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  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. 2003 mos integrated circuit pd160061a 384-output tft-lcd source driver (compatible with 64-gray scales) data sheet document no. s16041ej2v0ds00 (2nd edition) date published july 2003 ns cp (k) printed in japan description the pd160061a is a source driver for tft-l cds capable of dealing with displays wi th 64-gray scales. data input is based on digital input configured as 6 bits by 6 dots (2 pixels), which can realize a full-color display of 260,000 colors by output of 64 values -corrected by an internal d/a converter and 5-by -2 external power modul es. because the output dynamic range is as large as v ss2 + 0.2 v to v dd2 ? 0.2 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 driv er is equipped with a built-in 6-bit d/a converter circuit whose odd output pins and even output pins respectively output gray scale voltages of differing polar ity. assuring a maximum clock frequency of 65 mhz when driving at 2.7 v, this driver is applicable to xga-standard tf t-lcd panels and sxga tft-lcd panels. features ? cmos level input (2.3 to 3.6 v) ? 384 outputs ? input of 6 bits (gray-scale data) by 6 dots ? capable of outputting 64 values by means of 5-by-2 exte rnal power modules (10 units) and a d/a converter (r-dac) ? logic power supply voltage (v dd1 ): 2.3 to 3.6 v ? driver power supply voltage (v dd2 ): 7.5 to 9.5 v ? high-speed data transfer: f clk = 65 mhz max. (internal data transfer speed when operating at v dd1 = 2.7 v) 40 mhz max. (internal data tr ansfer speed when operating at v dd1 = 2.3 v) ? output dynamic range: v ss2 + 0.2 v to v dd2 ? 0.2 v ? apply for dot-line inversion, n-line inversion and column line inversion ? output voltage polarity inversion function (pol) ? input data inversion functi on (capable of controlling by eac h input port) (pol21, pol22) ? apply for heavy load, light load ? semi slim-chip shaped ordering information part number package pd160061an-xxx tcp (tab package) pd160061anl-xxx cof (cof package) remark the tcp?s external shape is customized. to order the required shape, so pleas e contact one of our sales representatives. the mark shows major revised points.
data sheet s16041ej2v0ds 2 pd160061a 1. block diagram 64-bit bidirectional shift register data register latch level shifter d/a converter voltage follower output d 00 d 05 sthr s 1 -------------------------------- sthl r,/l clk v dd1 v ss1 c 1 c 2 c 3 - - - - - - - - - - - - - - - - - - - - - - c 63 c 64 pol v 0 to v 9 v dd2 v ss2 s 2 s 3 s 384 stb d 10 d 15 d 20 d 25 pol21 to to to to to to d 30 d 35 d 40 d 45 d 50 d 55 pol22 src lpc hpc remark /xxx indicates active low signal. 2. relationship between ou tput circuit and d/a converter 6-bit d/a converter multi- plexer pol v 0 : v 4 v 5 : v 9 s 1 s 2 s 383 s 384 5 5
data sheet s16041ej2v0ds 3 pd160061a 3. pin configuration (copper foil surface: face-up) ( pd160061an-xxx: tcp (tab package) / pd160061anl-xxx: cof (cof package)) s 384 s 383 sthl s 382 d 55 s 381 d 54 d 53 d 52 d 51 d 50 d 45 d 44 d 43 d 42 d 41 d 40 d 35 d 34 d 33 d 32 d 31 d 30 v dd1 lpc r , /l v 9 v 8 v 7 v 6 v 5 v dd2 v ss2 v 4 v 3 v 2 v 1 v 0 hpc v ss1 src clk stb pol pol21 pol22 d 25 d 24 d 23 d 22 d 21 d 20 d 15 d 14 d 13 d 12 d 11 d 10 d 05 d 04 d 03 s 4 d 02 s 3 d 01 s 2 d 00 s 1 sthr i c pad s ur f ace remark this figure does not spec ify the tcp or cof package.
