IR3725MTRPBF International Rectifier, IR3725MTRPBF Datasheet - Page 11

IR3725MTRPBF

Manufacturer Part Number

IR3725MTRPBF

Description

IC PWR MONITOR INPUT 12-DFN

Manufacturer

International Rectifier

Series

TruePower™r

Datasheet

1.IR3725MTRPBF.pdf (19 pages)

Specifications of IR3725MTRPBF

Applications

Power Supply Monitor

Voltage - Supply

3.135 V ~ 3.465 V

Current - Supply

700µA

Operating Temperature

0°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

12-VFDFN Exposed Pad

Package

12 Lead DFN

Bias Supply Voltage

+3.3V +/-5%

Junction Temperature

0oC to 125oC

Pbf

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Input

Other names

IR3725MTRPBFTR

Current page: 11 of 19
Download datasheet (768Kb)

THERMAL COMPENSATION FOR INDUCTOR DCR CURRENT

SENSING

The positive temperature coefficient of the inductor

DCR can be compensated if R

proportional to the DCR. DCR of a copper coil, as a

function of temperature, is approximated by

TCR

copper, usually assumed to be 0.39 %/°C near room

temperature. Note that equation 1 is linearly

increasing with temperature and has an offset of

DCR(T

If R

thermistor then temperature effects of DCR can be

minimized. Consider a circuit of two resistors and a

thermistor as shown in the R

Figure 3 R

If Rth is an NTC thermistor then the resistance of the

network will decrease as temperature increases.

Unfortunately, most thermistors exhibit far more

variation with temperature than copper wire. One

equation used to model thermistors is

Page 11 of 19

is some reference temperature, usually 25 °C, and

DCR

incorporates a negative temperature coefficient

is the resistive temperature coefficient of

) at the reference temperature.

(

)

Network

DCR

Rth

(

)

⋅

1 (

(

−

network below.

varies inversely

)

⋅

TCR

)

www.irf.com

(1)

where R

temperature T, R

the reference temperature T

constant provided by the thermistor manufacturer.

Kelvin degrees are used in the exponential term of

equation 2. If R

curvature of the equivalent network resistance can be

reduced from the curvature of the thermistor alone.

Although the exponential equation 2 can never

compensate linear equation 1 at all temperatures, a

spreadsheet can be constructed to minimize error

over the temperature interval of interest. The

resistance R

temperature is

using R

Equation 4 may be written as a function of

temperature using equations 1 and 3 as follows:

With Rs and Rp as additional free variables, use a

spreadsheet to solve equation 4 for the desired full

scale current while minimizing the I

over temperature.

(

(T) from equation 2.

(T) is the thermistor resistance at some

(

)

(

)

of the network shown as a function of

)

is large and R

(

)

⋅

) is the thermistor resistance at

)

⎛

⎜

⎝

⋅

(

⋅

⎛

⎜

⎝

DCR

−

, and β is the material

⎞

⎟

⎠

⎞

⎟

⎠

(

is small, the

(

)

(T) variation

)

IR3725

Data Sheet

2008_12_09

(2)

(3)

(4)

IR3725MTRPBF International Rectifier, IR3725MTRPBF Datasheet - Page 11

IR3725MTRPBF

Specifications of IR3725MTRPBF

Related parts for IR3725MTRPBF