Feasibility of Novel Deca-nanometer vertical MOSFETs for low-cost Radio Frequency Application

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Title
Feasibility of Novel Deca-nanometer vertical MOSFETs for low-cost Radio Frequency Application

CoPED ID
0e2e9826-41ce-43f3-acc1-5eb0d891b7d2

Status
Closed

Funders

Value
£1,296,494

Start Date
March 1, 2007

End Date
Aug. 30, 2010

Description

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Markets for radio frequency (RF) devices are various and cover ranges of low voltages (1.5, 3V etc.) for mobile applications. Conventionally, the devices required to build the front-end amplifiers are built within the same process as the digital CMOS circuitry which dominates the overall system realisation. The state-of the-art (SOA) CMOS processes are relatively expensive especially for lower volume production which is attractive to smaller companies and start-ups. Our proposal is to provide a high performance vertical MOSFET within a standard digital CMOS process such that the minimum feature size can be rather larger than SOA allowing a lower cost solution. The higher performance for the vMOST comes from the ease of producing a very short channel vertically using standard ion-implantation, rather than laterally which requires expensive patterning techniques (lithography). We have already shown the feasibility of a number of novel solutions to address some of the inherent propblems of vMOSTs. We believe that a high performance 0.1um vertical transistor with high gain and high operating voltage will be able to provide significant advantages for the market. Like all developments, it depends on the performance that can be achieved economically, and this is a key aim of this project. A sub- 0.1um transistor should exhibit an fT of around 100GHz and so provide useful power to over 10GHz. This would allow the replacement of GaAs and LDMOS devices in power stages of cellular and wireless LAN applications up to 5GHz. New connectivity and satellite uplink applications operate in frequencies up to 12GHz, and so the feasibility of the vertical MOSFET for this regime is a further objective.

Subjects by relevance
  1. Electronics
  2. Transistors
  3. Mobile devices
  4. Microcircuits

Extracted key phrases
  1. High performance vertical mosfet
  2. High performance 0.1um vertical transistor
  3. Nanometer vertical mosfet
  4. Cost Radio Frequency application
  5. Low cost solution
  6. Feasibility
  7. Standard digital CMOS process
  8. Low voltage
  9. Low volume production
  10. High operating voltage
  11. Wireless LAN application
  12. Satellite uplink application
  13. Novel Deca
  14. Mobile application
  15. Digital CMOS circuitry

Related Pages

UKRI project entry

UK Project Locations