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| 19-1229; Rev 4; 1/07 Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators General Description The MAX985/MAX986/MAX989/MAX990/MAX993/ MAX994 single/dual/quad micropower comparators feature low-voltage operation and rail-to-rail inputs and outputs. Their operating voltages range from 2.5V to 5.5V, making them ideal for both 3V and 5V systems. These comparators also operate with 1.25V to 2.75V dual supplies. They consume only 11A of supply current while achieving a 300ns propagation delay. Input bias current is typically 1.0pA, and input offset voltage is typically 0.5mV. Internal hysteresis ensures clean output switching, even with slow-moving input signals. The output stage's unique design limits supply-current surges while switching, virtually eliminating the supply glitches typical of many other comparators. The MAX985/MAX989/MAX993 have a push-pull output stage that sinks as well as sources current. Large internal output drivers allow rail-to-rail output swing with loads up to 8mA. The MAX986/MAX990/MAX994 have an open-drain output stage that can be pulled beyond VCC to 6V (max) above VEE. These open-drain versions are ideal for level translators and bipolar to singleended converters. The single MAX985 is available in a chip-scale package (UCSPTM), significantly reducing the required PC board area. The single MAX985/MAX986 are available in 5-pin SC70 packages and the dual MAX989/MAX990 are available in 8-pin SOT23 packages. ____________________________Features 11A Quiescent Supply Current 2.5V to 5.5V Single-Supply Operation Common-Mode Input Voltage Range Extends 250mV Beyond the Rails 300ns Propagation Delay Push-Pull Output Stage Sinks and Sources 8mA Current (MAX985/MAX989/MAX993) Open-Drain Output Voltage Extends Beyond VCC (MAX986/MAX990/MAX994) Unique Output Stage Reduces Output Switching Current, Minimizing Overall Power Consumption 80A Supply Current at 1MHz Switching Frequency No Phase Reversal for Overdriven Inputs Available in Space-Saving Packages: UCSP (MAX985) SOT23 (MAX985/MAX986/MAX989/MAX990) MAX(R) (MAX989/MAX990) MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 Ordering Information PART MAX985EBT-T MAX985EXK-T PIN-PACKAGE 6 UCSP-6 5 SC70-5 TOP MARK AAY ABK PKG CODE B6-1 X5-1 Selector Guide PART MAX985 MAX986 MAX989 MAX990 MAX993 MAX994 COMPARATORS PER PACKAGE 1 1 2 2 4 4 OUTPUT STAGE Push-Pull Open-Drain Push-Pull Open-Drain Push-Pull Open-Drain Note: All devices are specified over the -40C to +85C operating temperature range. Ordering Information continued at end of data sheet. Typical Application Circuit appears at end of data sheet. Pin Configurations TOP VIEW (BUMPS ON BOTTOM) IN+ B1 A1 VEE Applications Portable/BatteryPowered Systems Mobile Communications Zero-Crossing Detectors Window Comparators Level Translators Threshold Detectors/ Discriminators Ground/Supply-Sensing Applications IR Receivers Digital Line Receivers MAX985 INB2 A2 OUT N.C. B3 A3 VCC UCSP UCSP is a trademark and MAX is a registered trademark of Maxim Integrated Products, Inc. Pin Configurations continued at end of data sheet. 1 ________________________________________________________________ Maxim Integrated Products 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. Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 ABSOLUTE MAXIMUM RATINGS Supply Voltage (VCC to VEE) ...................................................6V Current into Input Pins ......................................................20mA IN_-, IN_+ to VEE .......................................-0.3V to (VCC + 0.3V) OUT_ to VEE MAX985/MAX989/MAX993 ....................