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  product structure silicon monolithic integrated circuit this product is not designed prot ection against radioactive rays 1/33 tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 14 ? 001 www.rohm.com datashee t serial eeprom series standard eeprom i 2 c bus eeprom (2-wire) br24sxxx-w (8k 16k 32k 64k 128k 256k) general description br24sxxx - w is a serial eeprom of i 2 c bus interface method features ? completely conforming to the world standard i 2 c bus. all controls available by 2 ports of serial clock (scl) and serial data (sda) ? other devices than eeprom can be connected to the same port, saving microcontroller port ? 1.7v to 5.5v single power source action most suitable for battery use ? fast mode 400khz at 1.7v to 5.5v ? page write mode useful for initial value write at factory shipment ? highly reliable connection by au pad and au wire ? auto erase and auto end function at data rewrite ? low current consumption ? at write operation (5v) : 0.5ma (typ.) ? at read operation (5v) : 0.2ma (typ.) ? at standby operation (5v) : 0.1 a (typ.) ? write mistake prevention function ? write (write protect) function added ? write mistake prevention function at low voltage ? data rewrite up to 1,000,000 times ? data kept for 40 years ? noise filter built in scl / sda terminal ? shipment data all address ffh packages w(typ.) x d(typ.) x h(max.) page write number of pages 16byte 32byte 64byte product number br24s08-w br24s16-w br24s32-w br24s64-w br24s128-w br24s256-w br24sxxx-w capacity bit format type power source voltage sop8 sop-j8 ssop-b8 tsso p-b8 msop8 tssop-b8j vson008 x2030 8kbit 1k8 br24s08-w 1.7v to 5.5v 16kbit 2k8 br24s16-w 1.7v to 5.5v 32kbit 4k8 br24s32-w 1.7v to 5.5v 64kbit 8k8 br24s64-w 1.7v to 5.5v 128kbit 16k8 br24s128-w 1.7v to 5.5v 256kbit 32k8 br24s256-w 1.7v to 5.5v v son008x2030 2.00mm x 3.00mm x 0.60mm tssop-b8 3.00mm x 6.40mm x 1.20mm sop8 5.00mm x 6.20mm x 1.71mm sop- j8 4.90mm x 6.00mm x 1.65mm tssop-b8j 3.00mm x 4.90mm x 1.10mm msop8 2.90mm x 4.00mm x 0.90mm ssop-b8 3.00mm x 6.40mm x 1.35mm downloaded from: http:///
datasheet 2/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com absolute maximum ratings (ta=25 ) parameter symbol ratings unit remarks supply voltage v cc -0.3 to +6.5 v 450 (sop8) when using at ta=25 or higher 4.5mw to be reduced per 1 . 450 (sop-j8) when using at ta=25 or higher 4.5mw to be reduced per 1 . 300 (ssop-b8) when using at ta=25 or higher 3.0mw to be reduced per 1 . 330 (tssop-b8) when using at ta=25 or higher 3.3mw to be reduced per 1 . 310 (tssop-b8j) when using at ta=25 or higher 3.1mw to be reduced per 1 . 310 (msop8) when using at ta=25 or higher 3.1mw to be reduced per 1 . power dissipation pd 300 (vson008x2030) mw when using at ta=25 or higher 3.0mw to be reduced per 1 . storage temperature tstg 65 to +125 operating temperature topr 40 to +85 terminal voltage \ -0.3 to vcc+1.0 v memory cell characteristics (ta=25 , vcc=1.7v to 5.5v) limits parameter min. typ. max. unit number of data rewrite times *1 1,000,000 - - times data hold years *1 40 - - years *1 not 100% tested recommended operating ratings parameter symbol ratings unit power source voltage vcc 1.7 to 5.5 input voltage v in 0 to vcc v electrical characteristics (unless otherwise specified, ta=-40 to +85 , v cc =1.7v to 5.5v) limits parameter symbol min typ. max. unit condition "h" input voltage1 vih1 0.7vcc - vcc+1.0 v "l" input voltage1 vil1 -0.3 - 0.3vcc v "l" output voltage1 vol1 - - 0.4 v iol=3.0ma , 2.5v vcc 5.5v (sda) "l" output voltage2 vol2 - - 0.2 v iol=0.7ma , 1.7v vcc 2.5v (sda) input leakage current ili -1 - 1 a vin=0 to vcc output leakage current ilo -1 - 1 a vout=0 to vcc (sda) - - 2.0 vcc=5.5v , fscl =400khz, twr=5ms byte write, page write br24s08/16/32/64-w icc1 - - 2.5 ma vcc=5.5v , fscl =400khz, twr=5ms byte write, page write br24s128/256-w current consumption at action icc2 - - 0.5 ma vcc=5.5v , fscl =400khz random read, current read, sequential read standby current isb - - 2.0 a vcc=5.5v , sda ? scl=vcc a0, a1, a2=gnd, wp=gnd downloaded from: http:///
datasheet 3/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com action timing characteristics (unless otherwise specified, ta= - 40 to +85 , v cc =1.7v to 5.5v) limits parameter symbol min. typ. max. unit scl frequency fscl - - 400 khz data clock "high" time thigh 0.6 - - s data clock "low" time tlow 1.2 - - s sda, scl rise time *1 tr - - 0.3 *2 s sda, scl fall time *1 tf - - 0.3 s start condition hold time thd:sta 0.6 - - s start condition setup time tsu:sta 0.6 - - s input data hold time thd:dat 0 - - ns input data setup time tsu:dat 100 - - ns output data delay time tpd 0.1 - 0.9 s output data hold time tdh 0.1 - - s stop condition data setup time tsu:sto 0.6 - - s bus release time before transfer start tbuf 1.2 - - s internal write cycle time twr - - 5 ms noise removal valid period (sda,scl terminal) ti - - 0.1 s wp hold time thd:wp 0 - - ns wp setup time tsu:wp 0.1 - - s wp valid time thigh:wp 1.0 - - s *1 : not 100% tested *2 : br24s16/64-w : 1.0 s. sync data input / output timing sda tsu:sta tsu:sto thd:sta start bit stop bit scl input read at the rise edge of scl data output in sync with the fall of scl figure 1-(a) sync data input / output timing figure 1-(b) start - stop bit timing a a ii a ii i aa figure 1-(c) write cycle timing figure 1-(d) wp timing at write execution at write execution, in the area from the d0 taken clock rise of the first data(1), to twr, set wp= 'low'. by setting wp "high" in the area, write can be cancelled. when it is set wp = 'high' during twr, write is forcibly ended, and data of address under access is not guaranteed, therefore write it once again. figure 1-(e) wp timing at write cancel sd a () sda () thd:sta thd:dat tsu:dat tbuf tpd tdh tlow thigh tr tf scl (input) (output) scl sda wp hd wp ???? wr d1 d0 a ck a ck data(1) data(n) tsu wp stop condition thigh:wp wp sda d1 d0 ack ack data(1) data(n) twr scl twr downloaded from: http:///
