MICROCHIP MCP73861, MCP73862, MCP73863, MCP73864 Technical data

MCP73861/2/3/4

Advanced Single or Dual Cell, Fully Integrated Li-Ion /

Li-Polymer Charge Management Controllers

Features

• Linear Charge Management Controllers

- Integrated Pass Transistor

- Integrated Current Sense

- Reverse-Blocking Protection

• High-Accuracy Preset V olt age Regulat ion: +

0.5%

• Four Selectable Voltage Regulation Options:

- 4.1V, 4.2V – MCP73861/3

- 8.2V, 8.4V – MCP73862/4

• Programmable Charge Current: 1.2A Maximum

• Programmable Safety Charge Timers

• Preconditioning of Deeply Depleted Cells

• Automatic End-of-Charge Control

• Optional Continuous Cell Temperature Monitoring

• Charge Status Output for Direct LED Drive

• Fault Output for Direct LED Drive

• Automatic Power-Down

• Thermal Regulation

• Temperature Range: -40°C to +85°C

• Packaging: 16-Pin, 4 x 4 QFN
16-Pin SOIC

Applications

• Lithium-Ion/Lithium-Polymer Battery Chargers

• Personal Data A ssistants (PDAs)

• Cellular Telep hon es

• Hand-Held Instruments

• Cradle Chargers

•Digital Cameras

• MP3 Players

Package Types

Description

The MCP7386X family of devices are h ighly ad vanced
linear charge management controllers for use in space­limited, cost-sensiti ve applications. The devices com­bine high-accuracy, constant voltage and current r egu­lation, cell preconditioning, cell temperature monitoring,
advanced safety timers , automatic charge t ermination,
internal current sensing, reverse-blocking protection,
charge status and fault indication in either a space­saving 16-pin, 4 x 4 QFN or 16-pin SOIC package. The
MCP7386X provides a complete, fully-functional, stand­alone charge management solution with a minimum
number of external components.

The MCP73861/3 is intended for applications utilizing
single-cell Lithium-Ion or Lithium-Polymer battery
packs, while the MCP73862/4 is intended for dual
series cell Lithium-Ion or Lithium-Polymer battery
packs. The MCP73861/3 have two selectable voltage­regulation options available (4.1V and 4.2V), for use
with either coke or graphite anode s and operate wi th an
input voltage range of 4.5V to 12V. The MCP73862/4
have two selectable voltage-regulation options avail­able (8.2V and 8.4V), for use with coke or graphite
anodes, and operate with an input voltage range of

8.7V to 12V.
The only difference between the MCP73861/2 and

MCP73863/4, respectivel y , is the function of the charge
status output (STAT1) when a charge cycle has been
completed. The MCP73861/2 flash the output, while
the MCP73863/4 turn the output off. Refer to

Section 5.2.1 “Charge Status Outputs
(STAT1,STAT2)”.

The MCP7386X family of devices are fully specified
over the ambient temperature range of -40°C to +85°C.

16-Pin SOIC16-Pin QFN

SS2

V

STAT1

V

1

SET

V

2

DD1

V

3

DD2

V

4

SS1

5678

PROG

© 2005 Microchip Technology Inc. DS21893C-page 1

EN

STAT2

141516

MCP73861
MCP73862
MCP73863
MCP73864

THREF

THERM

13

12

V

BAT3

11

V

BAT2

10

V

BAT1

V

9

SS3

TIMER

STAT2 1
STAT1

2

V

3

SET

V

4

DD1

V

5

DD2

V

SS1

PROG

THREF

MCP73861

MCP73862

6
7
89

MCP73863

16
15
14
13
12

MCP73864

11
10

EN
V

SS2

V

BAT3

V

BAT2

V

BAT1

V

SS3

TIMER
THERM

MCP73861/2/3/4

Typical Application

1.2A Lithium-Ion Battery Charger

5V

4.7µF

Functional Block Diagram

Direction

G = 0.001

Charge
Ter mination
Comparator

+
–

+
–

V

UVLO

Control

1kΩ

11 kΩ

10 kΩ

I

/12

REG

U

VLO

COMPARATOR

V

90
kΩ

Power-On
Delay

V

DD1

V

DD2

PROG

EN

110 kΩ

10 kΩ

V

REF

2, 3

V

1

V

14

EN

16

STAT1

15

STAT2

5

PROG

MCP73861/3

REF

Charge Current
Control Amplifier

+

–

Precondition
Control

DD
SET

V

BAT3

V

BAT

THREF

THERM

TIMER

V

SS

V

12
10, 11

6
7
8

4, 9, 13

DD

6.19 kΩ

7.32 kΩ

Voltage Control
Amplifier

Charge_OK
Precon

4.7 µF

0.1
µF

+

–

V

REF

Precondition
Comp.

