/l = h (v dd1 level): sthr input, s 1 � s 480 , sthl output r,/l = l (v ss1 level): sthl input, s 480 � s 1 , sthr output sthr (cmos) right shift start pulse i/o r,/l = h (v dd1 level): becomes the start pulse input pin. r,/l = l (v ss1 level): becomes the start pulse output pin. sthl (cmos) left shift start pulse i/o r,/l = h (v dd1 level): becomes the start pulse output pin. r,/l = l (v ss1 level): becomes the start pulse input pin. clkp, clkn (rsds) shift clock input refers to the shift register?s shift clock input. the di splay data is incorporated into the data register at both of rising and falling edge. at the falling edge of the 160th clock afte r the start pulse input, the start pulse output reaches the high level, thus becoming the start pulse of the next-level driver. stb (cmos) latch input the contents of the data register are transferred to the latch circuit at the rising edge. and the output timing and charge sharing function are controlled by mode. please refer to 9. relationship between mode, stb, pol and outputwaveform for more detail. it is necessary to ensure input of one pulse per horizontal period. pol (cmos) polarity input pol = h (v dd1 level): the s 2n?1 output uses v 0 -v 8 as the reference supply. the s 2n output uses v 9 -v 17 as the reference supply. pol = l (v ss1 level): the s 2n?1 output uses v 9 -v 17 as the reference supply. the s 2n output uses v 0 -v 8 as the reference supply. s 2n-1 indicates the odd output and s 2n indicates the even output. input of the pol signal is allowed the setup time (t pol - stb ) with respect to stb?s rising edge. inv (cmos) data inversion input data inversion can invert when display data is loaded. inv = h (v dd1 level): data inversion loads display data after inverting it. inv = l (v ss1 level): data inversion does not invert input data. please input dc signal. refer to 6. data inversion. lpc (cmos) low power control ? lpc = l or open : normal mode (default) lpc = h : low power mode (30% lower than normal mode) this pin is pulled down to the v ss1d inside the ic. mode (cmos) charge sharing control ? this pin control the charge sharing function. mode = h or open : disable mode = l : enable but charge sharing function works only when pol signal is changed from previous line. this pin is pulled up to v dd1d inside the ic. rpi1, rpi2 line-repair amp. input rpo1, rpo2 line-repair amp. output the driver-ability of the line-repair am p is around twice of the normal analog output; s 1 to s 480 . and these outputs are changed at the rising edge of stb and don?t have a hi-z period. rpi1 (rpi2) � impedance changed � rpo1 (rpo2) remark hi-z: high impedance
data sheet s16771ej1v0ds 5 pd160088 (2/2) pin symbol pin name i/o description test (cmos) test ? test = h or open : normal operation mode test = l : test mode v 0 -v 17 � -corrected power supplies ? input the � -corrected power supplies from outside by using operational amplifier. make sure to maintain the following relationships. during the gray scale voltage output, be sure to keep the gray scale level power supply at a constant level. v dd2 ? 0.1 v � v 0 > v 1 > v 2 > v 3 > v 4 > v 5 > v 6 > v 7 > v 8 � 0.5 v dd2 0.5 v dd2 � v 9 > v 10 > v 11 > v 12 > v 13 > v 14 > v 15 > v 16 > v 17 � v ss2 + 0.1 v v dd1d/a logic power supply ? 2.7 to 3.6 v v dd2 driver power supply ? 10.5 to 13.5 v v ss1d/a logic ground ? grounding v ss2 driver ground ? grounding cautions 1. the power on sequence must be v dd1d/a , logic input, and v dd2 and v 0 -v 17 in that order. reverse this sequence to shut down. (simultaneous power application to v dd2 and v 0 -v 17 is possible.) 2. to stabilize the supply vo ltage, please be sure to insert a 0.1 f bypass capacitor between v dd1d/a ?v ss1d/a and v dd2 ?v ss2 . furthermore, for increased precision of the d/a converter, insertion of a bypass capacitor of about 0.01 f is also advi sed between the � -corrected power supply pins (v 0 , v 1 , v 2 , , v 17 ) and v ss2 . 3. because of the large power consumption of this driver ic, it is necessary to pay attention to the driver ic's temperature for the ju nction temperature. so, it should be considered to use the suitable mechanical d esign for the heat spreading and use the lpc function and the output reset function for the power reduction. especially, it is recommended to measure the temperature of the driver ic surface.
data sheet s16771ej1v0ds 6 pd160088 4. relationship between input data and output voltage value this product incorporates a 8-bit d/a converter whose odd out put pins and even output pi ns output respectively gray scale voltages of differing polarity with respect to the l cd?s counter electrode (common el ectrode) voltage. the d/a converter consists of ladder resistors and switches. the ladder resistors (r 0 to r 255 ) are designed so that the ratio of lcd panel � -compensated voltages to v 0 ?-v 255 ? and v 0 ?-v 255 ? is almost equivalent. for the 2 sets of 9 � - compensated power supplies, v 0 -v 8 and v 9 -v 17 , respectively, input gray scale voltages of the same polar ity with respect to the common voltage. figure 4 ? 1 shows the relationship between the driving volt ages such as liquid-crystal driving voltages v dd2 and v ss2 , common electrode potential v com , and � - corrected voltages v 0 -v 17 and the input data. be sure to maintain the voltage relationships of v dd2 ? 0.1 v � v 0 > v 1 > v 2 > v 3 > v 4 > v 5 > v 6 > v 7 > v 8 � 0.5 v dd2 0.5 v dd2 � v 9 > v 10 > v 11 > v 12 > v 13 > v 14 > v 15 > v 16 > v 17 � v ss2 + 0.1 v figures 4 ? 2 shows � - corrected voltages and ladder resistors ratio and figure 4 ? 3 shows relationship between the input data and the output voltage. figure 4 ? 1. relationship betw een input data and � - corrected power supply v 1 v 2 v 3 v 4 v ss2 00 40 20 80 c0 e0 ff 1 2 1 2 31 31 32 32 64 64 64 64 30 30 32 32 v 0 v 8 v dd2 v 9 0.1 v 0.1 v input data (hex.) 0.5 v dd2 v 5 v 7 v 6 split interval 01 fe v 12 v 11 v 10 v 13 v 14 v 15 v 16 v 17