datasheet 4/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com block diagram pin configuration pin descriptions function terminal name input/ output br24s08-w br24s16-w br24s32/64/128/256-w a0 input don't use don't use slave address setting a1 input don't use don't use slave address setting a2 input slave address setting don't use slave address setting gnd - reference voltage of all input / output, 0v. sda input / output slave and word address, serial data input serial data output scl input serial clock input wp input write protect terminal vcc - connect the power source. 1 10bit: br24s08-w 11bit: br24s16-w 12bit: br24s32-w 13bit: br24s64-w 14bit: br24s128-w 15bit: br24s256-w 2 a0, a1=don't use: br24s08-w a0, a1, a2=don't use: br24s16-w vcc scl gnd br24s08-w br24s16-w br24s32-w br24s64-w br24s128-w br24s256-w 1 2 3 4 5 6 7 8 wp sda a2 a1 a0 ( top view ) 8 7 6 5 4 3 2 1 sda scl wp vcc gnd a2 a1 a0 add dress decoder slave - word address register data register control circuit high voltage generating circuit power source voltage detection 10bit 11bit 12bit 13bit 14bit 15bit 8bit ack start st op 8 kbit to 256kbit eeprom array 10bit 11bit 12bit 13bit 14bit 15bit *1 *1 *2 *2 *2 downloaded from: http:///
datasheet 5/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 4. "l" output voltage vol-iol1(vcc=1.7v) figure 5. "l" output voltage vol-iol (vcc=2.5v) figure 2. "h" input voltage vih (a0, a1, a2, scl, sda, wp) figure 3. "l" input voltage vil (a0, a1, a2, scl, sda, wp) typical performance curves (the following values are typ. ones.) downloaded from: http:///
datasheet 6/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 6. input leak current ili (a0, a1, a2, scl, wp) figure 7. output leak current ilo (sda) figure 9. current consumption at write operation icc1 (fscl=400khz br24s128/256-w) figure 8. current consumption at write operation icc1 (fscl=400khz br24s16/32/64-w) typical performance curves \ continued i lo [ua] downloaded from: http:///
datasheet 7/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 10. current consumption at read operation icc2 (fscl=400khz) figure 12. scl frequency fscl figure 13. data clock high period thigh figure 11. standby operation i sb typical performance curves \ continued downloaded from: http:///
datasheet 8/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 14. data clock low period tlow figure 15. start condition hold time thd:sta figure 16. start condition setup time tsu:sta figure 17. input data hold time thd:dat(high) typical performance curves \ continued downloaded from: http:///
datasheet 9/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 18. input data hold time thd:dat(low) figure 19. input data setup time tsu:dat(high) figure 20. input data setup time tsu:dat(low) figure 21. l data output delay time tpd0 typical performance curves \ continued downloaded from: http:///
datasheet 10/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 22. h data output delay time tpd1 figure 23. bus open time before transmission tbuf figure 24. internal writing cycle time twr figure 25. noise reduction affection time tl(scl h) typical performance curves \ continued downloaded from: http:///
datasheet 11/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 28. noise reduction effective time ti (sda l) figure 29. wp setup time tsu:wp figure 26. noise reduction effective time tl(scl l) figure 27. noise reduction effective time tl(sda h) typical performance curves \ continued downloaded from: http:///
datasheet 12/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com figure 30. wp effective time thigh:wp typical performance curves \ continued wp efective downloaded from: http:///
datasheet 13/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com vcc scl gnd br24s08-w br24s16-w br24s32-w br24s64-w br24s128-w br24s256-w 1 2 3 4 5 6 7 8 wp sda a2 a1 a0 i 2 c bus communication i 2 c bus data communication i 2 c bus data communication starts by start condition input, and ends by stop condition input. data is always 8bit long, and acknowledge is always required after each byte. i 2 c bus carries out data transmission with plural devices c onnected by 2 communication lines of serial data (sda) and serial clock (scl). among devices, there are master that generates clock and control communicati on start and end, and slave that is controlled by addresses peculiar to devices. eeprom becomes slave. and the device that outputs data to bus during data communication is called transmitter, and the device that receives data is called receiver. start condition (start bit recognition) ? before executing each command, start condition (start bit) where sda goes from 'high' down to 'low' when scl is 'high' is necessary. ? this ic always detects whether sda and scl are in start conditi on (start bit) or not, therefore, unless this condition is satisfied, any command is executed. stop condition (stop bit recognition) ? each command can be ended by sda rising from 'low' to 'high' when stop condition (stop bit), namely, scl is 'high' acknowledge (ack) signal ? this acknowledge (ack) signal is a software rule to show whether data transfer has been made normally or not. in master and slave, the device ( -com at slave address input of write command, r ead command, and this ic at data output of read command) at the transmitter (sending) side rel eases the bus after output of 8bit data. ? the device (this ic at slave address in put of write command, read command, and -com at data output of read command) at the receiver (receiving) side sets sda 'low' during 9 clock cycles, and outputs acknowledge signal (ack signal) showing that it has received the 8bit data. ? this ic, after recognizing start condition and slave address (8bit), outputs acknowledge signal (ack signal) 'low'. ? each write action outputs acknowledge signal) (ack signal) 'low ', at receiving 8bit data (word address and write data). ? each read action outputs 8bit data (read data), and detects acknowledge signal (ack signal) 'low'. ? when acknowledge signal (ack signal) is detected, a nd stop condition is not s ent from the master ( -com) side, this ic continues data output. when acknowledge signal (ack signal) is not detected, this ic stops data transfer, and recognizes stop condition (stop bit), and ends read ac tion. and this ic gets in standby status. device addressing ? output slave address after start condition from master. ? the significant 4 bits of slave address are used for recognizing a device type. the device code of this ic is fixed to '1010'. ? next slave addresses (a2 a1 a0 --- device address) are for selecting devices, and plural ones can be used on a same bus according to the number of device addresses. ? the most insignificant bit (r/w --- read/write) of slave address is used for designating write or read action, and is as shown below. setting r/w to 0 --- write (setting 0 to word address setting of random read) setting r/w to 1 --- read p0 to p2 are page select bits. note) up to 2 units of br24s08-w, up to 1 units of br24s16- w, and up to 8 units of br24s32/64/128/256-w can be connected. device address is set by 'h' and 'l' of each pin of a0, a1, and a2. type slave address maximum number of connected buses br24s08-w 1 0 1 0 a2 p1 p0 r/w D 2 br24s16-w 1 0 1 0 p2 p1 p0 r/w D 1 br24s32-w, br24s64-w br24s128-w, br24s256-w 1 0 1 0 a2 a1 a0 r/w D 8 figure 31. data transfer timing ii ii a a aa aa a a a a downloaded from: http:///