Constant-Voltage/
Recharge Comp.

Single

+

Lithium-Ion

–

Cell

+
–

+
–

V

REF

4kΩ

600 kΩ
(1.65 MΩ)

148.42 kΩ

1.58 kΩ

300.04 kΩ

V

BAT1

V

BAT2

V

BAT3

Values in ( )
reflect the
MCP73862/4
devices

V

Bias and
Reference
Generator

V

UVLO
REF

(1.2V)

V

SET

10.3 kΩ

THREF

THERM

TIMER

100 kΩ

50 kΩ

50 kΩ

Temperature
Comparators

+
–

+
–

I

REG

Oscillator

/12

Charge Control,
Charge Timers
And Status Logic

(8.58 kΩ)

Drv Stat 1

Drv Stat 2

Charge_OK

V

SS1

V

SS2

V

SS3

STAT1

STAT2

DS21893C-page 2 © 2005 Microchip Technology Inc.

MCP73861/2/3/4

1.0 ELECTRICAL CHARACTERISTICS

† Notice: Stresses above those listed under “Maximum

Ratings” may cause permanent damage to the device. This is
a stress rating only and functional operation of the device at
those or any other conditions above those indicated in the

Absolute Maximum Ratings†

operational listings of this specification is not implied.
Exposure to maximum rating condit ions fo r ext ended pe riods

V

..............................................................................13.5V

DDN

, V

V

BATN

, EN, ST AT1, STAT2 w.r.t. V

SET

SS

.................................................................-0.3 to (V

PROG, THREF, THERM, TIMER w.r.t. V
Maximum Junction Te m perature, T

..............-0.3 to 6V

SS

............Internally Limited

J

DD

+ 0.3)V

may affect device reliability.

Storage temperature.....................................-65°C to +150°C

ESD protection on all pins:

Human Body Model (1.5 kΩ in series with 100 pF)....≥ 4kV

Machine Model (200 pF, No series resistance) ...........300V

DC CHARACTERISTICS

Electrical Specifications: Unless otherwise indicated, all limits apply for VDD= [V

= -40°C to +85°C. Typical values are at +25°C, V

T

A

DD

= [V

REG

(typ.) + 1.0V]

Parameters Sym Min Typ Max

Supply Input

Supply Voltage V

DD

4.5 — 12 V MCP73861/3

8.7 — 12 V MCP73862/4

Supply Current I

SS

— 0.17 4 µA Disabled
— 0.53 4 mA Operating

UVLO Start Threshold V

START

4.25 4.5 4.65 V MCP73861/3

8.45 8.8 9.05 V MCP73862/4

UVLO Stop Threshold V

STOP

4.20 4.4 4.55 V MCP73861/3

8.40 8.7 8.95 V MCP73862/4

Voltage Regulation (Constant-Voltage Mode)

Regulated Output Voltage V

REG

4.079 4.1 4.121 V MCP73861/3, V

4.179 4.2 4.221 V MCP73861/3, V

8.159 8.2 8.241 V MCP73862/4, V

8.358 8.4 8.442 V MCP73862/4, V

Line Regulation |(ΔV

Load Regulation |ΔV

BAT/VBAT

| /ΔV

DD

BAT/VBAT

)

| — 0.01 0.25 % I

— 0.025 0.25 %/V V

Supply Ripple Attenuation PSRR — 60 — dB I

—42—dBI

—28—dBI

Output Reverse-Leakage
Current

I

DISCHARGE

—0.23 1µAV

Current Regulation (Fast Charge Constant- Current Mode)

Fast Charge Current
Regulation

I

REG

85 100 115 mA PROG = OPEN

1020 1200 1380 mA PROG = V

425 500 575 mA PROG = 1.6 kΩ

(typ.) + 0.3V] to 12V,

REG

Unit

s

Conditions

Low-to-High

V

DD

High-to-Low

V

DD

SET
SET
SET
SET

V

= [V

DD

I

OUT

T

= -5°C to +55°C

A

DD

I

OUT
OUT

V

DD
OUT
OUT

10 kHz

OUT

DD

= -5°C to +55°C

T

A

(typ.) + 1V],

REG

=10mA

= [V

(typ.)+1V] to 12V

REG

= 10 mA
= 10 mA to 150 mA

= [V

(typ.)+1V]

REG

= 10 mA, 10 Hz to 1 kHz
= 10 mA, 10 Hz to

= 10 mA, 10 Hz to 1 MHz

< V

= V

BAT

REG

SS

= V
= V
= V
= V

(typ.)

