Patent ID: 8480319
Filing Date: 2013-07-09
Classification: G03F,H01L

Abstract:
1. A coating and developing apparatus comprising: a carrier block; a process block to which a substrate that has been loaded into the carrier block by a carrier is delivered, the process block being configured to form a coating film including a resist film on the substrate; an interface block arranged on an opposed side of the carrier block with respect to the process block; and an exposure apparatus configured to expose the substrate that has been transferred thereto from the process block via the interface block; wherein: the substrate that has been loaded into the carrier block by the carrier is delivered to the process block, a coating film including a resist film is formed on the substrate in the process block, the substrate is transferred to the exposure apparatus via the interface block, the exposed substrate, which has been returned to the process block via the interface block, is developed in the process block, and the developed substrate is delivered to the carrier block; in the process block, a heating-process related block on the side of the carrier block, a group of liquid-process related unit blocks, and a heating block on the side of the interface block, are arranged in this order from the side of the carrier block to the side of the interface block; the group of liquid-process related unit blocks are composed of: a group of unit blocks for coating films that is formed by stacking upward a unit block for an antireflection film configured to form an antireflection film on a substrate, a unit block for a resist film configured to form a resist film on the antireflection film, and a unit block for an upper layer film configured to form an upper layer film on the resist film, in this order; and unit blocks for developing that are stacked on one another in the up and down direction with respect to the group of unit blocks for coating films, each unit block for developing being configured to develop an exposed substrate; when a direction along which the interface block is seen from the carrier block is supposed to be seen from the front, each unit block of the group of unit blocks for coating films includes: a linear transfer path extending in the back and forth direction; liquid process modules arranged on the right and left sides of the linear transfer path, each liquid process module being configured to supply a substrate with a chemical liquid corresponding to each coating film; and a main transfer mechanism configured to be moved along the linear transfer path so as to transfer a substrate between these liquid process modules; the unit block for developing includes: a linear transfer path extending in the back and forth direction; developing modules arranged on the right and left sides of the linear transfer path, each developing module being configured to supply a substrate with a developing liquid; and a main transfer mechanism configured to be moved along the linear transfer path so as to transfer a substrate between these developing modules; in the heating-process related block on the side of the carrier block, there are provided: a number of heating modules that are stacked in the up and down direction, in which a heating module configured to heat a substrate on which a chemical liquid has been coated in the unit block for a resist film, and a heating module configured to heat a substrate on which a developing liquid has been supplied in the unit block for developing are allocated to these heating modules; and an up and down transfer mechanism capable of being moved in the up and down direction so as to transfer a substrate among the heating modules; in the heating block on the side of the interface block, there are provided: a number of heating modules that are stacked in the up and down direction, in which a heating module configured to heat a substrate on which a chemical liquid has been coated in the unit block for an antireflection film, a heating module configured to heat a substrate on which a chemical liquid has been coated in the unit block for an upper layer film, and a heating module configured to heat an exposed substrate to which a developing liquid is not yet supplied in the unit block for developing are allocated to these heating modules; and an up and down transfer mechanism capable of being moved in the up and down direction so as to transfer a substrate among the heating modules; and the coating and developing apparatus further comprises: delivery stages respectively arranged on the side of the carrier block of each unit block of the group of unit blocks for coating films, and on the side of the interface block thereof; delivery stages respectively arranged on the side of the carrier block of the unit block for developing, and on the side of the interface block thereof; a delivery mechanism configured to deliver a substrate, which has been taken out from the carrier placed on the carrier block, to the delivery stage on the side of the carrier block of the unit block for an antireflection film, and configured to receive a substrate from the delivery stage on the side of the carrier block of the unit block for developing; and a control unit configured to output a control signal in such a manner that a substrate on which a chemical liquid has been coated in the unit block for an antireflection film is delivered to the heating module on the side of the interface block so as to heat the substrate, then the substrate is delivered to the unit block for a resist film so as to coat the substrate with a chemical liquid, then the substrate is delivered to the heating module on the side of the carrier block so as to heat the substrate, then the substrate is delivered to the unit block for an upper layer film so as to coat the substrate with a chemical liquid, and then the substrate is delivered to the heating module on the side of the interface block so as to heat the substrate.