MAXIM MAX6061 MAX6068 Precision Micropower Low-Dropout High-Output-Current SOT23 Voltage References handbook
Contents
1. MAXIM FREQUENCY kHz 6061 68 toc15 0 110 115 10 E 5 110 20 3 100 n 105 30 S a 100 40 9 2 gt gt 95 50 amp 2 a wn 60 80 a 85 80 70 80 0 001 01 0 000 2 4 6 8 10 1 5 7 9 11 FREQUENCY kHz INPUT VOLTAGE V INPUT VOLTAGE V MAX6061 MAX6065 MAX6061 SUPPLY CURRENT SUPPLY CURRENT OUTPUT IMPEDANCE vs TEMPERATURE vs TEMPERATURE vs FREQUENCY 120 2 115 z 220 110 8 5 180 gt E S 160 E 400 Vin 7 5V E 1 8 D 120 2 g 100 g 9 B 5 a cc a 95 a gt Vin 25V Vin 5 5V S 60 80 40 20 70 85 0 40 5 10 35 6 85 40 15 10 35 60 85 0 001 04 10 TEMPERATURE TEMPERATURE C FREQUENCY kHz MAX6065 OUTPUT IMPEDANCE MAX6061 MAX6065 vs FREQUENCY 0 1Hz TO 10Hz OUTPUT NOISE NOISE 180 2 160 8 140 8 5 120 amp g 10 Vout Vou a 10uV div 10pV div 60 40 20 0 001 01 0 1000 1s div 1s div 000 MAX6061 68 toc18 11 8909XVM 1909XVI2. 0 031 0 047 0 787 1194 A1 0 001 0 005 0 025 0127 B 0 014 0 022 0 356 0 559 C 0 0034 0 006 0 086 0 152 D 0105 0120 2 667 3 048 E 0 047 0 055 1194 1 397 TIRE ME 0 070 0 080 1 778 2 032 0 082 0 098 2 083 2 489 L 0 004 0012 0 102 0 305 S 0017 00282 0 438 0 559 5 a 0 8 0 8 C Tine MAXIM ze pe PACKAGE OUTLINE SOT 23 3L APPROVAL DOCUMENT CONTROL NO REV 1 21 0051 C A Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product No circuit patent licenses are implied Maxim reserves the right to change the circuitry and specifications without notice at any time 16 Maxim Integrated Products 120 San Gabriel Drive Sunnyvale CA 94086 408 737 7600 2001 Maxim Integrated Products Printed USA MAXIM is a registered trademark of Maxim Integrated Products
3. 40 45 10 3 86 8 40045010 35 86 8 2 4 6 8 1 TEMPERATURE TEMPERATURE INPUT VOLTAGE V MAX6065 MAX6061 MAX6065 LINE REGULATION LOAD REGULATION LOAD REGULATION 200 5 X 8 8 god 5 4 E 10 g 8 E 40 E S Ta 8596 z 8 2 51 200 m T 2 6 400 Ta 85 C 5 5 E gt 600 4 s 40 0 2 Tas 2590 0 Ta 425 C gt 800 z 5 0 E 4 o o 3 2 1000 4 1200 3 6 5 7 9 11 13 4 2 0 2 4 6 4 2 0 2 4 6 NPUT VOLTAGE V LOAD CURRENT mA LOAD CURRENT mA MAX6066 MAX6065 MAX6061 DROPOUT VOLTAGE DROPOUT VOLTAGE POWER SUPPLY REJECTION RATIO vs LOAD CURRENT vs LOAD CURRENT vs FREQUENCY 5 025 a E 020 3 E 30 A 2 015 amp m gt gt 5 5 5 50 2 010 5 g 60 ES 0 05 70 80 0 90 0 1 2 3 4 5 0 001 001 01 10 100 1000 LOAD CURRENT mA LOAD CURRENT mA FREQUENCY kHz 10 MAKI MAX6065 Precision Micropower Low Dropout High Output Current SOT23 Voltage References POWER SUPPLY REJECTION RATIO vs FREQUENCY Typical Operating Characteristics continued VIN 5V for 6061 6068 5 5V for MAX6065 louT 0 TA 25 unless otherwise noted Note 5 MAX6061 SUPPLY CURRENT vs INPUT VOLTAGE MAX6065 SUPPLY CURRENT vs INPUT VOLTAGE 6061 68 10212
4. 2mA MAX6061 68 toc25 2mA lout 5mA div 2mA Vour AC COUPLED 100mV div 400us div MAX6061 LOAD TRANSIENT Vin 5 0V Cy 1uF lout 2mA MAX6061 68 10 27 2mA lout 5mA div 2mA Vout AC COUPLED 50mV div 400us div MAX6061 LOAD TRANSIENT Vin 5 0V 0 lout 4mA MAX6061 68 toc29 4mA lour 5mA div Vour AC COUPLED 200mV div 400us div MAXIM MAX6065 LOAD TRANSIENT 0 lout 2mA Viy 5 5V MAX6061 68 toc26 2mA lout 5mA div 2mA Vour AC COUPLED 50mV div 400us div MAX6065 LOAD TRANSIENT 1uF lout 2mA Vin 5 5V MAX6061 68 toc28 