? 2008 microchip technology inc. ds21795d-page 1 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c device selection table features: ? low-power cmos technology ? org pin to select word size for ?66c? version ? 512 x 8-bit organization ?a? devices (no org) ? 256 x 16-bit organization ?b? devices (no org) ? self-timed erase/write cycles (including auto-erase) ? automatic erase all (eral) before write all (wral) ? power-on/off data protection circuitry ? industry standard 3-wire serial i/o ? device status signal (ready/ busy ) ? sequential read function ? 1,000,000 erase/write cycles ? data retention > 200 years ? pb-free and rohs compliant ? temperature ranges supported: pin function table description: the microchip technology inc. 93xx66a/b/c devices are 4kbit low-voltage serial electrically erasable proms (eeprom). word-selectable devices such as the 93aa66c, 93lc66c or 93c66c are dependent upon external logic levels driving the org pin to set word size. for dedicated 8-bit communication, the 93xx66a devices are available, while the 93xx66b devices provide dedicated 16-bit communication. advanced cmos technology makes these devices ideal for low-power, nonvolatile memory applications. the entire 93xx series is available in standard packages including 8-lead pdip and soic, and advanced packaging including 8-lead msop, 6-lead sot-23, 8-lead 2x3 dfn and 8-lead tssop. all packages are pb-free (matte tin) finish. part number v cc range org pin word size temp ranges packages 93aa66a 1.8-5.5 no 8-bit i p, sn, st, ms, ot, mc 93aa66b 1.8-5-5 no 16-bit i p, sn, st, ms, ot, mc 93lc66a 2.5-5.5 no 8-bit i, e p, sn, st, ms, ot, mc 93lc66b 2.5-5.5 no 16-bit i, e p, sn, st, ms, ot, mc 93c66a 4.5-5.5 no 8-bit i, e p, sn, st, ms, ot, mc 93c66b 4.5-5.5 no 16-bit i, e p, sn, st, ms, ot, mc 93aa66c 1.8-5.5 yes 8- or 16-bit i p, sn, st, ms, mc 93lc66c 2.5-5.5 yes 8- or 16-bit i, e p, sn, st, ms, mc 93c66c 4.5-5.5 yes 8- or 16-bit i, e p, sn, st, ms, mc - industrial (i) -40c to +85c - automotive (e) -40c to +125c name function cs chip select clk serial data clock di serial data input do serial data output v ss ground nc no internal connection org memory configuration v cc power supply 4k microwire compatible serial eeprom
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 2 ? 2008 microchip technology inc. package types (not to scale) cs clk di do 1 2 3 4 8 7 6 5 v cc nc org * v ss pdip/soic (p, sn) cs clk di do 1 2 3 4 8 7 6 5 v cc nc org* v ss rotated soic (ex: 93lc46bx) tssop/msop cs clk di do 1 2 3 4 8 7 6 5 v cc nc org* v ss (st, ms) sot-23 do v ss di 1 2 3 6 5 4 v cc cs clk (ot) *org pin is nc on a/b devices. dfn cs clk di do nc org* v ss v cc 8 7 6 5 1 2 3 4 (mc)
? 2008 microchip technology inc. ds21795d-page 3 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c 1.0 electrical characteristics absolute maximum ratings (?) v cc ............................................................................................................................... ..............................................7.0v all inputs and outputs w.r.t. v ss ..........................................................................................................-0.6v to v cc +1.0v storage temperature ............................................................................................................ ................... -65c to +150c ambient temperature with power appl ied.............. .............. .............. .............. ........... ........... ........... ....... -40c to +125c esd protection on all pins ............................................................... ............................................................... ........................ 