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MAX4210BEUA+ |MAX4210BEUAMAXIMN/a210avaiHigh-Side Power and Current Monitors
MAX4211AEUE+ |MAX4211AEUEMAXIMN/a2000avaiHigh-Side Power and Current Monitors
MAX4211AEUE+ |MAX4211AEUEMAXN/a424avaiHigh-Side Power and Current Monitors
MAX4211DETE+ |MAX4211DETEMAXIMN/a11avaiHigh-Side Power and Current Monitors
MAX4211EETE+TMAXIM N/a7042avaiHigh-Side Power and Current Monitors
MAX4211FETE+MAXIMN/a4300avaiHigh-Side Power and Current Monitors
MAX4211FETE+TMAXIMN/a355avaiHigh-Side Power and Current Monitors


MAX4211EETE+T ,High-Side Power and Current MonitorsMAX4210/MAX421119-3285; Rev 1; 5/05High-Side Power and Current Monitors
MAX4211FETE ,+2.7 V to +5.5 V, High-side power and current monitorApplications SENSE4V TO +28V - LOADRS+ RS-Overpower Circuit BreakersVCC+2.7V TOSmart Battery Packs/ ..
MAX4211FETE+ ,High-Side Power and Current Monitorsapplications.(3mm x 3mm)Both the MAX4210/MAX4211 feature three different cur-MAX4210AEUA -40°C to + ..
MAX4211FETE+T ,High-Side Power and Current MonitorsApplications SENSE4V TO +28V - LOADRS+ RS-Overpower Circuit BreakersVCC+2.7V TOSmart Battery Packs/ ..
MAX4212EUK ,Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enableapplications.' Space-Saving SOT23-5, µMAX, or QSOP PackagesThe MAX4212 comes in a miniature 5-pin S ..
MAX4212EUK ,Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with EnableELECTRICAL CHARACTERISTICS (V = +5V, V = 0V, EN_ = +5V, R = 2kW to V / 2, V = V / 2, T = T to T , u ..
MAX809JEUR-T ,3-Pin Microprocessor Reset CircuitsFeaturesThe MAX803/MAX809/MAX810 are microprocessor (µP) Precision Monitoring of +2.5V, +3V, +3.3V ..
MAX809JTR ,Very Low Supply Current 3-Pin Microprocessor Reset MonitorsMAX809 Series,MAX810 SeriesVery Low Supply Current3-Pin Microprocessor Reset Monitors
MAX809JTRG , Very Low Supply Current 3−Pin Microprocessor Reset Monitors
MAX809L ,3-Pin Microprocessor Reset CircuitsELECTRICAL CHARACTERISTICS(V = full range, T = -40°C to +105°C (SOT23) or T = -40°C to +125°C (SC70 ..
MAX809L ,3-Pin Microprocessor Reset CircuitsGeneral Description ________
MAX809LD , 3-pin microprocessor resets


MAX4210BEUA+-MAX4211AEUE+-MAX4211DETE+-MAX4211EETE+T-MAX4211FETE+-MAX4211FETE+T
High-Side Power and Current Monitors
General Description
The MAX4210/MAX4211 low-cost, low-power, high-side
power/current monitors provide an analog output volt-
age proportional to the power consumed by a load by
multiplying load current and source voltage. The
MAX4210/MAX4211 measure load current by using a
high-side current-sense amplifier, making them espe-
cially useful in battery-powered systems by not interfer-
ing with the ground path of the load.
The MAX4210 is a small, simple 6-pin power monitor
intended for limited board space applications. The
MAX4210A/B/C integrate an internal 25:1 resistor-divider
network to reduce component count. The MAX4210D/E/F
use an external resistor-divider network for greater design
flexibility.
The MAX4211 is a full-featured current and power mon-
itor. The device combines a high-side current-sense
amplifier, 1.21V bandgap reference, and two compara-
tors with open-drain outputs to make detector circuits
for overpower, overcurrent, and/or overvoltage condi-
tions. The open-drain outputs can be connected to
potentials as high as 28V, suitable for driving high-side
switches for circuit-breaker applications.
Both the MAX4210/MAX4211 feature three different cur-
rent-sense amplifier gain options: 16.67V/V, 25.00V/V, and
40.96V/V. The MAX4210 is available in 3mm x 3mm, 6-pin
TDFN and 8-pin µMAX®packages and the MAX4211 is
available in 4mm x 4mm, 16-pin thin QFN and 16-pin
TSSOP packages. Both parts are specified for the -40°C
to +85°C extended operating temperature range.
Applications

Overpower Circuit Breakers
Smart Battery Packs/Chargers
Smart Peripheral Control
Short-Circuit Protection
Power-Supply Displays
Measurement Instrumentation
Baseband Analog Multipliers
VGA Circuits
Power-Level Detectors
Features
Real-Time Current and Power Monitoring±1.5% (max) Current-Sense Accuracy±1.5% (max) Power-Sense AccuracyTwo Uncommitted Comparators (MAX4211)1.21V Reference Output (MAX4211)Three Current/Power Gain Options100mV/150mV Current-Sense Full-Scale Voltage+4V to +28V Input Source Voltage Range+2.7V to +5.5V Power-Supply Voltage RangeLow Supply Current: 380µA (MAX4210)220kHz BandwidthSmall 6-Pin TDFN and 8-Pin µMAX Packages
(MAX4210)
MAX4210/MAX4211
High-Side Power and
Current Monitors
Ordering Information

