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| general description the max6043 precision voltage reference provides accurate preset +2.5v, +3.3v, +4.096v, +5.0v, and +10v reference voltages from up to +40v input volt- ages. the max6043 features a proprietary temperature coefficient curvature-correction circuit and laser- trimmed thin-film resistors that result in a very low tem- perature coefficient of 15ppm/? (max) and excellent initial accuracy of 0.05% (max). low temperature drift and low noise make the max6043 ideal for use with high-resolution a/d or d/a converters. the max6043 draws 320? of supply current and sources 10ma or sinks 0.6ma of load current. the max6043 uses bandgap technology for low-noise per- formance and excellent accuracy. the max6043 does not require an output bypass capacitor for stability, and is stable with capacitive loads up to 100?. eliminating the output bypass capacitor saves valuable board area in space-critical applications. the supply-independent, low supply current makes the max6043 ideal for bat- tery-operated, high-performance systems. the max6043 is available in a 6-pin sot23 package and operates over the automotive (-40? to +125?) temperature range. applications analog-to-digital converters digital-to-analog converters digital voltmeters voltage regulators threshold detectors features +2.5v, +3.3v, +4.096v, +5.0v, or +10v output voltages excellent temperature stability: 15ppm/c (max) tight initial accuracy: 0.05% (max) tiny sot23 package wide +4.5v to +40v supply voltage range low noise: 4v p-p (typ at 2.5v output) short-circuit protected wide operating temperature range -40c to +125c stable with capacitive loads from 0 to 100f no external capacitors required for stability max6043 precision high-voltage reference in sot23 ________________________________________________________________ maxim integrated products 1 19-3036; rev 1; 5/04 for pricing, delivery, and ordering information, please contact maxim/dallas direct! at 1-888-629-4642, or visit maxim? website at www.maxim-ic.com. ordering information part temp range pin- package top mark max6043aaut25-t -40 � c to +125 � c 6 sot23-6 abrz max6043baut25-t -40 � c to +125 � c 6 sot23-6 abdq max6043caut25-t -40 � c to +125 � c 6 sot23-6 abdr ordering information continued at end of data sheet. typical operating circuit appears at end of data sheet. selector guide part output voltage (v) tempco (ppm/ o c) -40 o c to +125 o c initial accuracy (%) max6043aaut25 2.5 15 0.06 max6043baut25 2.5 20 0.1 max6043caut25 2.5 65 0.5 max6043aaut33 3.3 15 0.06 max6043baut33 3.3 20 0.1 max6043caut33 3.3 65 0.5 max6043aaut41 4.096 15 0.06 max6043baut41 4.096 20 0.1 max6043caut41 4.096 65 0.5 max6043aaut50 5.0 15 0.06 MAX6043BAUT50 5.0 20 0.1 max6043caut50 5.0 65 0.5 max6043aaut10 10.0 15 0.05 max6043baut10 10.0 20 0.1 max6043caut10 10.0 65 0.5 gnd in i.c.* *internally connected. do not connect. 16 outs 5 outf i.c.* max6043 sot23-6 top view 2 34 pin configuration
max6043 precision high-voltage reference in sot23 2 _______________________________________________________________________________________ absolute maximum ratings 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. in to gnd ...............................................................-0.3v to +42v outf, outs to gnd ...................................-0.3v to (v in + 0.3v) continuous power dissipation (t a = +70 � c) 6-pin sot23 (derate 9.1mw/ � c above +70 � c)............727mw out_ short-circuit duration .....................................................5s operating temperature range .........................-40 � c to +125 � c storage temperature range .............................-65 � c to +150 � c junction temperature range ............................-65 � c to +150 � c lead temperature (soldering, 10s) .................................