Semiconductor device manufacturing: process – Making field effect device having pair of active regions... – Having insulated gate
Reexamination Certificate
2003-01-24
2004-11-09
Fourson, George (Department: 2823)
Semiconductor device manufacturing: process
Making field effect device having pair of active regions...
Having insulated gate
C438S593000, C438S697000
Reexamination Certificate
active
06815291
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method of manufacturing a semiconductor device including a memory area and a logic circuit area. More specifically the invention pertains to a method of manufacturing a semiconductor device, on which each of non-volatile memory devices formed in the memory area has two charge accumulation regions relative to one word gate.
2. Description of the Related Art
One type of non-volatile semiconductor memory devices is MONOS (Metal Oxide Nitride Oxide Semiconductor) or SONOS (Silicon Oxide Nitride Oxide Silicon), in which a gate insulating layer between a channel area and a control gate is a multi-layered body of a silicon oxide layer and a silicon nitride layer and charges are trapped by the nitride silicon layer.
FIG. 20
shows a known MONOS non-volatile semiconductor memory device (refer to: Y. Hayashi, et al., 2000 Symposium on VLSI Technology Digest of Technical Papers p. 122-123).
Each MONOS memory cell
100
has a word gate
14
, which is formed on a semiconductor substrate
10
via a first gate insulating layer
12
. A first control gate
20
and a second control gate
30
are formed as side walls on both sides of the word gate
14
. A second gate insulating layer
22
is present between the bottom of the first control gate
20
and the semiconductor substrate
10
. An insulating layer
24
is present between the side face of the first control gate
20
and the word gate
14
. Similarly the second gate insulating layer
22
is present between the bottom of the second control gate
30
and the semiconductor substrate
10
. The insulating layer
24
is present between the side face of the second control gate
30
and the word gate
14
. Impurity layers
16
and
18
, each of which constitutes either a source area or a drain area, are formed in the semiconductor substrate
10
to be located between the control gate
20
and the control gate
30
of adjoining memory cells.
Each memory cell
100
accordingly has two MONOS memory elements on the side faces of the word gate
14
. These two MONOS memory elements are controlled independently. Namely each memory cell
100
is capable of storing 2-bit information.
A memory area including such MONOS memory cells and a logic circuit area including peripheral circuits of memories are formed on an identical semiconductor substrate in a semiconductor device. A prior art method of manufacturing such a semiconductor device first forms memory cells in the memory area and subsequently forms peripheral circuits in the logic circuit area. The manufacturing method forms diverse wiring layers via an insulating layer, after formation of the memory area and the logic circuit area.
The manufacturing method forms an insulating layer of, for example, silicon oxide, and polishes the insulating layer by CMP (chemical mechanical polishing) technique.
It is desirable that the upper face of the insulating layer after the polishing process is sufficiently flat and even, in order to carry out subsequent processes with high accuracy, for example, in order to form a wiring layer above the insulating layer with high accuracy. The polishing rate of the insulating layer is, however, not constant but is varied. The insulating layer in the logic circuit area is often polished relatively faster than the insulating layer in the memory area. This may cause unevenness on the upper face of the polished insulating layer.
SUMMARY OF THE INVENTION
The object of the present invention is thus to provide a technique of making surface of an insulating layer sufficiently flat and even after a polishing process in a manufacturing method of a semiconductor device including a memory area and a logic circuit area.
In order to attain at least part of the above and the other related objects, the present invention is directed to a first method of manufacturing a semiconductor device, which includes a memory area having a non-volatile memory device and a logic circuit area having a peripheral circuit of the non-volatile memory device. The first manufacturing method includes the steps of: providing a semiconductor substrate, which has a conductive layer to make a word gate of the non-volatile memory device, a stopper layer formed above the conductive layer, and control gates formed as side walls on both side faces of the conductive layer via an ONO membrane, which are all located above a semiconductor layer in the memory area, as well as a gate electrode of an insulated gate field effect transistor formed above a semiconductor layer in the logic circuit area; forming an insulating layer over whole surface of the memory area and the logic circuit area on the semiconductor substrate; carrying out anisotropic etching of an upper portion in a part of the insulating layer; and polishing the insulating layer to make the stopper layer in the memory area exposed but not to make the gate electrode in the logic circuit area exposed.
The first manufacturing method of the invention carries out anisotropic etching of the insulating layer to reduce the thickness of part of the insulating layer. This arrangement effectively reduces the unevenness on the surface of the insulating layer, which may arise in the process of polishing the insulating layer, and makes the surface of the polished insulating layer sufficiently flat and even.
In one preferable application of the first manufacturing method, the step of etching the insulating layer carries out anisotropic etching of the insulating layer over at least a region with a plurality of the non-volatile memory devices in the memory area.
It is highly possible that the polishing rate of the insulating layer in the region with the plurality of the non-volatile memory devices in the memory area is lower than the polishing rate of the insulating layer in the logic circuit area. Anisotropic etching of the insulating layer in at least this region effectively reduces the difference in height of the top face of the insulating layer between the memory area and the logic circuit area, which may arise in the process of polishing the insulating layer, and makes the surface of the polished insulating layer sufficiently flat and even.
The present invention is also directed to a second method of manufacturing a semiconductor device, which includes a memory area having a non-volatile memory device and a logic circuit area having a peripheral circuit of the non-volatile memory device. The second manufacturing method includes the steps of: forming a first insulating layer above a semiconductor layer; forming a first conductive layer above the first insulating layer; forming a stopper layer above the first conductive layer; patterning the stopper layer and the first conductive layer in the memory area; forming an ONO membrane over whole surface of the memory area and the logic circuit area; forming a second conductive layer above the ONO membrane; carrying out anisotropic etching of the second conductive layer, so as to form control gates as side walls via the ONO membrane on both side faces of the first conductive layer in at least the memory area; etching out the stopper layer in the logic circuit area; and patterning the first conductive layer in the logic circuit area, so as to create a gate electrode of an insulated gate field effect transistor in the logic circuit area. The second manufacturing method further includes the steps of; forming side wall insulating layers on both side faces of at least the gate electrode; forming a first impurity layer as either one of a source area and a drain area of the non-volatile memory device and a second impurity layer as either one of a source area and a drain area of the insulated gate field effect transistor; forming a silicide layer on surface of the first impurity layer, the second impurity layer, and the gate electrode; forming a second insulating layer over whole surface of the memory area and the logic circuit area; carrying out anisotropic etching of an upper portion in a part of the second insulating layer; polishing the second insulati
Estrada Michelle
Fourson George
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