2mA lout 5mA div 2 Vour AC COUPLED 20mV div 400us div MAX6065 LOAD TRANSIENT lout 5mA 0 Vin 5 5V MAX6061 68 toc30 5 lour 5mA div 5mA Vour AC COUPLED 100mV div 400us div 13 8909XVM 1909XVIN Precision Micropower Low Dropout High Output Current SOT23 Voltage References Typical Operating Characteristics continued MAX6061 MAX6068 MAX6061 LOAD TRANSIENT Vin 5 0V 1uF lour 4mA MAX6061 68 toc31 VIN 5V for 6061 6068 VIN 5 5V for MAX6065 louT 0 TA 25 C unless otherwise noted Note 5 MAX6065 LOAD TRANSIENT lout 5mA 1uF Vin 5 5V MAX6061 68 toc32 4mA omA lout lout 5mA div 5mA div 4mA 5mA Vour AC COUPLED Vout 50mV div pest m IV 400us div 400ps div MA
5. 4 500 4 509 Output Voltage TA 25 V MAX6067B 0 496 4 482 4 500 4 518 Output Voltage Temperature MAX6067A 6 20 o Coefficient Note 2 TCVour MAX6067B 6 30 Line Regulation Vout 0 2V Vin lt 12 6V 170 550 Sourcing 0 lt I lt 5 0 5 0 9 Load Regulation AVour pouT mV mA AlouT Sinking 2mA lt lour lt 0 24 8 VIN Dropout Voltage Note 4 MN loUT 1mA 50 200 mV 12522 Short to GND 25 OUT Short Circuit Current Isc mA Short to IN 25 AVour ppm Long Term Stability 1000hr at 25 C 62 1000hr Output Voltage Hysteresis AVOUT Note 3 cycle 130 ppm DYNAMIC CHARACTERISTICS f 0 1Hz to 10Hz 55 puVp p Noise Voltage f 2 10Hz to 10kHz 55 UVRMS Ripple Rejection p Vin 5V 100mV f 120Hz 70 Turn On Settling Time tR To VouT 0 196 of final value Cour 50pF 230 us INPUT CHARACTERISTICS Supply Voltage Range VIN Guaranteed by line regulation test VouT 0 2 12 6 V Quiescent Supply Current IIN 90 125 Change Supply Current liN ViN VouT 0 2V lt lt 12 6V 3 2 8 0 JUAN MAXIM Precision Micropower Low Dropout High Output Current SOT23 Voltage References ELECTRICAL CHARACTERISTICS MAX6065 VouT 5 000V VIN 5 2V lout 0 TA to Tmax unless otherwise noted Typical values are at TA 25 C Note 1 PARAMETER SYMBOL CONDITIO
6. MARK MAX6067AEUR T 40 C to 85 C 3 SOT23 3 FZFS MAX6067BEUR T 40 C to 85 C 3 SOT23 3 2 MAX6068AEUR T 40 C to 85 C 3 50723 3 FZIB MAX6068BEUR T 40 C to 85 C 3 50723 3 Output Voltage Hysteresis Output voltage hysteresis is the change of output voltage at TA 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 tem perature hysteresis value is 130ppm Turn On Time These devices typically turn on and settle to within O 196 of their final value 50us to 300ys 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 Chip Information TRANSISTOR COUNT 117 PROCESS BiCMOS 15 8909XVM 1909XVIN MAX6061 MAX6068 Precision Micropower Low Dropout High Output Current SOT23 Voltage References Package Information SOTPOSL EPS NOTES 1 D amp E DO NOT INCLUDE MOLD FLASH INCHES MILLIMETERS 2 MOLD FLASH OR PROTRUSIONS NOT TO EXCEED 15mm 0067 DIM MIN AX MIN MAX 3 CONTROLLING DIMENSION MILLIMETER
7. Output Voltage Temperature MAX6064A 6 20 Coefficient Note 2 TCVour MAX6064B 6 30 Line Regulation piod Vout 0 2V lt Vin lt 12 6V 130 430 HVA Sourcing O lt I lt 5mA 0 5 0 9 Load Regulation AVour 9 an mV mA AlouT Sinking 2mA lt lout lt 0 2 2 8 VIN D t Volt Note 4 1mA 50 200 V ropout Voltage Note 4 OUT m Short to GND 25 OUT Short Circuit Current Isc mA Short to IN 25 o ppm Long Term Stability ime 1000hr at 25 C 62 1000hr Output Voltage Hysteresis AVOUT Note 3 cycle 130 ppm DYNAMIC CHARACTERISTICS