View MAX6023EBK50-T_6884417.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

general description the max6023 is a family of low-dropout, micropower voltage references in a 5-bump chip-scale (ucsp) package. the max6023 series-mode (three-terminal) references, which operate with input voltages from 2.5v to 12.6v (1.25v and 2.048v options) or (v out + 0.2v) to 12.6v (all other voltage options), are available with out- put voltage options of 1.25v, 2.048v, 2.5v, 3.0v, 4.096v, 4.5v, and 5.0v. these devices are guaranteed an initial accuracy of ?.2% and 30ppm/? tempera- ture drift over the -40? to +85? extended temperature range. ucsps offer the benefit of moving to smaller footprint and lower profile devices, significantly smaller than even sc70 or sot23 plastic surface-mount packages. the significantly lower profile (compared to plastic smd packages) of the ucsp makes the device ideal for height-critical applications. miniature ucsp packages also enable device placement close to sources and allow more flexibility in a complex or large design layout. the max6023 voltage references use only 27? of sup- ply current. and unlike shunt-mode (two-terminal) refer- ences, the supply current of the max6023 family varies only 0.8?/v with supply-voltage changes, translating to longer battery life. additionally, these internally compen- sated devices do not require an external compensation capacitor and are stable up to 2.2nf of load capaci- tance. the low-dropout voltage and the low supply cur- rent make these devices ideal for battery-operated systems. applications hand-held equipment data acquisition systems industrial and process control systems battery-operated equipment hard-disk drives features 5-bump ucsp package (1.0mm ? 1.5mm ? 0.3mm) no output capacitor needed ?.2% (max) initial accuracy 30ppm/? (max) temperature coefficient 35? (max) quiescent supply current 0.8?/v (max) supply current variation with v in 100mv dropout at 500? load current line regulation: 160?/v (max) output voltage options: 1.25v, 2.048v, 2.5v, 3.0v, 4.096v, 4.5v, 5.0v max6023 precision, low-power, low-dropout, ucsp voltage reference ________________________________________________________________ maxim integrated products 1 ordering information max6023 * *capacitor is optional. reference out out in gnd +supply input (see selector guide) typical operating circuit 19-2182; rev 0; 10/01 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. ucsp is a trademark of maxim integrated products, inc. part temp. range bump- package top mark max6023ebk12-t -40 c to +85 c 5 ucsp*-5 aao max6023ebk21-t -40 c to +85 c 5 ucsp*-5 aat max6023ebk25-t -40 c to +85 c 5 ucsp*-5 aap max6023ebk30-t -40 c to +85 c 5 ucsp*-5 aas max6023ebk41-t -40 c to +85 c 5 ucsp*-5 aaq max6023ebk45-t -40 c to +85 c 5 ucsp*-5 aar MAX6023EBK50-T -40 c to +85 c 5 ucsp*-5 aau pin configuration appears at end of data sheet. *ucsp reliability is integrally linked to the user? assembly meth- ods, circuit board material, and environment. see the ucsp reliability notice in the ucsp reliability section of this data sheet for more information. part v out (v) input voltage (v) max6023ebk12 1.250 2.5v to 12.6 max6023ebk21 2.048 2.5v to 12.6 max6023ebk25 2.500 (v out + 200mv) to 12.6 max6023ebk30 3.000 (v out + 200mv) to 12.6 max6023ebk41 4.096 (v out + 200mv) to 12.6 max6023ebk45 4.500 (v out + 200mv) to 12.6 max6023ebk50 5.000 (v out + 200mv) to 12.6 selector guide