datasheet 14/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com write command write cycle ? arbitrary data is written to eeprom. when to write only 1 by te, byte write normally used, and when to write continuous data of 2 bytes or more, simultaneous write is possible by page write cycle. the maximum number of write bytes is specified per device of each capacity. up to 64 arbitrary bytes can be written. (in the case of br24s128/256-w) figure 32. byte write cycle (br24s08/16-w) figure 33. byte write cycle (br24s32/64/128/256-w) figure 34. page write cycle (br24s08/16-w) figure 35. page write cycle (br24s32/64/128/256-w) ? data is written to the address designated by word address (n-th address). ? by issuing stop bit after 8bit data input, write to memory cell inside starts. ? when internal write is started, command is not accepted for twr (5ms at maximum). ? by page write cycle, the following can be written in bulk: up to 16 bytes (br24s08-w, br24s16-w) : up to 32 bytes (br24s32-w, br24s64-w) : up to 64 bytes (br24s128-w, br24s256-w) and when data of the maximum bytes or higher is sent, data from the first byte is overwritten. (refer to "internal address increment in page 15.) ? as for page write command of br24s08-w and, br24s16-w, afte r page select bit(ps) of slave address is designated arbitrarily, by continuing data input of 2 bytes or more, the address of insignificant 4 bits is incremented internally, and da ta up to 16 bytes can be written. ? as for page write cycle of br24s32-w and br24s64-w , after the significant 7 bits (in the case of br24s32-w) of word address, or the significant 8 bits (in the case of br24s64-w) of word address are designated arbitrarily, by continuing data input of 2 bytes or more, the address of insignificant 5 bits is incremented internally, and data up to 32 bytes can be written . ? as for page write cycle of br24s128-w and br24s256-w, after t he significant 9 bit (in the case of br24s128-w) of word address, or the significant 10bit (in the case of br24s256- w) of word address are designated arbitrarily, by continuing data input of 64 bytes or more. note) figure 36. difference of slave address each type a1 a2 wa 7 d7 1 1 0 0 w r i t e s t a r t r / w s t o p word address data slave address a0 wa 0 d0 a c k sda line a c k a c k note) a1 a2 wa 14 1 1 0 0 w r i t e s t a r t r / w s t o p 1st word address data slave address a0 d0 a c k sda line a c k a c k note) wa 13 wa 12 wa 11 wa 0 a c k 2nd word address d7 *1 w r i t e s t a r t r / w a c k s t o p 1st w ord address(n) sda line a c k a c k data(n+31) a c k slave address 1 0 0 1a 0 a1 a2 wa 14 d0 note) *1 data(n) d0 d7 a c k 2nd w ord address(n) wa 0 wa 13 wa 12 wa 11 *2 *1 as for wa12, br24s32-w becomes don't care. as for wa13, br24s32/64-w becomes don't care. as for wa14, br24s32/64 /128-w becomes don't care. *1 as for wa12, br24s32-w becomes don't care. as for wa13, br24s32/64-w becomes don't care. as for wa14, br24s32/64 /128-w becomes don't care. *2 as for br24s128/256-w becomes (n+63). 1 0 0 1a 0 a1 a2 *1 *2 *3 *1 in br24s16-w, a2 becomes p2 *2 in br24s08/16-w, a1 becomes p1 *3 in br24s08/16-w, a0 becomes p0 w r i t e s t a r t r / w a c k s t o p word address(n) dat a (n) sda line a c k a c k data(n+15) a c k slave address 1 0 0 1a 0 a1 a2 wa 7 d0 d7 d0 wa 0 ? ) *1 *2 note) downloaded from: http:///
datasheet 15/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com notes on write cycle continuous input notes on page write cycle list of numbers of page write number of pages 16byte 32byte 64byte product number br24s08-w br24s16-w br24s32-w br24s64-w br24s128-w br24s256-w the above numbers are maximum bytes for respective types. any bytes below these can be written. in the case of br24s256-w, 1 page = 64bytes, but the page write cycle write time is 5ms a t maximum for 64byte bulk write. it does not stand 5ms at maximum 64byte = 320ms(max.). internal address increment page write mode (in the case of br24s16-w) for example, when it is started from address 0e h, therefore, increment is made as below, 0eh 0fh 00h 01h ??? , which please note. * 0eh ??? 16 in hexadecimal, therefore, 00001110 becomes a binary number. write protect (wp) terminal ? write protect (wp) function when wp terminal is set vcc (h level), data rewrite of all addre ss is prohibited. when it is set gnd (l level), data rewrite of all address is enabled. be sure to connect this terminal to vcc or gnd, or control it to h level or l level. do not use it open . at extremely low voltage at power on/off, by setting the wp terminal 'h', mistake write can be prevented. during twr, set the wp terminal al ways to 'l'. if it is set 'h ', write is forcibly terminated. 0eh --------- --------- significant bit is fixed. no digit up wa7 ----- wa4 wa3 wa2 wa1 wa0 0 ----- 0 0 0 0 0 0 ----- 0 0 0 0 1 0 ----- 0 0 0 1 0 0 ----- 0 1 1 1 0 0 ----- 0 1 1 1 1 0 ----- 0 0 0 0 0 i a a a aa a i a aa a a a a a a next command twr(maximum 5ms) command is not accepted for this period. at stop (stop bit) write starts. a figure 37. page write cycle(br24s08/16-w) figure 38. page write cycle(br24s32/64/128/256-w) w r i t e s t a r t r / w a c k s t o p 1st w ord address(n) sda line a c k a c k data(n+31) a c k slave address 1 0 0 1a 0 a1 a2 wa 14 d0 *1 data(n) d0 d7 a c k 2nd w ord address(n) wa 0 wa 13 wa 12 wa 11 *2 1 0 1 0 next command tw r(maximum : 5ms) command is not accepted for this period. a i i s t a r t *1 as for wa12, br24s32-w becomes don't care. as for wa13, br24s32/64-w becomes don't care. as for wa14, br24s32/64 /128-w becomes don't care. *2 as for br24s128/256-w becomes (n+63). increment downloaded from: http:///