4kv table 1-1: dc characteristics ? notice: stresses above those listed under ?absolute maxi mum ratings? may cause permanent damage to the device. this is a stress rating only and functional operatio n of the device at those or any other conditions above those indicated in the operational listings of this specification is not implied. exposure to maximum rating conditions for extended periods may affect device reliability. all parameters apply over the specified ranges unless otherwise noted. industrial (i): t a = -40c to +85c, v cc = +1.8v to +5.5v automotive (e): t a = -40c to +125c, v cc = +2.5v to +5.5v param. no. symbol parameter min typ max units conditions d1 v ih 1 v ih 2 high-level input voltage 2.0 0.7 v cc ? ? v cc +1 v cc +1 v v v cc 2.7v v cc < 2.7v d2 v il 1 v il 2 low-level input voltage -0.3 -0.3 ? ? 0.8 0.2 v cc v v v cc 2.7v v cc < 2.7v d3 v ol 1 v ol 2 low-level output voltage ? ? ? ? 0.4 0.2 v v i ol = 2.1 ma, v cc = 4.5v i ol = 100 a, v cc = 2.5v d4 v oh 1 v oh 2 high-level output voltage 2.4 v cc - 0.2 ? ? ? ? v v i oh = -400 a, v cc = 4.5v i oh = -100 a, v cc = 2.5v d5 i li input leakage current ? ? 1 av in = v ss or v cc d6 i lo output leakage current ? ? 1 av out = v ss or v cc d7 c in , c out pin capacitance (all inputs/ outputs) ??7 pfv in /v out = 0v (note 1) t a = 25c, f clk = 1 mhz d8 i cc write write current ? ? ? 500 2 ? ma a f clk = 3 mhz, vcc = 5.5v f clk = 2 mhz, vcc = 2.5v d9 i cc read read current ? ? ? ? ? 100 1 500 ? ma a a f clk = 3 mhz, v cc = 5.5v f clk = 2 mhz, v cc = 3.0v f clk = 2 mhz, v cc = 2.5v d10 i ccs standby current ? ? ? ? 1 5 a a i ? temp e ? temp clk = cs = 0v org = di = v ss or v cc (note 2) (note 3) d11 v por v cc voltage detect 93aa66a/b/c, 93lc66a/b/c 93c66a/b/c ? ? 1.5v 3.8v ? ? v v (note 1) note 1: this parameter is periodically sampled and not 100% tested. 2: org pin not available on ?a? or ?b? versions. 3: ready/ busy status must be cleared from do; see section 3.4 "data out (do)" .
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 4 ? 2008 microchip technology inc. table 1-2: ac characteristics all parameters apply over the specified ranges unless otherwise noted. industrial (i): t a = -40c to +85c, v cc = +1.8v to +5.5v automotive (e): t a = -40c to +125c, v cc = +2.5v to +5.5v param. no. symbol parameter min max units conditions a1 f clk clock frequency ? 3 2 1 mhz mhz mhz 4.5v v cc < 5.5v, 93xx66c only 2.5v v cc < 5.5v 1.8v v cc < 2.5v a2 t ckh clock high time 200 250 450 ?ns ns ns 4.5v v cc < 5.5v, 93xx66c only 2.5v v cc < 5.5v 1.8v v cc < 2.5v a3 t ckl clock low time 100 200 450 ?ns ns ns 4.5v v cc < 5.5v, 93xx66c only 2.5v v cc < 5.5v 1.8v v cc < 2.5v a4 t css chip select setup time 50 100 250 ?ns ns ns 4.5v v cc < 5.5v 2.5v v cc < 4.5v 1.8v v cc < 2.5v a5 t csh chip select hold time 0 ? ns 1.8v v cc < 5.5v a6 t csl chip select low time 250 ? ns 1.8v v cc < 5.5v a7 t dis data input setup time 50 100 250 ?ns ns ns 4.5v v cc < 5.5v, 93xx66c only 2.5v v cc < 5.5v 1.8v v cc < 2.5v a8 t dih data input hold time 50 100 250 ?ns ns ns 4.5v v cc < 5.5v, 93xx66c only 2.5v v cc < 5.5v 1.8v v cc < 2.5v a9 t pd data output delay time ? 200 250 400 ns ns ns 4.5v v cc < 5.5v, cl = 100 pf 2.5v v cc < 4.5v, cl = 100 pf 1.8v v cc < 2.5v, cl = 100 pf a10 t cz data output disable time ? 100 200 ns ns 4.5v v cc < 5.5v, (note 1) 1.8v v cc < 4.5v, (note 1) a11 t sv status valid time ? 200 300 500 ns ns ns 4.5v v cc < 5.5v, cl = 100 pf 2.5v v cc < 4.5v, cl = 100 pf 1.8v v cc < 2.5v, cl = 100 pf a12 t wc program cycle time ? 6 ms eras e/write mode (aa and lc versions) a13 t wc ? 2 ms erase/write mode (93c versions) a14 t ec ? 6 ms eral mode, 4.5v v cc 5.5v a15 t wl ? 15 ms wral mode, 4.5v v cc 5.5v a16 ? endurance 1m ? cycles 25c, v cc = 5.0v, (note 2) note 1: this parameter is periodically sampled and not 100% tested. 2: this application is not tested but ensured by char acterization. for endurance estimates in a specific application, please consult the total endurance? mode l, which may be obtained from microchip?s web site at www.microchip.com.