max6023 precision, low-power, low-dropout, ucsp voltage reference 2 _______________________________________________________________________________________ absolute maximum ratings electrical characteristics max6023ebk12 (v out = 1.250v) (v in = +5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25 c.) (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. (voltages referenced to gnd) in .........................................................................-0.3v to +13.5v out .............................................................-0.3v to (v in + 0.3v) output short circuit to gnd or in (v in < 6v) ............continuous output short circuit to gnd or in (v in 6v) .........................60s continuous power dissipation (t a = +70 c) 5-bump ucsp (derate 3.4mw/ c above +70 c)........273mw operating temperature range ..........................-40 c to +85 c storage temperature range .............................-65 c to +150 c bump temperature (soldering, 10s)................................+300 c parameter symbol conditions min typ max units output output voltage v out t a = +25 c 1.247 1.250 1.253 v initial voltage accuracy t a = +25 c -0.24 +0.24 % output voltage temperature coefficient (note 3) 10 30 ppm/ c line regulation ? v out / ? v in 2.5v v in 12.6v 10 80 v/v 0 i out 400a 0.4 1.0 load regulation ? v out / ? i out -400a i out 0 0.5 1.1 v/a short to gnd 4 short-circuit current i sc short to in 10 ma temperature hysteresis (note 4) 90 ppm long-term stability ? v out / time 1000hr at t a = +25 c30 ppm/ 1000hr dynamic characteristics f = 0.1hz to 10hz 25 vp-p noise voltage e out f = 10hz to 10khz 65 v rms ripple rejection ? v out / ? i out v in = +5v 100mv, f = 120hz 86 db turn-on settling time t r to v out within 0.1% of final value, c out = 50pf 30 s capacitive-load stability range c out (note 3) 0 2.2 nf input supply-voltage range v in guaranteed by line-regulation test 2.5 12.6 v supply current i in 27 35 a change in supply current ? i in / ? v in 2.5v v in 12.6v 0.8 2.0 a/v note 1: this device is constructed using a unique set of packaging techniques that impose a limit on the thermal profile the device can be exposed to during board-level solder attach and rework. this limit permits only the use of solder profiles recom- mended in the industry-standard specification, jedec 020a, paragraph 7.6, table 3 for ir/vpr and convection reflow. preheating is required. hand or wave soldering is not allowed.
max6023 precision, low-power, low-dropout, ucsp voltage reference _______________________________________________________________________________________ 3 electrical characteristics max6023ebk21 (v out = 2.048v) (v in = +5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25 c.) (note 2) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 2.044 2.048 2.052 v initial voltage accuracy t a = +25 c -0.20 +0.20 % output voltage temperature coefficient (note 3) 10 30 ppm/ c line regulation ? v out / ? v in 2.5v v in 12.6v 20 100 v/v 0 i out 500a 0.5 1.4 load regulation ? v out / ? i out -500a i out 0 0.3 0.70 v/a short to gnd 4 short-circuit current i sc short to in 10 ma temperature hysteresis (note 4) 90 ppm long-term stability ? v out / time 1000hr at t a = +25 c50 ppm/ 1000hr dynamic characteristics f = 0.1hz to 10hz 40 vp-p noise voltage e out f = 10hz to 10khz 105 v rms ripple rejection ? v out / ? i out v in = +5v 100mv, f = 120hz 82 db turn-on settling time t r to v out within 0.1% of final value, c out = 50pf 85 s capacitive-load stability range c out (note 3) 0 2.2 nf input supply-voltage range v in guaranteed by line-regulation test 2.5 12.6 v supply current i in 27 35 a change in supply current ? i in / ? v in 2.5v v in 12.6v 0.8 2.0 a/v
max6023 precision, low-power, low-dropout, ucsp voltage reference 4 _______________________________________________________________________________________ electrical characteristics-max6023ebk25 (v out = 2.500v) (v in = +5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25 c.) (note 2) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 2.495 2.5 2.505 v initial voltage accuracy t a = +25 c -0.20 +0.20 % output voltage temperature coefficient (note 3) 10 30 ppm/ c line regulation ? v out / ? v in (v out + 0.2v) v in 12.6v 25 140 v/v 0 i out 500a 0.5 1.4 load regulation ? v out / ? i out -500a i out 0 0.3 0.8 v/a short to gnd 