data sheet s16771ej1v0ds 7 pd160088 figure 4 ? 2. � -corrected voltages and ladder resistors ratio v 0 v 9 v 10 v 11 v 15 v 16 v 17 v 1 v 2 v 6 v 7 v 8 v 0 ? v 1 ? v 2 ? v 3 ? v 31 ? v 32 ? v 33 ? v 223 ? v 224 ? v 225 ? v 252 ? v 253 ? v 254 ? v 255 ? v 255 ?? v 254 ?? v 253 ?? v 252 ?? v 225 ?? v 224 ?? v 223 ?? v 33 ?? v 32 ?? v 31 ?? v 2 ?? v 1 ?? v 0 ?? r 0 r 255 r 254 r 253 r 252 r 251 r 225 r 224 r 223 r 222 r 33 r 32 r 31 r 30 r 2 r 1 r 0 r 1 r 2 r 3 r 30 r 31 r 32 r 33 r 222 r 223 r 224 r 251 r 252 r 253 r 254 r 255 rn ratio value rn ratio value rn ratio value rn ratio value r0 31.50 630 r64 2.25 45 r128 1.00 20 r192 1.00 20 r1 27.50 550 r65 2.25 45 r129 1.00 20 r193 1.00 20 r2 24.00 480 r66 2.25 45 r130 1.00 20 r194 1.00 20 r3 21.50 430 r67 2.25 45 r131 1.00 20 r195 1.00 20 r4 19.00 380 r68 2.00 40 r132 1.00 20 r196 1.25 25 r5 17.50 350 r69 2.00 40 r133 1.00 20 r197 1.25 25 r6 16.50 330 r70 2.00 40 r134 1.00 20 r198 1.25 25 r7 15.00 300 r71 2.00 40 r135 1.00 20 r199 1.25 25 r8 14.00 280 r72 2.00 40 r136 1.00 20 r200 1.25 25 r9 13.00 260 r73 2.00 40 r137 1.00 20 r201 1.25 25 r10 12.00 240 r74 2.00 40 r138 1.00 20 r202 1.25 25 r11 11.00 220 r75 2.00 40 r139 1.00 20 r203 1.25 25 r12 10.00 200 r76 1.75 35 r140 1.00 20 r204 1.25 25 r13 9.50 190 r77 1.75 35 r141 1.00 20 r205 1.25 25 r14 9.50 190 r78 1.75 35 r142 1.00 20 r206 1.25 25 r15 9.00 180 r79 1.75 35 r143 1.00 20 r207 1.25 25 r16 8.50 170 r80 1.75 35 r144 1.00 20 r208 1.25 25 r17 8.00 160 r81 1.75 35 r145 1.00 20 r209 1.25 25 r18 7.50 150 r82 1.75 35 r146 1.00 20 r210 1.25 25 r19 7.50 150 r83 1.75 35 r147 1.00 20 r211 1.25 25 r20 7.00 140 r84 1.75 35 r148 1.00 20 r212 1.25 25 r21 6.50 130 r85 1.75 35 r149 1.00 20 r213 1.25 25 r22 6.50 130 r86 1.50 30 r150 1.00 20 r214 1.25 25 r23 6.00 120 r87 1.50 30 r151 1.00 20 r215 1.25 25 r24 6.00 120 r88 1.50 30 r152 1.00 20 r216 1.25 25 r25 5.50 110 r89 1.50 30 r153 1.00 20 r217 1.25 25 r26 5.50 110 r90 1.50 30 r154 1.00 20 r218 1.50 30 r27 5.50 110 r91 1.50 30 r155 1.00 20 r219 1.50 30 r28 5.00 100 r92 1.50 30 r156 1.00 20 r220 1.50 30 r29 5.00 100 r93 1.50 30 r157 1.00 20 r221 1.50 30 r30 5.00 100 r94 1.50 30 r158 1.00 20 r222 1.50 30 r31 4.50 90 r95 1.50 30 r159 1.00 20 r223 1.50 30 r32 4.50 90 r96 1.50 30 r160 1.00 20 r224 1.50 30 r33 4.50 90 r97 1.50 30 r161 1.00 20 r225 2.00 40 r34 4.00 80 r98 1.50 30 r162 1.00 20 r226 2.00 40 r35 4.00 80 r99 1.50 30 r163 1.00 20 r227 2.00 40 r36 4.00 80 r100 1.50 30 r164 1.00 20 r228 2.00 40 r37 4.00 80 r101 1.50 30 r165 1.00 20 r229 2.00 40 r38 3.75 75 r102 1.50 30 r166 1.00 20 r230 2.50 50 r39 3.75 75 r103 1.50 30 r167 1.00 20 r231 2.50 50 r40 3.50 70 r104 1.50 30 r168 1.00 20 r232 2.50 50 r41 3.50 70 r105 1.50 30 r169 1.00 20 r233 3.00 60 r42 3.50 70 r106 1.50 30 r170 1.00 20 r234 3.00 60 r43 3.50 70 r107 1.50 30 r171 1.00 20 r235 3.00 60 r44 3.25 65 r108 1.50 30 r172 1.00 20 r236 3.50 70 r45 3.25 65 r109 1.50 30 r173 1.00 20 r237 3.50 70 r46 3.00 60 r110 1.25 25 r174 1.00 20 r238 4.00 80 r47 3.00 60 r111 1.25 25 r175 1.00 20 r239 4.00 80 r48 3.00 60 r112 1.25 25 r176 1.00 20 r240 4.50 90 r49 3.00 60 r113 1.25 25 r177 1.00 20 r241 5.00 100 r50 3.00 60 r114 1.25 25 r178 1.00 20 r242 5.00 100 r51 3.00 60 r115 1.25 25 r179 1.00 20 r243 5.50 110 r52 2.75 55 r116 1.25 25 r180 1.00 20 r244 6.00 120 r53 2.75 55 r117 1.25 25 r181 1.00 20 r245 6.50 130 r54 2.75 55 r118 1.25 25 r182 1.00 20 r246 7.00 140 r55 2.75 55 r119 1.25 25 r183 1.00 20 r247 7.50 150 r56 2.50 50 r120 1.25 25 r184 1.00 20 r248 8.00 160 r57 2.50 50 r121 1.25 25 r185 1.00 20 r249 8.50 170 r58 2.50 50 r122 1.25 25 r186 1.00 20 r250 9.00 180 r59 2.50 50 r123 1.25 25 r187 1.00 20 r251 9.50 190 r60 2.50 50 r124 1.25 25 r188 1.00 20 r252 10.50 210 r61 2.50 50 r125 1.25 25 r189 1.00 20 r253 11.50 230 r62 2.25 45 r126 1.00 20 r190 1.00 20 r254 12.50 250 r63 2.25 45 r127 1.00 20 r191 1.00 20 r255 25.00 500
data sheet s16771ej1v0ds 8 pd160088 figure 4 ? 3. relationship between input data (dxxp ) and output voltage (inv = l) (1/2) (output voltage 1) v dd2 ? 0.1 v � v 0 > v 1 > v 2 > v 3 > v 4 > v 5 > v 6 > v 7 > v 8 � 0.5 v dd2 data output voltage data output voltage data output voltage data output voltage 00h v0' v0 40h v64' v3 80h v128' v4 c0h v192' v5 01h v1' v1 41h v65' v3+(v4-v3) x 45 / 2010 81h v129' v4+(v5-v4) x 20 / 1280 c1h v193' v5+(v6-v5) x 20 / 810 02h v2' v1+(v2-v1) x 550 / 6570 42h v66' v3+(v4-v3) x 90 / 2010 82h v130' v4+(v5-v4) x 40 / 1280 c2h v194' v5+(v6-v5) x 40 / 810 03h v3' v1+(v2-v1) x 1030 / 6570 43h v67' v3+(v4-v3) x 135 / 2010 83h v131' v4+(v5-v4) x 60 / 1280 c3h v195' v5+(v6-v5) x 60 / 810 04h v3' v1+(v2-v1) x 1460 / 6570 44h v68' v3+(v4-v3) x 180 / 2010 84h v132' v4+(v5-v4) x 80 / 1280 c4h v196' v5+(v6-v5) x 80 / 810 05h v5' v1+(v2-v1) x 1840 / 6570 45h v69' v3+(v4-v3) x 220 / 2010 85h v133' v4+(v5-v4) x 100 / 1280 c5h v197' v5+(v6-v5) x 105 / 810 06h v6' v1+(v2-v1) x 2190 / 6570 46h v70' v3+(v4-v3) x 260 / 2010 86h v134' v4+(v5-v4) x 120 / 1280 c6h v198' v5+(v6-v5) x 130 / 810 07h v7' v1+(v2-v1) x 2520 / 6570 47h v71' v3+(v4-v3) x 300 / 2010 87h v135' v4+(v5-v4) x 140 / 1280 c7h v199' v5+(v6-v5) x 155 / 810 08h v8' v1+(v2-v1) x 2820 / 6570 