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| o2710hkim b8-7237/31000rm(ot)/128000rm no.6370-1/38 LC75808W overview the LC75808W is 1/8 to 1/10 duty lcd display driver that can directly drive up to 600 segments and can control up to four general-purpose output ports. this pr oduct also incorporates a key scan circu it that accepts input fr om up to 30 keys to reduce printed circuit board wiring. features ? key input function for up to 30 keys (a key scan is performed only when a key is pressed.) ? 1/8duty?1/4bias, 1/9duty?1/4bias, and 1/10duty?1/4bias drive schemes can be controlled from serial data. 1/8duty?1/4bias: up to 480 segments 1/9duty?1/4bias: up to 540 segments 1/10duty?1/4bias: up to 600 segments ? sleep mode and all segments off functions that are controlled from serial data. ? serial data i/o supports ccb format co mmunication with the system controller. ? direct display of display data without the use of a decoder provides high generality. ? built-in display contrast adjustment circuit. ? up to 4 general-purpose output ports are included. ? independent lcd driver block power supply v lcd . ? provision of an on-chip voltage-detection type reset circuit prevents incorrect displays. ? the inh pin is provided. this pin turns off the display, disables key scanning, and forces the general-purpose output ports to the low level. ? rc oscillator circuit. ordering number : en6370b cmos ic 1/8 to 1/10 duty lcd display driver with key input function specifications of any and all sanyo semiconductor co.,l td. products described or contained herein stipulate the performance, characteristics, and functions of the described products in the independent state, and are not guarantees of the performance, characteristics, and functions of the described products as mounted in the customer ' s products or equipment. to verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer ' sproductsor equipment. any and all sanyo semiconductor co.,ltd. products described or contained herein are, with regard to "standard application", intended for the use as general el ectronics equipment (home appliances, av equipment, communication device, office equipment, industrial equ ipment etc.). the products mentioned herein shall not be intended for use for any "special application" (medica l equipment whose purpose is to sustain life, aerospace instrument, nuclear control device, burning appliances, t ransportation machine, traffic signal system, safety equipment etc.) that shall require extremely high level of re liability and can directly threaten human lives in case of failure or malfunction of the product or may cause har m to human bodies, nor shall they grant any guarantee thereof. if you should intend to use our products for app lications outside the standard applications of our customer who is considering such use and/or outside the scope of our intended standard applications, please consult with us prior to the intended use. if there is n o consultation or inquiry before the intended use, our customer shall be solely responsible for the use. ? ccb is a registered trademark of sanyo electric co., ltd. ? ccb is sanyo semiconductor's original bus format. all bus addresses are managed by sanyo semiconductor for this format.
LC75808W no.6370-2/38 specifications absolute maximum ratings at ta = 25 c, v ss = 0v parameter symbol conditions ratings unit v dd max v dd -0.3 to +7.0 maximum supply voltage v lcd max v lcd -0.3 to +12.0 v v in 1 ce, cl, di, inh -0.3 to +7.0 v in 2 osc, ki1 to ki5, test -0.3 to v dd +0.3 input voltage v in 3 v lcd 1, v lcd 2, v lcd 3, v lcd 4 -0.3 to v lcd +0.3 v v out 1 do -0.3 to +7.0 v out 2 osc, ks1 to ks6, p1 to p4 -0.3 to v dd +0.3 output voltage v out 3 v lcd 0, s1 to s60, com1 to com10 -0.3 to v lcd +0.3 v i out 1 s1 to s60 300 a i out 2 com1 to com10 3 i out 3 ks1 to ks6 1 output current i out 4 p1 to p4 5 ma allowable power dissipation pd max ta=85 c 200 mw operating temperature topr -40 to +85 c storage temperature tstg -55 to +125 c allowable operating ranges at ta = -40 to +85 c, v ss = 0v ratings parameter symbol conditions min typ max unit v dd v dd 4.5 6.0 v lcd v lcd , when the display contrast adjustment circuit is used 7.0 11.0 supply voltage v lcd v lcd , when the display contrast adjustment circuit is not used 4.5 11.0 v output voltage v lcd 0 v lcd 0 v lcd 4 +4.5 v lcd v v lcd 1 v lcd 1 3/4(v lcd 0 -v lcd 4) v lcd 0 v lcd 2 v lcd 2 2/4(v lcd 0 -v lcd 4) v lcd 0 v lcd 3 v lcd 3 1/4(v lcd 0 -v lcd 4) v lcd 0 input voltage v lcd 4 v lcd 4 0 1.5 v v ih 1 ce, cl, di, inh 0.8v dd 6.0 v input high level voltage v ih 2 ki1 to ki5 0.6v dd v dd v input low level voltage v il ce, cl, di, inh , ki1 to ki5 0 0.2v dd v recommended external resistance r osc osc 43 k recommended external capacitance c osc osc 680 pf guaranteed oscillation range f osc osc 25 50 100 khz data setup time tds cl, di [figure 2] 160 ns data hold time tdh cl, di [figure 2] 160 ns ce wait time tcp ce, cl [figure 2] 160 ns ce setup time tcs ce, cl [figure 2] 160 ns ce hold time tch ce, cl [figure 2] 160 ns high level clock pulse width t h cl [figure 2] 160 ns low level clock pulse width t l cl [figure 2] 160 ns do output delay time tdc do r pu =4.7k , c l =10pf *1 [figure 2] 1.5 s do rise time tdr do r pu =4.7k , c l =10pf *1 [figure 2] 1.5 s note: * 1. since do is an open-drain output, these values depend on the resistance of the pull-up resistor r pu and the load capacitance c l . LC75808W no.6370-3/38 electrical characteristics for the allowable operating ranges ratings parameter symbol conditions min typ max unit hysteresis v h ce, cl, di, inh , ki1 to ki5 0.1v dd v power-down detection voltage v det 2.5 3.0 3.5 v input high level current i ih ce, cl, di, inh : v i =6.0v 5.0 a input low level current i il ce, cl, di, inh : v i =0v -5.0 a input floating voltage v if ki1 to ki5 0.05v dd v pull-down resistance r pd ki1 to ki5: v dd =5.0v 50 100 250 k output off leakage current i offh do: v o =6.0v 6.0 a v oh 1 s1 to s60: i o =-20 a v lcd 0-0.6 v oh 2 com1 to com10: i o =-100 a v lcd 0-0.6 v oh 3 ks1 to ks6: i o =-500 a v dd -1.0 v dd -0.5 v dd -0.2 output high level voltage v oh 4 p1 to p4: i o =-1ma v dd -1.0 v v ol 1 s1 to s60: i o =20 a v lcd 4+0.6 v ol 2 com1 to com10: i o =100 a v lcd 4+0.6 v ol 3 ks1 to ks6: i o =25 a 0.2 0.5 1.5 v ol 4 p1 to p4: i o =1ma 1.0 output low level voltage v ol 5 do: i o =1ma 0.1 0.5 v v mid 1 s1 to s60: i o = 20 a 2/4(v lcd 0 -v lcd 4) -0.6 2/4(v lcd 0 -v lcd 4) +0.6 v mid 2 com1 to com10: i o = 100 a 3/4(v lcd 0 -v lcd 4) -0.6 3/4(v lcd 0 -v lcd 4) +0.6 output middle level voltage *2 v mid 3 com1 to com10: i o = 100 a 1/4(v lcd 0 -v lcd 4) -0.6 1/4(v lcd 0 -v lcd 4) +0.6 v oscillator frequency f osc osc: r osc =43k , c osc =680pf 40 50 60 khz i dd 1 v dd: sleep mode 100 i dd 2 v dd: v dd =6.0v, outputs open, f osc =50khz 250 500 i lcd 1 v lcd: sleep mode 5 i lcd 2 v lcd : v lcd =11.0v, outputs open, f osc =50khz (when the display contrast adjustment circuit is used.) 500 1000 current drain i lcd 3 v lcd : v lcd =11.0v, outputs open, f osc =50khz (when the display contrast adjustment circuit is not used.) 250 500 a note: * 2 excluding the bias voltage generation divider resistor built into v lcd 0, v lcd 1, v lcd 2, v lcd 3, and v lcd 4. (see figure 1.) figure 1 v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 contrast adjuster to the common and segment drivers excluding these resistors. a12899 LC75808W no.6370-4/38 1. when cl is stopped at the low level 2. when cl is stopped at the high level figure 2 package dimensions unit:mm (typ) 3181c sanyo : sqfp100(14x14) 14.0 16.0 14.0 16.0 0.145 0.2 0.5 (1.0) (1.4) 1.6max 0.1 0.5 125 26 50 51 75 76 100 v ih 1 v ih 1 v il v il 50% cl di ce t ht l v ih 1 v il tcp tcs tch tds tdc tdh tdr do d0 d1 a12900 tds