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| 1/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. led drivers for lcd backlights white backlight led drivers for small to medium lcd panels (switching regulator type) bd60910gu description bd60910gu is maximum 8led(minimum 4led) serial led dr iver with alc (auto luminous control) function. best match for mobile application that needs long battery life. features 1) boost dc/dc for led back lighting drives maximum 8 to minimum 4 serial leds. integrated high voltage switching transistor soft start function. over voltage protection (detect voltage is controllable) over current protection (2nd side) vout short to gnd protection vout open protection. 2) constant current driver for led back lighting current step can be set in 7bit(0.2ma 128s teps), and 8bit(0.1ma 256steps) in sloping. rise and fall time of sloping are set independently. iout max = 25.6ma pwm brightness control by external input. 3) auto luminous control (alc) periodic ambient detection reduces sensor consumption current. led brightness can be controlled by 16steps ambient brightness level. led current for each ambient level is freely customizable. sbias for sensor bias is integrated. (3.0v or 2.6v) photo diode, photo transistor, phot o ic(linear/ logarithm) can be connected. automatic gain control built-in, so bh1600fvc can be connected directly. 4) thermal shutdown (auto-return type) 5) i 2 c bus fs mode max 400khz write/read 6) vcsp85h3(3.00mm x 3.00mm) small size csp package absolute maximum ratings (ta=25 ) parameter symbol ratings unit pins maximum voltage 1 vmax1 7 v except for vled vout, sw maximum voltage 2 vmax2 15 v vled maximum voltage 3 vmax3 40 v vout, sw power dissipation pd 1250 *1 mw operating temperature range topr -40 ~ +85 storage temperature range tstg -55 ~ +150 *1) power dissipation deleting is 10mw/ , when it?s used in over 25 . it?s deleting is on the boar d that is rohm?s standard. dissipation by lsi should not exceed tolerance level of pd. operating conditions (vbat vio, ta=-40~85 ) parameter symbol ratings unit vbat input voltage vbat 2.7~5.5 v vio pin voltage vio 1.65~3.3 v no.11040ebt30
technical note 2/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu electrical characteristics (unless otherwise specified, ta=25c, vbat=3.6v, vio=1.8v) parameter symbol limits unit condition min. typ. max. circuit current vbat circuit current 1 ibat1 - 0.1 1.0 a resetb=0v, vio=0v vbat circuit current 2 ibat2 - 0.5 3.0 a resetb=0v, vio=1.8v vbat circuit current 3 ibat3 - 3.5 5.0 ma led=on, iled=15ma setting vo=24v vbat circuit current 4 ibat4 - 0.4 1.0 ma only alc block on adcyc=0.52s setting except sensor current led driver led current step (setup) iledstp1 128 step led current step (at slope) iledstp2 256 step led maximum current imaxwled - 25.6 - ma led current accuracy iwled -7% 15 +7% ma i led =15ma setting dc/dc vled pin feedback voltage vfb - 0.3 - v over current protection ocp - 650 - ma oscillator frequency fosc 0.8 1.0 1.2 mhz over voltage protection detect voltage ovp1 30 31 32 v ovp2 - 27 - v ovp3 - 24 - v ovp4 - 21 - v ovp5 - 18 - v maximum duty mduty 92.5 - - % vout open protection ovo - 0.7 1.4 v electrical characteristics (unless otherwise specified, ta=25c, vbat=3.6v, vio=1.8v) parameter symbol limits unit condition min. typ. max. i 2 c input (sda, scl) low level input voltage vil -0.3 - 0.25 vio v high level input voltage vih 0.75 vio - vbat +0.3 v hysteresis of schmitt trigger input vhys 0.05 vio - - v low level output voltage (sda) at 3ma sink current vol 0 - 0.3 v input current each i/o pin lin -3 - 3 a input voltage = 0.1vio~0.9vio resetb low level input voltage vil -0.3 - 0.25 vio v high level input voltage vih 0.75 vio - vbat +0.3 v input current each i/o pin iin -3 - 3 a input voltage = 0.1vio~0.9vio technical note 3/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu electrical characteristics (unless otherwise specified, ta=25c, vbat=3.6v, vio=1.8v) parameter symbol limits unit condition min. typ. max. alc sbias output voltage vos 2.850 3.0 3.150 v io=200 a technical note 4/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu block diagram / application circuit example fig.1 block diagram / application circuit example resetb scl sd a wpwmin t1 t2 t3 t4 i/o i 2 c interface iref ledgnd digital control 10f vref level shift vio vbat sensor i/f sbias bh1600fvc sgnd gc1 1 f gc2 alc vbat1 22 h sw gndp vout gndps 1 f(50v) feed back vled dc/dc external pwm gnd1 tsd vbat2 rb520s-40 ocp ovp gnd2 vdd gnd iout gc2 photo ic ssens gc1 (open) (open) ( ) ( ) ( ) * the example when using bh1600fvc and assuming brightness range 10(lx)-50000(lx) by the panel of 20% transmissivity 5.6k ? * technical note 5/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu pin arrangement [bottom view fig.2 pin arrangement pin functions no ball no. pin name i/o esd diode functions equivalent circuit for power for ground 1 a2 vbat1 - - gnd power supply a 2 d5 vbat2 - - gnd power supply a 3 d1 vio - vbat gnd power supply for i/o c 4 c1 gnd1 - vbat - ground b 5 e2 gnd2 - vbat - ground b 6 a3 ledgnd - vbat - ground b 7 e3 gndp - vbat - ground b 8 d4 gndps - vbat - ground b 9 c5 sgnd - vbat - ground b 10 d3 resetb i vbat gnd reset input (l: reset, h: reset cancel) h 11 c2 sda i/o vbat gnd i 2 c data input / output i 12 d2 scl i vbat gnd i 2 c clock input h 13 b1 wpwmin i vbat gnd external pwm input l 14 e4 sw o - gnd dc/dc switching port a 15 c3 vout o - gnd dc/dc output voltage monitor a 16 a4 vled i - gnd led cathode connection e 17 b4 sbias o vbat gnd bias output for the ambient light sensor q 18 b5 ssens i vbat gnd ambient light sensor input n 19 b3 gc1 o vbat gnd ambient light sensor