TDA7265
®
25 +25W STEREO AMPLIFIER WITH MUTE & ST-BY
WIDE SUPPLY VOLTAGE RANGE (UP TO
±25V ABS MAX.)
SPLIT SUPPLY
HIGH OUTPUT POWER
25 + 25W @ THD =10%, RL = 8Ω, VS = +20V
NO POP AT TURN-ON/OFF
MUTE (POP FREE)
STAND-BY FEATURE (LOW Iq)
SHORT CIRCUIT PROTECTION
THERMAL OVERLOAD PROTECTION
Multiwatt11
ORDERING NUMBER: TDA7265
DESCRIPTION
The TDA7265 is class AB dual Audio power amplifier assembled in the Multiwatt package, specially designed for high quality sound application
as Hi-Fi music centers and stereo TV sets.
Figure 1: Typical Application Circuit in Split Supply
+VS
15K
1000µF
1µF
MUTE/
ST-BY
IN (L)
7
+5V
+
4
OUT (L)
8
IN- (L)
-
1µF
15K
3
5
18K
GND
4.7Ω
18K
RL (L)
100nF
560Ω
9
µP
10
IN- (R)
560Ω
18K
1µF
IN (R)
11
-
2
+
1
6
-VS
OUT (R)
4.7Ω
RL (R)
100nF
1000µF
D94AU085
April 2002
1/11
TDA7265
ABSOLUTE MAXIMUM RATINGS
Symbol
Value
Unit
VS
DC Supply Voltage
Parameter
±25
V
IO
Ptot
Output Peak Current (internally limited)
Power Dissipation Tcase = 70°C
4.5
30
A
W
Top
Operating Temperature
-20 to 85
°C
-40 to +150
°C
Tstg, Tj
Storage and Junction Temperature
PIN CONNECTION (Top view)
11
IN+(1)
10
IN-(1)
9
GND
8
IN-(2)
7
IN+(2)
6
-VS
5
MUTE
4
OUTPUT(2)
3
+VS
2
OUTPUT(1)
1
-VS
TAB CONNECTED TO PIN 6
D95AU316
THERMAL DATA
Symbol
Description
Thermal Resistance Junction-case
Rth j-case
Value
Unit
2
°C/W
Max
Fig 2: Typical Application Circuit in Single Supply
+VS
D1 5.1V
R1
10K
R3
15K
C1
1µF
C5
1000µF
MUTE
PLAY
5V
0
MUTE
Q1
BSX33
R2
15K
C2
100µF
IN (L)
3
5
7
+
4
OUT (L)
8
IN- (L)
-
C3 1µF
9
C4 1µF
IN (R)
11
C6
0.1µF
C9 470µF
R4
30K
R5
1K
+
2
IN- (R)
R8
4.7Ω
C7
0.1µF
OUT
(L)
C10 470µF
10
1
6
GND
OUT (R)
R6
30K
R7
1K
R9
4.7Ω
C8
0.1µF
D96AU444A
2/11
OUT
(R)
TDA7265
ELECTRICAL CHARACTERISTICS (Refer to the test circuit, VS = + 20V; RL = 8Ω; RS = 50Ω;
GV = 30dB; f = 1KHz; Tamb = 25°C, unless otherwise specified.)
Symbol
Parameter
VS
Iq
Supply Range
VOS
Input Offset Voltage
Test Condition
Min.
Total Quiescent Current
Ib
Non Inverting Input Bias Current
PO
Music Output Power (*)
PO
Output Power
80
–20
THD = 10%; RL = 8Ω ;
VS = + 22.5V
THD = 10%
RL = 8Ω ;
VS + 16V; RL = 4Ω
20
THD = 1%
RL = 8Ω ;
VS + 16V; RL = 4Ω
THD
Total Harmonic Distortion
Typ.
