TDA2004-J11-T [UTC]
10+10W STEREO AMPLIFIER FOR CAR RADIO; 10 + 10W立体声功放汽车收音机型号: | TDA2004-J11-T |
厂家: | Unisonic Technologies |
描述: | 10+10W STEREO AMPLIFIER FOR CAR RADIO |
文件: | 总8页 (文件大小:85K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
UNISONIC TECHNOLOGIES CO.,LTD
TDA2004
LINEAR INTEGRATED CIRCUIT
10+10W STEREO AMPLIFIER
FOR CAR RADIO
ꢀ
DESCRIPTION
The UTC TDA2004 is a class B dual audio power amplifier
and is designed for car radio applications.
HZIP-11
ꢀ
FEATURES
* Low distortion.
* Low noise.
HSIP-14
*Pb-free plating product number: TDA2004L
ꢀ
PIN DESCRIPTION
PIN NO.
PIN NAME
INPUT+ (1)
HZIP-11 HSIP-14*
1
2
1
2
INPUT- (1)
SVRR
3
3
4
4
INPUT- (2)
INPUT+ (2)
GND
5
5
6
6
7
10
11
12
13
14
BOOTSTRAP 2
OUTPUT 2
+VS
8
9
10
11
OUTPUT 1
BOOTSTRAP 1
* PIN 7, 8, 9 no connection.
ꢀ ORDERING INFORMATION
Ordering Number
Package
Packing
Normal
TDA2004-J11-T
Lead Free Plating
TDA2004L-J11-T
HZIP-11
HSIP-14
Tube
Tube
TDA2004-H14-T TDA2004L-H14-T
www.unisonic.com.tw
1
Copyright © 2005 Unisonic Technologies Co.,LTD
QW-R107-034,A
TDA2004
LINEAR INTEGRATED CIRCUIT
ꢀ
PIN CONFIGURATION
HZIP-11
11
10
9
BOOTSTRAP 1
OUTPUT 1
+VS
OUTPUT 2
BOOTSTRAP 2
GND
8
7
6
5
INPUT+ (2)
INPUT- (2)
SVRR
4
3
2
INPUT- (1)
INPUT+ (1)
1
*TAB CONNECTED TO PIN 6
HSIP-14
14 BOOTSTRAP 1
13 OUTPUT 1
12
+VS
11 OUTPUT 2
10 BOOTSTRAP 2
9
8
7
6
5
4
3
2
1
NC
NC
UTC TDA2004
NC
GND
INPUT+ (2)
INPUT- (2)
SVRR
INPUT- (1)
INPUT+ (1)
UNISONIC TECHNOLOGIES CO., LTD
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QW-R107-034,A
TDA2004
LINEAR INTEGRATED CIRCUIT
ꢀ
ABSOLUTE MAXIMUM RATINGS
PARAMETER
Opearting Supply Voltage
SYMBOL
Vss
Vss
Vss
Io*
RATINGS
18
UNIT
V
DC Supply Voltage
28
V
Peak Supply Voltage (for 50ms)
40
V
non repetitive t=0.1ms
repetitive f ≥10Hz
4.5
A
Output Peak Current
Io*
3.5
A
Power Dissipation at Tc=60℃
Junction Temperature
PD
30
W
℃
℃
TJ
+125
-40 ~ 150
Storage Temperature
TSTG
* The max. output current is internally limited.
ꢀ
THERMAL DATA
PARAMETER
Thermal Resistance Junction-Case
SYMBOL
θJC
RATINGS
3.0
UNIT
℃/W
ꢀ
ELECTRICAL CHARACTERISTICS
(Refer to the test circuit, Ta=25℃, Gv=50Db, Rth(heatsink)=4℃/W, unless otherwise specified.)
