CM6903IS CHAMP [Champion Microelectronic Corp.], CM6903IS Datasheet - Page 6

CM6903IS

Manufacturer Part Number

CM6903IS

Description

Low Pin Count PFC/PWM Controller Combo

Manufacturer

CHAMP [Champion Microelectronic Corp.]

Datasheet

1.CM6903IS.pdf (14 pages)

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Functional Description

The CM6903/4 consists of an ICST (Input Current Shaping

Technique), CCM (Continuous Conduction Mode) or DCM

(Discontinuous Conduction Mode) boost PFC (Power

Factor Correction) front end and a synchronized PWM

(Pulse Width Modulator) back end. The CM6903/4 is pin to

pin compatible with FAN6903/4 (9 pin SIP package), which

is the second generation of the ML4803 with 8 pin package.

It is distinguished from earlier combo controllers by its low

count, innovative input current shaping technique, and very

low start-up and operating currents. The PWM section is

dedicated to peak current mode operation. It uses

conventional trailing-edge modulation, while the PFC uses

leading-edge modulation. This patented Leading

Edge/Trailing Edge (LETE) modulation technique helps to

minimize ripple current in the PFC DC buss capacitor.

The main improvements from ML4803 are:

The CM6903 operates both PFC and PWM sections at

67kHz, while the CM6904 operates the PWM section at

twice the frequency (134kHz) of the PFC. This allows the

use of smaller PWM magnetic and output filter components,

while minimizing switching losses in the PFC stage.

Several protection features have been built into the

CM6903/4. These include soft-start, redundant PFC

overvoltage protection, Tri-Fault Detect, VINOK, peak

current limiting, duty cycle limiting, under-voltage lockout,

reference ok comparator and VCCOVP.

2002/12/16

1.) Remove the one pin error amplifier and add back

2.) VFB PFC OVP comparator

3.) Tri-fault Detect for UL1950 compliance and

4.) A feedforward signal from IAC pin is added to do

5.) CM6903 does not require the bleed resistor and

6.) VINOK comparator is added to guaranteed PWM

cannot turn on until VFB reaches 2.5V in which PFC

boost output is about steady state, typical 380V.

7.) A 10mS digital PWM soft start circuit is added

8.) 9 pin SIP package

9.) No internal Zener but with VCCOVP comparator

the slew rate enhancement gmv, which is using

voltage input instead of current input. This

transconductance amplifier will increase the

transient response 5 to 10 times from the

conventional OP

enhanced safety

the automatic slope compensation. This

increases the signal to noise ratio during the light

load; therefore, THD is improved at light load and

high input line voltage.

it uses the less than 500k ohm resistor between

IAC pin and rectified line voltage to feed the

initial current before the chip wakes up.

Preliminary

Rev. 0.4

Champion Microelectronic Corporation

Low Pin Count PFC/PWM C

Detailed Pin Descriptions

DCILIMIT (Pin 1)

This pin is tied to the primary side PWM current sense

resistor or transformer. It provides the internal pulse-by-pulse

current limit for the PWM stage (which occurs at 1.5V) and

the peak current mode feedback path for the current mode

control of the PWM stage. Besides current information, the

optocouple also goes into DCILIMIT pin. Therefore, it is the

SUM Amplifier input.

VCC (Pin 2)

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. Internally it is tied to the VCC OVP comparator

(17.9V) providing redundant high-speed over-voltage

protection (OVP) of the PFC stage. VCC also ties internally

to the UVLO circuitry and VREFOK comparator, enabling the

IC at 15V 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 CM6903/4.

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. Since the VCC OVP

max voltage is 17.9V, an internal shunt limits VCC

overvoltage to an acceptable value. An external clamp, such

as shown in Figure 1, is desirable but not necessary.

This limits the maximum VCC that can be applied to the IC

while allowing a VCC which is high enough to trip the VCC

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

winding and VCC.

Fig ure 1. O ptional V C C C lam p

G N D

V C C

ONTROLLER

1N 5250B

CM6903/4

Page 6

OMBO

CM6903IS CHAMP [Champion Microelectronic Corp.], CM6903IS Datasheet - Page 6

CM6903IS

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