LTC4065 LINER [Linear Technology], LTC4065 Datasheet - Page 14

LTC4065

Manufacturer Part Number

LTC4065

Description

High Efficiency Battery Charger/USB Power Manager

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC4065.pdf (24 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LTC4065AEDC

Manufacturer:

Quantity:

10 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LTC4065AEDC#PBF

Manufacturer:

LINEAR

Quantity:

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LTC4065AEDC#TRMPBF

Manufacturer:

XILINX

Quantity:

1 143

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LTC4065EDC

Manufacturer:

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

LTC4065EDC

Manufacturer:

LINEAR/凌特

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LTC4065EDC#TRMPBF

Manufacturer:

Quantity:

7 720

Company:

Meier Automation Equipment Co., Limited

Part Number:

LTC4065LEDC#TRPBF

Manufacturer:

Quantity:

20 000

Current page: 14 of 24
Download datasheet (308Kb)

LTC4088

operaTion

microprocessor. An open-drain output, the CHRG pin can

drive an indicator LED through a current limiting resis-

tor for human interfacing or simply a pull-up resistor for

microprocessor interfacing.

To make the CHRG pin easily recognized by both humans

and microprocessors, the pin is either a DC signal of ON

for charging, OFF for not charging or it is switched at high

frequency (35kHz) to indicate the two possible faults. While

switching at 35kHz, its duty cycle is modulated at a slow

rate that can be recognized by a human.

When charging begins, CHRG is pulled low and remains low

for the duration of a normal charge cycle. When charging

is complete, as determined by the criteria set by the C/X

pin, the CHRG pin is released (Hi-Z). The CHRG pin does

not respond to the C/X threshold if the LTC4088 is in V

current limit. This prevents false end of charge indications

due to insufficient power available to the battery charger. If

a fault occurs while charging, the pin is switched at 35kHz.

While switching, its duty cycle is modulated between a high

and low value at a very low frequency. The low and high

duty cycles are disparate enough to make an LED appear

to be on or off thus giving the appearance of “blinking”.

Each of the two faults has its own unique “blink” rate for

human recognition as well as two unique duty cycles for

machine recognition.

Table 2 illustrates the four possible states of the CHRG

pin when the battery charger is active.

Table 2. CHRG Signal

Notice that an NTC fault is represented by a 35kHz pulse

train whose duty cycle toggles between 6.25% and 93.75%

at a 1.5Hz rate. A human will easily recognize the 1.5Hz

rate as a “slow” blinking which indicates the out of range

battery temperature while a microprocessor will be able

to decode either the 6.25% or 93.75% duty cycles as an

NTC fault.

Bad Battery

NTC Fault

Charging

BAT

STATUS

< C/X

FREQUENCY

35kHz

0Hz

(BLINK) FREQUENCY

MODULATION

1.5Hz at 50%

6.1Hz at 50%

0Hz (Low Z)

0Hz (Hi-Z)

6.25% or 93.75%

12.5% or 87.5%

CYCLES

DUTY

100%

BUS

If a battery is found to be unresponsive to charging (i.e.,

its voltage remains below 2.85V for 1/2 hour), the CHRG

pin gives the battery fault indication. For this fault, a hu-

man would easily recognize the frantic 6.1Hz “fast” blink of

the LED while a microprocessor would be able to decode

either the 12.5% or 87.5% duty cycles as a bad cell fault.

Because the LTC4088 is a 3-terminal PowerPath product,

system load is always prioritized over battery charging.

Due to excessive system load, there may not be sufficient

power to charge the battery beyond the bad cell threshold

voltage within the bad cell timeout period. In this case the

battery charger will falsely indicate a bad cell. System

software may then reduce the load and reset the battery

charger to try again.

Although very improbable, it is possible that a duty cycle

reading could be taken at the bright-dim transition (low

duty cycle to high duty cycle). When this happens the

duty cycle reading will be precisely 50%. If the duty cycle

reading is 50%, system software should disqualify it and

take a new duty cycle reading.

C/X Determination

The current exiting the C/X pin represents 1/1031th of

the battery charge current. With a resistor from C/X to

ground that is X/10 times the resistor at the PROG pin,

the CHRG pin releases when the battery current drops to

C/X. For example, if C/10 detection is desired, R

be made equal to R

state is given by:

With this design, C/10 detection can be achieved with only

one resistor rather than a resistor for both the C/X pin and

the PROG pin. Since both of these pins have 1/1031 of

the battery charge current in them, their voltages will be

equal when they have the same resistor value. Therefore,

rather than using two resistors, the C/X pin and the PROG

pin can be connected together and the resistors can be

paralleled to a single resistor of 1/2 of the program resistor.

PROG

BAT

. The current threshold at which CHRG will change

C/X

• 1031

PROG

. For C/20, R

C/X

would be twice

C/X

should

4088fb

LTC4065 LINER [Linear Technology], LTC4065 Datasheet - Page 14

LTC4065

Available stocks

Related parts for LTC4065