One of the more recently proposed flip-flop designs has been the
sense amplifier flip-flop. It has gained acceptance in the
commercial realm because of its power consumption, speed, setup
time, clock line loading, and data line loading characteristics. In
this thesis, a recently designed RADHARD version of D sense
amplifier flipflop was taken and a triple mode redundant version
for space and radiation environment use was created. The design was
created with valuable options to increase radiation hardness and to
give end users greater flexibility in realizing their own radiation
hardened version of flip-flop. In addition, a methodology for using
a traditional circuit simulation tool, SPICE, was developed to test
the operation of the flip-flop design for both normal conditions
and under the influence of radiation.
General
| Imprint: |
Biblioscholar
|
| Country of origin: |
United States |
| Release date: |
October 2012 |
| First published: |
October 2012 |
| Authors: |
Mark E. Martin
|
| Dimensions: |
246 x 189 x 8mm (L x W x T) |
| Format: |
Paperback - Trade
|
| Pages: |
154 |
| ISBN-13: |
978-1-249-59614-1 |
| Categories: |
Books >
Social sciences >
Education >
General
|
| LSN: |
1-249-59614-9 |
| Barcode: |
9781249596141 |
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