Philips (Now NXP) TDA7073A, TDA7073AT Schematic [ru]

INTEGRATED CIRCUITS

DATA SH EET

TDA7073A; TDA7073AT

Dual BTL power driver

Product specification
Supersedes data of 1994 July
File under Integrated Circuits, IC01

1999 Aug 30

Philips Semiconductors Product specification

Dual BTL power driver TDA7073A; TDA7073AT

FEATURES

• No external components

• Very high slew rate

• Single power supply

• Short-circuit proof

GENERAL DESCRIPTION

The TDA7073A/AT aredual power driver circuits in a BTL
configuration, intended for use as a power driver for servo
systems with a single supply. They are specially designed
for compact disc players and are capable of driving focus,
tracking, sled functions and spindle motors.

• High output current (0.6 A)

• Wide supply voltage range

• Low output offset voltage

• Suited for handling PWM signals up to 176 kHz

• ESD protected on all pins.

Missing Current Limiter (MCL)

A MCL protection circuit is built-in. The MCL circuit is
activated when the difference in current between the
output terminal of each amplifier exceeds 100 mA (typical
300 mA). This level of 100 mA allows for headphone
applications (single-ended).

QUICK REFERENCE DATA

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

V

P

G

v

I

P

positive supply voltage range 3.0 5.0 18 V
voltage gain 32.5 33.5 34.5 dB

total quiescent current VP=5V; RL=∞−816mA
SR slew rate − 12 − V/µs
I
I
f

O
bias
co

output current −−0.6 A

input bias current − 100 300 nA

cut-off frequency −3dB − 1.5 − MHz

ORDERING INFORMATION

PACKAGE

TYPE NUMBER

NAME DESCRIPTION VERSION

TDA7073A DIP16 plastic dual in-line package; 16 leads (300 mil); long body SOT38-1
TDA7073AT SO16 plastic small outline package; 16 leads; body width 7.5 mm SOT162-1

1999 Aug 30 2

Philips Semiconductors Product specification

Dual BTL power driver TDA7073A; TDA7073AT

BLOCK DIAGRAM

V

P

handbook, full pagewidth

positive input 1

negative input 1

positive input 2

negative input 2

2
1

TDA7073A
TDA7073AT

6
7

5

Ι

SHORT - CIRCUIT AND

THERMAL PROTECTION

I – i

ΙΙ

16I + i

13I – i

12

9I + i

positive output 1

negative output 1

negative output 2

positive output 2

10

ground 2

14

ground 1

Fig.1 Block diagram.

1999 Aug 30 3

3, 4, 8, 11, 15

MCD382 - 1

n.c.

Philips Semiconductors Product specification

Dual BTL power driver TDA7073A; TDA7073AT

PINNING

SYMBOL PIN DESCRIPTION

IN1− 1 negative input 1
IN1+ 2 positive input 1
n.c. 3 not connected
n.c. 4 not connected
V

P

5 positive supply voltage
IN2+ 6 positive input 2
IN2− 7 negative input 2
n.c. 8 not connected
OUT2+ 9 positive output 2
GND2 10 ground 2
n.c. 11 not connected
OUT2− 12 negative output 2
OUT1− 13 negative output 1
GND1 14 ground 1
n.c. 15 not connected
OUT1+ 16 positive output 1

handbook, halfpage

1

IN1–
IN1+

2
3

n.c.

4

n.c.

V

IN2 +
IN2 –

n.c.

P

TDA7073A

TDA7073AT

5
6
7
8

MCD381

Fig.2 Pin configuration.

16
15
14
13
12
11
10

9

OUT1+
n.c.
GND1
OUT1 –
OUT2 –
n.c.
GND2
OUT2 +

FUNCTIONAL DESCRIPTION

The TDA7073A/AT are dual power driver circuits in a BTL
configuration, intended for use as a power driver for servo
systemswith a single supply. Theyareparticular designed
for compact disc players and are capable of driving focus,
tracking, sled functions and spindle motors.

