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general description the max6895?ax6899 is a family of small, low-power, voltage-monitoring circuits with sequencing capability. these miniature devices offer tremendous flexibility with an adjustable threshold capable of monitoring down to 0.5v and an external capacitor-adjustable time delay. these devices are ideal for use in power-supply sequencing, reset sequencing, and power-switching applications. multiple devices can be cascaded for complex sequencing applications. a high-impedance input with a 0.5v threshold allows an external resistive divider to set the monitored threshold. the output asserts (out = high or out = low) when the input voltage rises above the 0.5v threshold and the enable input is asserted (enable = high or enable = low). when the voltage at the input falls below 0.5v or when the enable input is deasserted (enable = low or enable = high), the output deasserts (out = low or out = high). all devices provide a capacitor-program- mable delay time from when the input rises above 0.5v to when the output is asserted. the max689_a versions provide the same capacitor-adjustable delay from when enable is asserted to when the output asserts. the max689_p devices have a 1? propagation delay from when enable is asserted to when the output asserts. the max6895a/p offers an active-high enable input and an active-high push-pull output. the max6896a/p offers an active-low enable input and an active-low push-pull output. the max6897a/p offers an active- high enable input and an active-high open-drain output. finally, the max6898a/p offers an active-low enable input and an active-low open-drain output. the max6899a/p offers an active-low enable with an active- high push-pull output. all devices operate from a 1.5v to 5.5v supply voltage and are fully specified over the -40? to +125? operat- ing temperature range. these devices are available in ultra-small 6-pin ?fn (1.0mm x 1.5mm) and thin sot23 (1.60mm x 2.90mm) packages. applications automotive computers/servers medical equipment critical ? monitoring intelligent instruments set-top boxes portable equipment telecom features ? 1.8% accurate adjustable threshold over temperature ? operate from v cc of 1.5v to 5.5v ? capacitor-adjustable delay ? active-high/-low enable input options ? active-high/-low output options ? open-drain (28v tolerant)/push-pull output options ? low supply current (10 a, typ) ? fully specified from -40? to +125? ? ultra-small 6-pin dfn package or thin sot23 package max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits ________________________________________________________________ maxim integrated products 1 123 654 out ( ) for max6899 only. v cc cdelay enable (enable) in gnd max6895 max6897 max6899 dfn top view pin configurations ordering information 19-3673; rev 8; 7/11 for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim? website at www.maxim-ic.com. typical operating circuit and selector guide appear at end of data sheet. pin configurations continued at end of data sheet. ordering information continued at end of data sheet. note: all devices are specified over the -40? to +125? oper- ating temperature range. + denotes a lead(pb)-free/rohs-compliant package. t = tape and reel. part pin-package top mark max6895 aalt+ 6 ?fn +aw max6895aazt+ 6 thin sot23 +aadk max6895palt+t 6 ?fn +ax max6895pazt+ 6 thin sot23 +aadl max6896 aalt+ 6 ?fn +ay max6896aazt+ 6 thin sot23 +aado max6896aazt/v+t 6 thin sot23 +aata max6896palt+t 6 ?fn +az max6896pazt+ 6 thin sot23 +aadp max6896pazt/v+t 6 thin sot23
