1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

FEATURES

Requires very few external components

High output power

and 2

load impedance

Low output offset voltage

Fixed gain

Diagnostic facility (distortion, short-circuit and
temperature detection)

Good ripple rejection

Mode select switch (operating, mute and standby)

Load dump protection

Short-circuit safe to ground, to V

and across the load

Low power dissipation in any short-circuit condition

Thermally protected

Reverse polarity safe

Electrostatic discharge protection

No switch-on/switch-off plop

Flexible leads

Low thermal resistance.

GENERAL DESCRIPTION

The TDA8560Q is an integrated class-B output amplifier in
a 13-lead single-in-line (SIL) power package.
It contains 2

40 W/2

amplifiers in BTL configuration.

The device is primarily developed for car radio
applications.

QUICK REFERENCE DATA

ORDERING INFORMATION

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

operating supply voltage

6.0

14.4

ORM

repetitive peak output current

7.5

q(tot)

total quiescent current

115

standby current

0.1

100

switch-on current

input impedance

output power

= 4

; THD = 10%

= 2

; THD = 10%

SVRR

supply voltage ripple rejection

= 0

channel separation

= 10 k

closed loop voltage gain

noise output voltage

= 0

250

DC output offset voltage

200

TYPE NUMBER

PACKAGE

NAME

DESCRIPTION

VERSION

TDA8560Q

DBS13P

plastic DIL-bent-SIL power package; 13 leads (lead length 12 mm)

SOT141-6

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

BLOCK DIAGRAM

Fig.1 Block diagram.

mode switch

MEA856 - 1

output 1A

15 k

stand-by

switch

mute
switch

stand-by
reference
voltage

PROTECTIONS
Load dump
Soar
Thermal
Short - circuit
Reverse polarity

VP1

VP2

18 k

365

mute switch

power stage

18 k

mute switch

power stage

18 k

mute switch

power stage

18 k

mute switch

power stage

ground (signal)

GND1

GND2

power ground (substrate)

output 2B

output 2A

output 1B

input 1

input 2

TDA8560Q

mute
reference
voltage

input
reference
voltage

365

diagnostic

output

DIAGNOSTIC

INTERFACE

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

PINNING

SYMBOL

PIN

DESCRIPTION

IN 1

input 1

GND(S)

signal ground

supply voltage 1

OUT 1A

output 1A

GND1

power ground 1

OUT 1B

output 1B

OUT 2A

output 2A

GND2

power ground 2

OUT 2B

output 2B

supply voltage 2

MODE

mode switch input

DIAG

diagnostic output

IN 2

input 2

Fig.2 Pin configuration.

MEA855 - 1

TDA8560Q

IN 1

GND(S)

V P1

OUT 1A

GND1

OUT 1B

OUT 2A

GND2

OUT 2B

VP2

MODE

IN 2

DIAG

FUNCTIONAL DESCRIPTION

The TDA8560Q contains two identical amplifiers and can
be used for bridge applications. The gain of each amplifier
is fixed at 40 dB. Special features of the device are as
follows.

Mode select switch (pin 11)

Standby: low supply current (

100

Mute: input signal suppressed

Operating: normal on condition.

Since this pin has a very low input current (

A), a low

cost supply switch can be applied.

To avoid switch-on plops, it is advised to keep the amplifier
in the mute mode during

100 ms (charging of the input

capacitors at pin 1 and pin 13).

This can be achieved by:

Microprocessor control

External timing circuit (see Fig.7).

Diagnostic output (pin 12)

YNAMIC DISTORTION DETECTOR

(DDD)

At the onset of clipping of one or more output stages, the
dynamic distortion detector becomes active and pin 12
goes low. This information can be used to drive a sound
processor or DC volume control to attenuate the input
signal and thus limit the distortion. The output level of
pin 12 is independent of the number of channels that are
clipping (see Fig.3).

Fig.3 Distortion detector waveform.

handbook, halfpage

MGA721

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

HORT

CIRCUIT PROTECTION

When a short-circuit occurs at one or more outputs to
ground or to the supply voltage, the output stages are
switched off until the short-circuit is removed and the
device is switched on again, with a delay of approximately
20 ms, after removal of the short-circuit. During this
short-circuit condition, pin 12 is continuously low.

When a short-circuit across the load of one or both
channels occurs the output stages are switched off during
approximately 20 ms. After that time it is checked during
approximately 50

s to see whether the short-circuit is still

present. Due to this duty cycle of 50

s/20 ms the average

current consumption during this short-circuit condition is
very low (approximately 40 mA).

