EVALUATION KIT AVAILABLE MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 General Description The MAX9060-MAX9064 are small single comparators, ideal for a wide variety of portable electronics applications such as cell phones, media players, and notebooks that have extremely tight board space and power constraints. These comparators are offered in both, a miniature 4-bump UCSPTM package with a 1mm x 1mm footprint (as small as two 0402 resistors), and a 5-pin SOT23 package. The MAX9060-MAX9064 feature an input voltage range of -0.3V to +5.5V independent of supply voltage. These devices maintain high impedance at the inputs even when powered down (VCC or VREF = 0V). They also feature internal filtering to provide high RF immunity. The MAX9060 and MAX9061 have open-drain outputs and draw quiescent supply current from a user-supplied reference voltage, VREF, between 0.9V and 5.5V. These devices consume only 100nA (max) supply current and operate over the extended -40C to +85C temperature range. The MAX9062, MAX9063 and MAX9064 are single comparators with an internal 0.2V reference. These devices feature either a push-pull or an open-drain output. They consume only 700nA (max) supply current. The MAX9062, MAX9063, and MAX9064 operate down to VCC = 1V over the extended -40C to +85C temperature range. Applications Cell Phones Portable Media Players Electronic Toys Notebook Computers Portable Medical Devices Selector Guide and Typical Operating Circuits appears at end of data sheet. Features Tiny 1mm x 1mm x 0.6mm 4-Bump UCSP Footprint = Two 0402 Resistors Also Available in a 5-Pin SOT23 Package Ultra-Low Operating Current (100nA max) Input Voltage Range = -0.3V to +5.5V External REF Range = 0.9V to 5.5V (MAX9060/MAX9061) Internal REF Voltage = 0.2V (MAX9062/MAX9063/MAX9064) 15s Propagation Delay -40C to +85C Extended Temperature Range Ordering Information PART PIN PACKAGE TOP MARK MAX9060EBS+G45 4 UCSP AFX MAX9060EUK+ 5 SOT23 AFFG MAX9061EBS+G45 4 UCSP AFY MAX9061EUK+ 5 SOT23 AFFH MAX9062EBS+G45 4 UCSP AFZ MAX9062EUK+ 5 SOT23 AFFI MAX9063EBS+G45 4 UCSP AGA MAX9063EUK+ 5 SOT23 AFFJ MAX9063EUK/V+T 5 SOT23 +AMGH MAX9064EBS+G45 4 UCSP AGB MAX9064EUK+ 5 SOT23 AFFK Note: All devices are specified over the extended -40C to+85C operating temperature range. +Denotes a lead(Pb)-free/RoHS-compliant package. /V denotes an automotive qualified device. T = Tape and reel. G45 = Protective die coating. UCSP is a trademark of Maxim Integrated Products, Inc. Pin Configurations TOP VIEW (BUMPS ON BOTTOM) OUT A1 A2 IN MAX9060-MAX9064 REF (VCC) B1 B2 UCSP 19-4105; Rev 7; 3/17 GND REF = MAX9060/MAX9061 (VCC) = MAX9062-MAX9064 REF (VCC) 1 GND 2 GND 3 + 5 OUT 4 IN MAX9060- MAX9064 SOT23 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Absolute Maximum Ratings VCC, REF, IN to GND...............................................-0.3V to +6V OUT to GND (MAX9060-MAX9063)........................-0.3V to +6V OUT to GND (MAX9064 Only)............... -0.3V to + (VCC + 0.3V) Output Short-Circuit Current Duration.................................... 