MAX4244 Maxim, MAX4244 Datasheet

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MAX4244

Manufacturer Part Number
MAX4244
Description
The MAX4240–MAX4244 family of micropower op amps operate from a single +1
Manufacturer
Maxim
Datasheet
1.MAX4240.pdf (16 pages)

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Beyond-the-Rails is a trademark and µMAX is a registered
trademark of Maxim Integrated Products, Inc.
19-1343; Rev 3; 9/06
The MAX4240–MAX4244 family of micropower op amps
operate from a single +1.8V to +5.5V supply or dual
±0.9V to ±2.75V supplies and have Beyond-the-Rails™
inputs and rail-to-rail output capabilities. These ampli-
fiers provide a 90kHz gain-bandwidth product while
using only 10µA of supply current per amplifier. The
MAX4241/MAX4243 have a low-power shutdown mode
that reduces supply current to less than 1µA and forces
the output into a high-impedance state. Although the
minimum operating voltage is specified at +1.8V, these
devices typically operate down to +1.5V. The combina-
tion of ultra-low-voltage operation, beyond-the-rails
inputs, rail-to-rail outputs, and ultra-low power con-
sumption makes these devices ideal for any portable/
two-cell battery-powered system.
These amplifiers have an input common-mode range
that extends 200mV beyond each rail, and their out-
puts typically swing to within 9mV of the rails with a
100kΩ load. Beyond-the-rails input and rail-to-rail out-
put characteristics allow the full power-supply voltage
to be used for signal range. The combination of low
input offset voltage, low input bias current, and high
open-loop gain makes them suitable for low-power/low-
voltage precision applications.
The MAX4240 is offered in a space-saving 5-pin
SOT23 package. All specifications are guaranteed
over the -40°C to +85°C extended temperature range.
Two-Cell Battery-
Powered Systems
Portable/Battery-Powered
Electronic Equipment
Digital Scales
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.
MAX4240
MAX4241
MAX4242
MAX4243
MAX4244
PART
NO. OF
AMPS
1
1
2
2
4
________________________________________________________________ Maxim Integrated Products
SHUTDOWN
General Description
Single/Dual/Quad, +1.8V/10µA, SOT23,
Yes
Yes
Strain Gauges
Sensor Amplifiers
Cellular Phones
Notebook Computers
PDAs
Selector Guide
Applications
5-pin SOT23
8-pin µMAX/SO
8-pin µMAX/SO
10-pin µMAX,
14-pin SO
14-pin SO
PIN-PACKAGE
Beyond-the-Rails Op Amps
♦ Ultra-Low-Voltage Operation:
♦ Ultra-Low Power Consumption:
♦ Beyond-the-Rails Input Common-Mode Range
♦ Outputs Swing Rail-to-Rail
♦ No Phase Reversal for Overdriven Inputs
♦ 200µV Input Offset Voltage
♦ Unity-Gain Stable for Capacitive Loads up to 200pF
♦ 90kHz Gain-Bandwidth Product
♦ Available in Space-Saving 5-Pin SOT23 and
MAX4240EUK-T -40°C to +85°C
MAX4241EUA
MAX4241ESA
MAX4242EUA
MAX4242ESA
MAX4243EUB
MAX4243ESD
MAX4244ESD
Pin Configurations continued at end of data sheet.
8-Pin µMAX
TOP VIEW
Guaranteed Down to +1.8V
Typical Operation to +1.5V
10µA Supply Current per Amplifier
1µA Shutdown Mode (MAX4241/MAX4243)
Up to 200,000 Hours Operation from Two AA
Alkaline Cells
PART
®
OUT
Packages
V
IN+
TEMP RANGE
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
EE
1
2
3
Ordering Information
SOT23-5
MAX4240
Pin Configurations
PIN-
PACKAGE
5 SOT23-5
8 µMAX
8 SO
8 µMAX
8 SO
10 µMAX
14 SO
14 SO
4
5
V
IN-
CC
Features
MARK
ACCS
TOP
1

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MAX4244 Summary of contents

Page 1

... Rev 3; 9/06 Single/Dual/Quad, +1.8V/10µA, SOT23, General Description The MAX4240–MAX4244 family of micropower op amps operate from a single +1.8V to +5.5V supply or dual ±0.9V to ±2.75V supplies and have Beyond-the-Rails™ inputs and rail-to-rail output capabilities. These ampli- fiers provide a 90kHz gain-bandwidth product while using only 10µA of supply current per amplifier. The MAX4241/MAX4243 have a low-power shutdown mode that reduces supply current to less than 1µ ...

Page 2

... V = 5.0V CC MAX4241ESA MAX4242ESA/MAX4243ESD/ - 0.2V) ≤ V ≤ MAX4244ESD + 0.2V) CC MAX4240EUK/MAX424_EUA/ MAX4243EUB < 1.0V IN+ IN > 2.5V IN+ IN- MAX4241ESA MAX4242ESA/MAX4243ESD/ = 1.8V CC MAX4244ESD MAX4240EUK/MAX424_EUA/ MAX4243EUB MAX4241ESA MAX4242ESA/MAX4243ESD/ MAX4244ESD = 5.0V CC MAX4240EUK/MAX424_EUA/ MAX4243EUB / 2, SHDN = +25°C, unless MIN TYP MAX UNITS 1.8 5 µ 1.0 1.5 µA 2.0 3.0 ±0.20 ±0.75 ±0.20 ±0.88 mV ± ...