+300 � c electrical characteristicsv out = +2.5v (v in = +5v, i out = 0, t a = t min to t max . typical values are at t a = +25 � c, unless otherwise noted.) (note 1) parameter conditions min typ max units output max6043a (0.06%) 2.4985 2.5000 2.5015 max6043b (0.1%) 2.4975 2.5000 2.5025 output voltage i out = 0, t a = +25 � c max6043c (0.5%) 2.4876 2.5000 2.5125 v max6043a_25 3 15 max6043b_25 5 25 output-voltage temperature coefficient (note 2) t a = -40 � c to +125 � c max6043c_25 10 65 ppm/ � c t a = +25 � c16 line regulation (note 4) 4.5v < v in < 40v t a = -40 � c to +125 � c 1.5 10 ppm/v t a = +25 � c870 sourcing, 0 < i out < 10ma t a = -40 � c to +125 � c70 t a = +25 � c 70 900 load regulation (note 4) sinking, -0.6ma < i out < 0ma t a = -40 � c to +125 � c 900 ppm/ma output shorted to gnd 60 out short-circuit current output shorted to in -2 ma thermal hysteresis (note 3) 150 ppm long-term stability ? t = 1000hr 150 ppm dynamic characteristics 0.1hz to 10hz 4 v p-p output noise voltage 10hz to 1khz 7 v rms turn-on settling time to v out = 0.05% of final value, c out = 50pf 150 s input supply voltage range inferred from line regulation test 4.5 40.0 v t a = +25 � c 320 490 quiescent supply current i out = 0 t a = -40 � c to +125 � c 370 650 a max6043 precision high-voltage reference in sot23 _______________________________________________________________________________________ 3 electrical characteristicsv out = +3.3v (v in = +10v, i out = 0, t a = t min to t max . typical values are at t a = +25 � c, unless otherwise noted.) (note 1) parameter conditions min typ max units output max6043a (0.06%) 3.2980 3.3000 3.3020 max6043b (0.1%) 3.2967 3.3000 3.3033 output voltage i out = 0, t a = +25 � c max6043c (0.5%) 3.2836 3.3000 3.3165 v max6043a_33 3 15 max6043b_33 5 25 output-voltage temperature coefficient (note 2) t a = -40 � c to +125 � c max6043c_33 10 65 ppm/ � c t a = +25 � c16 line regulation (note 4) 5.3v v in 40v t a = -40 � c to +125 � c 1.5 10 ppm/v t a = +25 � c2370 sourcing, 0 i out 10ma t a = -40 � c to +125 � c70 t a = +25 � c 100 900 load regulation (note 4) sinking, -0.6ma i out 0ma t a = -40 � c to +125 � c 900 ppm/ma out shorted to gnd 60 out short-circuit current out shorted to in -2 ma thermal hysteresis (note 3) 150 ppm long-term stability ? t = 1000hr 150 ppm dynamic characteristics 0.1hz to 10hz 5.3 v p-p output noise voltage 10hz to 1khz 9.5 v rms turn-on settling time to v out = 0.05% of final value, c out = 50pf 180 s input supply voltage range inferred from line regulation test 5.3 40.0 v t a = +25 � c 320 490 quiescent supply current i out = 0 t a = -40 � c to +125 � c 380 650 a max6043 precision high-voltage reference in sot23 4 _______________________________________________________________________________________ electrical characteristicsv out = +4.096v (v in = +10v, i out = 0, t a = t min to t max . typical values are at t a = +25 � c, unless otherwise noted.) (note 1) parameter conditions min typ max units output max6043a (0.06%) 4.0935 4.0960 4.0985 max6043b (0.1%) 4.0919 4.0960 4.1001 output voltage i out = 0, t a = +25 � c max6043c (0.5%) 4.0755 4.0960 4.1165 v max6043a_41 3 15 max6043b_41 5 25 output-voltage temperature coefficient (note 2) t a = -40 � c to +125 � c max6043c_41 10 65 ppm/ � c t a = +25 � c16 line regulation (note 4) 6.1v v in 40v t a = -40 � c to +125 � c 1.5 10 ppm/v t a = +25 � c1970 sourcing, 0 i out 10ma t a = -40 � c to +125 � c70 t a = +25 � c 100 900 load regulation (note 4) sinking, -0.6ma i out 0ma t a = -40 � c to +125 � c 900 ppm/ma out shorted to gnd 60 out short-circuit current out shorted to in -2 ma thermal hysteresis (note 3) 150 ppm long-term stability ? t = 1000hr 150 ppm dynamic characteristics 0.1hz to 10hz 6.6 v p-p output noise voltage 10hz to 1khz 12 v rms turn-on settling time to v out = 0.05% of final value, c out = 50pf 200 s input supply voltage range inferred from line regulation test 6.1 40.0 v t a = +25 � c 320 490 quiescent supply current i out = 0 t a = -40 � c to +125 � c 380 650 a max6043 precision