MAX4211A
MAX4211B
MAX4211C
IOUT
VCC
RS-RS+
RSENSE
VSENSE
LOAD
1.21V
REFERENCE
POUT
REF
2.7V TO
5.5V-
4V TO
28V
CIN1+INHIBIT
COUT1
COUT2CIN1-
CIN2+
CIN2-
GND
25:1
PARTTEMP RANGEPIN-PACKAGETOP
MARK
MAX4210AETT-T
-40°C to +85°C6 TDFN-6-EP*
(3mm x 3mm)AHF
MAX4210AEUA-40°C to +85°C8 µMAX—
Functional Diagrams

19-3285; Rev 1; 5/05
*EP = Exposed paddle.
Ordering Information continued at end of data sheet.
Pin Configurations and Selector Guide appear at end of data
sheet.
EVALUATION KITS
AVAILABLE

Functional Diagrams continued at end of data sheet.
µMAX is a registered trademark of Maxim Integrated Products, Inc.
MAX4210/MAX4211
High-Side Power and
Current Monitors
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
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.
VCC, IN, CIN1, CIN2 to GND....................................-0.3V to +6V
RS+, RS-, INHIBIT, LE, COUT1, COUT2 to GND...-0.3V to +30V
IOUT, POUT, REF to GND..........................-0.3V to (VCC+ 0.3V)
Differential Input Voltage (VRS+- VRS-).................................±5V
Maximum Current into Any Pin..........................................±10mA
Output Short-Circuit Duration to VCCor GND........................10s
Continuous Power Dissipation (TA= +70°C)
6-Pin TDFN (derate 24.4mW/°C above +70°C)..........1951mW
8-Pin µMAX (derate 4.5mW/°C above +70°C).............362mW
16-Pin TSSOP (derate 9.4mW/°C above +70°C)..........754mW
16-Pin Thin QFN (derate 25mW/°C above +70°C).....2000mW
Operating Temperature Range...........................-40°C to +85°C
Junction Temperature......................................................+150°C
Storage Temperature Range.............................-65°C to +150°C
Lead Temperature (soldering, 10s).................................+300°C
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS

Operating Voltage Range
(Note 2)VCC2.75.5V
Common-Mode Input Range
(Note 3)VCMRMeasured at RS+428V
MAX4210380570TA = +25°C,
VCC = +5.5VMAX4211670960
MAX4210670Supply CurrentICC
VCC = +5.5VMAX42111100
MAX421_A/B/C1425IRS+VSENSE = 0mVMAX421_D/E/F38Input Bias Current
IRS-VSENSE = 0mV38
IN Input Bias CurrentIINMAX421_D/E/F-0.1-1µA
Leakage CurrentIRS+, IRS-VCC = 0V0.11µA
MAX421_A/B/D/E150VSENSE Full-Scale Voltage
(Note 4)VSENSE_FSMAX421_C/F100mV
IN Full-Scale Voltage
(Note 4)VIN_FSMAX421_D/E/F, VSENSE = 10mV to
100mV1V
IN Input Voltage Range
(Note 5)VINMAX421_D/E/F, VSENSE = 10mV to
100mV0.161.10V
VRS+ Full-Scale Voltage
(Note 4)
MAX421_A/B/C, VSENSE = 10mV to
100mV25V
VRS+ Input Voltage Range
(Note 5)VRS+MAX421_A/B/C, VSENSE = 10mV to
100mV428V
Current into IOUT = 10µA1.5
Current into IOUT = 100µA2.580
Current into POUT = 10µA1.5Minimum IOUT/POUT VoltageVOUT_MIN
VSENSE =
0V, VRS+ =
25Vur r ent i nto P O U T = 100µA2.580
Current out of
IOUT = 500µA
VCC -
0.25Maximum IOUT/POUT Voltage
(Note 6)VOUT_MAX
VSENSE =
300mV,
VRS+ = 25VCurrent out of
POUT = 500µA
VCC -
0.25
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
MAX4211A/D16.67
MAX4211B/E25.00Current-Sense Amplifier GainVIOUT/
VSENSE
MAX4211C/F40.96
V/V
MAX421_A0.667
MAX421_B1.00
VPOUT/
(VSENSE x
VRS+)MAX421_C1.64
MAX421_D16.67
MAX421_E25.00
Power-Sense Amplifier Gain
VPOUT/
(VSENSE x VIN)
MAX421_F40.96
1/V
IOUT Common-Mode RejectionCMRIMAX4211, VRS+ = 4V to 28V6080dB
POUT Common-Mode RejectionCMRPMAX421_D/E/F, VRS+ = 4V to 28V6080dB
IOUT Power-Supply RejectionPSRIVCC = 2.7V to 5.5V5280dB
POUT Power-Supply RejectionPSRPVCC = 2.7V to 5.5V5270dB
Output Resistance for POUT,
IOUT, REFROUT0.5Ω
IOUT -3dB BandwidthBWIOUT/SENSEVSENSE = 100mV, VSENSE AC source220kHz
BWPOUT/SENSEVSENSE = 100mV, VSENSE AC source220
BWPOUT/VINVSENSE = 100mV, VIN AC source,
MAX421_D/E/F500POUT -3dB Bandwidth
BWPOUT/RS+VSENSE = 100mV, VRS+ AC source,
MAX421_A/B/C250
kHz
Capacitive-Load Stability
(POUT, IOUT, REF)CLOADNo sustained oscillations450pFS E N S E = 10m V to 100m V 15Current Output (IOUT) Settling
Time to 1% of Final ValueMAX4211V S E N S E = 100m V to 10m V 15µsS E N S E = 10m V to 100m V 10S E N S E = 100m V to 10m V 10
VRS+ = 4V to 25V,
VSENSE = 100mV15M AX 421_A/B/C
VRS+ = 25V to 4V,
VSENSE = 100mV15S E N S E = 10m V to 100m V 10S E N S E = 100m V to 10m V 10
VIN = 160mV to 1V,
VSENSE = 100mV10
Power Output (POUT) Settling
Time to 1% of Final ValueAX 421_D /E /F
VIN = 1V to 160mV,
VSENSE = 100mV10
MAX4210/MAX4211
High-Side Power and
Current Monitors
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
Power-Up Time to 1% of
Current Output Final Value
VSENSE = 100mV, CLOAD = 10pF,
MAX4211100µs
Power-Up Time to 1% of Power
Output Final ValueVSENSE = 100mV, CLOAD = 10pF100µs
CLOAD = 10pF, VSENSE = -100mV to
+100mV35Saturation Recovery Time for
Current Out (Note 7)
CLOAD = 10pF, VSENSE = 1.5V to 100mV35
VCC = 5V, VRS+ = 10V, CLOAD = 10pF,
VSENSE = -100mV to +100mV25
Saturation Recovery Time for
Power Out (Note 7)VCC = 5V, VRS+ = 10V, CLOAD = 10pF,
VSENSE = 1.5V to 100mV25
IREF = 0 to 100µA, TA = +25°C1.201.211.22Reference VoltageVREFIREF = 0 to 100µA, TA = -40°C to +85°C1.191.23V
Comparator Input OffsetCommon-mode voltage = REF±0.5±5mV
Comparator Hysteresis5mV
Comparator Common-Mode
LowFunctional test0.1V
Comparator Common-Mode
HighFunctional testVCC -
1.15V
Comparator Input Bias CurrentIBIAS-2nA
Comparator Output Low
VoltageVOLISINK = 1mA0.20.6V
Comparator Output-High
Leakage Current (Note 8)VPULLUP = 28V1µA
LE Logic Input-High Voltage
ThresholdVIH0.67 x
VCCV
LE Logic Input-Low Voltage
ThresholdVIL0.33 x
VCCV
LE Logic Input Internal
Pulldown Current0.6812.20µA
INHIBIT Logic Input-High
Voltage Threshold1.3V
INHIBIT Logic Input-Low
Voltage Threshold0.5V
INHIBIT Logic Input Hysteresis0.6V
INHIBIT Logic Input Internal
Pulldown Current0.6812.20µA
MAX4210/MAX4211
High-Side Power and
Current Monitors
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
Comparator Propagation
DelaytPD+, tPD-CLOAD = 10pF, RLOAD = 10kΩ pullup to
VCC, 5mV overdrive4µs
Minimum INHIBIT Pulse
Width1µs
Minimum LE Pulse Width1µs
Comparator Power-Up
Blanking Time From VCCtONVCC from 0 to (2.7V to 5.5V)300µs
LATCH Setup TimetSETUP3µs
MAX4210A/MAX4211A (power gain = 0.667)

TA = +25°C±0.5±1.5ΔVPOUT/
ΔVSENSE
VSENSE = 10mV to
100mV, VRS+ = 25VTA = TMIN to TMAX±3.0
TA = +25°C±0.5±1.5
POUT Gain Accuracy
(Note 9)ΔVPOUT/
ΔVRS+
VSENSE = 100mV,
VRS+ = 5V to 25VTA = TMIN to TMAX±3.0
TA = +25°C±0.15±1.5ΔVPOUT_MAX/
FSO
VSENSE = 5mV to
100mV, VRS+ = 5V to
25VTA = TMIN to TMAX±3.0
% FSO*
TA = +25°C±0.2±1.5VSENSE = 150mV,
VRS+ ≥ 15VTA = TMIN to TMAX±3.0
VSENSE = 100mV, VRS+ ≥ 4V±2.5
VSENSE = 100mV, VRS+ ≥ 9V±1.2
VSENSE = 50mV, VRS+ ≥ 6V±1.8
Total POUT Output Error
(Note 10)
ΔVPOUT_MAX/
VPOUT
VSENSE = 25mV, VRS+ ≥ 15V±1.8
TA = +25°C1.55POUT Output Offset Voltage
(Note 11)
VSENSE = 0V,
VRS+ = 25VTA = TMIN to TMAX15mV
MAX4210B/MAX4211B (power gain = 1.00)