-0.3V to (VCC + 0.3V) MAX986/MAX990/MAX994.....................................-0.3V to 6V OUT_ Short-Circuit Duration to VEE or VCC ...........................10s Continuous Power Dissipation (TA = +70C) 5-Pin SC70 (derate 3.1mW/C above +70C) ...............247mW 5-Pin SOT23 (derate 7.10mW/C above +70C)...........571mW 6-Bump UCSP (derate 3.9mW/C above +70C)..........308mW 8-Pin SOT23 (derate 9.1mW/C above +70C).............727mW 8-Pin MAX (derate 4.5mW/C above +70C) ..............362mW 8-Pin SO (derate 5.88mW/C above +70C).................471mW 14-Pin TSSOP (derate 9.1mW/C above +70C) ..........727mW 14-Pin SO (derate 8.33mW/C above +70C)...............667mW Operating Temperature Range ...........................-40C to +85C Junction Temperature ......................................................+150C Storage Temperature Range .............................-65C to +150C Lead Temperature (soldering, 10s) .................................+300C Bump Reflow Temperature .............................................+235C 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. ELECTRICAL CHARACTERISTICS (VCC = 2.7V to 5.5V, VEE = 0V, VCM = 0V, TA = -40C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 1) PARAMETER Supply Voltage Supply Current per Comparator Power-Supply Rejection Ratio Common-Mode Voltage Range (Note 2) Input Offset Voltage (Note 3) Input Hysteresis Input Bias Current (Note 4) Input Offset Current Input Capacitance Common-Mode Rejection Ratio Output Leakage Current (MAX986/MAX990/ MAX994 only) Output Short-Circuit Current SYMBOL VCC CONDITIONS Inferred from PSRR test VCC = 5V ICC VCC = 2.7V PSRR VCMR 2.5V VCC 5.5V TA = +25C TA = -40C to +85C VOS VHYST IB IOS CIN CMRR ILEAK VOUT = high Sourcing or sinking, VOUT = VEE or VCC VCC = 5V, ISINK = 8mA VCC = 2.7V, ISINK = 3.5mA TA = +25C TA = -40C to +85C TA = +25C TA = -40C to +85C 0.15 VCC = 5V VCC = 2.7V 95 35 0.2 0.4 0.55 0.3 0.4 V 52 Full common-mode range TA = +25C TA = -40C to +85C 3 0.001 0.5 1.0 80 1.0 10 TA = +25C TA = -40C to +85C TA = +25C TA = -40C to +85C 55 VEE 0.25 VEE 0.5 80 VCC + 0.25 VCC 5 7 mV mV nA pA pF dB A 11 MIN 2.5 12 TYP MAX 5.5 20 24 20 24 dB V A UNITS V ISC mA OUT Output Voltage Low VOL 2 _______________________________________________________________________________________ Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators ELECTRICAL CHARACTERISTICS (continued) (VCC = 2.7V to 5.5V, VEE = 0V, VCM = 0V, TA = -40C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 1) PARAMETER OUT Output Voltage High (MAX985/MAX989/ MAX993 only) OUT Rise Time (MAX985/MAX989/ MAX993 only) OUT Fall Time SYMBOL VCC = 5V, ISOURCE = 8mA VCC = 2.7V, ISOURCE = 3.5mA VCC = 5.0V CONDITIONS TA = +25C TA = -40C to +85C TA = +25C TA = -40C to +85C CL = 15pF tRISE CL = 50pF CL = 200pF CL = 15pF tFALL VCC = 5.0V CL = 50pF CL = 200pF MAX985/MAX989/ 10mV overdrive MAX993 only 100mV overdrive tPDPropagation Delay CL = 15pF MAX986/MAX990/ 10mV overdrive MAX994 only, RPULLUP = 5.1k 100mV overdrive 10mV overdrive 100mV overdrive MIN 4.6 4.45 2.4 2.3 40 50 80 40 50 80 450 300 450 ns 300 450 300 20 s ns ns 2.55 TYP 4.85 V MAX UNITS MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 VOH tPD+ Power-Up Time tPU MAX985/MAX989/ MAX993 only, CL = 15pF Note 1: All device specifications are 100% production tested at TA = +25C. Limits over the extended temperature range are guaranteed by design. Note 2: Inferred from the VOS test. Both or either inputs can be driven 0.3V beyond either supply rail without output phase reversal. Note 3: VOS is defined as the center of the hysteresis band at the input. Note 