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits 2 _______________________________________________________________________________________ absolute maximum ratings electrical characteristics (v cc = 1.5v to 5.5v, t a = -40? to +125?, unless otherwise specified. typical values are at v cc = 3.3v and t a = +25?, unless otherwise noted.) (note 2) stresses beyond those listed under ?bsolute maximum ratings?may cause permanent damage to the device. these are stress rating s only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specificatio ns is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. v cc , enable, enable , in....................................-0.3v to +6v out, out (push-pull) ................................-0.3v to (v cc + 0.3v) out, out (open-drain)..........................................-0.3v to +30v cdelay......................................................-0.3v to (v cc + 0.3v) output current (all pins) ...................................................?0ma continuous power dissipation (t a = +70?) 6-pin ?fn (derate 2.1mw/c above +70?)...........167.7mw 6-pin thin sot23 (derate 9.1mw/? above +70?) ...727.3mw operating temperature range .........................-40? to +125? storage temperature range .............................-65? to +150? junction temperature ......................................................+150? lead temperature (soldering, 10s) .................................+300? soldering temperature (reflow) .......................................+260? parameter symbol conditions min typ max units supply operating voltage range v cc 1.5 5.5 v undervoltage lockout (note 3) uvlo v cc falling 1.20 1.35 v v cc supply current i cc v cc = 3.3v, no load 10 20 ? in threshold voltage v th v in rising, 1.5v < v cc < 5.5v 0.491 0.5 0.509 v hysteresis v hyst v in falling 5 mv input current (note 4) i in v in = 0v or v cc -15 +15 na cdelay delay charge current i cd 200 250 300 na delay threshold v tcd cdelay rising 0.95 1.00 1.05 v cdelay pulldown resistance r cdelay 130 500 ? enable/ enable input low voltage v il 0.4 v input high voltage v ih 1.4 v input leakage current i leak enable, enable = v cc or gnd -100 +100 na note 1: package thermal resistances were obtained using the method described in jedec specification jesd51-7, using a four layer board. for detailed information on package thermal considerations refer to www.maxim-ic.com/thermal-tutorial . package thermal characteristics (note 1) ?fn junction-to-ambient thermal resistance ( ja )...............477?/w junction-to-case thermal resistance ( jc )......................122?/w thin sot23 junction-to-ambient thermal resistance ( ja )................110?/w junction-to-case thermal resistance ( jc ).......................50?/w
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits _______________________________________________________________________________________ 3 note 2: all devices are production tested at t a = +25?. limits over temperature are guaranteed by design. note 3: when v cc falls below the uvlo threshold, the outputs will deassert (out goes low, out goes high). when v cc falls below 1.2v, the out annot be determined. note 4: guaranteed by design. note 5: during the initial power-up, v cc must exceed 1.5v for at least 2ms before the output is guaranteed to be in the correct state. electrical characteristics (continued) (v cc = 1.5v to 5.5v, t a = -40? to +125?, unless otherwise specified. typical values are at v cc = 3.3v and t a = +25?, unless otherwise noted.) (note 2) parameter symbol conditions min typ max units out/ out v cc 1.2v, i sink = 90?, max6895/max6897/max6899 only 0.3 v cc 2.25v, i sink = 0.5ma 0.3 output low voltage (open-drain or push-pull) v ol v cc 4.5v, i sink = 1ma 0.4 v v cc 2.25v, i source = 500? 0.8 x v cc output high voltage (push-pull) v oh v cc 4.5v, i source = 800? 0.8 x v cc v output open-drain leakage current i lkg output high impedance, v out = 28v 1 a timing c cdelay = 0? 40 ? t delay v in rising c cdelay = 0.047? 190 ms in to out/ out propagation delay t dl v in falling 16 ? startup delay (note 5) 2ms enable/ enable minimum input pulse width t pw 1s enable/ enable glitch rejection 100 ns enable/ enable to out/ out delay t off from device enabled to device disabled 150 ns t propp from device disabled to device enabled (p version) 150 ns c cdelay = 0? 20 ? enable/ enable to out/ out delay t propa from device disabled to device enabled (a version) c cdelay = 0.047? 190 ms
