ICE2QS01 Datasheet, PDF(8/17 Page) Infineon Technologies AG

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ICE2QS01 Datasheet, PDF (8/17 Pages) Infineon Technologies AG – Quasi-resonant PWM Controller

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Quasi-Resonant PWM Controller

ICE2QS01

Functional Description

controller is implemented to avoid mistriggering by the

ring after MOSFET is turned off. Functionality of these

parts is described as in the following.

3.3.1.1 Up/down Counter

The up/down counter stores the number of zero

crossing to be ignored before the main power switch is

switched on after demagnetisation of the transformer.

This value is a function of the regulation voltage, which

contains information about the output power.

Generally, a high output power results in a high

regulation voltage. According to this information, the

value in the up/down counter is changed to a low value

in case of high regulation voltage, and to a high value

in case of low regulation voltage. In ICE2QS01, the

lowest value of the counter is 1 and the highest 7.

Following text explains how the up/down counter value

changes in responding to the regulation voltage vREG.

The regulation voltage vREG is internally compared with

three thresholds VRL, VRH and VRM. According to the

results, the value in the up/down counter is changed,

which is summarised in Table 1 and Figure 4

respectively.

Table 1

vREG

Operation of the up/down counter

up/down counter

action

Always lower than VRL

Count upwards till

Once higher than VRL, but

always lower than VRH

Once higher than VRH, but

always lower than VRM

Once higher than VRM

Stop counting, no

value changing

Count downwards

till 1

Set up/down

counter to 1

clock

T=48ms

VFB

VRM

VRH

VRL

Case 1 4 5 6 6 6 6 5 4 3 1

Case 2 2 3 4 4 4 4 3 2 1 1

Case 3 7 7 7 7 7 7 6 5 4 1

Figure 4 Up/down counter operation

According to the comparison results the up/down

counter counts upwards, keeps unchanged or counts

downwards. However, the value in up/down counter is

limited between 1 and 7. If the counter tends to count

beyond this range, the attempt is ignored.

In normal case, the up/down counter can only be

changed by one each time at the clock period of 48ms.

However, to ensure a fast response to sudden load

increase, the counter is set to 1 in the following

switching period after the regulation voltage vREG

exceeds the threshold VRM.

3.3.1.2

Zero-Crossing Counter and Ringing

Suppression Time Controller

In the system, the voltage from the auxiliary winding is

applied to the zero-crossing pin through a RC network,

which provides a time delay to the voltage from the

auxiliary winding. Internally, this pin is connected to a

clamping network, a zero-crossing detector, an output

overvoltage (OP OVP) detector and a ringing

suppression time controller.

During on-state of the power switch a negative voltage

applies to the ZC pin. Through the internal clamping

network, the voltage at the pin is clamped to certain

level. However, it is highly recommended that a fast-

recovery diode Dzc is added to block the negative

voltage when the power switch is on. This is because

the device in MOS technology is sensitive to negative

voltage.

The voltage at the ZC pin vZC is compared with the

threshold VZCT1. Once the voltage vZC crosses the

threshold at its falling edge, a pulse is generated which

is fed to the zero-crossing counter and the counter

value increases by 1.

After MOSFET is turned on, there will be some

oscillation on VDS, which will also appear on the voltage

on ZC pin. To avoid the MOSFET is turned on

mistriggerred by such oscillation, a ringing suppression

timer is implemented. The time is dependent on the

voltage vZC. When the voltage vZC is lower than the

threshold VZCT2, a longer preset time applies, while a

shorter time is set when the voltage vZC is higher than

the threshold.

The voltage vZC is used for the output overvoltage

protection, as well. Once the voltage at this pin is

higher than the threshold VOPOVP during off-time of the

main switch, the IC is latched off after a fixed blanking

time.

To achieve the switch-on at voltage valley, the voltage

from the auxiliary winding is fed to a time delay network

(the RC network consists of Dzc, Rzc1, Rzc2 and Czc as

shown in typical application circuit) before it is applied

to the zero-crossing detector through the ZC pin. The

needed time delay to the main oscillation signal ât

should be approximately one fourth of the oscillation

period (by transformer primary inductor and drain-

source capacitor) minus the propagation delay from the

Version 2.1

October 2007

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