tdh tdc tdr do d0 d1 v ih 1 v ih 1 v il v il 50% cl di ce t lt h v ih 1 v il tcp tcs tch a1290 1 LC75808W no.6370-5/38 pin assignment block diagram v lcd p1 v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 v dd v ss test osc inh contrast adjuster p4 general port com1 com1 0 s60 s59 s2 s1 common driver control register clock generator v det do di cl ce ki5 ki4 ki3 ki2 ki1 ks6 ks5 ks4 ks3 ks2 ks1 ccb interface key buffer key scan shift register segment driver & latch a12902 top view s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s11 s12 s13 s14 s15 s16 s17 s18 s19 s20 s21 s22 s23 s24 s25 s26 s27 s28 s29 s30 s31 s32 s33 s34 s35 s36 s37 s38 s39 s40 s46 s47 s48 s49 s50 ks6 s51 s52 s53 s54 s55 s56 s57 s58 s59 s60 com10 com9 com8 com7 com6 com5 com4 com3 com2 com1 ks1 ks2 ks3 ks4 ks5 ki1 ki2 ki3 ki4 s41 p4 s42 p3 s43 p2 s44 p1 s45 ki5 v dd v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 v ss test osc inh do ce cl di 125 26 50 51 75 76 100 LC75808W (sqfp100) a12898 LC75808W no.6370-6/38 pin functions symbol pin no. function active i/o handling when unused s1 to s60 1 to 60 segment driver outputs. - o open com1 to com10 70 to 61 common driver outputs. - o open ks1 to ks6 71 to 76 key scan outputs. although normal key scan timing lines require diodes to be inserted in the timing lines to prevent shorts, since these ou tputs are unbalanced cmos transistor outputs, these outputs will not be damaged by shorting when these outputs are used to form a key matrix. - o open ki1 to ki5 77 to 81 key scan inputs. these pins have built-in pull-down resistors. h i gnd p1 to p4 82 to 85 general-purpose output ports. - o open osc 95 oscillator connection. an oscillator circuit is formed by connectin g an external resistor and capacitor at this pin. - i/o v dd ce 98 h i cl 99 i di 100 - i gnd do 97 serial data interface connections to th e controller. note that do, being an open- drain output, requires a pull-up resistor. ce: chip enable cl: synchronization clock di: transfer data do: output data - o open inh 96 input that turns the display off, di sables key scanning, and forces the general-purpose output ports low. ? when inh is low (v ss ): ? display off s1 to s60 = ?l? (v lcd 4). com1 to com10 = ?l? (v lcd 4). ? general-purpose output ports p1 to p4 = low (v ss ) ? key scanning is disabled: ks1 to ks6 = low (v ss ) ? all the key data is reset to low. ? when inh is high (v dd ): ? display on ? the states of the general-purpose output ports can be set by the pc1 to pc4 control data. ? key scanning is enabled. however, serial data can be transferred when the inh pin is low. l i v dd test 94 this pin must be connected to ground. - i - v lcd 0 88 lcd drive 4/4 bias voltage (high level) supply pin. the level on this pin can be changed by the display contrast adjustment circuit. however, (v lcd 0 - v lcd 4) must be greater than or equal to 4.5v. also, external power must not be applied to this pin since the pin circuit includes the display contrast adjustment circuit. - o open v lcd 1 89 lcd drive 3/4 bias voltage (middle level) supply pin. this pin can be used to supply the 3/4 (v lcd 0 - v lcd 4) voltage level externally. - i open v lcd 2 90 lcd drive 2/4 bias voltage (middle level) supply pin. this pin can be used to supply the 2/4 (v lcd 0 - v lcd 4) voltage level externally. - i open v lcd 3 91 lcd drive 1/4 bias voltage (middle level) supply pin. this pin can be used to supply the 1/4 (v lcd 0 - v lcd 4) voltage level externally. - i open v lcd 4 92 lcd drive 0/4 bias voltage (low level) s upply pin. fine adjustment of the display contrast can be implemented by connecting an external variable resistor to this pin. however, (v lcd 0 - v lcd 4) must be greater than or equal to 4.5v, and v lcd 4 must be in the range 0 v to 1.5v, inclusive. - i gnd v dd 86 logic block power supply connection. provide a voltage of between 4.5 and 6.0v. - - - v lcd 87 lcd driver block power supply connection. provide a voltage of between 7.0 and 11.0v when the display contra st adjustment circuit is used and provide a voltage of between 4.5 and 11.0v when the circuit is not used. - - - v ss 93 power supply connection. connect to ground. - - - LC75808W no.6370-7/38 serial data input 1. 1/8 duty (1) when cl is stopped at the low level. ? when the display data is transferred. ? when the control data is transferred. note: b0 to b3, a0 to a3 ........ ccb address dd ................................ direction data 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d1 d2 d109 d110 d111 d112 d113 d114 d115 d116 d117 d118 d119 d120 0 0 0 0 0 0 0 0 ce cl di do display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d121 d122 d229 d230 d231 d232 d233 d234 d235 d236 d237 d238 d239 d240 0 0 0 0 0 0 0 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d241 d242 d349 d350 d351 d352 d353 d354 d355 d356 d357 d358 d359 d360 0 0 0 0 0 0 1 0 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d361 d362 d469 d470 d471 d472 d473 d474 d475 d476 d477 d478 d479 d480 0 0 0 0 0 0 1 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 kc1 kc2 kc3 kc4 kc5 kc6 pc1 pc2 pc3 pc4 ct0 ct1 ct2 ct3 ctc sc sp dt1 dt2 0 0 1 0 0 ce cl di do control data dd a 12903 LC75808W no.6370-8/38 (2) when cl is stopped at the high level. ? when the display data is transferred. ? when the control data is transferred. note: b0 to b3, a0 to a3......... ccb address dd .................................. direction data ? ccb address: ?????.... 42h ? d1 to d480: .......................... display data ? kc1 to kc6: ????... ...... key scan output state setting data ? pc1 to pc4: ?????....... general-purpose output port state setting data ? ct0 to ct3, ctc: ???? display contrast setting data ? sc: ........................................ segment on/off control data ? sp: ........................................ norm al mode/sleep mode control data ? dt1, dt2: ............. ............... display technique setting data 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d2 d1 d109 d110 d111 d112 d113 d114 d115 d116 d117 d118 d119 d120 0 0 0 0 0 0 0 0 ce cl di do display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 kc2 kc1 kc3 kc4 sp dt1 dt2 0 0 1 0 0 ce cl di do control data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d229 d121 d122 d230 d231 d232 d233 d234 d235 d236 d237 d238 d239 d240 0 0 0 0 0 0 0 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d349 d241 d242 d350 d351 d352 d353 d354 d355 d356 d357 d358 d359 d360 0 0 0 0 0 0 1 0 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d469 d361 d362 d470 d471 d472 d473 d474 d475 d476 d477 d478 d479 d480 0 0 0 0 0 0 1 1 display data fixed data dd a 12904 kc5 kc6 pc1 pc2 pc3 pc4 ct0 ct1 ct2 ct3 ctc sc LC75808W no.6370-9/38 2. 1/9 duty (1) when cl is stopped at the low level. ? when the display data is transferred. ? when the control data is transferred. note: b0 to b3, a0 to a3 ........ ccb address dd ................................ direction data 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d1 d2 d125 d126 d127 d128 d129 d130 d131 d132 d133 d134 d135 0 0 0 0 0 0 0 0 0 ce cl di do display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d136 d137 d260 d261 d262 d263 d264 d265 d266 d267 d268 d269 d270 0 0 0 0 0 0 0 0 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d271 d272 d395 d396 d397 d398 d399 d400 d401 d402 d403 d404 d405 0 0 0 0 0 0 0 1 0 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d406 d407 d530 d531 d532 d533 d534 d535 d536 d537 d538 d539 d540 0 0 0 0 0 0 0 1 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 kc1 kc2 kc3 kc4 kc5 kc6 pc1 pc2 pc3 pc4 ct0 ct1 ct2 ct3 ctc sc sp dt1 dt2 0 0 1 0 0 ce cl di do control data dd a 1290 5 LC75808W no.6370-10/38 (2) when cl is stopped at the high level. ? when the display data is transferred. ? when the control data is transferred. note: b0 to b3, a0 to a3......... ccb address dd .................................. direction data ? ccb address: ?????.... 