NCP1201P60 ON Semiconductor, NCP1201P60 Datasheet - Page 16

NCP1201P60

Manufacturer Part Number

NCP1201P60

Description

IC CTRLR PWM CM OTP 8DIP

Manufacturer

ON Semiconductor

Type

PWM Current-Mode Controller For Universal Off-Line Suppliesr

Datasheet

1.NCP1201D60R2.pdf (19 pages)

Specifications of NCP1201P60

Output Isolation

Isolated

Frequency Range

52 ~ 72kHz

Voltage - Input

12.5 ~ 16 V

Voltage - Output

500V

Operating Temperature

-40°C ~ 150°C

Package / Case

8-DIP (0.300", 7.62mm)

Input Voltage Range

- 0.3 V to 16 V

Mounting Style

Through Hole

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

NCP1201P60OS

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Protecting the Controller Against Negative

Spikes

is the designer’s duty to avoid the presence of negative

spikes on sensitive pins. Negative signals have the bad habit

to forward bias the controller substrate and induce erratic

behaviors. Sometimes, the injection can be so strong that

internal parasitic SCRs are triggered, engendering

irremediable damages to the IC if they are a low impedance

path is offered between V

pin is often the seat of such spurious signals, the

high- -voltage pin can also be the source of problems in

certain circumstances. During the turn- -off sequence, e.g.

when the user unplugs the power supply, the controller is still

internal parasitic SCR activation. One of them consists in

inserting a resistor in series with the high- -voltage pin to

keep the negative current to the lowest when the bulk

becomes negative (Figure 36). Please note that the negative

spike is clamped to –2 x Vf due to the diode bridge. Please

refer to AND8069 for power dissipation calculations.

As with any controller built upon a CMOS technology, it

Simple and inexpensive cures exist to prevent from

Figure 36. A simple resistor in series avoids any

Figure 35. A negative spike takes place on the Bulk capacitor at the switch- -off sequence

Cbulk

latchup in the controller

and GND. If the current sense

Rbulk

> 4.7 k

http://onsemi.com

fed by its V

ON and OFF with a peak current limited by Rsense.

Unfortunately, if the quality coefficient Q of the resonating

network formed by Lp and Cbulk is low (e.g. the MOSFET

Rdson + Rsense are small), conditions are met to make the

circuit resonate and thus negatively bias the controller. Since

we are talking about ms pulses, the amount of injected

charge (Q = I x t) immediately latches the controller which

brutally discharges its V

is of sufficient value, its stored energy damages the

controller. Figure 35 depicts a typical negative shot

occurring on the HV pin where the brutal V

testifies for latchup.

sooner and thus stops the switching activity before the bulk

capacitor gets deeply discharged. For security reasons, two

diodes can be connected in series.

Another option (Figure 37) consists in wiring a diode from

Figure 37. or a diode forces V

to the bulk capacitor to force V

Cbulk

capacitor and keeps activating the MOSFET

UVLOlow sooner

capacitor. If this V

to reach

to reach UVLOlow

1N4007

discharge

capacitor

NCP1201P60 ON Semiconductor, NCP1201P60 Datasheet - Page 16

NCP1201P60

Specifications of NCP1201P60

Available stocks

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