Page 3

... CH ISO Isolation (Note 6) Gain-Bandwidth GBW Product Phase Margin m Gain Margin G m Slew Rate SR _______________________________________________________________________________________ Beyond-the-Rails Op Amps = 100kΩ tied to V OUT CC L CONDITIONS MAX4241ESA MAX4242ESA/MAX4243ESD/ MAX4244ESD 1.8V ≤ V ≤ 5.5V CC MAX4240EUK/MAX424_EUA/ MAX4243EUB 0.2V) ≤ V ≤ EE OUT (V - 0.2V 5. 1.8V CC Specified ...

Page 4

... CC OUT STEP = 100kΩ tied to V OUT CONDITIONS 5.0V CC MAX4241ESA MAX4242ESA/MAX4243ESD/ - 0.2V) ≤ V ≤ MAX4244ESD + 0.2V) CC MAX4240EUK/MAX424_EUA/ MAX4243EUB / 2, SHDN = +25°C, unless MIN TYP MAX 70 0.05 200 50 150 200 3 = +1V/V 0. SHDN = unless oth MIN ...

Page 5

... Beyond-the-Rails Op Amps = 100kΩ tied to V OUT CC L CONDITIONS MAX4241ESA MAX4242ESA/MAX4243ESD/ MAX4244ESD V = 1.8V CC MAX4240EUK/MAX424_EUA/ MAX4243EUB MAX4241ESA MAX4242ESA/MAX4243ESD/ MAX4244ESD V = 5.0V CC MAX4240EUK/MAX424_EUA/ MAX4243EUB MAX4241ESA MAX4242ESA/MAX4243ESD/ MAX4244ESD 1.8V ≤ V ≤ 5.5V CC MAX4240EUK/MAX424_EUA/ MAX4243EUB 0.2V) ≤ V ≤ OUT (V - 0.2V 5. 1.8V CC Specified ...

Page 6

... Note 3: Input bias current and input offset current are tested with V Note 4: Tested over the specified input common-mode range. Note 5: Tested for 0 ≤ V ≤ Does not include current through external feedback network. OUT CC Note 6: Channel-to-channel isolation specification applies to the MAX4242/MAX4243/MAX4244 only. __________________________________________Typical Operating Characteristics (V = +5.0V ...

Page 7

Single/Dual/Quad, +1.8V/10µA, SOT23, ____________________________________Typical Operating Characteristics (continued +5.0V INPUT BIAS CURRENT vs. COMMON-MODE VOLTAGE (V = 5.5V +5.5V CC 2.5 0 ...

Page 8

... +1.8V +1.8V -60 -40 - 100 TEMPERATURE (°C) MAX4242/MAX4243/MAX4244 CROSSTALK vs. FREQUENCY - 10k L -70 -80 -90 -100 -110 10 100 1k 10k FREQUENCY (Hz) LOAD RESISTOR vs. CAPACITIVE LOAD 1000 10% OVE RSHOOT REGIO N OF MAR GINAL STABILITY ...

Page 9

Single/Dual/Quad, +1.8V/10µA, SOT23 +5.0V /2, V SHDN _______________________________________________________________________________________ Beyond-the-Rails Op Amps Typical Operating Characteristics (continued 100kΩ / +25°C unless ...

Page 10

... Reducing input capacitance or placing a small capacitor across the feedback resistor improves response in this case. The MAX4240–MAX4244 family’s inputs are protected from large differential input voltages by internal 2.2kΩ series resistors and back-to-back triple-diode stacks across the inputs (Figure 2). For differential input volt- ages (much less than 1.8V), input resistance is typically 45MΩ ...

Page 11

... Conversely, the bias current increases with the same curve. Rail-to-Rail Output Stage The MAX4240–MAX4244 output stage can drive 10kΩ load and still swing to within 40mV of the rails. Figure 3 shows the output voltage swing of a MAX4240 configured as a unity-gain buffer, powered from a single +2V supply voltage ...

Page 12

... Figures 7a and 7b show the typical current source and sink capability of the MAX4240–MAX4244 family as a function of supply voltage and ambient temperature. The contours on the graph depict the output current 12 ...

Page 13

... (+0.9V in this case). CC Driving Capacitive Loads The MAX4240–MAX4244 are unity-gain stable for loads up to 200pF (see Load Resistor vs. Capacitive Load graph in Typical Operating Characteristics ). Applica- tions that require greater capacitive drive capability should use an isolation resistor between the output and the capacitive load (Figure 8) ...

Page 14

... Beyond-the-Rails Op Amps Using the MAX4240–MAX4244 as Comparators Although optimized for use as operational amplifiers, the MAX4240–MAX4244 can also be used as rail-to-rail I/O comparators. Typical propagation delay depends on the input overdrive voltage, as shown in Figure 9. External hysteresis can be used to minimize the risk of output oscillation. The positive feedback circuit, shown in Figure 10, causes the input threshold to change when the output voltage changes state ...

Page 15

... OUTB INA- 12 INB- INA+ 11 INB N.C. INB+ 9 SHDNB INB- 8 N.C. OUTB SO EE OUTA 1 10 INA- 2 MAX4243 INA SHDNA 5 MAX 1 14 OUTD 2 13 IND IND+ MAX4244 INC INC OUTC OUTB 8 INB- 7 INB+ 6 SHDNB 15 ...

Page 16

... Revision History Pages changed at Rev 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. ...

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