data sheet s16041ej2v0ds 4 pd160061a 4. pin functions (1/2) pin symbol pin name i/o description s 1 to s 384 driver output output the d/a conver ted 64-gray-scale analog voltage is output. d 00 to d 05 d 10 to d 15 d 20 to d 25 d 30 to d 35 d 40 to d 45 d 50 to d 55 display data input input the display data is input with a width of 36 bits, viz., the gray scale data (6 bits) by 6 dots (2 pixels). d x0 : lsb, d x5 : msb r,/l shift direction control input these refer to the start pulse i/o pi ns when driver ics are connected in cascade. fetching of display data starts when h is read at the rising edge of clk. r,/l = h (right shift): sthr input, s 1 s 384 , sthl output r,/l = l (left shift): sthl input, s 384 s 1 , sthr output sthr right shift start pulse input/output i/o sthl left shift start pulse input/output these refer to the start pulse i/o pins when driver ics are connected in cascade. fetching of display data starts when h is read at the rising edge of clk. when right shift: sthr input, sthl output when left shift: sthl input, sthr output a high level should be input as the pulse of one cycle of the clock signal. if the start pulse input is more than 2clk, the first 1clk of the high-level input is valid. clk shift clock input input refers to the shift register?s sh ift clock input. the display data is incorporated into the data register at the rising edge. at the rising edge of the 64th after the start pulse input, the start pulse output reaches the high level, thus becomi ng the start pulse of the next-level driver. if 66th clock pulses are input after input of the start pulse, input of display data is halted automatically. the contents of the shift r egister are cleared at the stb?s rising edge. stb latch input input the contents of the data register are tr ansferred to the latch circuit at the rising edge. and, at the falling edge of the stb, the gray scale volt age is supplied to the driver. when stb = h period, driver output level is hi-z (high impedance). it is necessary to ensure input of one pulse per horizontal period. pol polarity input input pol = l: the s 2n?1 output uses v 0 to v 4 as the reference supply. the s 2n output uses v 5 to v 9 as the reference supply. pol = h: the s 2n?1 output uses v 5 to v 9 as the reference supply. the s 2n output uses v 0 to v 4 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. pol21, pol22 data inversion input input data inversi on can invert when display data is loaded. pol21: d 00 to d 05 , d 10 to d 15 , d 20 to d 25 , data inversion can invert display data pol22: d 30 to d 35 , d 40 to d 45 , d 50 to d 55 , data inversion can invert display data pol21, pol22 = h: data inversion loads display data after inverting it. pol21, pol22 = l: data inversion does not invert input data. lpc, hpc bias current control input input please refer to panel loads and driver power supply voltage (v dd2 ), when set up these pins. refer to 10. bias current control by lpc and hpc . lpc pin is pulled down to the v ss1 inside the ic, hpc pin is pulled up to the v dd1 inside the ic.
data sheet s16041ej2v0ds 5 pd160061a (2/2) pin symbol pin name i/o description src high driving time control input this pin is set up to high drive time of the output amplifier. please decide the pin setting refer to panel loads and one horizontal period. src pin is pulled up to the v dd1 inside the ic. src = h or open: high drive time 64 clk (normally period mode) src = l: high drive time 128 clk (long time mode) refer to 9. src and high drive time. v 0 to v 9 -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 ? 0.2 v v 0 > v 1 > v 2 > v 3 > v 4 0.5 v dd2 v dd2 ? 0.3 v > v 5 > v 6 > v 7 > v 8 > v 9 v ss2 + 0.2 v v dd1 logic power supply ? 2.3 to 3.6 v v dd2 driver power supply ? 7.5 to 9.5 v v ss1 logic ground ? grounding v ss2 driver ground ? grounding cautions 1. the power start sequence must be v dd1 , logic input, and v dd2 & v 0 to v 9 in that order. reverse this sequence to shut down. 2. to stabilize the supply voltage, please be sure to insert a 0.1 f bypass capacitor between v dd1 to v ss1 and v dd2 to v ss2 . furthermore, for increased precision of the d/a converter, insertion of a bypass capacitor of about 0.01 f is also recommended between the -corrected power supply terminals (v 0 , v 1 , v 2 ,....., v 9 ) and v ss .
