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MAX4104ESA+ |MAX4104ESAMAXIMN/a53avai740MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
MAX4104EUKMAXIMN/a4100avai740MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
MAX4104EUK+TMAXIMN/a5000avai740MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
MAX4305ESA+ |MAX4305ESAMAXIMN/a2avai740MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5


MAX4104EUK+T ,740MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5FeaturesThe MAX4104/MAX4105/MAX4304/MAX4305 op amps♦ Low 2.1nV/√Hz Voltage Noise Densityfeature ult ..
MAX4105ESA ,Low-noise, low-distortion op amp. Bandwidth 410MHz. Minimum stable gain 5V/V.FeaturesThe MAX4104/MAX4105/MAX4304/MAX4305 op amps' Low 2.1nV/√Hz Voltage Noise Densityfeature ult ..
MAX4106ESA ,350MHz / Ultra-Low-Noise Op AmpsELECTRICAL CHARACTERISTICS(VCC = 5V, VEE = -5V, TA = TMIN to TMAX, typical values are at TA = +25°C ..
MAX4106ESA ,350MHz / Ultra-Low-Noise Op AmpsApplications ______________Ordering InformationUltra-Low-Noise ADC PreampPART TEMP. RANGE PIN-PACKA ..
MAX4107ESA ,350MHz / Ultra-Low-Noise Op AmpsMAX4106/MAX410719-0442; Rev 1; 11/95350MHz, Ultra-Low-Noise Op Amps_______________
MAX4107ESA+T ,350MHz, Ultra-Low-Noise Op AmpsApplications ______________Ordering InformationUltra-Low-Noise ADC PreampPART TEMP. RANGE PIN-PACKA ..
MAX782CBX ,Triple-Output Power-Supply Controller for Notebook Computersfeatures include low-noise, fixed-frequency PWMON31 36SS3operation at moderate to heavy loads and a ..
MAX782CBX-T ,Triple-Output Power Supply Controller for Notebook ComputersApplications Q36 31 BST3Notebook Computers7 30Q2 DL3Portable Data TerminalsQ1 8 29V+Communicating C ..
MAX782RCBX ,Triple-Output Power-Supply Controller for Notebook ComputersFeatures' Dual PWM Buck Controllers (+3.3V and +5V)The MAX782 is a system-engineered power-supply c ..
MAX783CBX ,Triple-Output Power-Supply Controller for Notebook ComputersFeatures' Dual PWM Buck Controllers (+3.3V and +5V)The MAX783 is a system-engineered power-supply c ..
MAX783EBX ,Triple-Output Power-Supply Controller for Notebook ComputersELECTRICAL CHARACTERISTICS———–(V+ = 15V, GND = PGND = 0V, IVL = IREF = 0mA, SHDN = ON3 = ON5 = 5V, ..
MAX7841 ,Octal, 14-Bit Voltage-Output DAC with Parallel InterfaceApplicationsREFAB+ 4 30 REFGH+V 5 29 CLRDDV 6 28 DB13SSMX7841LDAC 7 27 DB12A2 8 26 DB11A1 9 25 DB10 ..


MAX4104ESA+-MAX4104EUK-MAX4104EUK+T-MAX4305ESA+
740MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
General Description
The MAX4104/MAX4105/MAX4304/MAX4305 op amps
feature ultra-high speed, low noise, and low distortion inSOT23 package. The unity-gain-stable MAX4104
requires only 20mA of supply current while delivering
625MHz bandwidth and 400V/μs slew rate. The
MAX4304, compensated for gains of +2V/V or greater,
delivers a 730MHz bandwidth and a 1000V/μs slew
rate. The MAX4105 is compensated for a minimum gain
of +5V/V and delivers a 410MHz bandwidth and a
1400V/sec slew rate. The MAX4305 has +10V/V mini-
mum gain compensation and delivers a 340MHz band-
width and a 1400V/μs slew rate.
Low voltage noise density of 2.1nV/√Hzand -88dBc
spurious-free dynamic range make these devices ideal
for low-noise/low-distortion video and telecommunica-
tions applications. These op amps also feature a wide
output voltage swing of ±3.7V and ±70mA output current-
drive capability. For space-critical applications, they
are available in a miniature 5-pin SOT23 package.
________________________Applications