f 0 1Hz to 10Hz 50 uVp p Noise Voltage COUT f 10Hz to 10kHz 50 D VRMS Ripple Rejection 2M VIN 5V 100mV f 120Hz 72 dB Turn On Settling Time tR To Vour 0 1 of final value Cour 50pF 190 us INPUT CHARACTERISTICS Supply Voltage Range VIN Guaranteed by line regulation test Vour 0 2 12 6 V Quiescent Supply Current IIN 90 125 Change Supply Current liN VIN Vour 0 2V ViN 12 6V 3 2 8 0 pA V MAXI 7 8909XVM 1909XVIN MAX6061 MAX6068 Precision Micropower Low Dropout High Output Current SOT23 Voltage References ELECTRICAL CHARACTERISTICS MAX6067 VouT 4 500V ViN 5V lout 0 TA Tmin to Tmax unless otherwise noted Typical values are at TA 25 C Note 1 PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS MAX6067A 0 2 4 491
8. 19 1659 Rev 1 4 01 AVLAZXLAI Precision Micropower Low Dropout High Output Current SOT23 Voltage References General Description The 6061 6068 are precision low dropout micropower voltage references These three terminal devices are available with output voltage options of 1 25V 1 8V 2 048V 2 5V 3V 4 096V 4 5V and 5V They feature a proprietary curvature correction circuit and laser trimmed thin film resistors that result in a very low temperature coefficient of 20ppm C max and an initial accuracy of 0 2 max Specifications apply to the extended temperature range 40 C to 85 The 6061 6068 typically draw only 90uA of supply current and can source 5mA or sink 2mA of load current Unlike conventional shunt mode two terminal references that waste supply current and require an external resistor these devices offer a supply current that is virtually independent of the supply voltage 8uA V variation and do not require an external resis tor Additionally the internally compensated devices do not require an external compensation capacitor Eliminating the external compensation capacitor saves valuable board area in space critical applications Low dropout voltage and supply independent ultra low sup ply current make these devices ideal for battery operat ed high performance low voltage systems The 6061 6068 are available in a 3 pin SOT23 package Applications Anal
9. 3 MAX6068B 0 39 1 793 1 800 1 807 Output Voltage Temperature MAX6068A Coefficient Note 2 MAX6068B Output Voltage VOUT Ta 25 C Line Regulation 2 5V VIN gt 12 6V Sourcing 0 IOUT 5mA Load Regulation Sinking 2mA lt louT lt 0 Short to GND OUT Short Circuit Current Isc mA Short to IN AVOUT ppm im 1000hr at 25 153857 Output Voltage Hysteresis Note 3 AVouUT cycle DYNAMIC CHARACTERISTICS f 0 1Hz to 10Hz 22 f 10Hz to 10kHz 25 Long Term Stability Noise Voltage Ripple Rejection 86 Turn On Settling Time INPUT CHARACTERISTICS Supply Voltage Range 2 5 Quiescent Supply Current Change in Supply Current MAXIM 3 8909XVM 1909XVIN MAX6061 MAX6068 Precision Micropower Low Dropout High Output Current SOT23 Voltage References ELECTRICAL CHARACTERISTICS MAX6062 VOUT 2 048V VIN 5V lout 0 TA Tmin to Tmax unless otherwise noted Typical values are at TA 25 C Note 1 PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS T 25 MAX6062A 0 24 2 043 2 048 2 053 utput Voltage T 9 ouy ups 6062 0 39 2 040 2 048 2 056 Output Voltage Temperature MAX6062A 6 20 Coefficient Note 2 TCVour MAX6062B 6 30 Line Regulation ed 2 5V VIN lt 12 6V 33 200 So