48h v72' v3+(v4-v3) x 340 / 2010 88h v136' v4+(v5-v4) x 160 / 1280 c8h v200' v5+(v6-v5) x 180 / 810 09h v9' v1+(v2-v1) x 3100 / 6570 49h v73' v3+(v4-v3) x 380 / 2010 89h v137' v4+(v5-v4) x 180 / 1280 c9h v201' v5+(v6-v5) x 205 / 810 0ah v10' v1+(v2-v1) x 3360 / 6570 4ah v74' v3+(v4-v3) x 420 / 2010 8ah v138' v4+(v5-v4) x 200 / 1280 cah v202' v5+(v6-v5) x 230 / 810 0bh v11' v1+(v2-v1) x 3600 / 6570 4bh v75' v3+(v4-v3) x 460 / 2010 8bh v139' v4+(v5-v4) x 220 / 1280 cbh v203' v5+(v6-v5) x 255 / 810 0ch v12' v1+(v2-v1) x 3820 / 6570 4ch v76' v3+(v4-v3) x 500 / 2010 8ch v140' v4+(v5-v4) x 240 / 1280 cch v204' v5+(v6-v5) x 280 / 810 0dh v13' v1+(v2-v1) x 4020 / 6570 4dh v77' v3+(v4-v3) x 535 / 2010 8dh v141' v4+(v5-v4) x 260 / 1280 cdh v205' v5+(v6-v5) x 305 / 810 0eh v14' v1+(v2-v1) x 4210 / 6570 4eh v78' v3+(v4-v3) x 570 / 2010 8eh v142' v4+(v5-v4) x 280 / 1280 ceh v206' v5+(v6-v5) x 330 / 810 0fh v15' v1+(v2-v1) x 4400 / 6570 4fh v79' v3+(v4-v3) x 605 / 2010 8fh v143' v4+(v5-v4) x 300 / 1280 cfh v207' v5+(v6-v5) x 355 / 810 10h v16' v1+(v2-v1) x 4580 / 6570 50h v80' v3+(v4-v3) x 640 / 2010 90h v144' v4+(v5-v4) x 320 / 1280 d0h v208' v5+(v6-v5) x 380 / 810 11h v17' v1+(v2-v1) x 4750 / 6570 51h v81' v3+(v4-v3) x 675 / 2010 91h v145' v4+(v5-v4) x 340 / 1280 d1h v209' v5+(v6-v5) x 405 / 810 12h v18' v1+(v2-v1) x 4910 / 6570 52h v82' v3+(v4-v3) x 710 / 2010 92h v146' v4+(v5-v4) x 360 / 1280 d2h v210' v5+(v6-v5) x 430 / 810 13h v19' v1+(v2-v1) x 5060 / 6570 53h v83' v3+(v4-v3) x 745 / 2010 93h v147' v4+(v5-v4) x 380 / 1280 d3h v211' v5+(v6-v5) x 455 / 810 14h v20' v1+(v2-v1) x 5210 / 6570 54h v84' v3+(v4-v3) x 780 / 2010 94h v148' v4+(v5-v4) x 400 / 1280 d4h v212' v5+(v6-v5) x 480 / 810 15h v21' v1+(v2-v1) x 5350 / 6570 55h v85' v3+(v4-v3) x 815 / 2010 95h v149' v4+(v5-v4) x 420 / 1280 d5h v213' v5+(v6-v5) x 505 / 810 16h v22' v1+(v2-v1) x 5480 / 6570 56h v86' v3+(v4-v3) x 850 / 2010 96h v150' v4+(v5-v4) x 440 / 1280 d6h v214' v5+(v6-v5) x 530 / 810 17h v23' v1+(v2-v1) x 5610 / 6570 57h v87' v3+(v4-v3) x 880 / 2010 97h v151' v4+(v5-v4) x 460 / 1280 d7h v215' v5+(v6-v5) x 555 / 810 18h v24' v1+(v2-v1) x 5730 / 6570 58h v88' v3+(v4-v3) x 910 / 2010 98h v152' v4+(v5-v4) x 480 / 1280 d8h v216' v5+(v6-v5) x 580 / 810 19h v25' v1+(v2-v1) x 5850 / 6570 59h v89' v3+(v4-v3) x 940 / 2010 99h v153' v4+(v5-v4) x 500 / 1280 d9h v217' v5+(v6-v5) x 605 / 810 1ah v26' v1+(v2-v1) x 5960 / 6570 5ah v90' v3+(v4-v3) x 970 / 2010 9ah v154' v4+(v5-v4) x 520 / 1280 dah v218' v5+(v6-v5) x 630 / 810 1bh v27' v1+(v2-v1) x 6070 / 6570 5bh v91' v3+(v4-v3) x 1000 / 2010 9bh v155' v4+(v5-v4) x 540 / 1280 dbh v219' v5+(v6-v5) x 660 / 810 1ch v28' v1+(v2-v1) x 6180 / 6570 5ch v92' v3+(v4-v3) x 1030 / 2010 9ch v156' v4+(v5-v4) x 560 / 1280 dch v220' v5+(v6-v5) x 690 / 810 1dh v29' v1+(v2-v1) x 6280 / 6570 5dh v93' v3+(v4-v3) x 1060 / 2010 9dh v157' v4+(v5-v4) x 580 / 1280 ddh v221' v5+(v6-v5) x 720 / 810 1eh v30' v1+(v2-v1) x 6380 / 6570 5eh v94' v3+(v4-v3) x 1090 / 2010 9eh v158' v4+(v5-v4) x 600 / 1280 deh v222' v5+(v6-v5) x 750 / 810 1fh v31' v1+(v2-v1) x 6480 / 6570 5fh v95' v3+(v4-v3) x 1120 / 2010 9fh v159' v4+(v5-v4) x 620 / 1280 dfh v223' v5+(v6-v5) x 780 / 810 20h v32' v2 60h v96' v3+(v4-v3) x 1150 / 2010 a0h v160' v4+(v5-v4) x 640 1280 e0h v224' v6 21h v33' v2+(v3-v2) x 90 / 2030 61h v97' v3+(v4-v3) x 1180 / 2010 a1h v161' v4+(v5-v4) x 660 / 1280 e1h v225' v6+(v7-v6) x 30 / 2940 22h v34' v2+(v3-v2) x 180 / 2030 62h v98' v3+(v4-v3) x 1210 / 2010 a2h v162' v4+(v5-v4) x 680 / 1280 e2h v226' v6+(v7-v6) x 70 / 2940 23h v35' v2+(v3-v2) x 260 / 2030 63h v99' v3+(v4-v3) x 1240 / 2010 a3h v163' v4+(v5-v4) x 700 / 1280 e3h v227' v6+(v7-v6) x 110 / 2940 24h v36' v2+(v3-v2) x 340 / 2030 64h v100' v3+(v4-v3) x 1270 / 2010 a4h v164' v4+(v5-v4) x 720 / 1280 e4h v228' v6+(v7-v6) x 150 / 2940 25h v37' v2+(v3-v2) x 420 / 2030 65h v101' v3+(v4-v3) x 1300 / 2010 a5h v165' v4+(v5-v4) x 740 / 1280 e5h v229' v6+(v7-v6) x 190 / 2940 26h v38' v2+(v3-v2) x 500 / 2030 66h v102' v3+(v4-v3) x 1330 / 2010 a6h v166' v4+(v5-v4) x 760 / 1280 e6h v230' v6+(v7-v6) x 230 / 2940 27h v39' v2+(v3-v2) x 575 / 2030 67h v103' v3+(v4-v3) x 1360 / 2010 a7h v167' v4+(v5-v4) x 780 / 1280 e7h v231' v6+(v7-v6) x 280 / 2940 28h v30' v2+(v3-v2) x 650 / 2030 68h v104' v3+(v4-v3) x 1390 / 2010 a8h v168' v4+(v5-v4) x 800 / 1280 e8h v232' v6+(v7-v6) x 330 / 2940 29h v41' v2+(v3-v2) x 720 / 2030 69h v105' v3+(v4-v3) x 1420 / 2010 a9h v169' v4+(v5-v4) x 820 / 1280 e9h v233' v6+(v7-v6) x 380 / 2940 2ah v42' v2+(v3-v2) x 790 / 2030 6ah v106' v3+(v4-v3) x 1450 / 2010 aah v170' v4+(v5-v4) x 840 / 1280 eah v234' v6+(v7-v6) x 440 / 2940 2bh v43' v2+(v3-v2) x 860 / 2030 6bh v107' v3+(v4-v3) x 1480 / 2010 abh v171' v4+(v5-v4) x 860 / 1280 ebh v235' v6+(v7-v6) x 500 / 2940 2ch v44' v2+(v3-v2) x 930 / 2030 6ch v108' v3+(v4-v3) x 1510 / 2010 ach v172' v4+(v5-v4) x 880 / 1280 ech v236' v6+(v7-v6) x 560 / 2940 2dh v45' v2+(v3-v2) x 995 / 2030 6dh v109' v3+(v4-v3) x 1540 / 2010 adh v173' v4+(v5-v4) x 900 / 1280 edh v237' v6+(v7-v6) x 630 / 2940 2eh v46' v2+(v3-v2) x 1060 / 2030 6eh v110' v3+(v4-v3) x 1570 / 2010 aeh v174' v4+(v5-v4) x 920 / 1280 eeh v238' v6+(v7-v6) x 700 / 2940 2fh v47' v2+(v3-v2) x 1120 / 2030 6fh v111' v3+(v4-v3) x 1595 / 2010 afh v175' v4+(v5-v4) x 940 / 1280 efh v239' v6+(v7-v6) x 780 / 2940 30h v48' v2+(v3-v2) x 1180 / 2030 70h v112' v3+(v4-v3) x 1620 / 2010 b0h v176' v4+(v5-v4) x 960 / 1280 f0h v240' v6+(v7-v6) x 860 / 2940 31h v49' v2+(v3-v2) x 1240 / 2030 71h v113' v3+(v4-v3) x 1645 / 2010 b1h v177' v4+(v5-v4) x 980 / 1280 f1h v241' v6+(v7-v6) x 