gain control output 1 x 20 c4 gc2 o vbat gnd ambient light sensor gain control output 2 x 21 a1 t1 i vbat gnd test input pin (short to ground) s 22 a5 t2 o vbat gnd test output pin (open) m 23 e5 t3 o vbat gnd test output pin (open) n 24 e1 t4 i vbat gnd test input pin (short to ground) s e t4 gnd2 gndp sw t3 d vio scl resetb gndps vbat2 c gnd1 sda vout gc2 sgnd b wpwmin index gc1 sbias ssens a t1 vbat1 ledgnd vled t2 12345 technical note 6/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu equivalent circuit vbat c a vbat b e vio vbat h vio vbat i vbat vbat l vbat n vbat vbat q vos vbat x vbat m vbat vbat s technical note 7/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu i 2 c bus format the writing/reading operation is based on the i 2 c slave standard. ? slave address a7 a6 a5 a4 a3 a2 a1 r/w 1 1 1 0 1 1 0 1/0 ? bit transfer scl transfers 1-bit data during h. scl cannot change signal of sda during h at the time of bit transfer. if sda changes while scl is h, start conditions or stop conditions wi ll occur and it will be interpreted as a control signal. sda scl sda a state of stability data are effective sda it can change ? start and stop condition when sda and scl are h, data is not transferred on the i 2 c- bus. this condition indicates, if sda changes from h to l while scl has been h, it will become start (s) conditions, and an access start, if sda changes from l to h while scl has been h, it will become stop (p) conditions and an access end. sda scl s p start condition stop condition ? acknowledge it transfers data 8 bits each after the occurrence of start c ondition. a transmitter opens sda after transfer 8bits data, and a receiver returns the acknowledge signal by setting sda to l. 12 89 data output by transmitter data output by receiver acknowledge not acknowledge s start condition clock pulse for acknowledgement scl technical note 8/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu ? writing protocol a register address is transferred by the next 1 byte that transferred the slave address and the write-in command. the 3rd byte writes data in the internal register written in by the 2 nd byte, and after 4th byte or, the increment of register address is carried out automatically. however, when a register address turns into the last address, it is set to 00h by the next transmission. after the transmission end, t he increment of the address is carried out. s a a a p register address slave address from master to slave from slave to master r/w=0(write) data a d7 d6 d5 d4 d3 d2 d1 d0 d7 d6 d5 d4 d3 d2 d1 d0 a 7 a 6 a 5 a 4 a 3 a 2 a 1 a 0 0 x x x x x x x *1 *1 data a =acknowledge(sd a low) a =not acknowledge(sda high) s=start condition p=stop condition *1: write timing register address increment register address increment ? reading protocol it reads from the next byte after writing a slave address and r/w bit. the register to read considers as the following address accessed at the end, and the data of the address that carried out the increment is read after it. if an address turns into the last address, the next byte will read out 00h. after the transmission end, t he increment of the address is carried out. 1 s a p from master to slave from slave to master r/w=1(read) data a data slave address d7 d6 d5 d4 d3 d2 d1 d0 d7 d6 d5 d4 d3 d2 d1 d0 register address increment x x x x x x x a =acknowledge(sd a low) a =not acknowledge(sda high) s=start condition p=stop condition register address increment a ? multiple reading protocols after specifying an internal address, it reads by repeated start condition and changing the data transfer direction. the data of the address that carried out the increment is read after it. if an address turns into the last address, the next byte will read out 00h. after the transmission end, the increment of the address is carried out. r/w=0(write) r/w=1(read) slave address register address slave address data data s a a a sr 1 0 a 7 a 6 a 5 a 4 a 3 a 2 a 1 a 0 x x x x x x x x x x x x x x a =acknowledge(sd a low) a =not acknowledge(sda high) s=start condition p=stop condition from master to slave from slave to master register address increment register address increment p a d7 d6 d5 d4 d3d2 d1d0 d7d6 d5d4d3d2d1d0 a sr=repeated start condition as for reading protocol and multiple reading protocols, please do a (not acknowledge) after doing the final reading operation. it stops with read when ending by a(acknowledge), and sda stops in the state of low when the reading data of that time is 0. however, this state returns usually when scl is moved, data is read, and a (not acknowledge) is done. technical note 9/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu timing diagram sda s cl t su;dat t low s sr p s t buf t hd;sta t su;sta t high t hd;sta t hd;dat t su;sto electrical characteristics(unless otherwise specified, ta=25 , vbat=3.6v, vio=1.8v) parameter symbol standard-mode fast-mode unit min. typ. max. min. typ. max. i 2 c bus format scl clock frequency f scl 0 - 100 0 - 400 khz low period of the scl clock t low 4.7 - - 1.3 - - s high period of the scl clock t high 4.0 - - 0.6 - - s hold time (repeated) start condition after this period, the first clock is generated t hd;sta 4.0 - - 0.6 - - s set-up time for a repeated start condition t su;sta 4.7 - - 0.6 - - s data hold time t hd;dat 0 - 3.45 0 - 0.9 s data set-up time t su;dat 250 - - 100 - - ns set-up time for stop condition t su;sto 4.0 - - 0.6 - - s bus free time between a stop and start condition t buf 4.7 - - 1.3 - - s technical note 10/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu register list input "0? for "-". address w/r register data function d7 d6 d5 d4 d3 d2 d1 d0 00h w - - - - - - - sftrst