? 2008 microchip technology inc. ds21795d-page 5 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c figure 1-1: synchronous data timing table 1-3: instruction set for x16 organiza tion (93xx66b or 93xx66c with org = 1 ) table 1-4: instruction set for x8 organization (93xx66a or 93xx66c with org = 0 ) instruction sb opcode address data in data out req. clk cycles erase 1 11 a7 a6 a5 a4 a3 a2 a1 a0 ? (rdy/ bsy )11 eral 1 00 10xxxxxx ?(rdy/ bsy )11 ewds 1 00 00xxxxxx ? high-z 11 ewen 1 00 11xxxxxx ? high-z 11 read 1 10 a7 a6 a5 a4 a3 a2 a1 a0 ? d15 ? d0 27 write 1 01 a7 a6 a5 a4 a3 a2 a1 a0 d15 ? d0 (rdy/ bsy )27 wral 1 00 01xxxxxx d15 ? d0 (rdy/ bsy )27 instruction sb opcode address data in data out req. clk cycles erase 1 11 a8 a7 a6 a5 a4 a3 a2 a1 a0 ? (rdy/ bsy )12 eral 1 00 10xxxxxxx ? (rdy/ bsy )12 ewds 1 00 00xxxxxxx ? high-z 12 ewen 1 00 11xxxxxxx ? high-z 12 read 1 10 a8 a7 a6 a5 a4 a3 a2 a1 a0 ? d7 ? d0 20 write 1 01 a8 a7 a6 a5 a4 a3 a2 a1 a0 d7 ? d0 (rdy/ bsy )20 wral 1 00 01xxxxxxx d7 ? d0 (rdy/ bsy )20 cs v ih v il v ih v il v ih v il v oh v ol v oh v ol clk di do (read) do (program) t css t dis t ckh t ckl t dih t pd t csh t pd t cz status valid t sv t cz note: t sv is relative to cs.