data sheet s16041ej2v0ds 6 pd160061a 5. relationship between inpu t data and output voltage value the pd160061a incorporates a 6-bit d/a c onverter whose odd output pins and even output pins output respectively gray scale voltages of differing polarity wi th respect to the lcd?s counter electrode voltage. the d/a converter consists of ladder resistors and switches. the ladder resistors (r0 to r62) ar e designed so that the ratio of lcd panel -compensated voltages to v 0 ? to v 63 ? and v 0 ? to v 63 ? is almost equivalent, resistor ratio is shown in figure 5 ? 2. for the 2 sets of five -compensated power supplies, v 0 to v 4 and v 5 to v 9 , respectively, input gray scale voltages of the same polarity with respect to the common voltage. when fine-gray scale voltage precision is not necessary, there is no need to connec t a voltage follower circuit to the - compensated power supplies v 1 to v 3 and v 6 to v 8 . figure 5?1 shows the relationship between the driving voltages such as liquid-crystal driving voltages v dd2 and v ss2 , common electrode potential v com , and -corrected voltages v 0 to v 9 and the input data. be su re to maintain the voltage relationships of below. v dd2 ? 0.2 v v 0 > v 1 > v 2 > v 3 > v 4 0.5 v dd2 0.5 v dd2 ? 0.3 v v 5 > v 6 > v 7 > v 8 > v 9 > v ss2 + 0.2 v figures 5?2 indicates -corrected voltages and ladder resistors ratio. fi gures 5?3 indicates the relationship between the input data and out put voltage. figure 5?1. relationship between input data and - corrected power supplies v 1 v 2 v 3 v 4 v ss2 00 10 20 30 3f v 0 v 6 v 8 v dd2 16 v 9 16 16 16 16 0.2 v 0.2 v 0.3 v input data (hex.) 16 16 16 v 5 v 7 split interval 0.5 v dd2
data sheet s16041ej2v0ds 7 pd160061a figure 5?2. - corrected voltages and ladder resistors ratio cautions1. there is no connection between v 4 and v 5 terminal in the ic. 2. the resistance ratio is a relative ratio in the case of setting the resistance minimum value to 1. v 0 v 17 ?? v 16 ?? v 15 ?? v 1 ?? v 2 ?? v 0 ?? v 61 ?? v 60 ?? v 49 ?? v 48 ?? v 47 ?? r 60 r 59 r 49 r 48 r 47 r 46 v 6 r 61 r 17 r 16 r 15 r 14 v 8 v 62 ?? r 62 v 9 v 63 ?? v 5 v 47 ? v 48 ? v 49 ? v 61 ? v 62 ? v 63 ? v 2 ? v 3 ? v 15 ? v 16 ? v 17 ? r 2 r 3 r 14 r 15 r 16 r 17 v 1 r 1 r 46 r 47 r 48 r 49 r 60 r 61 r 62 v 3 v 4 v 1 ? r 0 r 2 r 1 r 0 v 0 ? rn ratio value (typ.) r0 11.77 1766 r1 4.91 736 r2 3.77 566 r3 3.39 509 r4 2.64 396 r5 2.27 340 r6 1.89 283 r7 1.89 283 r8 1.51 226 r9 1.51 226 r10 1.13 170 r11 1.13 170 r12 1.13 170 r13 1.13 170 r14 1.13 170 r15 1.13 170 r16 1.01 152 r17 1.01 152 r18 1.01 152 r19 1.01 152 r20 1.02 153 r21 1.01 152 r22 