SS
DD
SS
DD

© 2005 Microchip Technology Inc. DS21893C-page 3

MCP73861/2/3/4

DC CHARACTERISTICS (Continued)

Electrical Specifications: Unless otherwise indicated, all limits apply for VDD= [V

= -40°C to +85°C. Typical values are at +25°C, V

T

A

Parameters Sym Min Typ Max

Preconditioning Curre nt Regulation (T r ickle Charge Constant-Current Mode)

Precondition Current

I

PREG

Regulation

Precondition Threshold
Voltage

V

PTH

Charge Termination

Charge Termination
Current

I

TERM

Automatic Recharge

Recharge Threshold

V

RTH

Voltage

Thermistor Reference

Thermistor Reference

V

THREF

Output Voltage

Thermistor Reference

I

THREF

Source Current
Thermistor Reference Line

Regulation

Thermistor Reference Load
Regulation

|(ΔV

HREF

|ΔV

THREF/VT

)|/

ΔV

DD

THREF/VT

HREF|

Thermistor Comparator

Upper Trip Threshold V
Upper Trip Point Hysteresis V
Lower Trip Threshold V
Lower Trip Point Hysteresis V
Input Bias Current I

T1

T1HYS

T2

T2HYS

BIAS

Status Indicator – STAT1, STAT2

Sink Current I
Low Output Voltage V
Input Leakage Current I

SINK

OL

LK

Enable Input

Input High Voltage Level V
Input Low Voltage Level V
Input Leakage Current I

IH

IL

LK

= [V

DD

(typ.) + 1.0V]

REG

5 10 15 mA PROG = OPEN
60 120 180 mA PROG = V
25 50 75 mA PROG = 1.6 kΩ

2.70 2.80 2.90 V MCP73861/3, V

2.75 2.85 2.95 V MCP73861/3, V

5.40 5.60 5.80 V MCP73862/4, V

5.50 5.70 5.90 V MCP73862/4, V

6 8.5 11 mA PROG = OPEN
70 90 120 mA PROG = V
32 41 50 mA PROG = 1.6 kΩ

V

REG

300 mV

V

REG

600 mV

-

-

V

REG

200 mV

V

REG

400 mV

-

V

-

2.475 2.55 2.625 V TA = 25°C,

200 — — µA

— 0.1 0.25 %/V V

0.01 0.10 % I

1.18 1.25 1.32 V
—-50—mV

0.59 0.62 0.66 V
—80—mV
—— 2μA

4812mA
— 200 400 mV I
—0.01 1μAI

1.4 — — V
——0.8V
—0.01 1μAV

(typ.) + 0.3V] to 12V,

REG

Unit

s

T

A

V

BAT

T

A

-100 mV V MCP73861/3

REG

V

-

REG

V MCP73862/4

200 mV

V

BAT

V

DD

I

THREF

DD

12V

THREF

SINK
SINK

ENABLE

Conditions

SS

=-5°C to +55°C

Low-to-High

SS

=-5°C to +55°C

High-to-Low

= V

(typ.) + 1V,

REG

= 0 mA

= [V

(typ.) + 1V] to

REG

= 0 mA to 0.20 mA

= 1 mA

= 0 mA, V

STAT1,2

= 12V

SET
SET
SET
SET

= V
= V
= V
= V

SS
DD
SS
DD

= 12V

DS21893C-page 4 © 2005 Microchip Technology Inc.