42h ? d1 to d540: .......................... display data ? kc1 to kc6: ????... ...... key scan output state setting data ? pc1 to pc4: ?????....... general-purpose output port state setting data ? ct0 to ct3, ctc: ???? display contrast setting data ? sc: ........................................ segment on/off control data ? sp: ........................................ norm al mode/sleep mode control data ? dt1, dt2: ............. ............... display technique setting data 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d2 d1 d125 d126 d127 d128 d129 d130 d131 d132 d133 d134 d135 0 0 0 0 0 0 0 0 0 ce cl di do display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 kc2 kc1 kc3 kc4 sp dt1 dt2 0 0 1 0 0 ce cl di do control data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d260 d136 d137 d261 d262 d263 d264 d265 d266 d267 d268 d269 d270 0 0 0 0 0 0 0 0 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d395 d271 d272 d396 d397 d398 d399 d400 d401 d402 d403 d404 d405 0 0 0 0 0 0 0 1 0 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d530 d406 d407 d531 d532 d533 d534 d535 d536 d537 d538 d539 d540 0 0 0 0 0 0 0 1 1 display data fixed data dd a 1290 6 kc5 kc6 pc1 pc2 pc3 pc4 ct0 ct1 ct2 ct3 ctc sc LC75808W no.6370-11/38 3. 1/10 duty (1) when cl is stopped at the low level. ? when the display data is transferred. ? when the control data is transferred. note: b0 to b3, a0 to a3 ........ ccb address dd ................................ direction data 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d1 d2 d141 d142 d143 d144 d145 d146 d147 d148 d149 d150 0 0 0 0 0 0 0 0 0 0 ce cl di do display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d151 d152 d291 d292 d293 d294 d295 d296 d297 d298 d299 d300 0 0 0 0 0 0 0 0 0 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d301 d302 d441 d442 d443 d444 d445 d446 d447 d448 d449 d450 0 0 0 0 0 0 0 0 1 0 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d451 d452 d591 d592 d593 d594 d595 d596 d597 d598 d599 d600 0 0 0 0 0 0 0 0 1 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 kc1 kc2 kc3 kc4 kc5 kc6 pc1 pc2 pc3 pc4 ct0 ct1 ct2 ct3 ctc sc sp dt1 dt 2 0 0 1 0 0 ce cl di do control data dd a 12907 LC75808W no.6370-12/38 (2) when cl is stopped at the high level. ? when the display data is transferred. ? when the control data is transferred. note: b0 to b3, a0 to a3......... ccb address dd .................................. direction data ? ccb address: ?????.... 42h ? d1 to d600: .......................... display data ? kc1 to kc6: ????... ...... key scan output state setting data ? pc1 to pc4: ?????....... general-purpose output port state setting data ? ct0 to ct3, ctc: ???? display contrast setting data ? sc: ........................................ segment on/off control data ? sp: ........................................ norm al mode/sleep mode control data ? dt1, dt2: ............. ............... display technique setting data 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d2 d1 d141 d142 d143 d144 d145 d146 d147 d148 d149 d150 0 0 0 0 0 0 0 0 0 0 ce cl di do display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 kc2 kc1 kc3 kc4 sp dt1 dt2 0 0 1 0 0 ce cl di do control data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d291 d151 d152 d292 d293 d294 d295 d296 d297 d298 d299 d300 0 0 0 0 0 0 0 0 0 1 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d441 d301 d302 d442 d443 d444 d445 d446 d447 d448 d449 d450 0 0 0 0 0 0 0 0 1 0 display data fixed data dd 1 0 0 0 0 0 1 0 b1 b0 b2 b3 a0 a1 a2 a3 d591 d451 d452 d592 d593 d594 d595 d596 d597 d598 d599 d600 0 0 0 0 0 0 0 0 1 1 display data fixed data dd a 1290 8 kc5 kc6 pc1 pc2 pc3 pc4 ct0 ct1 ct2 ct3 ctc sc LC75808W no.6370-13/38 control data functions 1. kc1 to kc6: key scan output state setting data these control data bits set the states of the key scan output pins ks1 to ks6. output pin ks1 ks2 ks3 ks4 ks5 ks6 key scan output state setting da ta kc1 kc2 kc3 kc4 kc5 kc6 for example, if kc1 to kc3 are set to 1, and kc4 to kc6 are set to 0, then the output pins ks1 to ks3 will output high levels (v dd ) and the output pins ks4 to ks6 will output low levels (v ss ) in the key scan standby state. note that key scan output signal is not output from output pins that are set low. 2. pc1 to pc4: general-purpose output port state setting data these control data bits set the states of the general-purpose output ports p1 to p4. output pin p1 p2 p3 p4 general-purpose output port stat e setting data pc1 pc2 pc3 pc4 for example, if pc1 and pc2 are set to 1, and pc3 and pc4 are set to 0, then the output pins p1 and p2 will output high levels (v dd ) and the output pins p3 and p4 will output low levels (v ss ). 3. ct0 to ct3, ctc: display contrast setting data these control data bits set the display contrast. ct0 to ct3: display contrast setting (11 steps) ct0 ct1 ct2 ct3 lcd drive 4/4 bias voltage supply v lcd 0 level 0 0 0 0 0.94v lcd =v lcd -(0.03v lcd 2) 1 0 0 0 0.91v lcd =v lcd -(0.03v lcd 3) 0 1 0 0 0.88v lcd =v lcd -(0.03v lcd 4) 1 1 0 0 0.85v lcd =v lcd -(0.03v lcd 5) 0 0 1 0 0.82v lcd =v lcd -(0.03v lcd 6) 1 0 1 0 0.79v lcd =v lcd -(0.03v lcd 7) 0 1 1 0 0.76v lcd =v lcd -(0.03v lcd 8) 1 1 1 0 0.73v lcd =v lcd -(0.03v lcd 9) 0 0 0 1 0.70v lcd =v lcd -(0.03v lcd 10) 1 0 0 1 0.67v lcd =v lcd -(0.03v lcd 11) 0 1 0 1 0.64v lcd =v lcd -(0.03v lcd 12) ctc: display contrast adju stment circuit state setting ctc display contrast adjustment circuit state 0 the display contrast adjustment circuit is disabled, and the v lcd 0 pin level is forced to the v lcd level. 1 the display contrast adjustment circuit operat es and the display contrast is adjusted. note that although the display contrast can be adjusted by operating the built-in display contrast adjustment circuit, it is also possible to apply fine adjustments to the contrast by connecting an external variable resistor to the v lcd 4 pin and modifying the v lcd 4 pin voltage. however, the following conditions must be met: (v lcd 0 - v lcd 4) 4.5v, and 1.5v v lcd 4 0v. LC75808W no.6370-14/38 4. sc: segment on/off control data this control data bit controls the on/off state of the segments. sc display state 0 on 1 off however, note that when the segments ar e turned off by setting sc to 1, the segments are turned off by outputting segment off waveforms from the segment output pins. 5. sp: normal mode/sleep mode control data this control data bit controls the normal mode and sleep mode. bu mode 0 normal mode 1 sleep mode the common and segment pins go to the v lcd 4 level and the oscillator on the osc pin is stopped (although it operates during key scan operations) to reduce current drain. note that the states of t he general-purpose output ports p1 to p4 are set by pc1 to pc4 in the cont rol data during sleep mode as well as normal mode. 6. dt1, dt2: display technique setting data these control data bits set the display technique. output pins dt1 dt2 display technique com9 com10 0 0 1/8 duty 1/4 bias drive fixed at the v lcd 4 level fixed at the v lcd 4 level 1 0 1/9 duty 1/4 bias drive com9 fixed at the v lcd 4 level 0 1 1/10 duty 1/4 bias drive com9 com10 note: comn (n = 9 or 10): common outputs LC75808W no.6370-15/38 display data and output pin correspondence ? 