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microprocessor supervisory circuits in 3-lead sc70 and sot-23 adm803/adm809/adm810 rev. h information furnished by analog devices is believed to be accurate and reliable. however, no responsibility is assumed by analog devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. specifications subject to change without notice. no license is granted by implication or otherwise under any patent or patent rights of analog devices. trademarks and registered trademarks are the property of their respective owners. one technology way, p.o. box 9106, norwood, ma 02062-9106, u.s.a. tel: 781.329.4700 www.analog.com fax: 781.461.3113 ?1997C2008 analog devices, inc. all rights reserved. features specified over temperature low power consumption: 17 a precision voltage monitor: 2.5 v, 3 v, 3.3 v, 5 v options reset assertion down to 1 v v cc 140 ms minimum power-on reset open-drain reset output (adm803) push-pull reset output (adm809) push-pull reset output (adm810) sc70 and sot-23 packages applications microprocessor systems computers controllers intelligent instruments automotive systems functional block diagrams gnd gnd v cc v cc *r pull-up adm803/adm809 microprocessor system v cc *adm803 only reset input reset adm803 gnd reset generator 240ms reset reset (reset) gnd reset generator 240ms adm809/adm810 v cc v ref v cc v ref 03736-001 figure 1. general description the adm803/adm809/adm810 supervisory circuits monitor the power supply voltage in microprocessor systems. they provide a reset output during power-up, power-down, and brownout conditions. on power-up, an internal timer holds reset asserted for 240 ms. this holds the microprocessor in a reset state until conditions have stabilized. the reset output remains operational with v cc as low as 1 v. the adm803 and adm809 provide an active low reset signal ( reset ), whereas the adm810 provides an active high signal (reset) output. the adm809 and adm810 have push-pull outputs, whereas the adm803 has an open-drain output, which requires an external pull-up resistor. seven reset threshold voltage options are available, suitable for monitoring a variety of supply voltages (see table 3). the reset comparator features built-in glitch immunity, making it immune to fast transients on v cc . the adm803/adm809/adm810 consume only 17 a, making them suitable for low power, portable equipment. the adm803 is available in a 3-lead sc70; the adm809/adm810 are available in 3-lead sot-23 and 3-lead sc70 packages.
adm803/adm809/adm810 rev. h | page 2 of 12 table of contents features .............................................................................................. 1 ? applications ....................................................................................... 1 ? functional block diagrams ............................................................. 1 ? general description ......................................................................... 1 ? revision history ............................................................................... 2 ? specifications ..................................................................................... 3 ? absolute maximum ratings ............................................................ 4 ? esd caution .................................................................................. 