KR100469911B1 - Arrangement of leisure bar capacitors - Google Patents

Abstract

The present invention provides a method of arranging a leisure bar capacitor to greatly reduce the area occupied by the reservoir capacitor of the highly integrated semiconductor device and to reduce noise generated between the internal and other powers. The memory device is susceptible to strong stress from the outside or damaging the chip from moisture when the die-to-die connection is performed at the main-chip edge part. To protect this, a seal ring is attached to the chip edge part to protect it. We supply vss and vbb. In the present invention, several powders such as vcc and vpp are added to the chip edge portion. As described above, since the Leipvar capacitors are disposed on the remaining portions of the chip edges in both directions, the deployable area is replenished more than twice as much as the existing Leipvar capacitors. Therefore, the power line noise of the semiconductor device can be greatly reduced, and it is very helpful for stable operation without affecting the chip size increase.

Description

Arrangement method of leisure bar capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a capacitor arrangement method of a highly integrated semiconductor device. Specifically, a reservoir capacitor using a gate capacitor to reduce noise between an internal power line and an operating power line input during die formation of a semiconductor device. It relates to the arrangement method of.

In general, as the technology of semiconductor memory devices is developed and the degree of integration increases, the area of the chip size due to the design rule is subject to a lot of constraints, which has a fatal effect on the degree of integration. That is, since the Leipvar capacitor, which is usually a gate capacitor, is installed for each power, a situation arises in which the area of the capacitor cannot be increased due to the increase in integration because the Leipvar capacitor occupies a very large area.

Therefore, the portion to install the leisure bar capacitors continues to shrink, which is critical to the noise canceling role in the power connection. In other words, after the chip design is completed, a portion of the leisure bar capacitor is located by finding a vacant position, and the core part related to the memory cell is continuously reduced, but the peripheral part of the memory where the peripheral circuit is located is not reduced.

In addition, when sawing between dies on the chip edge portion, the chip is likely to be damaged from strong stress or moisture from the outside. To protect this, since the seal ring is attached to the chip edge portion, the device using the power inside the chip requires a lot of leisure bar capacitors for each power. That is, it is necessary to arrange the leisure bar capacitor in a special position to solve this problem.

Accordingly, an object of the present invention is to provide a method of arranging a leisure bar capacitor.

In order to achieve the above object, the arrangement method of the leisure bar capacitor according to the present invention,

In the method of arranging the leisure bar capacitor of a semiconductor device,

A leisure bar capacitor is arranged between the seal-ring and the main chip provided in a closed curved planar structure spaced apart from the main chip to surround the main chip.

A power is provided between the core part belonging to the memory cell and the closed ring-shaped seal ring of the chip edge part;

The powder between the seal ring and the main chip has a structure parallel to the seal ring,

The power of the main chip and the power through the seal-ring is characterized in that connected at the same time.

Hereinafter, the present invention will be described in detail.

In the method of arranging a leisure bar capacitor according to the present invention, when a die-to-die connection is performed at a chip edge portion, a seal ring is attached to the edge portion of the chip, and a powder such as vss or vbb is supplied to the portion. Doing. In order to reduce noise generated between the powders, a charge reservoir capacitor, which is a gate capacitor, is usually provided for each powder. It also adds several powders, such as vcc and vpp, to the chip edge at the seal ring of the main chip. In addition, the Leipvar capacitors can be placed on either side of the chip edge. As a result, the space is replenished more than twice as much as the existing Leipvar capacitor. Therefore, the power line noise of the semiconductor device can be greatly reduced, and it is very helpful for the stable operation of the semiconductor device without affecting the increase in the chip size.

1 and 2 are arranged by the arrangement method of the leisure bar capacitor according to an embodiment of the present invention.

1 is a layout view schematically showing a position and a connection between a main chip and a seal ring of a semiconductor device according to the present invention.

Referring to FIG. 1, in the method of arranging a leisure bar capacitor, the design rule decreases as the degree of integration increases, and after the chip design is completed, the leisure bar capacitor is partially disposed to find an empty place. Reservoir capacitors are attached between the seal-ring at the chip edge and the main chip so that the core portion associated with the memory cell is continuously reduced while the memory peripheral portion where the peripheral circuit is located is not reduced.

FIG. 2 is a layout view illustrating in detail the Leipvar capacitor between the main-chip and the seal ring formed by using the seal-ring structure according to the Leipvar capacitor arrangement method of the present invention.

Referring to FIG. 2, the main chip edge part has a structure in which the powder is supplied in a parallel structure between the seal ring and the main chip other than the seal ring ring power. The capacitor that connects the power between the main-chip power and the seal-ring is made by connecting the power using the same method with the power of the main chip. Seal-ring powers use vss and vcc. This arrangement plays a large role in reducing noise generated between the powders.

3 is a layout view showing a seal-ring structure according to the prior art.

Referring to Fig. 3, it is shown that the leisure bar capacitor is not placed in an unused space after making the required power line between the main chip and the seal ring.

As described above, the method for arranging a leisure bar capacitor according to the present invention provides an effect of increasing productivity of a semiconductor device due to a stable operation of the semiconductor device by stabilizing a power of the device by increasing the leisure bar capacitor.

1 is a layout view of the leisure bar capacitor of the semiconductor device according to the present invention.

FIG. 2 is a layout view showing in detail that the leisure bar capacitors of the present invention are installed for each power. FIG.

3 is a layout view showing a portion of a seal ring of a memory element currently in use.

Claims (3)

In the method of arranging the leisure bar capacitor of a semiconductor device, A leisure bar capacitor is arranged between the seal-ring and the main chip provided in a planar structure having a closed curve surrounding the main chip spaced apart from the main chip. And a powder is provided between the core part belonging to the memory cell and the closed ring-shaped seal ring of the chip edge part. The method of claim 1, And a powder between the seal ring and the main chip has a structure parallel to the seal ring. The method of claim 1, Reservoir capacitor arrangement method, characterized in that the power of the main chip and the power through the seal ring is connected at the same time.

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