1.01 152 r23 1.00 150 r24 1.00 150 r25 1.00 150 r26 1.00 150 r27 1.01 152 r28 1.01 152 r29 1.01 152 r30 1.01 152 r31 1.01 152 r32 1.04 156 r33 1.04 156 r34 1.04 156 r35 1.04 156 r36 1.04 156 r37 1.04 156 r38 1.04 156 r39 1.04 156 r40 1.04 156 r41 1.04 156 r42 1.04 156 r43 1.05 157 r44 1.05 157 r45 1.05 157 r46 1.05 157 r47 1.04 156 r48 1.17 175 r49 1.17 175 r50 1.17 175 r51 1.17 175 r52 1.17 176 r53 1.55 232 r54 1.55 232 r55 1.55 232 r56 1.55 232 r57 1.93 289 r58 2.30 345 r59 2.68 402 r60 2.68 402 r61 3.06 459 r62 5.81 872
data sheet s16041ej2v0ds 8 pd160061a figure 5?3. relationship between input data and output voltage (pol21, pol22 = l) output voltage 1: v dd2 ? 0.2 v v 0 > v 1 > v 2 > v 3 > v 4 0.5 v dd2 output voltage 2: 0.5 v dd2 ? 0.3 v v 5 > v 6 > v 7 > v 8 > v 9 v ss2 + 0.2 v input 00h v 0' v 0 v 0'' v 9 01h v 1' v 1 + ( v 0 -v 1 ) 4585 / 6351 v 1'' v 9 + ( v 8 -v 9 ) 1766 / 6351 02h v 2' v 1 +(v 0 -v 1 ) 3849 / 6351 v 2'' v 9 +(v 8 -v 9 ) 2502 / 6351 03h v 3' v 1 +(v 0 -v 1 ) 3283 / 6351 v 3'' v 9 +(v 8 -v 9 ) 3068 / 6351 04h v 4' v 1 +(v 0 -v 1 ) 2774 / 6351 v 4'' v 9 +(v 8 -v 9 ) 3577 / 6351 05h v 5' v 1 +(v 0 -v 1 ) 2378 / 6351 v 5'' v 9 +(v 8 -v 9 ) 3973 / 6351 06h v 6' v 1 +(v 0 -v 1 ) 2038 / 6351 v 6'' v 9 +(v 8 -v 9 ) 4313 / 6351 07h v 7' v 1 +(v 0 -v 1 ) 1755 / 6351 v 7'' v 9 +(v 8 -v 9 ) 4596 / 6351 08h v 8' v 1 +(v 0 -v 1 ) 1472 / 6351 v 8'' v 9 +(v 8 -v 9 ) 4879 / 6351 09h v 9' v 1 +(v 0 -v 1 ) 1246 / 6351 v 9'' v 9 +(v 8 -v 9 ) 5105 / 6351 0ah v 10' v 1 +(v 0 -v 1 ) 1020 / 6351 v 10'' v 9 +(v 8 -v 9 ) 5331 / 6351 0bh v 11' v 1 +(v 0 -v 1 ) 850 / 6351 v 11'' v 9 +(v 8 -v 9 ) 5501 / 6351 0ch v 12' v 1 +(v 0 -v 1 ) 680 / 6351 v 12'' v 9 +(v 8 -v 9 ) 5671 / 6351 0dh v 13' v 1 +(v 0 -v 1 ) 510 / 6351 v 13'' v 9 +(v 8 -v 9 ) 5841 / 6351 0eh v 14' v 1 +(v 0 -v 1 ) 340 / 6351 v 14'' v 9 +(v 8 -v 9 ) 6011 / 6351 0fh v 15' v 1 +(v 0 -v 1 ) 170 / 6351 v 15'' v 9 +(v 8 -v 9 ) 6181 / 6351 10h v 16' v 1 v 16'' v 8 11h v 17' v 2 +(v 1 -v 2 ) 2273 / 2425 v 17'' v 8 +(v 7 -v 8 ) 152 / 2425 12h v 18' v 2 +(v 1 -v 2 ) 2121 / 2425 v 18'' v 8 +(v 7 -v 8 ) 304 / 2425 13h v 19' v 2 +(v 1 -v 2 ) 1969 / 2425 v 19'' v 8 +(v 7 -v 8 ) 456 / 2425 14h v 20' v 2 +(v 1 -v 2 ) 1817 / 2425 v 20'' v 8 +(v 7 -v 8 ) 608 / 2425 15h v 21' v 2 +(v 1 -v 2 ) 1664 / 2425 v 21'' v 8 +(v 7 -v 8 ) 761 / 2425 16h v 22' v 2 +(v 1 -v 2 ) 1512 / 2425 v 22'' v 8 +(v 7 -v 8 ) 913 / 2425 17h v 23' v 2 +(v 1 -v 2 ) 1360 / 2425 v 23'' v 8 +(v 7 -v 8 ) 1065 / 2425 18h v 24' v 2 +(v 1 -v 2 ) 1210 / 2425 v 24'' v 8 +(v 7 -v 8 ) 1215 / 2425 19h v 25' v 2 +(v 1 -v 2 ) 1060 / 2425 v 25'' v 8 +(v 7 -v 8 ) 1365 / 2425 1ah