NCL30001 Datasheet, PDF(28/31 Page) ON Semiconductor – High-Efficiency Single Stage Power Factor Correction and Step-Down Offline LED Driver

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NCL30001 Datasheet, PDF (28/31 Pages) ON Semiconductor – High-Efficiency Single Stage Power Factor Correction and Step-Down Offline LED Driver

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NCL30001

VRCOMP

dtprimary

RCS

AHF

(eq. 20)

RCS

LP @ 102.38k

AHF @ Vout @ RRCOMP

(eq. 21)

At low line and full load, the output of the ac error

amplifier output is nearly saturated in a low state. While the

ac error amplifier output is saturated, IACEA is zero and does

not contribute to the voltage across the internal 21.33 kW

resistor on the PWM comparator non-inverting input. In this

operation mode, the voltage across the 21.33 kW resistor is

determined solely by the ramp compensation and the

instantaneous switch current as given by Equation 22.

Ç Ç Vref(PWM) +

VRCOMP

ton

) VINST

(eq. 22)

The voltage reference of the PWM Comparator,

VREF(PWM), is 4 V. For these calculations, 3.8 V is used to

provide some margin. The maximum instantaneous switch

current voltage contribution, VINST, is given by

Equation 23.

VINST + IPK @ RCS @ AHF

(eq. 23)

Substituting Equation 23 in Equation 22, setting

VREF(PWM) at 3.8 V (provides margin) and solving for

RRCOMP, Equation 24 is obtained.

RRCOMP

Ç3.8

102.38k

5.333 @ IPK

RCSÇ

ton

(eq. 24)

Replacing Equation 24 in Equation 21 we obtain:

Ç Ç RCS +

3.8

NP @ AHF@Vout@ton

) 5.333 IPK

(eq. 25)

PWM Logic

The PWM and logic circuits are comprised of a PWM

comparator, an RS flip-flop (latch) and an OR gate. The

latch is Set dominant which means that if both R and S are

high the S signal will dominate and Q will be high, which

will hold the power switch off.

The NCL30001 uses a pulse width modulation scheme

based on a fixed frequency oscillator. The oscillator

generates a voltage ramp as well as a pulse in sync with the

falling edge of the ramp. The pulse is an input to the PWM

Logic and Driver block. While the oscillator pulse is present,

the latch is reset, and the output drive is in its low state. On

the falling edge of the pulse, the DRV goes high and the

power switch begins conduction.

The instantaneous inductor current is summed with a

current proportional to the ac error amplifier output voltage.

This complex waveform is compared to the 4 V reference

signal on the PWM comparator inverting input. When the

signal at the non-inverting input to the PWM comparator

exceeds 4 V, the output of the PWM comparator toggles to

a high state which drives the Set input of the latch and turns

the power switch off until the next clock cycle.

BrownâOut

The NCL30001 incorporates a brownâout detection

circuit to prevent the controller operate at low ac line

voltages and reduce stress in power components. A scaled

version of the rectified line voltage is applied to the VFF Pin

by means of a resistor divider. This voltage is used by the

brown out detector.

A brownâout condition exists if the feedforward voltage

is below the brownâout exit threshold, VBO(high), typically

0.45 V. The brownâout detector has 175 mV hysteresis. The

controller is enabled once VFF is above 0.63 V and VCC

reaches VCC(on). Figure 59 shows the relationship between

the brownâout, VCC and DRV signals.

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