ld7575ps Leadtrend Technology, ld7575ps Datasheet - Page 8

ld7575ps

Manufacturer Part Number

ld7575ps

Description

Green-mode Pwm Controller With High-voltage Start-up Circuit

Manufacturer

Leadtrend Technology

Datasheet

1.LD7575PS.pdf (18 pages)

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Application Information

Operation Overview

As long as the green power requirement becomes a trend

and the power saving is getting more and more important for

the switching power supplies and switching adaptors, the

traditional PWM controllers are not able to support such new

requirements. Furthermore, the cost and size limitation force

the PWM controllers need to be powerful to integrate more

functions to reduce the external part counts. The LD7575

is targeted on such application to provide an easy and cost

effective solution; its detail features are described as below:

Internal High-Voltage Startup Circuit and

Under Voltage Lockout (UVLO)

Traditional circuit powers up the PWM controller through a

startup resistor to provide the startup current. However, the

startup resistor consumes significant power which is more

and more critical whenever the power saving requirement is

coming tight.

very high resistance value. However, higher resistor value

will cause longer startup time.

To achieve an optimized topology, as shown in figure 13,

LD7575 implements a high-voltage startup circuit for such

requirement. During the startup, a high-voltage current

source sinks current from the bulk capacitor to provide the

startup current as well as charge the Vcc capacitor C1.

During the startup transient, the Vcc is lower than the UVLO

Leadtrend Technology Corporation

LD7575-DS-04b November 2007

Vin

Cbulk

Theoretically, this startup resistor can be

Comp

LD7575

Fig. 13

GND

VCC

OUT

www.leadtrend.com.tw

threshold thus the current source is on to supply a current

with 1mA. Meanwhile, the Vcc supply current is as low as

100μA thus most of the HV current is utilized to charge the

Vcc capacitor.

delay time will be almost same no matter under low-line or

high-line conditions.

Whenever the Vcc voltage is higher than UVLO(on) to

power on the LD7575 and further to deliver the gate drive

signal, the high-voltage current source is off and the supply

current is provided from the auxiliary winding of the

transformer. Therefore, the power losses on the startup

circuit can be eliminated and the power saving can be easily

achieved.

An UVLO comparator is included to detect the voltage on

the Vcc pin to ensure the supply voltage enough to power

on the LD7575 PWM controller and in addition to drive the

power MOSFET.

provided to prevent the shutdown from the voltage dip

during startup. The turn-on and turn-off threshold level are

set at 16V and 10.0V, respectively.

UVLO(on)

UVLO(off)

HV Current

Vcc

Vcc current

Startup Current

(<100uA)

By using such configuration, the turn-on

1mA

As shown in Fig. 14, a hysteresis is

Fig. 14

Operating Current

(Supply from Auxiliary Winding)

~ 0mA (off)

LD7575

ld7575ps Leadtrend Technology, ld7575ps Datasheet - Page 8

ld7575ps

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