high-voltage reference in sot23 _______________________________________________________________________________________ 5 electrical characteristicsv out = +5.0v (v in = +15v, i out = 0, t a = t min to t max . typical values are at t a = +25 � c, unless otherwise noted.) (note 1) parameter conditions min typ max units output max6043a (0.06%) 4.9970 5.0000 5.0030 max6043b (0.1%) 4.9950 5.0000 5.0050 output voltage i out = 0, t a = +25 � c max6043c (0.5%) 4.9751 5.0000 5.0250 v max6043a_50 3 15 max6043b_50 5 25 output-voltage temperature coefficient (note 2) t a = -40 � c to +125 � c max6043c_50 10 65 ppm/ � c t a = +25 � c16 line regulation (note 4) 7v v in 40v t a = -40 � c to +125 � c 1.5 10 ppm/v t a = +25 � c3270 sourcing, 0 i out 10ma t a = -40 � c to +125 � c70 t a = +25 � c 130 900 load regulation (note 4) sinking, -0.6ma i out 0ma t a = -40 � c to +125 � c 900 ppm/ma out shorted to gnd 60 out short-circuit current out shorted to in -2 ma thermal hysteresis (note 3) 150 ppm long-term stability ? t = 1000hr 150 ppm dynamic characteristics 0.1hz to 10hz 9.5 v p-p output noise voltage 10hz to 1khz 15 v rms turn-on settling time to v out = 0.05% of final value, c out = 50pf 230 s input supply voltage range inferred from line regulation test 7.0 40.0 v t a = +25 � c 320 490 quiescent supply current i out = 0 t a = -40 � c to +125 � c 380 650 a max6043 precision high-voltage reference in sot23 6 _______________________________________________________________________________________ note 1: all devices are 100% production tested at t a = +25 � c and guaranteed by design over t a = t min to t max as specified. note 2: temperature coefficient is defined as ? v out divided by the temperature range. note 3: thermal hysteresis defined as the change in output voltage at t a = +25 � c before and after cycling the device from t max to t min. note 4: line and load regulation do not include the effect of self heating. electrical characteristicsv out = +10.0v (v in = +15v, i out = 0, t a = t min to t max . typical values are at t a = +25 � c, unless otherwise noted.) (note 1) parameter conditions min typ max units output max6043a (0.05%) 9.9950 10.0000 10.0050 max6043b (0.1%) 9.9900 10.0000 10.0100 output voltage i out = 0, t a = +25 � c max6043c (0.5%) 9.9500 10.0000 10.0500 v max6043a_10 3 15 max6043b_10 5 25 output-voltage temperature coefficient (note 2) t a = -40 � c to +125 � c max6043c_10 10 65 ppm/ � c t a = +25 � c16 line regulation (note 4) 12v v in 40v t a = -40 � c to +125 � c 1.5 10 ppm/v t a = +25 � c1670 sourcing, 0 i out 10ma t a = -40 � c to +125 � c70 t a = +25 � c 170 900 load regulation (note 4) sinking, -0.6ma i out 0ma t a = -40 � c to +125 � c 900 ppm/ma out shorted to gnd 60 out short-circuit current out shorted to in -2 ma thermal hysteresis (note 3) 150 ppm long-term stability ? t = 1000hr 150 ppm dynamic characteristics 0.1hz to 10hz 19 v p-p output noise voltage 10hz to 1khz 30 v rms turn-on settling time to v out = 0.05% of final value, c out = 50pf 390 s input supply voltage range inferred from line regulation test 12.0 40.0 v t a = +25 � c 320 490 quiescent supply current i out = 0 t a = -40 � c to +125 � c 390 650 a max6043 precision high-voltage reference in sot23 _______________________________________________________________________________________ 7 output voltage vs. temperature (v out = 2.5v) max6043 toc01 temperature ( c) output voltage (v) 110 95 65 80 -10 5 20 35 50 -25 2.4985 2.4990 2.4995 2.5000 2.5005 2.5010 2.5015 2.5020 2.4980 -40 125 three typical units output voltage vs. temperature (v out = 10v) max6043 toc02 temperature ( c) output voltage (v) 110 95 65 80 -10 5 20 35 50 -25 9.996 9.997 9.998 9.999 10.000 10.001 10.002 10.003 10.004 10.005 9.990 9.991 9.992 9.993 9.994 9.995 -40 125 three typical units load regulation (sourcing, v out = 10v) max6043 toc03 output current (ma) ? v out (mv) 60 50 30 40 20 10 -12 -10 -8 -6 -4 -2 0 2 4 -14 070 t a = -40 c t a = +125 