4 ? pin configurations and function descriptions ............................5 ? typical performance characteristics ..............................................6 ? interfacing to other devices ............................................................8 ? ensuring a valid reset output down to v cc = 0 v .................8 ? benefits of an accurate reset threshold ...................................8 ? interfacing to microprocessors with multiple interrupts ........8 ? outline dimensions ..........................................................................9 ? ordering guide .......................................................................... 10 ? revision history 8/08rev. g to rev. h added figure 4; renumbered sequentially .................................. 5 changes to figure 8 .......................................................................... 6 updated outline dimensions ......................................................... 9 changes to ordering guide .......................................................... 10 9/06rev. f to rev. g updated outline dimensions ......................................................... 9 changes to ordering guide ............................................................ 9 6/05rev. e to rev. f. changes to ordering guide ............................................................ 4 updated outline dimensions ......................................................... 9 2/05rev. d to rev. e. changes to ordering guide ............................................................ 4 2/05rev. c to rev. d. changes to ordering guide ............................................................ 4 updated outline dimensions ......................................................... 8 5/03rev. b to rev. c. added adm803 .................................................................. universal changes to features .......................................................................... 1 changes to general description .................................................... 1 changes to figure 1 .......................................................................... 1 changes to specifications ................................................................ 2 changes to table i ............................................................................ 3 updated ordering guide ................................................................. 4 1/03rev. a to rev. b. changes to specifications ................................................................. 2 changes to table i ............................................................................. 3 changes to ordering guide ............................................................. 4 changes to tpcs 1C3, and tpc 7 ................................................... 5 updated outline dimensions .......................................................... 7 10/02rev. 0 to rev. a. addition of sc70 package ................................................. universal change to general description ....................................................... 1 changes to specifications ................................................................. 2 changes to absolute maximum ratings ........................................ 3 change to table i ............................................................................... 3 change to ordering guide ............................................................... 4 change to tpc 1 ............................................................................... 5 updated outline dimensions .......................................................... 7 4/97revision 0: initial version
