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| max6029 ultra-low-power precision series voltage reference 19-2892; rev 3; 1/09 general description the max6029 micropower, low-dropout bandgap volt-age reference combines ultra-low supply current and low drift in a miniature 5-pin sot23 surface-mount pack- age that uses 70% less board space than comparable devices in an so package. an initial accuracy of 0.15% and a 30ppm/? (max) temperature coefficient make the max6029 suitable for precision applications. this series-mode voltage reference sources up to 4ma and sinks up to 1ma of load current. a wide 2.5v to 12.6v supply range, ultra-low 5.25? (max) supply current, and a low 200mv dropout voltage make these devices ideal for battery-operated systems. additionally, an internal compensation capacitor eliminates the need for an external compensation capacitor and ensures stabili- ty with load capacitances up to 10?. the max6029 provides six output voltages of 2.048v, 2.5v, 3v, 3.3v, 4.096v, and 5v. the max6029 is avail- able in a 5-pin sot23 or an 8-pin so package and is specified over the extended temperature range (-40? to +85?). applications battery-powered systemshand-held instruments precision power supplies a/d and d/a converters features ? ultra-low 5.25a (max) supply current ? 0.15% (max) initial accuracy ? 30ppm/c (max) temperature coefficient ? 4ma output source current ? 1ma output sink current ? 2.5v to 12.6v supply range ? low 200mv dropout ? stable with capacitive loads up to 10f ? no external capacitors required ? miniature 5-pin sot23 package, 8-pin so package gnd n.c. n.c. 1 5 out in max6029 sot23 top view 234 out n.c. gnd 12 8 7 n.c. n.c. in n.c. n.c. so 3 4 6 5 max6029 pin configuration ordering information part pin-package top mark max6029euk21+t 5 sot23 aehd max6029euk25+t 5 sot23 aehf max6029esa25+ 8 so max6029euk30+t 5 sot23 aehh max6029euk33+t 5 sot23 aehn max6029euk41+t 5 sot23 aehj max6029esa41+ 8 so max6029euk50+t 5 sot23 aehl selector guide part pin-package output oltage () max6029euk21 5 sot23 2.048 max6029euk25 5 sot23 2.500 max6029esa25 8 so 2.500 max6029euk30 5 sot23 3.000 max6029euk33 5 sot23 3.300 max6029euk41 5 sot23 4.096 max6029esa41 8 so 4.096 max6029euk50 5 sot23 5.000 note: all devices are specified over the -40? to +85? oper- ating temperature range. + denotes a lead(pb)-free/rohs-compliant package. downloaded from: http:///
max6029 ultra-low-power precision series voltage reference maxim integrated | 2 www.maximintegrated.com absolute maximum ratings stresses beyond those listed under ?bsolute maximum ratings?may cause permanent damage to the device. these are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. in to gnd ...............................................................-0.3v to +13v out to gnd ..............-0.3v to the lower of +6v and (v in + 0.3v) output to gnd short-circuit duration........................continuous continuous power dissipation (t a = +70?) 5-pin sot23 (derate 7.1mw/? above +70?)............571mw 8-pin so (derate 5.9mw/? above +70?)...............470.6mw operating temperature range ...........................-40? to +85? storage temperature range .............................-65? to +150? lead temperature (soldering, 10s) .................................+300? electrical characteristicsmax6029_21 (v out = 2.048v) (v in = 2.5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 2.0449 2.0480 2.0511 v output voltage temperaturecoefficient tcv out (notes 2, 3) 30 ppm/ c line regulation ? v out / ? v in v in = 2.5v to 12.6v 27 200 ?/v i out = 0 to 4ma 0.22 0.7 load regulation ? v out / ? i out i out = 0 to -1ma 2.4 5.5 ?/? output short-circuit current i sc 60 ma long-term stability ? v out /time 1000 hours at +25 c 150 ppm thermal hysteresis (note 4) 140 ppm dynamic characteristics f = 0.1hz to 10hz 30 ? p-p noise voltage e out f = 10hz to 1khz 115 ? rms ripple rejection ? v out / ? v in v in = 2.5v 200mv, f = 120hz 43 db turn-on settling time t r to v out = 0.1% of final value 450 ? input supply voltage range v in 2.5 12.6 v supply current i in 5.25 ? change in supply current i in /v in v in = 2.5v to 12.6v 1.5 ?