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 6 ? 2008 microchip technology inc. 2.0 functional description when the org pin is connected to v cc , the (x16) orga- nization is selected. when it is connected to ground, the (x8) organization is selected. instructions, addresses and write data are clocked into the di pin on the rising edge of the clock (clk). the do pin is normally held in a high-z state except when reading data from the device, or when checking the ready/ busy status during a programming operation. the ready/ busy status can be verified during an erase/ write operation by polling the do pin; do low indicates that programming is still in progress, while do high indicates the device is ready. do will enter the high-z state on the falling edge of cs. 2.1 start condition the start bit is detected by t he device if cs and di are both high with respect to t he positive edge of clk for the first time. before a start condition is detected, cs, clk and di may change in any combination (except to that of a start condition), without resulting in any device operation (read, write, er ase, ewen, ewds, eral or wral). as soon as cs is high, the device is no longer in standby mode. an instruction following a start condition will only be executed if the required op code, address and data bits for any particular instruction are clocked in. 2.2 data in/data out (di/do) it is possible to connect th e data in and data out pins together. however, with this configuration it is possible for a ?bus conflict? to occur during the ?dummy zero? that precedes the read opera tion, if a0 is a logic high level. under such a condition the voltage level seen at data out is undefined and will depend upon the relative impedances of data out and the signal source driving a0. the higher the current sourcing capability of a0, the higher the voltage at the data out pin. in order to limit this current, a resistor should be connected between di and do. 2.3 data protection all modes of operation are inhibited when v cc is below a typical voltage of 1.5v for ?93aa? and ?93lc? devices or 3.8v for ?93c? devices. the ewen and ewds commands give additional protection against accidentally programming during normal operation. note: for added protection, an ewds command should be performed after every write operation. after power-up, the device is automatically in the ewds mode. therefore, an ewen instruction must be performed before the initial erase or write instruction can be executed. block diagram note: when preparing to transmit an instruction, either the clk or di signal levels must be at a logic low as cs is toggled active high. memory array data register mode decode logic clock register address decoder address counter output buffer do di org* cs clk v cc v ss *org input is not available on a/b devices
? 2008 microchip technology inc. ds21795d-page 7 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c 2.4 erase the erase instruction forces all data bits of the speci- fied address to the logical ? 1 ? state. cs is brought low following the loading of the last address bit. this falling edge of the cs pin initia tes the self-timed program- ming cycle, except on ?93c? devices where the rising edge of clk before the last address bit initiates the write cycle. the do pin indicates the ready/ busy status of the device if cs is brought high after a minimum of 250 ns low (t csl ). do at logical ? 0 ? indicates that programming is still in progress. do at logical ? 1 ? indicates that the register at the specified address has been erased and the device is ready for another instruction. note: issuing a start bit and then taking cs low will clear the ready/ busy status from do. figure 2-1: erase timing for 93aa and 93lc devices figure 2-2: erase timing for 93c devices cs clk di do t csl check status 11 1 a n a n -1 a n -2 ??? a0 t sv t cz b usy ready high-z t wc high-z cs clk di do t csl check status 111 a n a n -1 a n -2 ??? a0 t sv t cz b usy ready high-z t wc high-z
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 8 ? 2008 microchip technology inc. 2.5 erase all (eral) the erase all ( eral ) instruction will erase the entire memory array to the logical ? 1 ? state. the eral cycle is identical to the erase cycle, except for the different opcode. the eral cycle is completely self-timed and commences at the falling edge of the cs, except on ?93c? devices where the rising edge of clk before the last data bit initiates the write cycle. clocking of the clk pin is not necessary after the device has entered the eral cycle. the do pin indicates the ready/ busy status of the device, if cs is brought high after a minimum of 250 ns low (t csl ). note: issuing a start bit and then taking cs low will clear the ready/ busy status from do. v cc must be 4.5v for proper operation of eral. figure 2-3: eral timing for 93aa and 93lc devices figure 2-4: eral timing for 93c devices cs clk di do t csl check status 100 10x ??? x t sv t cz busy ready high-z t ec high-z v cc must be 4.5v for proper operation of eral. cs clk di do t csl check status 100 10x ??? x t sv t cz busy ready high-z t ec high-z