adm803/adm809/adm810 rev. h | page 3 of 12 specifications v cc = full operating range, t a = t min to t max , v cc typical = 5 v for l/m/j models, 3.3 v for t/s models, 3 v for r models, and 2.5 v for z models, unless otherwise noted. table 1. parameter min typ max unit test conditions/comments v cc operating voltage range 1.0 5.5 v t a = 0c to 70c 1.2 5.5 v t a = ?40c to +125c supply current 24 35 a v cc < 5.5 v, adm8xxl/m/j, t a = ?40c to +85c 17 30 a v cc < 3.6 v, adm8xxr/s/t/z, t a = ?40c to +85c 60 a v cc < 5.5 v, adm8xxl/m/j, t a = 85c to 125c 60 a v cc < 3.6 v, adm8xxr/s/t/z, t a = 85c to 125 c reset voltage threshold adm8xxl 4.56 4.63 4.70 v t a = 25c 4.50 4.75 v t a = ?40c to +85c 4.44 4.82 v t a = ?40c to +125c adm8xxm 4.31 4.38 4.45 v t a = 25c 4.25 4.50 v t a = ?40c to +85c 4.20 4.56 v t a = ?40c to +125c adm8xxj 3.93 4.00 4.06 v t a = 25c (adm809/adm810 only) 3.89 4.10 v t a = ?40c to +85c (adm809/adm810 only) 3.80 4.20 v t a = ?40c to +125c (adm809/adm810 only) adm8xxt 3.04 3.08 3.11 v t a = 25c 3.00 3.15 v t a = ?40c to +85c 2.95 3.21 v t a = ?40c to +125c adm8xxs 2.89 2.93 2.96 v t a = 25c 2.85 3.00 v t a = ?40c to +85c 2.81 3.05 v t a = ?40c to +125c adm8xxr 2.59 2.63 2.66 v t a = 25c 2.55 2.70 v t a = ?40c to +85c 2.52 2.74 v t a = ?40c to +125c adm8xxz 2.28 2.32 2.35 v t a = 25c 2.25 2.38 v t a = ?40c to +85c 2.22 2.42 v t a = ?40c to +125c reset threshold temperature coefficient 30 ppm/c v cc to reset delay 20 s v cc = v th to (v th ? 100 mv) reset active timeout period 140 240 460 ms t a = ?40c to +85c 100 840 ms t a = 85c to 125c reset output voltage low (adm803/adm809) 0.3 v v cc = v th min, i sink = 1.2 ma, adm803r/s/t/z, adm809r/s/t/z 0.4 v v cc = v th min, i sink = 3.2 ma, adm803l/m/j, adm809l/m/j 0.3 v v cc > 1.0 v, i sink = 50 a reset output voltage high (adm809) 0.8 v cc v v cc > v th max, i source = 500 a, adm809r/s/t/z v cc ? 1.5 v v cc > v th max, i source = 800 a, adm809l/m/j reset output voltage low (adm810) 0.3 v v cc = v th min, i sink = 1.2 ma, adm810r/s/t/z 0.4 v v cc = v th min, i sink = 3.2 ma, adm810l/m/j reset output voltage high (adm810) 0.8 v cc v 1.8 v < v cc < v th min, i source = 150 a reset open-drain output leakage current (adm803) 1 a v cc > v th , reset deasserted
adm803/adm809/adm810 rev. h | page 4 of 12 absolute maximum ratings t a = 25c, unless otherwise noted. table 2. parameter ratings v cc ?0.3 v to +6 v reset, reset ?0.3 v to v cc + 0.5 v input current v cc 20 ma output current reset, reset (push-pull) 20 ma reset (open drain) ?0.3 v to +6.0 v rate of rise, v cc 100 v/s ja thermal impedance sc70 146c/w sot-23 270c/w lead temperature (soldering, 10 sec) 300c vapor phase (60 sec) 215c infrared (15 sec) 220c storage temperature range ?65c to +150c stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. table 3. reset threshold options reset model threshold (v) adm8xxl 4.63 adm8xxm 4.38 adm8xxj (adm809/adm810 only) 4.00 adm8xxt 3.08 adm8xxs 2.93 adm8xxr 2.63 adm8xxz 2.32 t 1 t 1 v ref v ref v ref v ref v cc t 1 = reset time = 240ms typ v ref = reset voltage threshold reset 03736-003 figure 2. power fail reset timing esd caution