1/8 duty output pin com1 com2 com3 com4 com5 com6 com7 com8 s1 d1 d2 d3 d4 d5 d6 d7 d8 s2 d9 d10 d11 d12 d13 d14 d15 d16 s3 d17 d18 d19 d 20 d21 d22 d23 d24 s4 d25 d26 d27 d 28 d29 d30 d31 d32 s5 d33 d34 d35 d 36 d37 d38 d39 d40 s6 d41 d42 d43 d 44 d45 d46 d47 d48 s7 d49 d50 d51 d 52 d53 d54 d55 d56 s8 d57 d58 d59 d 60 d61 d62 d63 d64 s9 d65 d66 d67 d 68 d69 d70 d71 d72 s10 d73 d74 d75 d 76 d77 d78 d79 d80 s11 d81 d82 d83 d 84 d85 d86 d87 d88 s12 d89 d90 d91 d 92 d93 d94 d95 d96 s13 d97 d98 d99 d 100 d101 d102 d103 d104 s14 d105 d106 d107 d 108 d109 d110 d111 d112 s15 d113 d114 d115 d 116 d117 d118 d119 d120 s16 d121 d122 d123 d 124 d125 d126 d127 d128 s17 d129 d130 d131 d 132 d133 d134 d135 d136 s18 d137 d138 d139 d 140 d141 d142 d143 d144 s19 d145 d146 d147 d 148 d149 d150 d151 d152 s20 d153 d154 d155 d 156 d157 d158 d159 d160 s21 d161 d162 d163 d 164 d165 d166 d167 d168 s22 d169 d170 d171 d 172 d173 d174 d175 d176 s23 d177 d178 d179 d 180 d181 d182 d183 d184 s24 d185 d186 d187 d 188 d189 d190 d191 d192 s25 d193 d194 d195 d 196 d197 d198 d199 d200 s26 d201 d202 d203 d 204 d205 d206 d207 d208 s27 d209 d210 d211 d 212 d213 d214 d215 d216 s28 d217 d218 d219 d 220 d221 d222 d223 d224 s29 d225 d226 d227 d 228 d229 d230 d231 d232 s30 d233 d234 d235 d 236 d237 d238 d239 d240 s31 d241 d242 d243 d 244 d245 d246 d247 d248 s32 d249 d250 d251 d 252 d253 d254 d255 d256 s33 d257 d258 d259 d 260 d261 d262 d263 d264 s34 d265 d266 d267 d 268 d269 d270 d271 d272 s35 d273 d274 d275 d 276 d277 d278 d279 d280 s36 d281 d282 d283 d 284 d285 d286 d287 d288 s37 d289 d290 d291 d 292 d293 d294 d295 d296 s38 d297 d298 d299 d 300 d301 d302 d303 d304 s39 d305 d306 d307 d 308 d309 d310 d311 d312 s40 d313 d314 d315 d 316 d317 d318 d319 d320 s41 d321 d322 d323 d 324 d325 d326 d327 d328 s42 d329 d330 d331 d 332 d333 d334 d335 d336 s43 d337 d338 d339 d 340 d341 d342 d343 d344 s44 d345 d346 d347 d 348 d349 d350 d351 d352 s45 d353 d354 d355 d 356 d357 d358 d359 d360 continued on next page. LC75808W no.6370-16/38 continued from preceding page. output pin com1 com2 com3 com4 com5 com6 com7 com8 s46 d361 d362 d363 d 364 d365 d366 d367 d368 s47 d369 d370 d371 d 372 d373 d374 d375 d376 s48 d377 d378 d379 d 380 d381 d382 d383 d384 s49 d385 d386 d387 d 388 d389 d390 d391 d392 s50 d393 d394 d395 d 396 d397 d398 d399 d400 s51 d401 d402 d403 d 404 d405 d406 d407 d408 s52 d409 d410 d411 d 412 d413 d414 d415 d416 s53 d417 d418 d419 d 420 d421 d422 d423 d424 s54 d425 d426 d427 d 428 d429 d430 d431 d432 s55 d433 d434 d435 d 436 d437 d438 d439 d440 s56 d441 d442 d443 d 444 d445 d446 d447 d448 s57 d449 d450 d451 d 452 d453 d454 d455 d456 s58 d457 d458 d459 d 460 d461 d462 d463 d464 s59 d465 d466 d467 d 468 d469 d470 d471 d472 s60 d473 d474 d475 d 476 d477 d478 d479 d480 for example, the table below lists the segment output states for the s11 output pin. display data d81 d82 d83 d84 d85 d86 d87 d88 output pin state (s11) 0 0 0 0 0 0 0 0 the lcd segments for com1 to com8 are off 1 0 0 0 0 0 0 0 the lcd segment for com1 is on 0 1 0 0 0 0 0 0 the lcd segment for com2 is on 0 0 1 0 0 0 0 0 the lcd segment for com3 is on 0 0 0 1 0 0 0 0 the lcd segment for com4 is on 0 0 0 0 1 0 0 0 the lcd segment for com5 is on 0 0 0 0 0 1 0 0 the lcd segment for com6 is on 0 0 0 0 0 0 1 0 the lcd segment for com7 is on 0 0 0 0 0 0 0 1 the lcd segment for com8 is on 1 1 1 1 1 1 1 1 the lcd segments for com1 to com8 are on LC75808W no.6370-17/38 ? 1/9 duty output pin com1 com2 com3 com4 com5 com6 com7 com8 com9 s1 d1 d2 d3 d4 d5 d6 d7 d8 d9 s2 d10 d11 d12 d13 d14 d15 d16 d17 d18 s3 d19 d20 d21 d22 d23 d24 d25 d26 d27 s4 d28 d29 d30 d31 d32 d33 d34 d35 d36 s5 d37 d38 d39 d40 d41 d42 d43 d44 d45 s6 d46 d47 d48 d49 d50 d51 d52 d53 d54 s7 d55 d56 d57 d58 d59 d60 d61 d62 d63 s8 d64 d65 d66 d67 d68 d69 d70 d71 d72 s9 d73 d74 d75 d76 d77 d78 d79 d80 d81 s10 d82 d83 d84 d85 d86 d87 d88 d89 d90 s11 d91 d92 d93 d94 d95 d96 d97 d98 d99 s12 d100 d101 d102 d103 d104 d105 d106 d107 d108 s13 d109 d110 d111 d112 d113 d114 d115 d116 d117 s14 d118 d119 d120 d121 d122 d123 d124 d125 d126 s15 d127 d128 d129 d130 d131 d132 d133 d134 d135 s16 d136 d137 d138 d139 d140 d141 d142 d143 d144 s17 d145 d146 d147 d148 d149 d150 d151 d152 d153 s18 d154 d155 d156 d157 d158 d159 d160 d161 d162 s19 d163 d164 d165 d166 d167 d168 d169 d170 d171 s20 d172 d173 d174 d175 d176 d177 d178 d179 d180 s21 d181 d182 d183 d184 d185 d186 d187 d188 d189 s22 d190 d191 d192 d193 d194 d195 d196 d197 d198 s23 d199 d200 d201 d202 d203 d204 d205 d206 d207 s24 d208 d209 d210 d211 d212 d213 d214 d215 d216 s25 d217 d218 d219 d220 d221 d222 d223 d224 d225 s26 d226 d227 d228 d229 d230 d231 d232 d233 d234 s27 d235 d236 d237 d238 d239 d240 d241 d242 d243 s28 d244 d245 d246 d247 d248 d249 d250 d251 d252 s29 d253 d254 d255 d256 d257 d258 d259 d260 d261 s30 d262 d263 d264 d265 d266 d267 d268 d269 d270 s31 d271 d272 d273 d274 d275 d276 d277 d278 d279 s32 d280 d281 d282 d283 d284 d285 d286 d287 d288 s33 d289 d290 d291 d292 d293 d294 d295 d296 d297 s34 d298 d299 d300 d301 d302 d303 d304 d305 d306 s35 d307 d308 d309 d310 d311 d312 d313 d314 d315 s36 d316 d317 d318 d319 d320 d321 d322 d323 d324 s37 d325 d326 d327 d328 d329 d330 d331 d332 d333 s38 d334 d335 d336 d337 d338 d339 d340 d341 d342 s39 d343 d344 d345 d346 d347 d348 d349 d350 d351 s40 d352 d353 d354 d355 d356 d357 d358 d359 d360 s41 d361 d362 d363 d364 d365 d366 d367 d368 d369 s42 d370 d371 d372 d373 d374 d375 d376 d377 d378 s43 d379 d380 d381 d382 d383 d384 d385 d386 d387 s44 d388 d389 d390 d391 d392 d393 d394 d395 d396 s45 d397 d398 d399 d400 d401 d402 d403 d404 d405 continued on next page. LC75808W no.6370-18/38 continued from preceding page. output pin com1 com2 com3 com4 com5 com6 com7 com8 com9 s46 d406 d407 d408 d409 d410 d411 d412 d413 d414 s47 d415 d416 d417 d418 d419 d420 d421 d422 d423 s48 d424 d425 d426 d427 d428 d429 d430 d431 d432 s49 d433 d434 d435 d436 d437 d438 d439 d440 d441 s50 d442 d443 d444 d445 d446 d447 d448 d449 d450 s51 d451 d452 d453 d454 d455 d456 d457 d458 d459 s52 d460 d461 d462 d463 d464 d465 d466 d467 d468 s53 d469 d470 d471 d472 d473 d474 d475 d476 d477 s54 d478 d479 d480 d481 d482 d483 d484 d485 d486 s55 d487 d488 d489 d490 d491 d492 d493 d494 d495 s56 d496 d497 d498 d499 d500 d501 d502 d503 d504 s57 d505 d506 d507 d508 d509 d510 d511 d512 d513 s58 d514 d515 d516 d517 d518 d519 d520 d521 d522 s59 d523 d524 d525 d526 d527 d528 d529 d530 d531 s60 d532 d533 d534 d535 d536 d537 d538 d539 d540 for example, the table below lists the segment output states for the s11 output pin. display data d91 d92 d93 d94 d95 d96 d97 d98 d99 output pin state (s11) 0 0 0 0 0 0 0 0 0 the lcd segments for com1 to com9 are off 1 0 0 0 0 0 0 0 0 the lcd segment for com1 is on 0 1 0 0 0 0 0 0 0 the lcd segment for com2 is on 0 0 1 0 0 0 0 0 0 the lcd segment for com3 is on 0 0 0 1 0 0 0 0 0 the lcd segment for com4 is on 0 0 0 0 1 0 0 0 0 the lcd segment for com5 is on 0 0 0 0 0 1 0 0 0 the lcd segment for com6 is on 0 0 0 0 0 0 1 0 0 the lcd segment for com7 is on 0 0 0 0 0 0 0 1 0 the lcd segment for com8 is on 0 0 0 0 0 0 0 0 1 the lcd segment for com9 is on 1 1 1 1 1 1 1 1 1 the lcd segments for com1 to com9 are on LC75808W no.6370-19/38 ? 