During this short-circuit condition, pin 12 is low for 20 ms
and high for 50

s (see Fig.4).

The power dissipation in any short-circuit condition is
very low.

EMPERATURE DETECTION

When the virtual junction temperature T

reaches 150

pin 12 will become continuously low.

PEN COLLECTOR OUTPUT

Pin 12 is an open collector output, which allows pin 12 of
more devices being tied together.

Fig.4 Short-circuit waveform.

handbook, full pagewidth

MGA722

short-circuit over the load

20 ms

50 s

current

output

stage

V12

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

LIMITING VALUES

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

THERMAL CHARACTERISTICS

SYMBOL

PARAMETER

CONDITIONS

MIN.

MAX.

UNIT

supply voltage

operating

non-operating

load dump protection

during 50 ms; t

2.5 ms

psc

AC and DC short-circuit safe voltage

reverse polarity

OSM

non-repetitive peak output current

ORM

repetitive peak output current

7.5

tot

total power dissipation

stg

storage temperature

+150

amb

operating ambient temperature

+85

virtual junction temperature

150

SYMBOL

PARAMETER

VALUE

UNIT

th j-a

thermal resistance from junction to ambient in free air

K/W

th j-c

thermal resistance from junction to case (see Fig.5)

1.3

K/W

Fig.5 Equivalent thermal resistance network.

handbook, halfpage

2.2 K/W

0.2 K/W

2.2 K/W

virtual junction

output 1

output 2

case

MBA624

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

DC CHARACTERISTICS

= 14.4 V; T

amb

= 25

C; measured in Fig.6; unless otherwise specified.

Notes

1. The circuit is DC adjusted at V

= 6 to 18 V and AC operating at V

= 8.5 to 18 V.

2. At 18 V

30 V the DC output voltage

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

Supply

supply voltage

note 1

6.0

14.4

quiescent current

115

180

Operating condition

mode switch voltage level

8.5

mode switch current

= 14.4 V

DC output voltage

note 2

7.0

DC output offset voltage

200

Mute condition

mode switch voltage level

3.3

6.4

DC output voltage

note 2

7.0

DC output offset voltage

200

Standby condition

mode switch voltage level

standby current

0.1

100

Diagnostic output

diagnostic output voltage

any short-circuit or clipping

0.6

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

AC CHARACTERISTICS

= 14.4 V; R

= 2

; f = 1 kHz; T

amb

= 25

C; measured in Fig.6; unless otherwise specified.

Notes

1. Dynamic distortion detector active.

2. Frequency response externally fixed.

3. V

ripple

= V

ripple(max)

= 2 V (p-p); R

= 0

4. B = 20 Hz to 20 kHz; R

= 0

5. B = 20 Hz to 20 kHz; R

= 10 k

6. B = 20 Hz to 20 kHz; independent of R

7. P

= 25 W; R

= 10 k

8. V

= V

i(max)

= 1 V (RMS).

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

output power

THD = 0.5%

THD = 10%

THD = 30%

output power

= 13.2 V

THD = 0.5%

THD = 10%

THD

total harmonic distortion

= 1 W

0.1

0.6 V; note 1

power bandwidth

THD = 0.5%;
P

1 dB

with respect to 25 W

20 to 20000

low frequency roll-off

1 dB; note 2

high frequency roll-off

1 dB

kHz

closed loop voltage gain

SVRR

supply voltage ripple rejection

note 3

mute

note 3

standby

note 3

input impedance

noise output voltage

note 4

200

250

note 5

250

mute

note 6

135

channel separation

note 7

channel unbalance

output voltage in mute

note 8

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

QUALITY SPECIFICATION

Quality in accordance with

"Quality reference handbook SNW-FQ-611E", if this type used as an audio amplifier. This

handbook can be ordered using the code 9397 750 00192.

TEST AND APPLICATION INFORMATION

(1) To avoid high energy switching pulses which can feedback to the inputs it is advisable to ensure that the value of the resistor at pin 12 is

10 k

Fig.6 Stereo BTL test/application diagram.

