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您現(xiàn)在的位置：買賣IC網(wǎng) > PDF目錄224334 > ML4841CP (FAIRCHILD SEMICONDUCTOR CORP) Variable Feedforward PFC/PWM Controller Combo PDF資料下載

參數(shù)資料

型號(hào)：	ML4841CP
廠商：	FAIRCHILD SEMICONDUCTOR CORP
元件分類：	穩(wěn)壓器
英文描述：	Variable Feedforward PFC/PWM Controller Combo
中文描述：	0.5 A POWER FACTOR CONTROLLER WITH POST REGULATOR, PDIP16
封裝：	PLASTIC, DIP-16
文件頁數(shù)：	13/15頁
文件大?。?/td>	129K
代理商：	ML4841CP

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PRODUCT SPECIFICATION

ML4841

REV. 1.0.3 6/13/01

Functional Description

The ML4841 consists of an average current controlled,

continuous boost Power Factor Corrector (PFC) front end

and a synchronized Pulse Width Modulator (PWM) back

end. The PWM section uses current mode control. The PWM

stage uses conventional trailing-edge duty cycle modulation,

while the PFC uses leading-edge modulation. This patented

leading/trailing edge modulation technique results in a

higher useable PFC error amplier bandwidth, and can

signicantly reduce the size of the PFC DC buss capacitor.

The synchronization of the PWM with the PFC simplies the

PWM compensation due to the controlled ripple on the PFC

output capacitor (the PWM input capacitor). The PWM

section of the ML4841 runs at twice the frequency of the

PFC, which allows the use of smaller PWM output magnet-

ics and lter capacitors while holding down the losses in the

PFC stage power components.

In addition to power factor correction, a number of protec-

tion features have been built into the ML4841. These include

soft-start, PFC over-voltage protection, peak current limit-

ing, brown-out protection, duty cycle limit, and under-

voltage lockout.

Power Factor Correction

Power factor correction makes a non-linear 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 non-linear load is the input of a most power supplies,

which use a bridge rectier and capacitive input lter fed

from the line. The peak-charging effect which occurs on the

input lter capacitor in such a supply causes brief high-

amplitude pulses of current to ow from the power line,

rather than a sinusoidal current in phase with the line volt-

age. Such a supply presents a power factor to the line of less

than one (another way to state this is that it causes signicant

current harmonics to appear at its input). If the input current

drawn by such a supply (or any other non-linear 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 ML4841 uses a boost-mode

DC-DC converter to accomplish this. The input to the

converter is the full wave rectied AC line voltage. No

ltering is applied following the bridge rectier, 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 simulta-

neous conditions, it is possible to ensure that the current

which the converter draws from the power line agrees with

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 385VDC, to allow for a high line of 270VAC.

The other condition is that the current which the converter is

allowed to draw from the line at any given instant must be

proportional to the line voltage. The rst of these require-

ments is satised by establishing a suitable voltage control

loop for the converter, which in turn drives a current error

amplier and switching output driver. The second require-

ment is met by using the rectied AC line voltage to modu-

late the output of the voltage control loop. Such modulation

causes the current error amplier to command a power stage

current which varies directly with the input voltage. In order

to prevent ripple which will necessarily appear at the output

of the boost circuit (typically about 10VAC on a 385V DC

level) from introducing distortion back through the voltage

error amplier, the bandwidth of the voltage loop is deliber-

ately kept low. A nal renement is to adjust the overall gain

of the PFC such to be proportional to 1/VIN

2, which linear-

izes the transfer function of the system as the AC input volt-

age varies.

Since the boost converter topology in the ML4841 PFC is of

the current-averaging type, no slope compensation is

required.

PFC Section

Gain Modulator

Figure 1 shows a block diagram of the PFC section of the

ML4841. The gain modulator is the heart of the PFC, as it is

this circuit block which controls the response of the current

loop to line voltage waveform and frequency, rms line volt-

age, and PFC output voltage. There are three inputs to the

gain modulator. These are:

A current representing the instantaneous input voltage

(amplitude and waveshape) to the PFC. The rectied

AC input sine wave is converted to a proportional

current via a resistor and is then fed into the gain

modulator at IAC. Sampling current in this way

minimizes ground noise, as is required in high power

switching power conversion environments. The gain

modulator responds linearly to this current.

A voltage proportional to the long-term rms AC line

voltage, derived from the rectied line voltage after

scaling and ltering. This signal is presented to the gain

modulator at VRMS. The gain modulator’s output is

inversely proportional to VRMS2 (except at unusually low

values of VRMS where special gain contouring takes over

to limit power dissipation of the circuit components

under heavy brownout conditions). The relationship

between VRMS and gain is designated as K, and is

illustrated in the Typical Performance Characteristics.

The output of the voltage error amplier, VEAO. The

gain modulator responds linearly to variations in this

voltage.

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