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Radiation Hard Design Research

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Title: Radiation Hard Design Research


1
Radiation Hard Design Research
  • Wickham Chen
  • July 25th 2005

2
Problem definition
  • How to create integrated circuits that are
    tolerant to high doses of radiation.

3
Solutions
  • Use a hardened SoS process along with special
    design techniques.

4
Radiation effects
  • Radiation creates electron hole pairs.
  • Electrons are mobile and typically swept out of
    the oxide at high speed.
  • Holes however are less mobile.
  • Some will recombine with electrons
  • Usually a large amount are trapped inside the
    oxide.
  • The positive charge holes are responsible for
    changes in device properties.
  • Total Dose
  • Result from the interaction of ionising radiation
    with MOS device materials.
  • Creates defects mainly in the gate oxide and
    oxide used for device isolation
  • Single Event Effects
  • Come from the interaction of a single energy
    particle through the device.
  • Single Event Upset, Single Event Latch up, Single
    Event Transient

5
Review
  • Mosfet Structures

6
Total Dose Effects
  • Change in threshold voltage.
  • Degradation of propagation delay.
  • Increase in leakage current.

7
Change in Threshold voltage
  • A smaller thickness of the oxide reduces the
    threshold shift range.
  • No layout countermeasures can be applied to
    eliminate this threshold voltage shift.

8
Degradation of propagation delay.
  • Degradation of the mobility in channel
    conductance and transconductance which leads to a
    decrease in gain.
  • No layout countermeasures can be applied to
    eliminate this threshold voltage shift.

9
Increase in leakage current
  • Back channel leakage current
  • Trapped positive charge in the back channel
    causing device failure.
  • Solutions to this that Ive found are by using a
    BUSFET structure.
  • Asymmetrical Source/Drain junctions
  • Shallow Source Disconnects back channel.
  • However difficult to align source and implant
    mask to scaled gate length. Difficult to scale
    SOI channel thickness.
  • UTSI silicon film is so thin therefore very
    tricky to make a well formed and effective body
    under source contact.

10
Increase in leakage current
  • Birds beak leakage current
  • Cause by overlap between thick field oxide and
    the polysilicon gate. Thick oxide acts as a
    parasitic transistor, which can turn in ON mode
    after accumulating many positive charges.
  • Fixed by using edgeless layout technique. Since
    such transistors laid out in this fashion make
    sure that no overlap will ever occur between
    field oxide and polysilicon and thus no channel
    edge leakage.

11
Leakage
12
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13
Single Event Effects
  • (SEL) Single Event Latchup
  • (SEU) Single Event Upset
  • (SET) Single Event Transient

14
Definition of SEL
  • Single event latch up is the most destructive of
    the single event effects.

15
Definition of SEL
  • Single Event Latchup (SEL) is a potentially
    destructive condition involving parasitic circuit
    elements forming a silicon controlled rectifier
    (SCR). In traditional SEL, the device current
    may destroy the device if not current limited and
    removed "in time." A "microlatch" is a subset of
    SEL where the device current remains below the
    maximum specified for the device. A removal of
    power to the device is required in all
    non-catastrophic SEL conditions in order to
    recover device operations.

16
(No Transcript)
17
How to design against SEL
  • The use of guard rings
  • Use of a process which does not allow this
    silicon interface to form. For instance, SoS
    technology.

18
SEL solutions
  • Guard Rings

19
SEL solutions
  • SoS process. No silicon substrate so no SCR can
    form. Also, guard rings are now unnecessary.

20
Single Event Upset and Transient
  • These effects can be minimized through the
    circuit design.

21
Single Event Upset
  • SEU
  • A reversible change in digital logic state due to
    an energy particle passing through a device.

22
Single Event Upset Solutions
  • Resistive, capacitive and drive strength
    hardening.

23
Hardening
  • Resistive Hardening
  • Introduction of extra resistors
  • Capacitive Hardening
  • Making sensitive nodes larger to increase
    critical charge.
  • Ie. In a ELT use drain as outer ring instead of
    inner.
  • Area penalty.
  • Drive Strength
  • Increase size of transistors to increase the
    drive strength of the sensitive node.
  • Implies capacitive hardening since size increase.

24
Layout countermeasures
  • Enclosed layout
  • Used by individuals at CERN
  • Effective at suppressing edge leakage or birds
    beak leakage.
  • Since such transistors laid out in this fashion
    make sure that no overlap will ever occur between
    field oxide and polysilicon and thus no channel
    edge leakage.

25
Enclosed Layout
26
Status
  • Since Peregrines models are based on certain
    aspects of the mosfet being true doing an Annular
    Layout will be tricky.
  • Talking with Peregrine we should find where the
    leakage is occurring the highest. If the back
    channel is where all the leakage is occurring
    annular geometry might not be feasible.
  • Peregrine uses edge seal implants in the F
    process or .5 um to counter the edge leakage .
    Thus, no enclosed layouts are needed.
  • They are suppose to send us some test chips
    already made for us to irradiate.

27
Another process of Interest
  • Silicon on Germanium
  • SiGe HBT BICMOS
  • Very High perfroamnce ie. 200GHz-300Ghz are
    acheiveable.
  • Lower Power
  • Implement with RHBD structures could be very
    promising.

28
Idea of Collabration Occuring with Sige Process
for Space Applications
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