TA = +25°C±0.5±1.5ΔVPOUT/
ΔVSENSE
VSENSE = 10mV to
100mV, VRS+ = 25VTA = TMIN to TMAX±3.0
TA = +25°C±0.5±1.5
POUT Gain Accuracy
(Note 9)ΔVPOUT/
ΔVRS+
VSENSE = 100mV,
VRS+ = 5V to 25VTA = TMIN to TMAX±3.0
MAX4210/MAX4211
High-Side Power and
Current Monitors
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
*FSO refers to full-scale output under the conditions: VSENSE= 100mV, VRS+= +25V, or VIN= 1V.
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
TA = +25°C±0.15±1.5ΔVPOUT_MAX/
FSO
VSENSE = 5mV to
100mV, VRS+ = 5V to
25VTA = TMIN to TMAX±3.0
% FS O*
TA = +25°C±0.2±1.5VSENSE = 150mV,
VRS+ > 15VTA = TMIN to TMAX±3.0
VSENSE = 100mV, VRS+ > 4V±2.5
VSENSE = 100mV, VRS+ > 9V±1.2
VSENSE = 50mV, VRS+ > 6V±1.8
Total POUT Output Error
(Note 10)ΔVPOUT_MAX/
VPOUT
VSENSE = 25mV, VRS+ > 15V±1.8
TA = +25°C26.5POUT Output Offset Voltage
(Note 11)
VSENSE = 0V,
VRS+ = 25VTA = TMIN to TMAX20mV
MAX4210C/MAX4211C (power gain = 1.64)

TA = +25°C±0.5±1.5ΔVPOUT/
ΔVSENSE
VSENSE = 10mV to
100mV, VRS+ = 25VTA = TMIN to TMAX±3.0
TA = +25°C±0.5±1.5
POUT Gain Accuracy
(Note 9)ΔVPOUT/
ΔVRS+
VSENSE = 100mV,
VRS+ = 5V to 25VTA = TMIN to TMAX±3.0
TA = +25°C±0.15±1.5ΔVPOUT_MAX/
FSO
VSENSE = 5mV to
100mV, VRS+ = 5V
to 25VTA = TMIN to TMAX±3.0
% FS O*
VSENSE = 100mV, VRS+ ≥ 4V±2.5
VSENSE = 100mV, VRS+ ≥ 9V±1.2
VSENSE = 50mV, VRS+ ≥ 6V±1.8
Total POUT Output Error
(Note 10)ΔVPOUT_MAX/
VPOUT
VSENSE = 25mV, VRS+ ≥ 15V±1.8
TA = +25°C310POUT Output Offset Voltage
(Note 11)
VSENSE = 0V,
VRS+ = 25VTA = TMIN to TMAX30
MAX4210D/MAX4211D (power gain = 16.67)

TA = +25°C±0.5±1.5ΔVPOUT/
ΔVSENSE
VSENSE = 10mV to
100mV, VIN = 1VTA = TMIN to TMAX±3.0
TA = +25°C±0.5±1.5
POUT Gain Accuracy
(Note 9)ΔVPOUT/
ΔVIN
VSENSE = 100mV,
VIN = 0.2V to 1VTA = TMIN to TMAX±3.0
MAX4210/MAX4211
High-Side Power and
Current Monitors
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
*FSO refers to full-scale output under the conditions: VSENSE= 100mV, VRS+= +25V, or VIN= 1V.
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
TA = +25°C±0.15±1.5ΔVPOUT_MAX/
FSO
VSENSE = 5mV to
100mV, VRS+ = 25V,
VIN = 0.2V to 1VTA = TMIN to TMAX±3.0
% FS O*
TA = +25°C±0.2±1.5VSENSE = 150mV, VRS+
= 25V, VIN = 600mVTA = TMIN to TMAX±3.0
VSENSE = 100mV, VRS+ = 15V,
VIN ≥ 160mV±2.5
VSENSE = 100mV, VRS+ = 15V,
VIN ≥ 360mV±1.2
VSENSE = 50mV, VRS+ = 15V,
VIN ≥ 240mV±1.8
Total POUT Output Error
(Note 10)
ΔVPOUT_MAX/
VPOUT
VSENSE = 25mV, VRS+ = 15V,
VIN ≥ 600mV±1.8
TA = +25°C1.55POUT Output Offset Voltage
(Note 11)
VSENSE = 0V,
VRS+ = 25V, VIN = 1VTA = TMIN to TMAX15mV
MAX4210E/MAX4211E (power gain = 25.00)

