ltc1734es6-4.2-trmpbf Linear Technology Corporation, ltc1734es6-4.2-trmpbf Datasheet - Page 10

ltc1734es6-4.2-trmpbf

Manufacturer Part Number

ltc1734es6-4.2-trmpbf

Description

Lithium-ion Linear Battery Charger In Thinsot

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC1734ES6-4.2-TRMPBF.pdf (12 pages)

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APPLICATIONS

LTC1734L

Once the maximum power dissipation and V

known, Table 1 can be used as a guide in selecting a

suitable PNP transistor. In the table, very low V

less than 0.25V, low V

are 0.5V to 0.8V all depending on the current required. See

the manufacturer’s data sheet for details. All of the PNP

transistors are rated to carry at least 1A continuously as

long as the power dissipation is within limits. The Stability

section addresses caution in the use of high beta PNPs.

Should overheating of the PNP transistor be a concern,

protection can be achieved with a positive temperature

coefficient (PTC) thermistor, wired in series with the

current programming resistor and thermally coupled to

the transistor. The PRF chip series from Murata has a

steep resistance increase at temperature thresholds from

85 C to 145 C making it behave somewhat like a thermo-

stat switch. For example, the model PRF18BA471QB1RB

thermistor is 470

resistance to 4.7k at 125 C. Below 125 C, the device

exhibits a small negative TC. The 470 thermistor can be

added in series with a 1.6k resistor to form the current

programming resistor for a 180mA charger. Should the

thermistor reach 125 C, the charge current will drop to

60mA and inhibit any further increase in temperature.

Stability

The LTC1734L contains two control loops: constant volt-

age and constant current. To maintain good AC stability in

Table 1. PNP Pass Transistor Selection Guide

Mounted on Board

Maximum P

at T

0.625

1 to 2

0.75

0.2

0.5

1.1

= 25 C

(W)

CESAT

at 25 C, but abruptly increase its

INFORMATION

is 0.25V to 0.5V and the others

Package Style

SOT-23-6

SOT-223

SOT-23

SOT-89

SC-70

FTR

ATV

ZETEX Part Number

FCX589 or BCX69

BCP69 or FZT549

ZXT10P12DE6

CE(MIN)

FMMT549

FMMT720

FCX717

FZT589

CESAT

are

the constant voltage mode, a capacitor of at least 4.7 F is

usually required from BAT to ground. The battery and

interconnecting wires appear inductive at high frequen-

cies, and since these are in the feedback loop, this capaci-

tance may be necessary to compensate for the inductance.

This capacitor need not exceed 100 F and its ESR can

range from near zero to several ohms depending on the

inductance to be compensated. In general, compensation

is optimal with a capacitance of 4.7 F to 22 F and an ESR

of 0.5 to 1.5 .

Using high beta PNP transistors (>300) and very low ESR

output capacitors (especially ceramic) reduces the phase

margin, possibly resulting in oscillation. Also, using high

value capacitors with very low ESRs will reduce the phase

margin. Adding a resistor of 0.5 to 1.5 in series with

the capacitor will restore the phase margin.

In the constant current mode, the PROG pin is in the

feedback loop, not the battery. Because of this, capaci-

tance on this pin must be limited. Locating the program

resistor near the PROG pin and isolating the charge

current monitoring circuitry (if used) from the PROG pin

with a 1k to 10k resistor may be necessary if the capaci-

tance is greater than that given by the following equation:

ROHM Part Number

MAX pF

UMT2907A

UMT4403

2SB1443

2SA1797

2SB822

( )

400

PROG

Comments

Smallest Size

Low V

Very Low V

Low V

CESAT

CESAT,

High Beta

High Beta, Small

High Beta

1734lf

ltc1734es6-4.2-trmpbf Linear Technology Corporation, ltc1734es6-4.2-trmpbf Datasheet - Page 10

ltc1734es6-4.2-trmpbf

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