TulliosPreferredPartList < Main < TWiki - RadWG

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Table of Contents
Tullio's Preferred Part List...............................................................................................................................1
Lists of commercial electronics parts somehow tested under radiation.................................................1
Warning............................................................................................................................................1
FPGAs........................................................................................................................................1
Passive parts...............................................................................................................................1
Power Management...................................................................................................................1
Optoelectronics and Optocouplers.............................................................................................4
All other parts............................................................................................................................5
References..................................................................................................................................9
Preferred and tested parts from other sites.....................................................................................12
Parts designed for rad-tol...............................................................................................................12
i
Tullio's Preferred Part List
Lists of commercial electronics parts somehow tested under radiation
List of parts somehow tested under radiation. It is meant to gather radiation test data that have not been
published on scientific journals (NSREC/IEEE, JINST, etc). Use it only as a starting point, no guarantee is
given on any data.
If you have relevant information (rad-tests not published on scientific journals, etc.) please email your
contribution to : [email protected] Obviously we are interested in both parts that passed and
failed the tests.
Warning
In general, a part manufacturer can modify its parts without notice, this will modify also their properties under
radiation . There are a few exceptions, for instance &quot;Maxim has a general policy that they never change the
actual DICE without changing the part number. That provides a better assurance that the actual purchased
commercial parts will perform as well in radiation as long as the part number is the same as the ones tested in
radiation&quot; (2013).
Actel/Microsemi lot codes are related to the silicon chips, while other chip vendors (like TI) may put a lot
code related to the packaging operation.
FPGAs
see https://twiki.cern.ch/twiki/bin/viewauth/FPGARadTol/InformationOfInterest
(ask me to get access).
Passive parts
PN and company
Part Description
Host System
-
Resistors
Thermo-resistor
-
-
Ceramic capacitors
Tantalum capacitors
-
-
Other electrolytic
capacitors
-
Test Description
[Reference#]
rad-tol [10, 11]
rad-tol [12]
Notes
for example pt100
and pt1000
rad-tol [13]
non-uniform results [14, 15, not recomended in
16]
radiation
environments
non rad-tol [13]
-
Power Management
PN and company
ADM660AR from Analog
ADM8828 from Analog
ADR434 from Analog
Part Description
Switched-Capacitor
Voltage Converter
Switched-Capacitor
Voltage Converter
precision voltage
converter
Tullio's Preferred Part List
Host System
Test Description [Reference#]
CMS EMU
TID ok 30 krad [27]
test
dates
2012
CMS EMU
TID ok 30 krad [27]
2012
LHC ?
230MeV p: ok up to 30 Gy.
2013
Precision of &plusmn;0.3 % up to 400 Gy.
SET: no events longer than 15 ns
and higher than 100 mV. [39]
1
TulliosPreferredPartList &lt; Main &lt; TWiki
