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Initial Oxidation

The initial oxidation will be used as a diffusion barrier during the predeposition steps. It must be sufficiently thick to prevent unwanted parasitic junctions. Figures F.6.6. and F.6.7. in Anner's text can be used to evaluate the minimum oxide thickness required for the boron predeposition which will follow. According to the empirical graphs, the minimum thickness required is much less than what will be grown in the initial oxidation. Why?

The thicker oxide is needed by the steppers in order to resolve the targets. A minimum of 2000Å oxide thickness is required for proper contrast of the alignment signals. In order to provide as robust a process as possible, this thickness is approximately doubled …just in case someone makes a mistake!

Equipment

  • Lindbergh-Tempress 8500 manual oxidation furnace chamber 8C.

Supplies

  • O2
  • N2
  • H2

Operating parameters

  • Furnace temperature: 1100°C
  • N2 flow
    • standby: 110 ± 10
    • processing: 0
  • O2 flow
    • standby: 0
    • processing: 110 ± 10
  • H2 flow
    • standby: 0
    • processing: 40 ± 10
  • The oxidation will consist of three steps:
    • 15 min dry oxidation (O2 only)
    • 30 min steam oxidation (H2 and O2)
    • 10 min dry oxidation (O2 only)

Equipment/controls/tools locations

  • Temperature controller: on the side of the furnace
  • Gas panel: third rack from the top in the back of the furnace
  • Quartz handling: covered cart is to the left of the furnace, tongs are inside
  • Boat: at the mouth of the furnace

Operating precautions

High temperatures

Use the high temperature gloves when handling hot equipment.

Contamination issues

  • Quartware is easily contaminated by alkali ions. This leads to premature quartz failure (breakage) due to devitrification as well as unstable MOSFET Vt. Once quartz is contaminated, little can be done to remove the contamination.
  • Always wear latex gloves when working with the furnace.
  • N2 should always be flowing in standby to minimize contamination by backstreaming of air in the room into the hot chamber.

Operating procedure

Load wafers into boat

  1. Put the high temperature gloves on over your latex gloves.
  2. Unload the quartz wafer boat from the mouth of the furnace 8C using the quartz tongs
  3. Carefully transfer the furnace boat to the quartz rack on the cart. Leave the tongs under the boat.
  4. Remove the high temp gloves.
  5. Transfer the wafers that have just been RCA cleaned into the furnace boat using clean tweezers.
    • Be sure that the wafers are in the right set of slots – they should be perpendicular to the sides of the boat.
    • If the wafer is placed at an angle on the boat there is a good chance that it will break due to unintentional torque during unloading.
    • There are wafers already in the boat – these are guard wafers. They serve two purposes:
      • Protecting processed wafers from damage due to the pushrod.
      • Establishing the correct flow pattern around the boat – the first and last wafers will see the greatest variation in growth rate across the wafer.

Load boat into the furnace

  1. Put on the high temp gloves again.
  2. Using the quartz tongs, reload the wafer boat into the mouth of chamber 8C.
  3. Remove the quartz fork and replace on the quartz rack on the cart.
  4. Using the pushrod located directly next to chamber 8C, slowly push the boat into the center of the furnace.
    • The push should take at least 30 seconds from start to center.
    • The center of the furnace is located using the metal tape on the pushrod.
    • When the tape is lined up with the outside edge of the furnace vestibule, the wafer boat is in the center of the furnace.
    • Do not handle the pushrod past the metal tape. This is to prevent contamination.
    • Under no circumstance should the pushrod be inserted so far that the tape enters the mouth of the furnace. What is tape adhesive made of? Organics. What do organics do in furnaces? Contaminate!
  5. Withdraw the quartz pushrod and let it cool for 20-30 seconds before placing back into the storage tube.
  6. Cover the mouth of the furnace.

Start dry oxidation (15 min)

  1. Open the doors of the gas cabinet (at the back of the furnace) and press the O2 button on the gas panel.
    • Start the timer
    • The green LED by O2 will light and a click will be heard indicating the O2 solenoid has opened
    • Check the flow by looking at the rotameter labeled O2. It should be flowing 110 ± 10
    • If it is not correct, notify your instructor. The instructor will set the correct flow.
  2. Quickly press the N2 button.
    • The green LED by N2 will go out
    • A click will be heard indicating the N2 solenoid has closed
    • The flow of the rotameter labeled N2 should be 0. Notify your instructor if it is not.

Clean up

  • Return the Teflon wafer boat to a quartz plate in the SC-1 fume hood.
  • Straighten up the furnace area.

Start steam oxidation (30 min)

  1. After 15 min of dry oxidation, press the H2 button.
    • The green LED by the H2 button will light
    • A click will be heard indicating the H2 solenoid has opened
    • The flow of the rotameter labeled H2 should be 40 ± 10. If it is not, notify your instructor.
    • The injector will transmit part of the light from the flame (it will glow blue).
    • The O2 and H2 will burn, producing water vapor (pyrogenic steam).
  2. Start timing

Start dry oxidation (10 min)

  1. After 30 min of steam oxidation, press the H2 button again.
    • The final dry oxidation will last 10 min
  2. The green LED by the H2 will go out
  3. A click will be heard indicating the H2 solenoid has closed
  4. The rotameter labeled H2 should read 0. If it is not, notify your instructor.
  5. Start timing

Unloading the boat from the furnace

  1. After 10 min of dry oxidation, press the N2 button, then the O2 button.
    • The green LED by the N2 button will light, the green LED by the O2 button will go out
    • N2 is turned on before turning off the O2
    • This keeps a constant flow of gas through the furnace chamber
    • The rotameter labeled N2 should read 110 ± 10 and the rotameter labeled O2 should read 0. If either one is not flowing correctly, notify your instructor.
  2. Put the high temp gloves on over latex gloved hands.
  3. Using the pushrod located next to chamber 8C withdraw the boat slowly to the mouth of the furnace.
    • Once again a slow pull is used to prevent uneven cooling of the wafer.
  4. Once the boat has reached the mouth of chamber 8C, unhook the pushrod and allow to cool for 20 – 30 seconds before returning the pushrod to the storage tube.
  5. Using the quartz tongs that are on the quartz rack on the cart, remove the wafer boat from the mouth of the furnace and transfer the boat to the quartz rack on the cart.
  6. Remove the high temp gloves.

Unloading the wafers

  1. Using clean tweezers, remove the wafer from the boat.
    • Pull the wafer with the tweezers straight up out of the boat.
  2. Allow to the wafer to cool for 20 – 30 seconds to prevent melting of the wafer container.
  3. Place the wafer into the wafer container and close the lid.
  4. Put the high temp gloves on over latex gloved hands.
  5. Transfer the boat back to the mouth of the chamber for storage.

IC Process

  1. RCA clean

  2. Initial oxidation

  3. Mask 1

  4. Mask 1 etch

  5. Mask 1 PR removal

  6. Boron predep

  7. BSG etch

  8. Boron drive

  9. Mask 2

10. Mask 2 etch

11. Mask 2 PR removal

12. Phosphorus predep

13. PSG Etch

14. Mask 3

15. Mask 3 etch

16. Mask 3 removal

17. Gate oxidation

18. Mask 4

19. Mask 4 etch

20. Mask 4 removal

21. Mask 5

22. Evaporation

23. Lift off

24. Anneal


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