FAN6103 Datasheet, PDF(10/13 Page) Fairchild Semiconductor

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

FAN6103 Datasheet, PDF (10/13 Pages) Fairchild Semiconductor – Power Supply Supervisor Plus PWM

◁

Functional Description

FAN6103 is suitable for half-bridge, push-pull topology

and incorporates with a three-channel supervisor. The

PWM section comprises a built-in 65KHz oscillator and

high-immunity circuits, which protect the system from

noise interference and provide more noise margins.

FAN6103 has OVP and UVP for 12V, 5V, and 3.3V.

NVP is used for negative voltage protection, such as -

12V and/or -5V. The UVAC is applied to detect AC line

condition.

Over-Power Protection (OPP)

FAN6103 provides over-power protection to detect

over-power or short-circuit conditions. When it detects

the voltage level over 2.4V, the supervisor triggers PG

to LOW and pulls the SS pin LOW to switch off the

power.

OP1

V DD

-12V

-5V

6 4ÂµA

2 .1 V

Figure 18. NVP Protection Circuit

AC-Fail Detection

Through a resistor divider, UVAC is connected to the

secondary power transformer for detecting the AC line

condition. Once the voltage of UVAC is lower than 0.7V

for a period of time, such as 200Âµs, the PG signal is

pulled LOW to indicate an AC line power-down

condition. The voltage amplitude of the PWM switching

signal in the secondary power transformer is

proportional to the AC line voltage. Adjust the ratio of

resistor divider to determine the threshold of power-

down warning. A small capacitor is connected from

UVAC to ground for filtering the switching noise.

OP2

OPP

Figure 17. OPP Protection Circuit

Negative-Voltage Protection (NVP)

The NVP provides an under-voltage protection for

negative voltage output. An under-voltage represents

the phenomenal of the overload condition in negative

voltage output. For example, the -12V output may drop

to -10V during the overload situation. A resistor

determining the threshold of the protection is connected

from pin NVP to the negative voltage output. Via this

resistor, NVP output a 64ÂµA constant current to the

negative voltage output. When the NVP voltage is over

2.1V for longer than 7ms, FAN6103 locks the power

output off:

VNVP = 64Î¼ A Ã (R1 + R2 ) + (â12V )

(1)

The power outputs are locked off when VNVP > 2.1V.

0.7V +

UVAC

Figure 19. AC Detection Circuit

FAN6103 â¢ Rev. 1.0.0

www.fairchildsemi.com

▷