1/10 duty output pin com1 com2 com3 com4 com5 com6 com7 com8 com9 com10 s1 d1 d2 d3 d4 d5 d6 d7 d8 d9 d10 s2 d11 d12 d13 d14 d 15 d16 d17 d18 d19 d20 s3 d21 d22 d23 d24 d 25 d26 d27 d28 d29 d30 s4 d31 d32 d33 d34 d 35 d36 d37 d38 d39 d40 s5 d41 d42 d43 d44 d 45 d46 d47 d48 d49 d50 s6 d51 d52 d53 d54 d 55 d56 d57 d58 d59 d60 s7 d61 d62 d63 d64 d 65 d66 d67 d68 d69 d70 s8 d71 d72 d73 d74 d 75 d76 d77 d78 d79 d80 s9 d81 d82 d83 d84 d 85 d86 d87 d88 d89 d90 s10 d91 d92 d93 d94 d 95 d96 d97 d98 d99 d100 s11 d101 d102 d103 d104 d 105 d106 d107 d108 d109 d110 s12 d111 d112 d113 d114 d 115 d116 d117 d118 d119 d120 s13 d121 d122 d123 d124 d 125 d126 d127 d128 d129 d130 s14 d131 d132 d133 d134 d 135 d136 d137 d138 d139 d140 s15 d141 d142 d143 d144 d 145 d146 d147 d148 d149 d150 s16 d151 d152 d153 d154 d 155 d156 d157 d158 d159 d160 s17 d161 d162 d163 d164 d 165 d166 d167 d168 d169 d170 s18 d171 d172 d173 d174 d 175 d176 d177 d178 d179 d180 s19 d181 d182 d183 d184 d 185 d186 d187 d188 d189 d190 s20 d191 d192 d193 d194 d 195 d196 d197 d198 d199 d200 s21 d201 d202 d203 d204 d 205 d206 d207 d208 d209 d210 s22 d211 d212 d213 d214 d 215 d216 d217 d218 d219 d220 s23 d221 d222 d223 d224 d 225 d226 d227 d228 d229 d230 s24 d231 d232 d233 d234 d 235 d236 d237 d238 d239 d240 s25 d241 d242 d243 d244 d 245 d246 d247 d248 d249 d250 s26 d251 d252 d253 d254 d 255 d256 d257 d258 d259 d260 s27 d261 d262 d263 d264 d 265 d266 d267 d268 d269 d270 s28 d271 d272 d273 d274 d 275 d276 d277 d278 d279 d280 s29 d281 d282 d283 d284 d 285 d286 d287 d288 d289 d290 s30 d291 d292 d293 d294 d 295 d296 d297 d298 d299 d300 s31 d301 d302 d303 d304 d 305 d306 d307 d308 d309 d310 s32 d311 d312 d313 d314 d 315 d316 d317 d318 d319 d320 s33 d321 d322 d323 d324 d 325 d326 d327 d328 d329 d330 s34 d331 d332 d333 d334 d 335 d336 d337 d338 d339 d340 s35 d341 d342 d343 d344 d 345 d346 d347 d348 d349 d350 s36 d351 d352 d353 d354 d 355 d356 d357 d358 d359 d360 s37 d361 d362 d363 d364 d 365 d366 d367 d368 d369 d370 s38 d371 d372 d373 d374 d 375 d376 d377 d378 d379 d380 s39 d381 d382 d383 d384 d 385 d386 d387 d388 d389 d390 s40 d391 d392 d393 d394 d 395 d396 d397 d398 d399 d400 s41 d401 d402 d403 d404 d 405 d406 d407 d408 d409 d410 s42 d411 d412 d413 d414 d 415 d416 d417 d418 d419 d420 s43 d421 d422 d423 d424 d 425 d426 d427 d428 d429 d430 s44 d431 d432 d433 d434 d 435 d436 d437 d438 d439 d440 s45 d441 d442 d443 d444 d 445 d446 d447 d448 d449 d450 continued on next page. LC75808W no.6370-20/38 continued from preceding page. output pin com1 com2 com3 com4 com5 com6 com7 com8 com9 com10 s46 d451 d452 d453 d454 d 455 d456 d457 d458 d459 d460 s47 d461 d462 d463 d464 d 465 d466 d467 d468 d469 d470 s48 d471 d472 d473 d474 d 475 d476 d477 d478 d479 d480 s49 d481 d482 d483 d484 d 485 d486 d487 d488 d489 d490 s50 d491 d492 d493 d494 d 495 d496 d497 d498 d499 d500 s51 d501 d502 d503 d504 d 505 d506 d507 d508 d509 d510 s52 d511 d512 d513 d514 d 515 d516 d517 d518 d519 d520 s53 d521 d522 d523 d524 d 525 d526 d527 d528 d529 d530 s54 d531 d532 d533 d534 d 535 d536 d537 d538 d539 d540 s55 d541 d542 d543 d544 d 545 d546 d547 d548 d549 d550 s56 d551 d552 d553 d554 d 555 d556 d557 d558 d559 d560 s57 d561 d562 d563 d564 d 565 d566 d567 d568 d569 d570 s58 d571 d572 d573 d574 d 575 d576 d577 d578 d579 d580 s59 d581 d582 d583 d584 d 585 d586 d587 d588 d589 d590 s60 d591 d592 d593 d594 d 595 d596 d597 d598 d599 d600 for example, the table below lists the segment output states for the s11 output pin. display data d101 d102 d103 d104 d105 d106 d107 d108 d109 d110 output pin state (s11) 0 0 0 0 0 0 0 0 0 0 the lcd segments for com1 to com10 are off 1 0 0 0 0 0 0 0 0 0 the lcd segment for com1 is on 0 1 0 0 0 0 0 0 0 0 the lcd segment for com2 is on 0 0 1 0 0 0 0 0 0 0 the lcd segment for com3 is on 0 0 0 1 0 0 0 0 0 0 the lcd segment for com4 is on 0 0 0 0 1 0 0 0 0 0 the lcd segment for com5 is on 0 0 0 0 0 1 0 0 0 0 the lcd segment for com6 is on 0 0 0 0 0 0 1 0 0 0 the lcd segment for com7 is on 0 0 0 0 0 0 0 1 0 0 the lcd segment for com8 is on 0 0 0 0 0 0 0 0 1 0 the lcd segment for com9 is on 0 0 0 0 0 0 0 0 0 1 the lcd segment for com10 is on 1 1 1 1 1 1 1 1 1 1 the lcd segments for com1 to com10 are on LC75808W no.6370-21/38 serial data output 1. when cl is stopped at the low level 2. when cl is stopped at the high level note: b0 to b3, a0 to a3??.. ccb address ?43h? kd1 to kd30 .................. key data sa ................................... sleep acknowledge data note: if a key data read operation is executed when do is high, the read key data (kd1 to kd30) and sleep acknowledge data(sa) will be invalid. output data 1. kd1 to kd30: key data when a key matrix of up to 30 keys is formed from the ks1 to ks6 output pins and the ki1 to ki5 input pins and one of those keys is pressed, the key output data corresponding to that key will be set to 1. the table shows the relationship between those pins and the key data bits. ki1 ki2 ki3 ki4 ki5 ks1 kd1 kd2 kd3 kd4 kd5 ks2 kd6 kd7 kd8 kd9 kd10 ks3 kd11 kd12 kd13 kd14 kd15 ks4 kd16 kd17 kd18 kd19 kd20 ks5 kd21 kd22 kd23 kd24 kd25 ks6 kd26 kd27 kd28 kd29 kd30 when the states of the ks1 to ks6 output pins during key scan standby are set to low for ks1 and ks2 and to high for ks3 to ks6 by the kc1 to kc6 bits in the control data and a key matrix of up to 20 keys is formed from the ks3 to ks6 output pins and the ki1 to ki5 input pins, the kd1 to kd10 key data bits will be set to 0. 2. sa: sleep acknowledge data this output data bit is set to the state when the key was presse d. also, while do will be low in this case, if serial data is input and the mode is set (to normal or sleep mode) during this period, that mode will be set. sa will be 1 in sleep mode and 0 in normal mode. 1 0 0 0 0 1 0 x kd1 kd2 kd27 x : don't care kd28 kd29 kd30 sa 1 b1 b2 b3 a0 a1 a2 a3 b0 ce cl di do output data a12909 1 0 0 0 0 1 0 kd1 x kd2 kd3 kd28 x : don't care kd29 kd30 sa x 1 b1 b2 b3 a0 a1 a2 a3 b0 ce cl di do output data a12910 LC75808W no.6370-22/38 key scan operation functions 1. key scan timing the key scan period is 384t(s). to reliably determine the on/off state of the keys, the LC75808W scans the keys twice and determines that a key has been pressed when the key data agrees. it outputs a key data read request (a low level on do) 800t(s) after starting a key scan. if the key data dose not agree and a key was pressed at that point, it scans the keys again. thus the LC75808W cannot detect a key press shorter than 800t(s). note: * 3. note that the high/low states of these pins are determined by the kc1 to kc6 bits in the control data, and that key scan output signals are not output from pins that are set to low. 2. in normal mode ? the pins ks1 to ks6 are set to high or low by the kc1 to kc6 bits in the control data. ? if a key on one of the lines corresponding to a ks1 to ks6 pin which is set high is pressed, a key scan is started and the keys are scanned until all keys are released. mu ltiple key presses are recognized by determining whether multiple key data bits are set. ? if a key is pressed for longer than 800t(s) (where t= ) the LC75808W outputs a key data read request (a low level on do) to the controller. the controller acknowledges this request and reads the key data. however, if ce is high during a serial data tr ansfer, do will be set high. ? after the controller reads the key data, the key data read request is cleared (do is set high) and the LC75808W performs another key scan. also note that do, being an open-drain output, requires a pull-up resistor (between 1k and 10k ). 1 f osc 800t [s ] 800t [s] 800t [s ] serial data transfer serial data transfer serial data transfer key address(43h) key address key address key data read request key data read key data read key data read request key data read key data read request a12912 key input 1 key input 2 key scan ce di do fosc 1 t= 1 *3 *3 ks1 2 *3 *3 ks2 3*3 *3 ks3 4*3 *3 ks4 5 1 2 3 4 5*3 *3 ks5 6 768t [s] 6 a12911 *3 *3 ks6 key on fosc 1 t= LC75808W no.6370-23/38 3. in sleep mode ? the pins ks1 to ks6 are set to high or low by the kc1 to kc6 bits in the control data. ? if a key on one of the lines corresponding to a ks1 to ks 6 pin which is set high is pressed, the oscillator on the osc pin is started and a key scan is performed. keys ar e scanned until all keys are released. multiple key presses are recognized by determining whether multiple key data bits are set. ? if a key is pressed for longer than 800t(s)(where t= ) the LC75808W outputs a key data read request (a low level on do) to the controller. the controller acknow ledges this request and reads the key data. however, if ce is high during a serial data transfer, do will be set high. ? after the controller reads the key data, the key data read request is cleared (do is set high) and the LC75808W performs another key