10s Input Current into Any Terminal.........................................20mA Continuous Power Dissipation 4-Bump UCSP (derate 3.0mW/C above +70C)......... 238mW 5-Pin SOT23 (derate 3.9mW/C above +70C)........... 312mW Operating Temperature Range.............................-40C to +85C Junction Temperature....................................................... +150C Storage Temperature Range..............................-65C to +150C Lead Temperature (excluding UCSP, soldering, 10s)...... +300C Soldering Temperature (reflow)........................................ +260C 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 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. MAX9060/MAX9061 Electrical Characteristics (VREF = 1.8V, RPULLUP = 10k to VPULLUP = 3.3V, TA = -40C to +85C. Typical values are at TA = +25C, unless otherwise noted.) (Note 1) PARAMETER SYMBOL CONDITIONS MIN TYP MAX 1.3 6 UNITS DC CHARACTERISTICS Input Offset Voltage (Note 2) VOS Hysteresis VHYS Input Voltage Range VIN Input Bias Current IIN Input Shutdown Current Output Voltage Low Output Leakage Current (OUT = High) IIN_PD VOL TA = +25C 9 (Note 3) 12 -0.3 mV +5.5 0V < VIN < VREF + 0.6V 40 VREF + 0.6V < VIN < 5.5V 10 100 VREF = 0V, VIN = 5.5V (Note 4) <0.1 27 ISINK = 25A, VREF = 0.9V, TA = +25C 0.04 0.20 ISINK = 200A, VREF = 1.2V 0.08 0.20 ISINK = 500A, VREF = 1.8V 0.13 0.23 ISINK = 1.2mA, VREF = 5.5V 0.19 0.50 <0.1 35 IOUT_LEAKAGE VPULLUP = 5.5V (Note 4) mV V nA nA V nA AC CHARACTERISTICS Propagation Delay Fall Time tPD tF Overdrive = 100mV (Note 5) 25 s CL = 10pF 14 ns REF SUPPLY REF Voltage VREF Guaranteed by VOS tests 0.9 VREF = 0.9V, VIN = VREF, TA = +25C REF Input Current IREF RRR Power-Up Time tON VREF = 1.8V, VIN = VREF, TA = +25C 60 VREF = 5.5V, VIN = VREF, TA = +25C 170 www.maximintegrated.com VREF = 0.9V to 5.5V, TA = +25C V 320 nA 50 VREF = 5.5V, VIN = VREF, -40C < TA < +85C REF Rejection Ratio 5.5 350 63 90 dB 3 ms Maxim Integrated 2 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 MAX9062/MAX9063/MAX9064 Electrical Characteristics (VCC = 3.3V, RPULLUP = 10k to VPULLUP = 3.3V for MAX9062/MAX9063, TA = -40C to +85C. Typical values at TA = +25C, unless otherwise noted.) (Note 1) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS +5.5 V DC CHARACTERISTICS Input Voltage Range Input Bias Current Input Leakage Current Output Voltage Low VIN Guaranteed by IIN test IIN VIN = 0.2V to 5.5V (Note 4) 0.06 15 nA VCC = 0V, VIN = 5.5V (Note 4) <0.1 15 nA ISINK = 50A, VCC = 1.0V 0.03 0.2 ISINK = 200A, VCC = 1.2V 0.08 0.20 ISINK = 500A, VCC = 1.8V 0.13 0.23 0.14 0.3 IIN_SHDN VOL -0.3 ISINK = 0.75mA, VCC = 3.3V ISINK = 1.2mA, VCC = 5.5V 0.19 0.5 VCC - VCC 0.08V 0.02V VCC - VCC 0.08V 0.20V VCC - VCC 0.15V 0.23V VCC - VCC 0.13V 0.3V VCC - VCC 0.24V 0.5V ISOURCE = 15A, VCC = 1.0V ISOURCE = 40A, VCC = 1.2V Output Voltage High (MAX9064 Only) VOH ISOURCE = 180A, VCC = 1.8V ISOURCE = 0.3mA, VCC = 3.3V ISOURCE = 0.75mA, VCC = 5.5V Output Leakage Current (MAX9062/MAX9063 Only) AC CHARACTERISTICS Propagation Delay IOUT_LEAKAGE OUT = high, VPULLUP = 5.5V (Note 4) tPD <0.1 15 V V nA VOVERDRIVE = 100mV (Note 5) 15 s Fall Time tF CL = 10pF 