/v downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 3 www.maximintegrated.com electrical characteristicsmax6029_25 (v out = 2.500v) (v in = 2.7v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units output max6029euk 2.4963 2.5000 2.5038 output voltage v out t a = +25 c max6029esa 2.495 2.500 2.505 v output voltage temperaturecoefficient tcv out (notes 2, 3) 30 ppm/ c line regulation ? v out / ? v in v in = 2.7v to 12.6v 30 230 ?/v i out = 0 to 4ma 0.1 0.6 load regulation ? v out / ? i out i out = 0 to -1ma 2.5 6.2 ?/? i out = 0 100 dropout voltage (note 5) v in - v out i out = 4ma 200 mv output short-circuit current i sc 60 ma long-term stability ? v out /time 1000 hours at +25 c 150 ppm thermal hysteresis (note 4) 140 ppm dynamic characteristics f = 0.1hz to 10hz 39 ? p-p noise voltage e out f = 10hz to 1khz 137 ? rms ripple rejection ? v out / ? v in v in = 2.7v 200mv, f = 120hz 34 db turn-on settling time t r to v out = 0.1% of final value 700 ms input supply voltage range v in 2.7 12.6 v supply current i in 5.75 ? change in supply current i in /v in v in = 2.7v to 12.6v 1.5 ?/v downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 4 www.maximintegrated.com electrical characteristicsmax6029_30 (v out = 3.000v) (v in = 3.2v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 2.9955 3.0000 3.0045 v output voltage temperaturecoefficient tcv out (notes 2, 3) 30 ppm/ c line regulation ? v out / ? v in v in = 3.2v to 12.6v 15 250 ?/v i out = 0 to 4ma 0.1 0.6 load regulation ? v out / ? i out i out = 0 to -1ma 2.4 6.5 ?/? i out = 0 100 dropout voltage (note 5) v in - v out i out = 4ma 200 mv output short-circuit current i sc 60 ma long-term stability ? v out /time 1000 hours at +25 c 150 ppm thermal hysteresis (note 4) 140 ppm dynamic characteristics f = 0.1hz to 10hz 39 ? p-p noise voltage e out f = 10hz to 1khz 161 ? rms ripple rejection ? v out / ? v in v in = 3.2v 200mv, f = 120hz 37 db turn-on settling time t r to v out = 0.1% of final value 775 ? input supply voltage range v in 3.2 12.6 v supply current i in 6.75 ? change in supply current i in /v in v in = 3.2v to 12.6v 1.5 ?/v downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 5 www.maximintegrated.com electrical characteristicsmax6029_33 (v out = 3.000v) (v in = 3.5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 3.2951 3.3000 3.3050 v output voltage temperaturecoefficient tcv out (notes 2, 3) 30 ppm/ c line regulation ? v out / ? v in v in = 3.5v to 12.6v 30 270 ?/v i out = 0 to 4ma 0.1 0.6 load regulation ? v out / ? i out i out = 0 to -1ma 2.4 7 ?/? i out = 0 100 dropout voltage (note 5) v in - v out i out = 4ma 200 mv output short-circuit current i sc 60 ma long-term stability ? v out /time 1000 hours at +25 c 150 ppm thermal hysteresis (note 4) 140 ppm dynamic characteristics f = 0.1hz to 10hz 56 ? p-p noise voltage e out f = 10hz to 1khz 174 ? rms ripple rejection ? v out / ? v in v in = 3.5v 200mv, f = 120hz 38 db turn-on settling time t r to v out = 0.1% of final value 1 ms input supply voltage range v in 3.5 12.6 v supply current i in 7.25 ? change in supply current i in /v in v in = 3.5v to 12.6v 1.5 ?/v downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 6 www.maximintegrated.com electrical characteristicsmax6029_41 (v out = 4.096v) (v in = 4.3v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units output max6029euk 4.0899 4.0960 4.1021 output voltage v out t a = +25 c max6029esa 4.088 4.096 4.104 v output voltage temperaturecoefficient tcv out (notes 2, 3) 30 ppm/ c line regulation ? v out / ? v in v in = 4.3v to 12.6v 30 310 ?/v i out = 0 to 4ma 0.1 0.6 load regulation ? v out / ? i out i out = 0 to -1ma 2.5 8.5 ?/? i out = 0 100 dropout voltage (note 5) v in - v out i out = 4ma 200 mv output short-circuit current i sc 60 ma long-term stability ? v out /time 1000 hours at +25 c 150 ppm thermal hysteresis (note 4) 140 ppm dynamic characteristics f = 0.1hz to 10hz 72 ? p-p noise voltage e out f = 10hz to 1khz 210 ? rms ripple rejection ? v out / ? v in v in = 4.3v 200mv, f = 120hz 36 db turn-on settling time t r to v out = 0.1% of final value 1.2 ms input supply voltage range v in 4.3 12.6 v supply current i in 8.75 ? change in supply current i in /v in v in = 4.3v to 12.6v 1.5 ?