UNISONIC TECHNOLOGIES CO., LTD
TDA2050 LINEAR INTEGRATED CIRCUIT
www.unisonic.com.tw 1
Copyright © 2005 Unisonic Technologies Co., LTD QW-R107-036,A
32W HI-FI AUDIO POWER
AMPLIFIER
DESCRIPTION
The UTC TDA2050 is a monolithic integrated circuit with high
power capability and is designed to use as an class AB audio
amplifier. It can deliver typically 50W music power into 4Ω load
over 1 sec at VS=22.5V, f = 1KHz.
The device is most suitable for both Hi-Fi and high class TV sets
on the strength of its high supply voltage and very low harmonic and
crossover distortion.
FEATURES
* High output power (50W Music Power IEC 268.3 Rules)
* High operating supply voltage (50V)
* Single or split supply operations
* Very low distortion
* Short circuit protection (OUT to GND)
* Thermal shutdown
TO-220B
1
*Pb-free plating product number: TDA2050L
ORDERING INFORMATION
Ordering Number
Normal Lead Free Plating Package Packing
TDA2050-TB5-T TDA2050L-TB5-T TO-220B Tube
PIN CONFIGURATION
*TAB CONNECTED TO PIN 3
5
4
3
2
1
OUTPUT
+V
S
-V
S
INVERTING INPUT
NON INVERTING INPUT
TDA2050 LINEAR INTEGRATED CIRCUIT
UNISONIC TECHNOLOGIES CO., LTD 2
www.unisonic.com.tw QW-R107-036,A
BLOCK DIAGRAM
21
3
4
5
SHORT
CIRC.
PROTECT.
SHORT
CIRC.
PROTECT.
V
REF
TDA2050 LINEAR INTEGRATED CIRCUIT
UNISONIC TECHNOLOGIES CO., LTD 3
www.unisonic.com.tw QW-R107-036,A
ABSOLUTE MAXIMUM RATINGS
PARAMETER SYMBOL RATINGS UNIT
Supply Voltage VS ±25 V
Input Voltage VIN V
S
Differential Input Voltage VIN(DIFF) ±15 ℃
Output Peak Current (internally limited) IOUT 5 ℃
Power Dissipation TC= 75℃ PD 25 W
Junction Temperature TJ +125 ℃
Storage Temperature TSTG -40 ~ +150 ℃
Note:1.Absolute maximum ratings are those values beyond which the device could be permanently damaged.
Absolute maximum ratings are stress ratings only and functional device operation is not implied.
2.The device is guaranteed to meet performance specification within 0℃~70℃ operating temperature range
and assured by design from –40℃~85℃.
THERMAL DATA
PARAMETER SYMBOL RATINGS UNIT
Thermal Resistance junction-case θJC 3 ℃/W
ELECTRICAL CHARACTERISTICS
(Refer to the Test Circuit, VS = ±18V, Ta = 25℃, f = 1 kHz, unless otherwise specified.)
PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNIT
Supply Voltage VS ±4.5 ±25 V
Quiescent Drain Current ID VS = ±4.5V
VS = ±25V 18
21
50
90 mA
Input Bias Current IB VS = ±22V 0.4 0.5 µA
Input Offset Voltage VIN(OS) VS = ±22V ±15 mV
Input Offset Current IIN(OS) VS = ±22V ±200 nA
D = 0.5%
RL = 4Ω
RL = 8Ω
RL = 8Ω, VS = ±22V
24
22
27
18
25
RMS Output Power
D = 10%
RL = 4Ω
RL = 8Ω
RL = 8Ω, VS = ±22V
35
22
32
Music Power IEC268.3 RULES
PO
D = 10%, T = 1s, VS = ±22.5V, RL = 4Ω 50
W
RL = 4Ω
f = 1kHz, PO = 0.1 ~ 24W
f = 100Hz ~ 10kHz, PO = 0.1 ~ 18W
0.03
0.5
0.5
Total Harmonic Distortion THD RL = 8Ω, VS = ±22V
f = 1kHz, PO = 0.1 ~ 20W
f = 100Hz ~ 10kHz, PO = 0.1 ~ 15W
0.02
0.5
%
Slew Rate SR 5 8 V/µs
Open Loop Voltage Gain GV 80 dB
Closed Loop Voltage Gain GV 30 30.5 31 dB
Power Bandwidth (-3dB) BW RL = 4Ω, VIN= 200mV 20 ~ 80000 Hz
Total Input Noise eN Curve A
B = 22Hz ~ 22kHz 4
5
10 µV
Input Resistance (pin 1) RIN 500 kΩ
Supply Voltage Rejection SVR RS = 22KΩ, f =100Hz, VRIPPLE =0.5Vrms 45 dB
PO = 28W, RL = 4Ω 65
Efficiency η PO = 25W, RL = 8Ω, VS = ±22V 67 %
TDA2050 LINEAR INTEGRATED CIRCUIT
UNISONIC TECHNOLOGIES CO., LTD 4
www.unisonic.com.tw QW-R107-036,A
TYPICAL APPLICATION CIRCUIT
FOR SPLIT SUPPLY APPLICATION SUGGESTIONS
+
-
-V
S
R
L
R4
2.2Ω
C7
0.47μF
C3
100nF
C5
220μF
+V
S
R3
22kΩ
3
4
2
C4
100nF
C6
220μF
C2
22μF
R2
680Ω
1
C1
22μF
R1
22kΩ
5
UTC
TDA2050
V
IN
Figure.1 Split Supply Typical Application Circuit
The following table demonstrates the recommended values of the external components are those shown
on above circuit. Different values can be used.
