Localized Charge Storage in Nanocrystal Memory Cells
Thread Rating:
  • 0 Vote(s) - 0 Average
  • 1
  • 2
  • 3
  • 4
  • 5
Active In SP

Posts: 158
Joined: Oct 2010
28-10-2010, 07:33 AM

Localized Charge Storage in Nanocrystal Memory Cells
Presented by:-
Naveen N R
College Of Engineering, Trivandrum
2007-11 batch

.pptx   Localized Charge Storage in Nanocrystal Memory Cells.pptx (Size: 410.26 KB / Downloads: 56)
Hi guys, If you like this presentation, say hi to naveen at :maxpayne1989@gmail.com

Memory Classification
Floating Gate MOSFET
Structure & Working
Nanocrystal Memory
Programming & Erasing

Memory Types

Flash Memory (FG-MOSFET)


Electrically isolated floating gate.

Capacitively connected with oxide layer as the dielectric.

Charge stored in the floating gate alters the value of VT.

Acts as a Single memory storage unit.

Charged floating gate indicates a memory value 1.

Cell memory value can be changed to 0 by tunneling.

Tunneling effectively drains the charge stored in the floating gate.
Memory cards
Flash drives
MP3 players etc.

Gate Disturbs.

Drain Disturbs.

High Voltage requirement for write operations.

Long Writing and Erasing times.

Complete loss of charge due to any defect in the oxide layer.

Lateral leakage of charges.

Limited Retentions.

Endurance - Change in threshold values with number of cycles.

Limited scalability due to the use of a thick tunnel oxide.

Capacitive Interference between the Control and Floating Gates.

Nanocrystal Memory

Distributed Charge Storage

Charge stored in randomly distributed and isolated nanocrystals.

Nanocrystals are of size 3-10 nm with a minimum separation of 4 nm between them.

Uses a 5 nm tunnel oxide layer.

Fabrication Techniques

Excess Si - Precipitation

Aerosol Deposition

Direct Growth

Programming an NCM
Use Channel Hot Carrier Injection (CHCI)

Gate supplied with a positive voltage.

Injects channel inversion – layer electrons into the nanocrystals.

Electrons requires a charge greater than nanocrystal conduction band edge.

Erasing an NCM
Use Fowler-Nordheim tunneling.

Gate supplied with a reverse voltage.

Accumulation layer holes tunnel into the nanocrystals from the channel.

Thickness of blocking oxide prevents tunneling between the control gate and the nanocrystals.

Charge Storage in NCM
The threshold voltage shift due to electron storage in the nano crystals is given by
Transfer Characteristics of a Si nanocrystal memory cell before and after Programming.
(available in the ppt)

Coulomb Blockade Effect
Electron addition causes increase in the potential energy of the nanocrystals.

Reduces the electric field and causes a reduction in tunneling current density during writing.

Limits the charge storage capacity of a nanocrystal.

Limits the charge retention capacity.

Limits the use of nanocrystals of size less than 3 nm.

Factors affecting PW
Difference’ is almost zero for cells with no/few NCs.

The amount of charge stored and its uniformity affect the PW and the ‘difference’.

Width of the NCs.

The number and positions of the NCs.

Effect of Charge Stored
Linear and subthreshold PW and ‘difference’ increase linearly with charge stored in NCs.
The Transfer Characteristics of an NCM for different amounts of charge stored.(available in ppt)

Influence of NC Number
Percent ‘Difference’ depends on the uniformity of charge storage.
With a large NC number the charge storage is uniform and ‘difference’ decreases.

Influence of NC Position
PW and Percent ‘Difference’ is highest when the NCs are placed in the central region.
Percent ‘Difference’ is lowest when NCs are placed near the drain region.

Immune to oxide defects during program/erase.

Improved Retention.

Reduction in operating voltages.

Improved Scalability.

Simpler fabrication techniques compared to Floating Gate MOSFETs.

Improved Memory Storage Capacity.

Improved Operating Speeds.

Reduced lateral charge flow.

Immune to stress induced leakage current.

Immune to drain induced barrier lowering.

Challenges Ahead
Voltage loss due to poor gate coupling.

Flash devices are proven, mature and trusted with substantial track record of demonstrated reliability.

Flash Memories have started scaling the ETOX cell to 65 nm node.

“Effect of Localization of Charges in Nanocrystal Memory Cells”. IEEE Transactions on Electron Devices Vol56, No 10, October 2009.
“Nanocrystal Memory Devices”. IEEE Transactions on Nanotechnology, Vol. 1, No 1, March 2002.
“Silicon nanocrystal non-volatile memory for embedded memory scaling” Microelectronics Reliability 47 (2007).
“Study of data retention of nanocrystal Flash memories”. IEEE International Physics Symposium, April 2003.
“Scaling analysis of phase-change memory technology”. IEEE Non-Volatile Semiconductor Workshop, 2006.
“Characteristics of Si Nano-Crystal Memory”. Journal of Semiconductor Technology and Science, Vol. 1, No 1, March 2001.

.pptx   Localized Charge Storage in Nanocrystal Memory Cells.pptx (Size: 410.26 KB / Downloads: 56)
Use Search at http://topicideas.net/search.php wisely To Get Information About Project Topic and Seminar ideas with report/source code along pdf and ppt presenaion

Important Note..!

If you are not satisfied with above reply ,..Please


So that we will collect data for you and will made reply to the request....OR try below "QUICK REPLY" box to add a reply to this page
Tagged Pages: charge storage project, cell memory mosfet ppt, nanocrystal memory 2012, nano crystal storage ppt, ppt for project charge storeage, advantages of silicon nanocrystal over fgmosfet, hot carrier injection in fgmosfet,
Popular Searches: ppt on nanocrystals in drug delivery systam, coin charge, ppt for project charge storage, wireless charge paper, nanocrystals seminar topic, wireless moble charge, charge from gsm microwaves,

Quick Reply
Type your reply to this message here.

Image Verification
Please enter the text contained within the image into the text box below it. This process is used to prevent automated spam bots.
Image Verification
(case insensitive)

Possibly Related Threads...
Thread Author Replies Views Last Post
  HIERARCHICAL TEMPORAL MEMORY seminar class 1 1,591 30-07-2011, 11:12 AM
Last Post: smart paper boy
  MEMORY MODULES ppt seminar surveyer 0 1,612 07-01-2011, 02:28 PM
Last Post: seminar surveyer
  New Non-Volatile Memory Structures for FPGA Architectures Wifi 0 1,125 29-10-2010, 09:00 AM
Last Post: Wifi