4 short-circuit current i sc short to in 10 ma dropout voltage ( v in - v ou t ) i out = 500a (note 5) 100 200 mv temperature hysteresis (note 4) 90 ppm long-term stability ? v out / time 1000hr at t a = +25 c50 ppm/ 1000hr dynamic characteristics f = 0.1hz to 10hz 60 vp-p noise voltage e out f = 10hz to 10khz 125 v rms ripple rejection ? v out / ? i out v in = +5v 100mv, f = 120hz 82 db turn-on settling time t r to v out within 0.1% of final value, c out = 50pf 85 s capacitive-load stability range c out (note 3) 0 2.2 nf input supply-voltage range v in guaranteed by line-regulation test v out + 0.2 12.6 v supply current i in 27 35 a change in supply current ? i in / ? v in (v out + 0.2v) v in 12.6v 0.8 2.0 a/v
max6023 precision, low-power, low-dropout, ucsp voltage reference _______________________________________________________________________________________ 5 electrical characteristics max6023ebk30 (v out = 3.000v) (v in = +5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25 c.) (note 2) parameter symbol conditions min typ max units output voltage v out t a = +25 c 2.994 3.000 3.006 v initial voltage accuracy t a = +25 c -0.20 +0.20 % output voltage temperature coefficient (note 3) 10 30 ppm/ c line regulation ? v out / ? v in (v out + 0.2v) v in 12.6v 40 140 v/v 0 i out 500a 0.7 1.5 load regulation ? v out / ? i out -500a i out 0 0.4 0.8 v/a dropout voltage (v in - v out ) i out = 500a (note 5) 100 200 mv short to gnd 4 short-circuit current i sc short to in 10 ma temperature hysteresis (note 4) 90 ppm long-term stability ? v out / time 1000hr at t a = +25 c50 ppm/ 1000hr dynamic characteristics f = 0.1hz to 10hz 75 vp-p noise voltage e out f = 10hz to 10khz 150 v rms ripple rejection ? v out / ? v in v in = +5v 100mv, f = 120hz 82 db turn-on settling time t r to v out within 0.1% of final value, c out = 50pf 85 s capacitive-load stability range c out (note 3) 0 2.2 nf input supply-voltage range v in guaranteed by line-regulation test v out + 0.2 12.6 v supply current i in 27 35 a change in supply current ? i in / ? v in (v out + 0.2v) v in 12.6v 0.8 2.0 a/v
max6023 precision, low-power, low-dropout, ucsp voltage reference 6 _______________________________________________________________________________________ electrical characteristics max6023ebk41 (v out = 4.096v) (v in = +5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25 c.) (note 2) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 4.088 4.096 4.104 v initial voltage accuracy t a = +25 c -0.20 +0.20 % output voltage temperature coefficient (note 3) 10 30 ppm/ c line regulation ? v out / ? v in (v out + 0.2v) v in 12.6v 50 160 v/v 0 i out 500a 1.0 1.8 load regulation ? v out / ? i out -500a i out 0 0.3 0.9 v/a dropout voltage (v in - v out ) i out = 500a (note 5) 100 200 mv short to gnd 4 short-circuit current i sc short to in 10 ma temperature hysteresis (note 4) 90 ppm long-term stability ? v out / time 1000hr at t a = +25 c50 ppm/ 1000hr dynamic characteristics f = 0.1hz to 10hz 100 vp-p noise voltage e out f = 10hz to 10khz 200 v rms ripple rejection ? v out / ? v in v in = +5v 100mv, f = 120hz 77 db turn-on settling time t r to v out within 0.1% of final value, c out = 50pf 160 s capacitive-load stability range c out (note 3) 0 2.2 nf input supply-voltage range v in guaranteed by line-regulation test v out + 0.2 12.6 v supply current i in 27 35 a change in supply current ? i in / ? v in (v out + 0.2v) v in 12.6v 0.8 2.0 a/v