TA = +25°C±0.5±1.5ΔVPOUT/
ΔVSENSE
VSENSE = 10mV to
100mV, VIN = 1VTA = TMIN to TMAX±3.0
TA = +25°C±0.5±1.5
POUT Gain Accuracy
(Note 9)ΔVPOUT/
ΔVIN
VSENSE = 100mV,
VIN = 0.2V to 1VTA = TMIN to TMAX±3.0
TA = +25°C±0.15±1.5ΔVPOUT_MAX/
FSO
VSENSE = 5mV to
100mV, VRS+ = 25V,
VIN = 0.2V to 1VTA = TMIN to TMAX±3.0
% FS O*
TA = +25°C±0.2±1.5VSENSE = 150mV,
VRS+ =25V, VIN =
600mVTA = TMIN to TMAX±3.0
VSENSE = 100mV, VRS+ = 15V,
VIN ≥ 160mV±2.5
VSENSE = 100mV, VRS+ = 15V,
VIN ≥ 360mV±1.2
VSENSE = 50mV, VRS+ = 15V,
VIN ≥ 240mV±1.8
Total POUT Output Error
(Note 10)ΔVPOUT_MAX/
VPOUT
VSENSE = 25mV, VRS+ = 15V,
VIN ≥ 600mV±1.8
TA = +25°C26.5POUT Output Offset Voltage
(Note 11)
VSENSE = 0V,
VRS+ = 25V, VIN = 1VTA = TMIN to TMAX20mV
MAX4210/MAX4211
High-Side Power and
Current Monitors
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
*FSO refers to full-scale output under the conditions: VSENSE= 100mV, VRS+= +25V, or VIN= 1V.
MAX4210/MAX4211
High-Side Power and
Current Monitors
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
MAX4210F/MAX4211F (power gain = 40.96)

TA = +25°C±0.5±1.5ΔVPOUT/
ΔVSENSE
VSENSE = 10mV to
100mV, VIN = 1VTA = TMIN to TMAX±3.0
TA = +25°C±0.5±1.5
POUT Gain Accuracy
(Note 9)ΔVPOUT/
ΔVIN
VSENSE = 100mV,
VIN = 0.2V to 1VTA = TMIN to TMAX±3.0
TA = +25°C±0.15±1.5ΔVPOUT_MAX/
FSO
VSENSE = 5mV to
100mV, VRS+ = 25V,
VIN = 0.2V to 1VTA = TMIN to TMAX±3.0
% FS O*
VSENSE = 100mV, VRS+ = 15V,
VIN ≥ 160mV±2.5
VSENSE = 100mV, VRS+ = 15V,
VIN ≥ 360mV±1.2
VSENSE = 50mV, VRS+ = 15V,
VIN ≥ 240mV±1.8
Total POUT Output Error
(Note 10)
ΔVPOUT_MAX/
VPOUT
VSENSE = 25mV, VRS+ = 15V,
VIN ≥ 600mV±1.8
TA = +25°C310POUT Output Offset Voltage
(Note 11)
VSENSE = 0V,
VRS+ = 25V, VIN = 1VTA = TMIN to TMAX30mV
MAX4211A/MAX4211D (current gain = 16.67)

TA = +25°C±0.5±1.5IOUT Gain AccuracyΔVIOUT/
ΔVSENSE
VSENSE = 20mV to
100mV, VRS+ = 25VTA = TMIN to TMAX±3.0%
TA = +25°C±0.15±1.5ΔVIOUT_MAX/
FSO
VSENSE = 5mV to
100mVTA = TMIN to TMAX±3.0% FS O*
TA = +25°C±0.2±1.5VSENSE = 150mVTA= TMIN to TMAX±3.0
VSENSE = 50mV±1.2
VSENSE = 25mV±1.8
Total IOUT Output Error
(Note 10)ΔVIOUT_MAX/
VIOUT
VSENSE = 5mV±20
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
*FSO refers to full-scale output under the conditions: VSENSE= 100mV, VRS+= +25V, or VIN= 1V.
MAX4210/MAX4211
High-Side Power and
Current Monitors

*FSO refers to full-scale output under the conditions: VSENSE= 100mV, VRS+= +25V, or VIN= 1V.
Note 1:
All devices are 100% production tested at TA= +25°C. All temperature limits are guaranteed by design.
Note 2:
Guaranteed by power-supply rejection test.
Note 3:
Guaranteed by output voltage error tests (IOUT).
Note 4:
Guaranteed by output voltage error tests (IOUT or POUT, or both).
Note 5:
IN Input Voltage Range (MAX421_D/E/F) and VRS+Input Voltage Range (MAX421_A/B/C) are guaranteed by design
(GBD) and not production tested. See Multiplier Transfer Characteristics graphs in the Typical Operating Characteristics.
Note 6:
This test does not apply to the low gain options, MAX421_A/D, because OUT is clamped at approximately 4V.
Note 7:
The device does not experience phase reversal when overdriven.
Note 8:
VPULLUPis defined as an externally applied voltage through a resistor, RPULLUP, to pull up the comparator output.
Note 9:
POUT gain accuracy is the sum of gain error and multiplier nonlinearity.
Note 10:
Total output voltage error is the sum of gain and offset voltage errors.
Note 11:
POUT Output Offset Voltage is the sum of offset and multiplier feedthrough.
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITS
MAX4211B/MAX4211E (current gain = 25.00)

TA = +25°C±0.5±1.5IOUT Gain AccuracyΔVIOUT/
ΔVSENSE
VSENSE = 20mV to
100mV, VRS+ = 25VTA = TMIN to TMAX±3.0%
TA = +25°C±0.15±1.5ΔVIOUT_MAX/
FSO
VSENSE = 5mV to
100mVTA = TMIN to TMAX±3.0% FS O*
TA = +25°C±0.2±1.5VSENSE = 150mV
TA = TMIN to TMAX±3.0
VSENSE = 50mV±1.2
VSENSE = 25mV±1.8
Total IOUT Output Error
(Note 10)ΔVIOUT_MAX/
VIOUT
VSENSE = 5mV±20
MAX4211C/MAX4211F (current gain = 40.96)

