STMICROELECTRONICS TDA7495S_04

TDA7495S
11W +11W AMPLIFIER
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11+11W OUTPUT POWER
RL = 8. @THD = 10% VCC = 28V
ST-BY AND MUTE FUNCTIONS
LOW TURN-ON TURN-OFF POP NOISE
NO BOUCHEROT CELL
NO ST-BY RC INPUT NETWORK
SINGLE SUPPLY RANGING UP TO 35V
SHORT CIRCUIT PROTECTION
THERMAL OVERLOAD PROTECTION
INTERNALLY FIXED GAIN
SOFT CLIPPING
MULTIWATT 15 PACKAGE
MULTIPOWER BI50II TECHNOLOGY
Multiwatt 15
ORDERING NUMBER: TDA7495S
DESCRIPTION
Features of the TDA7495S include linearStand-by
and mute functions.
The TDA7495S is a stereo 11+11W class AB power amplifier assembled in the @ Multiwatt 15 package, specially designed for high quality sound, TV
applications.
BLOCK AND APPLICATION CIRCUIT
VS
13
1
INR
470nF
+
30K
1000µF
14
-
OUTR
OP AMP
S1 ST-BY
S_GND
9
8
+5V
STBY
MUTE/STBY
PROTECTIONS
PW_GND
10K
60K
11
10
MUTE
S_GND
+5V
1µF
S2 MUTE
5
INL
470nF
+
30K
12
-
1000µF
OP AMP
SVR
7
OUTL
15
PW_GND
470µF
D99AU1015
January 2004
1/10
TDA7495S
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Value
Unit
40
V
8
Vpp
20
W
VS
DC Supply Voltage
VIN
Maximum Input Voltage
Ptot
Total Power Dissipation (Tamb = 70°C)
Tamb
Ambient Operating Temperature (1)
-20 to 85
°C
Tstg,TJ
Storage and Junction Temperature
-40 to 150
°C
Value
Unit
Typ. = 2; Max. = 2.8
°C/W
max 35
°C/W
(1) Operation between -20 to 85 °C guaranteed by correlation with 0 to 70°C.
PIN CONNECTION (top view)
15
PW_GND
14
OUTR
13
VS
12
OUTL
11
PW_GND
10
MUTE
9
STBY
8
S_GND
7
SVR
6
N.C.
5
INL
4
N.C.
3
N.C.
2
N.C.
1
INR
D99AU1016
THERMAL DATA
Symbol
Parameter
Rth j-case
Thermal Resistance junction-case
Rth j-amb
Thermal Resistance junction-ambient
ELECTRICAL CHARACTERISTCS (Refer to the test circuit Vs = 20V; RL = 8Ω, Rg = 50Ω, Tamb = 25°C)
Symbol
Vs
Supply Voltage Range
Iq
Total Quiescent Current
DCVos
2/10
Parameter
Test Condition
Quiescent Output Voltage
PO
Output Power
Typ.
11
70
Output DC Offset Referred to SVR No Input Signal
Potential
VO
Min.
-750
Max.
Unit
35
V
100
mA
750
mV
11.5
V
8.5
10
THD = 10%; RL = 8Ω;VS = 28V
THD = 1%; RL = 8Ω; VS = 28V
9.5
7.5
11
8.8
W
W
THD = 10%; RL = 4Ω; VS = 20V
THD = 1%; RL = 4Ω; VS = 20V
7
5
8.7
6.8
W
W
THD = 10%; RL = 8Ω;VS = 18V
THD = 1%; RL = 8Ω; VS = 18V
3.5
2.2
4
3.2
W
W
TDA7495S
ELECTRICAL CHARACTERISTCS (Refer to the test circuit Vs = 20V; RL = 8Ω, Rg = 50Ω, Tamb = 25°C)
Symbol
Parameter
Test Condition
THD
Total Harmonic Distortion
Gv = 30dB; PO = 1W; f = 1KHz
Ipeak
Output Peak Current
(internally limited)
VIN
Input Signal
GV
Closed Loop Gain
Min.
1.7
28.5
BW
eN
Max.