DC CHARACTERISTICS (Continued)

Electrical Specifications: Unless otherwise indicated, all limits apply for VDD= [V

= -40°C to +85°C. Typical values are at +25°C, V

T

A

DD

= [V

REG

(typ.) + 1.0V]

Parameters Sym Min Typ Max

Thermal Shutdow n

Die Temperature T
Die Temperature

T

Hysteresis

SD

SDHYS

— 155 — °C
—10—°C

AC CHARACTERISTICS

Electrical Specifications: Unless otherwise indicated, all limits apply for V

= -40°C to +85°C. Typical values are at +25°C, V

T

A

DD

= [V

(typ.) + 1.0V]

REG

Parameters Sym Min Typ Max Units Conditions

UVLO Start Delay t

START

—— 5 msVDD Low-to-High

Current Regulation

Transition Time Out of

t

DELAY

—— 1 msV

Preconditioning
Current Rise Time Out of

t

RISE

—— 1 msI

Preconditioning
Fast Charge Safety Timer

Period

t

FAST

1.1 1.5 1.9 Hours C

Preconditioning Current Regulation

Preconditioning Charge Safety
Timer Period

t

PRECON

45 60 75 Minutes C

Charge Termination

Elapsed Time Termination
Period

t

TERM

2.2 3 3.8 Hours C

Status Indicators

Status Output turn-off t
Status Output turn-on t

OFF

ON

— — 200 µs I
— — 200 µs I

DD

MCP73861/2/3/4

(typ.) + 0.3V] to 12V,

REG

= [V

Unit

s

(typ.) + 0.3V ] to 1 2 V,

REG

< V

BAT

Rising to 90% of I

OUT

TIMER

TIMER

TIMER

= 1mA to 0mA

SINK

= 0mA to 1mA

SINK

PTH

= 0.1 µF

= 0.1 µF

= 0.1 µF

to V

Conditions

> V

BAT

PTH

REG

TEMPERATURE SPECIFICATIONS

Electrical Specifications: Unless otherwise indicated, all limits apply for V

Typical values are at +25°C, V

DD

= [V

(typ.) + 1.0V]

REG

Parameters Sym Min Typ Max Units Conditions

Temperature Ranges

Specified Temperature Range T
Operating Temperature Range T
Storage Temperature Range T

A

J

A

-40 — +85 °C

-40 — +125 °C

-65 — +150 °C

Thermal Package Resistances

Thermal Resistance, 16-lead,

θ

JA

— 37 — °C/W 4-Layer JC51-7 Standard Board,

4 mm x 4 mm QFN
Thermal Resistance, 16-lead SOIC θ

JA

— 74 — °C/W 4-Layer JC51-7 Standard Board,

© 2005 Microchip Technology Inc. DS21893C-page 5

DD

= [V

(typ.) + 0.3V ] to 1 2 V.

REG

Natural Convection

Natural Convection

MCP73861/2/3/4

= 5.2V

MCP73861/3

DD

= 1000 mA

= 5.2V

2.0 TYPICAL PERFORMANCE CURVES

Note: The graphs and t ables provided following this note are a statistical summary based on a l im ite d n um ber of

samples and are provided for informational purposes only. The performance characteristics listed herein
are not tested or guaranteed. In some graphs or tables, the data presented may be outside the specified
operating range (e.g., outside specified power supply range) and therefore outside the warranted range.

NOTE: Unless otherwise indicated, VDD = [V

(typ.) + 1V], I

REG

= 10 mA and TA= +25°C, Constant-voltage mode.

OUT

4.207

4.205

4.203

4.201

4.199

4.197

4.195

4.193

Battery Regulation Voltage (V)

10 100 1000

Charge Current (mA)

MCP73861/3

= V

V

SET

V

DD

DD

FIGURE 2-1: Battery Regulation Voltage
(V

) vs. Charge Current (I

BAT

4.40

4.30

4.20

4.10

4.00

3.90

3.80

Battery Regulation Voltage (V)

4.5 6.0 7.5 9.0 10.5 12.0

Supply Voltage (V)

OUT

).

V

= V

SET

I

OUT

1.00

0.90

0.80

0.70

0.60

0.50

Supply Current (mA)

0.40
10 100 1000

Charge Current (mA)

FIGURE 2-4: Supply Current (I
Charge Current (I

1.60

1.40

1.20

1.00

0.80

0.60

Supply Current (mA)

0.40

4.5 6.0 7.5 9.0 10.5 12.0

).

OUT

Supply Voltage (V)

I

OUT

MCP73861/3

V

= V

SET

V

DD

) vs.

SS

MCP73861/3

V

= V

SET

= 1000 mA

DD

DD

FIGURE 2-2: Battery Regulation Voltage

) vs. Supply Voltage (VDD).