datasheet 16/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com read command read cycle data of eeprom is read. in read cycle, there are random read cycle and current read cycle. random read cycle is a command to read data by designating address, and is used generally. current read cycle is a command to read data of internal address register without designating address, and is used when to verify just after write cycle. in both the read cycles, sequential read cycle is available, and the next address data can be read in succession. ? in random read cycle, data of designated word address can be read. ? when the command just before current read cycle is random read cycle, current read cycle (each including sequential read cycle), data of incremented last read address (n)-th addr ess, i.e., data of the (n+1)-th address is output. ? when ack signal 'low' after d0 is detected, and stop condition is not sent from master ( -com) side, the next address data can be read in succession. ? read cycle is ended by stop condition where 'h' is input to ack signal after d0 and sda signal is started at scl signal 'h'. ? when 'h' is not input to ack signal after d0, seque ntial read gets in, and the next data is output. therefore, read command cycle cannot be ended. when to end read command cycle, be sure input stop condition to input 'h' to ack signal after d0, and to start sda at scl signal 'h'. ? sequential read is ended by stop condition where 'h' is input to ack signal after arbitrary d0 and sda is started at scl signal 'h'. note) figure 43. difference of slave address of each type w r i t e s t a r t r / w a c k s t o p word address(n) sda line a c k a c k data(n) a c k slave address 10 0 1 a0 a1 a2 wa 7 a0 d0 slave address 10 0 1a1 a2 s t a r t d7 r / w r e a d wa 0 note) figure 39. random read cycle (br24s08/16-w) i a a a a i a a aa a a a a a a a a a a a a a a a a a ) a a a figure 40. random read cycle (br24s32/64/128/256-w) figure 41. current read cycle s t a r t s t o p sda line a c k data(n) a c k slave address 10 0 1 a0 a1 a2 d0 d7 r / w r e a d note) a a a aa a i a a aa a a a a a a note figure 42. sequential read cycle (in the case of current read cycle) it is necessary to input 'h' to the last ack. *1 as for wa12, br24s32-w become don't care. as for wa13, br24s32/64-w become don't care. as for wa14, br24s32/64/128-w become don't care. it is necessary to input 'h' to the last ack. 1 0 0 1a 0 a1 a2 *1 *2 *3 *1 br24s16-w a2 becomes p2. *2 br24s08/16-w a1 becomes p1. *3 br24s08/16-w a0 becomes p0. downloaded from: http:///
datasheet 17/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com software reset software reset is executed when to avoid malfunction afte r power on, and to reset during command input. software reset has several kinds, and 3 kids of them are shown in the figure below. (refer to figure 44 (a), figure 44 (b), figure 44 (c).) in dummy clock input area, release the sda bus ('h' by pull up). in dummy clock area, ack output and read data '0' (both 'l' level) may be output from eeprom, therefore, if 'h' is input forcibly, output may conflict and over current may flow, leading to instantaneous power failure of system power source or influence upon devices. acknowledge polling during internal write, all input commands are ignored, therefore ack is not sent back. during internal automatic write execution after write cycle input, next command (slave address) is sent, and if the first ack signal sends back 'l', then it means end of write action, while if it se nds back 'h', it means now in writing. by use of acknowledge polling, next command can be executed without waiting for twr = 5ms. when to write continuously, r/w = 0, when to carry out current read cycle after write, slave address r/w = 1 is sent, and if ack signal sends back 'l', then execute word address input and data so forth. figure 44-(b) the case of start+9 dummy clock + start + command normal command 1 2 13 14 scl normal command dummy clock14 start2 * start command from start input. figure 44-(c) start 9 + command input sda figure 44-(a) the case of 14 dummy clock + start + start+ command input slave address word address s t a r t first write command ac k a c k l slave slave dd slave address data write command during internal write, ack = high is sent back. after completion of internal write, ack=low is sent back, so input next word address and data in succession. t wr t wr second write command s t a r t st a r t s t a r t s t a r t s t o p st o p a c k a c k h a c k l a c k l figure 45. case to continuously write by acknowledge polling normal command scl 2 1 8 9 dummy clock9 start start normal command sda start9 scl 1 2 3 8 9 7 sda normal command normal command downloaded from: http:///
datasheet 18/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com wp valid timing (write cancel) wp is usually fixed to 'h' or 'l', but when wp is used to cancel write cycle and so forth, pa y attention to the following wp valid timing. during write cycle execution, in cancel valid area, by setting wp='h', write cycle can be cancelled. in both byte write cycle and page write cycle, the area from the first start condition of command to the rise of clock to taken in d0 of data(in page write cycle, the first byte data) is cancel invalid area. wp input in this area becomes don't care. set the setup time to rise of d0 taken 100ns or more. the area from the rise of scl to take in d0 to the end of internal automatic write (twr ) is cancel valid area. and, when it is set wp='h' during twr, write is ended forcibly, data of address under access is not guaranteed, therefor e, write it once again.(refer to figure 46. ) after execution of forced end by wp standby status gets in, so there is no need to wait for twr (5ms at maximum). command cancel by start condition and stop condition during command input, by continuously inputting start condition and stop condition, command can be cancelled. (refer to figure 47. ) however, in ack output area and during data read, sda bus ma y output 'l', and in this case, start condition and stop condition cannot be input, so reset is not available. therefore, execute software reset. and when command is cancelled by start, stop condition, during random read cycle, sequential read cycl e, or current read cycle, internal setting address is not determined, therefore, it is not possible to carry out curre nt read cycle in succession. when to carry out read cycle in succession, carry out random read cycle. figure 47. case of cancel by start, stop condition during slave address input figure 46. wp valid timing ? rise of d0 taken clock scl d0 ack enlarged view scl sda enlarged view ack d0 ? rise of sda sda wp wp cancel invalid area wp cancel valid area write forced end data is not written. data not guaranteed slave address d7 d6 d5 d4 d3 d2 d1 d0 data twr sda d1 s t a r t a c k l a c k l a c k l a c k l s t o p word address scl sda 1 1 0 0 start condition downloaded from: http:///