+5
RL = 8Ω ; PO = 1W; f = 1KHz
Cross Talk
SR
GOL
eN
Ri
SVR
Tj
130
mA
+20
mV
32
W
25
25
W
W
20
20
W
W
0.01
%
0.7
%
1
%
0.02
dB
dB
Slew Rate
10
V/µs
Open Loop Voltage Gain
80
dB
Total Input Noise
f = 1KHz
f = 10KHz
%
70
60
A Curve
f = 20Hz to 22KHz
Input Resistance
Supply Voltage Rejection
(each channel)
15
fr = 100Hz
Mute Attenuation
20
µV
µV
KΩ
60
dB
145
°C
3
4
Vr = 0.5V
Thermal Shut-down
Junction Temperature
MUTE FUNCTION [ref: +VS]
Mute / Play Threshold
VTMUTE
AM
V
nA
RL = 4Ω ; VS + 16V;
PO = 0.1 to 12W;
f = 100Hz to 15KHz
CT
Unit
+25
500
RL = 8Ω ;
PO = 0.1 to 15W;
f = 100Hz to 15KHz
RL = 4Ω ; PO = 1W; f = 1KHz
Max.
-7
-6
60
70
-3.5
-2.5
8
-5
V
dB
STAND-BY FUNCTION [ref: +VS]
VTST-BY
Stand-by / Mute Threshold
AST-BY
Stand-by Attenuation
Iq ST-BY
Quiescent Current @ Stand-by
-1.5
V
110
dB
3
mA
Note :
(*) FULL POWER up to. VS = ±22.5V with RL = 8Ω and VS = ±16V with RL = 4Ω
MUSIC POWER is the maximal power which the amplifier is capable of producing across the rated load resistance (regardless of non linearity)
1 sec after the application of a sinusoidal input signal of frequency 1KHz.
3/11
TDA7265
Figure 3: Quiescent Current vs. Supply Voltage
Figure 4: Frequency Response
Figure 5: Output Power vs. Supply Voltage
Figure 6: T.H.D. vs. Output Power
Figure 7: Output Power vs. Supply Voltage
Figure 8: T.H.D. vs. Output Power
4/11
TDA7265
Figure 9: Quiescent Current vs. Pin # 5 Voltage
Figure 10: Attenuation vs. Pin # 5 Voltage
Figure 11: SVR vs. Frequency
Figure 12: Crosstalk vs. Frequency
Figure 13: Power Dissipaton vs. Output Power
Figure 14: Power Dissipaton vs. Output Power
5/11
TDA7265
- when Vpin5 is between +VS - 2.5V and +VS
- 6V the final stage current generators are
switched on and the amplifier is in mute
mode
- when Vpin5 is lower than +VS - 6V the amplifier is play mode.
MUTE STAND-BY FUNCTION
The pin 5 (MUTE/STAND-BY) controls the amplifier status by two different thresholds, referred to
+VS.
- When Vpin5 higher than = +VS - 2.5V the
amplifier is in Stand-by mode and the final
stage generators are off
Figure 15
+VS
(V)
20
t
-VS
-20
VIN
(mV)
Vpin5
(V)
VS
VS-2.5
VS-6
VS-10
Iq
(mA)
0
VOUT
(V)
OFF
PLAY
STDBY
PLAY
OFF
STDBY
STDBY
MUTE
6/11
D94AU086
MUTE
MUTE
MUTE
TDA7265
Figure 16: Test and Application Circuit (Stereo Configuration)
+VS
R2
C3
MUTE/
ST-BY
Q1
R1
IN (L)
SW1
ST-BY DZ
7
R3
+
4
OUT (L)
8
IN- (L)
-
GND
C5
3
5
C1
R4
C4
+VS
R5
R7
RL (L)
C8
R6
9
SW2
MUTE
10
R9
IN- (R)
R8
C2
IN (R)
11
-
2
OUT (R)
+
1
R10
6
-VS
C7
RL (R)
C9
C6
D94AU087B
Figure 17: PC Board and Components Layout of the figure 15 (1:1 scale)
7/11
TDA7265
APPLICATIONS SUGGESTION
(Demo Board Schematic)
The recommended values of the external compo-
nents are those shown are the demo board schematic different values can be used: the following
table can help the designer.