FCA36N60NF from
Fairchild
600V MOSFET switch LHC
ICL7660S-BAZ from
Intersil
LT1236 from Linear
Technology
LT1963AEQ from Linear
Technology
LTC1044CS8 from Linear
Technology
LTM4619from Linear
Technology
MAX6350 from Maxim
Switched-Capacitor
Voltage Converter
Precision Reference
CMS EMU
ok up to TID = 701.8 Gy (4.8
2013
Gy/day), hadron fluence= 4.89
E12 h/cm2; neutron fluence=6.94
n/cm2 [60]
TID fail at 30 krad [27]
2012
LHC
230MeV p: ok at 500 kGy [48]
2013
Voltage Regulator
SPS
TID: fail before 1 kGy [40]
2013
TID ok 30 krad [27]
2012
TID ok ~ 1500 Gy [59]
2013
100mA voltage CMS EMU
converter
100mA voltage converter
high-precision voltage regulator
voltage regulator
charge-pump (step-up) CMS EMU
voltage converter
230MeV p TID: interesting
2012
behavior. [20]
8557ETE from Maxim
fail between 10 and 30 krad [27] 2012
MAX680 from Maxim
No SEL up to 4E10 p/cm-2.TID: 2003,
ok up to 5krad (63MeV p) [4] and 2012
up to 30 krad [27]
MAX664 from Maxim
Programmable Voltage CMS EMU ? No SEL up to 4E10 p/cm-2.TID: 2003,
Regulator
ok up to 5krad (63MeV p) [4], fail 2012
at 30 krad [27]
MAX860-UIA &quot;uMAX&quot;
Switched-Capacitor
CMS EMU TID ok 30 krad [27]
2012
from Maxim
Voltage Converter
MAX861-ISA from Maxim Switched-Capacitor
CMS EMU TID ok 30 krad [27]
2012
Voltage Converter
MAX1044CSA from
Switched-Capacitor
CMS EMU TID fail at 30 krad [27]
2012
Maxim
Voltage Converter
MIC37302 from Micrel
3A voltage regulator LHC
test with 230MeV p: TID ok up to 2014
200 Gy [57]
MIC49500WU from Micrel voltage regulator
CMS EMU TID ok 30 krad [27]
2012
MIC69502WR from Micrel voltage regulator
CMS EMU TID ok 30 krad [27]
2012
TC1044SCOA from
Charge-pump Voltage CMS EMU TID ok 30 krad [27]
2012
Microchip
Converter
CMS EMU TID ok 30 krad [27]
2012
TC962COE from Microchip High-current
Charge-pump Voltage
Converter
various parts from
Rectifiers
naturally radiation hard up to 1 or Microsemi
10 Mrad and E14 n/cm2. [55]
various parts from
Transient Voltage
&quot;naturally very radiation hard as Microsemi
Suppressors (TVS)
they employ majority carrier
avalanche breakdown&quot;. Tolerate
10 Mrad and E14 n/cm2 for
products up to 200 volts. Below
100 volts, they exceed 100 Mrad
and E15 n/cm2. [55]
LM317EMP from National voltage regulator
LHC
230MeV p, TID= 320Gy; some
2012
voltage drift, no SEL, SET [47 and
NSREC2012]
LM334 from National
Adjustable Current
LHC
TID Ok up to 600 Gy [51]
2013
Source
LM337IMP from National
LHC
2012
Power Management
2
TulliosPreferredPartList &lt; Main &lt; TWiki
negative voltage
regulator
LM317D7T from On semi
voltage regulator
LHC
LM340 from National
voltage regulator
-
LM41211M5-1.2 from
National
LM4121AIM5-ADJ from
National
LP3990 from National
LDO Voltage
Reference
LDO Voltage
Reference
voltage regulator
CMS EMU
230MeV p, TID= 320Gy; some
voltage drift, no SEL, SET [47 and
NSREC2012]
230MeV p, TID= 320Gy; some
2012
voltage drift, no SEL, SET [47 and
NSREC2012]
230MeV p TID: ok up to 40krad. 2012
[20]
TID ok at 30 krad [27]
2012
CMS EMU
TID ok at 30 krad [27]
-
LP2980 from National
LDO voltage regulator -
LP38501ATJ-ADJCT-ND
from National
LP38853S-ADJ-ND from
National
PQ05VY053ZZH from
Sharp
PQ035ZN1HZPH from
Sharp
PQ070XZ02ZPH from
Sharp
PQ7DV10 from Sharp
LM334 from TI
voltage regulator
CMS EMU
230MeV p TID: ok up to 40krad. 2012
[20]
230MeV p TID: Constant
2012
degaradation, violates specs
beyond 15krad. [20]
TID ok 30 krad [27]
2012
voltage regulator
CMS EMU
TID ok 30 krad [27]
2012
voltage regulator
-
fail between 10 and 30 krad [27]
2012
voltage regulator
-
fail between 10 and 30 krad [27]
2012
voltage regulator
-
fail between 10 and 30 krad [27]
2012
voltage regulator
adjustable current
source
CMS EMU
ALICE TOF;
CERN
RADMON
V6
CMS EMU
TID ok 30 krad [27]
10 to 60 MeV p. TID: ok up to
14krad. No SEL [5]. Functional
but with drifts at 300 Gy [23].