datasheet 19/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com i/o peripheral circuit pull up resistance of sda terminal sda is nmos open drain, so requires pull up resistance. as for this resistance value (r pu ), select an appropriate value to this resistance value from microcontroller v il , i l , and v ol -i ol characteristics of this ic. if r pu is large, action frequency is limited. the smaller the r pu , the larger the consumption current at action. maximum value of r pu the maximum value of r pu is determined by the following factors. (1)sda rise time to be determined by the capacitance (cbus) of bus line of r pu and sda should be tr or below. and ac timing should be satisfied even when sda rise time is late. (2)the bus electric potential a to be determined by input leak total (i l ) of device connected to bus output of 'h' to sda bus and r pu should sufficiently secure the input 'h' level (v ih ) of microcontroller and eep rom including recommended noise margin 0.2vcc. vcc - i l r pu - 0.2vcc v ih 0.8v cc - v ih r pu i l ex.) when vcc = 3v, i l =10 a, v ih = 0.7vcc from(2) 0.83 - 0.73 r pu 1010 -6 30 k ? minimum value of r pu the minimum value of r pu is determined by the following factors. (1)when ic outputs low, it should be satisfied that v olmax =0.4v and i olmax =3ma. v cc - v ol r pu i ol v cc - v ol r pu i ol (2)v olmax =0.4v should secure the input 'l' level (v il ) of microcontroller and eeprom including recommended noise margin 0.1vcc. v olmax v il -0.1 vcc ex.) when vcc= 3v, v ol 0.4v, i ol =3ma, microcontroller, eeprom v il =0.3vcc from(1), 3 0.4 r pu 310 867 ? and v ol =0.4 v v il =0.3 3 =0.9 v therefore, the condition (2) is satisfied. pull up resistance of scl terminal when scl control is made at cmos output port, there is no need, but in the case there is timing where scl becomes 'hi-z', add a pull up resistance. as for the pull up resistance, one of several k ? to several ten k ? is recommended in consideration of drive performance of output port of microcontroller. a0, a1, a2, wp process process of device address terminals (a0,a1,a2) check whether the set device address coincides with device address input sent from the master side or not, and select one among plural devices connected to a same bus. connect this terminal to pull up or pull down, or vcc or gnd. and, pins (don't use pin) not used as device addre ss may be set to any of h, 'l', and 'hi-z'. types with don't use pin br24s08f/fj/fv/fvt/fvm/fvj/nux-w a0, a1 br24s16f/fj/fv/fvt/fvm/fvj/nux-w a0, a1, a2 process of wp terminal wp terminal is the terminal that prohibits and permits write in hardware manner. in 'h' status, only read is available and write of all address is prohibited. in t he case of 'l', both are available. in the case of use it as an rom, it is recommended to connect it to pull up or vcc. in the case to use both read and write, control wp terminal or connect it to pull down or gnd. figure 48. i/o circuit diagram r pu a br24sxx sda terminal il il microcontroller bus line capacity cbus downloaded from: http:///
datasheet 20/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com cautions on microcontroller connection rs in i 2 c bus, it is recommended that sda port is of open drain in put/output. however, when to use cmos input / output of tri state to sda port, insert a series resistance rs bet ween the pull up resistance rpu and the sda terminal of eeprom. this is controls over current that occurs when pmos of the microcontroller and nmos of eeprom are turned on simultaneously. rs also plays the role of protection of sda terminal against surge. therefore, even when sda port is open drain input/output, rs can be used. maximum value of rs the maximum value of rs is determined by following relations. (1)sda rise time to be determined by the capacity (cbus) of bus line of rpu and sda shoulder be tr or below. and ac timing should be satisfied even when sda rise time is late. (2)the bus electric potential a to be determined by rpu and rs the moment when eeprom outputs 'l' to sda bus should sufficiently secure the input 'l' level (v il ) of microcontroller including recommended noise margin 0.1vcc. maximum value of rs the minimum value of rs is determined by over current at bus collision. when over current flows, noises in power source line, and instantaneous power failure of power source may occur. when allowable over current is defined as i, the following relation must be satisfied. determine the allowable current in consideration of impedance of power source line in set and so forth. set the over current to eeprom 10ma or below. (v cc v ol )r s r pu +r s + v ol +0.1v cc Q v il v il v ol 0.1v cc r s 1.1v cc v il r pu example when v cc =3v, v il =0.3v cc , v ol =0.4v, r pu =20k ? 0.33 0.4 0.13 from(2), r s 1.13 0.33 2010 3 1.67 k ? v cc rs i v cc rs i example when v cc =3v, i=10ma 3 rs 1010-3 r pu microcontre r s eeprom figure 50. input/output collision timing r pu microcontroller r s eeprom i ol a bus line capacity cbus v ol v cc v il figure 51. i/o circuit microcontroller eeprom 'l' output r s r pu 'h' output over current figure 52. i/o circuit diagram fi g ure 49. i/o circuit ack 'l' output of eeprom 'h' output of microcontroller over current flows to sda line by 'h' output of microcontroller and 'l' output of eeprom. scl sda 300[ ] downloaded from: http:///
datasheet 21/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com i 2 c bus input / output circuit input (a0, a1, a2, scl, wp) input/output (sda) notes on power on at power on, in ic internal circuit and se t, vcc rises through unstable low voltage area, and ic inside is not completely reset , and malfunction may occur. to prevent this, functions of por circuit and lvcc circuit are equipped. to assure the action, observe the following condition at power on. 1. set sda = 'h' and scl ='l' or 'h' 2. start power source so as to satisfy the recommended conditions of tr, toff, and vbot for operating por circuit. 3. set sda and scl so as not to become 'hi-z'. when the above conditions 1 and 2 cannot be obs erved, take the following countermeasures. a) in the case when the above conditions 1 cannot be observed. when sda becomes 'l' at power on. control scl and sda as shown below, to make scl and sda, 'h' and 'h'. b) in the case when the above condition 2 cannot be observed. after power source becomes stable, execute software reset( page 17 ). c) in the case when the above cond itions 1 and 2 cannot be observed. recommended conditions of tr,toff,vbot tr toff vbot 10ms or below 10ms or longer 0.3v or below 100ms or below 10ms or longer 0.2v or below figure 53. input pin circuit diagram figure 54. input /output pin circuit diagram toff tr vbot 0 v cc figure 55. rise waveform diagram tlow tsu:dat tdh after vcc becomes stable scl v cc sda figure 56. when scl= ' h ' and sda= 'l' tsu:dat after v cc becomes stable figure 57. when scl= ' h ' and sda= ' l ' downloaded from: http:///
