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LT1510/LT1510-5

APPLICATIONS INFORMATION

90

80

NOTE: PEAK DIE TEMPERATURE WILL BE

ABOUT 10擄C HIGHER THAN LEAD TEMPER-

ATURE AT 1.3A CHARGING CURRENT

2-LAYER BOARD

60

50

40

30

20

0

I

CHRG

= 1.3A

V

IN

= 16V

V

BAT

= 8.4V

V

BOOST

= V

BAT

T

A

= 25擄C

5

20

15

25

10

2

BOARD AREA (IN )

30

35

V

X

3V TO 6V

Q1: Si4435DY

Q2: TP0610L

C

X

10碌F

4-LAYER BOARD

V

CC

Q2

R

X

50k

D1

L1

D2

SENSE

BAT

V

BAT

1510 F09

LEAD TEMPERATURE (擄C)

70

Figure 10. LT1510 Lead temperature

low thermal resistance system and to act as a ground

plane for reduced EMI.

Higher Duty Cycle for the LT1510 Battery Charger

Maximum duty cycle for the LT1510 is typically 90% but

this may be too low for some applications. For example, if

an 18V

鹵3%

adapter is used to charge ten NiMH cells, the

charger must put out 15V maximum. A total of 1.6V is lost

in the input diode, switch resistance, inductor resistance

and parasitics so the required duty cycle is 15/16.4 =

91.4%. As it turns out, duty cycle can be extended to 93%

by restricting boost voltage to 5V instead of using V

BAT

as

is normally done. This lower boost voltage V

X

(see Figure

8) also reduces power dissipation in the LT1510, so it is a

win-win decision.

Even Lower Dropout

For even lower dropout and/or reducing heat on the board,

the input diode D3 (Figures 2 and 6) should be replaced

with a FET. It is pretty straightforward to connect a

P-channel FET across the input diode and connect its gate

to the battery so that the FET commutates off when the

input goes low. The problem is that the gate must be

pumped low so that the FET is fully turned on even when

the input is only a volt or two above the battery voltage.

Also there is a turn off speed issue. The FET should turn off

instantly when the input is dead shorted to avoid large

current surges form the battery back through the charger

into the FET. Gate capacitance slows turn off, so a small

P-FET (Q2) discharges the gate capacitance quickly in the

14

U

W

U

U

event of an input short. The body diode of Q2 creates the

necessary pumping action to keep the gate of Q1 low

during normal operation (see Figure 11).

Q1

V

IN

+

SW

C3

LT1510

BOOST

+

HIGH DUTY CYCLE

CONNECTION

1510 F10

Figure 11. Replacing the Input Diode

Layout Considerations

Switch rise and fall times are under 10ns for maximum

efficiency. To prevent radiation, the catch diode, SW pin

and input bypass capacitor leads should be kept as short

as possible. A ground plane should be used under the

switching circuitry to prevent interplane coupling and to

act as a thermal spreading path. All ground pins should be

connected to expand traces for low thermal resistance.

The fast-switching high current ground path including the

switch, catch diode and input capacitor should be kept

very short. Catch diode and input capacitor should be

close to the chip and terminated to the same point. This

path contains nanosecond rise and fall times with several

amps of current. The other paths contain only DC and /or

200kHz triwave and are less critical. Figure 13 shows

critical path layout. Figure 12 indicates the high speed,

high current switching path.

SWITCH NODE

L1

V

BAT

HIGH

FREQUENCY

CIRCULATING

PATH

V

IN

C

IN

C

OUT

BAT

1510 F12

Figure 12. High Speed Switching Path

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