c t a = +85 c t a = +25 c load regulation (sourcing, v out = 2.5v) max6043 toc04 output current (ma) ? v out (mv) 60 50 10 20 30 40 070 -1.5 -1.0 -0.5 0 0.5 1.0 1.5 2.0 -2.0 t a = +25 c t a = +125 c t a = +85 c t a = -40 c load regulation (sinking, v out = 10v) max6043 toc05 output current (ma) ? v out (mv) -1 -2 -3 -10 -5 0 5 10 15 20 25 -15 -4 0 t a = -40 c t a = +125 c t a = +85 c t a = +25 c load regulation (sinking, v out = 2.5v) max6043 toc06 output current (ma) ? v out (mv) -0.5 -1.0 -2.5 -2.0 -1.5 -1.5 -1.0 -0.5 0 0.5 1.0 1.5 2.0 -2.0 -3.0 0 t a = -40 c t a = +125 c t a = +85 c t a = +25 c line regulation (v out = 2.5v) max6043 toc07 input voltage (v) ? v out (mv) 36 32 24 28 12 16 20 8 440 -0.0250 0 0.0250 0.0500 0.0750 0.1000 0.1250 0.1500 0.1750 -0.0500 t a = -40 c t a = +125 c t a = +85 c t a = +25 c line regulation (v out = 10v) max6043 toc08 input voltage (v) ? v out (mv) 36 32 16 20 24 28 12 40 -0.100 0 0.100 0.200 0.300 0.400 0.500 -0.200 t a = -40 c t a = +125 c t a = +85 c t a = +25 c minimum input-output differential vs. load current (v out = 2.5v) max6043 toc09 load current (ma) minimum input-output differential (v) 60 40 20 0.5 1.0 1.5 2.0 2.5 3.0 0 080 ? v out / v out = 0.1% t a = +125 c t a = +85 c t a = +25 c t a = -40 c typical operating characteristics (v in = +5v for v out = +2.5v, v in = +10v for v out = +3.3v or +4.096v, v in = +15v for v out = +5v or +10v, i out = 0, t a = +25 � c, unless otherwise noted.) max6043 precision high-voltage reference in sot23 8 _______________________________________________________________________________________ typical operating characteristics (continued) (v in = +5v for v out = +2.5v, v in = +10v for v out = +3.3v or +4.096v, v in = +15v for v out = +5v or +10v, i out = 0, t a = +25 � c, unless otherwise noted.) minimum input-output differential vs. load current (v out = 10v) max6043 toc10 load current (ma) minimum input-output differential (v) 40 20 0.5 1.0 1.5 2.0 2.5 3.0 0 060 ? v out / v out = 0.1% t a = +125 c t a = +85 c t a = +25 c t a = -40 c power-supply rejection ratio vs. frequency (v out = 2.5v) max6043 toc11 frequency (khz) psrr (db) 100 10 1 -100 -80 -60 -40 -20 0 -120 0.1 1000 power-supply rejection ratio vs. frequency (v out = 10v) max6043 toc12 frequency (khz) psrr (db) 100 10 1 -100 -80 -60 -40 -20 0 -120 0.1 1000 0.1 1 100 1000 output impedance vs. frequency max6043 toc13 frequency (khz) output impedance ( ? ) 10 100 0.01 0.1 1 10 supply current vs. input voltage (v out = 2.5v) max6043 toc14 input voltage (v) supply current ( a) 36 32 24 28 8 12 16 20 4 40 80 120 160 200 240 280 320 360 400 440 480 0 040 t a = +125 c t a = +85 c t a = -40 c t a = +25 c supply current vs. input voltage (v out = 10v) max6043 toc15 input voltage (v) supply current ( a) 36 32 24 28 8 12 16 20 4 40 80 120 160 200 240 280 320 360 400 440 0 040 t a = +125 c t a = +85 c t a = -40 c t a = +25 c supply current vs. temperature (v out = 2.5v) max6043 toc16 temperature ( c) supply current ( a) 110 95 65 80 -10 5 20 35 50 -25 260 280 300 320 340 360 380 400 420 440 240 -40 125 v in = 5v supply current vs. temperature (v out = 10v) max6043 toc17 temperature ( c) supply current ( a) 110 95 65 80 -10 5 20 35 50 -25 260 280 300 320 340 360 380 400 420 440 240 -40 125 v in = 15v output noise-voltage density vs. frequency max6043 toc18 frequency (hz) output noise-voltage density (nv/ hz) 100 10 1 1000 0.1 1000 10,000 100 v out = 10v v out = 2.5v max6043 precision high-voltage reference in sot23 _______________________________________________________________________________________ 9 0.1hz to 10hz output noise (v out = 2.5v) max6043 toc19 v out ac-coupled 1 v/div 1s/div 0.1hz to 10hz output noise (v out = 10v) max6043 toc20 v out ac-coupled 4 v/div 1s/div load transient (v out = 2.5v) max6043 toc21 v in = 5v c out = 0 f 0 20ma 2.5v v out 50mv/div ac-coupled i out 10ma/div 100 s/div load transient (v out = 10v) max6043 toc22 v in = 15v c out = 