Philips tda7377 DATASHEETS



TDA7377

2x30W DUAL/QUAD POWER AMPLIFIER FOR CAR RADIO

HIGHOUTPUTPOWER CAPABILITY:
2x35W max./4Ω
2x30W/4ΩEIAJ
2x30W/4ΩEIAJ
2

x 20W/4Ω @14.4V,1KHz,10%

4

x 6W/4Ω @14.4V,1KHz,10%
x 10W/2Ω @14.4V,1KHz,10%

4
MINIMUM EXTERNAL COMPONENTS

COUNT:
– NO BOOTSTRAPCAPACITORS
– NO BOUCHEROTCELLS
– INTERNALLYFIXEDGAIN (26dB BTL)

ST-BYFUNCTION(CMOSCOMPATIBLE)
NOAUDIBLEPOPDURINGST-BYOPERATIONS
DIAGNOSTICSFACILITYFOR:

– CLIPPING
– OUT TO GND SHORT
– OUT TO V

SHORT

S

– SOFTSHORTAT TURN-ON
– THERMALSHUTDOWN PROXIMITY

Protections:

OUPUTAC/DCSHORTCIRCUIT

BLOCK DIAGRAM

MULTIWATT15V MULTIWATT15H

TDA7377V TDA7377H

ORDERING NUMBERS:

–TOGND
–TOV

S

– ACROSS THE LOAD
SOFTSHORTAT TURN-ON
OVERRATING CHIP TEMPERATURE WITH

SOFTTHERMAL LIMITER
LOADDUMP VOLTAGESURGE
VERYINDUCTIVE LOADS
FORTUITOUSOPEN GND
REVERSEDBATTERY
ESD

September 1998

DIAGNOSTICS

1/10

TDA7377

DESCRIPTION

The TDA7377 is a new technology class AB car
radio amplifier able to work either in DUAL
BRIDGEor QUAD SINGLE ENDEDconfiguration.
The exclusive fully complementarystructureof the
output stage and the internally fixed gain guaran-

tees the highest possible power performances
with extremely reduced component count. The
on-boardclip detectorsimplifiesgain compression
operation. The fault diagnosticsmakes it possible
to detect mistakes during car radio set assembly
and wiring in the car.

GENERALSTRUCTURE

ABSOLUTEMAXIMUM RATINGS

Symbol Parameter Value Unit

Operating Supply Voltage 18 V
DC Supply Voltage 28 V

S

Peak Supply Voltage (for t = 50ms) 50 V
Output Peak Current (not repetitive t = 100µs) 4.5 A
Output Peak Current (repetitive f > 10Hz) 3.5 A
Power Dissipation (T
Storage and Junction Temperature -40 to 150 °C

=85°C) 36 W

case

V

T

stg,Tj

V

V

peak

I
I

P

op

O
O
tot

THERMAL DATA

Symbol Description Value Unit

R

th j-case

Thermal Resistance Junction-case Max 1.8 °C/W

PIN CONNECTION (Topview)

DIAGNOSTICS

2/10

TDA7377

ELECTRICALCHARACTERISTICS

T

=25°C,unless otherwise specified

amb

(Referto the test circuit, V

=14.4V;RL=4Ω; f = 1KHz;

S

Symbol Parameter Test Condition Min. Typ. Max. Unit

V

S

I

d

V

OS

P

O

P

Omax

P

O EIAJ

THD Distortion R

CT Cross Talk f = 1KHz Single Ended

R

IN

G

V

G

V

E

IN

Supply Voltage Range 8 18 V
Total Quiescent Drain Current RL= ∞ 150 mA
Output Offset Voltage 150 mV
Output Power THD = 10%; RL=4

Bridge
Single Ended
Single Ended, R

Ω

18

5.5

=2

Ω

L

20

6

10
Max. Output Power (***) VS = 14.4V, Bridge 31 35 W
EIAJ Output Power (***) VS= 13.7V, Bridge 27 30 W

=4Ω

L

Single Ended, P
Bridge, P

O

= 0.1 to 4W

O

= 0.1 to 10W

0.02

0.03 0.3
70

f = 10KHz Single Ended
f = 1KHz Bridge

f = 10KHz Bridge

Input Impedance Single Ended

Bridge

Voltage Gain Single Ended

Bridge

55

20
10

19
25

60

60
30

15
20

26

21

27
Voltage Gain Match 0.5 dB
Input Noise Voltage Rg= 0; ”A” weighted, S.E.

Non Inverting Channels
Inverting Channels

2
5

Bridge
Rg = 0; 22Hz to 22KHz 3.5 µV

SVR Supply Voltage Rejection R

A

I
V
V
I

SB

SB

SB
SB

pin7

Stand-by Attenuation PO=1W 80 90 dB
ST-BY Current Consumption V
ST-BY In Threshold Voltage 1.5 V
ST-BY Out Threshold Voltage 3.5 V
ST-BY Pin Current Play ModeV

= 0; f = 300Hz 50 dB

g

= 0 to 1.5V 100

ST-BY

=5V 50 µA

pin7

Max Driving Current Under

5mA

Fault (*)

I

cd off

Clipping Detector

d = 1% (**) 90

Output Average Current

I

cd on

Clipping Detector

d = 5% (**) 160 µA

Output Average Current

V

sat pin10

(*) See built-in S/Cprotectiondescription
(**) Pin 10 Pulled-up to5Vwith 10KΩ;R
(***) Saturatedsquare wave output.

Voltage Saturation on pin 10 Sink Currentat Pin 10 = 1mA 0.7 V

=4Ω

L

W
W
W

%
%

dB
dB

dB
dB

K
KΩ

dB
dB

µV
µV

µ

µ

Ω

A

A

3/10