software reset 01h r/w - vovp(2) vovp(1) vovp(0) wpwmen alcen ledmd leden led, alc, ovp control 02h - - - - - - - - - - 03h r/w - iled(6) iled(5) iled(4) iled(3) iled(2) iled(1) iled(0) led current setting at non-alc mode 04h - - - - - - - - - - 05h - - - - - - - - - - 06h - - - - - - - - - - 07h - - - - - - - - - - 08h w thl(3) thl(2) thl(1) thl(0) tlh(3) tlh(2) tlh(1) tlh(0) led current transition 09h - - - - - - - - - - 0ah - - - - - - - - - - 0bh r/w adcyc(1) adcyc(0) gain(1) gain(0) stype vsb mdcir sbiason alc mode setting 0ch - - - - - - - - - - 0dh r - - - - amb(3) amb(2) amb(1) amb(0) ambient level output 0eh w - iu0(6) iu0(5) iu0(4) iu0(3) iu0(2) iu0(1) iu0(0) led current at ambient level 0h 0fh w - iu1(6) iu1(5) iu1(4) iu1(3) iu1(2) iu1(1) iu1(0) led current at ambient level 1h 10h w - iu2(6) iu2(5) iu2(4) iu2(3) iu2(2) iu2(1) iu2(0) led current at ambient level 2h 11h w - iu3(6) iu3(5) iu3(4) iu3(3) iu3(2) iu3(1) iu3(0) led current at ambient level 3h 12h w - iu4(6) iu4(5) iu4(4) iu4(3) iu4(2) iu4(1) iu4(0) led current at ambient level 4h 13h w - iu5(6) iu5(5) iu5(4) iu5(3) iu5(2) iu5(1) iu5(0) led current at ambient level 5h 14h w - iu6(6) iu6(5) iu6(4) iu6(3) iu6(2) iu6(1) iu6(0) led current at ambient level 6h 15h w - iu7(6) iu7(5) iu7(4) iu7(3) iu7(2) iu7(1) iu7(0) led current at ambient level 7h 16h w - iu8(6) iu8(5) iu8(4) iu8(3) iu8(2) iu8(1) iu8(0) led current at ambient level 8h 17h w - iu9(6) iu9(5) iu9(4) iu9(3) iu9(2) iu9(1) iu9(0) led current at ambient level 9h 18h w - iua(6) iua(5) iua(4) iua(3) iua(2) iua(1) iua(0) led current at ambient level ah 19h w - iub(6) iub(5) iub(4) iub(3) iub(2) iub(1) iub(0) led current at ambient level bh 1ah w - iuc(6) iuc(5) iuc(4) iuc(3) iuc(2) iuc(1) iuc(0) led current at ambient level ch 1bh w - iud(6) iud(5) iud(4) iud(3) iud(2) iud(1) iud(0) led current at ambient level dh 1ch w - iue(6) iue(5) iue(4) iue(3) iue(2) iue(1) iue(0) led current at ambient level eh 1dh w - iuf(6) iuf(5) iuf(4) iuf(3) iuf(2) iuf(1) iuf(0) led current at ambient level fh prohibit to accessing the address that isn?t mentioned. the timing indicated by explanation of registers, is a value in case built-in osc has typ. frequency.(1mhz) technical note 11/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu register map address 00h < software reset > address r/w bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 00h w - - - - - - - sftrst initial value 00h - - - - - - - 0 bit [7:1] : (not used) bit0 : sftrst software reset command ?0? : reset cancel ?1? : reset (all register initializing) refer to ?explanation 1? for detail. address 01h < led, alc control > address r/w bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 01h r/w - vovp(2) vovp(1) vovp( 0) wpwmen alcen ledmd leden initial value 00h - 0 0 0 0 0 0 0 bit7 : (not used) bit [6:4] : vovp(2:0) over voltage protection detect voltage ?000? : ovp=31v(typ) 8led connection ?001? : ovp=27v(typ) 7led connection ?010? : ovp=24v(typ) 6led connection ?011? : ovp=21v(typ) 5led connection ?100? : ovp=18v(typ) 4led connection ?101? : don?t use ?110? : don?t use ?111? : don?t use refer to ?explanation 4? for detail. bit3 : wpwmen external pwm input ?wpwmin? terminal enable control (valid/invalid) ?0? : wpwmin input invalid ?1? : wpwmin input valid refer to ?explanation 5-(10)? for detail. bit2 : alcen alc function control (on/off) ?0? : alc function off ?1? : alc function on refer to ?explanation 5-(1)? for detail. bit1 : ledmd led mode select (alc mode/register mode) ?0? : register mode ?1? : alc mode refer to ?explanation 5-(1)? for detail. bit0 : leden led control (on/off) ?0? : led off ?1? : led on refer to ?explanation 5-(1)? for detail. technical note 12/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu address 03h < led current setting at register mode > address r/w bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 03h r/w - iled(6) iled(5) iled(4) iled(3) iled(2) iled(1) iled(0) initial value 00h - 0 0 0 0 0 0 0 bit7 : (not used) bit [6:0] : iled(6:0) led current setting at register mode ?0000000? : 0.2 ma ?1000000? : 13.0 ma ?0000001? : 0.4 ma ?1000001? : 13.2 ma ?0000010? : 0.6 ma ?1000010? : 13.4 ma ?0000011? : 0.8 ma ?1000011? : 13.6 ma ?0000100? : 1.0 ma ?1000100? : 13.8 ma ?0000101? : 1.2 ma ?1000101? : 14.0 ma ?0000110? : 1.4 ma ?1000110? : 14.2 ma ?0000111? : 1.6 ma ?1000111? : 14.4 ma ?0001000? : 1.8 ma ?1001000? : 14.6 ma ?0001001? : 2.0 ma ?1001001? : 14.8 ma ?0001010? : 2.2 ma ?1001010? : 15.0 ma ?0001011? : 2.4 ma ?1001011? : 15.2 ma ?0001100? : 2.6 ma ?1001100? : 15.4 ma ?0001101? : 2.8 ma ?1001101? : 15.6 ma ?0001110? : 3.0 ma ?1001110? : 15.8 ma ?0001111? : 3.2 ma ?1001111? : 16.0 ma ?0010000? : 3.4 ma ?1010000? : 16.2 ma ?0010001? : 3.6 ma ?1010001? : 16.4 ma ?0010010? : 3.8 ma ?1010010? : 16.6 ma ?0010011? : 4.0 ma ?1010011? : 16.8 ma ?0010100? : 4.2 ma ?1010100? : 17.0 ma ?0010101? : 4.4 ma ?1010101? : 17.2 ma ?0010110? : 4.6 ma ?1010110? : 17.4 ma ?0010111? : 4.8 ma ?1010111? : 17.6 ma ?0011000? : 5.0 ma ?1011000? : 17.8 ma ?0011001? : 5.2 ma ?1011001? : 18.0 ma ?0011010? : 5.4 ma ?1011010? : 18.2 ma ?0011011? : 5.6 ma ?1011011? : 18.4 ma ?0011100? : 5.8 ma ?1011100? : 18.6 ma ?0011101? : 6.0 ma ?1011101? : 18.8 ma ?0011110? : 6.2 ma ?1011110? : 19.0 ma ?0011111? : 6.4 ma ?1011111? : 19.2 ma ?0100000? : 6.6 ma ?1100000? : 19.4 ma ?0100001? : 6.8 ma ?1100001? : 19.6 ma ?0100010? : 7.0 ma ?1100010? : 19.8 ma ?0100011? : 7.2 ma ?1100011? : 20.0 ma ?0100100? : 7.4 ma ?1100100? : 20.2 ma ?0100101? : 7.6 ma ?1100101? : 20.4 ma ?0100110? : 7.8 ma ?1100110? : 20.6 ma ?0100111? : 8.0 ma ?1100111? : 20.8 ma ?0101000? : 8.2 ma ?1101000? : 21.0 ma ?0101001? : 8.4 ma ?1101001? : 21.2 ma ?0101010? : 8.6 ma ?1101010? : 21.4 ma ?0101011? : 8.8 ma ?1101011? : 21.6 ma ?0101100? : 9.0 ma ?1101100? : 21.8 ma ?0101101? : 9.2 ma ?1101101? : 22.0 ma ?0101110? : 9.4 ma ?1101110? : 22.2 ma ?0101111? : 9.6 ma ?1101111? : 22.4 ma ?0110000? : 9.8 ma ?1110000? : 22.6 ma ?0110001? : 10.0 ma ?1110001? : 22.8 ma ?0110010? : 10.2 ma ?1110010? : 23.0 ma ?0110011? : 10.4 ma ?1110011? : 23.2 ma ?0110100? : 10.6 ma ?1110100? : 23.4 ma ?0110101? : 10.8 ma ?1110101? : 23.6 ma ?0110110? : 11.0 ma ?1110110? : 23.8 ma ?0110111? : 11.2 ma ?1110111? : 24.0 ma ?0111000? : 11.4 ma ?1111000? : 24.2 ma ?0111001? : 11.6 ma ?1111001? : 24.4 ma ?0111010? : 11.8 ma ?1111010? : 24.6 ma ?0111011? : 12.0 ma ?1111011? : 24.8 ma ?0111100? : 12.2 ma ?1111100? : 25.0 ma ?0111101? : 12.4 ma ?1111101? : 25.2 ma ?0111110? : 12.6 ma ?1111110? : 25.4 ma ?0111111? : 12.8 ma ?1111111? : 25.6 ma technical note 13/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu address 08h < led current transition > address r/w bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 08h w thl(3) thl(2) thl(1) thl(0) tlh(3) tlh(2) tlh(1) tlh(0) initial value c7h 1 1 0 0 0 1 1 1 bit [7:4] : thl(3:0) led current down transition per 0.2ma step ?0000? : 0.256 ms ?0001? : 0.512 ms ?0010? : 1.024 ms ?0011? : 2.048 ms ?0100? : 4.096 ms ?0101? : 8.192 ms ?0110? : 16.38 ms ?0111? : 32.77 ms ?1000? : 65.54 ms ?1001? : 131.1 ms ?1010? : 196.6 ms ?1011? : 262.1 ms ?1100? : 327.7 ms (initial value) ?1101? : 393.2 ms ?1110? : 458.8 ms ?1111? : 524.3 ms refer to ?explanation 5-(8)? for detail. bit [3:0] : tlh(3:0) led current up transition per 0.2ma step ?0000? : 0.256 ms ?0001? : 0.512 ms ?0010? : 1.024 ms ?0011? : 2.048 ms ?0100? : 4.096 ms ?0101? : 8.192 ms ?0110? : 16.38 ms ?0111? : 32.77 ms (initial value) ?1000? : 65.54 ms ?1001? : 131.1 ms ?1010? : 196.6 ms ?1011? : 262.1 ms ?1100? : 327.7 ms ?1101? : 393.2 ms ?1110? : 458.8 ms ?1111? : 524.3 ms refer to ?explanation 5-(8)? for detail. technical note 14/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu address 0bh < alc mode setting > address r/w bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 0bh r/w adcyc(1) adcyc(0) gain (1) gain(0) stype vsb mdcir sbiason initial value 81h 1 0 0 0 0 0 0 1 bit [7:6] : adcyc(1:0) adc measurement cycle ?00? : 0.52 s ?01? : 1.05 s ?10? : 1.57 s (initial value) ?11? : 2.10 s refer to ?explanation 5-(4)? for detail. bit [5:4] : gain(1:0) sensor gain switching function control ?00? : auto change (initial value) ?01? : manual high ?10? : manual low ?11? : fixed refer to ?explanation 5-(3),5-(6)? for detail. bit3 : stype ambient light sensor type select (linear/logarithm) ?0? : for linear sensor (initial value) ?1? : for log sensor refer to ?explanation 5-(6)? for detail. bit2 : vsb sbias output voltage control ?0? : sbias output voltage 3.0v (initial value) ?1? : sbias output voltage 2.6v refer to ?explanation 5-(2)? for detail. bit1 : mdcir led current reset select by mode change ?0? : led current non-reset at mode change (initial value) ?1? : led current reset at mode change refer to ?explanation 5-(9)? for detail. bit0 : sbiason sbias control (on/off) ?0? : measurement cycle synchronous ?1? : usually on (at alcen=1) (initial value) refer to ?explanation 5-(4)? for detail. technical note 15/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu address 0dh < ambient level (read only) > address r/w bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 0dh r - - - - amb(3) amb(2) amb(1) amb(0) initial value - - - - - - - - - bit [7:4] : (not used) bit [3:0] : amb(3:0) ambient level ?0000? : 0h ?0001? : 1h ?0010? : 2h ?0011? : 3h ?0100? : 4h ?0101? : 5h ?0110? : 6h ?0111? : 7h ?1000? : 8h ?1001? : 9h ?1010? : ah ?1011? : bh ?1100? : ch ?1101? : dh ?1110? : eh ?1111? : fh the data can be read through i 2 c. refer to ?explanation 5-(6)? for detail. technical note 16/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu address 0eh~1dh < led current at ambient level 0h~fh > address r/w bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 0eh~1dh w - iu * (6) iu * (5) iu * (4) iu * (3) iu * (2) iu * (1) iu * (0) initial value - refer to ?explanation 5 -(7)? for initial table ? * ? means 0~f. bit7 : (not used) bit [6:0] : iu * (6:0) led current at ambient level for 0h~fh ?0000000? : 0.2 ma ?1000000? : 13.0 ma ?0000001? : 0.4 ma ?1000001? : 13.2 ma ?0000010? : 0.6 ma ?1000010? : 13.4 ma ?0000011? : 0.8 ma ?1000011? : 13.6 ma ?0000100? : 1.0 ma ?1000100? : 13.8 ma ?0000101? : 1.2 ma ?1000101? : 14.0 ma ?0000110? : 1.4 ma ?1000110? : 14.2 ma ?0000111? : 1.6 ma ?1000111? : 14.4 ma ?0001000? : 1.8 ma ?1001000? : 14.6 ma ?0001001? : 2.0 ma ?1001001? : 14.8 ma ?0001010? : 2.2 ma ?1001010? : 15.0 ma ?0001011? : 2.4 ma ?1001011? : 15.2 ma ?0001100? : 2.6 ma ?1001100? : 15.4 ma ?0001101? : 2.8 ma ?1001101? : 15.6 ma ?0001110? : 3.0 ma ?1001110? : 15.8 ma ?0001111? : 3.2 ma ?1001111? : 16.0 ma ?0010000? : 3.4 ma ?1010000? : 16.2 ma ?0010001? : 3.6 ma ?1010001? : 16.4 ma ?0010010? : 3.8 ma ?1010010? : 16.6 ma ?0010011? : 4.0 ma ?1010011? : 16.8 ma ?0010100? : 4.2 ma ?1010100? : 17.0 ma ?0010101? : 4.4 ma ?1010101? : 17.2 ma ?0010110? : 4.6 ma ?1010110? : 17.4 ma ?0010111? : 4.8 ma ?1010111? : 17.6 ma ?0011000? : 5.0 ma ?1011000? : 17.8 ma ?0011001? : 5.2 ma ?1011001? : 18.0 ma ?0011010? : 5.4 ma ?1011010? : 18.2 ma ?0011011? : 5.6 ma ?1011011? : 18.4 ma ?0011100? : 5.8 ma ?1011100? : 18.6 ma ?0011101? : 6.0 ma ?1011101? : 18.8 ma ?0011110? : 6.2 ma ?1011110? : 19.0 ma ?0011111? : 6.4 ma ?1011111? : 19.2 ma ?0100000? : 6.6 ma ?1100000? : 19.4 ma ?0100001? : 6.8 ma ?1100001? : 19.6 ma ?0100010? : 7.0 ma ?1100010? : 19.8 ma ?0100011? : 7.2 ma ?1100011? : 20.0 ma ?0100100? : 7.4 ma ?1100100? : 20.2 ma ?0100101? : 7.6 