Intersil ISL6256AHAZ, ISL6256AHRZ, ISL6256HAZ, ISL6256HRZ Schematics

®

ISL6256, ISL6256A

Data Sheet September 14, 2010

Highly Integrated Battery Charger with
Automatic Power Source Selector for
Notebook Computers

The ISL6256, ISL6256A is a highly integrated battery charger
controller for Li-ion/Li-ion polymer batteries. High Efficiency is
achieved by a synchronous buck topology and the use of a
MOSFET, instead of a diode, for selecting power from the
adapter or battery . The low side MOSFET emulates a diode at
light loads to improve the light load efficiency and prevent
system bus boosting.

The constant output voltage can be selected for 2, 3 and 4
series Li-ion cells with 0.5% accuracy over-temperature. It can
also be programmed between 4.2V + 5%/cell and

4.2V- 5%/cell to optimize battery capacity. When su pplying
the load and battery charger simultaneously, the input curre nt
limit for the AC adapter is programmable to within 3%
accuracy to avoid overloading the AC adapter , and to all ow
the system to make efficient use of available adapter power
for charging. It also has a wide range of programmable
charging current. The ISL6256, ISL6256A provides outputs
that are used to monitor the current drawn from the AC
adapter, and monito r for the presence of an AC adapter. The
ISL6256, ISL6256A automatically transitions from regulatin g
current mode to regulating voltage mode.

ISL6256, ISL6256A has a feature for automatic power source
selection by switching to the battery when the AC adapter is
removed or switching to the AC adapter when the AC adapter is
available. It also provides a DC adapter monitor to support
aircraft power applications with the option of no battery charging.

Ordering Information

PART

NUMBER

(Notes 1, 2)

ISL6256HRZ ISL 6256HRZ -10 to +100 28 Ld 5x5 QFN L28.5x5
ISL6256HAZ ISL 6256HAZ -10 to +100 28 Ld QSOP M28.15
ISL6256AHRZ ISL6256 AHRZ -10 to +100 28 Ld 5x5 QFN L28.5x5
ISL6256AHAZ ISL6256 AHAZ -10 to +100 28 Ld QSOP M28.15

NOTES:

1. Add “-T” suffix for tape and reel. Please refer to TB347 for details on
reel specifications.

2. These Intersil Pb-free plastic packaged products employ special Pb­free material sets, molding compounds/die attach materials, and
100% matte tin plate plus anneal (e3 termination finish, which is
RoHS compliant and compatible with both SnPb and Pb-free
soldering operations). Intersil Pb-free products are MSL classified at
Pb-free peak reflow temperatures that meet or exceed the Pb-free
requirements of IPC/JEDEC J STD-020.

3. For Moisture Sensitivity Level (MSL), please see device information
page for ISL6256, ISL6256A
see techbrief TB363

PART

MARKING

.

TEMP

RANGE

(°C)

. For more information on MSL please

PACKAGE

(Pb-free)

PKG.

DWG. #

FN6499.3

Features

• ±0.5% Charge Voltage Accuracy (-10°C to +100°C)

• ±3% Accurate Input Current Limit

• ±3% Accurate Battery Charge Current Limit

• ±25% Accurate Battery Trickle Charge Current Limit

• Programmable Charge Current Limit, Adapter Current
Limit and Charge Voltage

• Fixed 300kHz PWM Synchronous Buck Controller with
Diode Emulation at Light Load

• Overvoltage Protection

• Output for Current Drawn from AC Adapter

• AC Adapter Present Indicator

• Fast Input Current Limit Response

• Input Voltage Range 7V to 25V

• Support 2-, 3- and 4-Cells Battery Pack

• Up to 17.64V Battery-Voltage Set Point

• Control Adapter Power Source Select MOSFET

• Thermal Shutdown

• Aircraft Power Capable

• DC Adapter Present Indicator

• Battery Discharge MOSFET Control

• Less than 10µA Battery Leakage Current

• Supports Pulse Charging

• Pb-free (RoHS Compliant)

Applications

• Notebook, Desknote and Sub-notebook Computers

• Personal Digital Assistant

1

CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.