scan. however, this dose not clear sleep mode. also note that do, being an open-drain output, requires a pull-up resistor (between 1 k and 10 k ). ? sleep mode key scan example example: when the control data bits kc1 to kc5 are 0, kc6 is 1, and sp is 1. (sleep with only ks6 high) note: * 4. these diodes are required to reliable recognize multiple key presses on the ks6 line when sleep mode state with only ks6 high, as in the above example. that is, these diodes prevent incorrect operations due to sneak currents in the ks6 key scan output signal when keys on the ks1 to ks5 lines are pressed at the same time. multiple key presses although the LC75808W is capable of key scanning without inserting diodes for dual key presses, triple key presses on the ki1 to ki5 input pin lines, or multiple key presses on the ks1 to ks6 output pin lines, multiple presses other than these cases may result in keys that were not pressed recogni zed as having been pressed. therefore, a diode must be inserted in series with each key. appli cations that do not recognize multiple ke y presses of three or more keys should check the key data for three or more 1 bits and ignore such data. 1 f osc 800t [s] 800t [s] serial data transfer serial data transfer serial data transfer key address(43h) key address key data read request key data read key data read key data read request a12914 key input (ks6 line) key scan ce di do fosc 1 t= [l] ks1 [l] ks2 [l] ks3 [l] ks4 [h] ks6 ki1 ki2 ki3 ki4 [l] ks5 ki5 *4 a12913 when any one of these keys is pressed, the oscillator on the osc pin is started and the keys are scanned. LC75808W no.6370-24/38 1/8 duty, 1/4 bias drive technique vlcd3 vlcd4 vlcd2 vlcd1 vlcd0 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 64t 512t vlcd2 vlcd1 vlcd0 fosc 1 t= com1 com2 com8 lcd driver output when all lcd segments corresponding t o com1 to com8 are turned off lcd driver output when only lcd segments corresponding t o com1 are turned on a12915 lcd driver output when only lcd segments corresponding t o com2 are turned on lcd driver output when all lcd segments corresponding t o com1 to com8 are turned on LC75808W no.6370-25/38 1/9 duty, 1/4 bias drive technique vlcd3 vlcd4 vlcd2 vlcd1 vlcd0 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 64t 576t vlcd2 vlcd1 vlcd0 fosc 1 t= com1 com2 com9 a12916 lcd driver output when all lcd segments corresponding t o com1 to com9 are turned of f lcd driver output when onl y lcd segments corresponding t o com1 are turned on lcd driver output when onl y lcd segments corresponding t o com2 are turned on lcd driver output when all lcd segments corresponding t o com1 to com9 are turned on LC75808W no.6370-26/38 1/10 duty, 1/4 bias drive technique vlcd3 vlcd4 vlcd2 vlcd1 vlcd0 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 vlcd0 vlcd1 vlcd2 vlcd3 vlcd4 64t 640t vlcd2 vlcd1 vlcd0 fosc 1 t= com1 com2 com10 a1291 7 lcd driver output when all lcd segments corresponding t o com1 to com10 are turned of f lcd driver output when onl y lcd segments corresponding t o com1 are turned on lcd driver output when onl y lcd segments corresponding t o com2 are turned on lcd driver output when all lcd segments corresponding t o com1 to com10 are turned on LC75808W no.6370-27/38 voltage detection type reset circuit (v det ) this circuit generates an output signal and resets the sy stem when logic block power is first applied and when the voltage drops, i.e., when the logic block power supply voltage is less than or equal to the power down detection voltage v det , which is 3.0v, typical. to assure that this function operates reliably, a capacitor must be added to the logic block power supply line so that the logic block power supply voltage v dd rise time when the logic block power is first applied and the logic block power supply voltage v dd fall time when the voltage drops are both at least 1 ms. (see figure 3, 4, and 5.) power supply sequence the following sequences must be observed when power is turned on and off. (see figure 3, 4, and 5.) ? power on: logic block power supply(v dd ) on lcd driver block power supply(v lcd ) on ? power off: lcd driver block power supply(v lcd ) off logic block power supply(v dd ) off however, if the logic and lcd driver blocks use a shared power supply, then the power supplies can be turned on and off at the same time. system reset 1. reset function the LC75808W performs a system reset with the v det . when a system reset is applied, the display is turned off, key scanning is disabled, the key data is reset, and the general-purpose output ports are set to and held at the low level (v ss ). these states that are created as a result of the sy stem reset can be cleared by executing the instruction described below. (see figure 3, 4, and 5.) ? clearing the display off state transferring all the serial data (the display data and the co ntrol data) creates a state in which the display is turned on. ? clearing the key scan disabled and key data reset states transferring the control data not only creates a state in which key scanning ca n be performed, but also clears the key data reset. ? clearing the general-purpose output ports locked at the low level (v ss ) state transferring the control data clears the general- purpose output ports locked at the low level (v ss ) state and sets the states of the general-purpose output ports. ? 1/8 duty ? t1 1 [ms] (logic block power supply voltage v dd rise time) ? t2 0 ? t3 0 ? t4 1 [ms] (logic block power supply voltage v dd fall time) figure 3 t1 t2 t4 t3 v det v il v det defined undefined undefined undefined internal data (d1 to d120) internal data (d121 to d240) internal data (d241 to d360) internal data (d361 to d480) key scan general-purpose output ports display state defined undefined undefined defined undefined undefined defined undefined undefined defined display on display off undefined disabled execution enabled ce a12918 internal data kc1 to kc6, pc1 to pc4, ct0 to ct3, ctc, sc, sp, dt1, dt2 v dd v lcd fixed at the low level (v ss ) can be set to either the high (v dd ) or low (v ss ) level. LC75808W no.6370-28/38 ? 1/9 duty ? t1 1 [ms] (logic block power supply voltage v dd rise time) ? t2 0 ? t3 0 ? t4 1 [ms] (logic block power supply voltage v dd fall time) figure 4 ? 1/10 duty ? t1 1 [ms] (logic block power supply voltage v dd rise time) ? t2 0 ? t3 0 ? t4 1 [ms] (logic block power supply voltage v dd fall time) figure 5 t1 t 2 t4 t3 v det v il v det defined undefined undefined undefined internal data (d1 to d135) internal data (d136 to d270) internal data (d271 to d405) internal data (d406 to d540) key scan general-purpose output ports display state defined undefined undefined defined undefined undefined defined undefined undefined defined display on display off undefined disabled execution enabled ce a12919 v dd v lcd internal data kc1 to kc6, pc1 to pc4, ct0 to ct3, ctc, sc, sp, dt1, dt2 fixed at the low level (v ss ) can be set to either the high (v dd ) or low (v ss ) level. t1 t2 t4 t3 v det v il v det defined undefined undefined undefined internal data (d1 to d150) internal data (d151 to d300) internal data (d301 to d450) internal data (d451 to d600) key scan general-purpose output ports display state defined undefined undefined defined undefined undefined defined undefined undefined defined display on display off undefined disabled execution enabled ce a12920 v dd v lcd internal dat a kc1 to kc6, pc1 to pc4, ct0 to ct3, ctc, sc, sp, dt1, dt2 fixed at the low level (v ss ) can be set to either the high (v dd ) or low (v ss ) level. LC75808W no.6370-29/38 2. LC75808W internal block states during the system reset ? clock generator reset is applied and the base clock is stopped. however, the osc pin state (normal or sleep mode) is determined after the sp control data bit is transferred. ? common driver, segment driver & latch reset is applied and the display is turned off. however, disp lay data can be input to the latch circuit in this state. ? contrast adjuster reset is applied and operation of the display contrast ad justment circuit is disabled. after that, once ct0 to ct3 and ctc in the control data have been transferred to the ic it will then be possible to set the display contrast. ? key scan, key buffer reset is applied, these circuits are forcibly initialized internally, and key scan operation is disabled. also, the key data is all set to 0. after that, once kc1 to kc6 in the co ntrol data have been transferred to the ic it will then be possible to perform key scan operations. ? general port reset is applied and the states of the general-purpose output ports are held fixed at the low level (v ss ). ? ccb interface, shift register, control register since serial data transfer is possi ble, these circuits are not reset. 