KR102045821B1 - Current control method of electric planting line - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of controlling a current in an electroplating line, and in particular, to control a current applied to a substrate to control a current applied to a substrate mounted on a wireless hanger of an electroplating line that can make the plating thickness of the substrate uniform. It is about a method.

Description

Control method of current applied to the board mounted on the wireless hanger of electroplating line {CURRENT CONTROL METHOD OF ELECTRIC PLANTING LINE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of controlling current in an electroplating line, and in particular, to control a current applied to a substrate to control a current applied to a substrate mounted on a wireless hanger of an electroplating line that can make the plating thickness of the substrate uniform. It is about a method.

Conventionally, in order to form metal wiring of a printed circuit board, a metal film is patterned on the substrate to form wiring.

At this time, the metal film formed on the entire surface of the substrate is formed using aluminum or copper. In the case of copper, since the melting point is high, it may have a large resistance to electrical mobility, and not only can improve the reliability of the semiconductor device, but also have the advantage of increasing the signal transmission speed due to the low specific resistance. Mainly used.

The method of forming a metal film is divided into physical vapor deposition (PVD) using physical collision and chemical vapor deposition (CVD) using chemical reaction.

PVD includes sputtering and the like, and CVD includes thermal CVD using heat and plasma enhanced CVD using plasma.

However, in order to pattern a metal film on a substrate, an electroplating method, which is more resistant to electric mobility and lower in manufacturing cost, is preferable to the deposition method.

Conventionally, the principle of electroplating is as described in Korean Patent Laid-Open Publication No. 2010-0034318 (published on April 1, 2010). By immersing the substrate to be formed, copper ions (Cu 2+) separated from the copper plate are moved to the substrate to form a metal film.

As a general example of such an electroplating method, the electroplating method using a work hanger is to be mounted on the work hanger to be mounted on the vertical or horizontal rails to be precipitated in the plating liquid contained in the plating bath while starting, and then the plating target Is the cathode, and the metal or insoluble metal to be plated is the anode.

Then, when a current is applied to the electrode through the rectifier, the plating liquid is electrolyzed and metal ions contained in the plating liquid are separated and attached to the surface of the plating target, which is a cathode. Adopted.

The electroplating method is required to control the current density, the distribution of the plating thickness, etc. to uniformly form the thickness of the metal film in accordance with the trend of thinning the printed circuit board in the future.

Specifically, the uniform throwing power (Throwing Power) method that has been conventionally issued is an example.

In the uniform electrodeposition method, a plurality of cathode hangers are connected to one rectifier, and clamps are divided into several branches on a cathode hanger to hold a substrate in a tong manner, and current flows.

However, this uniform electrodeposition method has a problem that it is difficult to uniformly form a copper metal film on a substrate.

That is, the plating area of the substrate is large, the current starting in the hanger is different, and distribution of the plating current occurs in the substrate due to clamp contamination, difference in the strength of the clamp aggregate, and the like.

The difference in plating current causes the current density of the substrate to vary, resulting in uneven distribution of plating thickness.

Accordingly, since the copper metal film of the printed circuit board generally has an uneven distribution of plating thickness, there is a problem in that the surface quality is lowered and the reliability of the printed circuit board is lowered.

In order to solve this problem, the Republic of Korea Patent Publication No. 10-2013-0071861, etc., by detecting the information on the current applied to the clamp in real time in the electroplating process using a sensor in real time to receive and display the plating, Techniques have been shown to prevent defects and to improve the reliability of the coating thickness distribution.

However, such a conventional technology is only to detect the good or bad of the plated substrate, or to check the jig and clamp that is bad, and to actively and actively control this to prevent the occurrence of a defect in the substrate in advance. There are no drawbacks.

Republic of Korea Patent Publication No. 10-2013-0071861

The present invention is to solve the above-described problems, by measuring the current value applied to the jig and the substrate, and actively controlled so that the current value measured in each substrate is equal to the preset reference current value, It is an object of the present invention to provide a method of controlling a current applied to a substrate mounted on a wireless hanger of an electroplating line, in which the same current value is applied and the current density is made uniform, thereby making the plating thickness of the substrate uniform.