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits 4 _______________________________________________________________________________________ typical operating characteristics (v cc = 3.3v and t a = +25?, unless otherwise noted.) supply current vs. supply voltage max6895 toc01 v cc (v) i cc ( a) 5.0 4.5 3.5 4.0 1.0 1.5 2.0 2.5 3.0 0.5 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0 1 0 5.5 supply current vs. temperature max6895 toc02 temperature ( c) i cc ( a) 110 95 65 80 -10 5 20 35 50 -25 2 4 6 8 10 12 14 16 18 20 0 -40 125 v cc = 5v v cc = 3v v cc = 1.5v in threshold vs. temperature max6895 toc03 temperature ( c) v th (v) 110 95 65 80 -10 5 20 35 50 -25 0.4992 0.4994 0.4996 0.4998 0.5000 0.5002 0.5004 0.5006 0.5008 0.5010 0.4990 -40 125 out delay vs. c cdelay max6895 toc04 c cdelay (nf) t delay (ms) 900 800 600 700 200 300 400 500 100 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 0 0 1000 output low voltage vs. sink current max6895 toc05 i sink (ma) v ol (v) 5.5 5.0 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0.3 0.6 0.9 1.2 1.5 0 06.0 v cc = 5v v cc = 3v v cc = 1.5v output high voltage vs. source current max6895 toc06 i source (ma) v oh (v) 18 16 12 14 4 6 8 10 2 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 0 020 v cc = 5v v cc = 3v v cc = 1.5v maximum transient duration vs. input overdrive max6895 toc07 v overdrive (mv) maximum transient duration ( s) 90 80 70 60 50 40 30 20 10 100 200 300 400 500 600 0 0 100 reset occurs enable turn-on/off (max6896p) max6895 toc08 100ns/div v out 2v/div v enable 2v/div enable turn-on/off delay (max6895a) m ax6895 toc09 40 m s/d i v v out 2v/d i v v enable 2v/d i v
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits _______________________________________________________________________________________ 5 pin description pin max6895/ max6897 max6896/ max6898 max6899 ?fn thin sot23 ?fn thin sot23 ?fn thin sot23 name function 1 1 enable active-high logic-enable input. drive enable low to immediately deassert the output to its false state (out = low or out = high) independent of v in . with v in above v th , drive enable high to assert the output to its true state (out = high or out = low) after the adjustable delay period (max689_a) or a 150ns propagation delay (max689_p). 1 1 1 1 enable active-low logic-enable input. drive enable high to immediately deassert the output to its false state (out = low or out = high) independent of v in . with v in above v th , drive enable low to assert the output to its true state (out = high or out = low) after the adjustable delay period (max689_a) or a 150ns propagation delay (max689_p). 2 2 2 2 2 2 gnd ground 333333 in high-impedance monitor input. connect in to an external resistive divider to set the desired monitored threshold. the output changes state when v in rises above 0.5v and when v in falls below 0.495v. 4 4 4 4 out active-high sequencer/monitor output, push-pull (max6895/max6899) or open-drain (max6897). out is asserted to its true state (out = high) when v in is above v th and the enable input is in its true state (enable = high or enable = low) for the capacitor-adjusted delay period. out is deasserted to its false state (out = low) immediately after v in drops below v th - 5mv or the enable input is in its false state (enable = low or enable = high). the open-drain version requires an external pullup resistor. 4 4 out acti ve- low s eq uencer /m oni tor outp ut, p ush- p ul l ( m ax 6896) or o p en- d r ai n ( m ax 6898) . ou t i s asser ted to i ts tr ue state ( o ut = l ow ) w hen v i n i s ab ove v t h and the enab l e i np ut i s i n i ts tr ue state ( e n able = hi g h or e nable = l ow ) after the c d e lay ad j usted ti m eout p er i od . o u t i s d easser ted to i ts fal se state ( o ut = hi g h) i m m ed i atel y after v i n d r op s b el ow v t h - 5m v or the enab l e i np ut i s i n i ts fal se state ( e n able = l ow or e nable = hi g h) . the op en- d r ai n ver si on r eq ui r es an exter nal p ul l up r esi stor . 5 6 5 6 5 6 cdelay capacitor-adjustable delay. connect an external capacitor (c cdelay ) from cdelay to gnd to set the in to out (and enable to out or enable to out for a version devices) delay period. t delay = (c cdelay x 4.0 x 10 6 ) + 40?. there is a fixed short delay (40?, typ) for the output deasserting when v in falls below v th . 656565v cc supply voltage input. connect a 1.5v to 5.5v supply to v cc to power the device. for noisy systems, bypass with a 0.1? ceramic capacitor to gnd.