14 ns Rise Time tR CL = 10pF, MAX9064 only 30 ns REFERENCE VOLTAGE Input Threshold (Note 6) Input Threshold Hysteresis REF Tempco Power-Supply Rejection Ratio VREF VHYS TA = +25C 188 200 212 TA = -40C to +85C 185 200 215 TA = -40C to +85C (Note 3) VREF_TEMPCO (Note 7) PSRR VCC = 1.0V to 5.5V 40 Guaranteed by VOL/VOH tests 1.0 mV 0.9 mV 6 V/C 53 dB POWER SUPPLY Supply Voltage VCC Supply Current ICC 5.5 VCC = 1.0V 0.4 0.7 VCC = 5.5V 0.6 1.1 V A Power-Up Time tON 3 ms Note 1: All devices are 100% production tested at TA = +25C. Temperature limits are guaranteed by design. Note 2: Guaranteed by ATE and/or bench characterization over temperature. VOS is the average of the trip points minus VREF. Note 3: Hysteresis is half the input voltage difference between the two switching points. Note 4: Too small to be measured in an ATE test environment. Only gross test to catch failures is implemented. Note 5: Overdrive is defined as the voltage above or below the switching points. Note 6: Guaranteed by ATE and/or bench characterization over temperature. VREF is the average of the trip points. Note 7: Includes reference error along with comparator offset voltage error. www.maximintegrated.com Maxim Integrated 3 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Typical Operating Characteristics (VCC = 3.3V, VREF = 1.8V, RPULLUP = 10k to VPULLUP = 3.3V for MAX9060-MAX9063, VGND = 0V, TA = +25C, unless otherwise noted.) +85C +25C 50 400 200 1 2 3 4 5 0 6 0 1 REF VOLTAGE (V) VCC = 5V 10 VCC = 3.3V VCC = 1.8V 1.0 0.1 10 0.5 VCC/VREF = 5V 0.4 0.3 VCC/VREF = 3.3V VCC/VREF = 1.8V 4 2 6 0.5 0.4 0.3 0.2 0.1 -15 10 35 TEMPERATURE (C) www.maximintegrated.com MAX9060 toc08 10 8 6 4 60 85 0 0.9 0.8 0.7 0.6 0.5 VCC = 5V 0.4 0.3 VCC = 3.3V 0.2 VCC = 1.8V 0.1 0 8 12 0 0.5 1.0 1.5 2.0 2.5 3.0 MAX9060 INPUT BIAS CURRENT vs. INPUT BIAS VOLTAGE 30 25 20 15 10 5 0 2 VREF = 1.8V 1.0 SOURCE CURRENT (mA) 14 HYSTERESIS VOLTAGE (mV) OFFSET VOLTAGE (mV) 0 MAX9060 HYSTERESIS VOLTAGE vs. TEMPERATURE 0.6 10 MAX9064 OUTPUT VOLTAGE HIGH vs. SOURCE CURRENT MAX9060 OFFSET VOLTAGE vs. TEMPERATURE 0.7 1 MAX9060 AND MAX9064 OUTPUT VOLTAGE LOW vs. SINK CURRENT 0.6 16 0.1 OUTPUT TRANSITION FREQUENCY (kHz) 0.7 0.2 0.01 6 SUPPLY VOLTAGE (V) SINK CURRENT (mA) 0.8 -40 5 OUTPUT TRANSITION FREQUENCY (kHz) 0.9 0 4 0.8 0 100 MAX9060 toc07 1.0 1 3 0.9 0.1 1 2 MAX9060 toc05 MAX9060 toc04 MAX9064 SUPPLY CURRENT vs. OUTPUT TRANSITION FREQUENCY OUTPUT VOLTAGE LOW (V) SUPPLY CURRENT (A) 100 0.1 VREF = 1.8V OIUTPUT VOLTAGE HIGH (VCC - VOH, V) 0 VREF = 3.3V 1 -40C -40C INPUT BIAS CURRENT (nA) 0 +25C 600 10 MAX9060 toc06 100 +85C VREF = 5V MAX9060 toc09 150 800 MAX9060 SUPPLY CURRENT vs. OUTPUT TRANSITION FREQUENCY MAX9060 toc03 200 100 SUPPLY CURRENT (A) MAX9060 toc01 1000 SUPPLY CURRENT (nA) SUPPLY CURRENT (nA) 250 MAX9064 SUPPLY CURRENT vs. SUPPLY VOLTAGE MAX9060 toc02 MAX9060 SUPPLY CURRENT vs. REF VOLTAGE VREF = 1.8V -40 -15 10 35 TEMPERATURE (C) 60 85 -5 VREF = 1.8V -1 0 1 2 3 4 5 6 INPUT BIAS VOLTAGE (V) Maxim Integrated 4 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Typical Operating Characteristics (continued) (VCC = 3.3V, VREF = 1.8V, RPULLUP = 10k to VPULLUP = 3.3V for MAX9060-MAX9063, VGND = 0V, TA = +25C, unless otherwise noted.) -10 -15 0.10 201.5 201.4 201.3 201.2 0.20 0.25 201.0 0.30 MAX9060 toc12 201.0 200.8 200.6 200.4 200.2 200.0 199.8 199.6 199.4 199.2 -40 -15 10 35 60 85 199.0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 TEMPERATURE (C) SUPPLY VOLTAGE (V) MAX9064 PROPAGATION DELAY vs. TEMPERATURE MAX9064 PROPAGATION DELAY vs. INPUT OVERDRIVE MAX9060 PROPAGATION DELAY vs. INPUT OVERDRIVE VCC = 5V 14 13 VCC = 3.3V 12 VCC = 1.8V 11 70 10 60 50 VCC = 1.8V 40 VCC = 3.3V 30 VCC = 5V 20 10 -40 -15 10 35 60 85 0 80 70 60 VREF = 1.8V 50 40 VREF = 5V 30 20 10 0 TEMPERATURE (C) 50 100 150 200 250 0 0 INPUT OVERDRIVE (mV) 50 100 150 200 250 INPUT OVERDRIVE (mV) MAX9064 PROPAGATION DELAY AT VCC = 3.3V MAX9060 PROPAGATION DELAY AT VREF = 1.8V MAX9060 toc17 MAX9060 toc16 0.3V 1.9V IN+ 100mV/div IN+ 100mV/div 0.1V 1.7V OUT 2V/div 0V 100s/div www.maximintegrated.com 5.0 MAX9060 toc15 80 PROPAGATION DELAY (s) VOD = 100mV 15 9 MAX9064 REFERENCE VOLTAGE vs. SUPPLY VOLTAGE INPUT BIAS VOLTAGE (V) 16 PROPAGATION DELAY (s) 0.15 201.6 MAX9060 toc14 17 0.05 201.7 201.1 VCC = 3.3V 0 201.8 PROPAGATION DELAY (s) -20 VCC = 3.3V 201.9 REFERENCE VOLTAGE (mV) -5 202.0 REFERENCE VOLTAGE (mV) MAX9060 toc10 0 MAX9060 toc13 INPUT BIAS CURRENT (nA) 5 MAX9064 REFERENCE VOLTAGE vs. TEMPERATURE MAX9060 toc11 MAX9064 INPUT BIAS CURRENT vs. INPUT BIAS VOLTAGE OUT 2V/div 0V 100s/div Maxim Integrated 5 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Typical Operating Characteristics (continued) (VCC = 3.3V, VREF = 1.8V, RPULLUP = 10k to VPULLUP = 3.3V for MAX9060-MAX9063, VGND = 0V, TA = +25C, unless otherwise noted.) MAX9064 1kHz FREQUENCY RESPONSE MAX9060 1kHz FREQUENCY RESPONSE MAX9060 toc18 MAX9060 toc19 VCC = 3.3V VREF = 1.8V VPULLUP = 3.3V 250mV 1.9V IN+ 50mV/div 200mV 150mV IN+ 100mV/div 1.8V 1.7V OUT 2V/div 0V OUT 2V/div 0V 200s/div 200s/div MAX9060 POWER-UP/ POWER-DOWN RESPONSE MAX9064 POWER-UP/ POWER-DOWN RESPONSE MAX9060 toc21 MAX9060 toc20 VIN = 1.7V VREF = 1.8V VIN = 0.3V VCC = 3.3V VREF 1V/div VCC 2V/div 0V 0V OUT 2V/div OUT 2V/div 0V 0V 1ms/div MAX9064 OUTPUT RESPONSE TO SUPPLY VOLTAGE TRANSIENT MAX9064 POWER-SUPPLY REJECTION FOR NO FALSE TRIGGERING MAX9060 toc22 3V 0V 0V VIN = VTH + 1mV VIN = VTH + 10mV VIN = VTH + 20mV 0V 204 OUT 2V/div 202 UPPER TRIP POINT OUT 2V/div OUT 2V/div 200 198 LOWER TRIP POINT 196 194 1ms/div www.maximintegrated.com VCC 200mV/div TRIP POINT (mV) 3.2V 206 MAX9060 toc23 1ms/div VCC = 3.3V + 100mVP-P 10 100 1k 10k 100k 1M FREQUENCY (Hz) Maxim Integrated 6 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Pin/Bump Description BUMP PIN UCSP SOT23 MAX9060 MAX9061 MAX9062 MAX9063 MAX9064 MAX9060 MAX9061 MAX9062 MAX9063 MAX9064 NAME A1 A1 5 5 OUT A2 A2 4 4 IN Comparator Input. The MAX9060, MAX9062, and MAX9064 have noninverting inputs. The MAX9061 and MAX9063 have inverting inputs. -- B1 -- 1 VCC Power-Supply Voltage. Bypass to ground with a 0.1F bypass capacitor. B1 -- 1 -- REF External Reference Input. REF also supplies power to the device. Bypass