1-888-INTERSIL or 1-888-468-3774

| Intersil (and design) is a registered trademark of Intersil Amer ic as Inc .

Copyright Intersil Americas Inc. 2007, 2008, 2010. All Rights Reserved

All other trademarks mentioned are the property of their respective owners.

Pinouts

ISL6256, ISL6256A

(28 LD QFN)

TOP VIEW

ISL6256, ISL6256A

ISL6256, ISL6256A

(28 LD QSOP)

TOP VIEW

EN

CELLS

ICOMP

VCOMP

ICM

VREF

CHLIM

DCSET

ACSET

VDD

DCIN

28 27 26 25 24 23 22

1

2

3

4

5

6

7

8 9 10 11 12 13 14

GND

ACLIM

VADJ

PGND

PGND

PGND

DCPRN

LGATE

ACPRN

VDDP

CSON

21

20

19

18

17

16

15

BOOT

CSOP

CSIN

CSIP

SGATE

BGATE
PHASE

UGATE

DCIN

VDD
ACSET
DCSET

EN
CELLS
ICOMP

VCOMP

ICM

VREF
CHLIM
ACLIM

VADJ

GND

1 28
2 27
3 26
4 25
5 24

6 23
7 22
8 21
9 20
10 19
11 18
12 17
13 16
14 15

DCPRN
ACPRN
CSON
CSOP
CSIN

CSIP
SGATE
BGATE
PHASE
UGATE
BOOT
VDDP
LGATE
PGND

2

FN6499.3

September 14, 2010

ISL6256, ISL6256A

ACSET

ACPRN

ACLIM

ICOMP

VCOMP

VADJ

CELLS

VREF

VREF

152kΩ

152kΩ

VREF

514kΩ

514kΩ

VOLTAGE

SELECTOR

REFERENCE

VDD

+

-

ADAPTER
CURRENT
LIMIT SET

gm1
+

2.1V

ICM CSIP CSIN

1.26V

MIN
VOLTAGE
BUFFER

-

SGATE

-

gm3
+

MIN

CURRENT

BUFFER

288kΩ

32kΩ

16kΩ

48kΩ

Σ

-0.25

CA2

X19.9

-

-

+

X19.9

gm2

CA1

+

-

CSON

300kHz
RAMP

+

1.26V

­PWM

+

+

-

-

+

LDO

REGULATOR

-

+

DCSET
DCPRN

BGATE

DCIN

VDD

BOOT

UGATE

PHASE

VDDP

LGATE

PGND

1.065V

EN

GND

FB

CSON

CSOP

CHLIM

FIGURE 1. FUNCTIONAL BLOCK DIAGRAM

3

FN6499.3

September 14, 2010

ISL6256, ISL6256A

AC ADAPTER

TO HOST
CONTROLLER

VREF

R8

130k

1%

1%

1%

1%

R9

10.2k
1%

1%

1%

4.7k

CHARGE

ENABLE

R12

R12

2.6A CHARGE LIMIT

2.6A CHARGE LIMIT

20k 1%

20k 1%

253mA TRICKLE CHARGE

1.87k

TRICKLE

CHARGE

3.3V

3.3V

C6

R6

FLOATING

FLOATING

4.2V/CELL

4.2V/CELL

R13

R13

1%

1%

1%

C7

1µF

R5

R5

R5

R5

100k

6.8nF

C5

R11

R11

130k

Q6

10nF

1%

1%

1%

1%

VDD

C8

0.1µF

R10

R10

R10

R10

4.7

4.7Ω

C9