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits 6 _______________________________________________________________________________________ detailed description the max6895?ax6899 is a family of ultra-small, low- power, sequencing/supervisory circuits. these devices provide adjustable voltage monitoring for inputs down to 0.5v. they are ideal for use in power-supply sequenc- ing, reset sequencing, and power-switching applica- tions. multiple devices can be cascaded for complex sequencing applications. voltage monitoring is performed through a high-imped- ance input (in) with an internally fixed 0.5v threshold. when the voltage at in falls below 0.5v or when the enable input is deasserted (enable = low or enable = high), the output deasserts (out goes low or out goes high). when v in rises above 0.5v and the enable input is asserted (enable = high or enable = low), the output asserts (out goes high or out goes low) after a capaci- tor-programmable time delay. with v in above 0.5v, the enable input can be used to turn the output on or off. after the enable input is assert- ed, the output turns on with a capacitor-programmable delay period (a version) or with a 150ns propagation delay (p version). tables 1, 2, and 3 detail the output state depending on the various input and enable condi- tions. supply input (v cc ) the device operates with a v cc supply voltage from 1.5v to 5.5v. to maintain a 1.8% accurate threshold, v cc must be above 1.5v. when v cc falls below the uvlo threshold, the output deasserts. when v cc falls below 1.2v the output state cannot be determined. for noisy systems, connect a 0.1? ceramic capacitor from v cc to gnd as close to the device as possible. for the push-pull active-high output option, a 100k ? external pulldown resistor to ground ensures the correct logic state for v cc down to 0. max6895 max6899 logic 1.0v 250na 0.5v in out cdelay gnd enable (max6895) enable (max6899) v cc in enable out v in < v th low low v in < v th high low v in > v th low low out = v cc (max6895) v in > v th high out = high impedance (max6897) figure 1. max6895/max6899 functional diagram table 1. max6895/max6897 output in enable out out = v cc (max6896) v in < v th low out = high impedance (max6898) out = v cc (max6896) v in < v th high out = high impedance (max6898) v in > v th low low out = v cc (max6896) v in > v th high out = high impedance (max6898) table 2. max6896/max6898 output in enable out v in < v th low low v in < v th high low v in > v th low high v in > v th high low table 3. max6899 output
monitor input (in) connect the center point of a resistive divider to in to monitor external voltages (see r1 and r2 of the typical operating circuit ). in has a rising threshold of v th = 0.5v and a falling threshold of 0.495v (5mv hysteresis). when v in rises above v th and enable is high (or enable is low) out goes high ( out goes low) after the programmed t delay period. when v in falls below 0.495v, out goes low ( out goes high) after a 16? delay. in has a maximum input current of 15na so large-value resistors are permitted without adding sig- nificant error to the resistive divider. adjustable delay (cdelay) when v in rises above v th with enable high ( enable low), the internal 250na current source begins charging an external capacitor connected from cdelay to gnd. when the voltage at cdelay reaches 1v, the output asserts (out goes high or out goes low). when the output asserts, c cdelay is immediately discharged. adjust the delay (t delay ) from when v in rises above v th (with enable high or enable low) to out going high ( out going low) according to the equation: t delay = c cdelay x 4.0 x 10 6 + 40? where c cdelay is the external capacitor from cdelay to gnd. for adjustable delay devices (a version), when v in > 0.5v and enable goes from low to high ( enable goes from high to low) the output asserts after a t delay period. for nonadjustable delay devices (p version) there is a 1? propagation delay from when the enable input is asserted to when the output asserts. figures 2 through 5 show the timing diagrams for the adjustable and fixed delay versions, respectively. max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits _______________________________________________________________________________________ 7 figure 2. max6895a/max6897a timing diagram v cc v uvlo v th v th t propa t dl t off t delay t < t propa t propa in enable out t > t pw
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits 8 _______________________________________________________________________________________ figure 3. max6896a/max6898a timing diagram v cc v uvlo t propa t dl t off t delay t < t propa t propa in enable out t > t pw figure 4. max6895p/max6897p timing diagram v cc v uvlo t propp t dl t off t delay t > t pw t propp in enable out