Video ADC Preamp
Pulse/RF Telecom Applications
Video Buffers and Cable Drivers
Ultrasound
Active Filters
ADC Input Buffers
Feature
Low 2.1nV/√HzVoltage Noise DensityUltra-High 740MHz -3dB Bandwidth (MAX4304,
AVCL= 2V/V)
100MHz 0.1dB Gain Flatness (MAX4104/4105)1400V/μs Slew Rate (MAX4105/4305)-88dBc SFDR (5MHz, RL= 100Ω) (MAX4104/4304)High Output Current Drive: ±70mALow Differential Gain/Phase Error: 0.01%/0.01°
(MAX4104/4304)
Low ±1mV Input Offset VoltageAvailable in Space-Saving 5-Pin SOT23 Package40MHz, Low-Noise, Low-Distortion
Op Amps in SOT23-5

MAX4304
8 to 16-BIT
HIGH-SPEED
ADC
INPUT
330W
ADC BUFFER WITH GAIN (AVCL = 2V/V)

330W
Typical Application Circuit

19-4757; Rev 3; 10/98
PART
MAX4104ESA

MAX4104EUK-T-40°C to +85°C
-40°C to +85°C
TEMP. RANGEPIN-
PACKAGE

8 SO
5 SOT23-5
EVALUATION KIT MANUAL
FOLLOWS DATA SHEET
Ordering Information
Selector Guide
SOT
TOP MARK

ACCO
PART

MAX4104
MAX4304
MAX41055
MINIMUM
STABLE
GAIN (V/V)
BANDWIDTH
(MHz)

MAX430510340
PIN-PACKAGE

5-pin SOT23, 8-pin SO
5-pin SOT23, 8-pin SO
5-pin SOT23, 8-pin SO
5-pin SOT23, 8-pin SO
VEE
IN-IN+5VCCOUT
SOT23-5
4
MAX4104
MAX4105
MAX4304
MAX4305
TOP VIEW
Pin Configurations

Pin Configurations continued at end of data sheet.
Ordering Information continued at end of data sheet.
40MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
ABSOLUTE MAXIMUM RATINGS
DC ELECTRICAL CHARACTERISTICS

(VCC= +5V, VEE= -5V, VCM= 0, RL= 100kΩ, TA= TMINto TMAX, unless otherwise noted. Typical values are at TA= +25°C.)
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 (VCCto VEE)................................................+12V
Voltage on Any Pin to Ground..........(VEE- 0.3V) to (VCC+ 0.3V)
Short-Circuit Duration (VOUTto GND)........................Continuous
Continuous Power Dissipation (TA= +70°C)
5-pin SOT23 (derate 7.1mW/°C above +70°C)...........571mW
8-pin SO (derate 5.9mW/°C above +70°C).................471mW
Operating Temperature Range...........................-40°C to +85°C
Storage Temperature Range.............................-65°C to +150°C
Lead Temperature (soldering, 10sec).............................+300°C
VOUT= 0= short to ground
Guaranteed by PSRR test= 30Ω= 100kΩ
VCC= 3.5V to 5.5V
-2.8V ≤VCM≤4.1V
-2.8V ≤VOUT≤2.8V, RL= 100Ω
VOUT= 0
Guaranteed by CMRR test
Either input
-0.8V ≤VIN≤0.8V
VEE= -3.5V to -5.5V
CONDITIONS
9ZOUTOpen-Loop Output Impedance80ISCShort-Circuit Output Current±53±70IOUTOutput Current Drive
±3.0-3.5 to +3.4V±3.5-3.7 to +3.8VOUTOutput Voltage Swing5565AVOLOpen-Loop Gain2027ISQuiescent Supply Current5565PSRR-Negative Power-Supply
Rejection Ratio16VOS±3.5±5±5.5VCC/VEEOperating Supply Voltage
Range7585PSSR+Positive Power-Supply Rejection
Ratio8095CMRRCommon-Mode Rejection Ratio-2.8+4.1VCMInput Common-Mode Voltage
Range1.5RINCommon-Mode Input
Resistance8
μV/°CTCVOSInput Offset-Voltage Drift3270IB6RINDifferential Input Resistance
UNITSMINTYPMAXSYMBOLPARAMETER