max6023 precision, low-power, low-dropout, ucsp voltage reference _______________________________________________________________________________________ 7 electrical characteristics max6023ebk45 (v out = 4.500v) (v in = +5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25 c.) (note 2) parameter symbol conditions min typ max units output output voltage v out t a = +25 c 4.491 4.500 4.509 v initial voltage accuracy t a = +25 c -0.20 +0.20 % output voltage temperature coefficient (note 3) 10 30 ppm/ c line regulation ? v out / ? v in (v out + 0.2v) v in 12.6v 50 160 v/v 0 i out 500a 1.0 2.0 load regulation ? v out / ? i out -500a i out 0 0.3 1.0 v/a dropout voltage (v in - v out ) i out = 500a (note 5) 100 200 mv short to gnd 4 short-circuit current i sc short to in 10 ma temperature hysteresis (note 4) 90 ppm long-term stability ? v out / time 1000hr at t a = +25 c50 ppm/ 1000hr dynamic characteristics f = 0.1hz to 10hz 110 vp-p noise voltage e out f = 10hz to 10khz 215 v rms ripple rejection ? v out / ? v in v in = +5v 100mv, f = 120hz 82 db turn-on settling time t r to v out within 0.1% of final value, c out = 50pf 85 s capacitive-load stability range c out (note 3) 0 2.2 nf input supply-voltage range v in guaranteed by line-regulation test v out + 0.2 12.6 v quiescent supply current i in 27 35 a change in supply current ? i in / ? v in (v out + 0.2v) v in 12.6v 0.8 2.0 a/v
note 2: devices are 100% production tested at t a = +25 c and are guaranteed by design from t a = t min to t max . note 3: guaranteed by design. note 4: temperature hysteresis is defined as the change in t a = +25 c output voltage before and after temperature cycling of the device from t a = t min to t max . note 5: dropout voltage is the minimum input voltage at which v out changes 0.2% from v out at v in = +5.0v (v in = +5.5v for max6023ebk50). max6023 precision, low-power, low-dropout, ucsp voltage reference 8 _______________________________________________________________________________________ electrical characteristics max6023ebk50 (v out = 5.000v) (v in = +5.5v, i out = 0, t a = t min to t max , unless otherwise noted. typical values are at t a = +25 c.) (note 2) parameter symbol conditions min typ max units output voltage v out t a = +25 c 4.990 5.0 5.010 v initial voltage accuracy t a = +25 c -0.20 +0.20 % output voltage temperature coefficient (note 3) 10 30 ppm/ c line regulation ? v out / ? v in (v out + 0.2v) v in 12.6v 50 160 v/v 0 i out 500a 1.2 2.2 load regulation ? v out / ? i out -500a i out 0 0.3 1.1 v/a dropout voltage (v in - v out ) i out = 500a (note 5) 100 200 mv short to gnd 4 short-circuit current i sc short to in 10 ma temperature hysteresis (note 4) 90 ppm long-term stability ? v out / time 1000hr at t a = +25 c50 ppm/ 1000hr dynamic characteristics f = 0.1hz to 10hz 120 vp-p noise voltage e out f = 10hz to 10khz 240 v rms ripple rejection ? v out / ? v in v in = +5v 100mv, f = 120hz 72 db turn-on settling time t r to v out within 0.1% of final value, c out = 50pf 220 s capacitive-load stability range c out (note 3) 0 2.2 nf input supply-voltage range v in guaranteed by line-regulation test v out + 0.2 12.6 v quiescent supply current i in 27 35 a change in supply current ? i in / ? v in 2.5v v in 12.6v 0.9 2.0 a/v
max6023 precision, low-power, low-dropout, ucsp voltage reference _______________________________________________________________________________________ 9 1.2470 1.2480 1.2475 1.2490 1.2485 1.2505 1.2500 1.2495 1.2510 -40 0 -20 20 40 60 80 100 max6023ebk12 output voltage temperature drift max6023 toc01 temperature drift ( c) v out (v) three typical parts 4.986 4.990 4.988 4.996 4.994 4.992 5.002 5.000 4.998 5.004 -40 0 20 -20 40 60 80 100 max6023ebk50 output voltage temperature drift max6023 toc02 temperature drift ( c) v out (v) three typical parts 4.993 4.995 4.994 4.999 4.998 4.997 4.996 5.002 5.001 5.000 5.003 0 300 400 500 100 200 600 700 800 900 1000 max6023ebk50 long-term drift max6023 toc03 time (hr) output voltage (v) three typical parts -100 0 200 100 300 400 26 4 8 10 12 14 max6023ebk12 line regulation max6023 toc04 input voltage (v) output voltage change ( v) t a = +85 c t a = -40 c t a = +25 c -200 0 400 200 600 800 5 7 9 11 13 max6023ebk50 line regulation max6023 toc05 input voltage (v) output voltage change ( v) t a = +85 c t a = -40 c t