C9

1

1µF

1

1

Q5

Q5

DCIN

DCIN

DCIN

DCIN

ACSET

ACSET

ACSET

ACSET

VDDP

VDDP

VDDP

VDDP

VDD

VDD

VDD

VDD

ACPRN

ACPRN

ACPRN

ACPRN

ICOMP

ICOMP

ICOMP

ICOMP

VCOMP

VCOMP

VCOMP

VCOMP

VADJ

VADJ

VADJ

VADJ

EN

EN

EN

EN

ACLIM

ACLIM

ACLIM

ACLIM

VREF

VREF

VREF

VREF

CHLIM

CHLIM

CHLIM

CHLIM

C8

ISL6256

ISL6256

ISL

ISL6256
ISL6256A

IS

ISL

ISL

Q3

Q3

Q3

Q3

SGATE

SGATE

SGATE

SGATE

CSIP

CSIP

CSIP

CSIP

CSIN

CSIN

CSIN

CSIN

BGATE

BGATE

BGATE

BGATE

BOOT

BOOT

BOOT

BOOT

UGATE

UGATE

UGATE

UGATE

PHASE

PHASE

PHASE

PHASE

LGATE

LGATE

LGATE

LGATE

PGND

PGND

PGND

PGND

CSOP

CSOP

CSOP

CSOP

CSON

CSON

CSON

CSON

CELLS

CELLS

CELLS

CELLS

ICM

ICM

ICM

ICM

GND

GND

GND

GND

R21

C2

C2

0.1

0.1

0.1

0.1µF

R22

R7: 100Ω

2.2Ω

22Ω

VDDP

D2

D2

D2

D2

C4

C4

0.1

0.1µF

0.1

0.1

Q2

Q2

R11

C3

0.047µF

VDD

VDD

VDD

VDD
4 CELLS

4 CELLS

R12

C11

C11
3300pF

3300pF

22Ω

Q1

Q1

22Ω

R2

R2

R2

R2
20m

20m

20m

20mΩ

C1:10

C1:10µF

D1

OPTIONAL

Q4

Q4

L

4.7µH

R1

R1

R1

R1

20mΩ

C10
22µF

SYSTEM LOAD

SYSTEM LOAD

VDD

R23
10k

D3
1N914

CSON

BAT+

BATTERY

PACK

BAT-

FIGURE 2. ISL6256, ISL6256A TYPICAL APPLICATION CIRCUIT WITH FIXED CHARGING PARAMETERS

4

FN6499.3

September 14, 2010

VCC

VCC

VCC

DIGITAL

DIGITAL

DIGITAL

INPUT

DIGITAL

DIGITAL

DIGITAL

INPUT

INPUT

INPUT

D/A OUTPUT

D/A OUTPUT

D/A OUTPUT

OUTPUT

OUTPUT

OUTPUT

A/D INPUT

A/D INPUT

A/D INPUT

HOST

HOST

HOST

HOST

AVDD/VREF

AVDD/VREF

AVDD/VREF

SCL

SCL

SCL
SDL

SDL

SDL

A/D INPUT

A/D INPUT

A/D INPUT

GND

GND

GND

GND

ADAPTER

R14

R14

100k

100k

100k

100k

1%

1%

1%

1%

R15

R15

11.5k

11.5k
1%

1%

130k

130k

130k

130k

R9

R9

R9

R9

10.2k

10.2k

10.2k

10.2k
1%

1%

1%

1%

R16
100k

100k

100k

100k

C11

C11
3300pF

3300pF

R11, R12
R13: 10k

R8

R8

R8

R8

1%

1%

1%

1%

C7

C7

µF

1

1

C9

C9

1µF

1

R5

R5

R5

R5
100k

100k

100k

100k

R7: 100Ω

R7:

