MAX4210-MAX4211 MAXIM [Maxim Integrated Products], MAX4210-MAX4211 Datasheet

MAX4210-MAX4211

Manufacturer Part Number

MAX4210-MAX4211

Description

High-Side Power and Current Monitors

Manufacturer

MAXIM [Maxim Integrated Products]

Datasheet

1.MAX4210-MAX4211.pdf (32 pages)

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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

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.

19-3285; Rev 0; 6/04

µMAX is a registered trademark of Maxim Integrated Products, Inc.

Pin Configurations and Selector Guide appear at end of data

sheet.

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.

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

________________________________________________________________ Maxim Integrated Products

General Description

packages and the MAX4211 is

Applications

♦ Real-Time Current and Power Monitoring

♦ ±1.5% (max) Current-Sense Accuracy

♦ ±1.5% (max) Power-Sense Accuracy

♦ Two Uncommitted Comparators (MAX4211)

♦ 1.21V Reference Output (MAX4211)

♦ Three Current/Power Gain Options

♦ 100mV/150mV Current-Sense Full-Scale Voltage

♦ +4V to +28V Input Source Voltage Range

♦ +2.7V to +5.5V Power-Supply Voltage Range

♦ Low Supply Current: 380µA (MAX4210)

♦ 220kHz Bandwidth

♦ Small 6-Pin TDFN and 8-Pin µMAX Packages

*EP = Exposed paddle.

Ordering Information continued at end of data sheet.

MAX4210AETT

MAX4210AEUA

Functional Diagrams continued at end of data sheet.

(MAX4210)

High-Side Power and

PART

2.7V TO

4V TO

5.5V

28V

Current Monitors

-40°C to +85°C

-40°C to +85°C 8 µMAX

TEMP RANGE

INHIBIT

COUT1

COUT2

MAX4211A

MAX4211B

MAX4211C

25:1

Ordering Information

Functional Diagrams

RS+

GND

REFERENCE

1.21V

SENSE

6 TDFN-EP*

(3mm x 3mm)

PIN-PACKAGE

RS-

POUT

CIN1+

CIN1-

CIN2+

IOUT

CIN2-

REF

LOAD

Features

MARK

TOP

AHF

—

Related parts for MAX4210-MAX4211

MAX4210-MAX4211 Summary of contents

Page 1

... 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° ...

Page 2

... IN LE IOUT POUT = 5k connected - +85 C, unless otherwise noted. Typical values are CONDITIONS V CC Measured at RS+ CMR MAX4210 T = +25° +5.5V MAX4211 MAX4210 V = +5.5V CC MAX4211 MAX421_A/B 0mV RS+ SENSE MAX421_D/E 0mV RS- SENSE I MAX421_D/E RS- CC ...

Page 3

ELECTRICAL CHARACTERISTICS (continued 5.0V 25V 5mV RS+ SENSE GND 0V INHIBIT COUT1 COUT2 T = +25 C, unless otherwise noted.) (Note 1) A PARAMETER SYMBOL Current-Sense Amplifier ...

Page 4

High-Side Power and Current Monitors ELECTRICAL CHARACTERISTICS (continued 5.0V 25V 5mV RS+ SENSE GND 0V INHIBIT COUT1 COUT2 T = +25 C, unless otherwise noted.) ...

Page 5

... V POUT V V POUT_MAX FSO Total POUT Output Error (Note 10) V POUT_MAX V POUT POUT Output Offset Voltage (Note 11) MAX4210B/MAX4211B (power gain = 1.00) V POUT V SENSE POUT Gain Accuracy (Note 9) V POUT V *FSO refers to full-scale output under the conditions: V _______________________________________________________________________________________ High-Side Power and = 1.0V 0V, R ...

Page 6

... V V POUT Gain Accuracy (Note POUT_MAX Total POUT Output Error (Note 10) V POUT_MAX V POUT Output Offset Voltage (Note 11) MAX4210D/MAX4211D (power gain = 16.67 POUT Gain Accuracy (Note 9) V *FSO refers to full-scale output under the conditions _______________________________________________________________________________________ = 1.0V 0V IOUT ...

Page 7

... C, unless otherwise noted.) (Note 1) A PARAMETER SYMBOL V POUT_MAX FSO Total POUT Output Error (Note 10) V POUT_MAX V POUT POUT Output Offset Voltage (Note 11) MAX4210E/MAX4211E (power gain = 25.00 POUT Gain Accuracy (Note POUT_MAX FSO Total POUT Output Error (Note 10) V POUT_MAX V POUT ...