/v downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 7 www.maximintegrated.com note 1: max6029 is 100% production tested at t a = +25? and is guaranteed by design for t a = t min to t max as specified. note 2: temperature coefficient is defined by box method: (v max - v min )/( t ? v +25? ). note 3: not production tested. guaranteed by design. note 4: thermal hysteresis is defined as the change in t a = +25? output voltage before and after temperature cycling of the device (from t a = t min to t max ). initial measurement at t a = +25? is followed by temperature cycling the device to t a = +85? then to t a = -40? and another measurement at t a = +25? is compared to the original measurement at t a = +25?. note 5: dropout voltage is the minimum input voltage at which v out changes by 0.1% from v out at rated v in and is guaranteed by load regulation test. electrical characteristicsmax6029_50 (v out = 5.000v) (v in = 5.2v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25?.) (note 1) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 4.9925 5.0000 5.0075 v output voltage temperaturecoefficient tcv out (notes 2, 3) 30 ppm/ c line regulation ? v out / ? v in v in = 5.2v to 12.6v 34 375 ?/v i out = 0 to 4ma 0.3 0.8 load regulation ? v out / ? i out i out = 0 to -1ma 3.3 9 ?/? i out = 0 100 dropout voltage (note 5) v in - v out i out = 4ma 200 mv output short-circuit current i sc 60 ma long-term stability ? v out /time 1000 hours at +25 c 150 ppm thermal hysteresis (note 4) 140 ppm dynamic characteristics f = 0.1hz to 10hz 90 ? p-p noise voltage e out f = 10hz to 1khz 245 ? rms ripple rejection ? v out / ? v in v in = 5.2v 200mv, f = 120hz 38 db turn-on settling time t r to v out = 0.1% of final value 1.4 ms input supply voltage range v in 5.2 12.6 v supply current i in 10.5 ? change in supply current i in /v in v in = 5.2v to 12.6v 1.5 ?/v downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 8 www.maximintegrated.com typical operating characteristics (v in = 2.5v for max6029euk21, v in = 3.2v for max6029euk30, and v in = 5.2v for max6029euk50, i out = 0, t a = +25?, unless otherwise noted.) output voltage vs. temperature (v out = 2.048v) max6029 toc01 temperature ( c) output voltage (v) 60 35 10 -15 2.042 2.044 2.046 2.048 2.0502.040 -40 85 3 typical units output voltage vs. temperature (v out = 3v) max6029 toc02 temperature ( c) output voltage (v) 60 35 10 -15 2.993 2.995 2.997 2.999 3.001 3.0032.991 -40 85 3 typical units output voltage vs. temperature (v out = 5v) max6029 toc03 temperature ( c) output voltage (v) 4.990 4.992 4.994 4.996 4.998 5.000 5.002 5.004 5.006 4.988 60 35 10 -15 -40 85 3 typical units supply current vs. input voltage max6029 toc04 input voltage (v) supply current ( a) 12 11 10 9 8 7 6 5 4 3 2 1 2 4 6 8 10 12 14 0 01 3 v out = 3v v out = 5v v out = 2.048v supply current vs. temperature max6029 toc05 temperature ( c) supply current ( a) 60 35 10 -15 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.02.5 -40 85 v out = 3v v out = 5v v out = 2.048v dropout voltage vs. source current (v out = 2.048v) max6029 toc06 source current (ma) dropout voltage (v) 6 5 1 2 3 4 0.02 0.04 0.06 0.08 0.10 0.12 0.14 0.16 0 07 dropout voltage vs. source current (v out = 3v) max6029 toc07 source current (ma) dropout voltage (v) 6 5 3 4 2 1 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 0.11 0 07 dropout voltage vs. source current (v out = 5v) max6029 toc08 source current (ma) dropout voltage (v) 6 5 3 4 2 1 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0 07 load regulation (v out = 2.048v) max6029 toc09 output current (ma) output voltage (v) 6 5 3 4 0 1 2 -1 2.0475 2.0480 2.0485 2.0490 2.0495 2.0500 2.0505 2.0510 2.0515 2.05202.0470 -2 7 downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 9 www.maximintegrated.com line regulation (v out = 2.048v) max6029 toc10 input voltage (v) output voltage (v) 11.5 10.0 7.0 8.5 5.5 4.0 2.04774 2.04776 2.04778 2.04780 2.04782 2.04784 2.04786 2.04788 2.04790 2.047922.04772 2.5 13.0 load regulation (v out = 3v) max6029 toc11 output current (ma) output voltage (v) 6 5 3 4 0 1 2 -1 3.0015 