? 2008 microchip technology inc. ds21795d-page 9 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c 2.6 erase/write disable and enable (ewds/ewen) the 93xx66a/b/c powers up in the erase/write disable ( ewds ) state. all programming modes must be preceded by an erase/write enable ( ewen ) instruction. once the ewen instruction is executed, programming remains enabled until an ewds instruction is executed or vcc is removed from the device. to protect against accidental data disturbance, the ewds instruction can be used to disable all erase/write functions and should follow all programming opera- tions. execution of a read instruction is independent of both the ewen and ewds instructions. figure 2-5: ewds timing figure 2-6: ewen timing 2.7 read the read instruction outputs the serial data of the addressed memory location on the do pin. a dummy zero bit precedes the 8-bit (if org pin is low or a-version devices) or 16-bit (if org pin is high or b-version devices) output string. the out put data bits will toggle on the rising edge of the clk and are stable after the specified time delay (t pd ). sequential read is possible when cs is held high. the memory data will automatically cycle to the next register and output sequentially. figure 2-7: read timing cs clk di 10 000x ??? x t csl 1x cs clk di 00 1 1x t csl ??? cs clk di do 110 an ??? a0 high-z 0 dx ??? d0 dx ??? d0 ??? dx d0
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 10 ? 2008 microchip technology inc. 2.8 write the write instruction is followed by 8 bits (if org is low or a-version devices) or 16 bits (if org pin is high or b-version devices) of data which are written into the specified address. for 93aa66a/b/c and 93lc66a/b/c devices, after the last data bit is clocked into di, the falling edge of cs initiates the self-timed auto-erase and programming cycle. for 93c66a/b/c devices, the self- timed auto-erase and programming cycle is initiated by the rising edge of clk on the last data bit. the do pin indicates the ready/ busy status of the device, if cs is brought high after a minimum of 250 ns low (t csl ). do at logical ? 0 ? indicates that programming is still in progress. do at logical ? 1 ? indicates that the register at the specified address has been written with the data specified and the de vice is ready for another instruction. note: issuing a start bit and then taking cs low will clear the ready/ busy status from do. figure 2-8: write timing for 93aa and 93lc devices figure 2-9: write timing for 93c devices cs clk di do 1 0 1 a n ??? a0 dx ??? d0 busy ready high-z high-z t wc t csl t cz t sv cs clk di do 1 0 1 a n ??? a0 dx ??? d0 busy ready high-z high-z t wc t csl t cz t sv
? 2008 microchip technology inc. ds21795d-page 11 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c 2.9 write all (wral) the write all ( wral ) instruction will write the entire memory array with the data specified in the command. for 93aa66a/b/c and 93lc66a/b/c devices, after the last data bit is clocked into di, the falling edge of cs initiates the self-timed auto-erase and programming cycle. for 93c66a/b/c devices, the self-timed auto- erase and programming cycle is initiated by the rising edge of clk on the last data bit. clocking of the clk pin is not necessary after the device has entered the wral cycle. the wral command does include an automatic eral cycle for t he device. therefore, the wral instruction does not require an eral instruction, but the chip must be in the ewen status. the do pin indicates the ready/ busy status of the device if cs is brought high after a minimum of 250 ns low (t csl ). note: issuing a start bit and then taking cs low will clear the ready/ busy status from do. v cc must be 4.5v for proper operation of wral. figure 2-10: wral timing for 93aa and 93lc devices figure 2-11: wral timing for 93c devices cs clk di do h igh -z 100 01 x ??? x dx ??? d0 high-z busy ready t wl v cc must be 4.5v for proper operation of wral. t csl t sv t cz cs clk di do h igh -z 100 01 x ??? x dx ??? d0 high-z busy ready t wl t csl t sv t cz
