Minimizing overetch during a chemical etching process
First Claim
1. A method for contactless, real-time, in-situ monitoring of a chemical etching process during etching of at least one wafer in a wet chemical etchant bath, said method comprising the steps of:
- a) providing two conductive electrodes in the wet chemical bath, wherein said two electrodes are proximate to but not in contact with the at least one wafer;
b) monitoring an electrical characteristic between the two electrodes as a function of time in the etchant bath of the at least one wafer, wherein a change in the electrical characteristic is indicative of a state of the etching process;
c) detecting a minimum value of said electrical characteristic during etching;
d) determining a time of the minimum value of said electrical characteristic;
e) detecting a maximum value of said electrical characteristic during etching;
f) determining a time of the maximum value of said electrical characteristic; and
g) comparing the time of said minimum value and the time of said maximum value and determining an overetch value therefrom.
1 Assignment
0 Petitions
Accused Products
Abstract
A contactless method and apparatus for real-time in-situ monitoring of a chemical etching process to minimize overetch of at least one wafer in a wet chemical etchant bath are disclosed. The method comprises the steps of providing two conductive electrodes in the wet chemical bath, wherein the two electrodes are proximate to but not in contact with a wafer; monitoring an electrical characteristic between the two electrodes as a function of time in the etchant bath of the at least one wafer, wherein a prescribed change in the electrical characteristic is indicative of a prescribed condition of the etching process; detecting a minimum and maximum value of the electrical characteristic during etching; determining the times of the minimum and maximum values; and comparing the times of the minimum and maximum values to determine an overetch value. The overetch value may be compared to a desired value to control the etching process. Such a method and the apparatus therefor are particularly useful in a wet chemical etch station.
43 Citations
15 Claims
-
1. A method for contactless, real-time, in-situ monitoring of a chemical etching process during etching of at least one wafer in a wet chemical etchant bath, said method comprising the steps of:
-
a) providing two conductive electrodes in the wet chemical bath, wherein said two electrodes are proximate to but not in contact with the at least one wafer; b) monitoring an electrical characteristic between the two electrodes as a function of time in the etchant bath of the at least one wafer, wherein a change in the electrical characteristic is indicative of a state of the etching process; c) detecting a minimum value of said electrical characteristic during etching; d) determining a time of the minimum value of said electrical characteristic; e) detecting a maximum value of said electrical characteristic during etching; f) determining a time of the maximum value of said electrical characteristic; and g) comparing the time of said minimum value and the time of said maximum value and determining an overetch value therefrom. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A contactless real-time in-situ chemical etch monitor for providing an indication of a state of an etching process during etching of at least one wafer in a wet chemical etchant bath, said monitor comprising:
-
a) two conductive electrodes; b) a means for positioning said two conductive electrodes inside the wet chemical etchant bath proximate to but not in contact with the at least one wafer; c) a means for monitoring an electrical characteristic between the two electrodes as a function of time in the etchant bath of the at least one wafer, wherein a change in the electrical characteristic is indicative of a state of the etching process; d) a means for detecting a minimum value of said electrical characteristic during etching; e) a means for determining a time of the minimum value of said electrical characteristic; f) a means for detecting a maximum value of said electrical characteristic during etching; g) a means for determining a time of the maximum value of said electrical characteristic; and h) a means for comparing the time of said minimum value and the time of said maximum value and determining an overetch value therefrom. - View Dependent Claims (7, 8, 9, 10)
-
-
11. An etch station having contactless real-time in-situ control of an etching process during etching of at least one wafer in a wet chemical etchant bath, said etch station comprising:
-
a) two conductive electrodes; b) a means for positioning said two conductive electrodes inside the wet chemical etchant bath proximate to but not in contact with the at least one wafer; c) a means for monitoring an electrical characteristic between the two electrodes as a function of time in the etchant bath of the at least one wafer, wherein a change in the electrical characteristic is indicative of a state of the etching process; d) a means for detecting a minimum value of said electrical characteristic during etching; e) a means for determining a time of the minimum value of said electrical characteristic; f) a means for detecting a maximum value of said electrical characteristic during etching; g) a means for determining a time of the maximum value of said electrical characteristic; h) a means for comparing the time of said minimum value and the time of said maximum value and determining an overetch value therefrom; and i) a means for controlling the etching process in response to the monitoring of the change in the electrical characteristic. - View Dependent Claims (12, 13, 14, 15)
-
Specification