MAX474ESA+ ,Single/Dual/Quad, 10MHz Single-Supply Op AmpsApplicationsMAX473CSA 0°C to +70°C 8 SOPortable EquipmentMAX473CUA 0°C to +70°C 8 μMAXBattery-Power ..
MAX4751EGE+ ,0.9Ω, Low-Voltage, Single-Supply Quad SPST Analog Switches
MAX4751EUD ,0.9Ω, Low-Voltage, Single-Supply Quad SPST Analog Switches
MAX4751EUD+ ,0.9Ω, Low-Voltage, Single-Supply Quad SPST Analog Switches
MAX4751EUD+ ,0.9Ω, Low-Voltage, Single-Supply Quad SPST Analog Switches
MAX4753EGE+ ,0.9Ω, Low-Voltage, Single-Supply Quad SPST Analog Switches
MAX8875EUK25+T ,150mA, Low-Dropout Linear Regulator with Power OK Output
MAX8875EUK25-T ,150mA, Low-Dropout Linear Regulator with Power-OK Output
MAX8875EUK27+T ,150mA, Low-Dropout Linear Regulator with Power OK Output
MAX8875EUK27-T ,150mA, Low-Dropout Linear Regulator with Power-OK Output
MAX8875EUK30+T ,150mA, Low-Dropout Linear Regulator with Power OK Output
MAX8875EUK30-T ,150mA, Low-Dropout Linear Regulator with Power-OK Output
MAX474ESA+
Single/Dual/Quad, 10MHz Single-Supply Op Amps
Not Recommended for New Designs This product was manufactured for Maxim by an outside wafer foundry
using a process that is no longer available. It is not recommended for
new designs. The data sheet remains available for existing users.
A Maxim replacement or an industry second-source may be available.
Please see the QuickView data sheet for this part or contact technical
support for assistance.
For further information, contact Maxim’s Applications Tech Support.
_______________General DescriptionThe single MAX473, dual MAX474, and quad MAX475
are single-supply (2.7V to 5.25V), unity-gain-stable op
amps with rail-to-rail output swing. Each op amp guar-
antees a 10MHz unity-gain bandwidth, 15V/μs slew
rate, and 600Ωdrive capability while typically consum-
ing only 2mA supply current. In addition, the input
range includes the negative supply rail and the output
swings to within 50mV of each supply rail.
Single-supply operation makes these devices ideal for
low-power and low-voltage portable applications. With
their fast slew rate and settling time, they can replace
higher-current op amps in large-signal applications.
The MAX473/MAX474/MAX475 are available in DIP and
SO packages in the industry-standard op-amp pin
configurations. The MAX473 and MAX474 are also
offered in the μMAX package, the smallest 8-pin SO.
________________________ApplicationsPortable Equipment
Battery-Powered Instruments
Signal Processing
Discrete Filters
Signal Conditioning
Servo-Loops
____________________________Features15V/μs Min Slew Rate+3V Single-Supply OperationGuaranteed 10MHz Unity-Gain Bandwidth2mA Supply Current per AmplifierInput Range Includes Negative RailOutputs Short-Circuit ProtectedRail-to-Rail Output Swing (to within ±50mV)μMAX Package (the smallest 8-pin SO)
______________Ordering Information
Single/Dual/Quad, 10MHz
Single-Supply Op Amps
________________________________________________________________Maxim Integrated Products1NULL
VCC
OUT
N.C.VEE
IN+
IN-
NULLMAX473
DIP/SO/μMAXTOP VIEW
VCC
OUTB
INB-
INB+VEE
INA+
INA-
OUTAMAX474
DIP/SO/μMAXPin Configurations continued on last page.