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 12 ? 2008 microchip technology inc. 3.0 pin descriptions table 3-1: pin descriptions 3.1 chip select (cs) a high level selects the device; a low level deselects the device and forces it into standby mode. however, a programming cycle which is already in progress will be completed, regardless of the chip select (cs) input signal. if cs is brought lo w during a prog ram cycle, the device will go into standby mode as soon as the programming cycle is completed. cs must be low for 250 ns minimum (t csl ) between consecutive instructions. if cs is low, the internal control logic is held in a reset status. 3.2 serial clock (clk) the serial clock is used to synchronize the communi- cation between a master device and the 93xx series device. opcodes, address and data bits are clocked in on the positive edge of clk. data bits are also clocked out on the positive edge of clk. clk can be stopped anywhere in the transmission sequence (at high or low level) and can be continued anytime with respect to clock high time (t ckh ) and clock low time (t ckl ). this gives the controlling master freedom in preparing opcode, address and data. clk is a ?don?t care? if cs is low (device deselected). if cs is high, but the start condition has not been detected (di = 0 ), any number of clock cycles can be received by the device without changing its status (i.e., waiting for a start condition). clk cycles are not required during the self -timed write (i.e., auto erase/write) cycle. after detection of a start condition the specified number of clock cycles (respectively low-to-high transitions of clk) must be provided. these clock cycles are required to clock in all required opcode, address and data bits before an instruction is executed. clk and di then become ?don?t care? inputs waiting for a new start condition to be detected. 3.3 data in (di) data in (di) is used to clock in a start bit, opcode, address and data synchronously with the clk input. 3.4 data out (do) data out (do) is used in the read mode to output data synchronously with the clk input (t pd after the posi- tive edge of clk). this pin also provides ready/ busy status information during erase and write cycles. ready/ busy status infor- mation is available on the do pin if cs is brought high after being low for minimum chip select low time (t csl ) and an erase or write operation has been initiated. the status signal is not avai lable on do, if cs is held low during the en tire erase or write cycle. in this case, do is in the high-z mode. if status is checked after the erase/write cycle, the data line will be high to indicate the device is ready. note: issuing a start bit and then taking cs low will clear the ready/ busy status from do. 3.5 organization (org) when the org pin is connected to v cc or logic hi, the (x16) memory organization is selected. when the org pin is tied to v ss or logic lo, the (x8) memory organization is selected. for proper operation, org must be tied to a valid logic level. 93xx66a devices are always (x8) organization and 93xx66b devices are always (x16) organization. name soic/pdip/ msop/tssop/ dfn sot-23 rotated soic function cs 1 5 3 chip select clk 2 4 4 serial clock di 3 3 5 data in do 4 1 6 data out v ss 5 2 7 ground org/nc 6 n/a 8 organization / 93xx66c no internal connection / 93xx66a/b nc 7 n/a 1 no internal connection v cc 8 6 2 power supply
? 2008 microchip technology inc. ds21795d-page 13 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c 4.0 packaging information 4.1 package marking information example: 6-lead sot-23 8-lead msop (150 mil) example: xxxxxxt ywwnnn 3l66bi 5281l7 xxnn 3el7 t/xxxnnn xxxxxxxx yyww 8-lead pdip 8-lead soic xxxxyyww xxxxxxxt nnn xxxx tyww 8-lead tssop nnn i/p 1l7 93lc66b 0528 example: example: sn 0528 93lc66bi 1l7 1l7 l66b i528 example: 3 e 3 e 8-lead 2x3 dfn example: 374 528 l7 xxx yww nn
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 14 ? 2008 microchip technology inc. note: t = temperature grade (i, e) nn = alphanumeric traceability code part number 1st line marking codes tssop msop sot-23 dfn i temp. e temp. i temp. e temp. 93aa66a a66a 3a66at 3bnn ? 361 ? 93aa66b a66b 3a66bt 3lnn ? 371 ? 93aa66c a66c 3a66ct ? ? 381 ? 93lc66a l66a 3l66at 3enn 3fnn 364 365 93lc66b l66b 3l66bt 3pnn 3rnn 374 375 93lc66c l66c 3l66ct ? ? 384 385 93c66a c66a 3c66at 3hnn 3jnn 367 368 93c66b c66b 3c66bt 3tnn 3unn 377 378 93c66c c66c 3c66ct ? ? 387 388 legend: xx...x part number or part number code t temperature (i, e) y year code (last digit of calendar year) yy year code (last 2 digits of calendar year) ww week code (week of january 1 is week ?01?) nnn alphanumeric traceability code (2 characters for small packages) pb-free jedec designator for matte tin (sn) note : for very small packages with no room for the pb-free jedec designator , the marking will only appear on the outer carton or reel label. note : in the event the full microchip part number cannot be marked on one line, it will be carried over to the next line, t hus limiting the number of available characters for customer-specific information. 3 e 3 e
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? 2008 microchip technology inc. ds21795d-page 23 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c appendix a: revision history revision b corrections to section 1.0, electrical characteristics. section 4.1, 6-lead sot-23 package to ot. revision c added dfn package. revision d (5/2008) revised figures 2-1 through 2-4 and figures 2-8 through 2-11; revised package marking information; replaced package drawings; revised product id section.