3.0020 3.0025 3.0030 3.0035 3.0040 3.0045 3.0050 3.00553.0010 -2 7 line regulation (v out = 3v) max6029 toc12 input voltage (v) output voltage (v) 12 11 10 9 8 7 6 5 4 3.00160 3.00165 3.00170 3.00175 3.001803.00155 31 3 load regulation (v out = 5v) max6029 toc13 output current (ma) output voltage (v) 6 5 3 4 0 1 2 -1 5.0015 5.0020 5.0025 5.0030 5.0035 5.0040 5.0045 5.0050 5.0005 5.0010 -2 7 line regulation (v out = 5v) max6029 toc14 input voltage (v) output voltage (v) 12 11 6 7 8 9 10 5.00066 5.00068 5.00070 5.00072 5.00074 5.00076 5.00078 5.000805.00064 51 3 power-supply rejection ratio vs. frequency (v out = 2.048v) max6029 toc15 frequency (khz) psrr (db) 100 10 1 -50 -40 -30 -20 -10 0 -60 0.1 1000 power-supply rejection ratio vs. frequency (v out = 3v) max6029 toc16 frequency (khz) psrr (db) 100 10 1 -50 -40 -30 -20 -10 0 -60 0.1 1000 power-supply rejection ratio vs. frequency (v out = 5v) max6029 toc17 frequency (khz) psrr (db) 100 10 1 -45 -40 -35 -30 -25 -20 -15 -10 -5 0 -50 0.1 1000 typical operating characteristics (continued) (v in = 2.5v for max6029euk21, v in = 3.2v for max6029euk30, and v in = 5.2v for max6029euk50, i out = 0, t a = +25?, unless otherwise noted.) line-transient response (v out = 2.048v) max6029 toc18 200 s/div 3v 2.5v 2.048v v in 200mv/divac-coupled v out 200mv/divac-coupled downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 10 www.maximintegrated.com line-transient response (v out = 3v) max6029 toc19 200 s/div 3.7v 3.2v 3v v in 200mv/divac-coupled v out 200mv/divac-coupled line-transient response (v out = 5v) max61029 toc20 200 s/div 5.7v 5.2v 5v v in 200mv/divac-coupled v out 100mv/divac-coupled load-transient response (sourcing, v out = 2.048v) max6029 toc21 100 s/div 4ma 2.048v i out 10ma/div v out 500mv/divac-coupled c out = 0 0 load-transient response (sinking, v out = 2.048v) max6029 toc22 1ms/div 0 -1ma 2.048v i out 2ma/div v out 500mv/divac-coupled c out = 0 load-transient response (sourcing, v out = 2.048v) max6029 toc23 400 s/div 4ma 2.048v i out 10ma/div v out 500mv/divac-coupled c out = 1 f 0 load-transient response (sinking, v out = 2.048v) max6029 toc24 1ms/div 0 -1ma 2.048v i out 2ma/div v out 500mv/divac-coupled c out = 1 f typical operating characteristics (continued) (v in = 2.5v for max6029euk21, v in = 3.2v for max6029euk30, and v in = 5.2v for max6029euk50, i out = 0, t a = +25?, unless otherwise noted.) downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 11 www.maximintegrated.com load-transient response (sinking, v out = 5v) max6029 toc28 2ms/div 0 -1ma 5v i out 1ma/div v out 1v/divac-coupled c out = 1 f turn-on transient (v out = 2.048v) max6029 toc29 200 s/div 2.5v 2.048v v in 1v/div v out 1v/div 0 0 turn-on transient (v out = 3v) max6029 toc30 200 s/div 3.2v 3v v in 2v/div v out 1v/div 00 load-transient response (sourcing, v out = 5v) max6029 toc25 400 s/div 4ma 5v i out 10ma/div v out 500mv/divac-coupled c out = 0 0 load-transient response (sinking, v out = 5v) max6029 toc26 2ms/div 0 -1ma 5v i out 1ma/div v out 1v/divac-coupled c out = 0 load-transient response (sourcing, v out = 5v) 6029 toc27 400 s/div 4ma 6v i out 10ma/div v out 200mv/divac-coupled c out = 1 f 0 typical operating characteristics (continued) (v in = 2.5v for max6029euk21, v in = 3.2v for max6029euk30, and v in = 5.2v for max6029euk50, i out = 0, t a = +25?, unless otherwise noted.) downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 12 www.maximintegrated.com noise vs. frequency (v out = 5v) max6029 toc37 frequency (khz) noise ( v rms / hz ) 40 30 20 10 2 4 6 8 10 12 14 16 18 20 0 05 0 0.1hz to 10hz output noise (v out = 5v) max6029 toc34 1s/div v out 20 v/div noise vs. frequency (v out = 2.048v) max6029 toc35 frequency (khz) noise ( v rms / hz ) 40 30 10 20 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 0 05 0 noise vs. frequency (v out = 3v) max6029 toc36 frequency (khz) noise ( v rms / hz ) 40 30 20 10 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 0 05 0 0.1hz to 10hz output noise (v out = 2.048v) max6029 toc32 1s/div v out 10 v/div 0.1hz to 10hz output noise (v out = 3v) max6029 toc33 1s/div v out 10 v/div turn-on transient (v out = 5v) max6029 toc31 