(V

BAT

4.207

MCP73861/3
V

= V

SET

DD

I

= 10 mA

OUT

4.5 6.0 7.5 9.0 10.5 12.0

Supply Voltage (V)

Battery Regulation Voltage (V)

4.205

4.203

4.201

4.199

4.197

4.195

4.193

FIGURE 2-3: Battery Regulation Voltage

) vs. Supply Voltage (VDD).

(V

BAT

FIGURE 2-5: Supply Current (I
Supply Voltage (V

1.00

0.90

0.80

0.70

0.60

0.50

Supply Current (mA)

0.40

4.5 6.0 7.5 9.0 10.5 12.0

).

DD

Supply Voltage (V)

FIGURE 2-6: Supply Current (I
Supply Voltage (V

DD

).

) vs.

SS

MCP73861/3

V

= V

SET

I

= 10 mA

OUT

) vs.

SS

DD

DS21893C-page 6 © 2005 Microchip Technology Inc.

TYPICAL PERFORMANCE CURVES (CONTINUED)

NOTE: Unless otherwise indicated, VDD = [V

(typ.) + 1V], I

REG

= 10 mA and TA= +25°C, Constant-voltage mode.

OUT

MCP73861/2/3/4

0.45

MCP73861/3

0.40

V

= V

SET

DD

VDD = V

0.35

0.30

0.25

0.20

0.15

0.10

0.05

0.00

Output Leakage Current (µA)

SS

2.0 2 .4 2.8 3.2 3.6 4.0 4.4
Battery Regulation Voltage (V)

+85°C
+25°C

-40°C

FIGURE 2-7: Output Leakage Current
(I

DISCHARGE

(V

BAT

Therm. Reference Voltage (V)

) vs. Battery Regulation Voltage

).

2.550

MCP73861/3

= V

V

SET

I

THREF

DD

= 100 µA

Supply Voltage (V)

2.540

2.530

2.520

2.510

2.500

4.5 6.0 7.5 9.0 10.5 12.0

1.60

MCP73861/3

= V

V

SET

I

-40

OUT

DD

= 10 mA

0

-30

-20

Ambient Temperatur e (°C)

10203040506070

-10

1.40

1.20

1.00

0.80

0.60

Supply Current (mA)

0.40

FIGURE 2-10: Supply Current (I
Ambient Temperature (T

4.207

MCP73861/3

= V

V

Battery Regulation Voltage (V)

4.205

4.203

4.201

4.199

4.197

4.195

4.193

I

-40

SET

DD

= 10 mA

OUT

-30

-20

Ambient Temperature (°C)

).

A

0

10203040506070

-10

SS

80

) vs.

80

FIGURE 2-8: Thermistor Reference
Voltage (V

2.520

2.515

2.510

2.505

2.500

Therm. Reference Voltage (V)

) vs. Supply Voltage (VDD).

THREF

MCP73861/3

= V

V

SET

DD

0 25 50 75 100 125 150 175 200

Therm. Bias Current (µA)

FIGURE 2-9: Thermistor Reference
Voltage (V
(I

THREF

).

) vs. Thermistor Bias Current

THREF

FIGURE 2-11: Battery Regulation Voltage
(V

) vs. Ambient Temperature (TA).

BAT

2.520

MCP73861/3

= V

V

SET

DD

I

= 100 µA

THREF

2.515

2.510

2.505

2.500

Therm. Reference Voltage (V)

-40

-30

0

-20

10203040506070

-10

Ambient Temperatur e (° C)

80

FIGURE 2-12: Thermistor Reference
Voltage (V

) vs. Ambient Temperature (TA).

THREF

© 2005 Microchip Technology Inc. DS21893C-page 7

MCP73861/2/3/4

)

TYPICAL PERFORMANCE CURVES (CONTINUED)

NOTE: Unless otherwise indicated, VDD = [V

(typ.) + 1V], I

REG

= 10 mA and TA= +25°C, Constant-voltage mode.

OUT

8.407

MCP73862/4

= V

V

8.405

SET

DD

VDD = 9.4V

8.403

8.401

8.399

8.397

8.395

8.393

Battery Regulati on Volt age (V)

10 100 1000

Charge Current (mA)

FIGURE 2-13: Battery Regulation Voltage
(V

) vs. Charge Current (I

BAT

8.407

8.405

MCP73862/4

8.403

8.401

8.399

8.397

8.395

8.393

Battery Regulation Voltage (V

= V

V

SET

DD

I

= 1000 mA

OUT

10.0 10.4 10.8 11.2 11.6 12.0

Supply Voltage (V)

OUT

).

