LTC4010CFEPBF LINER [Linear Technology], LTC4010CFEPBF Datasheet - Page 17

LTC4010CFEPBF

Manufacturer Part Number

LTC4010CFEPBF

Description

High Efficiency Standalone Nickel Battery Charger

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC4010CFEPBF.pdf (24 pages)

Current page: 17 of 24
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applicaTions inForMaTion

Sample Applications

Figures 6 through 8 detail sample charger applications of

various complexities. Combined with the Typical Application

on the first page of this data sheet, these figures demon-

strate some of the proper configurations of the LTC4010.

MOSFET body diodes are shown in these figures strictly

for reference only.

Figure 6 shows a minimum application, which might be

encountered in low cost NiCd fast charge applications.

The LTC4010 uses –∆V to terminate the fast charge state,

as no external temperature information is available.

Nonsynchronous PWM switching is employed to reduce

external component cost. A single LED indicates charging

status.

A full-featured 2A LTC4010 application is shown in Figure 7.

The inherent voltage ratings of the V

and BAT pins allow charging of one to sixteen series nickel

cells in this application, governed only by the V

limits previously discussed. The application includes all

average cell voltage and battery temperature sensing

circuitry required for the LTC4010 to utilize its full range

of charge qualification, safety monitoring and fast charge

termination features. The V

the LTC4010 to accurately terminate fast charge under a

ADAPTER

TEMP

FROM

12V

thermister network allows

CELL

Figure 6. Minimum 1 Amp LTC4010 Application

0.1µF

49.9k

, V

10µF

CDIV

FAULT

CHRG

READY

overhead

TIMER

GND

CHEM

INTV

, SENSE

LTC4010

8.66k

SENSE

TGATE

BGATE

PGND

TEMP

CDIV

CELL

BAT

10k

variety of applied charge rates. Use of a synchronous PWM

topology improves efficiency and reduces excess heat

generation. LED D1 indicates valid DC input voltage and

installed battery, while LED D2 indicates charging. Fault

conditions are indicated by LED D3. The grounded CHEM

pin selects the NiMH charge termination parameter set.

P-channel MOSFET Q1 functions as a switch to connect the

battery to the system load whenever the DC input adapter

is removed. If the maximum battery voltage is less than

the maximum rated V

are not required. Otherwise choose the Zener voltage

of D4 to be less than the maximum rated V

provides a bias current of (V

D4 when the input adapter is removed. Choose R1 to make

this current, which is drawn from the battery, just large

enough to develop the desired V

While the LTC4010 is a complete, standalone solution,

Figure 8 shows that it can also be interfaced to a host

microprocessor. The host MCU can control the charger

directly with an open-drain I/O port connected to the V

pin, if that port is low leakage and can tolerate at least

2V. The charger state is monitored on the three LTC4010

status outputs. Charging of NiMH batteries is selected in

this example. However, NiCd parameters could be chosen

as well.

33nF

10µF

10µH

0.1

4010 F06

of Q1, diode D4 and resistor R1

NiCd

PACK

(1AHr)

SYSTEM

LOAD

BAT

– V

ZENER

across D4.

LTC4010

)/(R1 + 20k) for

of Q1. R1

TEMP

4010fb

LTC4010CFEPBF LINER [Linear Technology], LTC4010CFEPBF Datasheet - Page 17

LTC4010CFEPBF

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