LTC1643ALC(RevA) Просмотр технического описания (PDF) - Linear Technology

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LTC1643ALC
(Rev.:RevA)

PCI-Bus Hot Swap Controller

Linear Technology 

LTC1643AL

LTC1643AL-1/LTC1643AH

APPLICATIONS INFORMATION

Increasing 12V and – 12V Current Capability

for PCI Applications

The internal switches of the LTC1643A are designed for up

to 500mA loads on 12V and 200mA on –12V. If more

current is needed, then the circuits in Figure 8 can be used.

For the 12V supply, P-channel transistor Q4 is placed in

parallel with the internal switch. When the LTC1643AH is

turned off, the GATE pin is held low and transistor Q3 is

turned on which pulls the gate of Q4 high, turning it off.

When the LTC1643AH is turned on, the GATE pin goes

high, turning off Q3 and allowing R8 to pull the gate of Q4

low to turn it on.

Because Q4 is in parallel with the internal 12V switch, the

load current will be shared in proportion to their respective

RDS(ON) values. For example, if the RDS(ON) of the external

switch is 0.2Ω and the internal switch is 0.4Ω, then, at

1.5A load current, the external switch will provide 1A and

the internal switch 500mA. The circuit breaker current will

be reached when the internal current reaches 1A and the

external current is 2A or 3A load current.

For the –12V supply, N-channel transistor Q6 is used to

provide the extra load current. When the LTC1643AH is

turned on, the internal VEE switch is turned on and the

–12V output starts to pull down through D1 and turns on

Q5. When Q5 turns on, the gate of Q6 starts to rise, turning

it on. When the LTC1643AH turns off, the VEEOUT pin is

pulled up to ground, diode D1 is reversed biased, and

transistor Q5 turns off, which allows resistor R10 to turn

off Q6.

The internal –12V switch provides the current limit for the

supply, but because the high RDS(ON) of the internal switch

(1.2Ω) is in series with D1, very large currents can flow

through Q6 before the circuit breaker trips. However, if a

short to ground occurs on the –12V output, diode D1 will

prevent Q5 from turning on, which will prevent Q6 from

turning on.

14

SYSTEM

POWER

SUPPLY

R3

10k

PCI

POWER

SYSTEM

R4

CONTROLLER 10k

Q4

Si9400

12V

1.5A

Q3

TP0610T

10Ω

R8

C3

100k

0.1µF

R2

Q2

1 0.005Ω 2 IRF7413

3

4

1

2

3

R1

4

0.007Ω

Q1

IRF7413

R6

10Ω

R5

10Ω

19

12VIN 3VIN

8

GND

2 VEEIN

5

ON

10 11 3

3VSENSE GATE 3VOUT

13

5VIN

LTC1643AH

6

FAULT

7

PWRGD

12

16

5VSENSE 12VOUT

15

VEEOUT

4

TIMER

R7

100Ω

C1

0.047µF

Q5

TP0610T

R9

D1

200Ω 1N4148

C2

0.1µF

R10

200Ω

NOTE: INTENDED FOR PCI APPLICATIONS ONLY

Q6

Si9410DY

5V

5A

3.3V

7.6A

GND

–12V

1.5A

1643A F08

Figure 8. Increasing 12V and – 12V Current Capability for PCI Applications

1643afa

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