adm803/adm809/adm810 rev. h | page 5 of 12 pin configuration s and fu nction descriptions gnd 1 2 3 adm803/ adm809/ 1 03736-002 gnd top view (not to scale) v cc reset figure 3. adm803/adm809 pin configuration 2 3 adm810 top view (not to scale) v cc 2 reset 03736-10 figure 4. adm810 pin configuration table 4. pin function descriptions pin o. neonic description ad803/ad809 ad810 1 1 gnd ground reference for all signals; 0 v. n/a 2 reset active high logic output. reset remains high while v cc is below the reset threshold and remains high for 240 ms (typical) after v cc rises above the reset threshold. 2 n/a reset active low logic output. reset remains low while v cc is below the reset threshold and remains low for 240 ms (typical) after v cc rises above the reset threshold. 3 3 v cc supply voltage being monitored.
adm803/adm809/adm810 rev. h | page 6 of 12 typical performance characteristics 25 30 20 15 10 5 0 supply current (a) temperature (c) ?40 ?20 0 20 40 60 80 85 03736-004 v cc = 5v v cc = 3v figure 5. supply current vs. temperature (no load) 200 ?40 ?20 0 20 40 60 80 85 180 160 140 120 100 80 60 40 20 0 power-down reset (s) temperature (c) v od = v th ? v cc v od = 10mv v od = 20mv v od = 100mv v od = 200mv 03736-005 figure 6. power-down reset delay vs. temperature, adm8xxl/m/j 180 160 140 120 100 80 60 40 20 0 power-down reset (s) v od = v th ? v cc v od = 10mv v od = 20mv v od = 100mv v od = 200mv ?40 ?20 0 20 40 60 80 85 temperature (c) 03736-006 figure 7. power-down reset delay vs. temperature, adm8xxt/s/r/z 240.0 235.0 235.5 236.0 236.5 237.0 237.5 238.0 238.5 239.0 239.5 power-up reset timeout (ms) ?40 ?20 0 20 40 60 80 85 temperature (c) 03736-007 figure 8. power-up reset timeout vs. temperature, adm8xxr 1.0020 0.9990 1.0015 1.0010 1.0005 1.0000 0.9995 normalized reset threshold ?40 ?20 0 20 40 60 80 85 temperature (c) 03736-008 figure 9. normalized reset voltage threshold vs. temperature 2 1 ch1 2.00v ch2 2.00v m 200ms ch1 2.00v t t supply voltage 5v p-p reset output voltage adm809t adm809r 03736-009 figure 10. reset output voltage vs. supply voltage
adm803/adm809/adm810 rev. h | page 7 of 12 400 350 300 250 200 150 100 50 0 1 10 1000 100 maximum transient duration (s) reset comparator overdrive, v th ?v cc (mv) adm8xxr/s/t/z adm8xxl/m/j 03736-010 figure 11. maximum transient duration without causing a reset pulse vs. reset comparator overdrive
adm803/adm809/adm810 rev. h | page 8 of 12 interfacing to other devices the adm803/adm809/adm810 series is designed to integrate with as many devices as possible and, therefore, has a standard output dependent on v cc . this enables the parts to be used in both 3 v and 5 v, or any nominal voltage within the minimum and maximum specifications for v cc . this design simplifies interfacing the adm803/adm809/adm810 to other devices. ensuring a valid reset output down to v cc = 0 v when v cc falls below 0.8 v, the adm803/adm809 reset no longer sinks current. a high impedance cmos logic input connected to reset may, therefore, drift to undetermined logic levels. to eliminate this problem, a 100 k resistor should be connected from reset to ground. gnd adm809 v cc v cc reset 03736-011 figure 12. ensuring a valid reset output down to v cc = 0 v benefits of an accurate reset threshold in other microprocessors, tolerances in