4: IB is defined as the average of the two input bias currents (IB-, IB+). _______________________________________________________________________________________ 3 Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 __________________________________________Typical Operating Characteristics (VCC = 5V, VCM = 0V, TA = +25C, unless otherwise noted.) SUPPLY CURRENT vs. TEMPERATURE MAX985-01 SUPPLY CURRENT vs. OUTPUT TRANSITION FREQUENCY MAX985-02 OUTPUT LOW VOLTAGE vs. OUTPUT SINK CURRENT VIN+ < VINOUTPUT LOW VOLTAGE (mV) (VOL) 1000 VCC = 2.7V 100 MAX985-04 18 17 16 SUPPLY CURRENT (A) 15 14 13 12 11 10 9 8 -60 VIN+ > VIN- 1000 10,000 SUPPLY CURRENT (A) 100 VCC = 5.0V VCC = 5.0V 10 VCC = 2.7V VCC = 5.0V VCC = 2.7V 10 1 -40 -20 0 20 40 60 80 100 0.01 0.1 1 10 100 1000 TEMPERATURE (C) OUTPUT TRANSITION FREQUENCY (kHz) 1 0.01 0.1 1 10 100 OUTPUT SINK CURRENT (mA) OUTPUT HIGH VOLTAGE vs. OUTPUT SOURCE CURRENT MAX985-08 OUTPUT SHORT-CIRCUIT CURRENT vs. TEMPERATURE 110 100 90 80 70 60 50 40 30 20 10 0 MAX985-06 INPUT OFFSET VOLTAGE vs. TEMPERATURE MAX985-07 10,000 OUTPUT HIGH VOLTAGE (VCC - VOH) (mV) VIN+ > VIN- 120 1.1 0.9 OFFSET VOLTAGE (mV) 0.7 0.5 0.3 0.1 -0.1 -0.3 OUTPUT SINK CURRENT (mA) 1000 VCC = 5.0V 100 VCC = 2.7V VCC = 5.0V 10 1 VCC = 2.7V 0.1 0.01 0.1 1 10 100 OUTPUT SOURCE CURRENT (mA) -60 -40 -20 0 20 40 60 80 100 -60 -40 -20 0 20 40 60 80 100 TEMPERATURE (C) TEMPERATURE (C) PROPAGATION DELAY vs. CAPACITIVE LOAD (VCC = 3V) MAX985-05a PROPAGATION DELAY vs. CAPACITIVE LOAD (VCC = 5V) 510 490 VOD = 50mV MAX985-05b 600 VOD = 50mV 550 TO VOUT = 50% OF FINAL VALUE 530 470 tPD (ns) 450 430 410 390 370 tPD (ns) 500 TO VOUT = 50% OF FINAL VALUE 450 TO VOUT = 10% OF FINAL VALUE 400 TO VOUT = 10% OF FINAL VALUE 350 0 200 400 600 800 1000 CAPACITIVE LOAD (pF) 350 0 200 400 600 800 1000 CAPACITIVE LOAD (pF) 4 _______________________________________________________________________________________ Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 ____________________________Typical Operating Characteristics (continued) (VCC = 5V, VCM = 0V, TA = +25C, unless otherwise noted.) PROPAGATION DELAY vs. TEMPERATURE MAX985-09 PROPAGATION DELAY vs. INPUT OVERDRIVE 800 700 MAX985-10 450 VOD = 50mV 440 430 tPD (ns) 900 tPD (ns) 420 410 400 390 380 -40 -20 0 20 TO VOUT = 50% POINT OF FINAL VALUE 600 500 400 300 200 100 VCC = 2.7V VCC = 5.0V TO VOUT = 10% POINT OF FINAL VALUE 40 60 80 100 0 0 40 80 120 160 200 INPUT OVERDRIVE (mV) TEMPERATURE (C) MAX985/MAX989/MAX993 PROPAGATION DELAY (tPD+) MAX985-11 PROPAGATION DELAY (tPD-) MAX985-12 MAX985/MAX989/MAX993 SWITCHING CURRENT, OUT RISING MAX985-13 IN+ 50mV/ div IN+ IN+ 50mV/ div 50mV/ div 2V/div OUT OUT 2V/div OUT 2V/div ICC VOD = 50mV 100ns/div VOD = 50mV 100ns/div VOD = 50mV 100ns/div 1mA/div SWITCHING CURRENT, OUT FALLING MAX985-14 1MHz RESPONSE MAX985-15 POWER-UP DELAY MAX985-16 IN+ OUT 50mV/ div 2V/div IN+ 50mV/ div VCC ICC 1mA/div VOD = 50mV 100ns/div OUT 2V/div OUT VIN- = 50mV VIN+ = 0V VOD = 50mV 200ns/div 5s/div _______________________________________________________________________________________ 5 Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 Pin Description PIN MAX985 MAX986 SOT23/ SC70 1 2 3 4 5 -- -- -- -- -- -- -- -- -- -- -- -- -- *MAX985 only MAX989 MAX990 SO/MAX/ SOT23 -- 8 -- -- 4 1 2 3 5 6 7 -- -- -- -- -- -- -- MAX993 MAX994 SO/ TSSOP -- 4 -- -- 11 1 2 3 5 6 7 8 9 10 12 13 14 -- OUT VCC IN+ INVEE OUTA INAINA+ INB+ INBOUTB OUTC INCINC+ IND+ INDOUTD N.C. Comparator Output Positive Supply Voltage Comparator Noninverting Input Comparator Inverting Input Negative Supply Voltage Comparator A Output Comparator A Inverting Input Comparator A Noninverting Input Comparator B Noninverting Input Comparator B Inverting Input Comparator B Output Comparator C Output Comparator C Inverting Input Comparator C Noninverting Input Comparator D Noninverting Input Comparator D Inverting Input Comparator D Output No Connection. Not internally connected. NAME FUNCTION SO 6 7 3 2 4 -- -- -- -- -- -- -- -- -- -- -- -- 1, 5, 8 UCSP* A2 A3 B1 B2 A1 -- -- -- -- -- -- -- -- -- -- -- -- B3 6 _______________________________________________________________________________________ Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators _______________Detailed Description The MAX985/MAX986/MAX989/MAX990/MAX993/ MAX994 are single/dual/quad low-power, low-voltage comparators. They have an operating supply voltage range between 2.5V and 5.5V and consume only 11A. Their common-mode input voltage range extends 0.25V beyond each rail. Internal hysteresis ensures clean output switching, even with slow-moving input signals. Large internal output drivers allow rail-to-rail output swing with up to 8mA loads. The output stage employs a unique design that minimizes supply-current surges while switching, virtually eliminating the supply glitches typical of many other comparators. The MAX985/MAX989/MAX993 have a push-pull output structure that sinks as well as sources current. The MAX986/MAX990/MAX994 have an opendrain output stage that can be pulled beyond VCC to an absolute maximum of 6V above VEE. VCC R3 MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 R1 VIN VCC R2 VEE OUT VREF MAX985 MAX989 MAX993 Figure 1. Additional Hysteresis (MAX985/MAX989/MAX993) Input Stage Circuitry The devices' input common-mode range extends from -0.25V to (VCC + 0.25V). These comparators may operate at any differential input voltage within these limits. Input bias current is typically 1.0pA if the input voltage is between the supply rails. Comparator inputs are protected from overvoltage by internal body diodes connected to the supply rails. As the input voltage exceeds the supply rails, these body diodes become forward biased and begin to conduct. Consequently, bias currents increase exponentially as the input voltage exceeds the supply rails. __________Applications Information Additional Hysteresis MAX985/MAX989/MAX993 The MAX985/MAX989/MAX993 have 3mV internal hysteresis. Additional hysteresis can be generated with three resistors using positive feedback (Figure 1). Unfortunately, this method also slows hysteresis response time. Use the following procedure to calculate resistor values for the MAX985/MAX989/MAX993. 1) Select R3. Leakage current at IN is under 10nA, so the current through R3 should be at least 1A to minimize errors caused by leakage current. The current through R3 at the trip point is (VREF - VOUT) / R3. Considering the two possible output states in solving for R3 yields two formulas: R3 = VREF / 1A or R3 = (VREF - VCC) / 1A. Use the smaller of the two resulting resistor values. For example, if VREF = 1.2V and VCC = 5V, then the two R3 resistor values are 1.2M and 3.8M. Choose a 1.2M standard value for R3. 2) Choose the hysteresis band required (VHB). For this example, choose 50mV. 3) Calculate R1 according to the following equation: R1 = R3 x (VHB / VCC) For this example, insert the values R1 = 1.2M x (50mV / 5V) = 12k. 4) Choose the trip point for VIN rising (VTHR; VTHF is the trip point for VIN falling). This is the threshold voltage at which the comparator switches its output from low to high as VIN rises above the trip point. For this example, choose 3V. 7 Output Stage Circuitry These comparators contain a unique output stage capable of rail-to-rail operation with up to 8mA loads. Many comparators consume orders of magnitude more current during switching than during steady-state operation. However, with this family of comparators, the supply-current change during an output transition is extremely small. The Typical Operating Characteristics graph Supply Current vs. Output Transition Frequency shows the minimal supply-current increase as the output switching frequency approaches 1MHz. This characteristic eliminates the need for power-supply filter capacitors to reduce glitches created by comparator switching currents. Another advantage realized in highspeed, battery-powered applications is a substantial increase in battery life. _______________________________________________________________________________________ Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 5) Calculate R2 as follows. For this example, choose an 8.2k standard value: 1 R2 = VTHR 1 1 V - R1 - R 3 REF x R1 R2 = 1 = 8.03k 1 1 3.0V - - 12k 2.2M 1.2 x 12k Use the following procedure to calculate resistor values: 1) Select R3 according to the formulas R3 = V REF / 500A or R3 = (VREF - VCC) / 500A - R4. Use the smaller of the two resulting resistor values. 2) Choose the hysteresis band required (VHB). For this example, choose 50mV. 3) Calculate R1 according to the following equation: R1 = (R3 + R4) x (VHB / VCC) 4) Choose the trip point for VIN rising (VTHR; VTHF is the trip point for VIN falling). This is the threshold voltage at which the comparator switches its output from low to high as VIN rises above the trip point. 5) Calculate R2 as follows: R2 = 1 VTHR 1 1 V - R1 - R 3 + R4 REF x R1 6) Verify trip voltages and hysteresis as follows: 1 1 1 + + VIN rising: VTHR = VREF x R1 x R2 R3 R1 R1 x VCC VIN falling : VTHF = VTHR - R3 Hysteresis = VTHR - VTHF MAX986/MAX990/MAX994 The MAX986/MAX990/MAX994 have 3mV internal hysteresis. They have open-drain outputs and require an external pullup resistor (Figure 2). Additional hysteresis can be generated using positive feedback, but the formulas differ slightly from those of the MAX985/MAX989/MAX993. 6) Verify trip voltages and hysteresis as follows: VIN rising: VTHR = VREF x R1 x 1 1 1 + + R2 R3 + R4 R1 R1 x VCC VIN falling : VTHF = VTHR - R3 + R4 Hysteresis = VTHR - VTHF VCC R3 Board Layout and Bypassing R1 VIN VCC R2 VEE OUT R4 VREF MAX986 MAX990 MAX994 Power-supply bypass capacitors are not typically needed, but use 100nF bypass capacitors when supply impedance is high, when supply leads are long, or when excessive noise is expected on the supply lines. Minimize signal trace lengths to reduce stray capacitance. Figure 2. Additional Hysteresis (MAX986/MAX990/MAX994) 8 _______________________________________________________________________________________ Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators Zero-Crossing Detector Figure 3 shows a zero-crossing detector application. The MAX985's inverting input is connected to ground, and its noninverting input is connected to a 100mVP-P signal source. As the signal at the noninverting input crosses 0V, the comparator's output changes state. UCSP Applications Information For the latest application details on UCSP construction, dimensions, tape carrier information, PCB techniques, bump-pad layout, and recommended reflow temperature profile, as well as the latest information on reliability testing results, refer to the Application Note: UCSP--A Wafer-Level Chip-Scale Package on Maxim's web site at www.maxim-ic.com/ucsp. MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 Logic-Level Translator Figure 4 shows an application that converts 5V logic levels to 3V logic levels. The MAX986 is powered by the 5V supply voltage, and the pullup resistor for the MAX986's open-drain output is connected to the 3V supply voltage. This configuration allows the full 5V logic swing without creating overvoltage on the 3V logic inputs. For 3V to 5V logic-level translation, simply connect the 3V supply to VCC and the 5V supply to the pullup resistor. 