Oct 24, 2016

[SSE Paper] Elimination of the channel current effect on the characterization of MOSFET threshold voltage using junction capacitance measurements

Elimination of the channel current effect on the characterization of MOSFET threshold voltage using junction capacitance measurements 

Daniel Tomaszewskia, Grzegorz Głuszkoa, Lidia Łukasiakb,
Krzysztof Kucharskia, Jolanta Malesinskab
aDivision of Silicon Microsystem and Nanostructure Technology, Instytut Technologii Elektronowej (ITE), ul. Okulickiego 5E, 05-500 Piaseczno, Poland 
bInstitute of Microelectronics and Optoelectronics, Warsaw University of Technology, ul. Koszykowa 75, 00-662 Warsaw, Poland

Abstract: An alternative method for an extraction of the MOSFET threshold voltage has been proposed. It is based on an analysis of the MOSFET source-bulk junction capacitance behavior as a function of the gate-source voltage. The effect of the channel current on the threshold voltage extraction is fully eliminated. For the threshold voltage and junction capacitance model parameters non-iterative methods have been used. The proposed method has been demonstrated using a series of MOS transistors manufactured using a standard CMOS technology.

Keywords: MOSFET CMOS Threshold voltage Junction capacitance Parameter extraction

Cite: Tomaszewski D et al. Elimination of the channel current effect on the characterization of MOSFET threshold voltage using junction capacitance measurements. Solid State Electron (2016), http://dx.doi.org/10.1016/j.sse.2016.10.006

Sub-Minimum-Area MPW Sharing

Is Your Multi-Project Wafer Project Smaller Than the Fab Minimum Area?

Share the minimum area with other MPW customers to save mask costs

With the cost of mask sets going up with every node, even a multi-project wafer (MPW) can break your NRE budget, particularly if you plan to run multiple test spins. At 28nm, a 6mm2 area tile can cost over $100,000.

One solution is to share the minimum tile area with someone else who is using the same technology and metal stack that you are targeting. We periodically get these kinds of requests from customers. Please contact directly star@esilicon.com if you would like eSilicon to list your own MPW shuttle sharing opportunity, or if you would like eSilicon to contact you when future MPW tile sharing opportunities are available.

Following are upcoming opportunities to share a multi-project wafer (MPW) tapeout with another eSilicon customer. If you are interested, just email eSilicon.

Multi-Project Wafer Minimum Tile Sharing Opportunities for TSMC Technologies
Tapeout
Month
Technology Metal Stack I/O Price/mm2 Minimum
Area
Final GDSII
Due
Tapeout
Date
Estimated
Ship Date
October 65nm MS RF GP  1P9M_6x1z1u  2.5V  $4,700 1mm2 October 10 October 12 November 23
65nm MS RF LP 1P9M_6x1z1u 2.5V  $4,700 1mm2 October 10 October 12 November 23
180nm MS RF G 1P6M_4x1u 3.3V $1,000 5mm2 October 24 October 26 December 7
November 40nm MS RF LP 1P10M 1.8V $7,500 1mm2 October 31 November 2 January 17

Oct 21, 2016

#Compact #Modeling of Surface Potential, Charge, and Current in Nanoscale Transistors Under Quasi-Ballistic Regime https://t.co/BsnCEEdo8a


from Twitter https://twitter.com/wladek60

October 21, 2016 at 04:54PM
via IFTTT

Oct 20, 2016

Free Semiconductor Books on SemiWiki

Download free PDF versions of three pivotal semiconductor books available on SemiWiki.com:
  1. Mobile Unleashed: The History of ARM
  2. Fabless: The Transformation of the Semiconductor Industry
  3. EDAGraffiti: 25 years of experience in EDA
Only registered SemiWiki members can access these wiki pages so if you are not already a member please join as a guest: https://www.semiwiki.com/forum/register.php

Oct 19, 2016

[mos-ak] [2nd Announcement and Call for Papers] 9th International MOS-AK Workshop Berkeley DEC.7, 2016

 9th International MOS-AK Workshop  
  Berkeley December 7, 2016 
    2nd Announcement and Call for Papers   

Together with the MOS-AK workshop host, Prof. Jaijeet Roychowdhury, UCB and International MOS-AK Board of R&D Advisers: Larry Nagel, Omega Enterprises Consulting (USA), Andrei Vladimirescu, UCB (USA); ISEP (FR) as well as all the Extended MOS-AK TPC Committee, we have pleasure to invite to the 9th International MOS-AK Workshop which will be held at EECS Department, University of California, Berkeley on December, 7, 2016. Planned MOS-AK workshop is organized with aims to strengthen a network and discussion forum among experts in the field, enhance open platform for information exchange related to compact/SPICE modeling and Verilog-A standardization, bring people in the compact modeling field together, as well as obtain feedback from technology developers, circuit designers, and CAD/EDA tool developers and vendors.

Important Dates:
  • Preannouncement - Sept 2016
  • Call for Papers - Oct. 2016
  • Final Workshop Program - Nov. 2016
  • MOS-AK Workshop - Dec. 7 2016
Venue:
EECS Department
University of California, Berkeley

Topics to be covered include the following among other related to the compact/SPICE modeling :
  • Compact Modeling (CM) of the electron devices
  • Advances in semiconductor technologies and processing
  • Verilog-A language for CM standardization
  • New CM techniques and extraction software
  • Open Source TCAD/EDA modeling and simulation
  • CM of passive, active, sensors and actuators
  • Emerging Devices, TFT, CMOS and SOI-based memory cells
  • Microwave, RF device modeling, high voltage device modeling
  • Nanoscale CMOS devices and circuits
  • Technology R&D, DFY, DFT and reliability/ageing IC Designs
  • Foundry/Fabless Interface Strategies
Online MOS-AK Abstract Submission:
Prospective authors should submit online 
(any related inquiries can be sent to abstracts@mos-ak.org)

Online Workshop Registration:
http://www.mos-ak.org/berkeley_2016/registration.php
(any related inquiries can be sent to register@mos-ak.org)

Postworkshop Publications:
Selected best MOS-AK technical presentation will be recommended for further publication in a special issue of the International Journal of High Speed Electronics and Systems

Extended MOS-AK Committee

WG19102016
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