2012
2004;
2012
TPS7A7001 from TI
2A-LDO voltage
TID fail 30 krad [27]
regulator
TPS73033 from TI
voltage regulator
big effects at 10 krad [48]
TPS740901KTWR from TI voltage regulator
CMS EMU TID ok 30 krad [27]
TPS75601KTT from TI
voltage regulator
CMS EMU TID fail at 10 krad [27]
TPS75901 from TI
voltage regulator
CMS EMU TID fail at 10 krad [27]
TPS7333QD from TI
3.3V voltage regulator, ATLAS Muon TID: fail at 45 krad, no SEE at
LDO, 500mA
Drift Tube
1.1E13 p/cm2 [36]
REG103 from TI
voltage regulator,
ATLAS Muon TID: fail at 21 krad, no SEE at
LDO, 500mA
Drift Tube
3.2E12 p/cm2 [36]
UCC38C45 from TI
current mode PWM
SEB seen [30]
controller
TL1963-KTT from TI
Voltage Regulator
SPS
TID: fail before 1 kGy [40]
LP3875-ADJ from TI
Voltage Regulator
SPS
TID: fail before 1 kGy [40]
TPS7A4501KTT from TI Voltage Regulator
SPS
TID: fail before 1 kGy [40]
ADP3339AKC-1.5/2.5 from Low drop voltage
ALICE TOF 10 to 60 MeV p. TID: ok up to
?
regulator
14krad. No SEL. [5]
MAX893L from ?
Current limited
LHC
230MeV p. TID: ok up to 30krad.
p-switch
Radmon,
No destructive events [19].
ATLAS muon 60MeV p beam : ok up to
Power Management
2012
2012
2013
2012
2012
2012
2008
2008
2012
2013
2013
2013
2004
2012
3
TulliosPreferredPartList &lt; Main &lt; TWiki
LM2940 from ?
LM2941 from ?
LM2990 from ?
LM2991 from ?
Low Dropout
Regulator
Low Dropout
Regulator
Low Dropout
Regulator
Low Dropout
Regulator
trigger
TID=42krad [25]
CTF3 (Cern) TID: ok 10 kGy with electrons
[Marek.Gasior at cern]
CTF3 (Cern) TID: ok 10 kGy with electrons
[Marek.Gasior at cern]
CTF3 (Cern) TID: ok 10 kGy with electrons
[Marek.Gasior at cern]
CTF3 (Cern) TID: ok 10 kGy with electrons
[Marek.Gasior at cern]
2012?
2012?
2012?
2012?
Optoelectronics and Optocouplers
PN and company
AFBR-79EIDZ from Avago
AFBR-810EPZ from Avago
AFBR-811FN1Z from Avago
HCPL-5431, HCPL-5501, and
HCPL-5701 from Avago
HCPL-4504 from Avago
Part Description
PPOD tx
PPOD tx
miniPOD tx
Optocouplers
Optocoupler
Host
System
JUICE
mission
-
Test Description
[Reference#]
ok up to 75 krad [56]
ok up to 150 krad [56]
ok up to 66 krad [56]
&quot;best candidates&quot; [44]
test
dates
2012
2012
2012
2013
Current Transfer Ratio = 1/5 2013
of initial value after 1E12
protons [54]
EMRS1216 from Emcore
3.3 Gbps Snap12 Receiver CMS
SEU cross section = (9.8 &plusmn; 2012
EMU
0.2) *10^-9 cm2. This gives
12 *10^-10 cm2 per link [27]
EMTS1216 from Emcore
3.3 Gbps Snap12
CMS
SEU cross section = (1.7 &plusmn; 2012
Transmitter
EMU
0.2) *10^-10 cm2. This gives
2.1 *10^-11 cm2 per link
[27]
FTLF8524E2GNL from Finisar Optical Transceiver SFF 4 CMS
TID = 30 krad, SEU cross 2012
Gb/S 850nm
EMU
section = 7.5 *10^-9 cm2
[27]
FT3A05D from FTTX
3 Gb/s SFP transceiver
SPS
TID: best sample survived 2013
350 Gy [41]
6N140, 6N134, 6N139 from HP Optocoupler (obsolete)
TID and displacement
90's
damage: &quot;good resistance&quot;.