_________________Pin Configurations9.9k
9.9k
9.9k
9.9k
9.9k
9.9k
127k
BANDPASS OUTPUT
1Vp-p at 190kHz
VIN
100mVp-p
fo = 190kHz
Q = 10
BANDPASS FILTER82pF82pF
1/4 MAX475
1/4 MAX475
1/4 MAX475
__________Typical Operating Circuit
Call toll free 1-800-998-8800 for free samples or literature.19-0260; Rev 1; 3/95
PART
MAX473CPAMAX473CSA
MAX473C/D0°C to +70°C
0°C to +70°C
0°C to +70°C
TEMP. RANGEPIN-PACKAGE8 Plastic DIP
8 SO
Dice*
MAX473EPA-40°C to +85°C8 Plastic DIP
MAX473ESA-40°C to +85°C8 SO
MAX473MJA-55°C to +125°C8 CERDIP
Ordering Information continued on last page.* Dice are specified at TA= +25°C, DC parameters only.
MAX473CUA0°C to +70°C8 μMAX
Single/Dual/Quad, 10MHz
Single-Supply Op Amps_______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS(+3V ≤VCC≤+5V, VEE= 0V, VCM= 0.5V, VOUT= 0.5V, TA= +25°C, unless otherwise noted.)
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.
Supply Voltage (VCC- VEE)......................................................7V
Input Voltage (IN+, IN-, IN_+, IN_-).........................(VCC+ 0.3V)
to (VEE- 0.3V)
Output Short-Circuit Duration.....................................Continuous
Continuous Power Dissipation (TA= +70°C)
8-Pin Plastic DIP (derate 9.09mW/°C above +70°C)...727mW
8-Pin SO (derate 5.88mW/°C above +70°C)................471mW
8-Pin μMAX (derate 4.1mW/°C above +70°C).............330mW
8-Pin CERDIP (derate 8.00mW/°C above +70°C)........640mW
14-Pin Plastic DIP (derate 10.00mW/°C above +70°C)...800mW
14-Pin SO (derate 8.33mW/°C above +70°C)..............667mW
14-Pin CERDIP (derate 9.09mW/°C above +70°C)......727mW
Operating Temperature Ranges
MAX47_C_ _ ......................................................0°C to +70°C
MAX47_E_ _.....................................................-40°C to +85°C
MAX47_MJ_...................................................-55°C to +125°C
Junction Temperatures
MAX47_C_ _/E_ _........................................................+150°C
MAX47_MJ_................................................................+175°C
Storage Temperature Range.............................-65°C to +160°C
Lead Temperature (soldering, 10sec).............................+300°C
VIN+ - VIN- = +1V, RL= no load
Sourcing 5mA
MAX475
Sinking 5mA
MAX474
MAX473
0.3V ≤VOUT≤
(VCC- 0.5V)
VCC= 2.7V to 6.0V
VEE≤VCM≤(VCC- 1.9V)
Current flows out of terminals
f = 10kHz
HighVCC- 0.05VOHOutput Voltage
AVOLLarge-Signal Gain
(Note 1)
nV/√Hz40enInput Noise-Voltage Density
±0.80±2.5
VOSInput Offset Voltage±0.70±2.0
±0.70±2.08090PSRRPower-Supply Rejection Ratio8090CMRRCommon-Mode Rejection Ratio080150IBInput Bias Current±10±30IOSInput Offset CurrentVCC- 1.9VCC- 1.7Common-Mode Voltage17Slew RateSRVCC= 5V, RL= 10kΩ, CL= 20pF,
VIN+ - VIN- = +1V stepV/μs= no load= 10kΩ= 600Ω
VCC= 5V
VCC= 3V
VCC= 5V
VCC= 3V
Unity-Gain Bandwidth
(Note 2)GBW3V ≤VCC≤5V1012MHzVCC= 2.7V10
VCMLow
VOLVIN+ - VIN- = -1V, RL= no loadVEE+ 0.05
VEE- 0.1VEE
CONDITIONSUNITSMINTYPMAXSYMBOLPARAMETER
Single/Dual/Quad, 10MHz
Single-Supply Op Amps
_______________________________________________________________________________________3
ELECTRICAL CHARACTERISTICS (continued)(+3V ≤VCC≤+5V, VEE= 0V, VCM= 0.5V, VOUT= 0.5V, TA= +25°C, unless otherwise noted.)
