Controller chip
Jump to navigation
Jump to search
Description
The idea behind the microcontroller unit is its role as a cost-effective and energy-efficient processor designed for specific applications. Over the past few years, some of these devices have significantly increased in capability, leading to a blurring of the traditional definition of a microcontroller. Nowadays, controller chips are integrated into various devices such as Metal Detectors, Wearables, SSDs and CPUs.
Recipes
The starting point for the controller chip is a n-type Silicon Wafer with a SiO2 layer.
- Step 1.1 Get the Mask (Ctrl 1st well) from the Mask Writer.
Mask Writer
| Outputs | Components | Recipe |
|---|---|---|
   |
- Step 1.2 Use the Silicon Wafer (N-type) SiO2, Mask (Ctrl 1st well), Vial (Positive Photoresist) and a UV bulb in the Contact Printer to imprint the etching pattern and obtain the Silicon Wafer Ctrl 1.
Contact Printer
| Outputs | Components | Recipe |
|---|---|---|
    |
- Step 1.3 Use the Silicon Wafer Ctrl 1 and Vial (Ammonium Fluoride Etchant) in the Chemical Processor to etch the 1st wells and obtain Silicon Wafer Ctrl 2.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
 1 |
- Step 1.4 Use the Silicon Wafer Ctrl 2 and Vial (Photoresist Stripper SPM) in the Chemical Processor to remove the photoresist and obtain Silicon Wafer Ctrl 3.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 1.5 Use the Silicon Wafer Ctrl 3 in the Wafer Washer to clean the wafer of photoresist residues and obtain Silicon Wafer Ctrl 4.
Wafer Washer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 1.6 Use the Silicon Wafer Ctrl 4, a bag of boron and Mask (Ctrl 1st well) in the Ion Bean to seed the 1st well with ions and obtain Silicon Wafer Ctrl 5.
Ion Beam
| Outputs | Components | Recipe |
|---|---|---|
 1 |
- Step 1.7 Use the Silicon Wafer Ctrl 5 and an Oxygen Cartridge in the O2 furnace to grow a SiO2 layer in the wafer and obtain Wafer Ctrl 6.
O2 Furnace
| Outputs | Components | Recipe |
|---|---|---|
 1 |
- Step 2.1 Get the Mask (Ctrl 2nd well) from the Mask Writer..
Mask Writer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 2.2 Use the Silicon Wafer Ctrl 6, Mask (Ctrl 2nd well), Vial (Positive Photoresist) and a UV bulb in the Contact Printer to imprint the etching pattern and obtain the Silicon Wafer Ctrl 7.
Contact Printer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 2.3 Use the Silicon Wafer Ctrl 7 and Vial (Ammonium Fluoride Etchant) in the Chemical Processor to etch the 2nd wells and obtain Silicon Wafer Ctrl 8.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 2.4 Use the Silicon Wafer Ctrl 8 and Vial (Photoresist Stripper SPM) in the Chemical Processor to remove the photoresist and obtain Silicon Wafer Ctrl 9.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 2.5 Use the Silicon Wafer Ctrl 9 in the Wafer Washer to clean the wafer of photoresist residues and obtain Silicon Wafer Ctrl 10.
Wafer Washer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 2.6 Use the Silicon Wafer Ctrl 10, a bag of phosphorus and Mask (Ctrl 2nd well) in the Ion Bean to seed the 2nd well with ions and obtain Silicon Wafer Ctrl 11.
Ion Beam
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 3.1 Get the Mask (Ctrl Metal 1) from the Mask Writer..
Mask Writer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 3.2 Use the Silicon Wafer Ctrl 11, Mask (Ctrl Metal 1), Vial (Positive Photoresist) and a UV bulb in the Contact Printer to imprint the etching pattern and obtain the Silicon Wafer Ctrl 12.
Contact Printer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 3.3 Use the Silicon Wafer Ctrl 12 and Vial (Ammonium Fluoride Etchant) in the Chemical Processor to etch the metal contacts and obtain Silicon Wafer Ctrl 13.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 3.4 Use the Silicon Wafer Ctrl 13 and Vial (Photoresist Stripper SPM) in the Chemical Processor to remove the photoresist and obtain Silicon Wafer Ctrl 14.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 3.5 Use the Silicon Wafer Ctrl 14 in the wafer washer to clean the wafer of photoresist residues and obtain Silicon Wafer Ctrl 15.
Wafer Washer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 3.6 Use the Silicon Wafer Ctrl 15 and a copper nugget for Atomic Layer Deposition to create a copper layer in the wafer and obtain Silicon Wafer Ctrl 16.
Atomic Layer Deposition
| Outputs | Components | Recipe |
|---|---|---|
 1 |
- Step 4.1 Get the Mask (ctrl Metal 2) from the Mask Writer..
Mask Writer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 4.2 Use the Silicon Wafer Ctrl 16, Mask (Ctrl Metal 2), Vial (Positive Photoresist) and a UV bulb in the Contact Printer to imprint the etching pattern and obtain the Silicon Wafer Ctrl 17.
Contact Printer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 4.3 Use the Silicon Wafer Ctrl 17 and Vial (Copper Etchant) in the Chemical Processor to etch the excess copper and obtain Silicon Wafer Ctrl 18.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 4.4 Use the Silicon Wafer Ctrl 18 and Vial (Photoresist Stripper SPM) in the Chemical Processor to remove the photoresist and obtain the Unwashed Controller Die Wafer.
Chemical Processor
| Outputs | Components | Recipe |
|---|---|---|
1 |
- Step 4.5 Use the Unwashed Controller Die Wafer in the Wafer Washer to clean the wafer of photoresist residues and obtain the Controller Die Wafer.
Wafer Washer
| Outputs | Components | Recipe |
|---|---|---|
|
- Step 4.6 Use the Controller Die Wafer in the Stone Cutter to obtain the Controller Die.
Stonecutter
| Outputs | Components | Recipe |
|---|---|---|
![[Controller Die Wafer] Controller Die Wafer](/images/1/15/Finished_wafer.png){kind=small}  16 |
- Step 4.7 Use a Controller Die, the Enclosure and the Interconnection Array in the Crafting Table to obtain the Controller Chip.
Crafting Table
| Outputs | Components | Recipe |
|---|---|---|
   |
History
Semiconductor module 1.0
Gallery