TA = +25°C±0.5±1.5IOUT Gain AccuracyΔVIOUT/
ΔVSENSE
VSENSE = 20mV to
100mV, VRS+ =25VTA = TMIN to TMAX±3.0%
TA = +25°C±0.15±1.5ΔVIOUT_MAX/
FSO
VSENSE = 5mV to
100mVTA = TMIN to TMAX±3.0% FS O*
TA = +25°C±0.2±1.5VSENSE = 100mVTA = TMIN to TMAX±3.0
VSENSE = 50mV±1.2
VSENSE = 25mV±1.8
Total IOUT Output Error
(Note 10)ΔVIOUT_MAX/
VIOUT
VSENSE = 5mV±20
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 5mV, VIN= 1.0V, VLE= 0V, RIOUT = RPOUT = 1MΩ, VCIN1+ = VCIN2+ = VREF, VCIN1- = VCIN2- =
GND, VINHIBIT = 0V, RCOUT1 = RCOUT2 = 5kΩconnected to VCC, TA= -40°C to +85°C, unless otherwise noted. Typical values are at= +25°C, unless otherwise noted.) (Note 1)
MAX4210/MAX4211
High-Side Power and
Current Monitors

MAX4211
SUPPLY CURRENT vs. TEMPERATURE
MAX4210/11 toc04
TEMPERATURE (°C)
SUPPLY CURRENT (mA)
VSENSE = 5mV
VCC = 5.5V
VCC = 4.0V
VCC = 2.7V
RS+/RS- BIAS CURRENT
vs. TEMPERATURE
MAX4210/11 toc05
TEMPERATURE (°C)
BIAS CURRENT (
RS+ (D/E/F VERSIONS)
RS+ (A/B/C VERSIONS)
VRS+ = VRS- = 25V
RS-
RS+/RS- BIAS CURRENT
vs. COMMON-MODE VOLTAGE
MAX4210/11 toc06
COMMON-MODE VOLTAGE (V)
BIAS CURRENT (
RS-
RS+ (D/E/F VERSIONS)
RS+ (A/B/C VERSIONS)
VRS+ = VRS-
POWER OUTPUT ERROR
vs. SUPPLY VOLTAGE
MAX4210/11 toc07
SUPPLY VOLTAGE (V)
OUTPUT ERROR (%)
TA = -40°C
TA = 0°C
TA = +85°C
TA = +25°C
CURRENT OUTPUT ERROR
vs. SUPPLY VOLTAGE
MAX4210/11 toc08
SUPPLY VOLTAGE (V)
OUTPUT ERROR (%)
TA = -40°C
TA = 0°C
TA = +85°C
TA = +25°C
POWER OUTPUT ERROR
vs. SENSE VOLTAGE
MAX4210/11 toc09
SENSE VOLTAGE (mV)
OUTPUT ERROR (%)
TA = -40°C
TA = +85°C
TA = +25°C
TA = 0°C
MAX4210
SUPPLY CURRENT vs. TEMPERATURE
MAX4210/11 toc03
TEMPERATURE (°C)
SUPPLY CURRENT (mA)
VCC = 5.5V
VCC = 4.0V
VCC = 2.7V
VSENSE = 5mV
VCC = 5V
SUPPLY CURRENT vs. SUPPLY VOLTAGE
MAX4210/11 toc01
SUPPLY VOLTAGE (V)
SUPPLY CURRENT (mA)
MAX4210
MAX4211
VSENSE = 5mV
SUPPLY CURRENT
vs. COMMON-MODE VOLTAGE
MAX4210/11 toc02
RS+ VOLTAGE (V)
SUPPLY CURRENT (mA)
MAX4210
MAX4211
VSENSE = 5mV
VCC = 5V
Typical Operating Characteristics

(VCC= 5.0V, VRS+= 25V, VSENSE= 100mV, VIN= 1V, VLE= 0V, RIOUT= RPOUT= 1MΩ, VCIN1+= VCIN2+= VREF, VCIN1-= VCIN2-=
0V, VINHIBIT= 0V, RCOUT1= RCOUT2= 5kΩconnected to VCC, TA= +25°C, unless otherwise noted.)
Typical Operating Characteristics (continued)
(VCC= 5.0V, VRS+= 25V, VSENSE= 100mV, VIN= 1V, VLE= 0V, RIOUT= RPOUT= 1MΩ, VCIN1+= VCIN2+= VREF, VCIN1-= VCIN2-=
0V, VINHIBIT= 0V, RCOUT1= RCOUT2= 5kΩconnected to VCC, TA= +25°C, unless otherwise noted.)
MAX4210/MAX4211
High-Side Power and
Current Monitors

POWER GAIN vs. TEMPERATURE
MAX4210/11 toc13
TEMPERATURE (°C)
GAIN (1/V)
MAX4211E
CURRENT GAIN vs. TEMPERATURE
MAX4210/11 toc14
TEMPERATURE (°C)
CURRENT GAIN (V/V)
MAX4211E
MULTIPLIER TRANSFER CHARACTERISTICS
MAX4210/11 toc15
IN VOLTAGE (V)
POUT VOLTAGE (V)
MAX4211DVSENSE = 100mV
VSENSE = 70mV
VSENSE = 30mV10050150200250300
MULTIPLIER TRANSFER CHARACTERISTICS