5.15A INPUT

5.15A INPUT

5.15A INPUT

CURRENT LIMIT

CURRENT LIMIT

CURRENT LIMIT

CURRENT LIMIT

R6

R6

R6

R6

4.7k

ISL6256, ISL6256A

Q5

Q5

VDD

VDD

VDD

VDD

C8

C8

0.1µ

0.1

0.1

0.1
DCIN

DCIN

DCIN

ACSET

ACSET

ACSET

DCSET

DCSET

DCSET

ISL6256

ISL

ISL

ISL6256A

ISL

ISL

VDDP

VDDP

VDDP

R10

R10

4.7

4.7

4.7

4.7Ω
VDD

VDD

VDD

ACPRN

ACPRN

ACPRN

DCPRN

DCPRN

DCPRN

CHLIM

CHLIM

CHLIM

EN

EN

EN

ICM

ICM

ICM

VREF

VREF

VREF

VREF

C6

C6

6.8nF

6.8nF

6.8nF

6.8nF

C5

C5
10nF

10nF

10nF

10nF

ACLIM

ACLIM

ACLIM

VREF

VREF

VREF

ICOMP

ICOMP

ICOMP

VCOMP

VCOMP

VCOMP

SGATE

SGATE

SGATE

CSIP

CSIP

CSIP

CSIN

CSIN

CSIN

BGATE

BGATE

BGATE

BOOT

BOOT

BOOT

UGATE

UGATE

UGATE

PHASE

PHASE

PHASE

LGATE

LGATE

LGATE

PGND

PGND

PGND

CSOP

CSOP

CSOP

CSON

CSON

CSON

CELLS

CELLS

CELLS

VADJ

VADJ

VADJ

GND

GND

GND

Q3

Q3

Q3

Q3

R21

C2

C2

0.1

0.1

0.1

0.1µF

R22

VDDP

VDDP

D2

D2

C4

C4

0.1µF

0.1

0.1

0.1

Q2

Q2

C3C3

0.047µF

GND
3 CELLS

3 CELLS

3 CELLS

3 CELLS
FLOATING

FLOATING

4.2V/CELL

2.2Ω

22Ω

R11

R12

R2
20mΩ

20m

20m

20m

C1:10µF

C1:10

C1:10

C1:10

Q1

Q1

Q1

Q1

D1

D1

OPTIONAL

22Ω

22Ω

L

4.7µH

R1

R1

R1

R1
20mΩ

C10
22µF

SYSTEM LOAD

Q4

Q4

Q4

Q4

VDD

CSON

BAT+

BATTERY

BATTERY

PACK

SCL

SCL
SDL
TEMP

TEMP

TEMP
BAT-

BAT-

BAT-

BAT-

R23
10k

D3
1N914

FIGURE 3. ISL6256, ISL6256A TYPICAL APPLICATION CIRCUIT WITH µP CONTROL AND AIRCRAFT POWER SUPPORT

5

September 14, 2010

FN6499.3

ISL6256, ISL6256A

Absolute Maximum Ratings Thermal Information

DCIN, CSIP, CSON to GND. . . . . . . . . . . . . . . . . . . . .-0.3V to +28V

CSIP-CSIN, CSOP-CSON. . . . . . . . . . . . . . . . . . . . . -0.3V to +0.3V

CSIP-SGATE, CSIP-BGATE . . . . . . . . . . . . . . . . . . . . . -0.3V to 16V

PHASE to GND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -7V to 30V

BOOT to GND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.3V to +35V

BOOT to VDDP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -2V to 28V

ACLIM, ACPRN, CHLIM, DCPRN, VDD to GND. . . . . . .-0.3V to 7V

BOOT-PHASE, VDDP-PGND . . . . . . . . . . . . . . . . . . . . . -0.3V to 7V

ACSET and DCSET to GND (Note 4) . . . . . . . -0.3V to VDD +0.3V

ICM, ICOMP, VCOMP to GND. . . . . . . . . . . . . . -0.3V to VDD +0.3V

VREF, CELLS to GND . . . . . . . . . . . . . . . . . . . . -0.3V to VDD +0.3V

EN, VADJ, PGND to GND . . . . . . . . . . . . . . . . . -0.3V to VDD +0.3V

UGATE. . . . . . . . . . . . . . . . . . . . . . . . PHASE -0.3V to BOOT +0.3V

LGATE. . . . . . . . . . . . . . . . . . . . . . . . . PGND -0.3V to VDDP +0.3V

CAUTION: Do not operate at or near the maximum ratings listed for extended periods of time. Exposure to such conditions may adversely impact product reliability and
result in failures not covered by warranty.

NOTES:

4. ACSET may be operated 1V below GND if the current through ACSET is limited to less than 1mA.

is measured in free air with the component mounted on a high effective thermal conductivity test board with “direct attach” features. See T ech

5. θ

JA

Brief TB379.

6. For θ

, the “case temp” location is the center of the exposed metal pad on the package underside.

