SU581173A1 - Device for monitoring thickness of electroplated coating - Google Patents

Description

one

The invention is based on electroplating and can be used ol automatic control of the thickness of electroplating in the metal deposition process.

The closest to the proposed invention to the technical essence and the achieved result is a device for automatic control of coating thickness during metal electroplating, which has a current density sensor, a non-linear functional converter, an electronic frequency-pulse integrator, a frequency-pulse converter, a frequency divider, digital indicator, coincidence circuit, coating thickness setting unit and fl sign shaper. The control of the coating thickness in this device is reduced to a scaled recalculation of the number of pulses from the output of the frequency-pulse converter, proportional to the deposition rate of electroplating.

The known device has insufficient measurement accuracy due to the instability of the frequency and dust and functional specimens and the dependence of their characteristics on temperature, as well as the change in the insulation resistance of the electroplating bath.

The purpose of the invention is to increase the precision control of the thickness of electroplating.

Claims (1)

This is achieved by the fact that the device additionally contains a reference voltage source, a pulse shaper, an electronic switch, a code converter, a differentiated link, an inverter and a correction unit. In this case, the first input of the electronic switch is connected to the output of the current density sensor and the third with the pulse driver output, the input of which is connected to the first output of the frequency divider, and the output of the electronic switch is connected to the input of the functional The first input of the correction unit is connected to the output of the yuvatel of pulses through a differentiating link. The second is through a code converter with a second V1 POWER frequency target, and the output is with a frequency-pulse converter, and the output control is scaraos via anaargar syesi & a wide range of aseHONi. The drawing shows a block of jCipDsi for kovtro tshtsh s grykhvakopokryrzny. The device has a Kachchak .1 IISOT-ISPCTH current, SOURCE 2 voltage suppressors, electronic switch 3, funnels: Converter 4, clock $ 5, converter 6 frequency, signal 7, driver 8 pulses, differentiator 9 , correction unit 10, converter 11 codes and inverter 12 ...: „. . The device operates alternately in two modes; the measurement mode of the current value of the coating thickness and the correction mode of the frequency response of the frequency-pulse converter 5, the transition from one mode to another is automatic when an alternate unit of galvano-coating thickness is applied. In the 3 mode of coating thickness measurement, a current density sensor 1 is connected to the electronic switch 3, the signal of which is fed to the input of the functional converter 4, the outgoing signal of the latter is converted by a frequency-to-pulse 1 converter 5 into a pulse sequence c (Ø, the instantaneous frequency of which is determined by the sensor signal I current density. The specified sequence of pulses is fed to a frequency divider j 6 that scales this sequence into the current value of the coating surface. Uninterruptedly in units of thickness, which is registered by the indicator 7.;. With the appearance at the output of the healer 6 of the pulse frequency corresponding to the deposition of the next unit of the coating thickness, the forming of the 8 impulses generating a single correction pulse with a fixed duration starts and the device switches to the correction mode of the frequency characteristic of the frequency-pulse converter 5; In the correction mode for the duration of the correction pulse, the electronic switch 3 disconnects from the input signal Formative 4 sensor 1 current density connects the source 2 instead of it. At the same time, the overdrive front of the correction pin through the differentiating link 9 sets the correction block 1O to the initial position, corresponding to the nominal frequency, the frequency-pulse of the transducer and its normal operation. If -iacTOTa corresponds to the nominal frequency, about during the correction pulse, the frequency pulse: the second transducer S must emit a certain number of pulses for a given fixed duration of the correction pulse. When the frequency deviates from the nominal frequency-impulse converter, 5 expresses, respectively, more: Or fewer pulses during the time of distribution of the shaft. These pulses are calculated by a divider 6 of the frequency and the resulting corresponding number is fed to the converter 11 codes to form nsrr & bit binary numbers,; which, using a permissive signal formed on the front of the correction pulse by the differential arm 9 and inverter 12, are rewritten into correction block 10, which is a trigger register with keys for matching the corresponding binary combinations of corrective impulses. Upon the completion of the correction pulse, the electronic switch 3 reconnects to the input of the functional converter 4 the current density sensor 1 and the device RV in the thickness measurement mode of the coating until the next pulse appears from the frequency divider 6. Thus, this process occurs every time when a very thin coating thickness is applied, and, consequently, a multiple correction of the operation of the PM: full-impulse transducer 5, which leads to an increased accuracy of measurement of the coating thickness. An apparatus for monitoring the thickness of electroplating, comprising a current density sensor and a series-connected functional converter frequency-impeller converter, a frequency divider and an indicator, characterized in that, in order to improve the accuracy of controlling the thickness of gal1: ian-coating, it additionally contains a source of reference voltage, pulse driver, electronic switch, code converter, differentiator, inverter and correction unit, with eiOM the first input of the electronic com the mutator is connected to the output of the density sensor., the current, the second input is connected to the output {gotochka reference voltage, and the third to the output of the pulse former, the input of which is connected to the first output of the frequency divider, and the output of the electronic switch is connected the converter, the first one in the block of corrections through the a11ffer (the link connects with the driver of the pulse generator, the second through the converter of the cops with the second, divides the frequencies, and the output with the frequency-pulse pulse-mm converter, which is connected to the second unit and Schwy input of the converter of codes through an inverter connected to a differential link. Sources of input taken into consideration during the examination: 1, USSR Copyright Certificate No. 407753, C 25D 21/12, 17.02,70. 73,