10. N MAX6061 MAX6068 Precision Micropower Low Dropout High Output Current SOT23 Voltage References Typical Operating Characteristics continued MAX6061 TURN ON TRANSIENT 50 6061 68 toc19 Vour 500mV div ViN 5V div 10us div MAX6061 LOAD TRANSIENT lout 250uA Vin 5 0 0 MAX6061 68 toc21 lour 250 lout lout 500uA div 2500A Vour AC COUPLED 100mV div 400us div MAX6061 LOAD TRANSIENT lout 250 Vin 5 0V 1uF MAX6061 68 toc23 250pA lout 500uA div 2504A Vour AC COUPLED 10mV div 400us div 12 VIN 5V for 6061 6068 VIN 5 5V for MAX6065 louT 0 TA 25 C unless otherwise noted Note 5 MAX6065 TURN ON TRANSIENT 50 MAX6061 68 toc20 VOUT 2V div ViN 5V div 40us div MAX6065 LOAD TRANSIENT lout 250uA 0 Vin 5 5V MAX6061 68 toc22 250pA lour 500uA div Vout AC COUPLED 50mV div 400us div MAX6065 LOAD TRANSIENT lout 250uA Cy 1uF Vin 5 5V MAX6061 68 toc24 250 lour 500uA div 250A Vour AC COUPLED 20mV div 400us div AVLAZCLAVI Precision Micropower Low Dropout High Output Current SOT23 Voltage References Typical Operating Characteristics continued VIN 5V for 6061 6068 5 5V for MAX6065 louT 0 TA 25 C unless otherwise noted Note 5 MAX6061 LOAD TRANSIENT Vin 5 0V 0 lout
11. NS MIN TYP MAX UNITS MAX6065A 0 2 4 990 5 000 5 010 Output Voltage VOUT Ta 25 C V MAX6065B 0 496 4 980 5 000 5 020 Output Voltage Temperature MAX6065A 6 20 Coefficient Note 2 TCVour MAX6065B 6 30 Line Regulation PU Vout 0 2V lt Vin lt 12 6V 180 550 VV Sourcing 0 I lt 5mA 0 5 0 9 Load Regulation AVour 9 QUI mV mA AlouT Sinking 2mA x lout lt 0 2 4 8 0 VIN Dropout Voltage Note 4 1 50 200 ropout Voltage Note 4 VouT OUT Short to GND 25 OUT Short Circuit Current Isc mA Short to IN 25 T AVOUT o ppm Long Term Stability tiie 1000hr at 25 C 62 1000hr Output Voltage Hysteresis AVOUT Note 3 cycle 130 DYNAMIC CHARACTERISTICS f 0 1Hz to 10Hz 60 uVp p Noise Voltage f 2 10Hz to 10kHz 60 HVRMS Ripple Rejection 2 VIN 5V 100 f 120Hz 65 dB Turn On Settling Time tR To 0 1 of final value Cour 50pF 300 us INPUT CHARACTERISTICS Supply Voltage Range VIN Guaranteed by line regulation test VouT 0 2 12 6 V Quiescent Supply Current IIN 90 125 Change Supply Current liN ViN VouT 0 2V lt lt 12 6V 3 2 8 0 BAN Note 1 devices 100 production tested at TA 25 and are guaranteed by design Note 2 Temperature Coefficient is measured by the box method i e the maximum AVour is divided by the maximum AT Or TA TMIN to Tmax as specified Note 3 Temperature Hystere
12. Sa mV mA AlouT Sinking 2mA x lout lt 0 1 6 5 VIN D t Volt Note 4 1mA 50 200 mV ropout Voltage Note 4 VouT OUT 1m M Short to GND 25 OUT Short Circuit Current 5 mA Short to IN 25 i AVouT ppm Long Term Stability time 1000hr at 25 62 1000hr Output Voltage Hysteresis AVouT Note 3 cycle 190 DYNAMIC CHARACTERISTICS f 0 1Hz to 10Hz 27 uVp p Noise Voltage GOUT f 10Hz to 10kHz 30 UVRMS Ripple Rejection VIN 5V 100 f 120Hz 86 dB Turn On Settling Time tR To 0 1 of final value Cour 50pF 115 us INPUT CHARACTERISTICS Supply Voltage Range VIN Guaranteed by line regulation test Vour 0 2 12 6 V Quiescent Supply Current IIN 90 125 Change Supply Current liN ViN Vour 0 2V lt lt 12 6V 3 3 8 0 JUAN MAXIM 5 8909XVM 1909XVIN MAX6061 MAX6068 Precision Micropower Low Dropout High Output Current SOT23 Voltage References ELECTRICAL CHARACTERISTICS MAX6063 VouT 3 0V VIN 5V lout 0 TA Tmin to Tmax unless otherwise noted Typical values are at TA 25 C Note 1 PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Output Volt V T 25 MAX6063A 0 2 2 994 3 000 3 006 utput Voltage 25 P E OUT 6063 0 496 2 988 3 000 3 012 Output Voltage Temperature MAX6063A 6 20 Coefficient Note 2 TCVour MAX6063B 6 30 Line Regulatio