v 26' v 2 +(v 1 -v 2 ) 910 / 2425 v 26'' v 8 +(v 7 -v 8 ) 1515 / 2425 1bh v 27' v 2 +(v 1 -v 2 ) 760 / 2425 v 27'' v 8 +(v 7 -v 8 ) 1665 / 2425 1ch v 28' v 2 +(v 1 -v 2 ) 608 / 2425 v 28'' v 8 +(v 7 -v 8 ) 1817 / 2425 1dh v 29' v 2 +(v 1 -v 2 ) 456 / 2425 v 29'' v 8 +(v 7 -v 8 ) 1969 / 2425 1eh v 30' v 2 +(v 1 -v 2 ) 304 / 2425 v 30'' v 8 +(v 7 -v 8 ) 2121 / 2425 1fh v 31' v 2 +(v 1 -v 2 ) 152 / 2425 v 31'' v 8 +(v 7 -v 8 ) 2273 / 2425 20h v 32' v 2 v 32'' v 7 21h v 33' v 3 +(v 2 -v 3 ) 2344 / 2500 v 33'' v 7 +(v 6 -v 7 ) 156 / 2500 22h v 34' v 3 +(v 2 -v 3 ) 2188 / 2500 v 34'' v 7 +(v 6 -v 7 ) 312 / 2500 23h v 35' v 3 +(v 2 -v 3 ) 2032 / 2500 v 35'' v 7 +(v 6 -v 7 ) 468 / 2500 24h v 36' v 3 +(v 2 -v 3 ) 1876 / 2500 v 36'' v 7 +(v 6 -v 7 ) 624 / 2500 25h v 37' v 3 +(v 2 -v 3 ) 1720 / 2500 v 37'' v 7 +(v 6 -v 7 ) 780 / 2500 26h v 38' v 3 +(v 2 -v 3 ) 1564 / 2500 v 38'' v 7 +(v 6 -v 7 ) 936 / 2500 27h v 39' v 3 +(v 2 -v 3 ) 1408 / 2500 v 39'' v 7 +(v 6 -v 7 ) 1092 / 2500 28h v 40' v 3 +(v 2 -v 3 ) 1252 / 2500 v 40'' v 7 +(v 6 -v 7 ) 1248 / 2500 29h v 41' v 3 +(v 2 -v 3 ) 1096 / 2500 v 41'' v 7 +(v 6 -v 7 ) 1404 / 2500 2ah v 42' v 3 +(v 2 -v 3 ) 940 / 2500 v 42'' v 7 +(v 6 -v 7 ) 1560 / 2500 2bh v 43' v 3 +(v 2 -v 3 ) 784 / 2500 v 43'' v 7 +(v 6 -v 7 ) 1716 / 2500 2ch v 44' v 3 +(v 2 -v 3 ) 627 / 2500 v 44'' v 7 +(v 6 -v 7 ) 1873 / 2500 2dh v 45' v 3 +(v 2 -v 3 ) 470 / 2500 v 45'' v 7 +(v 6 -v 7 ) 2030 / 2500 2eh v 46' v 3 +(v 2 -v 3 ) 313 / 2500 v 46'' v 7 +(v 6 -v 7 ) 2187 / 2500 2fh v 47' v 3 +(v 2 -v 3 ) 156 / 2500 v 47'' v 7 +(v 6 -v 7 ) 2344 / 2500 30h v 48' v 3 v 48'' v 6 31h v 49' v 4 +(v 3 -v 4 ) 4398 / 4573 v 49'' v 6 +(v 5 -v 6 ) 175 / 4573 32h v 50' v 4 +(v 3 -v 4 ) 4223 / 4573 v 50'' v 6 +(v 5 -v 6 ) 350 / 4573 33h v 51' v 4 +(v 3 -v 4 ) 4048 / 4573 v 51'' v 6 +(v 5 -v 6 ) 525 / 4573 34h v 52' v 4 +(v 3 -v 4 ) 3873 / 4573 v 52'' v 6 +(v 5 -v 6 ) 700 / 4573 35h v 53' v 4 +(v 3 -v 4 ) 3697 / 4573 v 53'' v 6 +(v 5 -v 6 ) 876 / 4573 36h v 54' v 4 +(v 3 -v 4 ) 3465 / 4573 v 54'' v 6 +(v 5 -v 6 ) 1108 / 4573 37h v 55' v 4 +(v 3 -v 4 ) 3233 / 4573 v 55'' v 6 +(v 5 -v 6 ) 1340 / 4573 38h v 56' v 4 +(v 3 -v 4 ) 3001 / 4573 v 56'' v 6 +(v 5 -v 6 ) 1572 / 4573 39h v 57' v 4 +(v 3 -v 4 ) 2769 / 4573 v 57'' v 6 +(v 5 -v 6 ) 1804 / 4573 3ah v 58' v 4 +(v 3 -v 4 ) 2480 / 4573 v 58'' v 6 +(v 5 -v 6 ) 2093 / 4573 3bh v 59' v 4 +(v 3 -v 4 ) 2135 / 4573 v 59'' v 6 +(v 5 -v 6 ) 2438 / 4573 3ch v 60' v 4 +(v 3 -v 4 ) 1733 / 4573 v 60'' v 6 +(v 5 -v 6 ) 2840 / 4573 3dh v 61' v 4 +(v 3 -v 4 ) 1331 / 4573 v 61'' v 6 +(v 5 -v 6 ) 3242 / 4573 3eh v 62' v 4 + (v 3 - v 4 ) 872 / 4573 v 62'' v 6 + (v 5 - v 6 ) 3701 / 4573 3fh v 63' v 4 v 63'' v 5 output voltage 1 output voltage 2