Page 8

... V = 25V 5mV RS+ SENSE GND 0V INHIBIT COUT1 COUT2 T = +25 C, unless otherwise noted.) (Note 1) A PARAMETER SYMBOL MAX4210F/MAX4211F (power gain = 40.96) V POUT V POUT Gain Accuracy SENSE (Note 9) V POUT POUT_MAX FSO Total POUT Output Error (Note 10) V POUT_MAX V POUT ...

Page 9

ELECTRICAL CHARACTERISTICS (continued 5.0V 25V 5mV RS+ SENSE GND 0V INHIBIT COUT1 COUT2 T = +25 C, unless otherwise noted.) (Note 1) A PARAMETER SYMBOL MAX4211B/MAX4211E (current ...

Page 10

... SUPPLY VOLTAGE -0.3 -0 -0.6 -0.7 -0.8 2.7 3.1 3.5 3.9 4.3 4.7 5.1 5.5 SUPPLY VOLTAGE ( CIN1+ CIN2+ REF CIN1- CIN2- MAX4210 SUPPLY CURRENT vs. TEMPERATURE 0. 5mV SENSE 5.5V 0. 4.0V CC 0.40 0.35 0. 2.7V CC 0.25 0.20 -40 - TEMPERATURE ( C) RS+/RS- BIAS CURRENT vs. COMMON-MODE VOLTAGE 16 14 RS+ (A/B/C VERSIONS ...

Page 11

V = 25V 100mV RS+ SENSE 0V 0V connected to V INHIBIT COUT1 COUT2 CURRENT OUTPUT ERROR vs. SENSE VOLTAGE - ...

Page 12

... CIN1+ CIN2+ REF CIN1- COMPARATOR PROPAGATION DELAY vs. TEMPERATURE 1.8 1.6 1.4 1.2 1.0 0.8 0.6 200 -40 - TEMPERATURE ( C) ) COMPARATOR POWER-UP DELAY MAX4210/11 toc24 200 s/div 85 POUT POWER-UP DELAY MAX4210/11 toc27 MAX4211E 1.45V CIN+ 0.95V 5V C OUT 2V/div 0V 200 s/div = CIN2 2V/div 0V 5V COUT 2V/div 0V 5V ...

Page 13

... POUT SMALL-SIGNAL PULSE RESPONSE 10V 5V/div 0V 2.5V IOUT 1V/div 0V Current Monitors = CIN1+ CIN2+ REF CIN1- MAX4210/11 toc29 V CC 2V/div 0V POUT 2V/div 0V 2ms/div MAX4210/11 toc31 10V 5V/div 0V 2.5V POUT 1V/div 0V 20ms/div MAX4210/11 toc33 V = 10mV SENSE TO 20mV STEP 470pF LOAD POUT 100mV/div 10 s/div = CIN2- 13 ...

Page 14

... CIN1+ CIN2+ REF CIN1- MAX4210/11 toc35 470pF LOAD V = 10mV SENSE TO 90mV STEP POUT 1V/div 10 s/div POUT SLEW-RATE PULSE RESPONSE MAX4210/11 toc37 NO LOAD V = 10mV SENSE TO 90mV STEP POUT 1V/div 10 s/div vs. FREQUENCY V = 100mV SENSE 0.01 0.1 1 FREQUENCY (MHz CIN2- ...

Page 15

V = 25V 100mV RS+ SENSE 0V 0V connected to V INHIBIT COUT1 COUT2 IOUT COMMON-MODE REJECTION RATIO vs. FREQUENCY - 100mV SENSE -30 ...

Page 16

... Load-Side Connection for External-Sense Resistor Power Output Voltage. Voltage output proportional to source power (input voltage multiplied by load current). Exposed Paddle internally connected to GND. MAX4210D/E/F Pin Description FUNCTION Ground Multiplier Input Voltage. Voltage input for internal multiplier. Power-Supply Voltage. Connect a 0.1µF bypass capacitor from V ...

Page 17

PIN NAME 16 THIN QFN 16 TSSOP N. COUT1 5 7 INHIBIT 6 8 COUT2 7 9 GND 8 10 CIN2 CIN2 CIN1 CIN1 ...

Page 18

... Load-Side Connection for External-Sense Resistor Power Connection to External-Sense Resistor Exposed Paddle internally connected to GND. - SENSE + SENSE LOAD 28V RS 5.5V POUT + FUNCTION to GND SENSE RS+ RS- Functional Diagrams SENSE R SENSE LOAD RS+ RS MAX4210D MAX4210E MAX4210F IN POUT GND ) load ...