13. X6061 MAX6065 LINE TRANSIENT LINE d 0 MAX6061 68 toc33 L MAX6061 68 toc34 40 25 40 25 ViN VIN 500mV div 0 25 500mV div 0 25 Vout AC COUPLED AC COUPLED 20mV div 20mV div 40us div 40us div Note 5 Many of the MAX6061 family Typical Operating Characteristics are extremely similar The extremes of these characteristics are found in the MAX6061 1 25V output and the 6065 5 0V output The Typical Operating Characteristics of the remainder of the MAX6061 family typically lie between these two extremes and can be estimated based on their output voltages 14 MAXIM Precision Micropower Low Dropout High Output Current SOT23 Voltage References Pin Description PIN NAME FUNCTION 1 IN Input Voltage 2 OUT Reference Output 3 GND Ground Applications Information Input Bypassing For the best line transient performance decouple the input with a 1 ceramic capacitor as shown in the Typical Operating Circuit Locate the capacitor as close to IN as possible Where transient performance is less important no capacitor is necessary Output Load Capacitance Devices in the MAX6061 family do not require an output capacitance for frequency stability In applications where the load or the supply can experience step changes an output capacitor of at least 0 1uF will reduce the amount of overshoot undershoot and improve the circuit s transient response Many applica t
14. ions do not require an external capacitor and the MAX6061 family can offer a significant advantage in these applications when board space is critical Supply Current The quiescent supply current of the series mode MAX6061 family is typically 90pA and is virtually inde pendent of the supply voltage with only an 8 max variation with supply voltage Unlike series references shunt mode references operate with a series resistor connected to the power supply The quiescent current of a shunt mode reference is thus a function of the input voltage Additionally shunt mode references have to be biased at the maximum expected load current even if the load current is not present at the time In the MAX6061 family the load current is drawn from the input voltage 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 When the supply voltage is below the minimum specified input voltage as during turn on the devices can draw up to 400 beyond the nominal supply current The input voltage source must be capable of providing this current to ensure reliable turn on MAXIM Typical Operating Circuit SUPPLY INPUT SEE SELECTOR GUIDE IN OUT REFERENCE MAXIM OUT MAX6061 MAX6068 CAPACITORS ARE OPTIONAL Ordering Information continued PIN TOP PART TEMP RANGE PACKAGE
