1200P60 ON Semiconductor, 1200P60 Datasheet - Page 7

1200P60

Manufacturer Part Number

1200P60

Description

Search -----> NCP1200P60G

Manufacturer

ON Semiconductor

Datasheet

1.1200P60.pdf (16 pages)

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INTRODUCTION

architecture where the switch−off time is dictated by the

peak current setpoint. This component represents the ideal

candidate where low part−count is the key parameter,

particularly in low−cost AC−DC adapters, auxiliary

supplies etc. Due to its high−performance High−Voltage

technology, the NCP1200 incorporates all the necessary

components normally needed in UC384X based supplies:

timing components, feedback devices, low−pass filter and

self−supply. This later point emphasizes the fact that ON

Semiconductor’s NCP1200 does NOT need an auxiliary

winding to operate: the product is naturally supplied from

the high−voltage rail and delivers a V

system is called the Dynamic Self−Supply (DSS).

consumption and the MOSFET’s gate charge, Qg. If we

select a MOSFET like the MTD1N60E, Qg equals 11 nC

(max). With a maximum switching frequency of 48 kHz (for

the P40 version), the average power necessary to drive the

MOSFET (excluding the driver efficiency and neglecting

various voltage drops) is:

Fsw = maximum switching frequency

Qg = MOSFET’s gate charge

consumption, simply divide this result by V

at no−load will therefore heavily rely on the internal IC

consumption plus the above driving current (altered by the

driver’s efficiency). Suppose that the IC is supplied from a

400 V DC line. To fully supply the integrated circuit, let’s

imagine the 4 mA source is ON during 8 ms and OFF during

50 ms. The IC power contribution is therefore: 400 V . 4 mA

Fsw @ Qg @ V

Fsw @ Qg

The NCP1200 implements a standard current mode

The DSS behavior actually depends on the internal IC

To obtain the final driver contribution to the IC

= V

= 530 mA. The total standby power consumption

level applied to the gate

with

10.6 V Avg.

10.00M

Figure 15. The Charge/Discharge Cycle

to the IC. This

APPLICATIONS INFORMATION

CCOFF

Over a 10 mF V

: Idriver =

30.00M

http://onsemi.com

= 11.4 V

NCP1200

50.00M

Output Pulses

Dynamic Self−Supply

can easily describe the current source operation with a bunch

of simple logical equations:

is ON, no output pulses

OFF, output is pulsing

ON, output is pulsing

sketch offers the necessary light:

. 0.16 = 256 mW. If for design reasons this contribution is

still too high, several solutions exist to diminish it:

CCON

Capacitor

The DSS principle is based on the charge/discharge of the

POWER−ON: IF V

IF V

Typical values are: V

To better understand the operational principle, Figure 15’s

Filter

EMI

1. Use a MOSFET with lower gate charge Qg

2. Connect pin through a diode (1N4007 typically) to

Figure 16. A simple diode naturally reduces the

70.00M

bulk capacitor from a low level up to a higher level. We

one of the mains input. The average value on pin 8

becomes

example drops to: 160 mW.

= 9.8 V

OFF

increasing < V

decreasing > V

90.00M

2 * V mains PEAK

average voltage on pin 8

4.7 mF

400 V

CCOFF

Current

Source

< V

CCOFF

CCON

CCOFF

= 11.4 V, V

THEN Current Source is

. Our power contribution

THEN Current Source

NCP1200

Adj

GND Drv

CCON

1N4007

Dstart

= 9.8 V

1200P60 ON Semiconductor, 1200P60 Datasheet - Page 7

1200P60

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