Input Offset Voltage
Input Bias Current
MAX4_0_EUK
MAX4_0_ESA
Input Offset Current μA0.55.0IOS= 100Ω
40MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
AC ELECTRICAL CHARACTERISTICS

(VCC= +5V, VEE= -5V, VCM= 0, RL= 100Ω; AV= +1V/V for MAX4104, +2V/V for MAX4304, +5V/V for MAX4105, +10V/V for MAX4305;= +25°C; unless otherwise noted.)
CONDITIONS

MHz
BW(-3dB)-3dB Bandwidth
UNITSMINTYPMAXSYMBOLPARAMETER
VOUT = 2Vp-p
f = 1MHz
f = 10MHz
f = 1MHz1ZOUTOutput Impedance
pA/√Hz3.1inInput Current Noise Density
nV/√Hz2.1enInput Voltage Noise DensitytSSettling Time to 0.1%0.01DGDifferential Gain Error
VOUT = 100mVp-p
MAX4104
MAX4304
MAX4105
MAX4305340
MAX4305
MHz
BW(0.1)0.1dB Bandwidth
MAX4104
VOUT = 100mVp-pMAX4304
MAX4105
MAX4305
MHz
FPBWFull-Power Bandwidth
MAX4104
VOUT = 2Vp-pMAX4304
MAX4105
MAX4305
V/μs
400Slew Rate
MAX4104
VOUT = 2Vp-pMAX4304
MAX4105
to 0.1%to 0.01%
VOUT=2Vp-p
fC = 5MHz
-67fC = 20MHzdBcSFDRSpurious-Free
Dynamic Range-74fC = 5MHz
-61fC = 20MHz
MAX4104/
MAX4304
MAX4105/
MAX4305
MAX4104/MAX4304NTSC, RL= 150ΩMAX4105/MAX43050.02
MAX4105/MAX4305
MAX4104/MAX4304NTSC, RL= 150Ωdegrees0.02
0.01DPDifferential Phase Error
40MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
__________________________________________Typical Operating Characteristics

(VCC= +5V, VEE = -5V, RF= 330Ω, RL= 100Ω, TA= +25°C, unless otherwise noted.)
100k1M10M100M1G
MAX4104
SMALL-SIGNAL GAIN
vs. FREQUENCY (AVCL = +1)

FREQUENCY (Hz)
(d
AX4104 TOCVOUT = 100mVp-p
100k1M10M100M1G
MAX4304
SMALL-SIGNAL GAIN
vs. FREQUENCY (AVCL = +2)

FREQUENCY (Hz)
(d
AX4104 TOCVOUT = 100mVp-p
100k1M10M100M1G
MAX4105
SMALL-SIGNAL GAIN
vs. FREQUENCY (AVCL = +5)

FREQUENCY (Hz)
(d
AX4104 TOCVOUT = 100mVp-p
100k1M10M100M1G
MAX4305
SMALL-SIGNAL GAIN
vs. FREQUENCY (AVCL = +10)

FREQUENCY (Hz)
(d
AX4104 TOCVOUT = 100mVp-p
100k1M10M100M1G
MAX4105
GAIN FLATNESS
vs. FREQUENCY (AVCL = +5)

(d
4104 TO
C 7VOUT = 100mVp-p
100k1M10M100M1G
MAX4104
GAIN FLATNESS
vs. FREQUENCY (AVCL = +1)

FREQUENCY (Hz)
(d
AX4104 TOC 5
VOUT = 100mVp-p0.5
100k1M10M100M1G
MAX4304
GAIN FLATNESS
vs. FREQUENCY (AVCL = +2)

FREQUENCY (Hz)
(d
AX4104 TOC 6
VOUT = 100mVp-p
100k1M10M100M1G
MAX4305
GAIN FLATNESS
vs. FREQUENCY (AVCL = +10)

(d
AX4104 TOC 8
VOUT = 100mVp-p
100k1M10M100M1G
MAX4104
LARGE-SIGNAL GAIN
vs. FREQUENCY (AVCL = +1)