3. output pin states during the system reset output pin state during reset s1 to s60 com1 to com10 ks1 to ks6 p1 to p4 do l(v lcd 4) l(v lcd 4) l(v ss ) l(v ss ) h *5 note: * 5. since this output pin is an open-drain output, a pull-up resistor of between 1k and 10 k is required. this pin is held at the high level even if a key data read operation is performed before the kc1 to kc6 control data has been transferred to the ic. v lcd p1 v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 v dd v ss test osc inh contrast adjuster p4 general port com1 com10 s60 s59 s2 s1 common driver control register clock generator v det do di cl ce ki5 ki4 ki3 ki2 ki1 ks6 ks5 ks4 ks3 ks2 ks1 ccb interface key buffer key scan shift register segment driver & latch a 12921 blocks that are reset LC75808W no.6370-30/38 sample application circuit 1 1/8 duty, 1/4 bias drive technique (for use with normal panels) note: * 6. add a capacitor to the logic block power supply line so that the logic block power supply voltage v dd rise time when power is applied and the logic block power supply voltage v dd fall time when power drops are both at least 1ms, as the LC75808W is reset by the v det . * 7. if a variable resistor is not used for display contrast fine adjustment, the v lcd 4 pin must be connected to ground. * 8. if the function of the inh pin is not used, the inh pin must be connected to the logic block power supply v dd . * 9. the do pin, being an open-drain output, requires a pull-up resistor. select a resistance (between 1k to 10k ) appropriate for the capacitance of the external wi ring so that signal wave forms are not degraded. com1 com2 com3 com4 com5 com6 com7 com8 com9 open open com10 s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s56 s57 s58 s59 s60 p1 p2 p3 p4 open c c c *6 osc inh * 8 *9 ce cl di do k i 5 k i 4 k i 3 k i 2 k i 1 k s 6 k s 5 k s 4 k s 3 k s 2 k s 1 lcd panel used with the backlight controller or other circuit. general-purpose output ports key matrix (up to 30 keys) a12922 +5v +8v c 0.047 f from the controller to the controller to the controller power supply v dd test v ss v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 *7 LC75808W no.6370-31/38 sample application circuit 2 1/8 duty, 1/4 bias drive technique (for use with large panels) note: * 6. add a capacitor to the logic block power supply line so that the logic block power supply voltage v dd rise time when power is applied and the logic block power supply voltage v dd fall time when power drops are both at least 1ms, as the LC75808W is reset by the v det . * 7. if a variable resistor is not used for display contrast fine adjustment, the v lcd 4 pin must be connected to ground. * 8. if the function of the inh pin is not used, the inh pin must be connected to the logic block power supply v dd . * 9. the do pin, being an open-drain output, requires a pull-up resistor. select a resistance (between 1k to 10k ) appropriate for the capacitance of the external wi ring so that signal wave forms are not degraded. com1 com2 com3 com4 com5 com6 com7 com8 com9 open open com10 s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s56 s57 s58 s59 s60 p1 p2 p3 p4 cr r r r c c *6 osc inh * 8 *9 ce cl di do k i 5 k i 4 k i 3 k i 2 k i 1 k s 6 k s 5 k s 4 k s 3 k s 2 k s 1 lcd panel key matrix (up to 30 keys) a12923 +5v +8v c 0.047 f 10k r 2.2k from the controller to the controller to the controller power supply used with the backlight controller or other circuit. general-purpose output ports v dd test v ss v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 *7 LC75808W no.6370-32/38 sample application circuit 3 1/9 duty, 1/4 bias drive technique (for use with normal panels) note: * 6. add a capacitor to the logic block power supply line so that the logic block power supply voltage v dd rise time when power is applied and the logic block power supply voltage v dd fall time when power drops are both at least 1ms, as the LC75808W is reset by the v det . * 7. if a variable resistor is not used for display contrast fine adjustment, the v lcd 4 pin must be connected to ground. * 8. if the function of the inh pin is not used, the inh pin must be connected to the logic block power supply v dd . * 9. the do pin, being an open-drain output, requires a pull-up resistor. select a resistance (between 1k to 10k ) appropriate for the capacitance of the external wi ring so that signal wave forms are not degraded. com1 com2 com3 com4 com5 com6 com7 com8 com9 open com10 s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s56 s57 s58 s59 s60 p1 p2 p3 p4 open c c c *6 osc inh * 8 *9 ce cl di do k i 5 k i 4 k i 3 k i 2 k i 1 k s 6 k s 5 k s 4 k s 3 k s 2 k s 1 lcd panel key matrix (up to 30 keys) a12924 +5v +8v c 0.047 f from the controller to the controller to the controller power supply used with the backlight controller or other circuit. general-purpose output ports v dd test v ss v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4*7 LC75808W no.6370-33/38 sample application circuit 4 1/9 duty, 1/4 bias drive technique (for use with large panels) note: * 6. add a capacitor to the logic block power supply line so that the logic block power supply voltage v dd rise time when power is applied and the logic block power supply voltage v dd fall time when power drops are both at least 1ms, as the LC75808W is reset by the v det . * 7. if a variable resistor is not used for display contrast fine adjustment, the v lcd 4 pin must be connected to ground. * 8. if the function of the inh pin is not used, the inh pin must be connected to the logic block power supply v dd . * 9. the do pin, being an open-drain output, requires a pull-up resistor. select a resistance (between 1k to 10k ) appropriate for the capacitance of the external wi ring so that signal wave forms are not degraded. com1 com2 com3 com4 com5 com6 com7 com8 com9 open com10 s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s56 s57 s58 s59 s60 p1 p2 p3 p4 cr r r r c c *6 osc inh * 8 *9 ce cl di do k i 5 k i 4 k i 3 k i 2 k i 1 k s 6 k s 5 k s 4 k s 3 k s 2 k s 1 lcd panel a12925 +5v +8v c 0.047 f 10k r 2.2k used with the backlight controller or other circuit. general-purpose output ports key matrix (up to 30 keys) from the controller to the controller to the controller power supply v dd test v ss v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4*7 LC75808W no.6370-34/38 sample application circuit 5 1/10 duty, 1/4 bias drive technique (for use with normal panels) note: * 6. add a capacitor to the logic block power supply line so that the logic block power supply voltage v dd rise time when power is applied and the logic block power supply voltage v dd fall time when power drops are both at least 1ms, as the LC75808W is reset by the v det . * 7. if a variable resistor is not used for display contrast fine adjustment, the