PARAMETER
Supply Voltage
SYMBOL
Vss
TEST CONDITONS
MIN
8
TYP
MAX UNIT
18
7.8
7.2
120
120
V
Vss=14.4V
6.6
6.0
7.2
6.6
65
62
5
Quiescent Output Voltage
VOUT
V
Vss=13.2V
Vss=14.4V
Vss=13.2V
Pin 3 grounded
Total Quiescent Drain Current
Stand-by Current
ID
mA
mA
ISTAY-B
Vss=14.4V
RL=4Ω
RL=3.2Ω
RL=2Ω
6
7
9
6.5
8
10*
11
W
Output Power (each channel)
f=1KHz, THD=10%
RL=1.6Ω
POUT
10
Vss=13.2V
RL=3.2Ω
RL=1.6Ω
6
9
6.5
10
12
W
Vss=16V, RL=2Ω
Vss=14.4V, RL=4Ω
POUT=50mW ~ 4W
Vss=14.4V, RL=2Ω
W
%
0.2
0.3
0.2
0.3
1
1
1
1
%
%
%
Total Harmonic Distortion
(each channel) f=1KHz
POUT=50mW ~ 6W
Vss=13.2V, RL=3.2Ω
THD
POUT=50mW ~ 3W
Vs=13.2V, RL=1.6Ω
POUT=50mW ~ 6W
Vss=14.4V
VOUT=4Vrms, RL=4Ω
Cross Talk
CT
f=1KHz
50
40
60
45
dB
dB
f=10kHz, RG=5KΩ
Input Saturation Voltage
VIN
RIN
300
70
mV
kΩ
Input Resistance (non inverting input)
f=1kHz
200
RL=4Ω
RL=2Ω
RL=3.2Ω
RL=1.6Ω
RL=1.6Ω ~ 4Ω
35
50
40
55
Hz
Low Frequency Roll Off (-3dB)
fL
High Frequency Roll Off (-3dB)
fH
15
kHz
3
UNISONIC TECHNOLOGIES CO., LTD
www.unisonic.com.tw
QW-R107-034,A
TDA2004
LINEAR INTEGRATED CIRCUIT
PARAMETER
SYMBOL
GV
TEST CONDITONS
f=1kHz
MIN
TYP
90
MAX UNIT
dB
Voltage Gain (open loop)
Voltage Gain (closed loop)
Closed Loop Gain Matching
Total Input Noise Voltage
f=1KHz
48
50
51
dB
dB
μV
0.5
1.5
RG=10kΩ**
eN
5
fRIPPLE=100Hz, RG=10kΩ
C3=10μF, VRIPPLE=0.5Vrms
Supply Voltage Rejection
SVR
35
45
dB
Vss=14.4V, f=1kHz
RL=4Ω, Po=6.5W
RL=2Ω, Po=10W
70
60
%
%
η
Efficiency
Vss=13.2V, f=1kHz
RL=3.2Ω, Po=6.5W
RL=1.6Ω, Po=10W
70
60
%
%
Thermal Shut-down Junction
Temperature
℃
TJ
145
Notes: * 9.3W without Bootstrap
** Bandwith Filter: 22Hz ~ 22KHz.
UNISONIC TECHNOLOGIES CO., LTD
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QW-R107-034,A
TDA2004
LINEAR INTEGRATED CIRCUIT
ꢀ
TEST AND APPLICATION CIRCUIT
+Vs
C12
0.1μF
R1
120KΩ
C3
10μF
9
3
100μF/10V
7
C1
2.2μF
INPUT(L)
C10
2200μF/ 10V
5
+ 1/2
TDA2004
-
C4
8
C8
0.1μF
R2
1.2KΩ
C5
220μF/3V
4
RL
R3
R6
1Ω
3.3Ω
C6
100μF/10V
11
C2
2.2μF
INPUT(R)
cn
1
2200μF/ 10V
+ 1/2
TDA2004
10
-
R4
C9
0.1μF
C7
220μF/
3V 1.2KΩ
2
RL
6
R5
3.3Ω
R7
1Ω
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QW-R107-034,A
TDA2004
LINEAR INTEGRATED CIRCUIT
ꢀ
TYPICAL CHARACTORISTICS
Figure 1. Quiescent Output Voltage vs.
Supply Voltage
Figure 2. Quiescent Drain Current vs.