supply voltages lead to an overall increase in reset tolerance levels due to the deterioration of the reset circuits power supply. in the adm803/adm809/adm810, the possibility of a malfunction during a power failure is greatly reduced because the devices can operate effectively even when there are large degradations of the supply voltages. another advantage is the very accurate internal voltage reference circuit of the adm803/adm809/ adm810. these benefits combine to produce an exceptionally reliable voltage monitor circuit. interfacing to microprocessors with multiple interrupts in a number of cases, it is necessary to interface many interrupts from different devices (for example, thermal, altitude, and velocity sensors). the adm803/adm809/adm810 can easily be integrated into existing interrupt-handling circuits, as shown in figure 13 , or can be used as standalone devices. 4-line bcd to microprocessor adm809 gnd v cc v cc reset other sensing devices priority encoder 74ls147 03736-012 figure 13. interfacing to microprocessors with multiple interrupts
adm803/adm809/adm810 rev. h | page 9 of 12 outline dimensions compliant to jedec standards to-236-ab 092707-a 1 2 3 seating plane 2.64 2.10 3.04 2.80 1.40 1.20 2.05 1.78 0.100 0.013 1.03 0.89 0.60 0.45 0.51 0.37 1.12 0.89 0.180 0.085 0.55 ref figure 14. 3-lead small outline transistor package [sot-23-3] (rt-3) dimensions shown in millimeters all dimensions compliant with eiaj sc70 0.40 0.25 0.10 max 1.00 0.80 seating plane 1.10 0.80 0.40 0.10 0.26 0.10 0.30 0.20 0.10 2 1 3 pin 1 0.65 bsc 2.20 2.00 1.80 2.40 2.10 1.80 1.35 1.25 1.15 0.10 coplanarity 111505-0 figure 15. 3-lead thin shrink small outline transistor package [sc70] (ks-3) dimensions shown in millimeters
adm803/adm809/adm810 rev. h | page 10 of 12 ordering guide model reset threshold (v) temperature range branding 1 quantity package description package option adm803laks-reel 4.63 ?40c to +125c m02 10k 3-lead sc70 ks-3 adm803laks-reel7 4.63 ?40c to +125c m02 3k 3-lead sc70 ks-3 adm803laksz-reel 2 4.63 ?40c to +125c m6l 10k 3-lead sc70 ks-3 adm803laksz-reel7 2 4.63 ?40c to +125c m6l 3k 3-lead sc70 ks-3 adm803maks-reel7 4.38 ?40c to +125c m03 3k 3-lead sc70 ks-3 adm803maksz-reel 2 4.38 ?40c to +125c m6j 10k 3-lead sc70 ks-3 adm803maksz-reel7 2 4.38 ?40c to +125c m6j 3k 3-lead sc70 ks-3 adm803raks-reel7 2.63 ?40c to +125c m07 3k 3-lead sc70 ks-3 adm803raksz-reel 2 2.63 ?40c to +125c m6m 10k 3-lead sc70 ks-3 adm803raksz-reel7 2 2.63 ?40c to +125c m6m 3k 3-lead sc70 ks-3 adm803saks-reel7 2.93 ?40c to +125c m06 3k 3-lead sc70 ks-3 adm803saksz-reel 2 2.93 ?40c to +125c m50 10k 3-lead sc70 ks-3 adm803saksz-reel7 2 2.93 ?40c to +125c m50 3k 3-lead sc70 ks-3 adm803taks-reel 3.08 ?40c to +125c m05 10k 3-lead sc70 ks-3 adm803taks-reel7 3.08 ?40c to +125c m05 3k 3-lead sc70 ks-3 adm803taksz-reel 2 3.08 ?40c to +125c m4m 10k 3-lead sc70 ks-3 adm803taksz-reel7 2 3.08 ?40c to +125c m4m 3k 3-lead sc70 ks-3 adm803zaks-reel 2.32 ?40c to +125c m08 10k 3-lead sc70 ks-3 adm803zaks-reel7 2.32 ?40c to +125c m08 3k 3-lead sc70 ks-3 adm803zaksz-reel 2 2.32 ?40c to +125c m6n 10k 3-lead sc70 ks-3 adm803zaksz-reel7 2 2.32 ?40c to +125c m6n 3k 3-lead sc70 ks-3 adm809jaks-reel7 4.00 ?40c to +125c m9c or 9jxx 3k 3-lead sc70 ks-3 adm809jaksz-reel 2 4.00 ?40c to +125c m6p 10k 3-lead sc70 ks-3 adm809jaksz-reel7 2 4.00 ?40c to +125c m6p 3k 3-lead sc70 