Semiconductor device manufacturing: process – Making field effect device having pair of active regions... – On insulating substrate or layer
Reexamination Certificate
2000-03-28
2002-11-05
Nguyen, Viet Q. (Department: 2818)
Semiconductor device manufacturing: process
Making field effect device having pair of active regions...
On insulating substrate or layer
C438S030000
Reexamination Certificate
active
06475836
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a semiconductor device having a circuit in which a thin film transistor (hereinafter referred to as TFT) is formed on a substrate having an insulating surface, and to a manufacturing method thereof. More particularly, the present invention relates to an electro-optical device typically known as a liquid crystal display device provided with an excellent-shaped contact hole, and to electronic equipment with an electro-optical device. Moreover, the semiconductor device according to the present invention refers to all equipment utilizing the semiconductor characteristics for functioning. The above electro-optical device and the electronic equipment with an electro-optical device are also included in semiconductor devices.
2. Description of the Prior Art
The development of a semiconductor device having a large-area integrated circuit formed by the TFT (thin film transistor) on its insulating surface is under progression. AN active matrix liquid crystal display device, an EL display device, a contact-type image sensor, and the like are known as representative examples.
The characteristics of the TFT are deteriorated and reliability is lowered when organic resin film is directly formed on the TFT provided on the insulating surface. To solve those problems, conventionally, a laminated organic resin film is formed on the TFT after the formation of an inorganic insulating film (also called passivation film).
The TFT is normally connected to wirings through a contact hole. Therefore, when the above inorganic insulating film is provided on the TFT, it is necessary to form a contact hole for connecting to the upper layer wiring in the inorganic insulating film and the organic resin film which covers a TFT gate electrode, a source electrode, or a drain electrode. For instance, the contact hole is formed for connecting a drain electrode of a pixel TFT with a pixel electrode in an active matrix liquid crystal display using TFT.
A conventional manufacturing process will be described with reference to
FIGS. 17A through D
. Shown here is an example of an active matrix liquid crystal display applied to this process. Although the pixel TFT is not shown for simplification, a first conductive film
11
is identical with a drain electrode of a pixel TFT or electrically connected thereto. Also not shown is that there is a single layer or a multiple layer of insulating film between a substrate
10
and the first conductive film
11
.
Shown in
FIG. 17A
is a state where the first conductive film
11
identical with the drain electrode of a pixel TFT or electrically connected thereto is formed on the substrate
10
on which the pixel TFT is formed. An inorganic insulating film
12
and an organic resin film
13
formed in laminations are formed on top of the first conductive film
11
.
And shown in
FIG. 17B
is a state where the first patterning is performed by using a resist mask
14
by way of photolithography, and a first contact hole is opened only in the organic resin film
13
.
Subsequently, a second patterning is performed by using a resist mask
15
after removing the resist mask
14
, and a second contact hole is opened only in the inorganic insulating film
12
. This state is shown in FIG.
17
C. Since the second contact hole is formed in the bottom portion of the first contact hole, the diameter of its opening is smaller than that of the first contact hole.
Shown in
FIG. 17D
next is a state where a pixel electrode
16
, made of transparent conductive film, is formed after removing the resist mask
15
.
As shown in
FIG. 17D
, in this way there is a step in the shape of the contact hole because it has been formed after the first and second patterning processes.
Additionally, besides the above conventional manufacturing method, another method is to perform patterning right after forming the inorganic insulating film, then form the organic resin film and perform patterning again to form a contact hole. Two patterning processes were also necessary even in this method.
Since the number of processes and masks has increased due to two patterning (organic resin film patterning and inorganic insulating film patterning) processes in the conventional method, this led to an increase in costs.
In the two patterning processes, each method uses different photo mask, and therefore poor contact occurred when the masks had not been overlapped in precision. Also, in the example of the conventional process shown in
FIG. 17
, fining of the contact hole is difficult. That is because considering the margin when overlapping, the opening diameter of the second contact hole that was opened in the second patterning is 1.5 to 2 times bigger than the opening diameter of the first contact hole opened in the first patterning process.
Furthermore, the shape of a conventional contact hole (of which an example is shown in
FIG. 17D
) is a complicated shape formed by overlapping two contact holes with different opening diameter. Thus, poor coverage has occurred on a second conductive film formed later.
SUMMARY OF THE INVENTION
A technique of the present invention is for solving the above problems, and therefore it is an object of the present invention to provide a manufacturing method of a semiconductor device whereby the number of processes is decreased due to simultaneously forming a contact hole in a lamination film (inorganic insulating film and organic resin film) of different material and film thickness by conducting etching once.
It is another object of the present invention to improve operating efficiency and reliability of a semiconductor device by providing a contact hole that is uniform in shape, and moreover an appropriate one.
It is still another further object of the present invention to form a pixel electrode of good coverage and to provide a structure for improving the yield of an active matrix type liquid crystal display device.
In order to solve the above problems, the present invention provides a semiconductor device comprising: a first conductive film formed on an insulating substrate; an inorganic insulating film covering said first conductive film; an organic resin film covering said inorganic insulating film; a contact hole that goes through said inorganic insulating film and said organic resin film; and a second conductive film formed on said organic resin film which is connected to said first conductive film at a bottom surface of said contact hole.
Further, according to the above structure, said contact hole is formed by performing one etching.
Still further, according to each structure of the above, an edge portion of an inorganic insulating film that comes in contact with a bottom surface of said contact hole is taper like having an angle range of 30° to 800° from a horizontal surface.
Further, according to each structure of the above, an edge portion of an organic resin film that comes in contact with said inorganic insulating film has an angle range of 50° to 90° from a horizontal surface.
Still further, according to each structure of the above, a TFT is electrically connected to said first conductive film.
Further, according to each structure of the above, said second conductive film is a pixel electrode.
According to each structure of the above, said inorganic insulating film is a silicon nitride film or a silicon oxide nitride film.
Moreover, in order to realize the above structure, the present invention provides a method of manufacturing a semiconductor device comprising the steps of: forming a first conductive film; forming an inorganic insulating film on said first conductive film; forming an organic resin film on said inorganic insulating film; forming a contact hole in a laminated film formed of said inorganic insulating film and said organic resin film in one process; and forming a second conductive film in said contact hole.
Further, according to the above structure, said process of forming a contact hole is performed by dry etching employing mixed gas containing fluorine-based etchant gas and ox
Kusuyama Yoshihiro
Suzawa Hideomi
Cook Alex McFarron Manzo Cummings & Mehler, Ltd.
Nguyen Viet Q.
Nhu David
Semiconductor Energy Laboratory Co,. Ltd.
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