Supply Voltage
120
10
8
100
80
7
60
6
5
40
20
4
18
8
10
12
14
Vs (V)
16
0
8
10
12
14
Vs (V)
16
18
Figure 3. Distortion vs. Output Power
Figure 4. Output Power vs. Supply Voltage
10
18
15
12
f=1KHz
Gv=50dB
THD=10%
f=1KHz
Gv=50dB
Vs=13.2V, R
L
=3.2Ω
8
6
Vs=14.4V, R
L=4Ω
RL = 2Ω
Vs=13.2V, R
L
=16Ω
=2Ω
9
6
Vs=14.4V, R
L
R
L
= 4Ω
4
2
0
3
0
0.01
18
0.1
1
8
10
12
14
16
PoUT (W)
Vs (V)
Figure 6. Distortion vs Frequency
Figure 5. Output Power vs. SupplyVoltage
18
2.0
1.6
1.2
f=1KHz
Gv=50dB
THD=10%
Vs=14.4V
Gv=50dB
15
12
RL = 1.6Ω
9
6
R
L
= 3.2Ω
PoUT=2.5W
= 2Ω
0.8
0.4
R
L
3
0
PoUT=2.5W
= 4Ω
R
L
5
10
102
10 3
10 4
10
8
10
12
14
16
18
Vs (V)
f (Hz)
UNISONIC TECHNOLOGIES CO., LTD
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QW-R107-034,A
TDA2004
LINEAR INTEGRATED CIRCUIT
ꢀ
TYPICAL CHARACTORISTICS (cont.)
Figure 8. Supply Voltage Rejection vs C3
Vs=14.4V
Figure 7. Distortion vs Frequency
Vs=13.2V
0
10
20
2.0
Gv=50dB
t
RIPPLE =100Hz
V
RIPPLE=0.5V
1.6
1.2
Gv=50dB
R
G=10KΩ
Po=2.5W
=1.6Ω
R
L
30
40
50
60
70
0.8
0.4
Po=2.5W
=3.2Ω
R
L
10 5
102
103
10 4
1
3
10
30
10
f (Hz)
C3 (μ F)
Figure 10. Supply Voltage Rejection vs.
Values of Capacitors C2 and C3
Figure 9. Supply Voltage Rejection vs.
Frequency.
Vs=14.4V
Vs=14.4V
RL
=4Ω
70
50
R
L
=00
Gv=50dB
=10μF
R
G=10KΩ
C2=220μF
GV=390/1Ω
C
3
tRIPPLE=100Hz
60
50
RG=0
C2=22μF
40
30
40
R
G=10KΩ
C2
=5μF
20
30
20
102
103
104
1
2
5
10
C3 (μF)
20
1
f (Hz)
Figure 11. Supply Voltage Rejection vs.
Values of Capacitors C2 and C3
Figure 12. Gain vs. Input Sensitivity
Vs=14.4V
Vs=14.4V
f=1KHz
=4Ω
60
50
R
L=4Ω
C2=220μF
R
G=10KΩ
RL
54
50
500
Gy=1000/10Ω
RIPPLE =100Hz
t
C2=22μF
46
42
200
100
50
C2=5μF
Po=6W
40
30
20
38
34
30
Po=0.5W
20
26
22
2
2
4
6 8
4
6 8
1
2
5
10
20
10
30
100
VIN (mV)
300
C3 (μ F)
UNISONIC TECHNOLOGIES CO., LTD
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QW-R107-034,A
TDA2004
LINEAR INTEGRATED CIRCUIT
ꢀ
TYPICAL CHARACTORISTICS (cont.)
Figure 13. Maximum Allowable Power Dissipation
Figure 14. Total Power Dissipation and
Efficiency vs. Output Power
vs. Ambient Temperature
40
16
36
32
14
12
60
I
N
F
28
R
I
N
t
10
8
h=
PD
I
T
E
24
20
16
12
2
R
℃
t
h
H
/W
=
η
4
E
A
40
20
℃
/
W
T
S
R
t
h
=
8
I
N
℃
Vs=14.4V
=4Ω
f=1KHz
/
W
K
6
4
RL
Gv=50dB
8
4
0
2
50
Ta (℃)
100
4
8
12 16 20 24
PoUT (W)
-50
0
28 32
Figure 15. Total Power Dissipation and
Efficiency vs. Output Power
8
6
4
80
60
40
P
D
η
Vs=13.2V
=3.2Ω
R
L
f=1KHz
Gv=50dB
2
20
8
14 16
2
4
6
10 12
PoUT (W)
UTC assumes no responsibility for equipment failures that result from using products at values that
exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or
other parameters) listed in products specifications of any and all UTC products described or contained
herein. UTC products are not designed for use in life support appliances, devices or systems where
malfunction of these products can be reasonably expected to result in personal injury. Reproduction in
whole or in part is prohibited without the prior written consent of the copyright owner. The information
presented in this document does not form part of any quotation or contract, is believed to be accurate
and reliable and may be changed without notice.
UNISONIC TECHNOLOGIES CO., LTD
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QW-R107-034,A
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