v lcd 4 pin must be connected to ground. * 8. if the function of the inh pin is not used, the inh pin must be connected to the logic block power supply v dd . * 9. the do pin, being an open-drain output, requires a pull-up resistor. select a resistance (between 1k to 10k ) appropriate for the capacitance of the external wi ring so that signal wave forms are not degraded. com1 com2 com3 com4 com5 com6 com7 com8 com9 com10 s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s56 s57 s58 s59 s60 p1 p2 p3 p4 open c c c *6 osc inh * 8 *9 ce cl di do k i 5 k i 4 k i 3 k i 2 k i 1 k s 6 k s 5 k s 4 k s 3 k s 2 k s 1 a12926 +5v +8v c 0.047 f key matrix (up to 30 keys) from the controller to the controller to the controller power supply lcd panel used with the backlight controller or other circuit. general-purpose output ports v dd test v ss v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 *7 LC75808W no.6370-35/38 sample application circuit 6 1/10 duty, 1/4 bias drive technique (for use with large panels) note: * 6. add a capacitor to the logic block power supply line so that the logic block power supply voltage v dd rise time when power is applied and the logic block power supply voltage v dd fall time when power drops are both at least 1ms, as the LC75808W is reset by the v det . * 7. if a variable resistor is not used for display contrast fine adjustment, the v lcd 4 pin must be connected to ground. * 8. if the function of the inh pin is not used, the inh pin must be connected to the logic block power supply v dd . * 9. the do pin, being an open-drain output, requires a pull-up resistor. select a resistance (between 1k to 10k ) appropriate for the capacitance of the external wi ring so that signal wave forms are not degraded. notes on transferring display data from the controller the display data is transferred to the LC75808W in four opera tions. all of the display data should be transferred within 30ms to maintain the quality of the displayed image. com1 com2 com3 com4 com5 com6 com7 com8 com9 com10 s1 s2 s3 s4 s5 s6 s7 s8 s9 s10 s56 s57 s58 s59 s60 p1 p2 p3 p4 cr r r r c c *6 osc inh * 8 *9 ce cl di do k i 5 k i 4 k i 3 k i 2 k i 1 k s 6 k s 5 k s 4 k s 3 k s 2 k s 1 a12927 +5v +8v c 0.047 f 10k r 2.2k lcd panel used with the backlight controller or other circuit. general-purpose output ports key matrix (up to 30 keys) from the controller to the controller to the controller power supply v dd test v dd v lcd v lcd 0 v lcd 1 v lcd 2 v lcd 3 v lcd 4 *7 LC75808W no.6370-36/38 notes on the controller key data read techniques 1. timer based key data acquisition ? flowchart ? timing chart ? explanation in this technique, the controller uses a timer to determin e key on/off states and read th e key data. the controller must check the do state when ce is low every t9 period without fail. if do is low, the controller recognizes that a key has been pressed and executes the key data read operation. the period t9 in this technique must satisfy the following condition. t9 > t6 + t7 + t8 if a key data read operation is executed when do is high, the read key data (kd1 to kd30) and sleep acknowledge data (sa) will be invalid. ce=[l] key data read processing do=[l] no yes a12928 t5: key scan execution time when the key data agreed for two key scans. (800t(s)) t6: key scan execution time when the key data did not agree for two key scans and the key scan was executed again. (1600t(s)) t7: key address (43h) transfer time t8: key data read time 1 f osc t= t9 t9 t9 t9 t6 t5 t8 t7 t7 t7 t8 t8 t5 t5 key on key on key input ce di do key scan key address key data read key data read request controller detemination (key on) controller detemination (key on) controller detemination (key on) controller detemination (key off) controller detemination (key off) a1292 9 LC75808W no.6370-37/38 2. interrupt based key data acquisition ? flowchart ? timing chart ? explanation in this technique, the controller uses interrupts to determine key on/off states and read the key data. the controller must check the do state when ce is low. if do is low, the controller recognizes that a key has been pressed and executes the key data read operation. after that the next key on/off determination is performed after the time t10 has elapsed by checking the do state when ce is low and reading the key data. the period t10 in this technique must satisfy the following condition. t10 > t6 if a key data read operation is executed when do is high, the read key data (kd1 to kd30) and sleep acknowledge data (sa) will be invalid. t5: key scan execution time when the key data agreed for two key scans. (800t(s)) t6: key scan execution time when the key data did not agree for two key scans and the key scan was executed again. (1600t(s)) t7: key address (43h) transfer time t8: key data read time 1 f osc t= t10 t5 t8 t7 key on key input ce di do key scan key address key data read key data read request t10 t6 t5 t8 t7 t7 t8 key on t10 t5 t8 t7 t10 a 12931 controller detemination (key on) controller detemination (key on) controller detemination (key on) controller detemination (key on) controller detemination (key off) controller detemination (key off) ce=[l] ce=[l] key data read processing do=[l] do=[h] key off no no yes yes a12930 wait for at least t10 LC75808W no.6370-38/38 ps this catalog provides information as of october, 2010. specifications and information herein are subject to change without notice. sanyo semiconductor co.,ltd. assumes no responsibil ity for equipment failures that result from using products at values that exceed, even momentarily, rated v alues (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all sanyo semiconductor co.,ltd. products described or contained herein. sanyo semiconductor co.,ltd. strives to supply high-qua lity high-reliability products, however, any and all semiconductor products fail or malfunction with some probabi lity. it is possible that these probabilistic failures or malfunction could give rise to accidents or events that co uld endanger human lives, trouble that could give rise to smoke or fire, or accidents that could cause damage to other property. when designing equipment, adopt safety measures so that these kinds of accidents or e vents cannot occur. such measures include but are not limited to protective circuits and error prevention circuits for safe design, redundant design, and structural design. upon using the technical information or products described herein, neither warranty nor license shall be granted with regard to intellectual property rights or any other rights of sanyo semiconductor co.,ltd. or any third party. sanyo semiconductor co.,ltd. shall not be liable for any claim or suits with regard to a third party's intellectual property rights which has resulted from the use of the technical information and products mentioned above. information (including circuit diagrams and circuit par ameters) herein is for example only; it is not guaranteed for volume production. any and all information described or contained he rein are subject to change without notice due to product/technology improvement, etc. when designing equipm ent, refer to the "delivery specification" for the sanyo semiconductor co.,ltd. product that you intend to use. in the event that any or all sanyo semiconductor co.,ltd. products described or contained herein are controlled under any of applicable local export control l aws and regulations, such products may require the export license from the authorities concerned in accordance with the above law. no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying and recording, or any i nformation storage or retrieval system, or otherwise, without the prior written consent of sanyo semiconductor co.,ltd. |
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