ma ?1100101? : 20.4 ma ?0100110? : 7.8 ma ?1100110? : 20.6 ma ?0100111? : 8.0 ma ?1100111? : 20.8 ma ?0101000? : 8.2 ma ?1101000? : 21.0 ma ?0101001? : 8.4 ma ?1101001? : 21.2 ma ?0101010? : 8.6 ma ?1101010? : 21.4 ma ?0101011? : 8.8 ma ?1101011? : 21.6 ma ?0101100? : 9.0 ma ?1101100? : 21.8 ma ?0101101? : 9.2 ma ?1101101? : 22.0 ma ?0101110? : 9.4 ma ?1101110? : 22.2 ma ?0101111? : 9.6 ma ?1101111? : 22.4 ma ?0110000? : 9.8 ma ?1110000? : 22.6 ma ?0110001? : 10.0 ma ?1110001? : 22.8 ma ?0110010? : 10.2 ma ?1110010? : 23.0 ma ?0110011? : 10.4 ma ?1110011? : 23.2 ma ?0110100? : 10.6 ma ?1110100? : 23.4 ma ?0110101? : 10.8 ma ?1110101? : 23.6 ma ?0110110? : 11.0 ma ?1110110? : 23.8 ma ?0110111? : 11.2 ma ?1110111? : 24.0 ma ?0111000? : 11.4 ma ?1111000? : 24.2 ma ?0111001? : 11.6 ma ?1111001? : 24.4 ma ?0111010? : 11.8 ma ?1111010? : 24.6 ma ?0111011? : 12.0 ma ?1111011? : 24.8 ma ?0111100? : 12.2 ma ?1111100? : 25.0 ma ?0111101? : 12.4 ma ?1111101? : 25.2 ma ?0111110? : 12.6 ma ?1111110? : 25.4 ma ?0111111? : 12.8 ma ?1111111? : 25.6 ma technical note 17/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu contents of ?explanation for operate? 1. reset (1) software reset (2) hardware reset (3) reset sequence 2. thermal shutdown 3. dc/dc for led driver 4. protection function (1) over voltage protection (2) over current protection (3) vout short to gnd protection (4) vout open protection 5. alc (auto luminous control) and led driver (1) alc on/off (2) i/v conversion (3) sensor gain control (4) a/d conversion (5) average filter (6) ambient level detection (7) led current assignment (8) slope process (9) led current reset at mode change (10) current adjustment (external pwm) 6. i/o 7. the unused terminal technical note 18/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu explanation for operate 1. reset there are two kinds of reset, software reset and hardware reset. (1) software reset ? all the registers are initialized more than making a register (sftrst) setup "1". ? the register of software resetting is an automatic return (auto return 0). (2) hardware reset ? resetb pin ?h? ?l? to shift hardware reset. ? under hardware reset, all registers and output pins are initialized, and i 2 c access are stopped. ? resetb pin ?l? ?h? to release from hardware reset ? resetb pin has delay circuit. it doesn?t recognize as hardware reset in ?l? period under 5 s. (3) reset sequence ? when hardware reset was done during software reset, software reset is canceled when hardware reset is canceled. (because the initial value of software reset is ?0?) 2. thermal shutdown thermal shutdown function is effective in the following blocks. dc/dc led driver a thermal shutdown function works in about 190 . detection temperature has a hysteresis, and detection release temperature is about 170 . (design reference value) 3. dc/dc for led driver dc/dc block is designed for the power supply for led driver. start dc/dc circuit operates when leden turns on. soft start soft start function built-in to prevent rush current at start of the dc/dc. leden vio vout resetb vbat t vbaton t vbatoff t vioon=min 0.1 ms t rstb=min 0.1 ms soft start led current t rst=min 0 ms t viooff=min ms technical note 19/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu 4. protection function (1) over voltage protection over voltage protection prevents the over-voltage of t he vout terminal. if the vout voltage is over detect voltage, it stopping dc/dc switching. after stopping the switching, if vout is drop under un-detect voltage, the switching is re-start. the ovp voltage can be changed by the register. it is possible that an ovp voltage is set up suitably in accordance with the vf and the number of led that you use. set it up toward an approximate goal of the following formula. ovp voltage R (led number) x (led vf max) +1 [v] (2) over current protection switching overcurrent detection is done by the resistance arranged under the switching tr. if it detect over current level, it is stopping dc/dc switching. switching begins again when a state of over-current is canceled. (3) vout short to gnd protection the detection of a state of ground short of the vout terminal. dc/dc switching does stop at the time of the detection. switching begins again when a state of detection is canceled. (4) vout open protection the detection of a state of open of the vout terminal. dc/dc switching does stop at the time of the detection. switching begins again when a state of detection is canceled. technical note 20/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu 5. the explanation of alc (auto luminous control) lcd backlight current adjustment is possible in the basis of ambient brightness by external sensor. ? extensive selection of the ambi ent light sensors (photo diode, phot o transistor, photo ic(linear)) is possible by built-in adjustment feature of sensor bi as, adc with average filter and logarithm conversion. ? ambient brightness is changed into ambient level by digital data processing, and it can be read through i 2 c i/f. ? register setting can customize a conversion to led current. (initial value is pre-set.) ? natural dimming of led driver is possible with the adjustment of the current transition speed. adc average logarithmic conv. ambient level detect current conversion slope process sbias gain control output voltage conversion tab l e slope timer sensor gain control ambient level lcd backlight ssens sbias gc1 gc2 led* sensor data correction wpwmin pwm enabling main current setting usually on / intermittent alc led control mode select main group led driver lin/log * wave form in this explanation just shows operation image, not shows absolute value precisely. (1) auto