950 / 2940 32h v50' v2+(v3-v2) x 1300 / 2030 72h v114' v3+(v4-v3) x 1670 / 2010 b2h v178' v4+(v5-v4) x 1000 / 1280 f2h v242' v6+(v7-v6) x 1050 / 2940 33h v51' v2+(v3-v2) x 1360 / 2030 73h v115' v3+(v4-v3) x 1695 / 2010 b3h v179' v4+(v5-v4) x 1020 / 1280 f3h v243' v6+(v7-v6) x 1150 / 2940 34h v52' v2+(v3-v2) x 1420 / 2030 74h v116' v3+(v4-v3) x 1720 / 2010 b4h v180' v4+(v5-v4) x 1040 / 1280 f4h v244' v6+(v7-v6) x 1260 / 2940 35h v53' v2+(v3-v2) x 1475 / 2030 75h v117' v3+(v4-v3) x 1745 / 2010 b5h v181' v4+(v5-v4) x 1060 / 1280 f5h v245' v6+(v7-v6) x 1380 / 2940 36h v54' v2+(v3-v2) x 1530 / 2030 76h v118' v3+(v4-v3) x 1770 / 2010 b6h v182' v4+(v5-v4) x 1080 / 1280 f6h v246' v6+(v7-v6) x 1510 / 2940 37h v55' v2+(v3-v2) x 1585 / 2030 77h v119' v3+(v4-v3) x 1795 / 2010 b7h v183' v4+(v5-v4) x 1100 / 1280 f7h v247' v6+(v7-v6) x 1650 / 2940 38h v56' v2+(v3-v2) x 1640 / 2030 78h v120' v3+(v4-v3) x 1820 / 2010 b8h v184' v4+(v5-v4) x 1120 / 1280 f8h v248' v6+(v7-v6) x 1800 / 2940 39h v57' v2+(v3-v2) x 1690 / 2030 79h v121' v3+(v4-v3) x 1845 / 2010 b9h v185' v4+(v5-v4) x 1140 / 1280 f9h v249' v6+(v7-v6) x 1960 / 2940 3ah v58' v2+(v3-v2) x 1740 / 2030 7ah v122' v3+(v4-v3) x 1870 / 2010 bah v186' v4+(v5-v4) x 1160 / 1280 fah v250' v6+(v7-v6) x 2130 / 2940 3bh v59' v2+(v3-v2) x 1790 / 2030 7bh v123' v3+(v4-v3) x 1895 / 2010 bbh v187' v4+(v5-v4) x 1180 / 1280 fbh v251' v6+(v7-v6) x 2310 / 2940 3ch v60' v2+(v3-v2) x 1840 / 2030 7ch v124' v3+(v4-v3) x 1920 / 2010 bch v188' v4+(v5-v4) x 1200 / 1280 fch v252' v6+(v7-v6) x 2500 / 2940 3dh v61' v2+(v3-v2) x 1890 / 2030 7dh v125' v3+(v4-v3) x 1945 / 2010 bdh v189' v4+(v5-v4) x 1220 / 1280 fdh v253' v6+(v7-v6) x 2710 / 2940 3eh v62' v2+(v3-v2) x 1940 / 2030 7eh v126' v3+(v4-v3) x 1970 / 2010 beh v190' v4+(v5-v4) x 1240 / 1280 feh v254' v7 3fh v63' v2+(v3-v2) x 1985 / 2030 7fh v127' v3+(v4-v3) x 1990 / 2010 bfh v191' v4+(v5-v4) x 1260 / 1280 ffh v255' v8
data sheet s16771ej1v0ds 9 pd160088 figure 4 ? 3. relationship between input data (dxxp ) and output voltage (inv = l) (2/2) (output voltage 2) 0.5 v dd2 � v 9 > v 10 > v 11 > v 12 > v 13 > v 14 > v 15 > v 16 > v 17 � v ss2 + 0.1 v data output voltage data output voltage data output voltage data output voltage 00h v0" v17 40h v64" v14 80h v128" v13 c0h v192" v12 01h v1" v16 41h v65" v14+(v13-v14) x 45 / 2010 81h v129" v13+(v12-v13) x 20 / 1280 c1h v193" v12+(v11-v12) x 20 / 810 02h v2" v16+(v15-v16) x 550 / 6570 42h v66" v14+(v13-v14) x 90 / 2010 82h v130" v13+(v12-v13) x 40 / 1280 c2h v194" v12+(v11-v12) x 40 / 810 03h v3" v16+(v15-v16) x 1030 / 6570 43h v67" v14+(v13-v14) x 135 / 2010 83h v131" v13+(v12-v13) x 60 / 1280 c3h v195" v12+(v11-v12) x 60 / 810 04h v4" v16+(v15-v16) x 1460 / 6570 44h v68" v14+(v13-v14) x 180 / 2010 84h v132" v13+(v12-v13) x 80 / 1280 c4h v196" v12+(v11-v12) x 80 / 810 05h v5" v16+(v15-v16) x 1840 / 6570 45h v69" v14+(v13-v14) x 220 / 2010 85h v133" v13+(v12-v13) x 100 / 1280 c5h v197" v12+(v11-v12) x 105 / 810 06h v6" v16+(v15-v16) x 2190 / 6570 46h v70" v14+(v13-v14) x 260 / 2010 86h v134" v13+(v12-v13) x 120 / 1280 c6h v198" v12+(v11-v12) x 130 / 810 07h v7" v16+(v15-v16) x 2520 / 6570 47h v71" v14+(v13-v14) x 300 / 2010 87h v135" v13+(v12-v13) x 140 / 1280 c7h v199" v12+(v11-v12) x 155 / 810 08h v8" v16+(v15-v16) x 2820 / 6570 48h v72" v14+(v13-v14) x 340 / 2010 88h v136" v13+(v12-v13) x 160 / 1280 c8h v200" v12+(v11-v12) x 180 / 810 09h v9" v16+(v15-v16) x 3100 / 6570 49h v73" v14+(v13-v14) x 380 / 2010 89h v137" v13+(v12-v13) x 180 / 1280 c9h v201" v12+(v11-v12) x 205 / 810 0ah v10" v16+(v15-v16) x 3360 / 6570 4ah v74" v14+(v13-v14) x 420 / 2010 8ah v138" v13+(v12-v13) x 200 / 1280 cah v202" v12+(v11-v12) x 230 / 810 0bh v11" v16+(v15-v16) x 3600 / 6570 4bh v75" v14+(v13-v14) x 460 / 2010 8bh v139" v13+(v12-v13) x 220 / 1280 cbh v203" v12+(v11-v12) x 255 / 810 0ch v12" v16+(v15-v16) x 3820 / 6570 4ch v76" v14+(v13-v14) x 500 / 2010 8ch v140" v13+(v12-v13) x 240 / 1280 cch v204" v12+(v11-v12) x 280 / 810 0dh v13" v16+(v15-v16) x 4020 / 6570 4dh v77" v14+(v13-v14) x 535 / 2010 8dh v141" v13+(v12-v13) x 260 / 1280 cdh v205" v12+(v11-v12) x 305 / 810 0eh v14" v16+(v15-v16) x 4210 / 6570 4eh v78" v14+(v13-v14) x 570 / 2010 8eh v142" v13+(v12-v13) x 280 / 1280 ceh v206" v12+(v11-v12) x 330 / 810 0fh v15" v16+(v15-v16) x 4400 / 6570 4fh v79" v14+(v13-v14) x 605 / 2010 8fh v143" v13+(v12-v13) x 300 / 1280 cfh v207" v12+(v11-v12) x 355 / 810 10h v16" v16+(v15-v16) x 4580 / 6570 50h v80" v14+(v13-v14) x 640 / 2010 90h v144" v13+(v12-v13) x 320 / 1280 d0h v208" v12+(v11-v12) x 380 / 810 11h v17" v16+(v15-v16) x 4750 / 6570 51h v81" v14+(v13-v14) x 675 / 2010 91h v145" v13+(v12-v13) x 340 / 1280 d1h v209" v12+(v11-v12) x 405 / 810 12h v18" v16+(v15-v16) x 4910 / 6570 52h v82" v14+(v13-v14) x 710 / 2010 92h v146" v13+(v12-v13) x 360 / 1280 d2h v210" v12+(v11-v12) x 430 / 810 13h v19" v16+(v15-v16) x 5060 / 6570 53h v83" v14+(v13-v14) x 745 / 2010 93h v147" v13+(v12-v13) x 380 / 1280 d3h v211" v12+(v11-v12) x 455 / 810 14h v20" v16+(v15-v16) x 5210 / 6570 54h v84" v14+(v13-v14) x 780 / 2010 94h v148" v13+(v12-v13) x 400 / 1280 d4h v212" v12+(v11-v12) x 480 / 810 15h v21" v16+(v15-v16) x 5350 / 6570 55h v85" v14+(v13-v14) x 815 / 2010 95h v149" v13+(v12-v13) x 420 / 1280 d5h v213" v12+(v11-v12) x 505 / 810 16h v22" v16+(v15-v16) x 5480 / 6570 56h v86" v14+(v13-v14) x 850 / 2010 96h v150" v13+(v12-v13) x 440 / 1280 d6h v214" v12+(v11-v12) x 530 / 810 17h v23" v16+(v15-v16) x 5610 / 6570 57h v87" v14+(v13-v14) x 880 / 2010 97h v151" v13+(v12-v13) x 460 / 1280 d7h