Sensitive to SET [7, 9]
V23848-N305-C56 from Infineon 4.25 Gbps 850nm optical CMS DT TID: ?? up to 66krad
2012
SFP
(63MeV p). [26]
TXN31115D2 from Intel
4.25 Gbps 850nm optical CMS DT TID: ok up to 66krad
2012
SFP
(63MeV p). [26]
OLH400, OLS0449 and
Optocouplers
JUICE
not the best candidates [44] 2013
OLH7000-0010 from isolink
mission
LTE5350-−BC from Ligent
1.25 Gb/s SFP single-−fiber SPS
TID: best sample survived 2013
transceiver
300 Gy [41]
LTE3550-−BC from Ligent
1.25 Gb/s SFP single-−fiber SPS
TID:failed immediately ?
2013
transceiver
[41]
WSP24-−513LC-−I3A from
1.25 Gb/s SFP single-−fiber SPS
TID: best sample survived 2013
Lightron
transceiver
300 Gy [41] [42]
WSP24-313LC-I5A from
1.25 Gb/s SFP single-−fiber SPS
TID: best sample survived 2013
Lightron
transceiver
300 Gy [41] [42]
66179-002 , 66193-002,
Optocouplers
JUICE
not the best candidates [44] 2013
Optoelectronics and Optocouplers
4
TulliosPreferredPartList &lt; Main &lt; TWiki
66221-103 and 66224-105 from
MICROPAC
106410 from Molex
106414 from Molex
r12-c01001 from Reflex
Photonics
t12-c01001 from Reflex
Photonics
SPL-−35-−GB-−CDFM from
Source Photonics
SPL-−53-−GB-−CDFM from
Source Photonics
ONET1101L from TI
ONET8501V from TI
541315L-−15B from Yamasaki
541315L-−15Y from Yamasaki
mission
QSFP+ to QSFP+ Quad
Data Rate PSM4 Active
Optical Cable, 40 Gbps
Data Rate
QSFP+ to MPO Quad Data Rate PSM4 Active Optical
Cable, 40 Gbps Data Rate
3.5 Gbps Snap12 Receiver CMS
EMU
3.5 Gbps Snap12
CMS
transmitter
EMU
1.25 Gb/s SFP single-−fiber SPS
transceiver
1.25 Gb/s SFP single-−fiber SPS
transceiver
Laser driver
Laser driver
1.25 Gb/s SFP single-−fiber SPS
transceiver
1.25 Gb/s SFP single-−fiber SPS
transceiver
TID: ok up to 170 Gy [58]
2013
TID: ok up to 170 Gy [58]
2013
TID ok at 30 krad, SEU
cross section = (8.2 &plusmn; 0.3)
*10^-9 cm2 [27]
SEU cross section = (7.3 &plusmn;
2.4) *10^-11 cm2 [27]
TID: ?? up to 66krad
(63MeV p). [41]
TID: ?? up to 66krad
(63MeV p). [41]
ok up to 464 krad [56]
ok up to 178 krad [56]
TID: best sample survived
80 Gy [41]
TID: best sample survived
80 Gy [41]
2012
2012
2013
2013
2012
2012
2013
2013
All other parts
PN and company
Part Description
A54SX72A from Actel
OTP FPGA
A54SX16 from Actel
OTP FPGA
ADG1421 from Analog analog switch
Device
ADA4899‐1YRDZ from OpAmp
Analog Device
AD590 from Analog
temperature sensor
Devices
ADG706 from Analog
Devices
AD670 from Analog
Devices
AD8302 from Analog
Devices
ADL5519 from Analog
Devices
All other parts
Host System
Test Description [Reference#]
date of
test
2002?