to ground with a 0.1F bypass capacitor. B2 B2 2, 3 2, 3 GND GROUND. Detailed Description The MAX9060-MAX9064 are extremely small comparators ideal for compact, low-current, and lowvoltage applications. The MAX9060/MAX9061 consume only 50nA (typ) operating current, while the MAX9062/MAX9063/MAX9064 consume only 400nA (typ). The low-voltage operating capability of the MAX9060-MAX9064 makes these devices extremely attractive to long-life battery-operated devices--these applications can now use a single digital power-supply rail to power the new generation of microcontrollers (which can be down to 0.9V). A single AA/AAA cell can drop down to 0.9V in full discharge. All parts are available in a tiny 4-bump UCSP, that is only 0.6mm tall, and occupies a 1mm x 1mm footprint and a 5-pin SOT23. FUNCTION Comparator Output. The MAX9060-MAX9063 have open-drain outputs. The MAX9064 has a push-pul output. Absolute Maximum Ratings). This is unlike traditional comparators that have an input ESD diode clamp between the input and VCC, limiting this maximum overvoltage to about 0.3V. The MAX9060-MAX9064 architecture maintains a high input impedance to input signals even when the device power-supply voltage is completely turned off (VCC or REF taken to 0V). This greatly benefits flexible power-saving schemes to be easily implemented in advanced battery-operated devices. On-chip filtering provides immunity from any RF noise being picked up by input traces. These devices feature an internal temperature-compensated, low-power 0.2V reference voltage. Output Stage Structure Input Stage Circuitry The MAX9060-MAX9063 have open-drain outputs that allow them to interface to logic circuitry running from supply voltages other than the one supplied to the part. These devices require an external pullup resistor or current source for proper operation. Many microcontroller digital inputs ports can be readily programmed to include these. The MAX9060-MAX9064 incorporate an innovative input stage architecture that allows their input voltage to exceed VCC by several volts (limited only by the The MAX9064 has a push-pull output stage that can both sink and source current, eliminating the need for an external pullup resistor. In this case, the MAX9064 uses the microcontroller's power supply as VCC. Noninverting inputs are available on the MAX9060/ MAX9062/MAX9064 and inverting inputs are available on the MAX9061/MAX9063. www.maximintegrated.com Maxim Integrated 7 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Table 1. How Devices Behave Under Various Input Voltage Conditions PART INPUT VOLTAGE CONDITIONS MAX9060 MAX9061 ACTION AT OUTPUT VIN > VREF External pullup resistor pulls output high. VIN < VREF Output asserts low. VIN > VREF Output asserts low. VIN < VREF External pullup resistor pulls output high. VIN > 0.2V External pullup resistor pulls output high. VIN < 0.2V Output asserts low. VIN > 0.2V Output asserts low. VIN < 0.2V External pullup resistor pulls output high. VIN > 0.2V Output asserts high. VIN < 0.2V Output asserts low. MAX9062 MAX9063 MAX9064 Applications Information Bypassing