v215" v12+(v11-v12) x 555 / 810 18h v24" v16+(v15-v16) x 5730 / 6570 58h v88" v14+(v13-v14) x 910 / 2010 98h v152" v13+(v12-v13) x 480 / 1280 d8h v216" v12+(v11-v12) x 580 / 810 19h v25" v16+(v15-v16) x 5850 / 6570 59h v89" v14+(v13-v14) x 940 / 2010 99h v153" v13+(v12-v13) x 500 / 1280 d9h v217" v12+(v11-v12) x 605 / 810 1ah v26" v16+(v15-v16) x 5960 / 6570 5ah v90" v14+(v13-v14) x 970 / 2010 9ah v154" v13+(v12-v13) x 520 / 1280 dah v218" v12+(v11-v12) x 630 / 810 1bh v27" v16+(v15-v16) x 6070 / 6570 5bh v91" v14+(v13-v14) x 1000 / 2010 9bh v155" v13+(v12-v13) x 540 / 1280 dbh v219" v12+(v11-v12) x 660 / 810 1ch v28" v16+(v15-v16) x 6180 / 6570 5ch v92" v14+(v13-v14) x 1030 / 2010 9ch v156" v13+(v12-v13) x 560 / 1280 dch v220" v12+(v11-v12) x 690 / 810 1dh v29" v16+(v15-v16) x 6280 / 6570 5dh v93" v14+(v13-v14) x 1060 / 2010 9dh v157" v13+(v12-v13) x 580 / 1280 ddh v221" v12+(v11-v12) x 720 / 810 1eh v30" v16+(v15-v16) x 6380 / 6570 5eh v94" v14+(v13-v14) x 1090 / 2010 9eh v158" v13+(v12-v13) x 600 / 1280 deh v222" v12+(v11-v12) x 750 / 810 1fh v31" v16+(v15-v16) x 6480 / 6570 5fh v95" v14+(v13-v14) x 1120 / 2010 9fh v159" v13+(v12-v13) x 620 / 1280 dfh v223" v12+(v11-v12) x 780 / 810 20h v32" v15 60h v96" v14+(v13-v14) x 1150 2010 a0h v160" v13+(v12-v13) x 640 1280 e0h v224" v11 21h v33" v15+(v14-v15) x 90 / 2030 61h v97" v14+(v13-v14) x 1180 / 2010 a1h v161" v13+(v12-v13) x 660 / 1280 e1h v225" v11+(v10-v11) x 30 / 2940 22h v34" v15+(v14-v15) x 180 / 2030 62h v98" v14+(v13-v14) x 1210 / 2010 a2h v162" v13+(v12-v13) x 680 / 1280 e2h v226" v11+(v10-v11) x 70 / 2940 23h v35" v15+(v14-v15) x 260 / 2030 63h v99" v14+(v13-v14) x 1240 / 2010 a3h v163" v13+(v12-v13) x 700 / 1280 e3h v227" v11+(v10-v11) x 110 / 2940 24h v36" v15+(v14-v15) x 340 / 2030 64h v100" v14+(v13-v14) x 1270 / 2010 a4h v164" v13+(v12-v13) x 720 / 1280 e4h v228" v11+(v10-v11) x 150 / 2940 25h v37" v15+(v14-v15) x 420 / 2030 65h v101" v14+(v13-v14) x 1300 / 2010 a5h v165" v13+(v12-v13) x 740 / 1280 e5h v229" v11+(v10-v11) x 190 / 2940 26h v38" v15+(v14-v15) x 500 / 2030 66h v102" v14+(v13-v14) x 1330 / 2010 a6h v166" v13+(v12-v13) x 760 / 1280 e6h v230" v11+(v10-v11) x 230 / 2940 27h v39" v15+(v14-v15) x 575 / 2030 67h v103" v14+(v13-v14) x 1360 / 2010 a7h v167" v13+(v12-v13) x 780 / 1280 e7h v231" v11+(v10-v11) x 280 / 2940 28h v40" v15+(v14-v15) x 650 / 2030 68h v104" v14+(v13-v14) x 1390 / 2010 a8h v168" v13+(v12-v13) x 800 / 1280 e8h v232" v11+(v10-v11) x 330 / 2940 29h v41" v15+(v14-v15) x 720 / 2030 69h v105" v14+(v13-v14) x 1420 / 2010 a9h v169" v13+(v12-v13) x 820 / 1280 e9h v233" v11+(v10-v11) x 380 / 2940 2ah v42" v15+(v14-v15) x 790 / 2030 6ah v106" v14+(v13-v14) x 1450 / 2010 aah v170" v13+(v12-v13) x 840 / 1280 eah v234" v11+(v10-v11) x 440 / 2940 2bh v43" v15+(v14-v15) x 860 / 2030 6bh v107" v14+(v13-v14) x 1480 / 2010 abh v171" v13+(v12-v13) x 860 / 1280 ebh v235" v11+(v10-v11) x 500 / 2940 2ch v44" v15+(v14-v15) x 930 / 2030 6ch v108" v14+(v13-v14) x 1510 / 2010 ach v172" v13+(v12-v13) x 880 / 1280 ech v236" v11+(v10-v11) x 560 / 2940 2dh v45" v15+(v14-v15) x 995 / 2030 6dh v109" v14+(v13-v14) x 1540 / 2010 adh v173" v13+(v12-v13) x 900 / 1280 edh v237" v11+(v10-v11) x 630 / 2940 2eh v46" v15+(v14-v15) x 1060 / 2030 6eh v110" v14+(v13-v14) x 1570 / 2010 aeh v174" v13+(v12-v13) x 920 / 1280 eeh v238" v11+(v10-v11) x 700 / 2940 2fh v47" v15+(v14-v15) x 1120 / 2030 6fh v111" v14+(v13-v14) x 1595 / 2010 afh v175" v13+(v12-v13) x 940 / 1280 efh v239" v11+(v10-v11) x 780 / 2940 30h v48" v15+(v14-v15) x 1180 / 2030 70h v112" v14+(v13-v14) x 1620 / 2010 b0h v176" v13+(v12-v13) x 960 / 1280 f0h v240" v11+(v10-v11) x 860 / 2940 31h v49" v15+(v14-v15) x 1240 / 2030 71h v113" v14+(v13-v14) x 1645 / 2010 b1h v177" v13+(v12-v13) x 980 / 1280 f1h v241" v11+(v10-v11) x 950 / 2940 32h v50" v15+(v14-v15) x 1300 / 2030 72h v114" v14+(v13-v14) x 1670 / 2010 b2h v178" v13+(v12-v13) x 1000 / 1280 f2h v242" v11+(v10-v11) x 1050 / 2940 33h v51" v15+(v14-v15) x 1360 / 2030 73h v115" v14+(v13-v14) x 1695 / 2010 b3h v179" v13+(v12-v13) x 1020 / 1280 f3h v243" v11+(v10-v11) x 1150 / 2940 34h v52" v15+(v14-v15) x 1420 / 2030 74h v116" v14+(v13-v14) x 1720 / 2010 b4h v180" v13+(v12-v13) x 1040 / 1280 f4h v244" v11+(v10-v11) x 1260 / 2940 35h v53" v15+(v14-v15) x 1475 / 2030 75h v117" v14+(v13-v14) x 1745 / 2010 b5h v181" v13+(v12-v13) x 1060 / 1280 f5h v245" v11+(v10-v11) x 1380 / 2940 36h v54" v15+(v14-v15) x 1530 / 2030 76h v118" v14+(v13-v14) x 1770 / 2010 b6h v182" v13+(v12-v13) x 1080 / 1280 f6h v246" v11+(v10-v11) x 1510 / 2940 37h v55" v15+(v14-v15) x 1585 / 2030 77h v119" v14+(v13-v14) x 1795 / 2010 b7h v183" v13+(v12-v13) x 1100 / 1280 f7h v247" v11+(v10-v11) x 1650 / 2940 38h v56" v15+(v14-v15) x 1640 / 2030 78h v120" v14+(v13-v14) x 1820 / 2010 b8h v184" v13+(v12-v13) x 1120 / 1280 f8h v248" v11+(v10-v11) x 1800 / 2940 39h v57" v15+(v14-v15) x 1690 / 2030 79h v121" v14+(v13-v14) x 1845 / 2010 b9h v185" v13+(v12-v13) x 1140 / 1280 f9h v249" v11+(v10-v11) x 1960 / 2940 3ah v58" v15+(v14-v15) x 1740 / 2030 7ah v122" v14+(v13-v14) x 1870 / 2010 bah v186" v13+(v12-v13) x 1160 / 1280 fah v250" v11+(v10-v11) x 2130 / 2940 3bh v59" v15+(v14-v15) x 1790 / 2030 7bh v123" v14+(v13-v14) x 1895 / 2010 bbh v187" v13+(v12-v13) x 1180 / 1280 fbh v251" v11+(v10-v11) x 2310 / 2940 3ch v60" v15+(v14-v15) x 1840 / 2030 7ch v124" v14+(v13-v14) x 1920 / 2010 bch v188" v13+(v12-v13) x 1200 / 1280 fch v252" v11+(v10-v11) x 2500 / 2940 3dh v61" v15+(v14-v15) x 1890 / 2030 7dh v125" v14+(v13-v14) x 1945 / 2010 bdh v189" v13+(v12-v13) x 1220 / 1280 fdh v253" v11+(v10-v11) x 2710 / 2940 3eh v62" v15+(v14-v15) x 1940 / 2030 7eh v126" v14+(v13-v14) x 1970 / 2010 beh v190" v13+(v12-v13) x 1240 / 1280 feh v254" v10 3fh v63" v15+(v14-v15) x 1985 / 2030 7fh v127" v14+(v13-v14) x 1990 / 2010 bfh v191" v13+(v12-v13) x 1260 / 1280 ffh v255" v9