1.00

MCP73862/4

= V

V

SET

0.90

0.80

0.70

0.60

0.50

Supply Current (mA)

0.40

DD

VDD = 9.4V

10 100 1000

Charge Current (mA)

FIGURE 2-16: Supply Current (I
Charge Current (I

1.60

MCP73862/4

= V

V

SET

1.40

I

= 1000 mA

OUT

1.20

1.00

0.80

0.60

Supply Current (mA)

0.40

9.0 9.5 10.0 10.5 11.0 11.5 12.0

).

OUT

DD

Supply Voltage (V)

SS

) vs.

FIGURE 2-14: Battery Regulation Voltage

) vs. Supply Voltage (VDD).

(V

BAT

8.412

MCP73862/4

= V

V

SET

8.410

8.408

8.406

8.404

8.402

8.400

8.398

Battery Regulation Voltage (V)

DD

I

= 10 mA

OUT

9.0 9.5 10.0 10.5 11.0 11.5 12.0
Supply Voltage (V)

FIGURE 2-15: Battery Regulation Voltage

) vs. Supply Voltage (VDD).

(V

BAT

FIGURE 2-17: Supply Current (I
Supply Voltage (V

1.00

MCP73862/4

= V

V

SET

0.90

I

= 10 mA

OUT

0.80

0.70

0.60

0.50

Supply Current (mA)

0.40

9.0 9.5 10.0 10.5 11.0 11.5 12.0

).

DD

DD

Supply Voltage (V)

FIGURE 2-18: Supply Current (I
Supply Voltage (V

DD

).

SS

SS

) vs.

) vs.

DS21893C-page 8 © 2005 Microchip Technology Inc.

TYPICAL PERFORMANCE CURVES (CONTINUED)

NOTE: Unless otherwise indicated, VDD = [V

(typ.) + 1V], I

REG

= 10 mA and TA= +25°C, Constant-voltage mode.

OUT

MCP73861/2/3/4

0.45

MCP73862/4

0.40

0.35

0.30

0.25

0.20

0.15

0.10

0.05

0.00

Output Leakage Current (µA)

= V

V

SET

DD

VDD = V

SS

4.0 4.8 5.6 6.4 7.2 8.0 8.8
Battery Regulation Voltage (V)

+85°C

+25°C

-40°C

FIGURE 2-19: Output Leakage Current
(I

DISCHARGE

(V

BAT

Therm. Reference Voltage (V)

) vs. Battery Regulation Voltage

).

2.570

MCP73862/4

= V

V

SET

DD

I

= 100 µA

THREF

2.560

2.550

2.540

2.530

9.0 9.5 10.0 10.5 11.0 11.5 12.0
Supply Voltage (V)

1.60

MCP73862/4

= V

V

SET

I

-40

OUT

DD

= 10 mA

0

-30

-20

10203040506070

-10

Ambient Temperature (°C)

1.40

1.20

1.00

0.80

0.60

Supply Current (mA)

0.40

FIGURE 2-22: Supply Current (I
Ambient Temperature (T

8.414

8.410

8.406

8.402

8.398

8.394

8.390

8.386

Battery Regulation Voltage (V)

-40

-30

-20

).

A

0

10203040506070

-10

Ambient Temperature (°C)

) vs.

SS

MCP73862/4

= V

V

SET

I

= 10 mA

OUT

80

DD

80

FIGURE 2-20: Thermistor Reference
Voltage (V

2.550

2.548

2.546

2.544

2.542

2.540

Therm. Reference Voltage (V)

) vs. Supply Voltage (VDD).

THREF

MCP73862/4

= V

V

SET

DD

0 25 50 75 100 125 150 175 200

Thermistor Bias Current (µA)

FIGURE 2-21: Thermistor Reference
Voltage (V
(I

THREF

).

) vs. Thermistor Bias Current

THREF

FIGURE 2-23: Battery Regulation Voltage
(V

) vs. Ambient Temperature (TA).

BAT

2.550

2.546

2.542

2.538

2.534

2.530

Therm. Reference Voltage (V)

-40

-30

0

-20

10203040506070

-10

Ambient Temperature (°C)

MCP73862/4

V

SET

I

= 100 µA

THREF

= V

DD

80

FIGURE 2-24: Thermistor Reference
Voltage (V

) vs. Ambient Temperature (TA).

THREF

© 2005 Microchip Technology Inc. DS21893C-page 9