NCP1230A Datasheet, PDF(17/21 Page) ON Semiconductor – Low--Standby Power Soft Skip Mode Controller

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NCP1230A Datasheet, PDF (17/21 Pages) ON Semiconductor – Low--Standby Power Soft Skip Mode Controller

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NCP1230A

Current Sense Input Pin Latch--Off

The NCP1230A features a fast comparator (Figure 35)

that monitors the current sense pin during the controller off

time. If for any reason the voltage on pin 3 increases above

3.0 V, the NCP1230A immediately stops the PWM drive

pulses and permanently stays latched off until the bias

supply to the NCP1230A is cycled down (Vcc must drop

below 4.0 V, e.g. when the user unplugs the converter from

the mains). This offers the designer the flexibility to

implement an externally shutdown circuit (for example for

over voltage or over temperature conditions). When the

controller is latched off through pin 3 (current sense), SW1

opens and shuts off PFC_Vcc output.

Figure 38 shows how to implement the external latch via

a Zener diode and a simple PNP transistor. The PNP actually

samples the Zener voltage during the OFF time only, hence

leaving the CS information un--altered during the ON time.

Various component arrangements can be made, e.g. adding

a NTC device for the Over Temperature Protection (OTP).

Ramp

CVcc

Figure 38.

Connecting the PNP to the drive only activates the offset

generation during Toff. Here is a solution monitoring the

auziliary Vcc rail.

Drive Output

The NCP1230A provides a Drive Output which can be

connected through a current limiting resistor to the gate of

a MOSFET. The Driver output is capable of delivering drive

pulses with a rise time of 40 ns, and a fall time of 15 ns

through its internal source and sink resistance of 12.3 ohms

(typical), measured with a 1.0 nf capacitive load.

Startup Sequence

The NCP1230A has an internal High Voltage Startup

Circuit (Pin 8) which is connected to the high voltage DC

bus (Refer to Figure 37). When power is applied to the bus,

the NCP1230A internal current source (typically 3.2 mA) is

biased and charges up the external Vcc capacitor on pin 6,

refer to Figure 39. When the voltage on pin 6 (Vcc) reaches

Vccoff (12.6 V typically), the current source is turned off

reducing the amount of power being dissipated in the chip.

The NCP1230A then turns on the drive output to the external

MOSFET in an attempt to increase the output voltage and

charge up the Vcc capacitor through the Vaux winding in the

transformer.

During the startup sequence, the controller pushes for the

maximum peak current, which is reached after the 2.5 ms

soft--start period. As soon as the maximum peak set point is

reached, the internal 1.0 V Zener diode actively limits the

current amplitude to 1.0 V/Rsense and asserts an error flag

indicating that a maximum current condition is being

observed. In this mode, the controller must determine if it is

a normal startup period (or transient load) or is the controller

is facing a fault condition. To determine the difference

between a normal startup sequence, and a fault condition,

the error flag is asserted, and the 125 ms timer starts to count

down. If the error flag drops prior to the 125 msec time--out

period, the controller resets the timer and determines that it

was a normal startup sequence and enables the low

impedance switch (SW1), enabling the PFC_Vcc output.

If at the end of the 125 ms period the error flag is still

asserted, then the controller assumes that it is a fault

condition and the PWM controller enters the skip mode and

does not enable the PFC_Vcc output.

12.6 V/

5.6 V

3.2 mA or 0

CVcc

Aux

Figure 39.

ON Semiconductor recommends that the Vcc capacitor be at

least 47 mF to be sure that the Vcc supply voltage does not drop

below Vccmin (7.7 V typical) during standby power mode and

unusual fault conditions.

Soft--Start

The NCP1230A features an internal 2.5 ms soft--start

circuit. As soon as Vcc reaches a nominal 12.6 V, the

soft--start circuit is activated. The soft--start circuit output

controls a reference on the minus (--) input to an amplifier

(refer to Figure 40), the positive (+) input to the amplifier is

the feedback input (divided by 3). The output of the

amplifier drives a FET which clamps the feedback signal. As

the soft--start circuit output ramps up, it allow the feedback

pin input to the PWM comparator to gradually increased

from near zero up to the maximum clamping level of 1.0

V/Rsense. This occurs over the entire 2.5 ms soft--start

period until the supply enters regulation. The soft--start is

also activated every time a restart is attempted. Figure 41

shows a typical soft--start up sequence.

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