a = +25 c 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0 200 400 600 800 1000 max6023ebk25/30 dropout voltage vs. source current max6023 toc06 source current ( a) dropout voltage (v) t a = +85 c t a = -40 c t a = +25 c -0.4 -0.2 0 0.2 0.4 -500 -250 0 250 -375 -125 125 375 500 max6023ebk12 load regulation max6023 toc07 load current ( a) output voltage change (mv) t a = +85 c t a = -40 c t a = +25 c -0.4 -0.2 0 0.2 0.4 -500 -250 0 250 -375 -125 125 375 500 max6023ebk50 load regulation max6023 toc08 load current ( a) output voltage change (mv) t a = +85 c t a = -40 c t a = +25 c 0 0.10 0.05 0.20 0.15 0.25 0.30 0 400 200 600 800 1000 max6023ebk41/45/50 dropout voltage vs. source current max6023 toc09 source current ( a) dropout voltage (v) t a = +85 c t a = -40 c t a = +25 c typical operating characteristics (v in = +5v for max6023ebk12/21/25/30/41/45, v in = +5.5v for max6023ebk50; i out = 0; t a = +25 c, unless otherwise noted.) (note 6)
max6023 precision, low-power, low-dropout, ucsp voltage reference 10 ______________________________________________________________________________________ 100 1k 10k 100k 1m 10m max6023ebk12 power-supply rejection ratio vs. frequency max6023 toc10 frequency (hz) psrr (mv/v) 100 0.01 0.1 1 10 max6023ebk50 power-supply rejection ratio vs. frequency max6023 toc11 frequency (hz) psrr (mv/v) 100 0.01 0.1 1 10 10 10k 100k 1m 100 1k 10m v in = +5.5v 0.25v 20 26 24 22 28 30 32 34 36 38 40 26 4 8 10 12 14 supply current vs. input voltage max6023 toc12 input voltage (v) supply current ( a) valid over specified v in (min) to v in (max) for each part 0.01 100 10k 1 0.1 10 1k 100k 1m max6023ebk12 output impedance vs. frequency max6023 toc13 frequency (hz) output impedance ( ? ) 0.1 1 10 100 1k 0.01 100 10k 1 0.1 10 1k 100k 1m max6023ebk50 output impedance vs. frequency max6023 toc14 frequency (hz) output impedance ( ? ) 0.1 1 10 100 1k 20 25 30 35 40 supply current vs. temperature max6023 toc15 temperature ( c) supply current ( a) -40 20 40 -20 0 60 80 100 v in = 12.5v v in = 7.5v v in = 5.5v v in = 2.5v typical operating characteristics (continued) (v in = +5v for max6023ebk12/21/25/30/41/45, v in = +5.5v for max6023ebk50; i out = 0; t a = +25 c, unless otherwise noted.) (note 6) v out 10 v/div 1s/div max6023ebk12 0.1hz to 10hz output noise max6023 toc16 v out 20 v/div 1s/div max6023ebk50 0.1hz to 10hz output noise max6023 toc17 v in 1v/div v out 1v/div 10 s/div max6023ebk12 turn-on transient max6023 toc18
max6023 precision, low-power, low-dropout, ucsp voltage reference ______________________________________________________________________________________ 11 i out 40 a/div v out 20mv/div 10 s/div max6023ebk12 load-transient response i out = 25 a max6023 toc19 i out 50 a/div v out 50mv/div 20 s/div max6023ebk50 load-transient response max6023 toc20 i out = 25 a v in 2v/div v out 2v/div 10 s/div max6023ebk50 turn-on transient max6023 toc21 typical operating characteristics (continued) (v in = +5v for max6023ebk12/21/25/30/41/45, v in = +5.5v for max6023ebk50; i out = 0; t a = +25 c, unless otherwise noted.) (note 6) v out 200v/div i out 1ma/div 10 s/div max6023ebk12 load-transient response i out = 500 a max6023 toc22 i out 500 a/div v out 200mv/div 20 s/div max6023ebk50 load-transient response max6023 toc23 i out = 500 a v in 200mv/div v out 100mv/div 2 s/div max6023ebk50 line-transient response max6023 toc25 v in = 5.5v 0.25v v in 200mv/div v out 100mv/div 2.5 s/div max6023ebk12 line-transient response max6023 toc24 v in = 5v 0.25v note 6: many of the typical operating characteristics of the max6023 family are extremely similar. the extremes of these characteristics are found in max6023ebk12 (1.25v output) and the max6023ebk50 (5.0v output). the typical operating characteristics of the remainder of the max6023 family typically lie between these two extremes and can be estimated based on their output voltage.