ks-3 adm809jart-reel7 4.00 ?40c to +125c m9c or 9jxx 3k 3-lead sot-23 rt-3 adm809jartz-reel 2 4.00 ?40c to +125c m6p 10k 3-lead sot-23 rt-3 adm809jartz-reel7 2 4.00 ?40c to +125c m6p 3k 3-lead sot-23 rt-3 adm809laks-reel7 4.63 ?40c to +125c m9a 3k 3-lead sc70 ks-3 adm809laksz-reel 2 4.63 ?40c to +125c m6r 10k 3-lead sc70 ks-3 adm809laksz-reel7 2 4.63 ?40c to +125c m6r 3k 3-lead sc70 ks-3 adm809lart-reel 4.63 ?40c to +125c 9lxx 10k 3-lead sot-23 rt-3 adm809lart-reel7 4.63 ?40c to +125c 9lxx 3k 3-lead sot-23 rt-3 adm809lartz-reel 2 4.63 ?40c to +125c 9lxx 3 10k 3-lead sot-23 rt-3 adm809lartz-reel7 2 4.63 ?40c to +125c 9lxx x 3 3k 3-lead sot-23 rt-3 adm809maks-reel7 4.38 ?40c to +125c m9b 3k 3-lead sc70 ks-3 adm809maksz-reel 2 4.38 ?40c to +125c m51 10k 3-lead sc70 ks-3 adm809maksz-reel7 2 4.38 ?40c to +125c m51 3k 3-lead sc70 ks-3 adm809mart-reel 4.38 ?40c to +125c 9mxx 10k 3-lead sot-23 rt-3 adm809mart-reel7 4.38 ?40c to +125c 9mxx 3k 3-lead sot-23 rt-3 adm809martz-reel 2 4.38 ?40c to +125c m51 10k 3-lead sot-23 rt-3 adm809martz-reel7 2 4.38 ?40c to +125c m51 3k 3-lead sot-23 rt-3 adm809raks-reel 2.63 ?40c to +125c m9f 10k 3-lead sc70 ks-3 adm809raks-reel7 2.63 ?40c to +125c m9f 3k 3-lead sc70 ks-3 adm809raksz-reel 2 2.63 ?40c to +125c m4d 10k 3-lead sc70 ks-3 adm809raksz-reel7 2 2.63 ?40c to +125c m4d 3k 3-lead sc70 ks-3 adm809rart-reel 2.63 ?40c to +125c 9rxx 10k 3-lead sot-23 rt-3 adm809rart-reel7 2.63 ?40c to +125c 9rxx 3k 3-lead sot-23 rt-3 adm809rartz-reel 2 2.63 ?40c to +125c m4d 10k 3-lead sot-23 rt-3 adm809rartz-reel7 2 2.63 ?40c to +125c m4d 3k 3-lead sot-23 rt-3
adm803/adm809/adm810 rev. h | page 11 of 12 model reset threshold (v) temperature range branding 1 quantity package description package option adm809saks-reel 2.93 ?40c to +125c m9e 10k 3-lead sc70 ks-3 adm809saks-reel7 2.93 ?40c to +125c m9e 3k 3-lead sc70 ks-3 adm809saksz-reel 2 2.93 ?40c to +125c m53 10k 3-lead sc70 ks-3 adm809saksz-reel7 2 2.93 ?40c to +125c m53 3k 3-lead sc70 ks-3 adm809sart-reel 2.93 ?40c to +125c 9sxx 10k 3-lead sot-23 rt-3 adm809sart-reel7 2.93 ?40c to +125c 9sxx 3k 3-lead sot-23 rt-3 adm809sartz-reel 2 2.93 ?40c to +125c m53 10k 3-lead sot-23 rt-3 adm809sartz-reel7 2 2.93 ?40c to +125c m53 3k 3-lead sot-23 rt-3 adm809taks-reel7 3.08 ?40c to +125c m9d 3k 3-lead sc70 ks-3 adm809taksz-reel 2 3.08 ?40c to +125c m4k 10k 3-lead sc70 ks-3 adm809taksz-reel7 2 3.08 ?40c to +125c m4k 3k 3-lead sc70 ks-3 adm809tart-reel 3.08 ?40c to +125c 9txx 10k 3-lead sot-23 rt-3 adm809tart-reel7 3.08 ?40c to +125c 9txx 3k 3-lead sot-23 rt-3 adm809tartz-reel 2 3.08 ?40c to +125c 9txx x 3 10k 3-lead sot-23 rt-3 adm809tartz-reel7 2 3.08 ?40c to +125c 9txx x 3 3k 3-lead sot-23 rt-3 adm809zaks-reel 2.32 ?40c to +125c m9g 10k 3-lead sc70 ks-3 adm809zaks-reel7 2.32 ?40c to +125c m9g 3k 3-lead sc70 ks-3 adm809zaksz-reel 2 2.32 ?40c to +125c m4p 10k 3-lead sc70 ks-3 adm809zaksz-reel7 2 2.32 ?40c to +125c m4p 3k 3-lead sc70 ks-3 adm809zart-reel 2.32 ?40c to +125c 9zxx 10k 3-lead sot-23 rt-3 adm809zart-reel7 2.32 ?40c to +125c 9zxx 3k 3-lead sot-23 rt-3 adm809zartz-reel 2 2.32 ?40c to +125c m4p 10k 3-lead sot-23 rt-3 ADM809ZARTZ-REEL7 2 2.32 ?40c to +125c m4p 3k 3-lead sot-23 rt-3 adm810jaks-reel 4.00 ?40c to +125c mac or ajxx 10k 3-lead sc70 ks-3 adm810jaks-reel7 4.00 ?40c to +125c mac or ajxx 3k 3-lead sc70 ks-3 adm810jaksz-reel 2 4.00 ?40c to +125c m6v 10k 3-lead