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Dilbert
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Next steps in the antenna fabrication process
Create a dielectric surface. The antenna must sit on a dielectric or insulating surface, not a semi-conducting surface. Determine the best conductor for the antenna. The actual antenna will be made out of a conducting metal
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High Temperature Furnace (used to grow SiO2 on the wafer)
Gas Control Cabinet Robot loader Quartz tube Quartz wafer carrier Temperatures can range from 900oC to 1200oC with uniformity of 2oC over a distance of 36 inches
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Quartz wafer carrier is never removed from robot arm
Furnaces are color coded to prevent contamination. Furnace # 7 is marked as “RED” and is used only for silicon dioxide formation on virgin clean wafers Quartz wafer carrier is never removed from robot arm
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Oxygen tanks in service bay
Check oxygen tanks in service bay for proper pressure
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Hydrogen tank in service bay
Check hydrogen tank for proper pressure
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Furnace gas cabinet-controls the atmosphere inside each furnace tube
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Gas panel for furnace #6
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Verify all gauges read about 20 psi
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Power lamp does not work
Manual mode only Nitrogen gas is ALWAYS “ON” T/C POS and Auto Ign “ON”
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Loading wafers Wafers are loaded into quartz oxidation boats at the furnace. Quartz boats are NEVER moved or touched
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Robot Loader to insert and remove wafers from the furnace
Speed is NOT adjusted Load/Unload switch
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Wafers entering the furnace
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Typical Oxidation Process
Load in N2 5 minutes in N2 and O2 (dry oxidation) 30-60 minutes N2+O2+H2 (wet oxidation or steam oxidation) 5 minutes in N2 +O2 Unload in N2
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Wafers being unloaded Wafers are unloaded at the robot arm. Again, the quartz boats are never moved or touched
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Once the SiO2 is formed, the wafers will have a different color, wafer color is based on the thickness of the SiO2
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Besides being a dielectric (insulating) layer, the SiO2 has another very important role to play in microelectronics, that of a barrier to the doping of silicon
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n-type silicon wafer shown in cross-section
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At high temperature with an oxygen atmosphere the silicon dioxide forms on all silicon surfaces
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Using a photolithography process, small holes are created in the silicon dioxide exposing bare silicon
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Again, at high temperature, a p-type dopant (boron) is introduced
Again, at high temperature, a p-type dopant (boron) is introduced. The boron can not penetrate the silicon dioxide but can penetrate the bare silicon and diffuses into the silicon forming a p-n junction
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If a diode was the end product, the silicon dioxide is removed from the back side (if not already removed in previous steps) and metal contacts, usually aluminum are deposited on top and bottom creating a p-n diode. For more complex devices, the steps are repeated
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Once the dielectric has been formed on the silicon wafer
It is time to decide on a conductor to create the antenna. Conductor attributes will be evaluated Your team will create a decision matrix using a simple EXCEL spreadsheet to determine the conductor for your project The conductor chosen will be deposited on your wafers next week
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Conductor Attributes
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Sample Conductor Decision Matrix
Create a title for the spreadsheet Decide on weights for each attribute Decide on conductor rank for each attribute based on attributes chart Multiply weight times rank for each conductor Add the columns The conductor of choice is the one with the largest total
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Homework Create a conductor decision matrix using the conductor attributes chart. Homework #9 on the web site Both the conductor attributes chart and a sample decision matrix are available on the web site This is a team assignment, only one per team Preview before submission Make sure entire spreadsheet prints on one page Include “Title” with team name Use gridlines Highlight the conductor of choice
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Test on Monday Multiple choice plus some calculation problems
Test will cover Four research areas – Cellular, “Bluetooth” & Wi-Fi, RFID, GPS Clean room safety and protocols Finding wavelength from frequency and finding frequency from wavelength Study guide will be sent via
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