JC

Electrical Specifications DCIN = CSIP = CSIN = 18V, CSOP = CSON = 12V, ACSET = DCSET = 1.5V, ACLIM= VREF,

VADJ=Floating, EN=VDD=5V, BOOT-PHASE=5.0V, GND=PGND=0V, C
T

= -10°C to +100°C, TJ≤ +125°C, Unless Otherwise Noted. Boldface limits apply over the

A

operating temperature range, -10°C to +100°C.

PARAMETER TEST CONDITIONS

SUPPLY AND BIAS REGULATOR

DCIN Input Voltage Range 725V
DCIN Quiescent Current EN = VDD or GND, 7V ≤ DCIN ≤ 25V 1.4 3 mA
Battery Leakage Current (Note 7) DCIN = 0, no load 3 10 µA
VDD Output Voltage/Regulation 7V ≤ DCIN ≤ 25V, 0 ≤ I
VDD Undervoltage Lockout Trip Point VDD Rising 4.0 4.4 4.6 V

Hysteresis 200 250 400 mV

Reference Output Voltage VREF 0 ≤ I

≤ 300µA 2.365 2.39 2.415 V

VREF

Battery Charge Voltage Accuracy CSON = 16.8V, CELLS = VDD, VADJ = Float -0.5 0.5 %

CSON = 12.6V, CELLS = GND, VADJ = Float -0.5 0.5 %
CSON = 8.4V, CELLS = Float, VADJ = Float -0.5 0.5 %
CSON = 17.64V, CELLS=VDD,

VADJ= VREF
CSON = 13.23V, CELLS = GND,

VADJ= VREF
CSON = 8.82V, CELLS=Float, VADJ= VREF -0.5 0.5 %
CSON = 15.96V, CELLS=VDD, VADJ = GND -0.5 0.5 %
CSON = 11.97V , CELLS=GND, V ADJ= GND -0.5 0.5 %
CSON = 7.98V, CELLS = Float, VADJ = GND -0.5 0.5 %

TRIP POINTS

ACSET Threshold 1.24 1.26 1.28 V
ACSET Input Bias Current Hysteresis 2.4 3.4 4.4 µA

VDD

Thermal Resistance θ

(°C/W) θJC (°C/W)

JA

QFN Package (Notes 5, 6). . . . . . . . . . 39 9.5

QSOP Package (Note 5) . . . . . . . . . . . 80 N/A

Junction Temperature Range. . . . . . . . . . . . . . . . . .-10°C to +150°C

Operating Temperature Range . . . . . . . . . . . . . . . .-10°C to +100°C

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

Pb-free reflow profile . . . . . . . . . . . . . . . . . . . . . . . . . .see link below

http://www.intersil.com/pbfree/Pb-FreeReflow.asp

MIN

(Note 8) TYP

=1µF, I

VDD

(Note 8) UNITS

MAX

VDD

=0mA,

≤ 30mA 4.925 5.075 5.225 V

-0.5 0.5 %

-0.5 0.5 %

6

FN6499.3

September 14, 2010

ISL6256, ISL6256A

Electrical Specifications DCIN = CSIP = CSIN = 18V, CSOP = CSON = 12V, ACSET = DCSET = 1.5V, ACLIM= VREF,

VADJ=Floating, EN=VDD=5V, BOOT-PHASE=5.0V, GND=PGND=0V, C
T

= -10°C to +100°C, TJ≤ +125°C, Unless Otherwise Noted. Boldface limits apply over the

A

operating temperature range, -10°C to +100°C. (Continued)

MIN

PARAMETER TEST CONDITIONS

ACSET Input Bias Current ACSET ≥ 1.26V 2.4 3.4 4.4 µA
ACSET Input Bias Current ACSET < 1.26V -1 0 1 µA
DCSET Threshold 1.24 1.26 1.28 V
DCSET Input Bias Current Hysteresis 2.4 3.4 4.4 µA
DCSET Input Bias Current DCSET ≥ 1.26V 2.4 3.4 4.4 µA
DCSET Input Bias Current DCSET < 1.26V -1 0 1 µA