CMS HCAL 200MeV beam. TID: fail at 150
CCM
kRad (4E11 n/cm2). SEU is design
dependent [1,3]. 60MeV p: no SEU
[8]
SEU saturation cross section ~
?
8x10-7 cm2/bit (likely from heavy
ions). [21]
230MeV proton: fail at 50 Gy [22] 2012
-
proton [18]
CMS HCAL Passed tests at 1E12n/cm2. One
device exposed and failed at
4E12n/cm2 at IRRAD-6. [6]
analog MUX
CMS HCAL 200MeV beam. No SEL seen; a
CCM
few SEU [1,3]
8-Bit A/D Converter
CMS HCAL No SEL up to 1E11 n/cm2,
CCM
200MeV [1,3]. TID: OK up to
5krad [NSREC2007]
Logarithmic Amplifier SPS
TID: OK up to 1 kGy
[40]
Logarithmic Amplifier SPS
TID: OK up to 1 kGy
[40]
ADC driver [40]
SPS
TID: OK up to 1 kGy
2011
2002
2002
2002
2013
2013
2013
5
TulliosPreferredPartList &lt; Main &lt; TWiki
ADA4932-2 from
Analog Devices
AD5231 from Analog
Potentiometer [43]
Devices
AD5254 from Analog
Potentiometer [43]
Devices
OP2177AR from Analog Operational Amplifier LHC
Devices
TID: OK up to 100 Gy, then it
2013
degrades
TID: OK up to 100 Gy, then it
2013
degrades
230 MeV p: ~ok at 500 Gy ,no SET 2013
longer than 15 ns and larger than
100 mV [62]
AT45DB161B from
flash memory
ALICE TOF 10 to 60 MeV p. TID: ok up to
2004
Atmel
14krad. No SEL. No SEU: cross
section &lt; 10E(-19). [5]
ATMEGA16 from Atmel Microcontroller
ALICE TOF 10 to 60 MeV p. TID: ok up to
2004
20krad. No SEL. [5]
45DB01 from Atmel
Serial Flash Mem
CMS EMU ? No SEL up to 4E10 p/cm2.TID: ok 2003
up to 5krad (63MeV p). [4]
ADS7852Y from
12-Bit ADC LHC
230 MeV p: ~ok at 500 Gy , SEU 2013
Burr-Brown
cross section 6 E-12 cm2, no SEL
[62]
CPPC8, CPPC7L,
Programmable
TID ~15 krad. SEL measured with 2005
CPPC1 from Cardinal
oscillators
heavy ions [61]
Components
CY62157EV30 from
RAM
LHC RadMon SEU cross section ~ 1.5 *10^-13 2013
Cypress
?
cm2 [37]
DS2401 from Dallas
Serial Number, 1-wire LHC FGClite mixed radiation (neutrons, protons, 2012
(now Maxim),
communication
pions, etc): A few comm errors, no
manufactured in 1999
permanent damage up to 140Gy, ~
1E11 n/cm-2. [33]
DS18B20 from Dallas
digital thermometer,
LHC FGClite mixed radiation (neutrons, protons, 2012
(now Maxim),
1-wire communication
pions, etc): A few comm errors, no
manufactured in 2006
permanent damage up to 140Gy, ~
1E11 n/cm-2. [33]
3d3418 from Data Delay Programmable
CMS EMU ? No SEL up to 4E10 p/cm2.TID: ok 2003
Devices
LVCMOS delay line
up to 5krad (63MeV p). [4]
2N7000 from Fairchild FET transistor
CMS EMU TID ok at 30 krad [27]
2012
MM3Z4V7C from
Zener diode
CMS EMU TID ok at 30 krad [27]
2012
Fairchild
MM3Z5V1B from
Zener diode
CMS EMU TID ok at 30 krad [27]
2012
Fairchild
2012
IRF4310 from
N‐MOS transistor
CMS HCAL 230MeV proton. TID OK at 220
International Rectifier
Gy. SEB cross-section
=7.8E‐10cm2 (VDS dependent)
[29]
IRFR9220 from
P‐MOS transistor
CMS HCAL 230MeV proton. TID OK at 321
2012
International Rectifier
Gy. NO SEB (VDS dependent)
[29]
DG412 from intersil
CMOS Analog Switch LHC
TID: fails between 50 and 100 Gy. 2013
[52]
CFPS-73 from IQD
40MHz-oscillator
LHC
TID Ok up to 500 Gy. [51]
2013
72V265 from IDT
16K x 18 SuperSync
CMS EMU ? No SEL up to 4E10 p/cm-2. TID ok 2003
FIFO
up to 5krad (63MeV p). Seen 521
SEUs with 7E10 p/cm2 [4]
74LVC16827 from IDT CMOS 20-Bit Buffer CMS EMU ?
