MC33363A Motorola, MC33363A Datasheet - Page 8

MC33363A

Manufacturer Part Number

MC33363A

Description

HIGH VOLTAGE OFF-LINE SWITCHING REGULATOR

Manufacturer

Motorola

Datasheet

1.MC33363A.pdf (12 pages)

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Introduction

integration by providing all the active high voltage power,

control, and protection circuitry required for implementation

of a flyback or forward converter on a single monolithic chip.

This device is designed for direct operation from a rectified

240 Vac line source and requires a minimum number of

external components to implement a complete converter. A

description of each of the functional blocks is given below,

and the representative block and timing diagrams are shown

in Figures 17 and 18.

Oscillator and Current Mirror

selected for the timing components R T and C T . Resistor R

programs the oscillator charge/discharge current via the

Current Mirror 4 I output, Figure 3. Capacitor C T is charged

and discharged by an equal magnitude internal current

source and sink. This generates a symmetrical 50 percent

duty cycle waveform at Pin 7, with a peak and valley

threshold of 2.6 V and 0.6 V respectively. During the

discharge of C

pulse that holds the inverting input of the AND gate Driver

high. This causes the Power Switch gate drive to be held in a

low state, thus producing a well controlled amount of output

deadtime. The amount of deadtime is relatively constant with

respect to the oscillator frequency when operating below

1.0 MHz. The maximum Power Switch duty cycle at Pin 16

can be modified from the internal 50% limit by providing an

additional charge or discharge current path to C T , Figure 19.

In order to increase the maximum duty cycle, a discharge

current resistor R

decrease the maximum duty cycle, a charge current resistor

R C is connected from Pin 7 to the Regulator Output. Figure 4

shows an obtainable range of maximum output duty cycle

versus the ratio of either R C or R D with respect to R T .

The MC33363A represents a new higher level of

The oscillator frequency is controlled by the values

Figure 19. Maximum Duty Cycle Modification

R C

R D

Regulator Output

, the oscillator generates an internal blanking

1.0

is connected from Pin 7 to ground. To

Comparator

Current

Mirror

Oscillator

PWM

4 I

2.25 I

Current

Limit

Reference

OPERATING DESCRIPTION

Blanking

Pulse

MC33363A

the oscillator frequency are given below. The frequency

formula is a first order approximation and is accurate for C T

values greater than 500 pF. For smaller values of C T , refer to

Figure 1. Note that resistor R T also programs the Current

Limit Comparator threshold.

PWM Comparator and Latch

the oscillator ramp voltage applied to the non–inverting input,

while the error amplifier output is applied into the inverting

input. The Oscillator applies a set pulse to the PWM Latch

while C T is discharging, and upon reaching the valley

voltage, Power Switch conduction is initiated. When C T

charges to a voltage that exceeds the error amplifier output,

the PWM Latch is reset, thus terminating Power Switch

conduction for the duration of the oscillator ramp–up period.

This PWM Comparator/Latch combination prevents multiple

output pulses during a given oscillator clock cycle. The timing

diagram shown in Figure 18 illustrates the Power Switch duty

cycle behavior versus the Compensation voltage.

Current Limit Comparator and Power Switch

means of protecting the output switch transistor from

overstress. Each on–cycle is treated as a separate situation.

Current limiting is implemented by monitoring the output

switch current buildup during conduction, and upon sensing

an overcurrent condition, immediately turning off the switch

for the duration of the oscillator ramp–up period.

a virtually lossless method of monitoring the drain current. It

consists of a total of 2819 cells, of which 65 are connected to

a 6.0

Sense Comparator detects if the voltage across the sense

resistor exceeds the reference level that is present at the

inverting input. If exceeded, the comparator quickly resets

the PWM Latch, thus protecting the Power Switch. The

current limit reference level is generated by the 2.25 I output

of the Current Mirror. This current causes a reference voltage

to appear across the 450

well as the Oscillator charge/discharge current are both set

by resistor R T . Therefore when selecting the values for R T

and C T , R T must be chosen first to set the Power Switch peak

drain current, while C T is chosen second to set the desired

Oscillator frequency. A graph of the Power Switch peak drain

current versus R T is shown in Figure 2 with the related

formula below.

The formula for the charge/discharge current along with

The pulse width modulator consists of a comparator with

The MC33363A uses cycle–by–cycle current limiting as a

The Power Switch is constructed as a SenseFET allowing

chg dscg

ground–referenced sense resistor. The Current

MOTOROLA ANALOG IC DEVICE DATA

5.4

15.95

resistor. This voltage level, as

1000

– 1.14

[

chg dscg

MC33363A Motorola, MC33363A Datasheet - Page 8

MC33363A

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