data sheet s16771ej1v0ds 10 pd160088 5. relationship between input data and output pin data format: 8 bits 1 rgb (3 dots) input width: 12 bits x double edge (1-pixel data) (1) r,/l = h (right shift) output s 1 s 2 s 3 s 4 �x�x�x s 479 s 480 data d 00p to d 03p , d 00n to d 03n d 10p to d 13p , d 10n to d 13n d 20p to d 23p , d 20n to d 23n d 00p to d 03p , d 00n to d 03n �x�x�x d 10p to d 13p , d 10n to d 13n d 20p to d 23p , d 20n to d 23n (2) r,/l = l (left shift) output s 1 s 2 s 3 s 4 �x�x�x s 479 s 480 data d 00p to d 03p , d 00n to d 03n d 10p to d 13p , d 10n to d 13n d 20p to d 23p , d 20n to d 23n d 00p to d 03p , d 00n to d 03n �x�x�x d 10p to d 13p , d 10n to d 13n d 20p to d 23p , d 20n to d 23n pol s 2n?1 note s 2n note h v 0 -v 8 v 9 -v 17 l v 9 -v 17 v 0 -v 8 note s 2n-1 (odd output), s 2n (even output) 6. data inversion (inv) inv controls the internal data inversion. when inv = h, the internal data is inverted and clk is not inverted (see the figure as below). using the inv pin, the rsds dat a bus interface can be changed. d00n clkn rsds receiver data register d00p d23p d23n clkp d00p d00n d23p d23n clkp clkn inv = h pd160088 pd160088 inv = l rsds receiver data register
data sheet s16771ej1v0ds 11 pd160088 7. timing chart and relationship between 8-bit data and data bus line clk (differential) sthr (differential) d 00 (differential) d 01 (differential) d 02 (differential) d 03 (differential) d 10 (differential) d 11 (differential) d 12 (differential) d 13 (differential) d 20 (differential) d 21 (differential) d 22 (differential) d 23 t hold2 t hold1 t hold1 t setup2 t setup1 t setup1 s 1 (0) s 1 (6) s 2 (0) s 3 (0) s 3 (2) s 3 (4) s 3 (6) s 3 (1) s 3 (3) s 3 (5) s 3 (7) s 6 (0) s 6 (2) s 6 (4) s 6 (6) s 6 (1) s 6 (3) s 6 (5) s 6 (7) s 9 (0) s 9 (2) s 9 (4) s 9 (6) s 9 (1) s 9 (3) s 9 (5) s 9 (7) s 2 (2) s 2 (4) s 2 (6) s 1 (7) s 2 (1) s 2 (3) s 2 (5) s 2 (7) s 4 (6) s 5 (0) s 5 (2) s 5 (4) s 5 (6) s 4 (7) s 5 (1) s 5 (3) s 5 (5) s 5 (7) s 7 (6) s 8 (0) s 8 (2) s 8 (4) s 8 (6) s 7 (7) s 8 (1) s 8 (3) s 8 (5) s 8 (7) s 1 (2) s 1 (4) s 1 (1) s 1 (3) s 1 (5) s 4 (0) s 4 (2) s 4 (4) s 4 (1) s 4 (3) s 4 (5) s 7 (0) s 7 (2) s 7 (4) s 7 (1) s 7 (3) s 7 (5) remark s n(0) : lsb, s n(7) : msb
data sheet s16771ej1v0ds 12 pd160088 8. output amplifier this driver ic has two additional amplifiers called "repair amp" in both side of the ic for driving the repaired line. and these amplifiers have more driving ability than normal amplifier for s 1 to s 480 . so it is recommended to evaluate its characteristic before t he production if using. (1) the pull-up and pull-down resistor is not prepared in input pin for the characteristic. (2) the driving ability is higher than the normal amplifier. (3) "hi-z" and "output reset" function doesn't work. rpon rpin - + sn sn ? + ? 1 d/a d/a - + - + - + ? + d/a d/a - + - + d/a d/a ? + ? +
data sheet s16771ej1v0ds 13 pd160088 9. relationship between mode , stb, pol and output waveform this driver ic has a "charge sharing" function that can be controlled by mode pi n. refer to the following description of the detail function and decide to use this function after considering the su itable driving method. mode charge sharing description of charge sharing h or open disable "charge sharing" doesn?t work. l enable "charge sharing" works during stb = h period only when the polarity is changed by switching pol signal. when pol signal is not switchi ng, this function doesn't work. < mode = h or open > all outputs always become hi-z condition during stb = h in this mode. and "charge sharing" function doesn?t work and all output always start at t he falling edge of stb (refer to figure 9 ? 1 .). figure 9 ? 1. mode = h or open stb v out ? (odd) v out ? (even) pol hi-z hi-z hi-z v0 ? to ? v8 v0 ? to ? v8 v0 ? to ? v8 v9 ? to ? v17 v9 ? to ? v17 v9 ? to ? v17 ? ( ????? ? : ? repair ? amp ? output)
data sheet s16771ej1v0ds 14 pd160088 "charge sharing" function works during stb = h in this mode. so all outputs are started at the falling edge of stb. but "charge sharing" function works only when pol signal is changed. so all output become hi-z condition during stb = h without any change of pol signal (refer to figure 9 ? 2 ). figure 9 ? 2. mode = l stb pol v out ? (odd) v out ? (even) v0 ? to ? v8 v0 ? to ? v8 v0 ? to ? v8 v9 ? to ? v17 v9 ? to ? v17 v9 ? to ? v17 hi-z output reset output reset ( ????? ? : ? repair ? amp ? output)