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 24 ? 2008 microchip technology inc. notes:
? 2008 microchip technology inc. ds21795d-page 25 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c the microchip web site microchip provides online support via our www site at www.microchip.com. this web site is used as a means to make files and information easily available to customers. accessible by using your favorite internet browser, the web site contains the following information: ? product support ? data sheets and errata, application notes and sample programs, design resources, user?s guides and hardware support documents, latest software releases and archived software ? general technical support ? frequently asked questions (faq), technical support requests, online discussion groups, microchip consultant program member listing ? business of microchip ? product selector and ordering guides, latest microchip press releases, listing of seminars and events, listings of microchip sales offices, distributors and factory representatives customer change notification service microchip?s customer notification service helps keep customers current on microchip products. subscribers will receive e-mail notification whenever there are changes, updates, revisions or errata related to a specified product family or de velopment tool of interest. to register, access the microchip web site at www.microchip.com, click on customer change notification and follow the registration instructions. customer support users of microchip products can receive assistance through several channels: ? distributor or representative ? local sales office ? field application engineer (fae) ? technical support ? development systems information line customers should contact their distributor, representative or field application engineer (fae) for support. local sales offices are also available to help customers. a listing of sa les offices and locations is included in the back of this document. technical support is available through the web site at: http://suppo rt.microchip.com
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 26 ? 2008 microchip technology inc. reader response it is our intention to provide you wit h the best documentation possible to ensur e successful use of your microchip prod- uct. if you wish to provide your comments on organization, clarity, subject matter, and ways in which our documentation can better serve you, please fax your comments to t he technical publications manager at (480) 792-4150. please list the following information, and use this outli ne to provide us with your comments about this document. to : technical publications manager re: reader response total pages sent ________ from: name company address city / state / zip / country telephone: (_______) _________ - _________ application (optional): would you like a reply? y n device: litera ture number: questions: fax: (______) _________ - _________ ds21795d 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c 1. what are the best features of this document? 2. how does this document meet your hardware and software development needs? 3. do you find the organization of this document easy to follow? if not, why? 4. what additions to the document do you th ink would enhance the structure and subject? 5. what deletions from the document could be made without affecting the overall usefulness? 6. is there any incorrect or misleading information (what and where)? 7. how would you improve this document?
? 2008 microchip technology inc. ds21795d-page 27 93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c product identification system to order or obtain information, e.g., on pricing or de livery, refer to the factory or the listed sales office . device: 93aa66a: 4k 1.8v microwire serial eeprom 93aa66b: 4k 1.8v microwire serial eeprom 93aa66c: 4k 1.8v microwire serial eeprom w/org 93lc66a: 4k 2.5v microwire serial eeprom 93lc66b: 4k 2.5v microwire serial eeprom 93lc66c: 4k 2.5v microwire serial eeprom w/org 93c66a: 4k 5.0v microwire serial eeprom 93c66b: 4k 5.0v microwire serial eeprom 93c66c: 4k 5.0v microwire serial eeprom w/org pinout: blank = standard pinout x = rotated pinout tape & reel: blank = standard packaging t = tape & reel temperature range: i = -40c to +85c e = -40c to +125c package: ms = plastic msop (micro small outline, 8-lead) ot = sot-23, 6-lead (tape & reel only) p = plastic dip (300 mil body), 8-lead sn = plastic soic (150 mil body), 8-lead st = tssop, 8-lead mc = 2x3 dfn, 8-lead examples: a) 93aa66c-i/ms: 4k, 512x8 or 256x16 serial eeprom, msop package, 1.8v b) 93aa66b-i/ms: 4k, 256x16 serial eeprom, msop package, 1.8v c) 93aa66at-i/ot: 4k, 512x8 serial eeprom, sot-23 package, tape and reel, 1.8v d) 93aa66ct-i/ms: 4k, 512x8 or 256x16 serial eeprom, msop package, tape and reel, 1.8v a) 93lc66a-i/ms: 4k, 512x8 serial eeprom, msop package, 2.5v b) 93lc66bt-i/ot: 4k, 256x16 serial eeprom, sot-23 package, tape and reel, 2.5v c) 93lc66b-i/ms: 4k, 256x16 serial eeprom, msop package, 2.5v a) 93c66b-i/ms: 4k, 256x16 serial eeprom, msop package, 5.0v b) 93c66c-i/ms: 4k, 512x8 or 256x16 serial eeprom, msop package, 5.0v c) 93c66at-i/ot: 4k, 512x8 serial eeprom, sot-23 package, tape and reel, 5.0v part no. x /xx package temperature range device x lead finish x tape & reel x pinout
