ASML PAS 5500 User Manual (English)

To Next Page

R·I·T Title: ASML Stepper

Semiconductor & Microsystems

Fabrication Laboratory

Revision: B Rev Date: 12/21/2010

Approved by:

/ / / /

Process Engineer Equipment Engineer

RIT SMFL Page 1 of 11

SCOPE

The purpose of this document is to detail the use of the ASML PAS 5500 Stepper. All users are expected

to have read and understood this document. It is not a substitute for in-person training on the system and

is not sufficient to qualify a user on the system. Failure to follow guidelines in this document may result

in loss of privileges.

REFERENCE DOCUMENTS

Batch Control PAS 5500 Training Module

Reticle Design Manual

PAS 5500 User Guide

PAS 5500 Job Definition

PAS Global Alignment Strategies

PAS 5500 Steppers up to and including /300 Stepper Introduction

DEFINITIONS

n/a

TOOLS AND MATERIALS

4.1 General Description - The ASML PAS 5500/200 is a 5x reduction, i-line stepper set up for

exposure of 6 inch wafers using 6 inch reticles. The system has 350nm resolution with a

0.48-0.60 variable numerical aperture. The maximum field size on the wafer is 22x22mm.

Overlay capability is better than 50nm. All lithography levels for a particular design are

included in a single stepper job.

Need help?

Do you have a question about the ASML PAS 5500 and is the answer not in the manual?

ASML PAS 5500 Specifications

General

Brand	ASML
Model	PAS 5500
Category	Laboratory Equipment
Language	English

Summary

Scope of ASML Stepper Document

Reference Documents for ASML Stepper

Definitions

Tools and Materials for ASML Stepper

General Description of ASML PAS 5500/200

Specifies the ASML PAS 5500/200 stepper's reduction, resolution, NA, wafer/reticle size, and overlay capability.

Safety Precautions for ASML Stepper Operation

Operator Hazards and Safety Measures

Addresses UV light, lasers, and mechanical risks. Emphasizes safety glasses and closed covers during operation.

Tool Hazards and Handling Precautions

Covers risks related to the wafer stage, stuck wafers, reticle handling, Combi reticle, and wafer backs.

ASML Stepper Operating Instructions

Starting the ASML Stepper System

Steps to power on and initialize the system, ensuring the computer is on the Main Menu.

Loading Reticles into the Stepper

Detailed procedure for removing, opening, loading reticles into the box, and securing it.

Loading Wafers onto the Stepper

Instructions for placing wafer cassettes onto the loader and receiver stages.

Defining Batch and Running Stepper Job

Guide to setting up batch parameters: ID, job name, layer, control mode, size, and type.

Unloading Wafers from the Stepper

Procedure for safely removing processed wafers from the output cassette.

Unloading Reticles from the Stepper

Steps to safely remove the reticle box, unload reticles, and store the box.

Resetting the ASML Stepper System

Procedure for clearing all wafers from the machine via the Batch Control menu.

Handling Errors During Stepper Run

Instruction to contact the equipment engineer for any operational errors.

Introducing Layer Shift in Stepper Job

Guidance on entering layer shift values in microns within the Process Data section of a stepper job.

Appropriate Uses of the ASML Stepper

Attachments and Tests for ASML Stepper

Dose to Clear Test Procedure

Details performing a dose to clear test, including settings and analyzing exposure patterns.

FEM (Focus/Exposure Matrix) Test

Procedure for conducting a Focus/Exposure Matrix test with specified parameters.

Running RIT Daily Checks

Steps for daily system monitoring, including sensor values and lens temperature checks.

Procedure for Creating a Zero Level

Guide to creating zero level marks: reticle loading, job selection, exposure, etching, and stripping.

ASML PAS 5500 User Manual

Table of Contents