ELECTRICAL CHARACTERISTICS(+3V ≤VCC≤+5V, VEE= 0V, VCM= 0.5V, VOUT= 0.5V, TA= 0°C to +70°C, unless otherwise noted.)= 20pF= 150pF
To 0.1%, CL= 20pF
Single supply
Per amplifier= 10kΩ,= 20pF= 10kΩ,= 20pF
CONDITIONS5Overshoot10400tSSettling Time
2.75.252.03.0ISSupply Currentdegrees58Phase MargindB12Gain Margin
UNITSMINTYPMAXSYMBOLPARAMETERMAX475
MAX474
MAX473
Dual supplies
Single supply
VIN+ - VIN- = +1V, RL= no load
Per amplifier
VCC= 5V, RL= 10kΩ, CL= 20pF,
VIN+ - VIN- = +1V step
0.4V ≤VOUT≤
(VCC- 0.6V)
Current flows out of terminals
VEE≤VCM≤(VCC- 1.9V)
VCC= 2.7V to 6.0V
CONDITIONS±1.35±2.625
Operating Supply-Voltage
Range
2.75.253.3ISSupply Current
V/μsSRSlew Rate
±3.0
VOSInput Offset Voltage±2.0
±2.0VOHOutput VoltageVCC- 0.0780AVOLLarge-Signal Gain
(Note 1)0175IBInput Bias Current±35IOSInput Offset Current78CMRRCommon-Mode Rejection Ratio78PSRRPower-Supply Rejection Ratio
UNITSMINTYPMAXSYMBOLPARAMETERDual suppliesV±1.35±2.625
Operating Supply-Voltage
Range
VCC= 5V
VCC= 3V
VCC= 5V
VCC= 3V= 10kΩ= 600Ω
AV= +1, VIN= 1/2 VCCstep, see Typical
Operating Characteristicsns700tPUPower-Up Time
VOLVIN+ - VIN- = -1V, RL= no loadVEE+ 0.07
Single/Dual/Quad, 10MHz
Single-Supply Op Amps_______________________________________________________________________________________
Note 1:Gain decreases to zero as the output swings beyond the specified limits.
Note 2:Guaranteed by correlation to slew rate.= 10kΩ= 600Ω
MAX475
MAX474
MAX473
Dual supplies
Single supply
VIN+ - VIN- = +1V, RL= no load
Per amplifier
VCC= 5V, RL= 10kΩ, CL= 20pF,
VIN+ - VIN- = +1V step
0.4V ≤VOUT≤
(VCC- 0.6V)
Current flows out of terminals
VEE≤VCM≤(VCC- 2.0V)
VCC= 2.7V to 6.0V
CONDITIONS±1.35±2.625
Operating Supply-Voltage
Range
2.75.253.4ISSupply Current
V/μsSRSlew Rate
±3.3
VOSInput Offset Voltage±2.3
±2.3VOHOutput VoltageVCC- 0.0872AVOLLarge-Signal Gain
(Note 1)0200IBInput Bias Current±50IOSInput Offset Current72CMRRCommon-Mode Rejection Ratio72PSRRPower-Supply Rejection Ratio
UNITSMINTYPMAXSYMBOLPARAMETER= 10kΩ= 600Ω
MAX475
MAX474
MAX473
Dual supplies
Single supply
VIN+ - VIN- = +1V, RL= no load
Per amplifier
VCC= 5V, RL= 10kΩ, CL= 20pF,
VIN+ - VIN- = +1V step
0.5V ≤VOUT≤
(VCC- 0.6V)
Current flows out of terminals
VEE≤VCM≤(VCC- 2.15V)
VCC= 2.7V to 6.0V
CONDITIONS±1.35±2.625
Operating Supply-Voltage
Range
2.75.253.6ISSupply Current
V/μsSRSlew Rate
±4.0
VOSInput Offset Voltage±2.8
±2.8VOHOutput VoltageVCC- 0.170AVOLLarge-Signal Gain
(Note 1)0225IBInput Bias Current±60IOSInput Offset Current70CMRRCommon-Mode Rejection Ratio70PSRRPower-Supply Rejection Ratio
UNITSMINTYPMAXSYMBOLPARAMETER
ELECTRICAL CHARACTERISTICS(+3V ≤VCC≤+5V, VEE= 0V, VCM= 0.5V, VOUT= 0.5V, TA= -40°C to +85°C, unless otherwise noted.)