In order to achieve the above object, a method of controlling a current applied to a substrate mounted on a wireless hanger of an electroplating line of the present invention includes a plurality of anode plates and substrates spaced apart from each other in a plating bath, and a plurality of anode plates in one rectifier. In this connection, a hanger is installed on top of the plating bath, the jig is mounted on the hanger and the substrate is coupled to the jig disposed in the electroplating apparatus, the reference current value to be applied to the substrate through the bipolar plate Setting up; Applying a sum current value to the rectifier by multiplying the reference current value by the number of bipolar plates connected to one rectifier; Dividing the total current value applied to the rectifier by the number of positive electrode plates and supplying the same current value to each positive electrode plate; Measuring an actual current value supplied from the anode plate and applied to each substrate through a plating solution; Comparing the reference current value with a lowest value among a plurality of actual current values; Adjusting an actual current value applied to the substrate by using a variable resistor mounted on each jig, wherein the lowest value among the plurality of actual current values is smaller than the reference current value. The additional value multiplied by the number of the positive electrode plates is added to the sum current value to calculate a new sum current value and applied to the rectifier, and if the lowest value among the plurality of actual current values is greater than or equal to the reference current value, each The variable resistance is adjusted so that the actual current value measured on the substrate is equal to the reference current value.

The actual current value applied to each of the substrates is wirelessly transmitted to an external controller through wireless communication, and the controller controls the rectifier and the variable resistor after comparing the actual current value with the reference current value.

The actual current value applied to each substrate coupled to each jig is measured by using a current sensor mounted on each jig.

According to the control method of the current applied to the substrate mounted on the wireless hanger of the electroplating line of the present invention as described above has the following effects.

By measuring the current value applied to the jig and the substrate and actively controlling the current value measured at each substrate to be equal to the preset reference current value, the same current value is applied to the plurality of substrates, thereby making the current density uniform. Finally, the plating thickness of the substrate can be made uniform.

1 is a flowchart of a method of controlling a current applied to a substrate according to an embodiment of the present invention;
2 is a schematic configuration diagram of an apparatus in which a method of controlling a current applied to a substrate according to an embodiment of the present invention is implemented.

Control method of the current applied to the substrate mounted on the wireless hanger of the electroplating line of the present invention, as shown in Figures 1 to 2, a plurality of the positive electrode plate 20 and the substrate 31, 32, 33 inside the plating bath ) Are spaced apart from each other, a plurality of positive electrode plates 20 are connected to one rectifier 10, a hanger is installed on the plating bath, a jig is mounted on the hanger, and the substrate is coupled to the jig. It is applied to a conventional general electroplating apparatus.

In the control method of the present invention, first, a reference current value to be applied to the substrate through the positive electrode plate 20 is set (S1).

This sets a current value to be applied to the substrate through a controller 70 or the like separately provided to determine the reference current value.

When the reference current value is set, the controller 70 applies power to the rectifier 10 connected to the positive electrode plate 20.

In this case, the controller 70 allows the rectifier 10 to apply a total current value multiplied by the reference current value and the number of the positive electrode plates 20 connected to one rectifier 10 (S2).

Thereafter, the sum of the current values applied to the rectifier 10 is divided by the number of the positive electrode plates 20, and the same current value is supplied to each of the positive electrode plates 20 (S3).

When a current is applied to the positive electrode plate 20, the applied current is applied to the substrate through the plating liquid from the positive electrode plate 20, and at this time, an actual current value applied to each substrate is measured (S4).

The measurement of the actual current value can be measured using a conventionally known current sensor 50 mounted on the hanger or jig.

Since the jig and the substrate are electrically connected, the current sensor 50 measures the current value applied to the jig to measure the actual current value applied to the substrate.

That is, the actual current value applied to the substrate is the same as the actual current value applied to the jig.

The actual current value applied to each substrate and measured by the current sensor 50 is wirelessly transmitted to the controller 70 located outside through the communication module 60 mounted on the hanger or the like.

Then, the controller 70 compares the actual current value transmitted through the communication module 60 with the reference current value.

More specifically, the controller 70 compares the lowest value among the plurality of actual current values transmitted with the reference current value (S5).

If the lowest value among the plurality of actual current values is smaller than the reference current value, the additional value is calculated by multiplying the difference value by the number of the positive electrode plates 20 (S6), and the added value thus calculated is the sum current. In addition to the value, a new summed current value is calculated (S7).

Thereafter, the controller 70 applies the newly calculated summed current value to the rectifier 10 so that the changed current value is applied to each of the positive electrode plates 20.

If the lowest value among the plurality of actual current values is greater than or equal to the reference current value, the variable resistor 40 mounted on each jig is set such that the actual current value measured on each substrate is equal to the reference current value. The controller 70 is adjusted (S8).

As described above, when the controller 70 adjusts the variable resistor 40 mounted on each jig, the actual current value applied to each substrate is changed, whereby the actual current value applied to the substrate is determined by the controller 70. It can be made equal to the reference current value.

On the other hand, if the actual current value applied to each substrate measured by the current sensor 50 is outside the preset allowable range, it is determined that the jig is defective to inform the administrator.

In order to more easily describe the present invention as described above, an example will be described below by describing a current value as a number.