OSCILLATOR

Frequency 245 300 355 kHz
PWM Ramp Voltage (peak-to-peak) CSIP = 18V 1.6 V

CSIP = 11V 1 V

SYNCHRONOUS BUCK REGULATOR

Maximum Duty Cycle 97 99 99.6 %
UGATE Pull-up Resistance BOOT-PHASE = 5V, 500mA source current 1.8 3.0 Ω
UGATE Source Current BOOT-PHASE = 5V, BOOT-UGATE = 2.5V 1.0 A
UGATE Pull-down Resistance BOOT-PHASE = 5V, 500mA sink current 1.0 1.8 Ω
UGATE Sink Current BOOT-PHASE = 5V, UGATE-PHASE = 2.5V 1.8 A
LGATE Pull-up Resistance VDDP-PGND = 5V, 500mA source current 1.8 3.0 Ω
LGATE Source Current VDDP-PGND = 5V, VDDP-LGATE = 2.5V 1.0 A
LGATE Pull-down Resistance VDDP-PGND = 5V, 500mA sink current 1.0 1.8 Ω
LGATE Sink Current VDDP-PGND = 5V, LGATE = 2.5V 1.8 A
Dead Time Falling UGATE to rising LGATE or

falling LGATE to rising UGATE

CHARGING CURRENT SENSING AMPLIFIER

Input Common-Mode Range 018V
Input Bias Current at CSOP 5 < CSOP < 18V 0.25 2 µA
Input Bias Current at CSON 5 < CSON < 18V 75 100 µA
CHLIM Input Voltage Range 03.6V
ISL6256

CSOP to CSON Full-Scale Current Sense
Voltage

ISL6256A
CSOP to CSON Full-Scale Current Sense
Voltage

ISL6256 CSOP to CSON Full-Scale
Current Sense Voltage Formula

ISL6256A CSOP to CSON Full-Scale
Current Sense Voltage Formula

CHLIM Input Bias Current CHLIM = GND or 3.3V, DCIN = 0V -1 1 µA

ISL6256: CHLIM = 3.3V 160 165 170 mV
ISL6256: CHLIM = 2.0V 95 100 105 mV
ISL6256: CHLIM = 0.2V 5.0 10 15.0 mV
ISL6256A: CHLIM = 3.3V 161.7 165 168.3 mV
ISL6256A: CHLIM = 2.0V 97 100 103 mV
ISL6256A: CHLIM = 0.2V 7.5 10 12.5 mV
Charge current limit mode

0.2V < CHLIM < 3.3V
Charge current limit mode

0.2V < CHLIM < 3.3V

(Note 8) TYP

10 30 ns

CHLIM*50

- 5

CHLIM*49.72

-2.4

=1µF, I

VDD

MAX

(Note 8) UNITS

CHLIM*50

+ 5

CHLIM*50.28

+2.4

VDD

=0mA,

mV

mV

7

FN6499.3

September 14, 2010

ISL6256, ISL6256A

Electrical Specifications DCIN = CSIP = CSIN = 18V, CSOP = CSON = 12V, ACSET = DCSET = 1.5V, ACLIM= VREF,

VADJ=Floating, EN=VDD=5V, BOOT-PHASE=5.0V, GND=PGND=0V, C
T

= -10°C to +100°C, TJ≤ +125°C, Unless Otherwise Noted. Boldface limits apply over the

A

operating temperature range, -10°C to +100°C. (Continued)

MIN

PARAMETER TEST CONDITIONS

CHLIM Power-down Mode Threshold
Voltage

CHLIM Power-down Mode Hysteresis
Voltage

ADAPTER CURRENT SENSING AMPLIFIER

Input Common-Mode Range 7 25 V
Input Bias Current at CSIP and CSIN

Combined
Input Bias Current at CSIN 0 < CSIN < DCIN 0.10 µA

ADAPTER CURRENT LIMIT THRESHOLD

CSIP to CSIN Full-Scale Current Sense
Voltage

ACLIM Input Bias Current ACLIM = VREF 10 16 20 µA

VOLTAGE REGULATION ERROR AMPLIFIER

Error Amplifier Transconductance from
CSON to VCOMP

CURRENT REGULATION ERROR AMPLIFIER

Charging Current Error Amplifier
Transconductance

Adapter Current Error Amplifier
Transconductance

BATTERY CELL SELECTOR

CELLS Input Voltage for 4-Cell Select 4.3 V
CELLS Input Voltage for 3-Cell Select 2 V
CELLS Input Voltage for 2-Cell Select 2.1 4.2 V