luminous control on/off ? alc block can be independent setting on/off. ? it can use only to measure the ambient level. register : alcen register : leden register : ledmd ? refer to under about the associate alc mode and led current. alcen leden ledmd alc led control mode led current 0 0 off ( amb(3:0)=0h ) off off off 0 1 0 on resister mode iled(6:0) 0 1 1 iu0(6:0) ( * 1) 1 0 on off alc mode off 1 1 0 on iled(6:0) 1 1 1 alc mode ( * 2) ( * 1) led current is selected iu0(6:0), because of alc is off, amb(3:0)=0h. ( * 2) led current is selected iu0(6:0)~iuf(6:0) corresponding to each ambient level. technical note 21/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu (2) i/v conversion ? the bias voltage and external resistance for the i-v conversion (rs) are adjusted with adaptation of sensor characteristic ? the bias voltage is selectable by register setup. register : vsb ?0? : sbias output voltage 3.0v ?1? : sbias output voltage 2.6v rs : sense resistance (a sensor output current is changed into the voltage value.) sbias : bias power supply terminal for the sensor (3.0v / 2.6v by register setting) ssens : sense voltage input terminal ssens voltage = iout x rs a mbient sensor current (iout) a mbient ssens voltage (=iout x rs) rs is large rs is small sbias a/d sensor ic sbias ssens sgnd vcc gnd iout rs iout vssens ssens voltage technical note 22/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu (3) sensor gain control ? sensor gain switching function is built in to extend the dynamic range. ? it is controlled by register setup. ? when automatic gain control is off, the gain status can be set up in the manual. register : gain(1:0) ? gc1 and gc2 are outputted corresponding to each gain status. : this means that it becomes high with a/d measurement cycle synchronously. (*1) : set up the relative ratio of the resistance in the difference in the brightness change of the high gain mode and the low gain mode carefully. example 1 (use bh1600fvc) example 2 example 3 application example resister values are relative operating mode auto manual auto manual fixed high low high low gain(1:0) setting 00 01 10 00 01 10 11 gain status high low high low high low high low - gc1 output l l l l gc2 output l l l l l ssens sbias gc1 gc2 sgnd 9.5 (*1) ssens sbias gc1 gc2 sgnd iout gc1 gc2 gnd vcc bh1600 ssens sbias gc1 gc2 sgnd a mbient ssens voltage low gain mode high gain mode a mbient ssens voltage a uto gain mode technical note 23/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu (4) a/d conversion ? the detection of ambient data is done periodically for the low power. ? sbias and adc are turned off except for the ambient measurement. ? the sensor current may be shut in this function, it can possible to decrease the current consumption. ? sbias pin and ssens pin are pull-down in internal when there are off. ? sbias circuit has the two modes. (usually on mode or intermittent mode) register : adcyc(1:0) register : sbiason a dc cycle sbias output a dc movement a lcen a mb(3:0) t ad= 16.4ms(typ) a mb(3:0) a dcyc(1:0) t wait= 64ms(typ) when sbiason=1 gc1, gc2 gc1, gc2=00 t oprt= 80.4ms(typ) a d start signal t adone= 1.024ms(typ) 16 times measurement (wait time) (a/d conversion time) (operate time) 16 times technical note 24/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu (5) average filter ? average filter is built in to rid noise or flicker. ? 16 times averaging. (6) ambient level detection ? averaged a/d value is converted to ambient level corresponding to gain control and sensor type. ? ambient level is judged to rank of 16 steps by ambient data. ? the type of ambient light sensor can be chosen by register. (linear type sensor / logarithm type sensor) register : stype ?0? : for linear sensor ?1? : for log sensor ? ambient level is output through i 2 c. register : amb(3:0) stype 0 1 gain(1:0) 00 10 01 11 xx gain status auto low auto high manual low manual high fixed fixed ambient level ssens voltage 0h this area is not assigned. vos 0 256 this area is not assigned. vos 0 256 vos 0 256 vos 0 256 vos 17 256 1h vos 1 256 vos 1 256 vos 1 256 vos 18 256 vos 26 256 2h vos 2 256 vos 2 256 vos 2 256 vos 27 256 vos 36 256 3h vos 3 256 vos 4 256 vos 3 256 vos 4 256 vos 3 256 vos 4 256 vos 37 256 vos 47 256 4h vos 5 256 vos 7 256 vos 5 256 vos 7 256 vos 5 256 vos 6 256 vos 48 256 vos 59 256 5h vos 0 256 vos 8 256 vos 12 256 vos 0 256 vos 8 256 vos 12 256 vos 7 256 vos 9 256 vos 60 256 vos 71 256 6h vos 1 256 vos 13 256 vos 21 256 vos 1 256 vos 13 256 vos 21 256 vos 10 256 vos 13 256 vos 72 256 vos 83 256 7h vos 2 256 vos 3 256 vos 22 256 vos 37 256 vos 2 256 vos 3 256 vos 22 256 vos 37 256 vos 14 256 vos 19 256 vos 84 256 vos 95 256 8h vos 4 256 vos 6 256 vos 38 256 vos 65 256 vos 4 256 vos 6 256 vos 38 256 vos 65 256 vos 20 256 vos 27 256 vos 96 256 vos 107 256 9h vos 7 256 vos 11 256 vos 66 256 vos 113 256 vos 7 256 vos 11 256 vos 66 256 vos 113 256 vos 28 256 vos 38 256 vos 108 256 vos 119 256 ah vos 12 256 vos 20 256 vos 114 256 vos 199 256 vos 12 256 vos 20 256 vos 114 256 vos 199 256 vos 39 256 vos 53 256 vos 120 256 vos 131 256 bh vos 21 256 vos 36 256 vos 200 256 vos 255 256 vos 21 256 vos 36 256 vos 200 256 vos 255 256 vos 54 256 vos 74 256 vos 132 256 vos 143 256 ch vos 37 256 vos 64 256 this area is not assigned. vos 37 256 vos 64 256 this area is not assigned. vos 75 256 vos 104 256 vos 144 256 vos 155 256 dh vos 65 256 vos 114 256 vos 65 256 vos 114 256 vos 105 256 vos 144 256 vos 156 256 vos 168 256 eh vos 115 256 vos 199 256 vos 115 256 vos 199 256 vos 145 256 vos 199 256 vos 169 256 vos 181 256 fh vos 200 256 vos 255 256 vos 200 256 vos 255 256 vos 200 256 vos 255 256 vos 182 256 vos 255 256 ? in the auto gain control mode, sensor gain changes in gray-colored ambient level. technical note 25/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu (7) led current assignment ? led current can be assigned as each of 16 steps of the ambient level. ? register setting can customize a conversion to led current. (initial value is pre-set.) register : iu * (6:0) conversion table (initial value) ambient level setting data current value ambient level setting data current value 0h 11h 3.6ma 8h 48h 14.6ma 1h 13h 4.0ma 9h 56h 17.4ma 2h 15h 4.4ma ah 5fh 19.2ma 3h 18h 5.0ma bh 63h 20.0ma 4h 1eh 6.2ma ch 63h 20.0ma 5h 25h 7.6ma dh 63h 20.0ma 6h 2fh 9.6ma eh 63h 20.0ma 7h 3bh 12.0ma fh 63h 20.0ma (8) slope process ? slope process is given to led current to dim naturally. ? led current changes in the 256step gradation in sloping. ? up(dark bright),down(bright dark) led current transition speed are set individually. register : thl(3:0) register : tlh(3:0) ? led current changes as follows at the time as the slope. tlh (thl) is setup of time of the current step 2/256. a mbient level led current conversion table can be changed zoom time led current led setting data led current up/down transition spe ed is set individually tlh(3:0) thl (3:0) time led current tlh(3:0) 25.6ma 256 tlh thl =0.1ma technical note 26/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu (9) led current reset when mode change ? selectable the way to sloping at mode change. (alc ? resister) register : mdcir ?0? : led current non-reset at mode change ?1? : led current reset at mode change (10) current adjustment (external pwm) ? pwm drive by the external terminal (wpwmin) is possible with permission by the register setting. register : wpwmen ? it is suitable for the intensity correction by external control, because pwm based on led current of register setup or alc control. wpwmen wpwmin (external input) led current 0 l on pwm input invalid 0 h on 1 l forced off pwm input valid 1 h on wpwmin input before leden=1 is enable. setting pwmen=1 before leden=1 is enable. pwm control is effective at the led current rises up. pwm ?h? pulse width must be more than 50 s. time led current resiste r mode mdcir= ?1? 0m a resiste r mode alc mode iled(6:0) iled(6:0) iu*(6:0) time led current mdcir= ?0? 0m a resiste r mode resiste r mode alc mode iled(6:0) iled(6:0) iu*(6:0) leden vout wpwmin wpwmen led current s o ft s ta rt technical note 27/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu 6. the explanation of i/o when the resetb pin ?l?, the input buffers (sda and scl) are disabling for the low consumption power. sda resetb en resetb=l output ?h? scl logic 7. the unused terminal set up of the unused terminal is follows. t1, t4 : short to ground t2, t3 : open gc1, gc2 : open technical note 28/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu notes for use (1) absolute maximum ratings an excess in the absolute maximum ratings, such as supply voltage, temperature range of operating conditions, etc., can break down devices, thus making impossible to identify breaking mode such as a short circuit or an open circuit. if any special mode exceeding the absolute maximum ratings is assumed, consideration should be given to take physical safety measures including the use of fuses, etc. (2) power supply and ground line design pcb pattern to provide low impedance for the wiring between the power supply and the ground lines. pay attention to the interference by common impedance of layout pattern when there are plural power supplies and ground lines. especially, when there are ground pattern for small signal and ground pattern for large current included the external circuits, please separate each ground pattern. furthermore, for all power s upply pins to ics, mount a capacitor between the power supply and the ground pin. at the same time, in order to use a capacitor, thoroughly check to be sure the characteristics of the capacitor to be used present no problem including the occurrence of capacity dropout at a low temperature, thus determining the constant. (3) ground voltage make setting of the potential of the ground pin so that it will be maintained at the minimum in any operating state. furthermore, check to be sure no pins are at a potential lower than the ground voltage including an actual electric transient. (4) short circuit between pins and erroneous mounting in order to mount ics on a set pcb, pay thorough attention to the direction and offset of the ics. erroneous mounting can break down the ics. furthermore, if a short circuit o ccurs due to foreign matters entering between pins or between the pin and the power supply or the ground pin, the ics can break down. (5) operation in strong electromagnetic field be noted that using ics in the strong electromagnetic field can malfunction them. (6) input pins in terms of the construction of ic, parasitic elements are inevitably formed in relation to potential. the operation of the parasitic element can cause interference with circuit operation, thus resulting in a malfunction and then breakdown of the input pin. therefore, pay thorough attention not to handle the input pins, such as to apply to the input pins a voltage lower than the ground respectively, so that any parasitic element will operate. furthermore, do not apply a voltage to the input pins when no power supply voltage is applied to the ic. in addition, even if the power supply voltage is applied, apply to the input pins a voltage lower than the power supply voltage or within the guaranteed value of electrical characteristics. (7) external capacitor in order to use a ceramic capacitor as the external capaci tor, determine the constant with consideration given to a degradation in