When the reference current value is 5A and the three positive plates 20 are connected to one rectifier 10, the sum current value is 15A.

Then, the controller 70 applies a total current value of 15 A to the rectifier 10, and the rectifier 10 divides the current of 5 A by dividing the sum of the current values by the number of the positive electrode plates 20, respectively. Apply to

The current applied to the positive electrode plate 20 is transferred to the substrate through the plating liquid, and the current sensor 50 measures the actual current value applied to the substrate and the jig.

The current value applied to the substrate and the jig may cause a scattering of the plating current in the substrate due to contamination of the clamp holding the substrate, a difference in the gripping strength of the clamp, and the like. have.

For example, when a current of 4 A on the first substrate 31, 5 A on the second substrate 32, and 5 A on the third substrate 33 are respectively measured, the lowest value of the actual current value is the first substrate ( 4) of 31).

Comparing 4A, the lowest value of the actual current value, and 5A of the reference current value, it is determined that the lowest value of the actual current value is smaller than the reference current value. In this case, the difference between the lowest value of the actual current value and the reference current value Calculate the value.

In the above example, the difference value is 1A, and multiplying the difference value by the number of the positive electrode plates 20 results in 3A, which is the additional value.

In other words, the additional value is 3A.

When the additional value is calculated, the controller 70 adds the additional value 3A to the existing total current value 15A to calculate a new total current value 18A.

That is, from now on, the sum current value is changed to 18A.

When the sum current value is changed to 18 A as described above, the controller 70 again applies the sum current value of 18 A to the rectifier 10, and the rectifier 10 receives a current of 6 A from three anode plates ( 20) respectively.

Since the current applied to each of the positive electrode plates 20 was increased by raising the current of 1 A from the beginning, 5 A in the first substrate 31, 6 A in the second substrate 32 and 6 A in the third substrate 33. Each current is measured.

The lowest value of the actual current measured on the substrate is 5A of the first substrate 31.

When comparing the lowest current value 5A and the reference current value 5A are the same, the controller 70 controls the variable resistor so that the actual current value measured on the remaining substrates is equal to the reference current value 5A. 40 to control.

In the above example, since the current of 6 A is measured in the second substrate 32 and the third substrate 33, the controller 70 is connected to the second substrate 32 and the third substrate 33. Each variable resistor 40 is increased to adjust the actual current value measured by the second substrate 32 and the third substrate 33 to be 5A, the reference current value.

Through the control method of the present invention as described above, the same current value is applied to the plurality of substrates, thereby making the current density of each substrate uniform, thereby forming a plating layer having a uniform thickness on the substrate.

The control method of the current applied to the substrate mounted on the wireless hanger of the electroplating line of the present invention is not limited to the above-described embodiment, it can be carried out in a variety of modifications within the allowable range of the technical idea of the present invention.

10: rectifier, 20: bipolar plate,
31: first substrate, 32: second substrate, 33: third substrate,
40: variable resistor, 50: current sensor, 60: communication module, 70: controller.

Claims (3)

A plurality of positive electrode plates and substrates are spaced apart from each other in the plating bath, and a plurality of positive electrode plates are connected to one rectifier, a hanger is installed on the plating bath, a jig is mounted on the hanger, and the substrate is coupled to the jig. In the electroplating apparatus arranged,
Setting a reference current value to be applied to the substrate through the bipolar plate;
Applying a sum current value to the rectifier by multiplying the reference current value by the number of bipolar plates connected to one rectifier;
Dividing the total current value applied to the rectifier by the number of positive electrode plates and supplying the same current value to each positive electrode plate;
Measuring an actual current value supplied from the anode plate and applied to each substrate through a plating solution by using a current sensor mounted on each jig;
Comparing the reference current value with a lowest value among a plurality of actual current values;
Adjusting the actual current value applied to the substrate by using a variable resistor mounted on each jig;
If the lowest value among the plurality of actual current values is smaller than the reference current value, an additional value obtained by multiplying the difference value by the number of positive electrode plates is added to the summed current value to calculate a new summed current value and applied to the rectifier. The changed current value is applied to the positive electrode plate,
If the lowest value among the plurality of actual current values is greater than or equal to the reference current value, the variable resistance is adjusted so that the actual current value measured on each substrate is equal to the reference current value,
If the actual current value applied to each substrate measured by the current sensor is outside the preset allowable range, it is determined that the jig is bad, the current is applied to the substrate mounted on the wireless hanger of the electroplating line Control method. The method according to claim 1,
The actual current value applied to each board and measured is wirelessly transmitted to an external controller through wireless communication.
And controlling the rectifier and the variable resistor after comparing the actual current value with the reference current value by the controller and controlling the rectifier and the variable resistor. delete

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