max6023 precision, low-power, low-dropout, ucsp voltage reference 12 ______________________________________________________________________________________ detailed description the max6023 precision bandgap references use a proprietary curvature correction circuit and laser- trimmed thin-film resistor, resulting in a low temperature coefficient of <30ppm/ c and initial accuracy of better than 0.2%. these devices can sink and source up to 500a with <200mv of dropout voltage, making them attractive for use in low-voltage applications. applications information output/load capacitance the max6023 devices do not require an output capaci- tor for dynamically stable, oscillation-free operation. they are stable for capacitive loads from 0 to 2.2nf. however, in applications where the load or the supply can experience step changes, an output capacitor reduces the amount of overshoot (or undershoot) and improves the circuit s transient response. many appli- cations do not need an external capacitor and this fam- ily offers a significant advantage in these applications when board space is critical. supply current the no-load supply current of these series-mode refer- ences is 35a maximum, and is virtually independent of the supply voltage, with only a 0.8a/v variation from the supply voltage. unlike shunt-mode references that must draw the maximum load current at all times, the load current is drawn from the input voltage source only when required, so supply current is not wasted and effi- ciency is maximized at all input voltages. this improved efficiency can help reduce power dissipation and extend battery life. when the supply voltage is below the minimum speci- fied input voltage (as during turn-on), the devices can draw up to 200a beyond the nominal supply current. the input voltage source must be capable of providing this current to ensure reliable turn-on. output voltage hysteresis output voltage 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 temperature hysteresis value is 90ppm. turn-on time these devices typically turn on and settle within 0.1% of their final value; 30s to 220s depending on the device. the turn-on time can increase up to 1.5ms with the device operating at the minimum dropout voltage and the maximum load. ucsp information ucsp package consideration for general ucsp package information and pc layout considerations, refer to the maxim application note (wafer-level ultra-chip-board-scale package). ucsp reliability the ucsp represents a unique package that greatly reduces board space compared to other packages. the chip-scale package represents a unique packag- ing form factor that may not perform as well as a pack- aged product through traditional mechanical reliability tests. ucsp reliability is integrally linked to the user s assembly methods, circuit board material, and usage environment. the user should closely review these areas when considering use of a chip-scale package. performance through operating-life test and moisture resistance remains uncompromised. the wafer-fabrica- tion process primarily determines the performance. mechanical stress performance is a greater considera- tion for chip-scale packages. chip-scale packages are attached through direct solder contact to the user s pc board, foregoing the inherent stress relief of a pack- aged product lead frame. solder joint contact integrity must be considered. comprehensive reliability tests have been performed and are available upon request. in conclusion, the ucsp performs reliably through envi- ronmental stresses. bump name function a1, a3 i.c. internally connected. do not connect to this pin. a2 gnd ground b1 out input voltage b3 in reference output pin description
chip information transistor count: 70 max6023 precision, low-power, low-dropout, ucsp voltage reference 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 ____________________ 13 ? 2001 maxim integrated products printed usa is a registered trademark of maxim integrated products. package information in i.c. i.c. gnd out ucsp b1 a1 b3 a3 a2 max6023 top view (bumps on bottom) pin configuration 6l, ucsp.eps.eps

▲Up To Search▲

Price & Availability of MAX6023EBK50-T

	To Download MAX6023EBK50-T Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .