V OUT. +Denotes lead(pb)-free/rohs-compliant package. PART

9-346; Rev 2; / 2kHz, 4µA, Rail-to-Rail General Description The single MAX99/MAX99 and dual MAX992/ MAX993 operational amplifiers (op amps) feature a maximized ratio of gain bandwidth (GBW) to supply current and are ideal for battery-powered applications such as portable instrumentation, portable medical equipment, and wireless handsets. These CMOS op amps feature an ultra-low input-bias current of pa, railto-rail inputs and outputs, low supply current of 4µA, and operate from a single.8v to 5.5V supply. For additional power conservation, the MAX99/MAX993 feature a low-power shutdown mode that reduces supply current to na, and puts the amplifiers outputs in a high-impedance state. These devices are unity-gain stable with a 2kHz GBW product. The MAX99 is available in a 5-pin SC7 package. The MAX99 is available in tiny 6-bump WLP and a 6-pin SC7 packages. The MAX992 is available in an 8-pin SOT23 package, and the MAX993 is available in a - pin µmax package. All devices are specified over the -4 C to +85 C extended operating temperature range. Portable Medical Devices Portable Test Equipment Laptops Data-Acquisition Equipment V MID OUTA INB- INA- INA+ Applications Typical Operating Circuit.8V TO 5.5V V DD OUTB V OUT 25kΩ Features 2kHz GBW Ultra-Low 4µA Supply Current Single.8V to 5.5V Supply Voltage Range Ultra-Low pa Input Bias Current Rail-to-Rail Input and Output Voltage Ranges Low ±2µV Input Offset Voltage Low.µA Shutdown Current High-Impedance Output During Shutdown (MAX99/MAX993) Unity-Gain Stable Available in Tiny WLP, SC7, SOT23, and µmax Packages PART Ordering Information TEMP RANGE PIN- PACKAGE TOP MARK MAX99EXK+T -4 C to +85 C 5 SC7 AGA MAX99EXK-T -4 C to +85 C 5 SC7 AGA MAX99EXT+T -4 C to +85 C 6 SC7 ACA MAX99EXT-T -4 C to +85 C 6 SC7 ACA MAX99EWT+ -4 C to +85 C 6 WLP BQ MAX992EKA+T -4 C to +85 C 8 SOT23 AEJY MAX992EKA-T -4 C to +85 C 8 SOT23 AEJY MAX993EUB -4 C to +85 C µmax MAX993EUB+ -4 C to +85 C µmax +Denotes lead(pb)-free/rohs-compliant package. MAX99 MAX993 OFF ON V SS SHDNA MAX993 INB+ SHDNB V MID + V BIAS ON OFF PART AMPLIFIERS PER PACKAGE Selector Guide SHUTDOWN MODE MΩ CE RE GLUCOSE SENSOR THREE ELECTRODE GLUCOSE METER APPLICATION WITH SHUTDOWN WE MAX99EXK-T No MAX99EXT-T Yes MAX992EKA-T 2 No MAX993EUB 2 Yes µmax is a registered trademark of Maxim Integrated Products, Inc. Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim Direct at -888-629-4642, or visit Maxim s website at www.mxim-ic.com.

2kHz, 4µA, Rail-to-Rail MAX99 MAX993 ABSOLUTE MAXIMUM RATINGS Power-Supply Voltage (V DD to V SS )...-.3V to +6.V IN_+, IN_-, OUT_, SHDN_... (V SS -.3V) to (V DD +.3V) Current into IN_+, IN_-...±2mA Output Short-Circuit Duration to V DD or V SS...Continuous Continuous Power Dissipation (T A = +7 C) 5-Pin SC7 (derate 3.mW/ C above +7 C)... 247mW 6-Bump WLP (derate.5mw/ C above +7 C)...84mW 6-Pin SC7 (derate 3.mW/ C above +7 C)... 245mW 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 8-Pin SOT23 (derate 9.mW/ C above +7 C)... 727mW -Pin µmax (derate 5.6mW/ C above +7 C)...444mW Operating Temperature Range... -4 C to +85 C Junction Temperature...+5 C Storage Temperature Range...-65 C to +5 C Lead Temperature (excluding WLP, soldering s)...+3 C Soldering Temperature (reflow) Lead(Pb)-Free Packages...+26 C Packages Containing Lead(Pb)...+24 C (V DD =.8V to 5.5V, V SS = V, V CM = V, V OUT = V DD / 2, R L = connected to V DD / 2, SHDN_ = V DD, T A = +25 C, unless otherwise noted.) (Note ) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Supply Voltage Range V DD Guaranteed by PSRR test.8 5.5 V MAX99/MAX99 Supply Current I DD MAX992/MAX993 V DD =.8V 4 V DD = 5.5V 4 5. V DD =.8V 7 V DD = 5.5V 7 9 Shutdown Supply Current I DD(SHDN_) SHDN_ = GND, MAX99/MAX993..5 µa Input Offset Voltage V OS ±.2 ± mv Input-Offset-Voltage Matching MAX992/MAX993 ±25 µv Input Bias Current I B (Note 2) ± ± pa Input Offset Current I OS (Note 2) ± ± pa Common mode Input Resistance R IN Differential mode, -mv < V IN < +mv µa GΩ Input Common-Mode Range V CM Guaranteed by CMRR test Common-Mode Rejection Ratio CMRR -.V < V CM < V DD +.V, V DD = 5.5V 7 8 db Power-Supply Rejection Ratio PSRR.8V < V DD < 5.5V 65 95 db 25mV < V OUT < V DD - 25mV, R L = kω, V DD = 5.5V Open-Loop Gain A VOL mv < V OUT < V DD - mv, R L = 5kΩ, V DD = 5.5V V SS -. 95 2 95 V DD +. R L = kω 2.5 5 R L = 5kΩ 5 7 Output-Voltage-Swing High V OH V DD - V OUT R L = kω 25 V db mv R L = kω 2.5 5 R L = 5kΩ 5 7 Output-Voltage-Swing Low V OL V OUT - V SS R L = kω 25 mv Channel-to-Channel Isolation CH ISO Specified at DC, MAX992/MAX993 db Output Short-Circuit Current I OUT(SC) ±5 ma 2

2kHz, 4µA, Rail-to-Rail ELECTRICAL CHARACTERISTICS (continued) (V DD =.8V to 5.5V, V SS = V, V CM = V, V OUT = V DD / 2, R L = connected to V DD / 2, SHDN_ = V DD, T A = +25 C, unless otherwise noted.) (Note ) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS V DD =.8V to 3.6V, MAX99/MAX993.4 SHDN_ Logic Low V IL V DD = 3.6V to 5.5V, MAX99/MAX993.8 V DD =.8V to 3.6V, MAX99/MAX993.4 SHDN_ Logic High V IH V DD = 3.6V to 5.5V, MAX99/MAX993 2 SHDN_ Input Bias Current I IL SHDN_ = V SS, MAX99/MAX993 (Note 2) I IH SHDN_ = V DD, MAX99/MAX993 5 Output Leakage in Shutdown I OUT(SHDN_) SHDN_ = V SS, V OUT = V to V DD, MAX99/MAX993 V V na 5 na Gain-Bandwidth Product 2 khz Slew Rate. V/µs Capacitive-Load Stability (See the Driving Capacitive Loads Section) C LOAD No sustained oscillations A V = V/V 3 A V = V/V 25 R L = 5kΩ, A V = V/V 2 R ISO = kω, A V = V/V Input Voltage-Noise Density f = khz 4 nv/ Hz Input Current-Noise Density f = khz. pa/ Hz Settling Time To.%, V OUT = 2V step, A V = -V/V 8 µs Delay Time to Shutdown t SH I DD = 5% of normal operation, V DD = 5.5V, V SHDN_ = 5.5V to step Delay Time to Enable t EN V OUT = 2.7V, V OUT settles to.%, V DD = 5.5V, V SHDN_ = to 5.5V step pf 2 µs 3 µs Power-Up Time V DD = to 5.5V step 5 µs MAX99 MAX993 ELECTRICAL CHARACTERISTICS (V DD =.8V to 5.5V, V SS = V, V CM = V, V OUT = V DD /2, R L = connected to V DD / 2, SHDN_ = V DD, T A = -4 C to +85 C, unless otherwise noted.) (Note ) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Supply Voltage Range V DD Guaranteed by PSRR test.8 5.5 V MAX99/MAX99 5.5 Supply Current I DD V DD = 5.5V MAX992/MAX993 Shutdown Supply Current I DD(SHDN_) SHDN_ = GND, MAX99/MAX993 µa Input Offset Voltage V OS ±5 mv Input-Offset-Voltage Temperature Coefficient TC VOS ±5 µv/ C µa 3

2kHz, 4µA, Rail-to-Rail MAX99 MAX993 ELECTRICAL CHARACTERISTICS (continued) (V DD =.8V to 5.5V, V SS = V, V CM = V, V OUT = V DD /2, R L = connected to V DD / 2, SHDN_ = V DD, T A = -4 C to +85 C, unless otherwise noted.) (Note ) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Input Bias Current I B ±3 pa Input Offset Current I OS ±2 pa Input Common-Mode Range V CM Guaranteed by CMRR test Common-Mode Rejection Ratio CMRR -.5V < V CM < V DD +.5V, V DD = 5.5V 6 db Power-Supply Rejection Ratio PSRR.8V < V DD < 5.5V 59 db 25mV < V OUT < V DD - 25mV, R L = kω, V DD = 5.5V Open-Loop Gain A VOL 5mV < V OUT < V DD - 5mV, R L = 5kΩ, V DD = 5.5V R L = kω 5 Output-Voltage-Swing High V OH V DD - V OUT R L = 5kΩ 9 V SS -.5 85 8 V DD +.5 V db mv R L = kω 5 Output-Voltage-Swing Low V OL V OUT - V SS R L = 5kΩ 9 V DD =.8V to 3.6V.4 SHDN_ Logic Low V IL V DD = 3.6V to 5.5V.8 V DD =.8V to 3.6V, MAX99/MAX993.4 SHDN_ Logic High V IH V DD = 3.6V to 5.5V, MAX99/MAX993 2 mv V V SHDN_ Input-Bias Current I IL SHDN_ = V SS, MAX99/MAX993 5 na I IH SHDN_ = V DD, MAX99/MAX993 na Output Leakage in Shutdown I OUT(SHDN_) SHDN_ = V SS, V OUT = V to V DD, MAX99/MAX993 na Note : Specifications are % tested at T A = +25 C (exceptions noted). All temperature limits are guaranteed by design. Note 2: Guaranteed by design, not production tested. 4

2kHz, 4µA, Rail-to-Rail Typical Operating Characteristics (V DD = 3V, V SS = V CM = V, R L to V DD / 2, T A = +25 C, unless otherwise noted.) ICC (µa) 9 8 7 6 5 4 3 2 DUAL SINGLE SUPPLY CURRENT vs. SUPPLY VOLTAGE T A = +85 C T A = +25 C T A = -4 C T A = +25 C T A = +85 C T A = -4 C.8 2.6 3.4 4.2 5. 5.5 V SUPPLY (V) MAX99 toc SHUTDOWN SUPPLY CURRENT (na) 2 8 6 4 2 SHUTDOWN SUPPLY CURRENT vs. TEMPERATURE -4-5 35 6 85 TEMPERATURE ( C) MAX99 toc2 VOS (µv) 75 5 25-25 -5 INPUT OFFSET VOLTAGE vs. INPUT COMMON-MODE VOLTAGE T A = +25 C T A = -4 C -75 T A = +85 C -.5..5 2. 2.5 3. V CM (V) MAX99 toc3 MAX99 MAX993 VOS (µv) 2 5 5-5 - -5-2 -25-3 INPUT OFFSET VOLTAGE vs. TEMPERATURE MAX99 toc4 IB (pa) 7 6 5 4 3 2 - -2 INPUT BIAS CURRENT vs. TEMPERATURE I B - I B + MAX99 toc5 IB (pa) 5 4 3 2 - -2-3 -4 INPUT BIAS CURRENT vs. INPUT COMMON-MODE VOLTAGE MAX99 toc6-35 -4-5 35 6 85 TEMPERATURE ( C) -3-4 -5 35 6 85 TEMPERATURE ( C) -5 -.5.5..5 2. 2.5 3. 3.5 V CM (V) PSRR (db) -2-4 -6-8 POWER-SUPPLY REJECTION RATIO vs. FREQUENCY MAX99 toc7 CMRR (db) 4 2 8 6 4 COMMON-MODE REJECTION RATIO vs. TEMPERATURE MAX99 toc8 CMRR (db) - -2-3 -4-5 -6-7 COMMON-MODE REJECTION RATIO vs. FREQUENCY MAX99 toc9-2 -8-9 -2. k k FREQUENCY (Hz) -4-5 35 6 85 TEMPERATURE ( C) - k k k FREQUENCY (Hz) 5

2kHz, 4µA, Rail-to-Rail MAX99 MAX993 SLEW RATE (V/µS) Typical Operating Characteristics (continued) (V DD = 3V, V SS = V CM = V, R L to V DD / 2, T A = +25 C, unless otherwise noted.) SLEW RATE vs. SUPPLY VOLTAGE.6.5.4.3.2. -. -.2 -.3 -.4.8 2.6 3.4 4.2 5. 5.5 SUPPLY VOLTAGE (V) MAX99 toc OUTPUT VOLTAGE SWING (mv) R L = kω R L = kω OUTPUT-SWING HIGH vs. TEMPERATURE R L = 5kΩ R L TO V SS V OH = V DD - V OUT -4-5 35 6 85 TEMPERATURE ( C) MAX99 toc OUTPUT VOLTAGE SWING (mv) V OL = V OUT - V SS R L TO V DD R L = 5kΩ OUTPUT-SWING LOW vs. TEMPERATURE R L = kω R L = kω -4-5 35 6 85 TEMPERATURE ( C) MAX99 toc2 AVOL (db) 4 2 8 6 4 OPEN-LOOP GAIN vs. TEMPERATURE (R L TO V SS ) R L = kω R L = 5kΩ R L = kω MAX99 toc3 AVOL (db) 4 2 8 6 4 OPEN-LOOP GAIN vs. TEMPERATURE (R L TO V DD ) R L = kω R L = kω R L = 5kΩ MAX99 toc4 GAIN (db) GAIN AND PHASE vs. FREQUENCY (R L =, C LOAD = 5pF) MAX99 toc5 8 8 GAIN A V = V/V 6 35 4 2-2 -4 PHASE 9 45-45 -9 PHASE (DEGREES) 2 2-6 -35-4 -5 35 6 85 TEMPERATURE ( C) -4-5 35 6 85 TEMPERATURE ( C) -8-8 k k k M FREQUENCY (Hz) GAIN (db) GAIN AND PHASE vs. FREQUENCY (R L = 5kΩ, C LOAD = pf) MAX99 toc6 225 A V = V/V 8 8 GAIN 6 35 4 2-2 -4-6 -8 PHASE - -225 k k k M FREQUENCY (Hz) 9 45-45 -9-35 -8 PHASE (DEGREES) CROSSTALK (db) -2-4 -6-8 - MAX992/MAX993 CROSSTALK vs. FREQUENCY -2 k k k FREQUENCY (Hz) MAX99 toc7 THD+N (db) -5-5 -25-35 -45-55 -65-75 -85 TOTAL HARMONIC DISTORTION PLUS NOISE vs. FREQUENCY V OUT = 2V P-P -95 k k FREQUENCY (Hz) MAX99 toc8 6

2kHz, 4µA, Rail-to-Rail VOLTAGE NOISE (nv/ Hz), Typical Operating Characteristics (continued) (V DD = 3V, V SS = V CM = V, R L to V DD / 2, T A = +25 C, unless otherwise noted.) VOLTAGE-NOISE DENSITY vs. FREQUENCY k k k FREQUENCY (Hz) MAX99 toc9 RISO (Ω) 8 7 6 5 4 3 2 RESISTOR ISOLATION vs. CAPACITIVE LOAD A V = V/V FOR A V = V/V NO R ISO NEEDED, C LOAD (pf) MAX99 toc2 V DD V/div OUTPUT 5mV/div POWER-UP SETTLING TIME 5ns/div MAX99 toc2 = V DD / 2 A V = V/V MAX99 MAX993 SHDN SHUTDOWN RESPONSE MAX99 toc22 = V DD / 2 A V = V/V 3V 5mV/div SMALL-SIGNAL PULSE RESPONSE (C LOAD = 5pF) MAX99 toc23 A V = V/V 5mV/div SMALL-SIGNAL PULSE RESPONSE (C LOAD = pf) MAX99 toc24 A V = V/V V OUTPUT.5V V OUTPUT 5mV/div OUTPUT 5mV/div 2µs/div µs/div 2µs/div LARGE-SIGNAL PULSE RESPONSE (C LOAD = 5pF) MAX99 toc25 A V = V/V LARGE-SIGNAL PULSE RESPONSE (C LOAD = pf) MAX99 toc26 A V = V/V V/div mv/div OUTPUT V/div OUTPUT V/div µs/div µs/div 7

2kHz, 4µA, Rail-to-Rail MAX99 MAX993 Typical Operating Characteristics (continued) (V DD = 3V, V SS = V CM = V, R L to V DD / 2, T A = +25 C, unless otherwise noted.) GAIN (db) 8 6 4 2-2 -4-6 -8 A V = +V/V V OUT = mv P-P C LOAD = 5pF SMALL-SIGNAL GAIN vs. FREQUENCY - FREQUENCY (khz) MAX99 toc27 GAIN (db) 4 3 2 - -2-3 -4 A V = +V/V V OUT = 2V P-P C LOAD = 5pF LARGE-SIGNAL GAIN vs. FREQUENCY FREQUENCY (khz) MAX99 toc28 4. 3.5 3. A V = V/V PERCENT OVERSHOOT vs. CAPACITIVE LOAD R L = MΩ MAX99 toc29 5mV/div OUTPUT WAVEFORM WITH R ISO (C LOAD = pf, R ISO = 6.2kΩ) MAX99 toc3 A V = V/V OVERSHOOT (%) 2.5 2..5. R L = kω OUTPUT 5mV/div.5 R L = kω 2 4 6 8 C LOAD (pf) 2µs/div OUTPUT WAVEFORM WITHOUT R ISO (C LOAD = pf) MAX99 toc3 A V = V/V 5mV/div OUTPUT 5mV/div 2µs/div 8

2kHz, 4µA, Rail-to-Rail MAX99 (WLP) MAX99 PIN MAX99 (SC7) MAX992 MAX993 NAME FUNCTION A Noninverting Amplifier Input A2 2 2 4 4 V SS Negative Supply Voltage B 3 3 IN- Inverting Amplifier Input C 4 4 OUT Amplifier Output B2 5 6 8 V DD Positive Supply Voltage C2 5 SHDN Shutdown OUTA Amplifier Output Channel A 2 2 INA- Inverting Amplifier Input Channel A 3 3 INA+ Noninverting Amplifier Input Channel A 5 SHDNA Shutdown Channel A 6 SHDNB Shutdown Channel B 5 7 INB+ Noninverting Amplifier Input Channel B 6 8 INB- Inverting Amplifier Input Channel B 7 9 OUTB Amplifier Output Channel B Pin Description MAX99 MAX993 Detailed Description Featuring a maximized ratio of GBW to supply current, low operating supply voltage, low input bias current, and rail-to-rail inputs and outputs, the MAX99 MAX993 are an excellent choice for precision or general-purpose, low-current, low-voltage, battery-powered applications. These CMOS devices consume an ultralow 4µA (typ) supply current and a 2µV (typ) offset voltage. For additional power conservation, the MAX99/MAX993 feature a low-power shutdown mode that reduces supply current to na (typ), and puts the amplifiers output in a high-impedance state. These devices are unity-gain stable with a 2kHz GBW product, driving capacitive loads up to 3pF. The capacitive load can be increased to 25pF when the amplifier is configured for a V/V gain. Rail-to-Rail Inputs and Outputs All of the MAX99 MAX993 amplifiers have a parallelconnected n- and p-channel differential input stage that allows an input common-mode voltage range that extends mv beyond the positive and negative supply rails, with excellent common-mode rejection. The MAX99 MAX993 are capable of driving the output to within 5mV of both supply rails with a kω load. These devices can drive a 5kΩ load with swings to within 6mV of the rails. Figure shows the output voltage swing of the MAX99 MAX993 configured as a unity-gain buffer powered from a single 3V supply. Low Input Bias Current The MAX99 MAX993 feature ultra-low pa (typ) input bias current. The variation in the input bias current is minimal with changes in the input voltage due to very high input impedance (in the order of GΩ). Applications Information Driving Capacitive Loads The MAX99 MAX993 amplifiers are unity-gain stable for loads up to 3pF. However, the capacitive load can be increased to 25pF when the amplifier is configured for a minimum gain of V/V. Applications that require greater capacitive-drive capability should use an isolation resistor between the output and the capacitive load (Figure 2). Also, in unity-gain applications with relatively small R L (approximately 5kΩ), the capacitive load can be increased up to 2pF. Power-Supply Considerations The MAX99 MAX993 are optimized for single.8v to 5.5V supply operation. A high amplifier power-supply 9

2kHz, 4µA, Rail-to-Rail MAX99 MAX993 rejection ratio of 95dB (typ) allows the devices to be powered directly from a battery, simplifying design and extending battery life. Power-Up Settling Time The MAX99 MAX993 typically require 5µs after power-up. Supply settling time depends on the supply voltage, the value of the bypass capacitor, the output impedance of the incoming supply, and any lead resistance or inductance between components. Op-amp settling time depends primarily on the output voltage and is slew-rate limited. Figure 3 shows the MAX99_ in a noninverting voltage follower configuration with the input held at midsupply. The output settles in approximately 8µs for V DD = 3V (see the Typical Operating Characteristics for power-up settling time). Shutdown Mode The MAX99/MAX993 feature active-low shutdown inputs. The MAX99/MAX993 enter shutdown in 2µs (typ) and exit in 3µs (typ). The amplifiers outputs are in a high-impedance state in shutdown mode. Drive SHDN low to enter shutdown. Drive SHDN high to enable the amplifier. The MAX993 dual-amplifier features separate shutdown inputs. Shut down both amplifiers for the lowest quiescent current. Power-Supply Bypassing and Layout To minimize noise, bypass V DD with a.µf capacitor to ground, as close to the pin as possible. Good layout techniques optimize performance by decreasing the amount of stray capacitance and inductance to the op amps inputs and outputs. Minimize stray capacitance and inductance by placing external components close to the IC. 3V V 3V V RAIL-TO-RAIL OUTPUT VOLTAGE RANGE 2µs/div Figure. Rail-to-Rail Output Voltage Range MAX99 MAX993 IN_ V/div OUT_ V/div Figure 2. Using a Resistor to Isolate a Capacitive Load from the Op Amp R ISO R L C L R L A V = V/V R L + R ISO V 5.5V kω IN- V DD MAX99_ V SS OUT kω Figure 3. Power-Up Test Configuration

2kHz, 4µA, Rail-to-Rail MAX99 A IN- B OUT C V SS A2 V DD B2 SHDN C2 WLP BUMP SIDE DOWN MAX992 V SS TOP VIEW MAX99 5 V DD 2 3 4 OUT SC7 MAX993 IN- V SS IN- Pin Configurations MAX99 SHDN 6 V DD 2 5 SHDN 3 4 OUT SC7 MAX99 MAX993 OUTA 8 V DD OUTA V DD INA- 2 INA+ 3 7 6 OUTB INB- INA- 2 INA+ 3 V SS 4 SHDNA 9 8 7 OUTB INB- INB+ V SS 4 5 INB+ SHDNA 5 SHDNB 6 SHDNB SOT23 µmax PROCESS: BiCMOS Chip Information

2kHz, 4µA, Rail-to-Rail MAX99 MAX993 Package Information For the latest package outline information and land patterns, go to www.maxim-ic.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 SC7 X5+ 2-76 9-88 6 SC7 X6SN+ 2-77 9-89 6 WLP W6B+ 2-27 8 SOT23 K8+5 2-78 9-76 µmax U+2 2-6 9-33 SC7, 5L.EPS PACKAGE OUTLINE, 5L SC7 2-76 E 2

2kHz, 4µA, Rail-to-Rail Package Information (continued) For the latest package outline information and land patterns, go to www.maxim-ic.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. MAX99 MAX993 3

2kHz, 4µA, Rail-to-Rail MAX99 MAX993 Package Information (continued) For the latest package outline information and land patterns, go to www.maxim-ic.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. 4

2kHz, 4µA, Rail-to-Rail REVISION NUMBER REVISION DATE DESCRIPTION Revision History PAGES CHANGED 2 / Added WLP package, 2, 9, MAX99 MAX993 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, 2 San Gabriel Drive, Sunnyvale, CA 9486 48-737-76 7 2 Maxim Integrated Products Maxim is a registered trademark of Maxim Integrated Products, Inc.