400 s/div 5.2v 5v v in 2v/div v out 2v/div 0 0 typical operating characteristics (continued) (v in = 2.5v for max6029euk21, v in = 3.2v for max6029euk30, and v in = 5.2v for max6029euk50, i out = 0, t a = +25?, unless otherwise noted.) downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 13 www.maximintegrated.com applications information input bypassing the max6029 does not require an input bypass capac- itor. for improved transient performance, bypass the input to ground with a 0.1? ceramic capacitor. place the capacitor as close to in as possible. load capacitance the max6029 does not require an output capacitor for stability. the max6029 is stable driving capacitive loads from 0 to 100pf and 0.1? to 10? when sourc- ing current and from 0 to 0.4? when sinking current. in applications where the load or the supply can experi- ence step changes, an output capacitor reduces the amount of overshoot (undershoot) and improves the cir- cuit? transient response. many applications do not require an external capacitor, and the max6029 offers a significant advantage in applications where board space is critical. supply current the quiescent supply current of the series-mode max6029 is very small, 5.25? (max), and is very sta- ble against changes in the supply voltage with only 1.5?/v (max) variation with supply voltage. the max6029 family draws load current from the input volt-age source only when required, so supply current is not wasted and efficiency is maximized at all input volt- ages. this improved efficiency reduces power dissipa- tion and extends battery life. output thermal hysteresis output thermal hysteresis is the change of the output voltage at t a = +25? before and after the device is cycled over its entire operating temperature range.hysteresis is caused by differential package stress appearing across the device. temperature coefficient vs. operating temperature range for a 1lsb 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 temper- ature 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 parame- ter. the graph assumes the reference-voltage tempera-ture 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, off- set error, gain error, as well as voltage reference changes. turn-on time these devices turn on and settle to within 0.1% of their final value in less than 1ms. the turn-on time increases when heavily loaded and operating close to dropout. pin sot23 so name function 1 2 in positive voltage supply 2 4 gnd ground 3, 4 1, 3, 5, 7, 8 n.c. no connection. leaveunconnected or connect to ground. 5 6 out reference output temperature coefficient (ppm/ c) 11 0 100 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) figure 1. temperature coefficient vs. operating temperature range for a 1 lsb maximum error pin description downloaded from: http:/// max6029 ultra-low-power precision series voltage reference maxim integrated | 14 www.maximintegrated.com out gnd in max6029 v in = 2.5v to 12.6v *capacitor is optional. * typical operating circuit chip information process: bicmos package information for the latest package outline information and land patterns (foot-prints), go to www.maximintegrated.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. package type package code outline no. land pattern no. 5 sot23 u5+1 21-0057 90-0174 8 so s8+2 21-0041 90-0096 downloaded from: http:/// maxim integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim integrated product. no circuit patent licenses are implied. maxim integrated 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 guidance. maxim integrated and the maxim integrated logo are trademarks of maxim integrated products, inc. � 2009 maxim integrated products, inc. | 15 max6029 ultra-low-power precision series voltage reference for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim integrateds website at www.maximintegrated.com. revision history reision number reision date description pages changed 0 7/03 initial release ? 1 8/06 added so package 1, 2, 14, 15 2 11/06 updated voltage output limits 3, 6 3 1/09 added lead-free notation to ordering information 1 downloaded from: http:/// |
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