TDA2030 general description:
Although there are a number of hybrid output modules on the market, very few of them combine compactness with reasonable price and good performance. One of these few is SGS's used in the present amplifier. The design of the amplifier is straightforward: a power op-amp followed by two output transistors. The audio signal is applied to the non-inverting input of power op-amp IC1 TDA2030 via socket K1 and capacitor C1. The supply current to the IC varies in accordance with the input signal. Consequently, there will be a similarly varying voltage drop across resistors R6, R7, R8, and R9 since these are in the supply lines to the op-amp. As long as the current is lower than about 1A, the voltage drop across the resistors will be insufficient to switch on transistors T1 and T2. This means that outputs up to 2 W into 4 ohm are provided entirely by the op-amp. Once the output current exceeds a level of 1A, the transistors are on and contribute to the power output.
When the Input signal is small, there no quiescent current through the transistor, but there is through the op-amp. Crossover problems are thus obviated. Since the IC also provides thermal compensation, stability of the operating point is ensured.
The supply voltage may lie between 12 V and an absolute maximum of 44 V. Construction of the amplifier on the printed-circuit board should be straightforward. The transistors as well as the IC must be fitted insulated on to a heat sink of about 2 k W. Use plenty of heat conducting paste. The supply line should be protected by a 3.15 A fuse. You can use BD911, BD912 for T1 and T2.
TDA2030 Technical Data:
- Supply voltage - 44 V
- Maximum output - 22 W into 8 Ohm
- Maximum output - 44 W into 4 Ohm
TDA2030 Circuit diagram:
TDA2030 circuit diagram
TDA2030 pcb layout:
 |
| TDA2030 pcb and layout |
TDA2030 parts list:
Resistors:
- R1-R4 - 100 KOhm
- R5 - 8.2 KOhm
- R6 - R9 - 1.4 Ohm, 1%
- R10 - 1 Ohm
Capacitors:
- C1 - 470 nF
- C2 - 10 uF, 63 V, radial
- C3 - 4.7uF, 63 V, radial
- C4,C5,C7 - 220 nF
- C6 - 2200 uF, 50 V, radial
- C8 - 100 uF, 50 V, radial
Semiconductors:
- D1, D2 - 1N4001
- T1 - BD712
- T2 - BD711
- IC1 - TDA2030
Datasheet for TDA2030: Download
tda2030 circuit,
value of R1, R2, R3 and R4????????????
ReplyDeleteSorry, added R1-R4 - 100 KOhm, but you can see tje value on the circuit :)...
DeleteR1, R2 It is better to use a nominal value of 10 - 20 kOhm, otherwise the charging time of the capacitor C2 will be too long!
DeleteSorry R2 and R3 10 - 20 k
Deletein place of bd711/bd712, you can use tip41C/TIP42C, they have slightly lower elect. char. though
ReplyDelete-44 supply? i don't get it. i think it will destroy the IC. because as far as i know maximum supply for tda 2030 is -+25V. So pls post here how this circuit works.
ReplyDeletetda2030 : max +- 18 or one supply + 36 v and GND , 44v its for the Atda2030 who is capable of 44 v or +- 22 .
DeleteThank you so much for sharing this datasheet to us, and I also find all kinds of pdf on the electronic components online shop, I hope it will help you.
ReplyDeleteI admire this article for the well-researched content and excellent wording. I got so involved in this material that I couldn’t stop reading. I am impressed with your work and skill. Thank you so much and if anyone want Final Touch Audio Cables then visit dsgdistro.com
ReplyDeleteTritanium Dartâ„¢ 3D Tits - Titanium Arts
ReplyDeleteTritanium darts have suppliers of metal been tested at all titanium sheet types of titanium ion color dart types and are 100% safe. Tritanium darts are titanium muzzle brake made by Tritanium and titanium charge