TL494CD - Fairchild Semiconductor

www.fairchildsemi.com

Rev. 5.0

Features

• Internal regulator provides a stable 5V refer ence supply

trimmed to 5%

• Unc ommitt ed ou tput TR for 200mA s ink or sour c e

current

• Outp ut cont r ol fo r push-pu ll or singl e-ended ope rat ion

• Variable duty cycle by dead time control (pin 4) Complete

PWM control circu it

• On-chip oscillator with master or slave operation

• Internal circuit prohibits double pulse at either output

Description

The TL494 is used for the control circuit of the PWM

switching reg ul a tor. Th e TL4 94 consist s of 5V re fe r e nce

voltage circuit, two error amplifiers, flip flop, an output con-

trol circuit, a PWM comparator, a dead time comparator and

an oscillator. This device can be operated in the switching

frequenc y of 1 KHz to 300 KHz.

16-DIP

16-SOP

Internal Block Diagram

TL494

SMPS Controller

TL494

Absolute Maximum Ratings

Parameter Symbol Value Unit

Supply Voltage VCC 42 V

Collector Supply Voltage VC42 V

Output Current IO250 mA

Amplifier Input Voltage VIN VCC + 0.3 V

Power Dissipation (TA = 25°C) PD1 (TL494CN)

0.9 (TL494CD) W

Operating Temperature Range TOPR 0 ~ +70 °C

Storage Temperature Range TSTG -65 ~ + 150 °C

TL494

Electrical Characteristics

(VCC = 20V, f = 10KHz, TA = 0°C to + 70°C, unless otherwise specified)

Parameter Symbol Conditions Min. Typ. Max. Unit

REFERENCE SECTION

Reference Output Voltage VREF IREF = 1mA 4.75 5.0 5.25 V

Line Regulation ∆VREF VCC = 7V to 40V - 2.0 25 mV

Temperature Coefficient of VREF ∆VREF/∆TT

A = 0°C to 70°C - 0.01 0.03 %/°C

Load Regulation ∆VREF IREF = 1mA to 10mA - 1.0 15 mV

Short-Circuit Output Currnet ISC VREF = 0V 10 35 50 mA

OSCILLATOR SECTION

Oscillation Frequency f CT = 0.01µF, RT = 12KΩ-10-KHz

Frequency Change with Temperature ∆f/∆TC

T = 0.01µF, RT = 12KΩ--2%

DEAD TIME CONTROL SECTION

Input Bias Current IBIAS VCC = 15V, 0V≤V4≤5.25V - -2.0 -10 µA

Maximum Duty Cycle D(MAX) VCC = 15V, V4 = 0V

O.C Pin = VREF 45 - - %

Input Threshold Voltage VITH Zero Duty Cycle - 3.0 3.3 V

Max. Duty Cycle 0 - -

ERROR AMP SECTION

Input Offset Voltage VIO V3 = 2.5V - 2.0 10 mV

Input Offset Current IIO V3 = 2.5V - 25 250 mA

Input Bias Current IBIAS V3 = 2.5V - 0.2 1.0 µA

Common Mode Input Voltage VCM 7V ≤ VCC ≤ 40V -0.3 - VCC V

Open-Loop Voltage Gain GVO 0.5V ≤ V3 ≤3 .5V 70 95 - dB

Unit-Gain Bandwidth BW -- 650 - KHz

PWM COMPARATOR SECTION

Input Threshold Voltage VITH Zero Duty Cycle - 4 4.5 V

Input Sink Currnet ISINK V3=0.7V -0.3 -0.7 - mV

OUTPUT S ECTION

Output Saturation Voltage

Common Emitter VCE(SAT) VE = 0, IC = 200mA - 1.1 1.3 V

Common Collector VCC(SAT) VC = 15V, IE = -200mA - 1.5 2.5

Collector Off-State Currnet IC(OFF) VCC = 40V, VCE = 40V - 2 100 µA

Emitter Off-State Current IE(OFF) VCC = VC = 40V, VE = 0 - - -100

TOTAL DEVICE

Supply Current ICC Pin 6 = VREF, VCC = 15V - 6 10 mA

OUTPUT SWITCHING CHARACTERISTIC

Rise Time tR-----

Common Emitter - -- 100 200 ns

Common Collector - -- 100 200

Fall Time tF-----

Common Emitter - -- 25 100 ns

Common Collector - -- 40 100

TL494

Typical Application

Pulse Width Modulated Step-down Converter

TL494

Mechanical Dimensions

Package

#8 #9

#16

6.40

±0.20

7.62

0.300

2.54

0.100

0.252

±0.008

0~15°

0.25

+0.10

–0.05

0.010

+0.004

–0.002

3.30

±0.30

0.130

±0.012

3.25

±0.20

0.128

±0.008

19.40

±0.20

0.764

±0.008

19.80

0.780 MAX

5.08

0.200

0.38

0.014

MAX

MIN

0.81

0.032

()

0.46

±0.10

0.018

±0.004

0.059

±0.004

1.50

±0.10

16-DIP

TL494

Mechanical Dimensions (Continued)

Package

0.70

±0.20

0.0275

±0.008

#8 #9

#16

9.90

±0.20

0.39

±0.008

1.27

0.050

5.72

0.225

1.55

±0.10

0.061

±0.004

0.05

0.002

6.00

±0.30

0.236

±0.012

3.95

±0.20

0.156

±0.008

10.30

0.405 MAX

0~8°

0.51

0.020

()

1.80

0.071

MAX0.10

MAX0.004

MAX

MIN

0.10

-0.05

0.20+

0.004

-0.002

0.008

0.10

-0.05

0.406+

0.004

-0.002

0.016

16-SOP

TL494

Ordering Information

Product Number Package Operating Temperature

TL494CN 16 DIP 0 ~ + 70°C

TL494CD 16 SOP

TL494

7/12/00 0.0m 001

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reasonably expected to result in a significant injury of the

user.

2. A critical component in any component of a life support

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reasonably expected to cause the failure of the life support

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