MOSFET DRIVER

BGATE Pull-up Current CSIP-BGATE = 3V 10 30 45 mA
BGATE Pull-down Current CSIP-BGATE = 5V 2.7 4.0 5.0 mA
CSIP-BGATE Voltage High 8 9.6 11 V
CSIP-BGATE Voltage Low -50 0 50 mV
DCIN-CSON Threshold for CSIP-BGATE

Going High
DCIN-CSON Threshold Hysteresis 250 300 400
SGATE Pull-up Current CSIP-SGATE = 3V 7 12 15 mA
SGATE Pull-down Current CSIP-SGATE = 5V 50 160 370 µA
CSIP-SGATE Voltage High 8 9 11 V
CSIP-SGATE Voltage Low -50 0 50 mV
CSIP-CSIN Threshold for CSIP-SGATE

Going High

CHLIM rising 80 88 95 mV

CSIP = CSIN = 25V 100 130 µA

ACLIM = VREF 97 100 103 mV
ACLIM = Float 72 75 78 mV
ACLIM = GND 47 50 53 mV

ACLIM = GND -20 -16 -10 µA

CELLS = VDD 30 µA/V

DCIN = 12V, CSON Rising -100 0 100 mV

(Note 8) TYP

15 25 40 mV

2.5 8 13 mV

=1µF, I

VDD

(Note 8) UNITS

50 µA/V

50 µA/V

MAX

VDD

=0mA,

mV

8

FN6499.3

September 14, 2010

ISL6256, ISL6256A

Electrical Specifications DCIN = CSIP = CSIN = 18V, CSOP = CSON = 12V, ACSET = DCSET = 1.5V, ACLIM= VREF,

VADJ=Floating, EN=VDD=5V, BOOT-PHASE=5.0V, GND=PGND=0V, C
T

= -10°C to +100°C, TJ≤ +125°C, Unless Otherwise Noted. Boldface limits apply over the

A

operating temperature range, -10°C to +100°C. (Continued)

MIN

PARAMETER TEST CONDITIONS

(Note 8) TYP

CSIP-CSIN Threshold Hysteresis 2 5 8 mV
LOGIC INTERFACE

EN Input Voltage Range 0VDDV
EN Threshold Voltage Rising 1.030 1.06 1.100 V

Falling 0.985 1.000 1.025 V

Hysteresis 30 60 90 mV
EN Input Bias Current EN = 2.5V 1.8 2.0 2.2 µA
ACPRN Sink Current ACPRN = 0.4V 3 8 11 mA
ACPRN Leakage Current ACPRN = 5V -0.5 0.5 µA
DCPRN Sink Current DCPRN = 0.4V 3 8 11 mA
DCPRN Leakage Current DCPRN = 5V -0.5 0.5 µA
ICM Output Accuracy

= 19.9 x (V

(V

ICM

CSIP-VCSIN

))

CSIP-CSIN = 100mV -3 0 +3 %

CSIP-CSIN = 75mV -4 0 +4 %

CSIP-CSIN = 50mV -5 0 +5 %
Thermal Shutdown Temperature 150 °C
Thermal Shutdown Temperature

Hysteresis

NOTE:

7. This is the sum of currents in these pins (CSIP, CSIN, BOOT, UGATE, PHASE, CSOP, CSON) all tied to 16.8V . No current in pins EN, ACSET,
VADJ, CELLS, ACLIM, CHLIM.

8. Parameters with MIN and/or MAX limits are 100% tested at +25°C, unless otherwise specified. T emperature limits are
established by characterization and are not production tested.

VDD

=1µF, I

VDD

=0mA,

MAX

(Note 8) UNITS

25 °C

9

FN6499.3

September 14, 2010