Fig.18 svrr as a function of frequency, Fig.19 p, As a function of v – Philips TDA8542 User Manual

1998 Apr 01

13

Philips Semiconductors

Product specification

2

×

1 W BTL audio amplifier

TDA8542

Fig.17 Channel separation as a function of

frequency.

V

o

= 1 V, G

v

= 20 dB.

(1) V

CC

= 5 V, R

L

= 32

Ω

, to buffer.

(2) V

CC

= 7.5 V, R

L

= 4

Ω

.

(3) V

CC

= 9 V, R

L

= 8

Ω

.

(4) V

CC

= 12 V, R

L

= 16

Ω.

(5) V

CC

= 5 V, R

L

= 32

Ω

.

handbook, halfpage

−

100

−

80

−

60

−

40

−

20

MGD901

10

(2)

10

2

10

3

10

4

f (Hz)

10

5

(4)
(5)

(1)

(3)

α

cs

(dB)

Fig.18 SVRR as a function of frequency.

V

CC

= 7.5 V, R

L

= 4

Ω

,R

s

= 0

Ω

, V

r

= 100 mV.

(1) G

v

= 24 dB.

(2) G

v

= 20 dB.

(3) G

v

= 0 dB.

handbook, halfpage

−

80

−

60

−

40

−

20

MGD902

10

10

2

10

3

SVRR

(dB)

f (Hz)

10

4

10

5

(1)

(2)

(3)

Fig.19 P

o

as a function of V

CC

.

THD = 10%.

(1) R

L

= 4

Ω

.

(2) R

L

= 8

Ω

.

(3) R

L

= 16

Ω

.

handbook, halfpage

0

(1)

(2)

(3)

4

8

Po

(W)

VCC (V)

16

2

0

1.6

12

1.2

0.8

0.4

MGD903

Fig.20 Worst case power dissipation as a function

of V

CC

.

(1) R

L

= 4

Ω

.

(2) R

L

= 8

Ω

.

(3) R

L

= 16

Ω

.

handbook, halfpage

0

3

2

VCC (V)

1

0

4

8

(1)

(2)

(3)

16

12

MGD904

P

(W)