93aa66a/b/c, 93lc66a/b/c, 93c66a/b/c ds21795d-page 28 ? 2008 microchip technology inc. notes:
? 2008 microchip technology inc. ds21795d-page 29 information contained in this publication regarding device applications and the like is prov ided only for your convenience and may be superseded by updates. it is your responsibility to ensure that your application me ets with your specifications. microchip makes no representations or warranties of any kind whether express or implied, written or oral, statutory or otherwise, related to the information, including but not limited to its condition, quality, performance, merchantability or fitness for purpose . microchip disclaims all liability arising from this information and its use. use of microchip devices in life support and/or safe ty applications is entirely at the buyer?s risk, and the buyer agrees to defend, indemnify and hold harmless microchip from any and all damages, claims, suits, or expenses resulting fr om such use. no licenses are conveyed, implicitly or ot herwise, under any microchip intellectual property rights. trademarks the microchip name and logo, the microchip logo, accuron, dspic, k ee l oq , k ee l oq logo, mplab, pic, picmicro, picstart, pro mate, rfpic and smartshunt are registered trademarks of microchip te chnology incorporated in the u.s.a. and other countries. filterlab, linear active thermistor, mxdev, mxlab, seeval, smartsensor and the embedded control solutions company are registered tradema rks of microchip technology incorporated in the u.s.a. analog-for-the-digital age, a pplication maestro, codeguard, dspicdem, dspicdem.net, dspicworks, dsspeak, ecan, economonitor, fansense, in-circuit serial programming, icsp, icepic, mindi, miwi, mpasm, mplab certified logo, mplib, mplink, mtouch, pickit, picdem, picdem.net, pictail, pic 32 logo, powercal, powerinfo, powermate, powertool, real ice, rflab, select mode, total endurance, uni/o, wiperlock and zena are trademarks of microchip technology incorporated in the u.s.a. and other countries. sqtp is a service mark of mi crochip technology incorporated in the u.s.a. all other trademarks mentioned herein are property of their respective companies. ? 2008, microchip technology incorporated, printed in the u.s.a., all rights reserved. printed on recycled paper. note the following details of the code protection feature on microchip devices: ? microchip products meet the specification cont ained in their particular microchip data sheet. ? microchip believes that its family of products is one of the mo st secure families of its kind on the market today, when used i n the intended manner and under normal conditions. ? there are dishonest and possibly illegal meth ods used to breach the code protection fe ature. all of these methods, to our knowledge, require using the microchip pr oducts in a manner outside the operating specif ications contained in microchip?s data sheets. most likely, the person doing so is engaged in theft of intellectual property. ? microchip is willing to work with the customer who is concerned about the integrity of their code. ? neither microchip nor any other semiconduc tor manufacturer can guarantee the security of their code. code protection does not mean that we are guaranteeing the product as ?unbreakable.? code protection is constantly evolving. we at microchip are committed to continuously improving the code protection features of our products. attempts to break microchip?s c ode protection feature may be a violation of the digital millennium copyright act. if such acts allow unauthorized access to your softwa re or other copyrighted work, you may have a right to sue for relief under that act. microchip received iso/ts-16949:2002 certification for its worldwide headquarters, design and wafer fabrication facilities in chandler and tempe, arizona; gresham, oregon and design centers in california and india. the company?s quality system processes and procedures are for its pic ? mcus and dspic ? dscs, k ee l oq ? code hopping devices, serial eeproms, microperi pherals, nonvolatile memory and analog products. in addition, microchip?s quality system for the design and manufacture of development systems is iso 9001:2000 certified.
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