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits _______________________________________________________________________________________ 9 figure 5. max6896p/max6898p timing diagram v cc v uvlo t propp t dl t off t delay t > t pw t propp in enable out figure 6. max6899a timing diagram v cc v uvlo v th v th t propa t dl t off t delay t < t propa t propa in enable out t > t pw
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits 10 ______________________________________________________________________________________ enable input (enable or enable ) the max6895/max6897 offer an active-high enable input (enable), while the max6896/max6898/max6899 offer an active-low enable input ( enable ). with v in above v th , drive enable high ( enable low) to force out high ( out low) after the adjustable delay time (a versions). for p version devices, when v in > 0.5v and enable is assert- ed, the output asserts after typically 150ns. the enable input has logic-high and logic-low voltage thresholds of 1.4v and 0.4v, respectively. for both ver- sions, when v in > 0.5v, drive enable low ( enable high) to force out low ( out high) within 150ns typ. output (out or out ) the max6895/max6899 offer an active-high, push-pull output (out), and the max6896 offers an active-low push-pull output ( out ). the max6897 offers an active- high open-drain output (out), and the max6898 offers an active-low open-drain output ( out ). push-pull output devices are referenced to v cc . open- drain outputs can be pulled up to 28v. applications information input threshold the max6895?ax6899 monitor the voltage on in with an external resistive divider (see r1 and r2 in the typical operating circuit ). connect r1 and r2 as close to in as possible. r1 and r2 can have very high values to minimize current consumption due to low in leakage currents (?5na max). set r2 to some conveniently high value (1m ? , for example) and calculate r1 based on the desired monitored voltage using the following formula: where v monitor is the desired monitored voltage and v in is the detector input threshold (0.5v). rr v v monitor in 12 1 = ? ? ? ? ? ? ? figure 7. max6899p timing diagram v cc v uvlo t propp t dl t off t delay t > t pw t propp in enable out
max6895?ax6899 pullup resistor values (max6897/max6898) the exact value of the pullup resistors for the open- drain outputs is not critical, but some consideration should be made to ensure the proper logic levels when the device is sinking current. for example, if v cc = 2.25v and the pullup voltage is 28v, you would try to keep the sink current less than 0.5ma as shown in the electrical characteristics table. as a result, the pullup resistor should be greater than 56k ? . for a 12v pullup, the resistor should be larger than 24k ? . it should be noted that the ability to sink current is dependent on the v cc supply voltage. typical application circuits figures 8, 9, 10 show typical applications for the max6895?ax6899. figure 8 shows the max6895 used with a p-channel mosfet in an overvoltage pro- tection circuit. figure 9 shows the max6895 in a low- voltage sequencing application using an n-channel mosfet. figure 10 shows the max6895 used in a mul- tiple-output sequencing application. using an n-channel device for sequencing in higher power applications, using an n-channel device reduces the loss across the mosfets as it offers a lower drain-to-source on-resistance. however, an n- channel mosfet requires a sufficient v gs voltage to fully enhance it for a low r ds_on . the application in figure 9 shows the max6895 in a switch sequencing application using an n-channel mosfet. similarly, if a higher voltage is present in the system, the open-drain version can be used in the same manner. figure 8. overvoltage protection max6897 enable gnd v cc p 3.3v always on out r1 0 to 28v r pullup r2 in cdelay max6895 enable gnd v cc 5v bus out r1 r2 in cdelay c cdelay 1.2v input 1.2v output n monitored 3.3v figure 9. low-voltage sequencing using an n-channel mosfet ultra-small, adjustable sequencing/supervisory circuits ______________________________________________________________________________________ 11
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits 12 ______________________________________________________________________________________ figure 10. multiple-output sequencing c cdelay c cdelay gnd gnd gnd gnd out out out out in in in in v cc v cc v cc v cc enable enable enable enable en en en en dc-dc 3.3v 5v bus system enable 2.5v 1.8v 1.2v dc-dc dc-dc dc-dc c cdelay c cdelay max6895 max6895 max6895 max6895