15. n PU Vout 0 2V lt Vin lt 12 6V 90 400 Sourcing 0 I lt 5mA 0 5 0 9 Load Regulation AVour mV mA AlouT Sinking 2mA x lout lt 0 2 0 6 0 VIN D t Volt Note 4 1mA 50 200 mV ropout Voltage Note 4 OUT OUT Short Circuit Current 2 ort Circuit Curren m SC Short to IN 25 o ppm Long Term Stability 1000hr at 25 C 62 1000hr Output Voltage Hysteresis AVOUT Note 3 cycle 130 ppm DYNAMIC CHARACTERISTICS Noise Vor f 0 1Hz to 10Hz 35 uVp p oise Voltage e ii OUT to 10kHz 40 uVAMS Ripple Rejection 2 VIN 5V 100 f 120Hz 76 dB Turn On Settling Time tR To 0 1 of final value Cour 50pF 115 us INPUT CHARACTERISTICS Supply Voltage Range VIN Guaranteed by line regulation test VouT 0 2 12 6 V Quiescent Supply Current IIN 90 125 Change Supply Current liN VIN Vour 0 2V ViN 12 6V 3 4 8 0 AVLAZCLAVI Precision Micropower Low Dropout High Output Current SOT23 Voltage References ELECTRICAL CHARACTERISTICS MAX6064 VouT 4 096V VIN 5V lout 0 TA Tmin to Tmax unless otherwise noted Typical values are at TA 25 C Note 1 PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS MAX60644A 0 296 4 088 4 096 4 104 Output Voltage VOUT TA 25 V MAX6064B 0 496 4 080 4 096 4 112
16. n continued at end of data sheet Pin Configuration MAXIM MAX6061 MAX6068 GND SOT23 3 PART VOLTAGE INPUT VOLTAGE V TOP VIEW MAX6061 1 248 2510126 6068 1 800 2 5 to 12 6 7 MAX6062 2 048 2 5 to 12 6 6066 2 500 Vour 200mV to 12 6 6063 3 000 Vour 200mV to 12 6 6064 4 096 Vour 4 200mV to 12 6 MAX6067 4 500 Vour 4 200mV to 12 6 6065 5 000 Vour 200mV to 12 6 Maxim Integrated Products 1 For pricing delivery and ordering information please contact Maxim Dallas Direct at 1 888 629 4642 or visit Maxim s website at www maxim ic com 8909XVM 1909XVIN MAX6061 MAX6068 Precision Micropower Low Dropout High Output Current SOT23 Voltage References ABSOLUTE MAXIMUM RATINGS Voltages Referenced to GND ottico iu 0 3V to 13 5V S Br rp RH eae 0 3V to VIN 0 3V Output Short Circuit Duration to GND or IN lt 6V Continuous Output Short Circuit Duration to GND or IN VIN gt 6V 60s Continuous Power Dissipation TA 70 C 3 Pin SOT23 derate 4 0mW C above 70 C 320mW Operating Temperature Range Storage Temperature Range Lead Temperature soldering 105 300 Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device These are stress ratings only and functional operation of the device at
17. og to Digital Converters ADCs Portable Battery Powered Systems Notebook Computers PDAs GPSs DMMs Cellular Phones Precision 3V 5V Systems Typical Operating Circuit appears at end of data sheet Selector Guide Features Ultra Small 3 Pin SOT23 Package 0 2 max Initial Accuracy 20ppm C max Temperature Coefficient 5mA Source Current 2mA Sink Current No Output Capacitor Required Stable with Capacitive Loads 90pA typ Quiescent Supply Current 200mV max Dropout at 1mA Load Current Output Voltage Options 1 25V 1 8V 2 048V 2 5V 3V 4 096V 4 5V 5V 13yVp p Noise 0 1Hz to 10Hz MAX6061 Ordering Information PIN TOP PART TEMP RANGE PACKAGE MARK MAX6061AEUR T 40 C to 85 C 3 50723 3 FZFP AX6061BEUR T 40 C 85 C 3 50723 3 FZFQ MAX6062AEUR T 40 C to 85 C 3 SOT23 3 FZFY AX6062BEUR T 40 C to 85 C 3 50723 3 FZFZ MAX6063AEUR T 40 C to 85 3 50723 3 FZFV AX6063BEUR T 40 C to 85 C 3 50723 3 FZFW MAX6064AEUR T 40 C to 85 C 3 SOT23 3 20 AX6064BEUR T 40 C to 85 C 3 SOT23 3 FZGC MAX6065AEUR T 40 C to 85 3 50723 3 FZGE AX6065BEUR T 40 C to 85 C 3 SOT23 3 FZGF MAX6066AEUR T 40 C to 85 C 3 50723 3 FZFM AX6066BEUR T 40 C to 85 C 3 SOT23 3 FZFN Note There is a minimum order increment of 2500 pieces for SOT23 packages Ordering Informatio