datasheet 22/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com low voltage malfunction prevention function lvcc circuit prevents data rewrite action at low power, and prevents wrong write. at lvcc voltage (typ. =1.2v) or below, it prevent data rewrite. vcc noise countermeasures bypass capacitor when noise or surge gets in the power source line, malfunc tion may occur, therefore, fo r removing these, it is recommended to attach a by pass capacitor (0.1 f) between ic vcc and gnd. at that moment, attach it as close to ic as possible. and, it is also recommended to attach a bypass capacitor between board vcc and gnd. notes for use (1) described numeric values and data are design repres entative values, and the values are not guaranteed. (2) we believe that application circuit examples are recommendable, however, in actual use, confirm characteristics further sufficiently. in the case of use by changing the fixed number of external parts, make your de cision with sufficient margin in consideration of static characterist ics and transition characteristics and fluc tuations of external parts and our lsi. (3) absolute maximum ratings if the absolute maximum ratings such as impressed volt age and action temperature range and so forth are exceeded, lsi may be destructed. do not impress voltage and temperatur e exceeding the absolute maximum ratings. in the case of fear exceeding the absolute maximum ratings, take physical sa fety countermeasures such as fuses, and see to it that conditions exceeding the absolute maximum ratings should not be impressed to lsi. (4) gnd electric potential set the voltage of gnd terminal lowest at any action condition. make sure that eac h terminal voltage is lower than that of gnd terminal. (5) terminal design in consideration of permissible loss in actual use cond ition, carry out heat design with sufficient margin. (6) terminal to terminal shortcircuit and wrong packaging when to package lsi onto a board, pay sufficient attention to lsi direction and displacement. wrong packaging may destruct lsi. and in the case of shortcircuit between lsi terminals and terminals and power source, terminal and gnd owing to foreign matter, lsi may be destructed. (7) use in a strong electromagnetic field may cause ma lfunction, therefore, eval uate design sufficiently. status of this document the japanese version of this document is fo rmal specification. a customer may use this translation version only for a reference to help reading the formal version. if there are any differences in translation version of this document formal version takes priority. downloaded from: http:///
datasheet 23/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com ordering information product code description b r 2 4 s x x x x x x - w x x bus type 24 i 2 c operating temperature/ power source voltage -40 to+85 / 1.7v to 5.5v capacity 08=8k 64=64k 16=16k 128=128k 32=32k 256=256k package f :sop8 fj :sop-j8 fv : ssop-b8 fvt : tssop-b8 fvj : tssop-b8j fvm : msop8 nux : vson008x2030 double cell packaging and forming specification e2 : embossed tape and reel (sop8, sop-j8, ssop-b8,tssop-b8, tssop-b8j) tr : embossed tape and reel (msop8, vson008x2030) downloaded from: http:///
datasheet 24/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com physical dimension tape and reel information ? order quantity needs to be multiple of the minimum quantity. embossed carrier tape tapequantity direction of feed the direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand 2500pcs e2 () direction of feed reel 1pin (unit : mm) sop8 0.9 0.15 0.3min 4 + 6 4 0.17 +0.1 - 0.05 0.595 6 4 3 8 2 5 1 7 5.0 0.2 6.2 0.3 4.4 0.2 (max 5.35 include burr) 1.27 0.11 0.42 0.1 1.5 0.1 s 0.1 s downloaded from: http:///
datasheet 25/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com physical dimension tape and reel information - continued ? order quantity needs to be multiple of the minimum quantity. embossed carrier tape tapequantity direction of feed the direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand 2500pcs e2 () direction of feed reel 1pin (unit : mm) sop-j8 4 + 6 4 0.2 0.1 0.45min 234 5 6 7 8 1 4.9 0.2 0.545 3.9 0.2 6.0 0.3 (max 5.25 include burr) 0.42 0.1 1.27 0.175 1.375 0.1 0.1 s s downloaded from: http:///
datasheet 26/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com physical dimension tape and reel information - continued ? order quantity needs to be multiple of the minimum quantity. embossed carrier tape tapequantity direction of feed the direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand 2500pcs e2 () direction of feed reel 1pin (unit : mm) ssop-b8 0.08 m 0.3min 0.65 (0.52) 3.0 0.2 0.15 0.1 (max 3.35 include burr) s s 0.1 1234 5 6 7 8 0.22 6.4 0.3 4.4 0.2 +0.06 0.04 0.1 1.15 0.1 downloaded from: http:///
datasheet 27/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com physical dimension tape and reel information - continued direction of feed reel ? order quantity needs to be multiple of the minimum quantity. embossed carrier tape tapequantity direction of feed the direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand 3000pcs e2 () 1pin (unit : mm) tssop-b8 0.08 s 0.08 m 4 4 234 8765 1 1.0 0.05 1pin mark 0.525 0.245 +0.05 0.04 0.65 0.145 +0.05 0.03 0.1 0.05 1.2max 3.0 0.1 4.4 0.1 6.4 0.2 0.5 0.15 1.0 0.2 (max 3.35 include burr) s downloaded from: http:///
datasheet 28/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com physical dimension tape and reel information - continued direction of feed reel ? order quantity needs to be multiple of the minimum quantity. embossed carrier tape tapequantity direction of feed the direction is the 1pin of product is at the upper left when you hold reel on the left hand and you pull out the tape on the right hand 2500pcs e2 () 1pin (unit : mm) tssop-b8j 0.08 m 0.08 s s 4 4 (max 3.35 include burr) 5 7 8 1234 6 3.0 0.1 1pin mark 0.95 0.2 0.65 4.9 0.2 3.0 0.1 0.45 0.15 0.85 0.05 0.145 0.1 0.05 0.32 0.525 1.1max +0.05 0.03 +0.05 0.04 downloaded from: http:///
datasheet 29/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com physical dimension tape and reel information - continued direction of feed reel ? order quantity needs to be multiple of the minimum quantity. embossed carrier tape tapequantity direction of feed the direction is the 1pin of product is at the upper right when you hold reel on the left hand and you pull out the tape on the right hand 3000pcs tr () 1pin (unit : mm) msop8 0.08 s s 4.0 0.2 8 3 2.8 0.1 1 6 2.9 0.1 0.475 4 5 7 (max 3.25 include burr) 2 1pin mark 0.9max 0.75 0.05 0.65 0.08 0.05 0.22 +0.05 0.04 0.6 0.2 0.29 0.15 0.145 +0.05 0.03 4 + 6 4 downloaded from: http:///
datasheet 30/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com physical dimension tape and reel information - continued ? order quantity needs to be multiple of the minimum quantity. embossed carrier tape tapequantity direction of feed the direction is the 1pin of product is at the upper right when you hold reel on the left hand and you pull out the tape on the right hand 4000pcs tr () direction of feed reel 1pin (unit : mm) vson008x2030 5 1 8 4 1.4 0.1 0.25 1.5 0.1 0.5 0.3 0.1 0.25 +0.05 0.04 c0.25 0.6max (0.12) 0.02 +0.03 0.02 3.0 0.1 2.0 0.1 1pin mark 0.08 s s downloaded from: http:///
datasheet 31/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com marking diagrams part number marking sop8(top view) lot number 1pin mark sop-j8(top view) part number marking lot number 1pin mark tssop-b8j(top view) part number marking lot number 1pin mark vson008x2030 (top view) part number marking lot number 1pin mark tssop-b8(top view) part number marking lot number 1pin mark ssop-b8(top view) part number marking lot number 1pin mark msop8(top view) part number marking lot number 1pin mark downloaded from: http:///
datasheet 32/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com marking information capacity product name marking package type s08 sop8 s08 sop-j8 s08 ssop-b8 s08 tssop-b8 s08 tssop-b8j s08 msop8 8k s08 vson008x2030 s16 sop8 s16 sop-j8 s16 ssop-b8 s16 tssop-b8 s16 tssop-b8j s16 msop8 16k s16 vson008x2030 s32 sop8 s32 sop-j8 s32 ssop-b8 s32 tssop-b8 s32 tssop-b8j s32 msop8 32k s32 vson008x2030 s64 sop8 s64 sop-j8 s64 ssop-b8 s64 tssop-b8 s64 tssop-b8j 64k s64 msop8 4s128 sop8 4s128 sop-j8 s128 ssop-b8 128k 4s128 tssop-b8 4s256 sop8 256k 4s256 sop-j8 downloaded from: http:///
datasheet 33/33 br24sxxx-w (8k 16k 32k 64k 128k 256k) tsz02201-0r2r0g100320-1-2 20.aug.2012 rev.001 ?2012 rohm co., ltd. all rights reserved. tsz22111 ? 15 ? 001 www.rohm.com revision history date revision changes 20.aug.2012 001 new release downloaded from: http:///
datasheet d a t a s h e e t notice - ge rev.002 ? 2014 rohm co., ltd. all rights reserved. notice precaution on using rohm products 1. our products are designed and manufac tured for application in ordinary elec tronic equipments (such as av equipment, oa equipment, telecommunication equipment, home electroni c appliances, amusement equipment, etc.). if you intend to use our products in devices requiring ex tremely high reliability (such as medical equipment (note 1) , transport equipment, traffic equipment, aircraft/spacecra ft, nuclear power controllers, fuel c ontrollers, car equipment including car accessories, safety devices, etc.) and whose malfunction or failure may cause loss of human life, bodily injury or serious damage to property (specific applications), please consult with the rohm sale s representative in advance. unless otherwise agreed in writing by rohm in advance, rohm shall not be in any way responsible or liable for any damages, expenses or losses incurred by you or third parties arising from the use of any ro hms products for specific applications. (note1) medical equipment classification of the specific applications japan usa eu china class class class b class class class 2. rohm designs and manufactures its products subject to strict quality control system. however, semiconductor products can fail or malfunction at a certain rate. please be sure to implement, at your own responsibilities, adequate safety measures including but not limited to fail-safe desi gn against the physical injury, damage to any property, which a failure or malfunction of our products may cause. the following are examples of safety measures: [a] installation of protection circuits or other protective devices to improve system safety [b] installation of redundant circuits to reduce the impact of single or multiple circuit failure 3. our products are designed and manufactured for use under standard conditions and not under any special or extraordinary environments or conditio ns, as exemplified below. accordin gly, rohm shall not be in any way responsible or liable for any damages, expenses or losses arising from the use of an y rohms products under any special or extraordinary environments or conditions. if you intend to use our products under any special or extraordinary environments or conditions (as exemplified below), your independent verification and confirmation of product performance, reliability, etc, prior to use, must be necessary: [a] use of our products in any types of liquid, incl uding water, oils, chemicals, and organic solvents [b] use of our products outdoors or in places where the products are exposed to direct sunlight or dust [c] use of our products in places where the products ar e exposed to sea wind or corrosive gases, including cl 2 , h 2 s, nh 3 , so 2 , and no 2 [d] use of our products in places where the products are exposed to static electricity or electromagnetic waves [e] use of our products in proximity to heat-producing components, plastic cords, or other flammable items [f] sealing or coating our products with resin or other coating materials [g] use of our products without cleaning residue of flux (ev en if you use no-clean type fluxes, cleaning residue of flux is recommended); or washing our products by using water or water-soluble cleaning agents for cleaning residue after soldering [h] use of the products in places subject to dew condensation 4. the products are not subjec t to radiation-proof design. 5. please verify and confirm characteristics of the final or mounted products in using the products. 6. in particular, if a transient load (a large amount of load applied in a short per iod of time, such as pulse. is applied, confirmation of performance characteristics after on-boar d mounting is strongly recomm ended. avoid applying power exceeding normal rated power; exceeding the power rating under steady-state loading c ondition may negatively affect product performance and reliability. 7. de-rate power dissipation (pd) depending on ambient temper ature (ta). when used in seal ed area, confirm the actual ambient temperature. 8. confirm that operation temperat ure is within the specified range described in the product specification. 9. rohm shall not be in any way responsible or liable for fa ilure induced under deviant condi tion from what is defined in this document. precaution for mounting / circuit board design 1. when a highly active halogenous (chlori ne, bromine, etc.) flux is used, the resi due of flux may negatively affect product performance and reliability. 2. in principle, the reflow soldering method must be used; if flow soldering met hod is preferred, please consult with the rohm representative in advance. for details, please refer to rohm mounting specification downloaded from: http:///