0 f 0 20ma 10v v out 200mv/div ac-coupled i out 10ma/div 100 s/div load transient (v out = 2.5v) max6043 toc23 v in = 5v c out = 1 f 0 20ma 2.5v v out 50mv/div ac-coupled i out 10ma/div 100 s/div load transient (v out = 10v) max6043 toc24 v in = 15v c out = 1 f 0 20ma 10v v out 100mv/div ac-coupled i out 10ma/div 100 s/div typical operating characteristics (continued) (v in = +5v for v out = +2.5v, v in = +10v for v out = +3.3v or +4.096v, v in = +15v for v out = +5v or +10v, i out = 0, t a = +25 � c, unless otherwise noted.) turn-on transient (v out = 2.5v) max6043 toc31 c out = 0 f 0v 2.5v 5v v in 2v/div v out 1v/div 4 s/div 0v turn-on transient (v out = 10v) max6043 toc32 c out = 0 f 0v 10v 15v v in 5v/div v out 5v/div 40 s/div 0v max6043 precision high-voltage reference in sot23 10 ______________________________________________________________________________________ typical operating characteristics (continued) (v in = +5v for v out = +2.5v, v in = +10v for v out = +3.3v or +4.096v, v in = +15v for v out = +5v or +10v, i out = 0, t a = +25 � c, unless otherwise noted.) load transient (v out = 2.5v) max6043 toc25 v in = 5v c out = 0 f -2ma 0 2.5v v out 50mv/div ac-coupled i out 2ma/div 200 s/div load transient (v out = 10v) max6043 toc26 v in = 15v c out = 0 f -2ma 0 10v v out 100mv/div ac-coupled i out 2ma/div 400 s/div line transient (v out = 2.5v) max6043 toc29 v in ac-coupled 500mv/div 10 s/div 5.5v v out ac-coupled 10mv/div 4.5v line transient (v out = 10v) max6043 toc30 v in ac-coupled 500mv/div 10 s/div 15.5v v out ac-coupled 10mv/div 14.5v load transient (v out = 2.5v) max6043 toc27 v in = 5v c out = 1 f -2ma 0 2.5v v out 20mv/div ac-coupled i out 2ma/div 200 s/div load transient (v out = 10v) max6043 toc28 v in = 15v c out = 1 f -2ma 0 10v v out 50mv/div ac-coupled i out 2ma/div 400 s/div max6043 precision high-voltage reference in sot23 ______________________________________________________________________________________ 11 turn-on transient (v out = 2.5v) max6043 toc33 c out = 1 f 0v 2.5v 5v v in 2v/div v out 1v/div 40 s/div 0v turn-off transient (v out = 2.5v) max6043 toc35 c out = 0 f 0v 2.5v 5v v in 2v/div v out 1v/div 1 s/div 0v turn-on transient (v out = 10v) max6043 toc34 c out = 1 f 0v 10v 15v v in 5v/div v out 5v/div 40 s/div 0v turn-off transient max6043 toc38 c out = 1 f 0v 10v 15v v in 5v/div v out 5v/div 40ms/div 0v long-term drift (v out = 2.5v) max6043 toc39 time (hr) ? output voltage (ppm) 800 600 400 200 -125 -75 -100 -50 0 -25 25 50 100 75 125 150 -150 0 1000 typical operating characteristics (continued) (v in = +5v for v out = +2.5v, v in = +10v for v out = +3.3v or +4.096v, v in = +15v for v out = +5v or +10v, i out = 0, t a = +25 � c, unless otherwise noted.) turn-off transient (v out = 10v) max6043 toc36 c out = 0 f 0v 10v 15v v in 5v/div v out 5v/div 2 s/div 0v turn-off transient (v out = 2.5v) max6043 toc37 c out = 1 f 0v 2.5v 5v v in 2v/div v out 1v/div 20ms/div 0v long-term drift (v out = 10v) xmax6043 toc40 time (hr) ? output voltage (ppm) 800 600 400 200 -125 -75 -100 -50 -25 0 50 25 75 100 125 150 -150 0 1000 max6043 precision high-voltage reference in sot23 12 ______________________________________________________________________________________ applications information bypassing/output capacitance for the best line-transient performance, decouple the input with a 0.1f ceramic capacitor as shown in the typical operating circuit . place the capacitor as close to in as possible. when transient performance is less important, no capacitor is necessary. the max6043 does not require an output capacitor for stability and is stable with capacitive loads up to 100f. in applications where the load or the supply can experi- ence step changes, a larger output capacitor reduces the amount of overshoot (undershoot) and improves the circuit � s transient response. place output capacitors as close to the device as possible for best performance. supply current