data sheet s16041ej2v0ds 9 pd160061a 6. relationship between input data and output pin data format : 6 bits x 2 rgbs (6 dots) input width : 36 bits (2-pixel data) (1) r,/l = h (right shift) output s 1 s 2 s 3 s 4 ... s 527 s 384 data d 00 to d 05 d 10 to d 15 d 20 to d 25 d 30 to d 35 ... d 40 to d 45 d 50 to d 55 (2) r,/l = l (left shift) output s 1 s 2 s3 s4 ... s 527 s 384 data d 00 to d 05 d 10 to d 15 d 20 to d 25 d 30 to d 35 ... d 40 to d 45 d 50 to d 55 pol s 2n?1 note s 2n note l v 0 to v 4 v 5 to v 9 h v 5 to v 9 v 0 to v 4 note s 2n?1 (odd output), s 2n (even output)
data sheet s16041ej2v0ds 10 pd160061a 7. relationship between stb clk and output waveform figure 7?1. input ci rcuit block diagram dac + output amp. sw1 sn (v x ) v amp(in) - figure 7?2. output circuit timing waveform stb s n (v x ) clk v amp(in) hi-z [1] [1'] t stb-clk sw1: off stb = h is loaded with the rising edge of clk[1]. however, when not satisfyi ng the specification of f stb-clk , stb = h is loaded with the rising edge of the next clk[1 ]. latch operation of display data is completed with the falling edge of the next clk which loaded stb = h. therefore, in order to complete latch operation of display data, it is necessary to input at least 2 clk in stb = h period. besides, after loading stb=h to the timing of [1], it is necessary to continue inputting clk.
data sheet s16041ej2v0ds 11 pd160061a 8. relationship between stb, pol and output waveform when the stb is high level, all output s became hi-z and the gray-scale voltage is output to the lcd in synchronization with the falling edge of stb. therefore, high drive time of the output amplifier as below is determined by the clk number of the required src pin setting. be sure to avoid using such as extremely changing the clk frequency (ex. clk stop). hi-z stb inside bias current pol vx (odd output) vx (even output) hi-z hi-z v 5 - v 9 v 0 - v 4 v 0 - v 4 v 0 - v 4 v 5 - v 9 v 5 - v 9 high drive time high drive time high drive time 9. src and high drive time the pd160061a can control high drive time of the output amplifier by src pi n logic (refer to below figure). src = h or open (high drive time: standard mode): high drive time (pwhp) of the output amplifier is in 64 clk period from falling edge of the stb. src = l (high drive time: long-term mode): high drive time (pwhp) of the output amp lifier is in 128 clk period from falling edge of the stb. stb clk inside bias current pwhp we recommend a thorough simulation of the output amplifier in advance when set the src pin.