MAX4210/11 toc16
SENSE VOLTAGE (mV)
POUT VOLTAGE (V)
VRS+ = 25V
VRS+ = 15V
VRS+ = 4V
MAX4211B
MULTIPLIER TRANSFER CHARACTERISTICS
MAX4210/11 toc17
RS+ VOLTAGE (V)
POUT VOLTAGE (V)
VSENSE = 100mV
VSENSE = 70mV
VSENSE = 30mV
MAX4211B
REFERENCE VOLTAGE
vs. SUPPLY VOLTAGE
MAX4210/11 toc18
SUPPLY VOLTAGE (V)
REFERENCE VOLTAGE (V)
POWER OUTPUT ERROR
vs. IN VOLTAGE
MAX4210/11 toc12
IN VOLTAGE (mV)
OUTPUT ERROR (%)
TA = 0°C
TA = -40°C
TA = +25°C
TA = +85°C
CURRENT OUTPUT ERROR
vs. SENSE VOLTAGE
MAX4210/11 toc10
SENSE VOLTAGE (mV)
OUTPUT ERROR (%)
TA = +85°C
TA = +25°C
TA = 0°C
TA = -40°C
POWER OUTPUT ERROR vs. VRS+
MAX4210/11 toc11
VRS+ VOLTAGE (V)
OUTPUT ERROR (%)
MAX4211B
TA = -40°CTA = 0°C
TA = +85°C
TA = +25°C
Typical Operating Characteristics (continued)
(VCC= 5.0V, VRS+= 25V, VSENSE= 100mV, VIN= 1V, VLE= 0V, RIOUT= RPOUT= 1MΩ, VCIN1+= VCIN2+= VREF, VCIN1-= VCIN2-=
0V, VINHIBIT= 0V, RCOUT1= RCOUT2= 5kΩconnected to VCC, TA= +25°C, unless otherwise noted.)
MAX4210/MAX4211
High-Side Power and
Current Monitors

COMPARATOR OUTPUT VOLTAGE (VOL)
vs. CURRENT SINK
MAX4210/11 toc22
CURRENT SINK (mA)
COUT VOLTAGE (mV)
COMPARATOR OUTPUT VOLTAGE (VOL)
vs. TEMPERATURE
MAX4210/11 toc23
TEMPERATURE (°C)
COUT VOLTAGE (mV)
CURRENT SINK = 1mA
200μs/div
COMPARATOR POWER-UP DELAY

COUT
2V/div
VCC
2V/div
MAX4210/11 toc24
2μs/div
COMPARATOR PROPAGATION DELAY

COUT
2V/div
VCIN+
MAX4210/11 toc25
VOD = 5mV
4μs/div
COMPARATOR AC RESPONSE

COUT
2V/div
0.95V
MAX4210/11 toc26
CIN- = 1.21V1.45V
CIN+
200μs/div
POUT POWER-UP DELAY

POUT
1V/div
MAX4210/11 toc27
VCC
2V/div
MAX4211E5V
2.5V
COMPARATOR PROPAGATION DELAY
vs. TEMPERATURE
MAX4210/11 toc21
TEMPERATURE (°C)
PROPAGATION DELAY (
REFERENCE VOLTAGE
vs. TEMPERATURE
MAX4210/11 toc19
TEMPERATURE (°C)
REFERENCE VOLTAGE (V)
COMPARATOR PROPAGATION DELAY
vs. OVERDRIVE VOLTAGE
MAX4210/11 toc20
OVERDRIVE VOLTAGE (mV)
PROPAGATION DELAY (
0.2
MAX4210/MAX4211
High-Side Power and
Current Monitors

20ms/div
RS POWER-UP/DOWN RESPONSE POUT

POUT
1V/div
MAX4210/11 toc31
VRS+
5V/div
2.5V
10V
20ms/div
RS POWER-UP/DOWN RESPONSE IOUT

IOUT
1V/div
MAX4210/11 toc32
VRS+
5V/div
2.5V
10V
10μs/div
POUT SMALL-SIGNAL PULSE RESPONSE

POUT
100mV/div
MAX4210/11 toc33
VSENSE = 10mV
TO 20mV STEP
470pF
LOAD
200μs/div
IOUT POWER-UP DELAY

IOUT
1V/div
MAX4210/11 toc28
VCC
2V/div
2.5V
MAX4211E
2ms/div
VCC POWER-UP/DOWN RESPONSE POUT

POUT
2V/div
MAX4210/11 toc29
VCC
2V/div
VSENSE = 150mV
MAX4211E
2ms/div
VCC POWER-UP/DOWN RESPONSE IOUT