RECOMMENDED VALUE
COMPONENT PURPOSE TYPICAL LARGER SMALLER
R1 Input Impedance 22kΩ Increase of Input Impedance Decrease of Input
Impedance
R2 Feedback Resistor 680Ω Decrease of Gain* Increase of Gain
R3 22kΩ Increase of Gain Decrease of Gain*
R4 Frequency Stability 2.2Ω Danger of Oscillations
C1 Input Decoupling DC 1µF Higher Low-frequency cut-off
C2 Inverting Input DC
Decoupling 22µF Increase of Switch ON/OFF
Noise Higher Low-frequency cut-off
C3, C4 Supply Voltage Bypass 100nF Danger of Oscillations
C5, C6 Supply Voltage Bypass 220µF Danger of Oscillations
C7 Frequency Stability 0.47µF Danger of Oscillations
* The gain must be higher than 24dB
TDA2050 LINEAR INTEGRATED CIRCUIT
UNISONIC TECHNOLOGIES CO., LTD 5
www.unisonic.com.tw QW-R107-036,A
TYPICAL APPLICATION CIRCUIT(CONT.)
FOR SINGLE SUPPLY APPLICATION SUGGESTIONS
+
-
R
L
R6
2.2Ω
C6
0.47μF
C5
100nF
C3
1000μF
+V
S
R5
22kΩ
3
4
2
C4
22μF
R4
680Ω
1
C1
2.2μF
R3
22kΩ
5
UTC
TDA2050
IN
C7
1000μF
R2
22kΩ
C2
1000μF
R1
22kΩ
Figure.2 Single Supply Typical Application Circuit
The following table demonstrates the recommended values of the external components are those shown
on above circuit. Different values can be used.
RECOMMENDED VALUE
COMPONENT PURPOSE TYPICAL LARGER SMALLER
R1, R2, R3 Biasing Resistor 22kΩ
R4 Feedback Resistor 22kΩ Increase of Gain Decrease of Gain*
R5 680Ω Decrease of Gain* Increase of Gain
R6 Frequency Stability 2.2Ω Danger of Oscillations
C1 Input Decoupling DC 2.2µF Higher Low-frequency cut-off
C2 Supply Voltage
Rejection 100µF Worse Turn-off Transient
Worse Turn-on Delay
C3 Supply Voltage Bypass 1000µF Danger of Oscillations
Worse of Turn-off Transient
C4 Inverting Input DC
Decoupling 22µF Increase of Switch ON/OFF Higher Low-frequency cut-off
C5 Supply Voltage Bypass 100nF Danger of Oscillations
C6 Frequency Stability 0.47µF Danger of Oscillations
C7 Output DC Decoupling 1000µF Higher Low-frequency cut-off
* The gain must be higher than 24dB
NOTE: If the supply voltage is lower than 40V and the load is 8Ω(or more), a lower value of C2(i.e. 22µF) can be
used. C7 can be larger than 1000µF only if the supply voltage does not exceed 40V.
TDA2050 LINEAR INTEGRATED CIRCUIT
UNISONIC TECHNOLOGIES CO., LTD 6
www.unisonic.com.tw QW-R107-036,A
TYPICAL CHARACTERISTICS (Split Supply Test Circuit, unless otherwise specified)
+
P
O
(W)
10 20
V
S
(V)
2550
15
20
25
30
15
R
L
= 8Ω
f = 1kHz
THD = 10%
10
5
0
Output Power vs. Supply Voltage
THD = 0.5%
P
O
(W)
10 20
V
S
(V)
2550
15
20
25
30
15
R
L
= 4Ω
f = 1kHz
THD= 10%
10
5
0
Output Power vs. Supply Voltage
THD= 0.5%
I
D
(mA)
10 20
V
S
(V)
2550
35
40
45
50
15
R
L
= 4Ω
30
25
20
Quiescent Current vs. Supply Voltage
P
D
(W)
10 20
P
O
(W)
2550
15
20
25
30
15
10
5
0
Total Power Dissipation and Efficiency
vs. Output Power
55
P
D
V
S
= 18V
R
L
= 4Ω
f = 1kHz
m
m (%)
35
30 35
30
40
50
60
20
10
0
70
80
P
D
(W)
10 20
P
O
(W)
2550
12
16
20
24
15
8
4
0
Total Power Dissipation and Efficiency
vs. Output Power
P
D
V
S
= 22V
R
L
= 8Ω
f = 1kHz
m
m (%)
28
30 35
30
40
50
60
20
10
0
70
80
35
40
40
30
4030
60
30
35
40
TDA2050 LINEAR INTEGRATED CIRCUIT
UNISONIC TECHNOLOGIES CO., LTD 7
www.unisonic.com.tw QW-R107-036,A
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.