2003
All other parts
6
TulliosPreferredPartList &lt; Main &lt; TWiki
MAX4238 from Maxim Low Noise Precision
Amplifier
MAX410ESA from
OpAmp
Maxim
MAX6341CSA from
Voltage reference
Maxim
MAX5154 from Maxim 12-Bit Voltage-Output
DACs with Serial
Interfacefrom
MAX1271 from Maxim Serial 12-Bit ADCs
MAX337CAI from
Mux
Maxim
MAX3491 from Maxim RS485 Transceiver
-
No SEL up to 4E10 p/cm-2.TID: ok
up to 5krad (63MeV p). [4]
TID: out of specifications at about 2013
150 Gy [38]
proton [18]
2011
-
proton [18]
LHC ?
2011
CMS EMU ? No SEL up to 4E10 p/cm-2.TID: ok 2003
up to 5krad 63MeV p.[4]
CMS EMU ? No SEL up to 4E10 p/cm-2.TID: ok 2003
up to 5krad (63MeV p). [4]
230 MeV p: fails at 50 Gy. [50]
2013
230 MeV p: No SEE up to 9E11
2012
p/cm-2.TID: ok up to 500 Gy. [31]
MAX5541 from Maxim 16-bit digital-to-analog LHC FGClite mixed radiation: No SEE, all ok up 2012
converter (DAC)
to 118Gy, ~ 1E11 n/cm-2. [32]
MAX2016 from Maxim Logarithmic Amplifier SPS
TID: OK up to 1 kGy
2013
[40]
MAX4372 from ?
Current-Sense
CMS EMU TID ok at 30 krad [27]
2012
Amplifier
DS36276M from
RS485 Transceiver
CMS HCAL 200MeV beam. No SEL nor SEU 2002?
National
CCM
seen [1]
DS92CK16 from
BLVDS buffer
rejected
200MeV beam. SEL seen [2]
&lt;2002
National
LM124 from National
operational amplifier
ESA
50 MeV p: out of specs at
2013
1E11/cm2 [53]
LM45C from National Temperature Sensor
LHC
TID Ok up to 681 Gy [51]
2013
LMH6551MA from
OpAmp
proton [18]
2011
National
MCDS92LV090A from BLVDS buffer
rejected
200MeV beam. SEL seen [2]
&lt;2002
National
? from National?
Channel Link Receiver CMS EMU? No SEL up to 4E10 p/cm-2. TID: 2003
ok up to 5krad (63MeV p). Seen
277 SEUs with 148E10 p/cm2 [4]
MC100LVEP111 from diff PECL clock mux + CMS HCAL 200MeV beam. TID OK at 1 kRad 2002?
ON semi
fanout
(4E11 n/cm2). No SEE up to 1E11
n/cm2.[1]
MC100LVELT23 from Dual Diff.
CMS HCAL 200MeV beam. TID: OK at 1 kRad 2002?
ON semi
LVPECL-LVTTL
and 4E11 n/cm2. No SEE up to
1E11 n/cm2. [1]
MC100LVELT22 from Dual Diff.
