ICE3BS03LJG Datasheet, PDF(7/25 Page) Infineon Technologies AG – Off-Line SMPS Current Mode Controller with integrated 500V Startup Cell

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ICE3BS03LJG Datasheet, PDF (7/25 Pages) Infineon Technologies AG – Off-Line SMPS Current Mode Controller with integrated 500V Startup Cell

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F3 PWM controller

ICE3BS03LJG

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.

3.1

Introduction

ICE3BS03LJG is an enhanced version of the F3 PWM

controller (ICE3xS02) for the low to medium power

application. The particular enhanced features are the

built-in features for soft start, blanking window and

frequency jitter. It also provides the flexibility to

increase the blanking window by simply adding

capacitor in BL pin. To increase the robustness and

flexibility of the protection feature, an external latch-off

enable feature is added. Moreover, the proven

outstanding features in F3 PWM controller are still

remained such as the active burst mode, propagation

delay compensation, modulated gate drive, protection

for Vcc overvoltage, over temperature, over load, open

loop, etc.

The intelligent Active Burst Mode at Standby Mode can

effective obtain the lowest Standby Power at minimum

load and no load conditions. After entering this burst

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 on well controlled in this mode.

The usual externally 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 18V is exceeded. The external

startup resistor is no longer necessary as this Startup

Cell can directly connected to the input bulk capacitor.

Power losses are therefore reduced. This increases the

efficiency under light load conditions drastically.

Adopting the BiCMOS technology, it can further

decrease the power consumption and provide a even

better standby input power. Besides, it also increases

the design flexibility as the Vcc voltage range is

extended to 26V.

The built-in soft start time at 20ms can provide

sufficient timing to reduce the over-stress at power

MOSFET and the output rectifier during startup.

There are 2 modes of blanking time for high load

jumps; the basic mode and the extendable mode. The

blanking time for the basic mode is set at 20ms while

the extendable mode will increase the blanking time at

basic mode by adding external capacitor at the BL pin.

During this time window the overload detection is

disabled. With this concept no further external

components are necessary to adjust the blanking

window.

In order to increase the robustness and safety of the

system, the IC provides 2 levels of protection modes:

Latched Off Mode and Auto Restart Mode. The

Latched Off Mode is only entered under dangerous

conditions which can damage the SMPS if not switched

off immediately. A restart of the system can only be

done by recycling the AC line. In addition, for this

enhanced version, there is an external Latch Enable

function provided to increase the flexibility in protection.

When the BL pin is pulled down to less than 0.25V, the

Latch Off Mode is triggered.

The Auto Restart Mode reduces the average power

conversion to a minimum under unsafe operating

conditions. This is necessary for a prolonged fault

condition which could otherwise lead to a destruction of

the SMPS over time. Once the malfunction is removed,

normal operation is automatically retained after the

next Start Up Phase.

The internal precise peak current control reduces the

costs for the transformer and the secondary diode. The

influence of the change in the input voltage on the

maximum power limitation can be avoided together

with the integrated Propagation Delay Compensation.

Therefore the maximum power is nearly independent

on the input voltage, which is required for wide range

SMPS. Thus there is no need for the over-sizing of the

SMPS, e.g. the transformer and the output diode.

Furthermore, this enhanced version implements the

frequency jitter mode to the switching clock and

modulated gate drive signal at the Gate pin such that

the EMI noise will be effectively reduced.

3.2

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. This VCC charge current is

controlled to 0.9mA by the Startup Cell. When the VVCC

exceeds the on-threshold VCCon=18V, the bias circuit

are switched on. Then the Startup Cell is switched off

by the Undervoltage Lockout and therefore no power

losses present due to the connection of the Startup Cell

to the Drain voltage. To avoid uncontrolled ringing at

switch-on a hysteresis start up voltage is implemented.

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

Active Mode was entered and VVCC falls below 10.5V.

The maximum current consumption before the

controller is activated is about 250ÂµA.

When VVCC falls below the off-threshold VCCoff=10.5V,

the bias circuit switched off and the soft start counter is

Version 2.0

6 Dec 2007

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