IOUT
2V/div
MAX4210/11 toc30
VCC
2V/div
VSENSE
MAX4211E
VSENSE = 150mV
Typical Operating Characteristics (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 100mV, VIN= 1V, VLE= 0V, RIOUT= RPOUT= 1MΩ, VCIN1+= VCIN2+= VREF, VCIN1-= VCIN2-=
0V, VINHIBIT= 0V, RCOUT1= RCOUT2= 5kΩconnected to VCC, TA= +25°C, unless otherwise noted.)
MAX4210/MAX4211
High-Side Power and
Current Monitorsypical Operating Characteristics (continued)

(VCC= 5.0V, VRS+= 25V, VSENSE= 100mV, VIN= 1V, VLE= 0V, RIOUT= RPOUT= 1MΩ, VCIN1+= VCIN2+= VREF, VCIN1-= VCIN2-=
0V, VINHIBIT= 0V, RCOUT1= RCOUT2= 5kΩconnected to VCC, TA= +25°C, unless otherwise noted.)
POUT COMMON-MODE REJECTION RATIO
vs. FREQUENCY

MAX4210/11 toc39
FREQUENCY (MHz)
CMRR (dB)
VSENSE = 100mV
10μs/div
POUT SLEW-RATE PULSE RESPONSE

POUT
1V/div
MAX4210/11 toc37
VSENSE = 10mV
TO 90mV STEP
NO LOAD
10μs/div
IOUT SLEW-RATE PULSE RESPONSE

IOUT
1V/div
MAX4210/11 toc38
VSENSE = 10mV
TO 90mV STEP
NO LOAD
10μs/div
POUT LARGE-SIGNAL PULSE RESPONSE

POUT
1V/div
MAX4210/11 toc35
VSENSE = 10mV
TO 90mV STEP
470pF
LOAD
10μs/div
IOUT LARGE-SIGNAL PULSE RESPONSE

POUT
1V/div
MAX4210/11 toc36
VSENSE = 10mV
TO 90mV STEP
470pF
LOAD
10μs/div
IOUT SMALL-SIGNAL PULSE RESPONSE

IOUT
100mV/div
MAX4210/11 toc34
VSENSE = 10mV
TO 20mV STEP
470pF
LOAD
MAX4210/MAX4211
High-Side Power and
Current Monitors
IOUT COMMON-MODE REJECTION RATIO
vs. FREQUENCY

MAX4210/11 toc40
FREQUENCY (MHz)
CMRR (dB)
VSENSE = 100mV
POWER-SUPPLY REJECTION
vs. FREQUENCY

MAX4210/11 toc41
FREQUENCY (Hz)
PSR (dB)
10k1k100
-80100k
POUT SMALL-SIGNAL GAIN
vs. FREQUENCY

MAX4210/11 toc42
FREQUENCY (MHz)
GAIN (dB)0.10.01
VSENSE = 10mVP-P
IOUT SMALL-SIGNAL GAIN
vs. FREQUENCY

MAX4210/11 toc43
FREQUENCY (MHz)
GAIN (dB)0.10.01
VSENSE = 10mVP-P
POUT LARGE-SIGNAL GAIN
vs. FREQUENCY

MAX4210/11 toc44
FREQUENCY (MHz)
GAIN (dB)
VSENSE = 90mVP-P
IOUT LARGE-SIGNAL GAIN
vs. FREQUENCY

MAX4210/11 toc45
FREQUENCY (MHz)
GAIN (dB)
VSENSE = 90mVP-P
IN SMALL-SIGNAL GAIN
vs. FREQUENCY

MAX4210/11 toc46
FREQUENCY (MHz)
GAIN (dB)0.10.01
VIN = 10mVP-P
MEASURED AT POUT
VSENSE = 40mVypical Operating Characteristics (continued)
(VCC= 5.0V, VRS+= 25V, VSENSE= 100mV, VIN= 1V, VLE= 0V, RIOUT= RPOUT= 1MΩ, VCIN1+= VCIN2+= VREF, VCIN1-= VCIN2-=
0V, VINHIBIT= 0V, RCOUT1= RCOUT2= 5kΩconnected to VCC, TA= +25°C, unless otherwise noted.)
MAX4210/MAX4211
High-Side Power and
Current Monitors
MAX4210A/B/C Pin Description

*TDFN package only.
PIN
6 TDFN8 µMAXNAMEFUNCTION
1GNDGround2, 3, 6N.C.No Connection. Not internally connected.VCCPower-Supply Voltage. Connect a 0.1µF bypass capacitor from VCC to GND.5RS+Power Connection to External-Sense Resistor and Internal Resistor-Divider7RS-Load-Side Connection for External-Sense Resistor8POUTPower Output Voltage. Voltage output proportional to source power (input voltage
multiplied by load current).—EP*Exposed Paddle. EP is internally connected to GND.
MAX4210D/E/F Pin Description

*TDFN package only.
PIN
6 TDFN8 µMAXNAMEFUNCTION
1GNDGround2INMultiplier Input Voltage. Voltage input for internal multiplier.VCCPower-Supply Voltage. Connect a 0.1µF bypass capacitor from VCC to GND.5RS+Power Connection to External-Sense Resistor7RS-Load-Side Connection for External-Sense Resistor8POUTPower Output Voltage. Voltage output proportional to source power (input voltage
multiplied by load current).—EP*Exposed Paddle. EP is internally connected to GND.3, 6N.C.No Connection. Not internally connected.
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