SGS Thomson Microelectronics TDA7375 Datasheet

TDA7375
2 x 35WDUAL/QUAD POWER AMPLIFIER FOR CAR RADIO
HIGHOUTPUTPOWER CAPABILITY: 2 x40Wmax./4 2 x35W/4ΩEIAJ 2 x35W/4ΩEIAJ 2
4
x 7W/4Ω @14.4V,1KHz,10% x 12W/2Ω @14.4V, 1KHz,10%
4 MINIMUM EXTERNAL COMPONENTS
COUNT: – NOBOOTSTRAPCAPACITORS – NOBOUCHEROTCELLS – INTERNALLY FIXEDGAIN (26dBBTL)
ST-BYFUNCTION(CMOSCOMPATIBLE) NOAUD IBLEPOPDURINGST-BYOPERATIONS DIAGNOSTICSFACILITYFOR:
– CLIPPING – OUTTO GND SHORT – OUTTO V
SHORT
S
– SOFTSHORTAT TURN-ON – THERMAL SHUTDOWNPROXIMITY
Protections:
OUPUTAC/DC SHORT CIRCUIT
BLOCK DIAGRAM
MULTIWATT15V MULTIWATT15H
TDA7375V TDA7375H
ORDERING NUMBERS:
–TOGND –TOV
S
– ACROSS THE LOAD SOFTSHORT AT TURN-ON OVERRATING CHIP TEMPERATURE WITH
SOFTTHERMAL LIMITER LOADDUMP VOLTAGESURGE VERYINDUCTIVELOADS FORTUITOUSOPEN GND REVERSEDBATTERY ESD
September 1998
DIAGNOSTICS
1/15
TDA7375
DESCRIPTION
The TDA7375 is a new technology class AB car radio amplifier able to work either in DUAL BRIDGEor QUADSINGLE ENDED configuration. 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 detectorsimplifies gain compression operation. The fault diagnosticsmakes it possible to detect mistakes during car radio set assembly and wiring in thecar.
GENERALSTRUCTURE
ABSOLUTEMAXIMUM RATINGS
Symbol Parameter Value Unit
V
V
V
P
T
stg,Tj
op
peak
I
O
I
O tot
Operating Supply Voltage 18 V DC Supply Voltage 28 V
S
Peak Supply Voltage(for t = 50ms) 50 V Output Peak Current (notrepetitive t = 100µs) 4.5 A Output Peak Current (repetitivef > 10Hz) 3.5 A Power Dissipation (T Storage and Junction Temperature -40 to 150 °C
=85°C) 36 W
case
THERMAL DATA
Symbol Description Value Unit
R
th j-case
Thermal Resistance Junction-case Max 1.8 °C/W
PIN CONNECTION (Topview)
DIAGNOSTICS
2/15
TDA7375
ELECTRICALCHARACTERISTICS
T
=25°C,unless otherwise specified
amb
(Referto thetest 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
O max
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 DrainCurrent RL= 150 mA Output Offset Voltage 150 mV Output Power THD = 10%; RL=4
Bridge Single Ended Single Ended, R
23
6.5
=2
L
25
7
12 Max. Output Power (***) VS = 14.4V,Bridge 36 40 W EIAJ Output Power (***) VS= 13.7V, Bridge 32 35 W
=4
L
Single Ended, P Bridge, P
O
= 0.1 to 4W
O
= 0.1 to10W
0.02
0.03 0.3 70
f = 10KHzSingle Ended f = 1KHz Bridge
f = 10KHzBridge
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 ThresholdVoltage 1.5 V ST-BY Out ThresholdVoltage 3.5 V ST-BY Pin Current Play ModeV
= 0; f = 300Hz 50 dB
g
= 0 to1.5V 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/C protection description (**) Pin 10 Pulled-up to 5V with 10K;R (***) Saturatedsquare waveoutput.
Voltage Saturation on pin10 Sink Currentat Pin 10= 1mA 0.7 V
=4
L
W W W
% %
dB dB
dB dB
K K
dB dB
µV µV
µ
µ
A
A
3/15
TDA7375
STANDARD TEST AND APPLICATION CIRCUIT Figure 1: Quad Stereo
Note:
C9, C10, C11, C12 could be reduced if the2operation is not required.
Figure 2:
Double Bridge
IN FL
ST-BY
10K R1
C1 0.22µF
C2 0.22µF
C4 0.22µF
C3 0.22µF
C8 47µF
10K R1
C7
10µF
ST-BY
IN FR 5
IN RR 11
IN L
C1 0.47µF
C2 0.47µF
C8 47µF
100nF
7
13
4
12IN RL
6
89 10
3
15
14
DIAGNOSTICS
C5
10µF
7
4
13
5
12IN R 11
6
89 10
DIAGNOSTICS
C6
1
2
100nF
3
C10 2200µF
C9 2200µF
C11 2200µF
C12 2200µF
D94AU063A
C4
1
2
15
14
V
S
C5
1000µF
OUT L
OUT R
D94AU064A
OUT FL
OUT FR
OUT RL
OUT RR
V
C3
1000µF
S
Figure 3:
4/15
Stereo/Bridge
IN BRIDGE 12
ST-BY
IN L
IN L
10K
0.22µF
0.22µF
0.47µF
47µF
10µF
13
7
4
3
5
11 6
89 10
DIAGNOSTICS
15
14
V
S
1000µF100nF
1
2200µF
2
2200µF
OUT L
OUT R
OUT
BRIDGE
D94AU065A
TDA7375
Figure 4:
Figure 5:
P.C.Board andComponentLayout of the fig.1(1:1 scale).
P.C.Board andComponentLayout of the fig.2(1:1 scale).
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