MEA857 - 1

100

mode switch

470 nF

TDA8560Q

2200

14.4 V

R L

reference

voltage

ground (signal)

R L

input 2

input 1

power ground (substrate)

10 k

(1)

diagnostic

output

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

Fig.7 Mode select switch circuitry.

handbook, halfpage

100 k

MGA708

10 k

mode

select

switch

Diagnostic output

Special care must be taken in the printed-circuit board
layout to separate pin 12 from pin 1 and pin 13, to
minimize the crosstalk between the diagnostic output and
the inputs.

Mode select switch

To avoid switch-on plops, it is advised to keep the amplifier
in the mute mode during

100 ms (charging of the input

capacitors at pin 1 and pin 13).

The circuit in Fig.7 slowly ramps up the voltage at the
mode select switch pin when switching on and results in
fast muting when switching off.

(1) f = 10 kHz.

(2) f = 1 Hz.

(3) f = 100 Hz.

Fig.8 Total harmonic distortion as a function of output power; V

= 14.4 V; R

= 2

MGA904

P (W)

THD

(%)

(1)

(2)

(3)

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

(1) P

= 0.1 W.

(2) P

= 1 W.

(3) P

= 10 W.

Fig.11 Total harmonic distortion as a function of frequency; V

= 14.4 V; R

= 2

MGA907

f (Hz)

THD

(%)

(1)

(2)

(3)

(1) On condition.

(2) Mute condition.

Fig.12 Ripple rejection as a function of frequency; V

= 14.4 V; V

ripple

= 2 V (p-p); R

= 0

MGA908

f (Hz)

SVRR

(dB)

(1)

(2)

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

PACKAGE OUTLINE

UNIT

(1)

REFERENCES

OUTLINE

VERSION

EUROPEAN

PROJECTION

ISSUE DATE

IEC

JEDEC

EIAJ

17.0
15.5

4.6
4.2

0.75
0.60

0.48
0.38

24.0
23.6

20.0
19.6

3.4

0.8

12.2
11.8

1.7

5.08

2.4
1.6

2.00
1.45

2.1
1.8

3.4
3.1

4.3

DIMENSIONS (mm are the original dimensions)

Note

1. Plastic or metal protrusions of 0.25 mm maximum per side are not included.

12.4
11.0

SOT141-6

10 mm

scale

0.25

0.03

non-concave

view B: mounting base side

92-11-17
95-03-11

DBS13P: plastic DIL-bent-SIL power package; 13 leads (lead length 12 mm)

SOT141-6

1996 Jan 08

Philips Semiconductors

Product specification

40 W/2

stereo BTL car radio

power amplifier with diagnostic facility

TDA8560Q

SOLDERING

Introduction

There is no soldering method that is ideal for all IC
packages. Wave soldering is often preferred when
through-hole and surface mounted components are mixed
on one printed-circuit board. However, wave soldering is
not always suitable for surface mounted ICs, or for
printed-circuits with high population densities. In these
situations reflow soldering is often used.

This text gives a very brief insight to a complex technology.
A more in-depth account of soldering ICs can be found in
our

"IC Package Databook" (order code 9398 652 90011).

Soldering by dipping or by wave

The maximum permissible temperature of the solder is
260

C; solder at this temperature must not be in contact

with the joint for more than 5 seconds. The total contact
time of successive solder waves must not exceed
5 seconds.

The device may be mounted up to the seating plane, but
the temperature of the plastic body must not exceed the
specified maximum storage temperature (T

stg max

). If the

printed-circuit board has been pre-heated, forced cooling
may be necessary immediately after soldering to keep the
temperature within the permissible limit.

Repairing soldered joints

Apply a low voltage soldering iron (less than 24 V) to the
lead(s) of the package, below the seating plane or not
more than 2 mm above it. If the temperature of the
soldering iron bit is less than 300

C it may remain in

contact for up to 10 seconds. If the bit temperature is
between 300 and 400

C, contact may be up to 5 seconds.

DEFINITIONS

LIFE SUPPORT APPLICATIONS

These products are not designed for use in life support appliances, devices, or systems where malfunction of these
products can reasonably be expected to result in personal injury. Philips customers using or selling these products for
use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such
improper use or sale.

Data sheet status

Objective specification

This data sheet contains target or goal specifications for product development.

Preliminary specification

This data sheet contains preliminary data; supplementary data may be published later.

Product specification

This data sheet contains final product specifications.

Limiting values

Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or
more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation
of the device at these or at any other conditions above those given in the Characteristics sections of the specification
is not implied. Exposure to limiting values for extended periods may affect device reliability.

Application information

Where application information is given, it is advisory and does not form part of the specification.

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