REF/VCC Place a 0.1F capacitor between REF or VCC and GND as close as possible to the device. During a switching event, all comparators draw a current spike from their power-supply rails. This current spike is minimized by the use of an internal break-before-make design. Hysteresis Operation The MAX9060-MAX9064 feature internal hysteresis for noise immunity and glitch-free operation. If additional hysteresis is needed, an external positive feedback network can be easily implemented on the MAX9060, MAX9062, and MAX9064 noninverting input devices. Additional external hysteresis is not recommended for the MAX9061 due to possible crossover current-related noise problems. Additional external hysteresis is not possible on the MAX9063 because the noninverting input of the comparator is not externally accessible. Adaptive Signal Level Detector The MAX9060 and MAX9061 can be used as an adaptive signal-level detector. Feed a DAC output voltage to REF and connect the input to a variable signal level. As the DAC output voltage is varied from 0.9V to 5.5V, a corresponding signal level threshold-detector circuit is implemented. See Figure 1. VDD DAC REF INTERNAL PULLUP MAX9060 OUT IN I/O MICROCONTROLLER Figure 1. Adaptive Signal Level Detector www.maximintegrated.com Maxim Integrated 8 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Typical Operating Circuits VDD 0.9V TO 5.5V REF VDD INTERNAL PULLUP MAX9060 OUT I/O IN 0.9V TO 5.5V MAX9061 OUT I/O VDD MICROCONTROLLER VCC = 1.0V TO 5.5V INTERNAL PULLUP MAX9062 0.2V REF 0.2V REF VDD INTERNAL PULLUP MAX9063 OUT I/O IN INTERNAL PULLUP IN MICROCONTROLLER VCC = 1.0V TO 5.5V REF OUT I/O MICROCONTROLLER IN MICROCONTROLLER VCC = 1.0V TO 5.5V VDD MAX9064 0.2V REF OUT I/O IN MICROCONTROLLER Package Information Selector Guide For the latest package outline information and land patterns (footprints), 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. PART REFERENCE VOLTAGE INPUT OUTPUT MAX9060 External Noninverting Open drain MAX9061 External Inverting Open drain MAX9062 0.2V Noninverting Open drain MAX9063 0.2V Inverting Open drain PACKAGE TYPE PACKAGE CODE OUTLINE NO. LAND PATTERN NO. MAX9064 0.2V Noninverting Push-pull 5 SOT23 U5+2 21-0057 90-0174 4 UCSP B4+1 21-0117 -- Chip Information PROCESS: BiCMOS www.maximintegrated.com Maxim Integrated 9 MAX9060-MAX9064 Ultra-Small, nanoPower Single Comparators in 4-Bump UCSP and 5 SOT23 Revision History REVISION NUMBER REVISION DATE PAGES CHANGED 0 5/08 Initial release -- 1 1/09 Corrected ultra-low operating current value 1 2 10/10 Updated TOC 4 labels 4 3 12/10 Added G45 designation 1 DESCRIPTION 4 3/11 Updated Note 6 3 5 8/12 Added automotive package MAX9064EUK/V+T to Ordering Information 1 6 12/14 Added automotive package MAX9063EUK/V+T to Ordering Information and removed MAX9064EUK/V+T 1 7 3/17 Updated title to include "nanoPower" and updated top marking in Ordering Information table 1-10 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated's website at www.maximintegrated.com. 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. (c) 2017 Maxim Integrated Products, Inc. 10