the nominal capacitance due to dc bias and changes in the capacitance due to temperature, etc. (8) thermal shutdown circuit (tsd) this lsi builds in a thermal shutdown (tsd) circuit. when junction temperatures become detection temperature or higher, the thermal shutdown circuit operates and turns a switch off. the thermal shutdown circuit, which is aimed at isolating the lsi from thermal runaway as much as possibl e, is not aimed at the protection or guarantee of the lsi. therefore, do not continuously use the lsi with this circuit operating or use the lsi assuming its operation. (9) thermal design perform thermal design in which there are adequate margins by taking into account the permissible dissipation (pd) in actual states of use. (10) about the pin for the test, the un-use pin prevent a problem from being in the pin for the test and the un-use pin under the state of actual use. please refer to a function manual and an application notebook. and, as for the pin that doesn't specially have an explanation, ask our company person in charge. (11) about the rush current for ics with more than one power supply, it is possible that rush current may flow instantaneously due to the internal powering sequence and delays. therefore, give special consideration to power coupling capacitance, power wiring, width of ground wiring, and routing of wiring. (12) about the function description or application note or more. the function description and the application notebook are the design materials to design a set. so, the contents of the materials aren't always guaranteed. please design applicati on by having fully examination and evaluation include the external elements. technical note 29/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu power dissipation (on the rohm?s power dissipation measuring board ) 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 0 25 50 75 100 125 150 ta power dissipation pd w) 1250mw technical note 30/30 www.rohm.com 2011.07 - rev.b ? 2011 rohm co., ltd. all rights reserved. bd60910gu ordering part number b d 6 0 9 1 0 g u - e 2 part no. part no. package gu: vcsp85h3 packaging and forming specification e2: embossed tape and reel (unit : mm) vcsp85h3 (bd60910gu) s 0.06 s a b b a 0.05 12345 a b c d e ( 0.15)index post 1.0max 0.25 0.1 0.50 0.05 1pin mark 3.00 0.05 3.00 0.05 0.50 0.05 p=0.5 4 p=0.5 4 24- 0.30 0.05 ? order quantity needs to be multiple of the minimum quantity. r1120 a www.rohm.com ? 2011 rohm co., ltd. all rights reserved. notice rohm customer support system http://www.rohm.com/contact/ thank you for your accessing to rohm product informations. more detail product informations and catalogs are available, please contact us. notes no copying or reproduction of this document, in part or in whole, is permitted without the consent of rohm co.,ltd. the content specified herein is subject to change for improvement without notice. the content specified herein is for the purpose of introducing rohm's products (hereinafter "products"). if you wish to use any such product, please be sure to refer to the specifications, which can be obtained from rohm upon request. examples of application circuits, circuit constants and any other information contained herein illustrate the standard usage and operations of the products. the peripheral conditions must be taken into account when designing circuits for mass production. great care was taken in ensuring the accuracy of the information specified in this document. however, should you incur any damage arising from any inaccuracy or misprint of such information, rohm shall bear no responsibility for such damage. the technical information specified herein is intended only to show the typical functions of and examples of application circuits for the produc ts. rohm does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by rohm and other parties. rohm shall bear no responsibility whatsoever for any dispute arising from the use of such technical information. the products specified in this document are intended to be used with general-use electronic equipment or devices (such as audio visual equipment, office-automation equipment, commu- nication devices, electronic appliances and amusement devices). the products specified in this document are not designed to be radiation tolerant. while rohm always makes efforts to enhance the quality and reliability of its products, a product may fail or malfunction for a variety of reasons. please be sure to implement in your equipment using the products safety measures to guard against the possibility of physical injury, fire or any other damage caused in the event of the failure of any product, such as derating, redundancy, fire control and fail-safe designs. rohm shall bear no responsibility whatsoever for your use of any product outside of the prescribed scope or not in accordance with the instruction manual. the products are not designed or manufactured to be used with any equipment, device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk of human injury (such as a medical instrument, transportation equipment, aerospace machinery, nuclear-reactor controller, fuel- controller or other safety device). rohm shall bear no responsibility in any way for use of any of the products for the above special purposes. if a product is intended to be used for any such special purpose, please contact a rohm sales representative before purchasing. if you intend to export or ship overseas any product or technology specified herein that may be controlled under the foreign exchange and the foreign trade law, you will be required to obtain a license or permit under the law. |
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