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NOS DAC with ten TDA1543 circuits




DAC with TDA1543 works great. His parameters are not perfect, but some people on the internet discovered, that parallel interconnection of more circuits give better parameters of output. Circuit is almost identical to DAC with single circuit TDA1543.

Circuit description

In supply section after bridge rectifier and smoothing capacitor is used common voltage regulator LM317, which has with R1 and R2 adjusted output voltage about 8V. Supply line goes through inductor to DAC chip for theoretically lower HF interference which goes on the power lines.

DACs have current outputs which are converted to the voltage outputs with the aid of resistors R4 and R5. Sometimes is used circuit with operational amplifiers combined with low-pass filter which is much complicated and can introduce distortion in to the sound. Low-pass filter which is used for removing sampling frequency unfortunately introduce distortion on high frequencies. Sound is then more flat. Because DAC doesn't have symmetrical power supply, that we must use capacitors in series with the outputs. It's desirable to use high quality capacitors with sufficient capacity. It's not recommended to use electrolytic capacitor. I used foil capacitors with 10uF value which are connected between outputs and output connector. They are placed out of board and they are not drawed in a schematics diagram. Output must not be too much loaded and should be connected to input of preamplifier or power amplifier with input impedance at least 10 kiloohms.

It's possible to have separated supply for DAC from independent winding of power transformer for better isolation between S/PDIF decoder and dac with changing voltage. Voltage regulator and DACs must be cooled with a small heatsink! Transformer must be dimensed for current 0.5A.

Schematics diagram

Schematics of DAC with TDA1543 schematics in Eagle 5 format


We are placing components on board from smaller to bigger. We begin with SMD components and next with normal parts. We must mount small heat-sink on the DACs otherwise they overheats and can burns (my own experience). I attached heatsink with two small springs hooked to four pins soldered to the board. For I2S connector we can use jumper ribbon with pins or sockets. It depends on that how we want to mechanically connect DAC with S/PDIF decoder together. I used on both sides pins and for board conection I soldered two sets of 6pin sockets together.

Component view

Component view with ten TDA1543 based DAC

Printed circuit board

Printed circuit board is designed with only one side and one wire. It allows to create him in amateur conditions. SMD components are placed from a bottom side and components with terminals and connectors are mounted from top side. There are holes for heat-sink fixing and for mounting board with screws.

Printed circuit board for ten TDA1543 DAC PDF format Eagle5 format


We must set the right data format with jumpers on a S/PDIF decoder board. Circuit TDA1543 use I2S data format. Circuit TDA1543A use 24-bit right-justified data format.

Photo gallery

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Part list
Name Value and type quantity
R1 1k2 SMD0805 1x
R2 220R SMD0805 1x
R3 150R 1x
R4-R5 220R 2x
C1 4700uF/25V electrolytic 1x
C2-C3 47uF/10V SMD tantal size C 2x
C4 10uF/10V SMD tantal size B 2x
C5-C18 100nF SMD0805 ceramic 5x
Cext 10uF foil 2x
IC1 LM317T 1x
IC2-IC11 TDA1543(A) 10x
J1 Molex 3pin 1x
L1 47uH axial 1x
D1 Diode 1N4007SMD MELF 1x
B1 Bridge rectifier 1.5A/100V 1x
SV1 Jumper ribbon 6 pins 1x
X1 Frame terminal AK300/2 1x



Circuit diagram of this DAC is very simple and with careful work and right setting of S/PDIF decoder it must works on the first switch-on. Don't forget connect outputs over capacitors Cext. This DAC is enhanced variant of TDA1543 based DAC. In comparison with him he has stronger and better output.