MAX9610FELT+T Maxim Integrated Products, MAX9610FELT+T Datasheet - Page 6

MAX9610FELT+T

Manufacturer Part Number

MAX9610FELT+T

Description

IC AMP CURR SENSE 50V/V 6UDFN

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX9610EVKIT.pdf (11 pages)

Specifications of MAX9610FELT+T

Amplifier Type

Current Sense

Number Of Circuits

-3db Bandwidth

110kHz

Voltage - Input Offset

100µV

Current - Supply

0.75µA

Voltage - Supply, Single/dual (±)

1.6 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

6-µDFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Output Type

Current - Output / Channel

Slew Rate

Gain Bandwidth Product

Current - Input Bias

Other names

MAX9610FELT+T
MAX9610FELT+TTR

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1µA, µDFN/SC70, Lithium-Ion Battery,

Precision Current-Sense Amplifier

The MAX9610 family of unidirectional high-side, cur-

rent-sense amplifiers features a 1.6V to 5.5V input com-

mon-mode range. The input range is excellent for

monitoring the current of a single-cell lithium-ion battery

(Li+), which at full charge is 4.2V, typically 3.6V in nor-

mal use, and less than 2.9V when ready to be

recharged. The MAX9610 is ideal for many battery-

powered, handheld devices because it uses only 1μA

quiescent supply current to extend battery life. The

MAX9610 monitors current through a current-sense

resistor and amplifies the voltage across that resistor.

See the Typical Operating Circuit on page 1.

The MAX9610 is a unidirectional current-sense amplifier

that has a well-established history. An op amp is used

to force the current through an internal gain resistor at

RS+ that has a value of R

equals the voltage drop across an external sense resis-

tor, R

same value as R

rent through R

is the same as its source current that flows through a

second gain resistor, R

voltage, V

of the two gain resistors R

Total gain = 25V/V for the MAX9610T, 50V/V for the

MAX9610F, and 100V/V for the MAX9610H.

Choose R

A high R

to drop due to IR loss. For minimal voltage loss, use the

lowest R

OUT

µDFN

2, 5

_______________________________________________________________________________________

SENSE

. The gain accuracy is based on the matching

SENSE

OUT

SC70

. There is an internal resistor at RS- with the

1, 2

—

, whose magnitude is I

value.

value causes the power-source voltage

Applications Information

is sourced by a pFET. Its drain current

based on the following criteria.

Choosing the Sense Resistor

to minimize offset voltage. The cur-

NAME

GND

OUT

N.C.

RS+

RS-

Detailed Description

OUT

, such that its voltage drop

. This produces an output

Ground

No Connection. Not internally

connected.

Output

Load-Side Connection to

External Sense Resistor

Power-Side Connection to

External Sense Resistor

and R

Pin Description

OUT

FUNCTION

LOAD

(see Table 1).

Voltage Loss

x R

SENSE

The MAX9610 is unique since the supply voltage is the

input common-mode voltage (the average voltage at

RS+ and RS-). There is no separate V

input. Therefore, the OUT voltage swing is limited by

the minimum voltage at RS+.

and

minimum RS+ voltage. For best performance with a

3.6V supply voltage, select R

mately 120mV (gain of 25V/V), 60mV (gain of 50V/V), or

30mV (gain of 100V/V) of sense voltage for the full-

scale current in each application. These can be

increased by use of a higher minimum input voltage.

In the linear region (V

components to accuracy: input offset voltage (V

Gain Error (GE). The MAX9610 has V

and Gain Error of 0.5% (max). Use the following linear

equation to calculate total error.

A high R

sured more accurately because offsets are less signifi-

cant when the sense voltage is larger.

At high current levels, the I

significant. Take this into consideration when choosing

the resistor value and its power dissipation (wattage)

rating. Also, the sense resistor’s value might drift if it is

allowed to heat up excessively. The precision V

the MAX9610 allows the use of small sense resistors to

reduce power dissipation and reduce hot spots.

Table 1. MAX9610, Internal Gain Setting

Resistors (Typical Values)

SENSE

GAIN (V/V)

OUT(MAX)

OUT

full scale should be less than V

100

SENSE

= (Gain ± GE) x V

value allows lower currents to be mea-

SENSE

= V

RS+(MAX)

Efficiency and Power Dissipation

OUT Swing vs. V

OUT

100

200

400

(Ω)

< V

SENSE

R loss in R

LOAD MAX

- V

OUT(MAX)

OUT

SENSE(MAX)

(

± (Gain x V

to provide approxi-

RS+

)

), there are two

OUT

= 500μV (max)

supply voltage

SENSE

10k

and V

/gain at the

(Ω)

- V

Accuracy

can be

SENSE

)

) and

MAX9610FELT+T Maxim Integrated Products, MAX9610FELT+T Datasheet - Page 6

MAX9610FELT+T

Specifications of MAX9610FELT+T

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