CM6805BO Datasheet, PDF(8/15 Page) Champion Microelectronic Corp. – 10-PIN Green-Mode PFC/PWM Combo CONTROLLER

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CM6805BO Datasheet, PDF (8/15 Pages) Champion Microelectronic Corp. – 10-PIN Green-Mode PFC/PWM Combo CONTROLLER

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CM6805BO

10-PIN Green-Mode PFC/PWM Combo CONTROLLER

PFCOFFB (Pin 7)

When this pin is below 5V, PFC gate drive, PFCOUT will be

turned off until PFCOFFB pin is greater than 5.5V. When

PFCOFFB is below 5V, Veao also been pulled low as well.

PFCOFFB usually is used for AC Brown Out or Green

PWM.

For AC Brown out, PFCOFFB can be used to sense the

bridge input voltage.

For Green PWM, it can be used to sense the photo couple

current to detect the PWM load. When the load is light, the

photo couple current increased. The photo couple current

with a resistor between VCC and PFCOFFB can sense the

light load condition. When PFCOFFB is below 5V, PFC can

be turned off.

VCC (Pin 8)

VCC is the power input connection to the IC. The VCC

start-up current is 100uA. The no-load ICC current is 2mA.

VCC quiescent current will include both the IC biasing

currents and the PFC and PWM output currents. Given the

operating frequency and the MOSFET gate charge (Qg),

average PFC and PWM output currents can be calculated

as IOUT = Qg x F. The average magnetizing current

required for any gate drive transformers must also be

included. The VCC pin is also assumed to be proportional

to the PFC output voltage. VCC also ties internally to the

UVLO circuitry and VREFOK comparator, enabling the IC at

13V and disabling it at 10V. VCC must be bypassed with a

high quality ceramic bypass capacitor placed as close as

possible to the IC. Good bypassing is critical to the proper

operation of the CM6805BO.

VCC is typically produced by an additional winding off the

boost inductor or PFC Choke, providing a voltage that is

proportional to the PFC output voltage. An external clamp,

such as shown in Figure 1, is desirable and proposed to

limit VCC over voltage to an acceptable value.

VCC

1N 5248

PFCOUT (Pin 9) and PWM OUT (Pin 10)

PFC OUT and PWM OUT are the high-current power driver

capable of directly driving the gate of a power MOSFET with

peak currents up to -1A and +0.5A. Both outputs are actively

held low when VCC is below the UVLO threshold level which

is 15V or VREFOK comparator is low.

Power Factor Correction

Power factor correction makes a nonlinear load look like a

resistive load to the AC line. For a resistor, the current drawn

from the line is in phase with and proportional to the line

voltage, so the power factor is unity (one). A common class

of nonlinear load is the input of most power supplies, which

use a bridge rectifier and capacitive input filter fed from the

line. The peak-charging effect, which occurs on the input

filter capacitor in these supplies, causes brief high-amplitude

pulses of current to flow from the power line, rather than a

sinusoidal current in phase with the line voltage. Such

supplies present a power factor to the line of less than one

(i.e. they cause significant current harmonics of the power

line frequency to appear at their input). If the input current

drawn by such a supply (or any other nonlinear load) can be

made to follow the input voltage in instantaneous amplitude,

it will appear resistive to the AC line and a unity power factor

will be achieved.

To hold the input current draw of a device drawing power

from the AC line in phase with and proportional to the input

voltage, a way must be found to prevent that device from

loading the line except in proportion to the instantaneous line

voltage. The PFC section of the CM6805BO uses a

boost-mode DC-DC converter to accomplish this. The input

to the converter is the full wave rectified AC line voltage. No

bulk filtering is applied following the bridge rectifier, so the

input voltage to the boost converter ranges (at twice line

frequency) from zero volts to the peak value of the AC input

and back to zero.

By forcing the boost converter to meet two simultaneous

conditions, it is possible to ensure that the current draws

from the power line matches the instantaneous line voltage.

One of these conditions is that the output voltage of the

boost converter must be set higher than the peak value of

the line voltage. A commonly used value is 385VFB, to allow

for a high line of 270VACrms. The other condition is that the

current that the converter is allowed to draw from the line at

any given instant must be proportional to the line voltage.

GND

Figure1 . Optional VCC Clamp

This limits the maximum VCC that can be applied about

18V to avoid OVP which allowing to the VCC maximum

rating. An RC filter at VCC is required between boost trap

winding and VCC.

2007/11/28 Rev 1.2

Champion Microelectronic Corporation

Page 8

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