(d
AX4104 TOC
VOUT = 2Vp-p
40MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
100k1M10M100M1G
MAX4304
LARGE-SIGNAL GAIN
vs. FREQUENCY (AVCL = +2)

FREQUENCY (Hz)
(d
AX4104 TOC10
VOUT = 2Vp-p5
100k1M10M100M1G
MAX4105
LARGE-SIGNAL GAIN
vs. FREQUENCY (AVCL = +5)

FREQUENCY (Hz)
(d
4104 TO
C 11VOUT = 2Vp-p
100k1M10M100M1G
MAX4305
LARGE-SIGNAL GAIN
vs. FREQUENCY (AVCL = +10)

FREQUENCY (Hz)
(d
4104 TO
C12VOUT = 2Vp-p
100k1M10M100M1G
POSITIVE POWER-SUPPLY REJECTION
vs. FREQUENCY

AX4104 TOCM
FREQUENCY (Hz)
(d
-20100100k1M10M
FREQUENCY (Hz)10k1
VOLTAGE NOISE DENSITY vs. FREQUENCY
(INPUT REFERRED)
AX4104 TOC-P
(n
100k1M10M100M1G
NEGATIVE POWER-SUPPLY REJECTION
vs. FREQUENCY

AX4104 TOCN
FREQUENCY (Hz)
(d
10k1M10M100M100k1G
COMMON-MODE REJECTION
vs. FREQUENCY

4104 TO
FREQUENCY (Hz)
(d
-30100100k1M10M
FREQUENCY (Hz)10k1
CURRENT NOISE DENSITY vs. FREQUENCY
(INPUT REFERRED)
(p
AX4104 TOC1000
100k1M10M100M1G
CLOSED-LOOP OUTPUT IMPEDANCE
vs. FREQUENCY

X4104 TO
C-R
FREQUENCY (Hz)
IM
(W
Typical Operating Characteristics (continued)
(VCC= +5V, VEE = -5V, RF= 330Ω, RL= 100Ω, TA= +25°C, unless otherwise noted.)
40MHz, Low-Noise, Low-Distortion Op Amps in SOT23-5
Typical Operating Characteristics (continued)

(VCC= +5V, VEE = -5V, RF= 330Ω, RL= 100Ω, TA= +25°C, unless otherwise noted.)100100
MAX4104/MAX4304
DIFFERENTIAL GAIN AND PHASE

IRE
(d
(%
AX4104 TOC
RL = 150W
RL = 150W
MAX4105/MAX4305
DIFFERENTIAL GAIN AND PHASE
IRE
(d
(%
AX4104 TOC
RL = 150W
RL = 150W
100k1M10M100M
MAX4104/MAX4304
HARMONIC DISTORTION vs. FREQUENCY

MAX4104 TOC-U
FREQUENCY (Hz)
(d
3RD HARMONIC
2ND HARMONIC
VOUT = 2Vp-p
100k1M10M100M
MAX4105/MAX4305
HARMONIC DISTORTION vs. FREQUENCY

AX4104 TOC-V
FREQUENCY (Hz)
(d
3RD HARMONIC
2ND HARMONIC
VOUT = 2Vp-p
MAX4104/MAX4304
HARMONIC DISTORTION
vs. OUTPUT SWING
X4104 TO
C-Y
(d
3RD HARMONIC
2ND HARMONIC
f = 5MHz
-202003004001005006007009008001k
MAX4104/MAX4304
HARMONIC DISTORTION vs. LOAD

AX4104 TOC-W
LOAD (W)
(d
3RD HARMONIC
2ND HARMONIC
f = 5MHz
VOUT = 2Vp-p
-202003004001005006007009008001k
MAX4105/MAX4305
HARMONIC DISTORTION vs. LOAD

AX4104 TOC
LOAD (W)
(d
3RD HARMONIC
2ND HARMONIC
f = 5MHz
VOUT = 2Vp-p
MAX4105/MAX4305
HARMONIC DISTORTION
vs. OUTPUT SWING
AX4104 TO
C-Z
(d
3RD HARMONIC
2ND HARMONIC
f = 5MHz10015050200250300350400
OUTPUT SWING vs. LOAD RESISTANCE

AX4104 TOC
(V
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