TL5001_16 Datasheet, PDF(3/32 Page) Texas Instruments – PULSE-WIDTH-MODULATION CONTROL CIRCUITS

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TL5001_16 Datasheet, PDF (3/32 Pages) Texas Instruments – PULSE-WIDTH-MODULATION CONTROL CIRCUITS

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TL5001, TL5001A

PULSE-WIDTH-MODULATION CONTROL CIRCUITS

SLVS084F â APRIL 1994 â REVISED JANUARY 2002

detailed description

voltage reference

A 2.5-V regulator operating from VCC is used to power the internal circuitry of the TL5001 and TL5001A and as a

reference for the error amplifier and SCP circuits. A resistive divider provides a 1-V reference for the error amplifier

noninverting input which typically is within 2% of nominal over the operating temperature range.

error amplifier

The error amplifier compares a sample of the dc-to-dc converter output voltage to the 1-V reference and generates

an error signal for the PWM comparator. The dc-to-dc converter output voltage is set by selecting the error-amplifier

gain (see Figure 1), using the following expression:

VO = (1 + R1/R2) (1 V)

Compensation

Network

VI(FB)

3 COMP

4 FB

TL5001/A

To PWM

Comparator

8 GND

Vref = 1 V

Figure 1. Error-Amplifier Gain Setting

The error-amplifier output is brought out as COMP for use in compensating the dc-to-dc converter control loop for

stability. Because the amplifier can only source 45 ÂµA, the total dc load resistance should be 100 kâ¦ or more.

oscillator/PWM

The oscillator frequency (fosc) can be set between 20 kHz and 500 kHz by connecting a resistor between RT and

GND. Acceptable resistor values range from 15 kâ¦ to 250 kâ¦. The oscillator frequency can be determined by using

the graph shown in Figure 5.

The oscillator output is a triangular wave with a minimum value of approximately 0.7 V and a maximum value of

approximately 1.3 V. The PWM comparator compares the error-amplifier output voltage and the DTC input voltage

to the triangular wave and turns the output transistor off whenever the triangular wave is greater than the lesser of

the two inputs.

dead-time control (DTC)

DTC provides a means of limiting the output-switch duty cycle to a value less than 100 %, which is critical for boost

and flyback converters. A current source generates a reference current (IDT) at DTC that is nominally equal to the

current at the oscillator timing terminal, RT. Connecting a resistor between DTC and GND generates a dead-time

reference voltage (VDT), which the PWM/DTC comparator compares to the oscillator triangle wave as described

in the previous section. Nominally, the maximum duty cycle is 0 % when VDT is 0.7 V or less and 100 % when VDT

is 1.3 V or greater. Because the triangle wave amplitude is a function of frequency and the source impedance of

RT is relatively high (1250 â¦), choosing RDT for a specific maximum duty cycle, D, is accomplished using the

following equation and the voltage limits for the frequency in question as found in Figure 11 (Voscmax and Voscmin

are the maximum and minimum oscillator levels):

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