data sheet s16771ej1v0ds 15 pd160088 10. electrical specifications absolute maximum ratings (t a = +25c, v ss1d/a = v ss2 = 0 v) parameter symbol ratings unit logic part supply voltage v dd1d/a ?0.5 to +4.0 v driver part supply voltage v dd2 ?0.3 to +14.0 v logic part input voltage v i1 ?0.5 to v dd1 + 0.5 v driver part input voltage v i2 ?0.3 to v dd2 + 0.3 v logic part output voltage v o1 ?0.5 to v dd1 + 0.5 v driver part output voltage v o2 ?0.5 to v dd2 + 0.5 v operating ambient temperature t a ?10 to +75 c storage temperature t stg ?55 to +125 c caution product quality may suffer if the absolute maximum rating is exceeded even momentarily for any parameter. that is, the absolute maximum rati ngs are rated values at which the product is on the verge of suffering physical damage , and therefore the product must be used under conditions that ensure that the absolute m aximum ratings are not exceeded. recommended operating range (t a = ?10 to +75c, v ss1d/a = v ss2 = 0 v) parameter symbol conditions min. typ. max. unit logic part supply voltage v dd1d/a 2.7 3.3 3.6 v driver part supply voltage v dd2 10.5 12.0 13.5 v high-level input voltage1 v ih1 0.7 v dd1 v dd1 v low-level input voltage1 v il1 0 0.3 v dd1 v high-level input voltage2 (differential : v rsds p?v rsds n) v ih2 +100 +200 mv low-level input voltage2 (differential : v rsds p?v rsds n) v il2 v cm = +1.2 v note ?200 ?100 mv common mode input voltage v cm clk, d xy (x = 0 to 2) (y = 0 to 3) v diff = 200 mv p-p note 0.5 1.2 1.4 v driver part output voltage v o s1 to s480, rpo1, rpo2 0.1 v dd2 ? 0.1 v v 0 -v 8 0.5 v dd2 v dd2 ? 0.1 v � - corrected voltage v n v 9 -v 17 0.1 0.5 v dd2 v clock frequency f clk v cm = 1.2 v, v diff = 200 mv p-p 85 mhz note v rsds n (clkn, dxxn) v rsds p (clkp, dxxp) v rsds p-v rsds n (internal clk, data) vcm rsds v ih2 = +100 mv min. internal logic ll hh 0 v v il2 = ? 100 mv max. v cm ? = ? (vclkp ? + ? vclkn) ? /2 ? or ? = ? (vdxxp ? + ? vdxxn) ? /2 ? (x ? = ? 0, ? 1, ? 2) v diff ? = ? (vclkp ? ? vclkn) ? or ? = ? (vdxxp ? ? vdxxn) ? (x ? = ? 0, ? 1, ? 2) remark v ih2 v il2
data sheet s16771ej1v0ds 16 pd160088 electrical characteristics (t a = ?10 to +75c, v dd1 = 2.7 to 3.6 v, v dd2 = 10.5 to 13.5 v , v ss1 = v ss2 = 0 v) parameter symbol condition min. typ. max. unit input leak current i il 1.0 a high-level output voltage v oh sthr (sthl), i oh = 0 ma v dd1 ? 0.4 v dd1 v low-level output voltage v ol sthr (sthl), i ol = 0 ma v ss1 v ss1 + 0.4 v � - corrected resistance r � v dd2 = 12.0 v, t a = 25c, v 0 -v 8 = v 9 -v 17 = 5.0 v 11.91 17.02 22.13 k � pull-up/pull-down resistance r pu v dd1 = 3.3 v mode, lpc, test 80 200 500 k � i voh v x = 11 v, v out = 10.5 v note1 ? 70 a driver output current i vol s 1 to s 480 , rpo1, rpo2 v dd2 = 12.0 v v x = 1.0 v, v out = 1.5 v note1 70 a v o = 1.5 v to v dd2 ? 1.5 v 12 20 mv output voltage deviation (dv o ) � v o v o = 0.1 to 1.5 v v o = v dd2 ? 1.5 v to v dd2 ? 0.1 v 40 50 mv � v p?p1 v o = 1.5 v to v dd2 ? 1.5 v 6 10 mv output swing voltage difference deviation (dv rms ) � v p?p2 v o = 0.1 to 1.5 v v o = v dd2 ? 1.5 v to v dd2 ? 0.1 v 30 50 mv output swing voltage average deviation av o input data: 80h 1 7.5 mv logic part dynamic current consumption1 i dd11 v dd1 note2, 3, 4 3.0 note2 6.0 note3 ma logic part dynamic current consumption2 i dd12 v dd1 note2, 3, 4 3.0 note4 6.0 note5 ma driver part dynamic current consumption i dd2 v dd2 , with no load, rpi1 and rpi2 (in) are not floating 13 note6 25 note7 ma notes 1. v x refers to the voltage applied to analog output pins s 1 to s 480 . v out refers to the output voltage of analog output pins s 1 to s 480 . 2. f clkp , f clkn = 67.5 mhz, f stb = 80.0 khz, test pattern = 55h or aah, t a = 25c, v dd1 = 3.0 v 3. f clkp , f clkn = 67.5 mhz, f stb = 80.0 khz, test pattern = 55h or aah, v dd1 = 3.6 v 4. f clkp , f clkn = 54.0 mhz, f stb = 64.9 khz, test pattern = 55h or aah, t a = 25c, v dd1 = 3.0 v 5. f clkp , f clkn = 54.0 mhz, f stb = 64.9 khz, test pattern = 55h or aah, v dd1 = 3.6 v 6. f clkp , f clkn = 67.5 mhz, f stb = 80.0 khz, test pattern = 00h, t a = 25c, v dd2 = 12.0 v 7. f clkp , f clkn = 67.5 mhz, f stb = 80.0 khz, test pattern = 00h, v dd2 = 13.5 v
data sheet s16771ej1v0ds 17 pd160088 switching characteristics (t a = ?10 to +75c, v dd1 = 2.7 to 3.6 v, v dd2 = 10.5 to 13.5 v, v ss1 = v ss2 = 0 v ) parameter symbol condition min. typ. max. unit start pulse delay time t plh1 c l = 15 pf 6 10 ns t plh2 note1 2.5 5.0 s t plh3 note2 4.0 8.0 s t phl2 note1 2.5 5.0 s driver output delay time 1 t phl3 note2 v dd2 = 12.0 v s 1 to s 480 r l = 9 k � , c l = 80 pf 4.0 8.0 s t plh4 note1 2.0 5.0 s t plh5 note2 4.0 8.0 s t phl4 note1 2.0 5.0 s driver output delay time 2 t phl5 note2 v dd2 = 12.0 v rpo1, rpo2 r l = 9 k � , c l = 80 pf + 150 pf 4.0 8.0 s c i1 logic input besides sthr (sthl), t a = 25c 4 10 pf input capacitance c i2 sthr (sthl), t a = 25c 4 15 pf notes 1. the value is specified when the drive voltage value reaches the target output vo ltage level of 10 or 90%. 2. the value is specified when the drive voltage value reac hes the target output voltage level of 8-bit accuracy. r l1 ? = ? 2.6 ? k � , ? r l2 ? to ? r l5 ? = ? 1.6 ? k � , ? c ln ? = ? 16 ? pf r l1 ? = ? 2.6 ? k � , ? r l2 ? to ? r l5 ? = ? 1.6 ? k � , ? c ln ? = ? 16 ? pf measurement ? point measurement ? point output output v com ? = ? 0.5 ? v dd2 v com ? = ? 0.5 ? v dd2 r l1 r l1 c l1 c l2 c l3 c l4 c l5 r l2 r l3 r l4 r l5 c l1 c l2 c l3 c l4 c l5 r l2 r l3 r l4 r l5 rpi1, ? rpi2 rpo1, ? rpo2 150 ? pf
data sheet s16771ej1v0ds 18 pd160088 timing requirement (t a = ?10 to +75c, v dd1 = 2.7 to 3.6 v, v ss1 = 0 v, t r = t f = 3.0 ns (cmos), t r = t f = 1.0 ns (rsds)) parameter symbol condition min. typ. max. unit clock period pw clk 11.8 ns clock pulse high period pw clk(h) 4 ns clock pulse low period pw clk(l) 4 ns data setup time t setup1 2 ns data hold time t hold1 0 ns start pulse setup time t setup2 1 ns start pulse hold time t hold2 2 ns start pulse high level width pw sth 1 2 clkp stb pulse high level width pw stb 1 s last data timing t ldt 1 clkp stb-clk time t stb-clk stb � � clkp-n � 3 ns time between stb and start pulse t stb-sth stb � � sthr(sthl) � 5 clkp pol-stb time t pol-stb pol � or � � stb � 14 ns stb-pol time t stb-pol stb � � pol � or � 10 ns remark t r and t f are defined 10 to 90% of each signal amplitude.
