Autostep 200 Mask Making Guidance: Difference between revisions

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(→‎Alignment Marks: adde Vernier CAD file)
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*Magnification: 5x (assuming CAD file shows on-wafer patterns)
*Magnification: 5x (assuming CAD file shows on-wafer patterns)
*Right Reading if Chrome is Down (assuming CAD file shows on-wafer patterns)
*Right Reading if Chrome is Down (assuming CAD file shows on-wafer patterns)
*Barcode is optional, but recommended.
*Instruct vendor that design is for a "'''''GCA AutoStep200 with 5x reduction'''''".
*You can insert your design into the photomask template yourself (below) with no barcode, or ask the vendor to insert your 1x (wafer-scale) design into the appropriate GCA template and they can add a barcode.


== CAD Files ==
==CAD Files==


*[https://wiki.nanotech.ucsb.edu/w/images/c/c4/GCA_Stepper_MaskPlate_Master-DarkField_5x.gds Photomask Template: Dark-field (polygons/objects are clear) at 5x Magnification (GDS)]
*[https://wiki.nanotech.ucsb.edu/w/images/c/c4/GCA_Stepper_MaskPlate_Master-DarkField_5x.gds Photomask Template: Dark-field (polygons/objects are clear) at 5x Magnification (GDS)]
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*[https://wiki.nanotech.ucsb.edu/w/images/9/92/GCA_Global_Mark.gds Alignment Marks CAD File] can be downloaded here.
*[https://wiki.nanotech.ucsb.edu/w/images/9/92/GCA_Global_Mark.gds Alignment Marks CAD File] can be downloaded here.


=== Test Structures ===
===Test Structures===


* ''Vernier Scales:'' These can be included to quantify the alignment offset after an exposure is done.  The reticle handbook has an example of vernier scales on pages 5-49 to 5-53.  You should include them for any layers that require critical alignment.
*''Vernier Scales:'' These can be included to quantify the alignment offset after an exposure is done.  The reticle handbook has an example of vernier scales on pages 5-49 to 5-53.  You should include them for any layers that require critical alignment.
* ''Resolution:''  If you have room in the mask layout, it is good to have features that can give the resolution of a given exposure.  The resolution should show both “pillars” and “trenches” in the resist so that you can see whether the focus or exposure needs some tweaking for your particular process.
*''Resolution:''  If you have room in the mask layout, it is good to have features that can give the resolution of a given exposure.  The resolution should show both “pillars” and “trenches” in the resist so that you can see whether the focus or exposure needs some tweaking for your particular process.

Revision as of 17:00, 1 February 2022

Photomask Ordering Info

  • Plate Material: Soda-Lime or Quartz / Chrome
  • Dimensions: 5" x 5" x 0.090"
  • Magnification: 5x (assuming CAD file shows on-wafer patterns)
  • Right Reading if Chrome is Down (assuming CAD file shows on-wafer patterns)
  • Barcode is optional, but recommended.
  • Instruct vendor that design is for a "GCA AutoStep200 with 5x reduction".
  • You can insert your design into the photomask template yourself (below) with no barcode, or ask the vendor to insert your 1x (wafer-scale) design into the appropriate GCA template and they can add a barcode.

CAD Files

Mask Layout

  • Maximum single-image size: 14.8 x 14.8 mm at wafer-scale (74mm square at 5x reticle-scale).
  • For multiple Images per photomask mask: ≥1mm (wafer-scale) / ≥5mm @ 5x mask-scale of chrome in between adjacent Images/patterns.
  • For multiple Images per photomask, you'll need to calculated the distance, in mm, for the shutter blade positions to block off the unwanted regions of the mask.
    • There are 4 shutter blades, XL(left)/XR(right)/YF(front)/YR(rear), that start at Position=0mm (not blocking any part of the mask), and can extend up to Position=97mm, blocking the entire mask. For the first 13mm (Position = 0→13mm), nothing is blocked on the photomask.
    • Remember that the photomask is rotated 180° from how it's loaded into the reticle box.

Alignment Marks

Alignment marks in exposure field, Global, Local (DFAS).  To learn more about how these alignment marks work with the system, see the reticle handbook.  In our system we mainly use manual global alignment to get +/- 0.25 or better alignment tolerance. Local alignment can be used but needs some characterization for each process.

  • Global alignment marks:  These marks and how to place them on the mask are described on page 5-44 to 5-47 of the reticle handbook and are included as an attachment to this document (attach document). The difference of our system from the manual is that the objectives are 63.5 mm apart, not 76.2 mm as indicated in the manual.  The distance of this mark (or marks) to the center of the cell in X and Y should be noted, this is the key offset and will be required when exposing a job.  (Positive offset values are left for X and up for Y)
  • Local alignment marks:  These marks and how to place them on the mask are described on page 5-33 to 5-34 of the reticle handbook and are included as an attachment to this document.  If possible use one of each type if you desire to try to use local alignment. These can be light or dark field in nature.  The distance of the center point of this mark (or marks) to the center of the cell in X and Y should be noted, this is the key offset and will be required when exposing a job.
  • Alignment Marks CAD File can be downloaded here.

Test Structures

  • Vernier Scales: These can be included to quantify the alignment offset after an exposure is done.  The reticle handbook has an example of vernier scales on pages 5-49 to 5-53.  You should include them for any layers that require critical alignment.
  • Resolution:  If you have room in the mask layout, it is good to have features that can give the resolution of a given exposure.  The resolution should show both “pillars” and “trenches” in the resist so that you can see whether the focus or exposure needs some tweaking for your particular process.