Unit
0.4
%
2.4
30
A
2.8
Vrms
31.5
dB
0.6
Total Output Noise
SR
Slew Rate
Ri
Input Resistance
SVR
Typ.
Supply Voltage Rejection
MHz
f = 20Hz to 22KHz
PLAY,
500
800
µV
f = 20Hz to 22KHz
MUTE
60
150
µV
5
8
V/µs
22.5
30
KΩ
f = 1KHz; max volume
CSVR = 470µF; VRIP = 1Vrms
35
39
dB
f = 1KHz; max attenuation
CSVR = 470µF; VRIP = 1Vrms
55
65
dB
TM
Thermal Muting
150
°C
TS
Thermal Shut-down
160
°C
MUTE & INPUT SELECTION FUNCTIONS
VST-BY
Stand-by ON Threshold
2.3
2.5
2.7
V
VMUTE
Mute Threshold
2.3
2.5
2.7
V
IqST-BY
Quiescent Current @ Stand-by
0.6
1
mA
AMUTE
Mute Threshold
IstbyBIAS
Stand-by bias current
50
Stand by ON: VST-BY = 5V;
Vmute = 5V
Play or Mute
ImuteBIAS
Mute Bias Current
-20
65
V
80
µA
-5
µA
Mute
1
5
µA
Play
0.2
2
µA
3/10
TDA7495S
Figure 1. Application circuit
+VS
C1
1000µF
C9
0.1µF
VS
PW_GND
13
11
1
INR
C2 470nF
+
15
PW_GND
14
-
30K
PW_GND
OUTR
C8 1000µF
OP AMP
S1 STBY
S_GND
9
8
MUTE/STBY
PROTECTIONS
C7
1µF
5
INL
+
30K
C3 470nF
OP AMP
SVR
S2 MUTE
12
OUTL
C6 1000µF
7
C4 470µF
D99AU1017
Figure 2. PCB and Component Layout
4/10
S_GND
R2 10K
10
+5V
PW_GND
+5V
TDA7495S
APPLICATION SUGGESTIONS
The recommended values of the external components are those shown on the application circuit of figure 1.
Different values can be used, the following table can help the designer.
COMPONENT
SUGGESTION
VALUE
R2
10K
C1
1000µF
C2
470nF
Input DC decoupling
Lower low frequency cutoff Higher low frequency cutoff
C3
470nF
Input DC decoupling
Lower low frequency cutoff Higher low frequency cutoff
C4
470µF
Ripple rejection
Better SVR
C6
1000µF
Output DC decoupling
Lower low frequency cutoff Higher low frequency cutoff
C7
1µF
Mute time constant
Larger mute on/off time
C8
1000µF
Output DC decoupling
Lower low frequency cutoff Higher low frequency cutoff
C9
100nF
Supply voltage bypass
PURPOSE
Mute time constant
LARGER THAN
SUGGESTION
SMALLER THAN
SUGGESTION
Larger mute on/off time
Smaller mute on/off time
Supply voltage bypass
Danger of oscillation
Worse SVR
Smaller mute on/off time
Danger of oscillation
TYPICAL CHARACTERISTICS:
Refer to the application circuit of fig.1A Tamb = 25°C; VS = 20V; RL = 8Ω; f = 1KHz; RS = 50Ω; unless otherwise specified.