Because of the BTL configuration, the devices can supply
a bi-directional DC current in the load, with only a single
supply voltage. The voltage gain is fixed by internal

feedback at 33.5 dB and the devices operate in a wide
supply voltage range (3 to 18 V). The devices can supply
a maximum output current of 0.6 A. The outputs can be
short-circuited over the load, to the supply and to ground
at all input conditions. The differential inputs can handle
common mode input voltages from ground level up to
(VP− 2.2 V with a maximum of 10 V). The devices have a
very high slew rate. Due to the large bandwidth, they can
handle PWM signals up to 176 kHz.

1999 Aug 30 4

Philips Semiconductors Product specification

Dual BTL power driver TDA7073A; TDA7073AT

LIMITING VALUES

In accordance with the Absolute Maximum System (IEC 134).

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

V

P

I

ORM

I

OSM

P

tot

T

stg

T

vj

T

sc

Note

1. The outputs can be short-circuited over the load, to the supply and to ground at all input conditions.

positive supply voltage range − 18 V
repetitive peak output current − 1A
non repetitive peak output current − 1.5 A
total power dissipation

TDA7073A T

TDA7073AT T

<25°C − 2.5 W

amb

<25°C − 1.32 W

amb

storage temperature range −55 +150 °C
virtual junction temperature − 150 °C
short-circuit time see note 1 − 1hr

THERMAL CHARACTERISTICS

SYMBOL PARAMETER CONDITIONS VALUE UNIT

R

th (j-a)

from junction to ambient

TDA7073A in free air; note 1 50 K/W

TDA7073AT in free air; note 2 95 K/W

Notes

1. TDA7073A: V
P

=2×0.76 W = 1.52 W; T

tot

= 5 V; RL=8Ω; The typical voltage swing = 5.8 V and V

P

amb (max)

= 150 − 1.52 × 50 = 74 °C.

2. TDA7073AT: VP= 5 V; RL=16Ω; typical voltage swing = 5.8 V and V
P

=2×0.38 W = 0.76 W; T

tot

amb (max)

= 150 − 0.76 × 95 = 77 °C.

is 2.1 V therefore IO= 0.36 A and

loss

is 2.1 V therefore IO= 0.18 A and

loss

1999 Aug 30 5

Philips Semiconductors Product specification

Dual BTL power driver TDA7073A; TDA7073AT

CHARACTERISTICS

VP= 5 V; f = 1 kHz; T

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

V

P

I

ORM

I

P

∆V

OUT

THD total harmonic distortion

G

v

V

no(rms)

B bandwidth −−1.5 MHz
SVRR supply voltage ripple rejection note 4 38 55 − dB
∆V
V

I(CM)

16-13,12-9

 DC output offset voltage RS= 500 Ω−−100 mV

CMRR DC common mode rejection ratio note 6 − 100 − dB
Z

I

I

bias

α channel separation 40 50 − dB
∆GV channel unbalance −−1dB

SR slew rate − 12 − V/µs

=25°C; unless otherwise specified (see Fig.3). TDA7073A: RL=8Ω; TDA7073AT: RL=16Ω.

amb

positive supply voltage range 3.0 5.0 18 V
repetitive peak output current −−0.6 A
total quiescent current VP=5V; RL=∞;

− 816mA

note 1

output voltage swing note 2 5.2 5.8 − V

TDA7073A V
TDA7073AT V

= 1 V (RMS) − 0.3 − %

OUT

= 1 V (RMS) − 0.1 − %

OUT

voltage gain 32.5 33.5 34.5 dB
noise output voltage (RMS value) note 3 − 75 150 µV

DC common mode voltage range note 5 0 − 2.8 V

input impedance − 100 − kΩ
input bias current − 100 300 nA

Notes

1. With a load connected to the outputs the quiescent current will increase, the maximum value of this increase being
equal to the DC output offset voltage divided by R

.

L

2. The output voltage swing is typically limited to 2 × (VP− 2.1 V) (see Fig.4).

3. The noise output voltage (RMS value), unweighted (20 Hz to 20 kHz) is measured with RS= 500 Ω.

4. The ripple rejection is measured with RS=0Ωandf = 100 Hz to 10 kHz. The ripple voltage of 200 mV (RMS value)
is applied to the positive supply rail.

5. The DC common mode voltage range is limited to (VP− 2.2 V with a maximum of 10 V).

6. The common mode rejection ratio is measured at V

= 1.4 V, V

ref

= 200 mV and f = 1 kHz.

I(CM)

1999 Aug 30 6