ICE2PCS01 Datasheet, PDF(7/19 Page) Infineon Technologies AG – Standalone Power Factor Correction (PFC) Controller in Continuous Conduction Mode (CCM)

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ICE2PCS01 Datasheet, PDF (7/19 Pages) Infineon Technologies AG – Standalone Power Factor Correction (PFC) Controller in Continuous Conduction Mode (CCM)

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Functional Description

CCM-PFC

ICE2PCS01/G

Functional Description

3.1 General

The ICE2PCS01/G is a 8 pin control IC for power factor

correction converters. It comes in both DIP and DSO

packages and is suitable for wide range line input

applications from 85 to 265 VAC. The IC supports

converters in boost topology and it operates in

continuous conduction mode (CCM) with average

current control.

The IC operates with a cascaded control; the inner

current loop and the outer voltage loop. The inner

current loop of the IC controls the sinusoidal profile for

the average input current. It uses the dependency of

the PWM duty cycle on the line input voltage to

determine the corresponding input current. This means

the average input current follows the input voltage as

long as the device operates in CCM. Under light load

condition, depending on the choke inductance, the

system may enter into discontinuous conduction mode

(DCM). In DCM, the average current waveform will be

distorted but the resultant harmonics are still low

enough to meet the Class D requirement of IEC 1000-

3-2.

The outer voltage loop controls the output bus voltage.

Depending on the load condition, OTA1 establishes an

appropriate voltage at VCOMP pin which controls the

amplitude of the average input current.

The IC is equipped with various protection features to

ensure safe operating condition for both the system

and device. Important protection features are namely

Open-Loop protection, Current Limitation and Output

Over-voltage Protection.

3.2 Power Supply

An internal under voltage lockout (UVLO) block

monitors the VCC power supply. As soon as it exceeds

11.8V and the voltage at pin 6 (VSENSE) is >0.6V, the

IC begins operating its gate drive and performs its

Startup as shown in Figure 3.

(VVSENSE > 0.6 V) (VVSENSE < 0.6 V) (VVSENSE > 0.6 V)

VCC

11.8 V

11.0 V

If VCC drops below 11V, the IC is off. The IC will then

be consuming typically 300ÂµA, whereas consuming

13mA during normal operation.

The IC can be turned off and forced into standby mode

by pulling down the voltage at pin 6 (VSENSE) to lower

than 0.6V. The current consumption is reduced to

300ÂµA in this mode.

3.3 Start-up

Figure 4 shows the operation of voltage loopâs OTA1

during startup. The VCOMP pin is pull internally to

ground via switch S1 during UVLO and other fault

conditions (see later section on âSystem Protectionâ).

During power up when VOUT is less than 83% of the

rated level, OTA1 sources an output current, maximum

30ÂµA, into the compensation network at pin 5

(VCOMP) causing the voltage at this pin to rise linearly.

This results in a controlled linear increase of the input

current from 0A thus reducing the stress on the

external component.

VSENSE

( R3 + R4 x VOUT )

VCOMP

OTA1

protect

IC E 2 P C S 0 1 /G

Figure 4 Startup Circuit

As VOUT has not reached within 5% from the rated

value, VCOMP voltage is level-shifted by the window

detect block as shown in Figure 5, to ensure there is

fast boost up of the output voltage.

When VOUT approaches its rated value, OTA1âs

sourcing current drops and the level shift of the window

detect block is removed. The normal voltage loop then

takes control.

IC's

State

OFF

Start Normal

Up Operation

Open loop/

Standby

Normal

Operation

OFF

Figure 3 State of Operation respect to VCC

Version 2.2

09 October 2007

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