Heatsink design example, D.c. characteristics, A.c. characteristics – Philips TDA1020 User Manual

November 1982

5

Preliminary Specification

Philips Semiconductors

Product specification

12 W car radio power amplifier

TDA1020

HEATSINK DESIGN EXAMPLE

The derating of 8 K/W of the encapsulation requires the following external heatsink (for sine-wave drive):

10 W in 2

Ω

at V

P

=

14,4 V

maximum sine-wave dissipation: 5,2 W

T

amb

=

60

°

C maximum

Since R

th j-tab

+

R

th tab-h

=

8 K/W, R

th h-a

=

17,3

−

8

≈

9 K/W.

D.C. CHARACTERISTICS

A.C. CHARACTERISTICS

T

amb

= 25

°

C; V

P

= 14,4 V; R

L

= 4

Ω

; f = 1 kHz; unless otherwise specified; see also Fig.3

Supply voltage range (pin 3)

V

P

6 to 18 V

Repetitive peak output current

I

ORM

<

4 A

Total quiescent current

at V

P

= 14,4 V

I

tot

typ.

30 mA

at V

P

= 18 V

I

tot

typ.

40 mA

Output power at d

tot

= 10%; with bootstrap (note 1)

V

P

= 14,4 V; R

L

= 2

Ω

P

o

>

10 W

typ.

12 W

V

P

= 14,4 V; R

L

= 4

Ω

P

o

>

6 W

typ.

7 W

V

P

= 14,4 V; R

L

= 8

Ω

P

o

typ.

3,5 W

Output power at d

tot

= 1%; with bootstrap (note 1)

V

P

= 14,4 V; R

L

= 2

Ω

P

o

typ.

9,5 W

V

P

= 14,4 V; R

L

= 4

Ω

P

o

typ.

6 W

V

P

= 14,4 V; R

L

= 8

Ω

P

o

typ.

3 W

Output voltage (r.m.s. value)

R

L

= 1 k

Ω

; d

tot

= 0,5%

V

o(rms)

typ.

5 V

Output power at d

tot

= 10%; without bootstrap

P

o

>

4,5 W

Voltage gain

preamplifier (note 2)

G

v1

typ.

17,7 dB

16,7 to 18,7 dB

power amplifier

G

v2

typ.

29,5 dB

28,5 to 30,5 dB

total amplifier

G

v tot

typ.

47 dB

46,2 to 48,2 dB

R

th j-a

R

th j-tab

R

th tab-h

R

th h-a

150

60

–

5 2

,

----------------------

17,3 K/W

=

=

+

+

=