datasheet d a t a s h e e t notice - ge rev.002 ? 2014 rohm co., ltd. all rights reserved. precautions regarding application examples and external circuits 1. if change is made to the constant of an external circuit, pl ease allow a sufficient margin considering variations of the characteristics of the products and external components, including transient characteri stics, as well as static characteristics. 2. you agree that application notes, re ference designs, and associated data and in formation contained in this document are presented only as guidance for products use. theref ore, in case you use such information, you are solely responsible for it and you must exercise your own independent verification and judgment in the use of such information contained in this document. rohm shall not be in any way responsible or liable for any damages, expenses or losses incurred by you or third parties arising from the use of such information. precaution for electrostatic this product is electrostatic sensitive product, which may be damaged due to electrostatic discharge. please take proper caution in your manufacturing process and storage so that voltage exceeding t he products maximum rating will not be applied to products. please take special care under dry condit ion (e.g. grounding of human body / equipment / solder iron, isolation from charged objects, se tting of ionizer, friction prevention and temperature / humidity control). precaution for storage / transportation 1. product performance and soldered connections may deteriora te if the products are stor ed in the places where: [a] the products are exposed to sea winds or corros ive gases, including cl2, h2s, nh3, so2, and no2 [b] the temperature or humidity exceeds those recommended by rohm [c] the products are exposed to di rect sunshine or condensation [d] the products are exposed to high electrostatic 2. even under rohm recommended storage c ondition, solderability of products out of recommended storage time period may be degraded. it is strongly recommended to confirm sol derability before using products of which storage time is exceeding the recommended storage time period. 3. store / transport cartons in the co rrect direction, which is indicated on a carton with a symbol. otherwise bent leads may occur due to excessive stress applied when dropping of a carton. 4. use products within the specified time after opening a humidity barrier bag. baking is required before using products of which storage time is exceeding the recommended storage time period. precaution for product label qr code printed on rohm products label is for rohms internal use only. precaution for disposition when disposing products please dispose them proper ly using an authorized industry waste company. precaution for foreign exchange and foreign trade act since our products might fall under cont rolled goods prescribed by the applicable foreign exchange and foreign trade act, please consult with rohm representative in case of export. precaution regarding intellectual property rights 1. all information and data including but not limited to application example contained in this document is for reference only. rohm does not warrant that foregoi ng information or data will not infringe any intellectual property rights or any other rights of any third party regarding such information or data. rohm shall not be in any way responsible or liable for infringement of any intellectual property rights or ot her damages arising from use of such information or data.: 2. no license, expressly or implied, is granted hereby under any intellectual property rights or other rights of rohm or any third parties with respect to the information contained in this document. other precaution 1. this document may not be reprinted or reproduced, in whol e or in part, without prior written consent of rohm. 2. the products may not be disassembled, converted, modified, reproduced or otherwise changed without prior written consent of rohm. 3. in no event shall you use in any wa y whatsoever the products and the related technical information contained in the products or this document for any military purposes, incl uding but not limited to, the development of mass-destruction weapons. 4. the proper names of companies or products described in this document are trademarks or registered trademarks of rohm, its affiliated companies or third parties. downloaded from: http:///
datasheet datasheet notice C we rev.001 ? 2014 rohm co., ltd. all rights reserved. general precaution 1. before you use our pro ducts, you are requested to care fully read this document and fully understand its contents. rohm shall n ot be in an y way responsible or liabl e for fa ilure, malfunction or acci dent arising from the use of a ny rohms products against warning, caution or note contained in this document. 2. all information contained in this docume nt is current as of the issuing date and subj ec t to change without any prior notice. before purchasing or using rohms products, please confirm the la test information with a rohm sale s representative. 3. the information contained in this doc ument is provi ded on an as is basis and rohm does not warrant that all information contained in this document is accurate an d/or error-free. rohm shall not be in an y way responsible or liable for an y damages, expenses or losses incurred b y you or third parties resulting from inaccur acy or errors of or concerning such information. downloaded from: http:///


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