Tube Furnace (Tystar 8300): Difference between revisions

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(→‎About: specified tube 2: unprocessed, Tube3 processed is ok)
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* '''Tube #3''': General furnace annealing & oxidation, including processed material
* '''Tube #3''': General furnace annealing & oxidation, including processed material


Each process tube can accomodate up to one hundred 8” wafers per cycle. We have boats for 2", 3", 4", 6", 8" and irregular shaped pieces. The maximum temperature is 1050°C for the system. Gases used are O<sub>2</sub>, Steam from DI-H<sub>2</sub>O, N<sub>2</sub>.
Each process tube can accomodate up to one hundred 8” wafers per cycle. We have boats for 2", 3", 4", 6", 8" and irregular shaped pieces. The maximum temperature is 1100°C for the system. Gases used are O<sub>2</sub>, Steam from DI-H<sub>2</sub>O, N<sub>2</sub>.


=Process Information=
=Process Information=

Revision as of 16:48, 20 April 2020

Tube Furnace (Tystar 8300)
Tystar.jpg
Tool Type Thermal Processing
Location Bay 4
Supervisor Tony Bosch
Supervisor Phone (805) 893-3486
Supervisor E-Mail bosch@ece.ucsb.edu
Description Tystar 8" 3-Tube Oxidation/Annealing System
Manufacturer Tystar Corporation
Model Tystar 8300
Sign up for this tool


About

The three stack Tystar 8” furnace is used primarily for 3 processes. The processes are dedicated for specific tubes as follows:

  • Tube #1: SOG curing & low-temp oxidation
  • Tubes #2 and #3: Dry or wet oxidation of silicon (unprocessed, clean)
  • Tube #3: General furnace annealing & oxidation, including processed material

Each process tube can accomodate up to one hundred 8” wafers per cycle. We have boats for 2", 3", 4", 6", 8" and irregular shaped pieces. The maximum temperature is 1100°C for the system. Gases used are O2, Steam from DI-H2O, N2.

Process Information

Recipe Characterization Data, such as thermal oxidation times, can be found on the recipe page:

Use the BYU or Stanford Leland Jr. Thermal Oxidation Calculators to determine the time and temperature that will be necessary for your process needs. You can "calibrate" your oxidations to the Stanford calculator by adjusting the Partial Pressure on the calculator to match your experimental data.

Keep in mind that all process must be 30 minutes in length at a minimum. Processes less than 30 minutes will suffer from poor uniformity because the process tube will not have sufficient time to saturate with O2 or DI-H2O.

Recipes

The following are the available recipes on each furnace tube:

Tube 1:

  • SOG425.001 - Spin-On Glass Cure
  • ALGAAS.001 - Oxidation of AlGaAs

Tube 2:

  • WET1050.002 - WetOx at 1050°C
  • DRY1050.002 - DryOx at 1050°C
  • WETVAR.002 - WetOx, variable temp.
  • DRYVAR.002 - DryOx, variable temp.

Tube 3:

  • WET1050.003 - WetOx at 1050°C
  • DRY1050.003 - DryOx at 1050°C
  • WETVAR.003 - WetOx, variable temp.
  • DRYVAR.003 - DryOx, variable temp.
  • ANNEAL.003 - Anneal with variable time and temperature

Useful Information

Tystar Wafer Boat Drawing - 4" Wafer with 0.5mm Slots

See Also

Operational Instructions

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