5V (3V) VCC 3V (5V) 2 100mV 4 IN+ OUT 1 3 IN100k 3 IN+ VCC 4 INOUT 1 3V (5V) LOGIC OUT 2 100k VCC RPULLUP MAX985 VEE 5 5V (3V) LOGIC IN VEE 5 MAX986 Figure 3. Zero-Crossing Detector Figure 4. Logic-Level Translator _______________________________________________________________________________________ 9 Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 Typical Application Circuit VCC VIN VCC IN+ OUT IN- Ordering Information (continued) PART MAX985EUK-T MAX985ESA PIN-PACKAGE 5 SOT23-5 8 SO 5 SC70-5 5 SOT23-5 8 SO 8 SOT23-8 8 MAX-8 8 SO 8 SOT23-8 8 MAX-8 8 SO 14 TSSOP 14 SO 14 TSSOP 14 SO TOP MARK ABYZ -- ABL ABZA -- AADZ -- -- AAEA -- -- -- -- -- -- PKG CODE U5-1 S8-2 X5-1 U5-1 S8-2 K8-5 U8-1 S8-2 K8-5 U8-1 S8-2 U14-1 S14-1 K14-1 S14-1 *RPULLUP MAX986EXK-T MAX986EUK-T MAX986ESA MAX989EKA-T MAX989EUA-T MAX98_ MAX99_ VEE VREF MAX989ESA MAX990EKA-T MAX990EUA-T MAX990ESA MAX993EUD MAX993ESD MAX994EUD MAX994ESD *MAX986/MAX990/MAX994 ONLY. THRESHOLD DETECTOR Note: All devices are specified over the -40C to +85C operating temperature range. Pin Configurations (continued) TOP VIEW OUT 1 5 VEE N.C. 1 IN- 2 IN+ 3 8 7 N.C. VCC OUT N.C. OUTA 1 INA- 2 INA+ 3 VEE 4 8 7 VCC OUTB INBINB+ OUTA 1 INA- 2 INA+ 3 14 OUTD 13 IND12 IND+ VCC 2 MAX985 MAX986 4 IN- MAX985 MAX986 6 5 MAX989 MAX990 6 5 VCC 4 INB+ 5 INB- 6 IN+ 3 VEE 4 MAX993 MAX994 11 VEE 10 INC+ 9 8 INCOUTC SOT23/SC70 SO SO/MAX/SOT23 OUTB 7 SO/TSSOP 10 ______________________________________________________________________________________ Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators Package Information (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information, go to www.maxim-ic.com/packages.) SOT-23 5L .EPS MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 ______________________________________________________________________________________ 11 Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 Package Information (continued) (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information, go to www.maxim-ic.com/packages.) 6L, UCSP.EPS PACKAGE OUTLINE, 3x2 UCSP 21-0097 G 1 1 12 ______________________________________________________________________________________ Micropower, Low-Voltage, UCSP/SC70, Rail-to-Rail I/O Comparators Package Information (continued) (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information, go to www.maxim-ic.com/packages.) 8LUMAXD.EPS MAX985/MAX986/MAX989/MAX990/MAX993/MAX994 4X S 8 8 INCHES DIM A A1 A2 b MIN 0.002 0.030 MAX 0.043 0.006 0.037 MILLIMETERS MAX MIN 0.05 0.75 1.10 0.15 0.95 O0.500.1 E H 0.60.1 c D e E H L 1 1 0.60.1 S D BOTTOM VIEW 0.014 0.010 0.007 0.005 0.120 0.116 0.0256 BSC 0.120 0.116 0.198 0.188 0.026 0.016 6 0 0.0207 BSC 0.25 0.36 0.13 0.18 2.95 3.05 0.65 BSC 2.95 3.05 4.78 5.03 0.41 0.66 0 6 0.5250 BSC TOP VIEW A2 A1 A c e b L SIDE VIEW FRONT VIEW PROPRIETARY INFORMATION TITLE: PACKAGE OUTLINE, 8L uMAX/uSOP APPROVAL DOCUMENT CONTROL NO. REV. 21-0036 1 1 J 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. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 (408) 737-7600___________________ 13 (c) 2007 Maxim Integrated Products is a registered trademark of Maxim Integrated Products, Inc. |
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