data sheet s16041ej2v0ds 12 pd160061a 10. bias current co ntrol by lpc and hpc the pd160061a can control the bias current of the output amplifier in high drive period and low drive period. bias current lpc hpc panel load high h l heavy middle h or open l normal l or open h or open low h h or open light we recommend a thorough simulation of the output amplifier in advanc e, when set the lpc and hpc pins. refer to the table below for the example of the combinat ion of setting level and panel load, with driver part supply voltage. example of condition lpc hpc src l or open l example 1 load: r l = 5 k ? , c l = 75 pf driver part supply voltage: v dd2 = 7.5 v bias current mode: middle h or open l or open h or open example 2 load: r l = 5 k ? , c l = 75 pf driver part supply voltage: v dd2 = 9.0 v bias current mode: normal h or open h l example 3 load: r l = 40 k ? , c l = 80 pf driver part supply voltage: v dd2 = 9.0 v bias current mode: high l
data sheet s16041ej2v0ds 13 pd160061a 11. electrical specifications absolute maximum ratings (t a = 25 c, v ss1 = v ss2 = 0 v) parameter symbol rating unit logic part supply voltage v dd1 ?0.5 to +4.0 v driver part supply voltage v dd2 ?0.5 to +10.0 v logic part input voltage v i1 ?0.5 to v dd1 + 0.5 v driver part input voltage v i2 ?0.5 to v dd2 + 0.5 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 m aximum rating is exceeded ev en momentarily for any parameter. that is, the absolute maximum ratings 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 maximum ratings are not exceeded. recommended operating range (t a = ?10 to +75 c, v ss1 = v ss2 = 0 v) parameter symbol condition min. typ. max. unit logic part supply voltage v dd1 2.3 3.6 v driver part supply voltage v dd2 7.5 8.5 9.5 v high-level input voltage v ih 0.7 v dd1 v dd1 v low-level input voltage v il 0 0.3 v dd1 v -corrected voltage v 0 to v 4 7.5 v v dd1 9.5 v 0.5 v dd2 v dd2 ? 0.2 v v 5 to v 9 7.5 v v dd1 < 8.5 v 0.2 0.5 v dd2 ? 0.3 v 8.5 v v dd1 9.5 v 0.2 0.5 v dd2 v driver part output voltage v o 0.2 v dd2 ? 0.2 v 2.3 v v dd1 < 2.7 v 40 mhz clock frequency f clk 2.7 v v dd1 3.6 v 65 mhz
data sheet s16041ej2v0ds 14 pd160061a electrical characteristics (t a = ?10 to +75 c, v dd1 = 2.3 to 3.6 v, v dd2 = 7.5 to 9.5 v, v ss1 = v ss2 = 0 v) parameter symbol condition min. typ. max. unit input leak current i il except lpc, hpc, src 1.0 a lpc, hpc, src 150 a high-level output voltage v oh sthr (sthl), i oh = 0 ma v dd1 ? 0.1 v low-level output voltage v ol sthr (sthl), i ol = 0 ma 0.1 v -corrected resistance r v 0 to v 4 = v 5 to v 9 = 4.0 v, v dd2 = 8.5 v 7.9 15.8 23.7 k ? i voh v dd2 = 8.0 v, v x = 7.0 v, v out = 6.5 v note1 ? 20 a driver output current i vol v dd2 = 8.0 v, v x = 1.0 v, v out = 1.5 v note1 20 a output voltage deviation ? v o 10 20 mv output swing difference deviation ? v p?p t a = 25 c, v dd1 = 3.3 v, v dd2 = 8.5 v, v out = 2.0 v, 4.25 v, 6.5 v 3 15 mv logic part dynamic current consumption note2, 3, 4 i dd1 v dd1 4 12 ma driver part dynamic current consumption note2, 4 i dd22 v dd2 , with no load 3.5 8 ma notes1. v x refers to the output vo ltage of analog output pins s 1 to s 384 . v out refers to the voltage applied to analog output pins s 1 to s 384 . 2. specified at f stb = 65 khz and f clk = 54 mhz. 3. the typ. values refer to an all black or all white input pattern. the max. value refers to the measured values in the dot checkerboard input pattern. 4. refers to the current consum ption per driver when cascades are connected under the a ssumption of xga single-sided mounting (8 units). switching characteristics (t a = ?10 to +75 c, v dd1 = 2.3 to 3.6 v, v dd2 = 7.5 to 9.5 v, v ss1 = v ss2 = 0 v) parameter symbol condition min. typ. max. unit c l = 15 pf, 2.3 v v dd1 < 2.7 v 20 ns start pulse delay time t plh1 c l = 10 pf, 2.7 v v dd1 3.6 v 10.5 ns c l = 10 pf, 2.3 v v dd1 < 2.7 v 20 ns t plh1 c l = 10 pf, 2.7 v v dd1 3.6 v 10.5 ns t plh2 5 s t plh3 8 s t phl2 5 s driver output delay time t phl3 c l = 75 pf, r l = 5 k ? , lpc = l or open, hpc = h or open, src = h or open 8 s c i1 logic input of exclude sthr (sthl), t a = 25c 10 pf input capacitance c i2 sthr (sthl), t a = 25c 5 pf r ln = 1 k ? , c ln = 15 pf gnd output the measurement point c l1 c l2 c l3 c l4 c l5 r l1 r l2 r l3 r l4 r l5
data sheet s16041ej2v0ds 15 pd160061a timing requirements (t a = ?10 to +75 c, v dd1 = 2.3 to 3.6 v, v ss1 = 0 v, t r = t f = 5.0 ns) parameter symbol condition min. typ. max. unit 2.3 v v dd1 < 2.7 v 25 ns clock pulse width pw clk 2.7 v v dd1 3.6 v 15 ns 2.3 v v dd1 < 2.7 v 6 ns clock pulse high period pw clk(h) 2.7 v v dd1 3.6 v 4 ns 2.3 v v dd1 < 2.7 v 6 ns clock pulse low period pw clk(l) 2.7 v v dd1 3.6 v 4 ns data setup time t setup1 4 ns data hold time t hold1 0 ns start pulse setup time t setup2 4 ns start pulse hold time t hold2 0 ns pol21, pol22 setup time t setup3 4 ns pol21, pol22 hold time t hold3 0 ns stb pulse width pw stb 2 clk last data timing t ldt 2 clk stb-clk time t stb -clk stb clk 9 ns time between stb and start pulse t stb-sth stb sthr(sthl) 2 clk pol-stb time t pol-stb pol or stb ?5 ns stb-pol time t stb-pol stb pol or 6 ns remark unless otherwise specified, t he input level is defined to be v ih = 0.7 v dd1 , v il = 0.3 v dd1 .
