Specific Process Knowledge/Thermal Process/BCB Curing Oven: Difference between revisions

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''This page is written by DTU Nanolab  internal''
[[Category: Equipment |Thermal BCB]]
[[Category: Equipment |Thermal BCB]]
[[Category: Thermal process|BCB]]
[[Category: Thermal process|BCB]]


== BCB Curing Oven ==
== BCB Curing Oven ==
[[image:BCB oven.jpeg|350x350px|right|thumb|The BCB Curing Oven. Positioned in the A-4 room]]
[[image:BCB oven.jpeg|350x350px|right|thumb|The BCB Curing Oven. Positioned in room Cx1/ Photo: DTU Nanolab internal]]


The BCB Curing Oven is mainly used for curing of BCB (bisbenzocyclobutene) and for alloying of metals in a nitrogen atmosphere.
The BCB Curing Oven is mainly used for curing of BCB (bisbenzocyclobutene) and for alloying of some metals in a nitrogen atmosphere.


During processing the furnace is rapidly heated by use of eight halogen lamps situated below the sample. The furnace is purged with a high or a low nitrogen flow. Samples are processed at atmospheric pressure or at vacuum.
During processing the oven is rapidly heated by use of eight halogen lamps situated below the sample. The maximum allowed temperature is 450 <sup>o</sup>C.
 
The oven is purged with a nitrogen flow (high or low flow). Samples are processed at atmospheric pressure or at vacuum.




Line 20: Line 23:
Here are some of the standard processes used in the BCB Curing Oven.
Here are some of the standard processes used in the BCB Curing Oven.


=== BCB curing:===
=== BCB curing===
 
An example of a curing recipe (BCB250BL.PDF) for a long curing process at 250°C is shown below.


* Long curing at 210°C: BCB210AL.PDF/[[file:BCB210BL.PDF|BCB210BL.PDF]]
Content of BCB250BL.PDF:  
* Long curing at 250°C: BCB250AL.PDF/[[file:BCB250BL.PDF|BCB250BL.PDF]]
<pre>
;
; stored 31.08.2011  at 17:55:33
{P0}
00,00:30,0020,- - - - 3 - - - -,075,250,001,005,028
01,00:10,0020,- - - 2 - - - - -
02,00:30,0020,- - - - 3 - - - -
03,00:10,0020,- - - 2 - - - - -
04,05:00,0050,H - - 2 - - - - -
05,05:00,0050,H C - 2 - - - - -
06,15:00,0100,H - 1 - - - - - -
07,45:00,0100,H C 1 - - - - - -
08,15:00,0150,H - 1 - - - - - -
09,81:00,0150,H C 1 - - - - - -
10,60:00,0250,H - 1 - - - - - -
11,60:00,0250,H C 1 - - - - - -
12,15:00,0020,- C 1 - - - - - -
13,30:00,0020,- C 1 - - - - - -
14,00:00,0010,- C - - - - - - -
</pre>


The AL/BL processes are (should be) identical except for a (2x) pump/purge cycle in the beginning of the BL processes.


===General processes===
===General processes===


There are a number of general processes named DxxxCyyy.PDF.  
There are a number of general processes on the oven named DxxxCyyy.PDF.  


The Dxxx is the set temperature (in °C) and the Cyyy is the time (in minutes) at the set temperature.
The "Dxxx" in the recipe is the set temperature (in °C) and the "Cyyy" is the time (in minutes) at the set temperature.


The oven heats to the set temperature (xxx) in 5 mins and then stays at the temperature (xxx) for a time (yyy) after which it cools to room temperature as fast as possible.
The oven heats to the set temperature (xxx) in 5 mins and then stays at the temperature (xxx) for a time (yyy), after which it cools to room temperature as fast as possible.


The program sequence looks like this for the file D200C060.PDF:
The program sequence looks like this for the file D200C060.PDF:
Line 61: Line 84:
|style="background:LightGrey; color:black"|Temperature
|style="background:LightGrey; color:black"|Temperature
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
*22 - 450<sup>o</sup>C
*Room temperature - 450<sup>o</sup>C
|-
|-
|style="background:LightGrey; color:black"|Nitrogen flows
|style="background:LightGrey; color:black"|Nitrogen flows
Line 88: Line 111:
*Quartz
*Quartz
*Resist (prebaked)
*Resist (prebaked)
*Metal (only Al, Ni, Ge and Au)
*Metals (only Al, Ni, Ge and Au)
|-  
|-  
|}
|}

Revision as of 14:19, 31 January 2023

Feedback to this page: click here

This page is written by DTU Nanolab internal

BCB Curing Oven

The BCB Curing Oven. Positioned in room Cx1/ Photo: DTU Nanolab internal

The BCB Curing Oven is mainly used for curing of BCB (bisbenzocyclobutene) and for alloying of some metals in a nitrogen atmosphere.

During processing the oven is rapidly heated by use of eight halogen lamps situated below the sample. The maximum allowed temperature is 450 oC.

The oven is purged with a nitrogen flow (high or low flow). Samples are processed at atmospheric pressure or at vacuum.


The user manual, user APV, technical information and contact information can be found in LabManager:

BCB Curing Oven

Process information

Here are some of the standard processes used in the BCB Curing Oven.

BCB curing

An example of a curing recipe (BCB250BL.PDF) for a long curing process at 250°C is shown below.

Content of BCB250BL.PDF:

;
; stored 31.08.2011  at 17:55:33
{P0}
00,00:30,0020,- - - - 3 - - - -,075,250,001,005,028
01,00:10,0020,- - - 2 - - - - -
02,00:30,0020,- - - - 3 - - - -
03,00:10,0020,- - - 2 - - - - -
04,05:00,0050,H - - 2 - - - - -
05,05:00,0050,H C - 2 - - - - -
06,15:00,0100,H - 1 - - - - - -
07,45:00,0100,H C 1 - - - - - -
08,15:00,0150,H - 1 - - - - - -
09,81:00,0150,H C 1 - - - - - -
10,60:00,0250,H - 1 - - - - - -
11,60:00,0250,H C 1 - - - - - -
12,15:00,0020,- C 1 - - - - - -
13,30:00,0020,- C 1 - - - - - -
14,00:00,0010,- C - - - - - - -


General processes

There are a number of general processes on the oven named DxxxCyyy.PDF.

The "Dxxx" in the recipe is the set temperature (in °C) and the "Cyyy" is the time (in minutes) at the set temperature.

The oven heats to the set temperature (xxx) in 5 mins and then stays at the temperature (xxx) for a time (yyy), after which it cools to room temperature as fast as possible.

The program sequence looks like this for the file D200C060.PDF:

;
; stored 31.08.2011  at 18:15:47
{P0}
00,05:00,0200,H - - 2 - - - - -,075,250,001,005,028
01,60:00,0200,H C 1 - - - - - -
02,05:00,0002,- C 1 - - - - - -
03,00:00,0000,- C - - - - - - -

Equipment performance and process related parameters

Equipment BCB Curing Oven
Purpose
  • BCB curing
  • Metal alloying
Process parameter range Temperature
  • Room temperature - 450oC
Nitrogen flows
  • Low N2 flow: 5 SLM
  • High N2 flow: Max 16.7 SLM
Pressure
  • Atmospheric pressure or vacuum
Substrates

(Remember to use the right carrier wafer)

Batch size
  • Several small samples
  • One 50 mm wafer
  • One 100 mm wafer
Allowed materials
  • BCB
  • III-V materials
  • Co-polymer
  • Silicon, silicon oxide, silicon nitride
  • Quartz
  • Resist (prebaked)
  • Metals (only Al, Ni, Ge and Au)