NCL30001DR2G【PDF 23/31 页】IC ANA PFC CONTROLLER 16SOIC

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NCL30001

I p

I spos

+

?

g m = 250 m S

g m

blanking

t LEB

Inst. current

To PWM

comparator

R CS

Current sense

amplifier

C IAVG

I AVG

R IAVG

V IAVG

To AC error

amplifier

Figure 54. Current Sense Amplifier

I CS + I IN + (eq. 3)

C IAVG +

Caution should be exercised when designing a filter

between the current sense resistor and the IS POS input, due

to the low impedance of this amplifier. Any series resistance

due to a filter creates a voltage offset (V OS ) due to its input

bias current, CA Ibias . The input bias current is typically

60 m A. The voltage offset is given by Equation 2.

V OS + CA Ibias @ R external (eq. 2)

The offset adds a positive offset to the current sense signal.

The ac error amplifier will then try to compensate for the

average output current which appears never to go to zero and

cause additional zero crossing distortion.

A voltage proportional to the main switch current is

applied to the IS POS pin. The IS POS pin voltage is converted

into a current, i 1 , and internally mirrored. Two internal

currents are generated, I CS and I AVG . I CS is a high frequency

signal which is a replica of the instantaneous switch current.

I AVG is a low frequency signal. The relationship between

V ISPOS and I CS and I AVG is given by Equation 3.

V ISPOS

4k

The PWM Output delivers current to the positive input of

the PWM input where it is added to the AC EA and ramp

compensation signal.

The I AVG Output generates a voltage signal to a buffer

amplifier. This voltage signal is the product of I AVG and an

external R IAVG resistor filtered by the capacitor on the I AVG

pin, C IAVG . The pole frequency, f P , set by C IAVG should be

significantly below the switching frequency to remove the

high frequency content. But, high enough to not to cause

significant distortion to the input full wave rectified

sinewave waveform. A properly filtered average current

signal has twice the line frequency. Equation 4 shows the

relationship between C IAVG (in nF) and f P (in kHz).

1

(eq. 4)

2 @ p @ R IAVG @ f P

http://onsemi.com

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