Specific Process Knowledge/Thin film deposition/Furnace LPCVD PolySilicon: Difference between revisions

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{| border="2" cellspacing="0" cellpadding="2"  
{| border="2" cellspacing="0" cellpadding="2"  
!colspan="2" border="none" style="background:silver; color:black;" align="center"|Equipment
|style="background:WhiteSmoke; color:black"|<b>4" LPCVD polysilicon furnace (B3)</b>
|style="background:WhiteSmoke; color:black"|<b>6" LPCVD polysilicon furnace (E2)</b>
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!style="background:silver; color:black;" align="center"|Purpose  
!style="background:silver; color:black;" align="center"|Purpose  
|style="background:LightGrey; color:black"|Deposition of LPCVD polysilicon
|style="background:LightGrey; color:black"|Deposition of  
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
6" furnace:
*Standard polySi
*Amorphous polySi
*Boron doped polySi (BCl<sub>3</sub> dopant)
4" furnace:
*Standard polySi
*Standard polySi
*Amorphous polySi
*Amorphous polySi
*Boron doped polySi (B<sub>2</sub>H<sub>6</sub> dopant)
*Boron doped polySi (B<sub>2</sub>H<sub>6</sub> dopant)
*Phosphorus doped polySi
*Phosphorus doped polySi
|-
!style="background:silver; color:black" align="center" valign="center" rowspan="3"|Performance
|style="background:LightGrey; color:black"|Film thickness
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
6" furnace:
*Standard polySi: 0-2000 nm
*Amorphous polySi: 0-1000 nm
*Boron doped polySi: 0-1000 nm
4" furnace:
4" furnace:
*Standard polySi: 0-2000 nm
*Standard polySi
*Amorphous polySi: 0-2000 nm
*Amorphous polySi
*Boron doped polySi: 0-2000 nm
*Boron doped polySi (BCl<sub>3</sub> dopant)
*Phosphorus doped polySi: 0-1000 nm
Thicker layers have to be deposited over more runs
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|-
!style="background:silver; color:black" align="center" valign="center" rowspan="2"|Performance
|style="background:LightGrey; color:black"|Step coverage
|style="background:LightGrey; color:black"|Step coverage
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
*Good
*Very Good
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*Very good
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|style="background:LightGrey; color:black"|Film quality
|style="background:LightGrey; color:black"|Film quality
|style="background:WhiteSmoke; color:black"|
*Deposition on both sides of the substrate
*Good uniformity over the wafer
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
*Deposition on both sides of the substrate
*Deposition on both sides of the substrate
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|style="background:LightGrey; color:black"|Process Temperature
|style="background:LightGrey; color:black"|Process Temperature
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
6" furnace:
*Standard polySi: 620 <sup>o</sup>C
*Standard polySi: 620 <sup>o</sup>C
*Amorphous polySi: 560-580 <sup>o</sup>C
*Amorphous polySi: 560-580 <sup>o</sup>C
*Boron doped polySi: 600-620 <sup>o</sup>C
*Boron doped polySi: 620 <sup>o</sup>C
4" furnace:
*Phosphorus doped polySi: 620 <sup>o</sup>C
|style="background:WhiteSmoke; color:black"|
*Standard polySi: 620 <sup>o</sup>C
*Standard polySi: 620 <sup>o</sup>C
*Amorphous polySi: 560-580 <sup>o</sup>C
*Amorphous polySi: 560-580 <sup>o</sup>C
*Boron doped polySi: 620 <sup>o</sup>C
*Boron doped polySi: 600-620 <sup>o</sup>C
*Phosphorus doped polySi: 620 <sup>o</sup>C
 
The process temperature vary over the furnace tube
The process temperature vary over the furnace tube
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|-
|style="background:LightGrey; color:black"|Process pressure
|style="background:LightGrey; color:black"|Process pressure
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
6" furnace:
*250 mTorr
|style="background:WhiteSmoke; color:black"|
*150-220 mTorr
*150-220 mTorr
4" furnace:
*250 mTorr
The process pressure depends on the actual process
The process pressure depends on the actual process
|-
|-
|style="background:LightGrey; color:black"|Gas flows
|style="background:LightGrey; color:black"|Gas flows
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
6" furnace:
*SiH<sub>4</sub>: 50-70 sccm
*BCl<sub>1</sub>: 1 sccm
4" furnace:
*SiH<sub>4</sub>: 80 sccm
*SiH<sub>4</sub>: 80 sccm
*B<sub>2</sub>H<sub>6</sub>: 7 sccm
*B<sub>2</sub>H<sub>6</sub>: 7 sccm
*PH<sub>3</sub>: 7 sccm
*PH<sub>3</sub>: 7 sccm
The silane (SiH<sub>4</sub>) flow depends on the actual process
The silane (SiH<sub>4</sub>) flow depends on the actual process
|style="background:WhiteSmoke; color:black"|
*SiH<sub>4</sub>: 50-70 sccm
*BCl<sub>1</sub>: 1 sccm
|-
|-
!style="background:silver; color:black" align="center" valign="center" rowspan="2"|Substrates
!style="background:silver; color:black" align="center" valign="center" rowspan="2"|Substrates
|style="background:LightGrey; color:black"|Batch size
|style="background:LightGrey; color:black"|Batch size
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
6" furnace:
*1-20 100 wafers
*1-25 4" wafers or 6" wafers per run
Including a testwafer with ~110 nm oxide
4" furnace:
|style="background:WhiteSmoke; color:black"|
*1-30 4" wafers per run
*1-25 (or 50) 100 mm wafers
Deposition on both sides of the substrate
*1-25 (or 50) 150 mm wafers
Including a testwafer with ~110 nm oxide
|style="background:WhiteSmoke; color:black"|
|-
|-
| style="background:LightGrey; color:black"|Substrate materials allowed
| style="background:LightGrey; color:black"|Substrate materials allowed
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
*Silicon wafers (only clean wafers):
*Silicon wafers (new or RCA cleaned)
**with layers of silicon oxide or silicon (oxy)nitride (RCA cleaned)
**with layers of silicon oxide or silicon (oxy)nitride  
**from furnaces in stack A or B in cleanroom 2
**from the A, B and E stack furnaces
*Quartz wafers (RCA cleaned)
*Quartz/fused silica wafers (RCA cleaned)
|style="background:WhiteSmoke; color:black"|
*Silicon wafers (new or RCA cleaned)
**with layers of silicon oxide or silicon (oxy)nitride
**from the A, B and E stack furnaces
*Quartz/fused silica wafers (RCA cleaned)
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Revision as of 11:37, 28 January 2014