data sheet s16771ej1v0ds 19 pd160088 switching characteristics waveform (r,/l = h) unless otherwise specified, t he input level is defined to be v ih = 0.7 v dd1 , v il = 0.3 v dd1 at cmos signal and 0 v at differential signal (rsds). pw clk(l) pw sth pw clk pw stb pw clk(h) clk (differential) (differential) pol s1 ? to ? s480 stb sthr (1st ? dr.) sthl (1st ? dr.) t setup2 t setup1 t hold2 t hold1 t plh1 t phl1 t ldt t plh3 t plh5 t phl5 t plh4 t phl4 t phl3 t plh2 t phl2 t stb-clk t pol-stb t stb-pol t r t r t f t f t stb-sth 123 hi-z invalid even odd 160 161 even even last data 1 rpo1, rpo2 2 0 ? v v dd1 v dd1 v dd1 v dd1 v ss1 v ss1 v ss1 v ss1 invalid odd odd 10% 90% 10% d n0 ? to ? d n3 10% 90% 10% 0 ? v 0 ? v0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0.7v dd1 0.7v dd1 0.7v dd1 0.7v dd1 0.3v dd1 0.3v dd1 0.3v dd1 0.3v dd1 0.3v dd1 0.7v dd1 0.7v dd1 0.7v dd1 0.7v dd1
data sheet s16771ej1v0ds 20 pd160088 ? ? 3 2 1 invalid even odd 160 161 even odd even last data 1 2 0 ? v 0 ? v invalid odd output reset 90% 10% 10% 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 0 ? v 10% 10% 90% clk (differential) sthr (1st ? dr.) (differential) d n0p ? to ? d n2p sthl (1st ? dr.) stb pol s1 ? to ? s480 rpo1, rpo2 pw clk(l) pw clk(h) pw clk pw stb t setup2 t hold2 0.7v dd1 0.7v dd1 pw sth t setup1 t hold1 t plh1 t phl1 0.7v dd1 0.7v dd1 0.7v dd1 0.3v dd1 0.3v dd1 0.3v dd1 0.3v dd1 0.7v dd1 0.7v dd1 0.7v dd1 t stb-clk t pol-stb t stb-pol t ldt t plh3 t plh5 t phl5 t plh4 t phl4 t phl3 t phl2 t plh2 t stb-sth t r t r t f t f 0.3v dd1 v dd1 v dd1 v dd1 v dd1 v ss1 v ss1 v ss1 v ss1
data sheet s16771ej1v0ds 21 pd160088 11. recommended mounting conditions the following conditions must be me t for mounting conditions of the pd160088. for more details, refer to the [semiconductor device mounting manual] (http: //www.necel.com/p kg/en/mount/index.html) please consult with our sales offices in case other mounti ng process is used, or in case the mounting is done under different conditions. pd160088n-xxx: tcp (tab package) mounting condition mounting method condition thermocompression soldering heating tool 300 to 350 c, heating for 2 to 3 seconds : pressure 100g (per solder) acf (adhesive conductive film) temporary bonding 70 to 100 c: pressure 3 to 8 kg/cm 2 : time 3 to 5 sec. real bonding 165 to 180 c: pressure 25 to 45 kg/cm 2 : time 30 to 40 sec. (when using the anisotropy conductive film sumizac1003 of sumitomo bakelite,ltd). caution to find out the detailed conditions for mounting the acf part, please contact the acf manufacturing company. be sure to avoid us ing two or more mounting methods at a time.
data sheet s16771ej1v0ds 22 pd160088 1 2 3 4 voltage application waveform at input pin waveform distortion due to input noise or a reflected wave may cause malfunction. if the input of the cmos device stays in the area between v il (max) and v ih (min) due to noise, etc., the device may malfunction. take care to prevent chattering noise from entering the device when the input level is fixed, and also in the transition period when the input level passes through the area between v il (max) and v ih (min). handling of unused input pins unconnected cmos device inputs can be cause of malfunction. if an input pin is unconnected, it is possible that an internal input level may be generated due to noise, etc., causing malfunction. cmos devices behave differently than bipolar or nmos devices. input levels of cmos devices must be fixed high or low by using pull-up or pull-down circuitry. each unused pin should be connected to v dd or gnd via a resistor if there is a possibility that it will be an output pin. all handling related to unused pins must be judged separately for each device and according to related specifications governing the device. precaution against esd a strong electric field, when exposed to a mos device, can cause destruction of the gate oxide and ultimately degrade the device operation. steps must be taken to stop generation of static electricity as much as possible, and quickly dissipate it when it has occurred. environmental control must be adequate. when it is dry, a humidifier should be used. it is recommended to avoid using insulators that easily build up static electricity. semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. all test and measurement tools including work benches and floors should be grounded. the operator should be grounded using a wrist strap. semiconductor devices must not be touched with bare hands. similar precautions need to be taken for pw boards with mounted semiconductor devices. status before initialization power-on does not necessarily define the initial status of a mos device. immediately after the power source is turned on, devices with reset functions have not yet been initialized. hence, power-on does not guarantee output pin levels, i/o settings or contents of registers. a device is not initialized until the reset signal is received. a reset operation must be executed immediately after power-on for devices with reset functions. notes for cmos devices
pd160088 reference documents nec semiconductor device reliability /quality control system (c10983e) quality grades on nec semi conductor devices (c11531e) the information in this document is current as of may, 2004. the information is subject to change without notice. for actual design-in, refer to the latest publications of nec electronics data sheets or data books, etc., for the most up-to-date specifications of nec electronics products. not all products and/or types are available in every country. please check with an nec electronics sales representative for availability and additional information. no part of this document may be copied or reproduced in any form or by any means without the prior written consent of nec electronics. nec electronics assumes no responsibility for any errors that may appear in this document. nec el ectronics does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from the use of nec electronics products listed in this document or any other liability arising from the use of such products. no license, express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of nec electronics or others. descriptions of circuits, software and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. the incorporation of these circuits, software and information in the design of a customer's equipment shall be done under the full responsibility of the customer. nec electronics assumes no responsibility for any losses incurred by customers or third parties arising from the use of these circuits, software and information. while nec electronics endeavors to enhance the quality, reliability and safety of nec electronics products, customers agree and acknowledge that the possibility of defects thereof cannot be eliminated entirely. to minimize risks of damage to property or injury (including death) to persons arising from defects in nec electronics products, customers must incorporate sufficient safety measures in their design, such as redundancy, fire-containment and anti-failure features. nec electronics products are classified into the following three quality grades: "standard", "special" and "specific". the "specific" quality grade applies only to nec electronics products developed based on a customer- designated "quality assurance program" for a specific application. the recommended applications of an nec electronics product depend on its quality grade, as indicated below. customers must check the quality grade of each nec electronics product before using it in a particular application. the quality grade of nec electronics products is "standard" unless otherwise expressly specified in nec electronics data sheets or data books, etc. if customers wish to use nec electronics products in applications not intended by nec electronics, they must contact an nec electronics sales representative in advance to determine nec electronics' willingness to support a given application. (note) ? ? ? ? ? ? m8e 02. 11-1 (1) (2) "nec electronics" as used in this statement means nec electronics corporation and also includes its majority-owned subsidiaries. "nec electronics products" means any product developed or manufactured by or for nec electronics (as defined above). computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots. transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support). aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems and medical equipment for life support, etc. "standard": "special": "specific":
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