LARGER THAN
RECOMMENDED VALUE
SMALLER THAN
RECOMMENDED VALUE
COMPONENTS
RECOMMENDED
VALUE
R1
10KΩ
Mute Circuit
Increase of Dz
Biasing Current
R2
15KΩ
Mute Circuit
Vpin # 5 Shifted Downward
Vpin # 5 Shifted Upward
R3
18KΩ
Mute Circuit
Vpin # 5 Shifted Upward
Vpin # 5 Shifted Downward
R4
15KΩ
Mute Circuit
Vpin # 5 Shifted Upward
Vpin # 5 Shifted Downward
R5, R8
18KΩ
Increase of Gain
R6, R9
560Ω
Closed Loop Gain
Setting (*)
R7, R10
4.7Ω
Frequency Stability
Danger of Oscillations
C1, C2
1µF
Input DC
Decoupling
C3
1µF
St-By/Mute Time
Constant
C4, C6
1000µF
Supply Voltage
Bypass
Danger of Oscillations
C5, C7
0.1µF
Supply Voltage
Bypass
Danger of Oscillations
C8, C9
0.1µF
Frequency Stability
Dz
5.1V
Mute Circuit
Q1
BC107
Mute Circuit
PURPOSE
(*) Closed loop gain has to be => 25dB
MUTE, STAND-BY TRUTH TABLE
8/11
SW1
SW2
B
A
STAND-BY
B
B
STAND-BY
A
A
MUTE
A
B
PLAY
Decrease of Gain
Danger of Oscillations
Higher Low Frequency
Cutoff
Larger On/Off Time
Smaller On/Off Time
TDA7265
BRIDGE APPLICATION
Another application suggestion concerns the
BRIDGE configuration, where the two power amplifiers are connected as shown by the schematic
diagram of figure. 18.
This application shows, however, some operative
limits due to dissipation and current capability of
the output stage. For this reason, we reccomend
to use the TDA7265 in bridge with the supply voltage equal/lower than ±16V when the load is 8Ω;
with higher loads (i.e.16Ω), the amplifier can work
correctly in the whole supply voltage range.
The detected characteristics of T.H.D. vs Pout
and Frequency Response are shown in fig.19 and
fig.20.
With R1=8Ω, Vs=+/-16V the maximum output
power obtainable is 50W at T.D.H.=10%.
The quiescent current remains unchanged with
respect to the stereo configuration (~80mA as
typical at Vs=+/-16V).
The last point to take into consideration concerns
the short-circuit protection. As for the stereo application, the TDA7265 is fully protected against any
kind of short-circuit ( between Out/Gnd, Out/+Vs
and Out/-Vs).
Figure 18: Bridge Application Circuit
ST-BY/
MUTE
C3
0.1µF
C1
IN
5
7
3
+
R5 4.7Ω
4
-
1µF
R4
560Ω
10
1µF
C7
0.1µF
R2
560Ω
9
11
+VS
R1
36KΩ
8
C2
C4
1000µF
-
RL
C8
5.6nF
R3
36KΩ
2
+
1
R6
4.7Ω
6
-VS
D94AU190
Figure 19: Distortion vs. Output Power
C5
0.1µF
C6
1000µF
C9
0.1µF
Figure 20: Frequency Response of the Bridge Applications
9/11
TDA7265
mm
DIM.
MIN.
TYP.
inch
MAX.
MIN.
TYP.
MAX.
A
5
0.197
B
2.65
0.104
C
1.6
D
0.063
1
0.039
E
0.49
0.55
0.019
0.022
F
0.88
0.95
0.035
0.037
G
1.45
1.7
1.95
0.057
0.067
0.077
G1
16.75
17
17.25
0.659
0.669
0.679
H1
19.6
0.862
0.874
0.886
22.5
0.854
0.87
0.886
18.1
0.685
0.772
H2
20.2
22.5
0.795
L
21.9
22.2
L1
21.7
22.1
L2
17.4
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
0.713
L7
2.65
2.9
0.104
M
4.25
4.55
4.85
0.167
0.179
0.191
M1
4.73
5.08
5.43
0.186
0.200
0.214
0.114
S
1.9
2.6
0.075
S1
1.9
2.6
0.075
0.102
Dia1
3.65
3.85
0.144
0.152
10/11
OUTLINE AND
MECHANICAL DATA
0.102
Multiwatt11 V
TDA7265
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences
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. Specification 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.
The ST logo is a registered trademark of STMicroelectronics
2002 STMicroelectronics – Printed in Italy – All Rights Reserved
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11/11
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