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LPCVD (Low Pressure Chemical Vapor Deposition) PolySilicon

A4 Furnace PolySilicon (situated in cleanroom 2
E2 Furnace Poly-Silicon 6 inch (situated in cleanroom 2

Danchip has two furnaces for deposition of LPCVD polysilicon: A new 6" furnace (installed in 2011) for deposition of standard polySi, amorphous polySi and boron doped polySi on 4" or 6" wafers and an older 4" furnace (installed in 1995) for deposition of standard polySi, amorphous polySi, boron- and phosphorous doped polySi on 4" wafers. In LabManager the two furnaces are named "Furnace: LPCVD Poly-Si" and "Furnace: LPCVD Poly-Silicon 6inch", respectively. Both furnaces are Tempress horizontal furnaces.

The LPCVD polysilicon deposition is a batch process, where polySi is deposited on a batch of 25 or 50 wafers (6" polySi furnace) or 30 wafers (4" polySi furnace). The polySi has a good step coverage, and especially for standard polySi the film thickness is very uniform over the wafers.

The reactive gas is silane (SiH4). The dopant for boron doped polySi is BCl3 (6" polySi furnace) or B2H6 (4" polySi furnace), and for phosphorous doped polySi the dopant is PH3. For standard polysilion the deposition takes place at a temperature of 620 oC and a pressure of 200-250 mTorr. For amorphous polysilicon the deposition temperatures and thus the deposition rate are lower, and for boron and phosphorous doped polySi the deposition temperature is 600 oC - 620 oC depending on whether you use the 6" or the 4" polySi furnace. For phousphorous doped polySi the deposition rate is approximately ten times lower than for boron doped polySi. More process information about the process parameters can be found in the table below.

The user manual(s), quality control procedure(s) and results, technical information and contact information can be found in LabManager:

4" LPCVD polysilicon furnace (B4)

6" LPCVD polysilicon furnace (E2)

Process Knowledge

Please take a look at the process side for deposition of polysilicon using LPCVD:

Deposition of polysilicon using LPCVD

Overview of the performance of the LPCVD polysilicon processes and some process related parameters

Equipment 4" LPCVD polysilicon furnace (B3) 6" LPCVD polysilicon furnace (E2)
Purpose Deposition of
  • Standard polySi
  • Amorphous polySi
  • Boron doped polySi (B2H6 dopant)
  • Phosphorus doped polySi

4" furnace:

  • Standard polySi
  • Amorphous polySi
  • Boron doped polySi (BCl3 dopant)
Performance Step coverage
  • Very Good
  • Very good
Film quality
  • Deposition on both sides of the substrate
  • Good uniformity over the wafer
  • Deposition on both sides of the substrate
  • Good uniformity over the wafer
Process parameter range Process Temperature
  • Standard polySi: 620 oC
  • Amorphous polySi: 560-580 oC
  • Boron doped polySi: 620 oC
  • Phosphorus doped polySi: 620 oC
  • Standard polySi: 620 oC
  • Amorphous polySi: 560-580 oC
  • Boron doped polySi: 600-620 oC

The process temperature vary over the furnace tube

Process pressure
  • 250 mTorr
  • 150-220 mTorr

The process pressure depends on the actual process

Gas flows
  • SiH4: 80 sccm
  • B2H6: 7 sccm
  • PH3: 7 sccm

The silane (SiH4) flow depends on the actual process

  • SiH4: 50-70 sccm
  • BCl1: 1 sccm
Substrates Batch size
  • 1-20 100 wafers

Including a testwafer with ~110 nm oxide

  • 1-25 (or 50) 100 mm wafers
  • 1-25 (or 50) 150 mm wafers

Including a testwafer with ~110 nm oxide

Substrate materials allowed
  • Silicon wafers (new or RCA cleaned)
    • with layers of silicon oxide or silicon (oxy)nitride
    • from the A, B and E stack furnaces
  • Quartz/fused silica wafers (RCA cleaned)
  • Silicon wafers (new or RCA cleaned)
    • with layers of silicon oxide or silicon (oxy)nitride
    • from the A, B and E stack furnaces
  • Quartz/fused silica wafers (RCA cleaned)
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