data sheet s16041ej2v0ds 16 pd160061a 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 . pw clk(l) clk pol sn (v x ) stb d n0 to d n5 sthr sthl pw clk(h) t r t setup2 invalid d 1 to d 6 t hold2 1 2 1 2 3 64 65 66 t f v dd1 v ss1 v dd1 v ss1 v dd1 v ss1 v dd1 v ss1 v dd1 v ss1 v dd1 v ss1 pw clk t stb-clk t stb-sth t setup1 90% 10% t hold1 t plh1 t pol-stb t stb-pol t plh3 t plh2 t phl2 t phl3 hi-z target voltage: 10% t ldt pw stb d 7 to d 12 d 1 to d 6 d 7 to d 12 d 373 to d 378 d 379 to d 384 d 385 to d 390 last data invalid invalid v dd1 v ss1 t setup3 t hold3 pol21/22 (1st dr.) (1st dr.) invalid target voltage: 2% + ? + ?
data sheet s16041ej2v0ds 17 pd160061a 12. recommended mounting conditions the following conditions must be met for mounting conditions of the pd160061a. for more details, refer to the semiconductor device mount manual (http://www.n ecel.com/pkg/en/mount/index.html). please consult with our sales offices in case other m ounting process is used, or in case the mounting is done under different conditions. pd160061an - : tcp (tab package) mounting condition mounting method condition soldering heating tool 300 to 350c, heating for 2 to 3 seconds, pressure 100 g (per solder) thermocompression acf (adhesive conductive film) temporary bonding 70 to 100c, pressure 3 to 8 kg/cm 2 , time 3 to 5 seconds. real bonding 165 to 180c, pressure 25 to 45 kg/cm 2 , time 30 to 40 seconds. (when using the anisotropy conductive film sumizac1003 of sumitomo bakelite, ltd.) caution to find out the detailed c onditions for mounting the acf part, please contact the acf manufacturing company. be sure to avoid using two or more mounting methods at a time.
data sheet s16041ej2v0ds 18 pd160061a notes for cmos devices 1 precaution against esd for semiconductors note: 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 once, when it has occurred. environmental control must be adequate. when it is dry, humidifier should be used. it is recommended to avoid using insulators that easily build 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 bench and floor should be grounded. the operator should be grounded using wrist strap. semiconductor devices must not be touched with bare hands. similar precautions need to be taken for pw boards with semiconductor devices on it. 2 handling of unused input pins for cmos note: no connection for cmos device inputs can be cause of malfunction. if no connection is provided to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence causing malfunction. cmos devices behave differently than bipolar or nmos devices. input levels of cmos devices must be fixed high or low by using a pull-up or pull-down circuitry. each unused pin should be connected to v dd or gnd with a resistor, if it is considered to have a possibility of being an output pin. all handling related to the unused pins must be judged device by device and related specifications governing the devices. 3 status before initialization of mos devices note: power-on does not necessarily define initial status of mos device. production process of mos does not define the initial operation status of the device. immediately after the power source is turned on, the devices with reset function have not yet been initialized. hence, power-on does not guarantee out-pin levels, i/o settings or contents of registers. device is not initialized until the reset signal is received. reset operation must be executed immediately after power-on for devices having reset function.
pd160061a reference documents nec semiconductor device reliability /quality control system (c10983e) quality grades on nec semiconductor devices (c11531e) the information in this document is current as of july, 2003. 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 electronics 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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