the max6043 consumes 320a of quiescent supply current. this improved efficiency reduces power dissi- pation and extends battery life. thermal hysteresis thermal hysteresis is the change in the output voltage at t a = +25 � c before and after the device is cycled over its entire operating temperature range. hysteresis is caused by differential package stress appearing across the bandgap core transistors. the typical ther- mal hysteresis value is 150ppm. turn-on time the max6043 typically turns on and settles to within 0.05% of the preset output voltage in 150s. short-circuited outputs the max6043 features a short-circuit-protected output. internal circuitry limits the output current to 60ma when short-circuiting the output. temperature coefficient vs. operating temperature range for a 1 lsb maximum error in a data converter application, the reference voltage of the converter must stay within a certain limit to keep the error in the data converter smaller than the resolution limit through the operating temperature range. figure 1 shows the maximum allowable reference-voltage tem- perature coefficient to keep the conversion error to less than 1 lsb, as a function of the operating temperature range (t max - t min ) with the converter resolution as a parameter. the graph assumes the reference-voltage temperature coefficient as the only parameter affecting accuracy. in reality, the absolute static accuracy of a data convert- er is dependent on the combination of many parameters such as integral nonlinearity, differential nonlinearity, offset error, gain error, as well as voltage-reference changes. pin name function 1, 3 i.c. internally connected. do not connect externally. 2 gnd ground 4 in positive power-supply input 5 outf voltage-reference force output. connect outf to outs as close to the device as possible. outf and outs do not require a bypass capacitor for stability. 6 outs voltage-reference sense input pin description max6043 precision high-voltage reference in sot23 ______________________________________________________________________________________ 13 figure 1. temperature coefficient vs. operating temperature range for a 1 lsb maximum error temperature coefficient (ppm/ c) 110 100 16 bit 14 bit 12 bit 10 bit 8 bit 0.01 0.1 10 100 1000 1 10,000 18 bit 20 bit operating temperature range (t max - t min ) ( c) max6043 precision high-voltage reference in sot23 14 ______________________________________________________________________________________ ordering information (continued) part temp range pin- package top mark max6043aaut33-t -40 � c to +125 � c 6 sot23-6 absa max6043baut33-t -40 � c to +125 � c 6 sot23-6 abds max6043caut33-t -40 � c to +125 � c 6 sot23-6 abdt max6043aaut41-t -40 � c to +125 � c 6 sot23-6 absb max6043baut41-t -40 � c to +125 � c 6 sot23-6 abdu max6043caut41-t -40 � c to +125 � c 6 sot23-6 abdv max6043aaut50-t -40 � c to +125 � c 6 sot23-6 absc MAX6043BAUT50-t -40 � c to +125 � c 6 sot23-6 abdw max6043caut50-t -40 � c to +125 � c 6 sot23-6 abdx max6043aaut10-t -40 � c to +125 � c 6 sot23-6 absd max6043baut10-t -40 � c to +125 � c 6 sot23-6 abdy max6043caut10-t -40 � c to +125 � c 6 sot23-6 abdz chip information transistor count: 152 process: bicmos * input capacitor is optional. in gnd input supply reference output (see ordering information) 0.1 f * max6043 outf outs typical operating circuit max6043 precision high-voltage reference in sot23 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. maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 ____________________ 15 ? 2004 maxim integrated products printed usa is a registered trademark of maxim integrated products. package information (the package drawing(s) in this data sheet may not reflect the most current specifications. for the latest package outline info rmation, go to www.maxim-ic.com/packages .) 6lsot.eps f 1 1 21-0058 package outline, sot-23, 6l |
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