18. sis is defined as the change in 25 output voltage before and after cycling the device from to Note 4 Dropout voltage is the minimum input voltage at which Vour changes x 0 296 from Vour at VIN 5 0V VIN 5 5V for 6065 MAXIM 8909XVM 1909XVIN MAX6061 MAX6068 Precision Micropower Low Dropout High Output Current SOT23 Voltage References Typical Operating Characteristics VIN 5V for 6061 6068 5 5V for MAX6065 louT 0 TA 25 C unless otherwise noted Note 5 MAX6062 MAX6065 MAX6061 OUTPUT VOLTAGE TEMPERATURE DRIFT OUTPUT VOLTAGE TEMPERATURE DRIFT LINE REGULATION 20 5 003 E THREE TYPICAL PARTS E THREE E z E TYPICAL PARTS g 20 3 5 002 2 3 5 5 20 2 5001 5 e 5 z 2 0 E 5 000 e e m 5 2 0 4 999 x 20 4 908
19. 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 ELECTRICAL CHARACTERISTICS MAX6061 VouT 1 25V VIN 5V lout 0 TA Tmin to Tmax unless otherwise noted Typical values are at TA 25 C Note 1 PARAMETER SYMBOL CONDITIONS MIN TYP MAX Output Voltage VOUT TA 25 C Output Voltage Temperature MAX6061A 1 244 1 242 1 248 1 248 1 252 1 254 MAX6061A 0 32 6061 0 48 Coefficient Note 2 MAX6061B Line Regulation 2 5V VIN gt 12 6V Load Regulation Short to GND OUT Short Circuit Current Short to IN Sourcing 0 IOUT 5mA Long Term Stability 1000hr at 25 C ppm 1000hr Output Voltage Hysteresis Note 3 DYNAMIC CHARACTERISTICS f 0 1Hz to 10Hz ppm Noise Voltage f 10Hz to 10kHz Ripple Rejection Turn On Settling Time INPUT CHARACTERISTICS Supply Voltage Range Quiescent Supply Current Change in Supply Current MAXIM Precision Micropower Low Dropout High Output Current SOT23 Voltage References ELECTRICAL CHARACTERISTICS MAX6068 VouT 1 80V VIN TA Tmin to Tmax unless otherwise noted Typical values are at Ta 25 C Note 1 PARAMETER SYMBOL CONDITIONS MIN TYP MAX MAX6068A 0 17 1 797 1 800 1 80
20. urcing O I lt 5 0 5 0 9 Load Regulation AVour 9 OUT mV mA AlouT Sinking 2mA x lout lt 0 1 5 4 21 Short to GND 25 OUT Short Circuit Current Isc mA Short to IN 25 AVOUT ppm Long Term Stability nme 1000hr at 25 62 1000hr Output Voltage Hysteresis AVOUT Note 3 cycle 190 ppm DYNAMIC CHARACTERISTICS f 0 1Hz to 10Hz 22 uVp p Noise Voltage f 10Hz to 10kHz 25 UVRMS Ripple Rejection pou VIN 5V 100mV f 120Hz 86 dB Turn On Settling Time tR To VouT 0 1 of final value Cour 50pF 115 us INPUT CHARACTERISTICS Supply Voltage Range VIN Guaranteed by line regulation test 2 5 12 6 V Quiescent Supply Current IIN 90 125 HA Change in Supply Current liN VIN 2 5V 12 6V 3 3 8 0 pA V MAXIM Precision Micropower Low Dropout High Output Current SOT23 Voltage References ELECTRICAL CHARACTERISTICS MAX6066 VouT 2 500V VIN 5V loUT 0 TA Tmin to Tmax unless otherwise noted Typical values are at TA 25 C Note 1 PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS MAX6066A 0 2 2 495 2 500 2 505 Output Voltage VOUT TA 25 V MAX6066B 0 4 2 490 2 500 2 510 Output Voltage Temperature MAX6066A 6 20 2 Coefficient Note 2 TCVour MAX6066B 6 30 ppm c Line Regulation E Vout 0 2V lt lt 12 6V 60 300 Sourcing O lt I lt 5mA 0 5 0 9 Load Regulation AVout
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