max6895?ax6899 max6895 enable gnd v cc out r1 1.5v to 5.5v r2 in 0.1 f cdelay c cdelay typical operating circuit ultra-small, adjustable sequencing/supervisory circuits ______________________________________________________________________________________ 13 selector guide part enable input output input (in) delay enable delay MAX6895AALt+t active-high active-high, push-pull capacitor adjustable capacitor adjustable max6895aazt+t active-high active-high, push-pull capacitor adjustable capacitor adjustable max6895palt+t active-high active-high, push-pull capacitor adjustable 150ns delay max6895pazt+t active-high active-high, push-pull capacitor adjustable 150ns delay max6896aalt+t active-low active-low, push-pull capacitor adjustable capacitor adjustable max6896aazt+t active-low active-low, push-pull capacitor adjustable capacitor adjustable max6896palt+t active-low active-low, push-pull capacitor adjustable 150ns delay max6896pazt+t active-low active-low, push-pull capacitor adjustable 150ns delay max6897aalt+t active-high active-high, open-drain capacitor adjustable capacitor adjustable max6897aazt+t active-high active-high, open-drain capacitor adjustable capacitor adjustable max6897palt+t active-high active-high, open-drain capacitor adjustable 150ns delay max6897pazt+t active-high active-high, open-drain capacitor adjustable 150ns delay max6898aalt+t active-low active-low, open-drain capacitor adjustable capacitor adjustable max6898aazt+t active-low active-low, open-drain capacitor adjustable capacitor adjustable max6898palt+t active-low active-low, open-drain capacitor adjustable 150ns delay max6898pazt+t active-low active-low, open-drain capacitor adjustable 150ns delay max6899aalt+t active-low active-high, push-pull capacitor adjustable capacitor adjustable max6899aazt+t active-low active-high, push-pull capacitor adjustable capacitor adjustable max6899palt+t active-low active-high, push-pull capacitor adjustable 150ns delay max6899pazt+t active-low active-high, push-pull capacitor adjustable 150ns delay ordering information (continued) part pin-package top mark max6897 aalt+ 6 ?fn +ba max6897aazt+ 6 thin sot23 +aadq max6897palt+t 6 ?fn +bb max6897pazt+ 6 thin sot23 +aadr max6898 aalt+ 6 ?fn +bd max6898aazt+ 6 thin sot23 +aads max6898palt+t 6 ?fn +bc max6898pazt+ 6 thin sot23 +aadt max6899 aalt+ 6 ?fn +lo max6899aazt+ 6 thin sot23 +aadm max6899palt+t 6 ?fn +lp max6899pazt+ 6 thin sot23 +aadn note: all devices are specified over the -40? to +125? oper- ating temperature range. + denotes a lead(pb)-free/rohs-compliant package. t = tape and reel.
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits 14 ______________________________________________________________________________________ pin configurations (continued) 123 654 out v cc cdelay enable in gnd max6896 max6898 dfn top view thin sot23 top view max6895 max6897 in 1 2 gnd enable + + 3 out 6 5 cdelay v cc 4 thin sot23 top view max6896 max6898 max6899 in 1 2 gnd enable 3 out (out) ( ) for max6899 only. 6 5 cdelay v cc 4 chip information process: bicmos package type package code outline no. land pattern no. 6 ?fn l611+1 21-0147 90-0080 6 thin sot23 z6+1 21-0114 90-0242 package information for the latest package outline information and land patterns (footprints), go to www.maxim-ic.com/packages . note that a ?? ?? or ??in the package code indicates rohs status only. package drawings may show a different suffix character, but the drawing pertains to the package regardless of rohs status.
max6895?ax6899 ultra-small, adjustable sequencing/supervisory circuits maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim product. no circu it patent licenses are implied. maxim reserves the right to change the circuitry and specifications without notice at any time. the parametric values (min and max limits) shown in the electrical characteristics table are guaranteed. other parametric values quoted in this data sheet are provided for guidanc e. maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 ____________________ 15 2011 maxim integrated products maxim is a registered trademark of maxim integrated products, inc. revision history revision number revision date description pages changed 5 10/07 1, 13, 18 6 11/09 corrected absolute maximum ratings and made style corrections to electrical characteristics and toc8 and toc9 2? 7 7/10 revised figures 3, 4, and 6. 7? 8 7/11 added automotive packages for max6896a and max6896p. added top mark to max6896aazt/v+1 in ordering information . 1

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