ISL6255 INTERSIL [Intersil Corporation], ISL6255 Datasheet - Page 14

ISL6255

Manufacturer Part Number

ISL6255

Description

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

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL6255.pdf (22 pages)

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battery voltage per cell can be determined by the following

equation:

Connect CELLS as shown in Table 1 to charge 2, 3 or 4 Li+

cells. When charging other cell chemistries, use CELLS to

select an output voltage range for the charger. The internal

error amplifier gm1 maintains voltage regulation. The voltage

error amplifier is compensated at VCOMP. The component

values shown in Figure 16 provide suitable performance for

most applications. Individual compensation of the voltage

regulation and current-regulation loops allows for optimal

compensation.

Setting the Battery Charge Current Limit

The CHLIM input sets the maximum charging current. The

current set by the current sense-resistor connects between

CSOP and CSON. The full-scale differential voltage between

CSOP and CSON is 165mV for CHLIM=3.3V, so the

maximum charging current is 4.125A for a 40mΩ sensing

resistor. Other battery charge current-sense threshold

values can be set by connecting a resistor divider from

VREF or 3.3V to ground, or by connecting a low impedance

voltage source like a D/A converter in the micro-controller.

The charge current limit threshold is given by:

To set the trickle charge current for the dumb charger, a

resistor in series with a switch Q6 (Figure 15) controlled by

the micro-controller is connected from CHLIM pin to ground.

The trickle charge current is determined by:

When the CHLIM voltage is below 88mV (typical), it will

disable the battery charge. When choosing the current

sensing resistor, note that the voltage drop across the

sensing resistor causes further power dissipation, reducing

efficiency. However, adjusting CHLIM voltage to reduce the

voltage across the current sense resistor R1 will degrade

accuracy due to the smaller signal to the input of the current

sense amplifier. There is a trade-off between accuracy and

power dissipation. A low pass filter is recommended to

eliminate switching noise. Connect the resistor to the CSOP

pin instead of the CSON pin, as the CSOP pin has lower

CHG

CELL

. 0

165mV

-------------------

165mV

-------------------

TABLE 1. CELL NUMBER PROGRAMMING

175

CELLS

GND

Float

VDD

--------------------- -

--------------------------------------- -

VADJ

CHLIM

CHLIM trickle

3.3V

3.99

CELL NUMBER

ISL6255, ISL6255A

bias current and less influence on current-sense accuracy

and voltage regulation accuracy.

Setting the Input Current Limit

The total input current from an AC adapter, or other DC

source, is a function of the system supply current and the

battery-charging current. The input current regulator limits

the input current by reducing the charging current, when the

input current exceeds the input current limit set point.

System current normally fluctuates as portions of the system

are powered up or down. Without input current regulation,

the source must be able to supply the maximum system

current and the maximum charger input current

simultaneously. By using the input current limiter, the current

capability of the AC adapter can be lowered, reducing

system cost.

The ISL6255, ISL6255A limits the battery charge current

when the input current-limit threshold is exceeded, ensuring

the battery charger does not load down the AC adapter

voltage. This constant input current regulation allows the

adapter to fully power the system and prevent the AC

adapter from overloading and crashing the system bus.

An internal amplifier gm3 compares the voltage between

CSIP and CSIN to the input current limit threshold voltage

set by ACLIM. Connect ACLIM to REF, Float and GND for

the full-scale input current limit threshold voltage of 100mV,

75mV and 50mV, respectively, or use a resistor divider from

VREF to ground to set the input current limit as the following

equation

When choosing the current sense resistor, note that the

voltage drop across this resistor causes further power

dissipation, reducing efficiency. The AC adapter current

sense accuracy is very important. Use a 1% tolerance

current-sense resistor. The highest accuracy of ±3% is

achieved with 100mV current-sense threshold voltage for

ACLIM=VREF, but it has the highest power dissipation. For

example, it has 400mW power dissipation for rated 4A AC

adapter and 1W sensing resistor may have to be used. ±4%

and ±6% accuracy can be achieved with 75mV and 50mV

current-sense threshold voltage for ACLIM=Floating and

ACLIM=GND, respectively.

A low pass filter is suggested to eliminate the switching

noise. Connect the resistor to CSIN pin instead of CSIP pin

because CSIN pin has lower bias current and less influence

on the current-sense accuracy.

AC Adapter Detection

Connect the AC adapter voltage through a resistor divider to

ACSET to detect when AC power is available, as shown in

Figure 15. ACPRN is an open-drain output and is high when

INPUT







VREF

. 0

ACLIM

. 0

050







June 17, 2005

FN9203.1

ISL6255 INTERSIL [Intersil Corporation], ISL6255 Datasheet - Page 14

ISL6255

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