Page 19

... MAX4211A MAX4211B MAX4211C GND Detailed Description The MAX4210/MAX4211 families of current- and power- monitoring ICs integrate a precision current-sense amplifier and an analog multiplier for a variety of cur- rent and power measurements. The MAX4211 inte- grates an additional uncommitted 1.21V reference and two comparators with open-drain outputs. These fea- ...

Page 20

... For the MAX4210D/E/F and MAX4211D/E/F, the analog multiplier full-scale input approximately 1V. This independent multiplier input allows greater design flexi- bility when using an external voltage-divider. For the ...

Page 21

Internal Reference (MAX4211) The MAX4211 features a 1.21V bandgap reference out- put, stable over supply voltage and temperature. Typically, the reference output is connected to one 28V 2. ...

Page 22

High-Side Power and Current Monitors Applications Information Recommended Component Values Ideally, the maximum load current develops the full- scale sense voltage across the current-sense resistor. Choose the gain version needed to yield the maximum current-sense amplifier output voltage without saturat- ...

Page 23

... This VGA features more than 200kHz band- width and is useful in automatic gain-control circuits commonly found in baseband processors. The gain is controlled by applying MAX4210D/E/F; 0V corresponds to minimum gain and 1V corresponds to maximum gain. Measure Load Power The MAX4210A/B/C and MAX4211A/B/C have internal voltage-divider resistors connected to RS+ and the analog multiplier input ...

Page 24

High-Side Power and Current Monitors + 28V + 2. 5. MANUAL RESET Figure 2. Overpower Circuit Breaker (For a Detailed Example, Refer to the MAX4211E EV Kit) 24 ______________________________________________________________________________________ V + SENSE ...

Page 25

... Figure 4. Load-Power Measurement with External Voltage-Divider ______________________________________________________________________________________ High-Side Power and V CC MAX4210D/E/F RS RS- GAIN CONTROL SENSE + - R + SENSE - RS+ RS MAX4210D/E/F MAX4211D/E/F POUT GND Current Monitors POUT OUTPUT ✕ OUTPUT INPUT ✕ ✕ VPOUT 1V) ...

Page 26

... MAX4210AEUA 8 µMAX — MAX4210BETT 6 TDFN — MAX4210BEUA 8 µMAX — MAX4210CETT 6 TDFN — MAX4210CEUA 8 µMAX — MAX4210DETT 6 TDFN — MAX4210DEUA 8 µMAX — MAX4210EETT 6 TDFN — MAX4210EEUA 8 µMAX — MAX4210FETT 6 TDFN — MAX4210FEUA 8 µMAX — MAX4211AETE 16 Thin QFN 16.67 MAX4211AEUE 16 TSSOP 16.67 MAX4211BETE 16 Thin QFN 25.00 ...

Page 27

... TSSOP 16 Thin QFN-EP* MAX4211FETE -40°C to +85°C (4mm x 4mm) MAX4211FEUE -40°C to +85°C 16 TSSOP *EP = Exposed paddle. ______________________________________________________________________________________ High-Side Power and Current Monitors MAX4210 TRANSISTOR COUNT: 515 TOP MAX4211 TRANSISTOR COUNT: 1032 MARK PROCESS: BiCMOS AHG — AHH — AHI — ...

Page 28

... THIN QFN ( ) ARE FOR MAX421_D/E/F. 28 ______________________________________________________________________________________ 6 POUT (IN) N.C. 5 RS- RS REF 12 11 CIN1- (IN) N.C. 10 CIN1+ CIN2 Pin Configurations GND 1 8 POUT 2 7 RS- MAX4210 N. N. RS+ CC MAX RS IOUT RS POUT REF CC MAX4211 4 13 CIN1 CIN1+ ...

Page 29

For the latest package outline information go to www.maxim-ic.com/packages.) PIN 1 INDEX AREA COMMON DIMENSIONS SYMBOL MIN. A 0.70 D 2.90 E 2.90 A1 0.00 L ...

Page 30

High-Side Power and Current Monitors (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to www.maxim-ic.com/packages.) NOTE: THE THIN QFN EXPOSED PADDLE SIZE-VARIATION PACKAGE CODE: T1644-4 30 ______________________________________________________________________________________ ...

Page 31

For the latest package outline information go to www.maxim-ic.com/packages ÿ 0.50±0.1 0.6±0.1 1 0.6±0.1 D TOP VIEW FRONT VIEW ______________________________________________________________________________________ ...

Page 32

High-Side Power and Current Monitors (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to www.maxim-ic.com/packages.) Maxim cannot assume responsibility for use of any circuitry other than circuitry ...

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