ICE2QR0665G_14 Datasheet, PDF(9/27 Page) Infineon Technologies AG – Off-Line SMPS Quasi-Resonant PWM Controller with integrated 650V CoolMOS? and startup cell in DSO-16/12

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ICE2QR0665G_14 Datasheet, PDF (9/27 Pages) Infineon Technologies AG – Off-Line SMPS Quasi-Resonant PWM Controller with integrated 650V CoolMOS? and startup cell in DSO-16/12

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CoolSETâ¢Q1

ICE2QR0665G

Functional Description

3.1

VCC Pre-Charging and Typical VCC Voltage During Start-up

In ICE2QR0665G, a startup cell is integrated into the CoolMOSTM. As shown in Figure 3, the start cell consists

of a high voltage device and a controller, whereby the high voltage device is controlled by the controller. The

startup cell provides a pre-charging of the VCC capacitor till VCC voltage reaches the VCC turned-on threshold

VVCCon and the IC begins to operate.

Once the mains input voltage is applied, a rectified voltage shows across the capacitor Cbus. The high voltage

device provides a current to charge the VCC capacitor Cvcc. Before the VCC voltage reaches a certain value,

the amplitude of the current through the high voltage device is only determined by its channel resistance and

can be as high as several mA. After the VCC voltage is high enough, the controller controls the high voltage

device so that a constant current around 1mA is provided to charge the VCC capacitor further, until the VCC

voltage exceeds the turned-on threshold VVCCon. As shown as the time phase I in Figure 4, the VCC voltage

increase near linearly and the charging speed is independent of the mains voltage level.

Figure 4 VCC voltage at start up

The time taking for the VCC pre-charging can then be approximately calculated as:

where IVCCcharge2 is the charging current from the startup cell which is 1.05mA, typically.

When the VCC voltage exceeds the VCC turned-on threshold VVCCon at time t1, the startup cell is switched off

and the IC begins to operate with soft-start. Due to power consumption of the IC and the fact that there is still no

energy from the auxiliary winding to charge the VCC capacitor before the output voltage is built up, the VCC

voltage drops (Phase II). Once the output voltage is high enough, the VCC capacitor receives the energy from

the auxiliary winding from the time point t2 onward. The VCC then will reach a constant value depending on

output load.

3.2

Soft-start

As shown in Figure 5, at the time ton, the IC begins to operate with a soft-start. By this soft-start the switching

stresses for the switch, diode and transformer are minimized. The soft-start implemented in CoolSETTM Q1 is a

digital time-based function. The preset soft-start time is tSS (12ms) with 4 steps. If not limited by other functions,

the peak voltage on CS pin will increase step by step from 0.32V to 1V finally.

Data Sheet

V2.1, 2014-04-01

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