ICE3DS01L_05 Datasheet, PDF(8/27 Page) Infineon Technologies AG – Off-Line SMPS Current Mode Controller with integrated 500V Startup Cell

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ICE3DS01L_05 Datasheet, PDF (8/27 Pages) Infineon Technologies AG – Off-Line SMPS Current Mode Controller with integrated 500V Startup Cell

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ICE3DS01L/LG

Functional Description

3 Functional Description

All values which are used in the functional description are

typical values. For calculating the worst cases the min/max

values which can be found in section 4 Electrical

Characteristics have to be considered.

3.2

Power Management

Startup Cell

VCC

3.1

Introduction

The F3 is the further development of the F2 to meet the

requirements for the lowest Standby Power at minimum load

and no load conditions. A new fully integrated Standby

Power concept is implemented into the IC in order to keep

the application design easy. Compared to F2 no further

external parts are needed to achieve the lowest Standby

Power. An intelligent Active Burst Mode is used for this

Standby Mode. After entering this mode there is still a full

control of the power conversion by the secondary side via the

same optocoupler that is used for the normal PWM control.

The response on load jumps is optimized. The voltage ripple

on Vout is minimized. Vout is further on well controlled in this

mode.

The usually external connected RC-filter in the feedback line

after the optocoupler is integrated in the IC to reduce the

external part count.

Furthermore a high voltage startup cell is integrated into the

IC which is switched off once the Undervoltage Lockout on-

threshold of 15V is exceeded. The external startup resistor is

no longer necessary. Power losses are therefore reduced.

This increases the efficiency under light load conditions

dramatically.

The Soft-Start capacitor is also used for providing an

adjustable blanking window for high load jumps. During this

time window the overload detection is disabled. With this

concept no further external components are necessary to

adjust the blanking window.

A new Latched Off Mode is implemented into the IC in order

to increase the robustness and safety of the system. Latched

Off Mode is only entered if very dangerous conditions occur

that damage the SMPS if not switched off immediately. A

restart of the system can then only be done by disconnecting

the AC line.

Auto Restart Mode reduces the average power conversion to

a minimum. In this mode malfunctions are covered that

could lead to a destruction of the SMPS if no dramatically

reduced power limitation is provided over time. Once the

malfunction is removed normal operation is immediately

started after the next Start Up Phase.

The internal precise peak current limitation reduces the costs

for the transformer and the secondary diode. The influence

of the change in the input voltage on the power limitation can

be avoided together with the integrated Propagation Delay

Compensation. Therefore the maximum power is nearly

independent on the input voltage that is required for wide

range SMPS. There is no need for an extra over sizing of the

SMPS, e.g. the transformer or PowerMOS.

Power Management

Internal Bias

Latched Off Mode

Reset

VVCC < 6V

Power-Down Reset

Undervoltage Lockout

15V

8.5V

Voltage

6.5V

Reference

Auto Restart Mode

Active Burst Mode

Latched Off Mode

SoftS

Figure 4 Power Management

The Undervoltage Lockout monitors the external supply

voltage VVCC. When the SMPS is plugged to the main line

the internal Startup Cell is biased and starts to charge the

external capacitor CVCC which is connected to the VCC pin.

The VCC charge current that is provided by the Startup Cell

from the HV pin is 1.05mA. When VVCC exceeds the on-

threshold VCCon=15V the internal voltage reference and bias

circuit are switched on. Then the Startup Cell is switched off

by the Undervoltage Lockout and therefore also the power

losses are switched off caused by the Startup Cell which is

connected to the bus voltage (HV). To avoid uncontrolled

ringing at switch-on a hysteresis is implemented. The

switch-off of the controller can only take place after Active

Mode was entered and VVCC falls below 8.5V.

The maximum current consumption before the controller is

activated is about 170ÂµA.

When VVCC falls below the off-threshold VCCoff=8.5V the

internal reference is switched off and the Power Down reset

Version 2.1

15 Nov 2005

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