Figure 3. Output Power vs Supply Voltage
POUT
(W)
16
D97AU559
Figure 4. Distortion vs Output Power
d
(%)
D97AU560
14
VS=28V
RL=8Ω
RL=8Ω
12
1
d=10%
10
f=15KHz
8
6
d=1%
f=1KHz
0.1
4
2
0
11
15
19
23
27
31
VS(V)
0.01
0
2
4
6
8
POUT(W)
5/10
TDA7495S
Figure 5. Output Power vs Supply Voltage
POUT
(W)
D97AU561
Figure 8. Mute Attenuation vs V pin #10
ATT
(dB)
D97AU566
14
0dB=1W
0
12
RL=4Ω
-20
10
8
-40
d=10%
6
-60
d=1%
4
-80
2
0
10
12
14
16
18
20
22
24 VS(V)
Figure 6. Distortion vs Output Power
d
(%)
D97AU562
VS=20V
RL=4Ω
-100
0
1
2
3
4 Vpin#10(V)
Figure 9. Power dissipation vs Output Power
PDISS
(W)
RL=2 x 8Ω
f=1KHz
10
1
D97AU567
VS=28V
8
f=15KHz
VS=24V
6
f=1KHz
0.1
VS=18V
4
VS=14V
2
0.01
0
2
4
6
Figure 7. Stand-by Attenuation vs Vpin #9
ATT
(dB)
0
POUT(W)
D97AU565
0.1
10 POUT(W)
Figure 10. Power dissipation vs Output Power
PDISS
(W)
0dB=1W
0
1
16
D97AU568
RL=2 x 4Ω
f=1KHz
VS=26V
-20
12
-40
VS=20V
-60
8
-80
4
-100
-120
0
6/10
1
2
3
4 Vpin#9(V)
0
0.1
1
10 POUT(W)
TDA7495S
MUTE STAND-BY TRUTH TABLE
MUTE
St-BY
OPERATING CONDITION
H
H
STAND-BY
L
H
STAND-BY
H
L
MUTE
L
L
PLAY
Turn ON/OFF Sequences (for optimizing the POP performances)
A) USING ONLY THE MUTE FUNCTION
VS (V)
28
ST-BY
pin#9 (V)
5
VSVR
pin#7(V)
2.5V
MUTE
pin#10 (V)
5
INPUT
(mV)
VOUT
(V)
OFF
STBY MUTE
PLAY
MUTE STBY
OFF
IQ
(mA)
D96AU531A
B) USING ONLY THE MUTE FUNCTION
To semplify the application, the stand-by pin can be connected directly to Ground. During the ON/OFF transitions is recommended to respect the following conditions:
– At the turn-on the transition mute to play must be made when the SVR pin is higher than 2.5V
– At the turn-off the TDA7495S must be brought to mute from the play condition when the SVR pin is
higher than 2.5V.
7/10
TDA7495S
Figure 11. PINS: INL, INR
Figure 14. PIN :MUTE
VS
VS
500µA
6K
MUTE
INn
200
10K
30K
50µA
D97AU589
SVR
D97AU592
Figure 12. PINS: PW-GND, S-GND
Figure 15. PINS: OUT R, OUT L
VS
VS
GND
D97AU593
Figure 13. PIN: STBY
OUT
VS
10µA
D97AU588
STBY
200
65K
D97AU594
Figure 16. PIN: SVR
VS
VS
VS
OUT L
+
-
20K
6K
1K
20K
6K
1K
30K
SVR
30K
+
100µA
D97AU585A
8/10
OUT R
TDA7495S
DIM.
mm
MIN.
TYP.
inch
MAX.
MIN.
TYP.
A5
MAX.
0.197
B
2.65
0.104
C
1.6
0.063
D
1
E
0.49
OUTLINE AND
MECHANICAL DATA
0.039
0.55
0.019
0.022
F
0.66
0.75
0.026
G
1.02
1.27
1.52
0.040
0.050
0.060
0.030
G1
17.53
17.78
18.03
0.690
0.700
0.710
H1
19.6
0.772
H2
20.2
0.795
L
21.9
22.2
22.5
0.862
0.874
0.886
L1
21.7
22.1
22.5
0.854
0.87
0.886
L2
17.65
18.1
0.695
L3
17.25
17.5
17.75
0.679
0.689
0.699
L4
10.3
10.7
10.9
0.406
0.421
0.429
0.191
0.713
L7
2.65
2.9
0.104
M
4.25
4.55
4.85
0.167
0.179
0.114
M1
4.73
5.08
5.43
0.186
0.200
S
1.9
2.6
0.075
0.102
S1
1.9
2.6
0.075
0.102
Dia1
3.65
3.85
0.144
0.152
0.214
Multiwatt15 (Vertical)
0016036 J
9/10
TDA7495S
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of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted
by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject
to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not
authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
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All other names are the property of their respective owners
© 2004 STMicroelectronics - All rights reserved
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