Difference between revisions of "EVG 510"

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* Voltage - ±2000V
* Voltage - ±2000V
* Current - Up to 50 mA
* Current - Up to 50 mA
* Thickness - XXX  
* Thickness - XXX
===Substrate Requirements===
===Substrate Requirements===

Revision as of 14:19, 27 July 2015

EVG 510
Equipment Details
Technology Wafer Bonding
Materials Restriction Metals
Material Processed Si, Glass
Sample Size pieces, 100 mm, 150 mm
Equipment Manual
Overview System Overview
Operating Procedure SOP
Supported Processes Processes
Maintenance Maintenance

Warning Warning: This page has not been released yet.

The EVG 510 is a wafer bonder designed for


  • Update this with announcements as necessary


  • Bonding
    • Polymer
    • Anodic
    • Eutectic
    • Thermocompression
    • Fusion
  • Wafer Mounting via WaferBOND

System Overview

Hardware Details

  • Force - 0 to 10 kN
  • Vacuum - 1e-5 mBar
  • Temperature - 20C to 550C
  • Voltage - ±2000V
  • Current - Up to 50 mA
  • Thickness - XXX

Substrate Requirements

  • Pieces, 100 mm, 150 mm
  • Wafer type
  • Wafer thickness ?

Material Restrictions

The EVG 510 is designated as a Metals class tool. Below is a list of approved materials for the tool. Approved means the material is allowed in the tool under normal circumstances. If a material is not listed, please create a helpdesk ticket or email info@lnf.umich.edu for any material requests or questions.

Supported Processes

There are several processes for this tool supported by the LNF, which are described in more detail on the Processes page.

In addition to these, this tool has a number of user-created recipes for etching a wide variety of materials. Some of these recipes are documented on EVG 510 User Processes. If you are curious if your material can be processed in this tool, please contact the tool engineers via the helpdesk ticket system.

Standard Operating Procedure

Widget text will go here.

Checkout Procedure

  1. Read through this page and the Standard Operating Procedure above.
  2. Complete the training request form here.
  3. Create a Helpdesk Ticket requesting training.
  4. A tool engineer will schedule a time for initial training.
  5. Practice with your mentor or another authorized user until you are comfortable with tool operation.
  6. Complete the SOP quiz here.
  7. Schedule a checkout session with a tool engineer via the helpdesk ticket system. If this checkout is successful, the engineer will authorize you on the tool.


Once a week the chucks are cleaned and inspected for damage. A monitor run is performed every XXXX on a 150 mm wafer XXX