sc70 ks-3 adm810jaksz-reel7 2 4.00 ?40c to +125c m6v 3k 3-lead sc70 ks-3 adm810jart-reel7 4.00 ?40c to +125c mac or ajxx 3k 3-lead sot-23 rt-3 adm810jartz-reel 2 4.00 ?40c to +125c m6v 10k 3-lead sot-23 rt-3 adm810jartz-reel7 2 4.00 ?40c to +125c m6v 3k 3-lead sot-23 rt-3 adm810laks-reel7 4.63 ?40c to +125c maa or alxx 3k 3-lead sc70 ks-3 adm810laksz-reel 2 4.63 ?40c to +125c m6w or alxx 10k 3-lead sc70 ks-3 adm810laksz-reel7 2 4.63 ?40c to +125c m6w or alxx 3k 3-lead sc70 ks-3 adm810lart-reel 4.63 ?40c to +125c maa or alxx 10k 3-lead sot-23 rt-3 adm810lart-reel7 4.63 ?40c to +125c maa or alxx 3k 3-lead sot-23 rt-3 adm810lartz-reel 2 4.63 ?40c to +125c m6w or alxx 10k 3-lead sot-23 rt-3 adm810lartz-reel7 2 4.63 ?40c to +125c m6w or alxx 3k 3-lead sot-23 rt-3 adm810maks-reel7 4.38 ?40c to +125c mab or amxx 3k 3-lead sc70 ks-3 adm810maksz-reel 2 4.38 ?40c to +125c m6s 10k 3-lead sc70 ks-3 adm810maksz-reel7 2 4.38 ?40c to +125c m6s 3k 3-lead sc70 ks-3 adm810mart-reel7 4.38 ?40c to +125c mab or amxx 3k 3-lead sot-23 rt-3 adm810martz-reel 2 4.38 ?40c to +125c m6s 10k 3-lead sot-23 rt-3 adm810martz-reel7 2 4.38 ?40c to +125c m6s 3k 3-lead sot-23 rt-3 adm810raks-reel7 2.63 ?40c to +125c maf 3k 3-lead sc70 ks-3 adm810raksz-reel 2 2.63 ?40c to +125c m52 or arxx 10k 3-lead sc70 ks-3 adm810raksz-reel7 2 2.63 ?40c to +125c m52 or arxx 3k 3-lead sc70 ks-3 adm810rart-reel7 2.63 ?40c to +125c arxx 3k 3-lead sot-23 rt-3 adm810rartz-reel 2 2.63 ?40c to +125c m52 or arxx 10k 3-lead sot-23 rt-3 adm810rartz-reel7 2 2.63 ?40c to +125c m52 or arxx 3k 3-lead sot-23 rt-3
adm803/adm809/adm810 rev. h | page 12 of 12 model reset threshold (v) temperature range branding 1 quantity package description package option adm810saks-reel7 2.93 ?40c to +125c mae or asxx 3k 3-lead sc70 ks-3 adm810saksz-reel 2 2.93 ?40c to +125c m6t 10k 3-lead sc70 ks-3 adm810saksz-reel7 2 2.93 ?40c to +125c m6t 3k 3-lead sc70 ks-3 adm810sart-reel7 2.93 ?40c to +125c mae or asxx 3k 3-lead sot-23 rt-3 adm810sartz-reel 2 2.93 ?40c to +125c m6t 10k 3-lead sot-23 rt-3 adm810sartz-reel7 2 2.93 ?40c to +125c m6t 3k 3-lead sot-23 rt-3 adm810taks-reel7 3.08 ?40c to +125c mad or atxx 3k 3-lead sc70 ks-3 adm810taksz-reel 2 3.08 ?40c to +125c m4v 10k 3-lead sc70 ks-3 adm810taksz-reel7 2 3.08 ?40c to +125c m4v 3k 3-lead sc70 ks-3 adm810tart-reel7 3.08 ?40c to +125c mad or atxx 3k 3-lead sot-23 rt-3 adm810tartz-reel 2 3.08 ?40c to +125c m4v 10k 3-lead sot-23 rt-3 adm810tartz-reel7 2 3.08 ?40c to +125c m4v 3k 3-lead sot-23 rt-3 adm810zaks-reel 2.32 ?40c to +125c mag or azxx 10k 3-lead sc70 ks-3 adm810zaks-reel7 2.32 ?40c to +125c mag or azxx 3k 3-lead sc70 ks-3 adm810zaksz-reel 2 2.32 ?40c to +125c m6u 10k 3-lead sc70 ks-3 adm810zaksz-reel7 2 2.32 ?40c to +125c m6u 3k 3-lead sc70 ks-3 adm810zart-reel 2.32 ?40c to +125c mag or azxx 10k 3-lead sot-23 rt-3 adm810zart-reel7 2.32 ?40c to +125c mag or azxx 3k 3-lead sot-23 rt-3 adm810zartz-reel 2 2.32 ?40c to +125c m6u 10k 3-lead sot-23 rt-3 adm810zartz-reel7 2 2.32 ?40c to +125c m6u 3k 3-lead sot-23 rt-3 1 xx = date code, may be top or bottom marked. 2 z = rohs compliant part. 3 rohs compliant part has xx branded on the bottom of the device. ?1997C2008 analog devices, inc. all rights reserved. trademarks and registered trademarks are the prop erty of their respective owners. d03736-0-8/08(h)

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