ELECTRICAL CHARACTERISTICS(+3V ≤VCC≤+5V, VEE= 0V, VCM= 0.5V, VOUT= 0.5V, TA= -55°C to +125°C, unless otherwise noted.)
VOLVIN+ - VIN- = - 1V, RL= no load
VIN+ - VIN- = -1V, RL= no loadVOL
VEE+ 0.08
VEE+ 0.1
Single/Dual/Quad, 10MHz
Single-Supply Op Amps
_______________________________________________________________________________________5SUPPLY CURRENT PER AMPLIFIER
vs. SUPPLY VOLTAGE
473 TOC-01
VCC-VEE (V)
(m
3.03456
SUPPLY CURRENT vs. TEMPERATURE
473 TOC-02
TEMPERATURE (°C)
(m
1.0
2.0
2.5-202060100140
VCC = 5V
VCC = 3V
INPUT BIAS CURRENT
vs. TEMPERATURE
473 TOC-03
TEMPERATURE (°C)
IB (n
100-202060100140
GAIN-BANDWIDTH PRODUCT
vs. TEMPERATURE
473 TOC-04
TEMPERATURE (°C)
(M-202060100140
AVCL = 40dB
MAXIMUM OUTPUT VOLTAGE
vs. LOAD RESISTANCE
473 TOC-07
LOAD RESISTANCE (kW)
(V
3.1VCC = 3V
VCC
SLEW RATE vs. TEMPERATURE
473 TOC-05
TEMPERATURE (°C)
(V-202060100140
VCC = 3V
VCC = 5V
MAXIMUM OUTPUT VOLTAGE
vs. LOAD RESISTANCE
473 TOC-06
LOAD RESISTANCE (kW)
T M
(V
VCC = 5V
VCC
0.1110100100010,000
MINIMUM OUTPUT VOLTAGE
vs. LOAD RESISTANCE473 TOC-08
LOAD RESISTANCE (kW)
T M
(V
VCCRL
VCC = 3V
VCC = 5V
__________________________________________Typical Operating Characteristics(VCC= 5V, VEE= 0V, TA = +25°C, unless otherwise noted.)
Single/Dual/Quad, 10MHz
Single-Supply Op Amps_______________________________________________________________________________________
____________________________Typical Operating Characteristics (continued)(VCC= 5V, VEE= 0V, TA = +25°C, unless otherwise noted.)
MAXIMUM OUTPUT VOLTAGE
vs. TEMPERATURE
473 TOC-10
TEMPERATURE (°C)
T M
, V
C -V
(m-202060100140
VCC1V
VCC = 5V
VCC = 3V
0.1110100100010,000
OPEN-LOOP VOLTAGE GAIN
vs. LOAD RESISTANCE473 TOC-11
LOAD RESISTANCE (kW)
(dB
VCC = 3V
VCC = 5V
OPEN-LOOP GAIN vs. TEMPERATURE
473 TOC-12
TEMPERATURE (°C)
(d
110-202060100140
RL = 10kW
RL = 600W101000
OVERSHOOT vs. CAPACITIVE LOAD473 TOC-13
CAPACITIVE LOAD (pF)
(%
VCC = 3V
0.5V STEP
VCC = 5V
1.0V STEP
RL = NO LOAD
-901001k10k100k
TOTAL HARMONIC DISTORTION
AND NOISE vs. FREQUENCY473 TOC-17
FREQUENCY (Hz)
(d
AV = +1
VIN = 1.5Vp-p
10001001k10k100k
VOLTAGE-NOISE DENSITY
vs. FREQUENCY473 TOC-14
FREQUENCY (Hz)
(n
INPUT REFERRED
1001001k10k100k
CURRENT-NOISE DENSITY
vs. FREQUENCY473 TOC-15
FREQUENCY (Hz)
ITY
(p
INPUT REFERRED
MINIMUM OUTPUT VOLTAGE
vs. TEMPERATURE
473 TOC-09
TEMPERATURE (°C)
T M
, IV
-V
I (m
20-202060100140
VCC = 5V
VCC = 3V
VCC1V
