SU1276692A1 - Apparatus for power supply of electroplating baths controlled by asymmetrical current - Google Patents

Abstract

The invention relates to equipment for electroplating and can be used to supply electroplating baths with asymmetric current in the electrolytic deposition of coatings on double-sided flat parts. The purpose of the invention is to provide uniform coating buildup and optimize the deposition process. The device contains a power transformer 1, the secondary winding of which includes thyristors 2, 3, a thyristor control system, including generators 4, 5 of sawtooth voltage, amplitude r 6 and 7, generators 8, 9 of control pulses, program blocks 10, 11, triacs 12, 13, triac control system. including the generators 14, 15 control pulses and the counting trigger 16. The input of the trigger 16 is connected to one of the terminals of the secondary winding of the transformer 1, and the outputs are connected to software blocks 10, 11 and connected to the control electrodes of the generators 14, 15 of the control pulses 12. 13. Ensuring the uniform build-up of the coating on two-sided flat parts and optimization (L of the deposition process is achieved by introducing into the device of triacs and their control system. 3 ill. O5 05 SO

Description

The invention relates to equipment for electroplating and can be used to supply electroplating baths with asymmetric current of industrial frequency in the processes of electrolytic deposition of coatings on double-sided flat parts, in particular on double-sided and multilayer printed layers. The purpose of the invention is to ensure uniform build-up of the coating on double-sided flat parts and to optimize the deposition process. FIG. 1 shows a block diagram of the device; in fig. 2 and 3 - stress diagrams. A device for supplying electroplating baths with asymmetric adjustable current contains a power transformer 1, the secondary winding of which includes thyristors 2 and 3, a thyristor control system including generators 4 and 5 of sawtooth voltage, amplifiers 6 and 7, control generators 8 and 9, software blocks 10 and 11, which are controlled voltage dividers, triacs 12 and 13, a triac control system, including control pulse generators 14 and 15, counting trigger 16. In the first period, a positive voltage and from the power transformer 1 is fed to the input of the generator 4 of the sawtooth voltage and to the input of the counting trigger 16. The trigger 16 forms a control pulse 1/2 with a duration equal to the period of the mains voltage T 20 ms, for example, on the left output, which is supplied On the control pulse generator 14 and the program blocks 10 and 11, the control pulse generator 14 forms a packet of pulses opening the triac 13 for a time equal to the period of the mains voltage. The software unit 10 in this case forms a voltage (US m. 1.1, which is fed to the input of the amplifier 6, to the second input of which a signal is received (U 4 from the sawtooth voltage generator 4. When the sawtooth signal and 4 exceeds the constant voltage LC.M 1.1, at the output of amplifier 6, a voltage L / 6 is sufficient to start the control pulse generator 3. The voltage Ug from the control pulse generator is applied to the control electrode of the thyristor 2, and the thyristor is also opened on the load connected between the terminals K (cathode) and AS (anode), according to voltage f / ia. In the negative half-period voltage and is fed to the input of the generator 5 sawtooth voltage, the signal Us from which is fed to the input of the amplifier 7. At the same time, the second input of the program block 11 receives a constant voltage Uc.a 2.1. When the ramp signal / 5 exceeds the constant voltage (Usm. 2.1, the output of the amplifier 7 is voltage UT sufficient to start the generator. 9 control pulses. The voltage Ug from the generator 9 of the control pulses is applied to the control electrode of the thyristor 3, and the thyristor opens in the voltage applied between the output terminals K and A2, and the voltage UC.M. 1.1 and Uc .. 2.1, it is possible to regulate the values of the reverse and forward currents flowing in the load included between the terminals K and Hell independently of each other. In the second period of the mains voltage, the counting trigger 16 is thrown into the opposite state and generates a control pulse Us with a duration of T 20 ms at the right output, which is fed to the generator of control pulses 15 and program blocks 10 and 11. The generator is controlled; 15 forms a batch of pulses bp opening the triac 12 for a time equal to the period of the mains voltage. The software block 10 in this case generates the voltage BS.ch 1.2, which enters the input of the amplifier 6, the second input of which receives the signal Un from the generator 4, formed by the positive half-period of the mains voltage. When ramp 4 exceeds constant voltage t / c.v. 1.2, at the output of amplifier 6, Vits voltage 6b triggers a trigger pulse generator 8. Voltage U & from generator 8 opens thyristor 2 and voltage U appears on the load connected between terminals K and AB. In negative half-period, a sawtooth voltage Us is generated by generator 5, which is fed to the input of amplifier 7. At the second input of amplifier 7, unit 11 receives a constant voltage US m. 2.2. When the t / s ramp exceeds the constant voltage Usm. 2.2, at the output of amplifier 7, Vits voltage Uj, which triggers generator 9. Voltage (Ud opens thyristor 3 and, at the load connected between terminals K and AI, Vts voltage, U -o, changed voltage value Usi. 1.2 and t / cM 2.2, it is possible to regulate the magnitude of the reverse and forward currents flowing in the load connected between the terminals K and A |, independently of one another. Compared to the known, this device provides independent adjustment of the forward and reverse currents in alternating L and A + l periods, which allows it to be used for n The baths of galvanic metallization of flat double-sided parts with unequal area of the metallized surface on the sides, for example, double-sided printed circuit boards.

to the corresponding anodes located opposite the respective sides of the part. The setting of the required forward and reverse currents on the sides of the part is carried out independently, by preliminary selection of the corresponding bias voltages L / C.M. 1.1, L / C.M. 2.1 - for one side and t / c.M. 1.2, t / c.M. 3.2 - for the other side of the part. The device also makes it possible to build up coatings of different thickness on the sides of the part by setting different current densities.

Compared to the conventional device, the use of this device for powering the galvanic metallization bath of flat double-sided parts allows, by supplying different currents to the front and rear sides of the part, according to the corresponding areas of the metallized surface, to ensure uniform coverage growth on both sides of the part, to increase the percentage of good parts , save chemicals and anode material.

Claims (1)

Claims An apparatus for supplying electroplating baths with a controlled asymmetric current, comprising a power transformer, the secondary winding of which includes thyristors, a thyristor control system including software blocks, sawtooth generators, amplifiers and control pulse generators, characterized in that, for the purpose of raising uniform build-up of the coating on double-sided flat parts and optimization of the deposition process; it is equipped with triacs and a triac control system, including yuchuyuschey counting trigger and control pulse generators, the trigger input is connected to one of the transformer secondary windings, and the outputs are connected to software blocks and connected to the control trims of the triacs connected to the transformer secondary winding through a generator of control pulses.   J 5678 Faye. 2 Phage.Z