CMS HCAL, 200MeV beam. TID: OK at 1 kRad 2002
ON semi
LVTTL-LVPECL
ATLAS muon and 4E11 n/cm2. No SEE up to
translator (LVDS too trigger
1E11 n/cm2 [1]. 60MeV p beam :
[24])
ok up to TID=42krad [25]
MC100LVEL40 from
Differential
ATLAS muon 60MeV p beam : ok up to
2002
ON semi
Phase-Frequency
trigger
TID=42krad [25]
Detector
1N5819 from ON semi diode
CMS EMU TID ok at 30 krad [27]
2012
HAS2 APS from ON
CMOS image sensor
ESA
TID ok at 144,5 krad, DD ok at 2.4 2013
All other parts
LHC ?
7
TulliosPreferredPartList &lt; Main &lt; TWiki
semi
P82B96 from Philips
10^9 MeV/g [45]
200MeV beam. TID: fail at 120
2002?
kRads. No SEL seen. [1]
82B715 (or P82B715 ?) I2C bus extender
CMS HCAL 200MeV beam. TID: OK at 120
2002?
from Philips
kRads. No SEL seen [1]
BST82 from Philips
N‐MOS transistor
CMS HCAL 230MeV proton. TID OK at 271
2012
Gy. SEB cross-section =
5.0E‐12cm2 (VDS dependent) [29]
74LVC14APW from
HEX Inverter LHC
230 MeV p: ok at 500 Gy [62]
2013
Philips
SCHMITT trigger
CFPT9006 from Rakon 40MHz crystal
n.u.
TID: out of specs from 9.2 krad.
2013
oscillator
SEL seen. [46]
STD10NF from STMicro N‐MOS transistor
CMS HCAL 230MeV proton. TID OK at 76 Gy. 2012
SEB cross-section = 9.1E‐10cm2
(VDS dependent) [29]
1N5819 from STMicro diode
CMS EMU TID ok at 30 krad [27]
2012
SPLargeUHD from
SRAM
LHC FGClite mixed radiation (neutrons, protons, 2012
STMicro
pions, etc): Many SEUs and MBUs,
no SEL, up to ~160Gy, ~ 1E11
n/cm-2. [35]
THS4130 from TI
High-Speed,
LHC ?
230 MeV p: TID: ~ok up to 500
2013
(Texas) Inst.)
Low-Noise, Differential
Gy. [49]
I/O Amplifier
INA111BU from TI
High Speed FET-Input LHC ?
[38] 2013
(Burr-Brown)
Amplifier
LM7372 from TI
High Speed, High
LHC ?
TID: ok up to 400 Gy. [38]
2013
Output Current, Dual
Operational Amplifier
ADS5483 from TI
16-bit DAC
NASA?
No SEL seen, SEU/SET response 2009
studied [17]
ADS1281 from TI
ADC
LHC FGClite mixed radiation (neutrons, protons, 2012
pions, etc): No SEE, all ok up to
128Gy, ~ 1E11 n/cm-2. [34]
AD565 from ?
12-bit DAC
LHC
ok at TID=1.9 kGy and neutron
?
Cryogenic
fluence 3 10^13 neutron/cm2 [8]
Controls
?
ADS7807UB from TI
ADC
LHC
60 MeV proton: ok at
(obsolete)
Cryogenic
TID=400Gy=40krad; no SEE seen
Controls?
[8]
SN74ACT245 from TI 8-bit bus transceiver
LHC RadMon 230 MeV proton: ok at TID=212 2012
version and Gy = 21 [28]
FGC-Lite
SN74LVC16T245 from 16-bit bus transceiver LHC RadMon 230 MeV proton: ok at TID=106Gy 2012
TI
version and , probably also at 400 Gy [28]
FGC-Lite
THS4521 from TI
ADC driver [40]
SPS
TID: OK up to 1 kGy
2013
UC1825A from TI
PWM
ESA
50 MeV p: No parameter limit
2013
exceeded at 1E11/cm2 , Functional
errors observed [53]
TC554001AF from
RAM
LHC RadMon SEU cross section ~ 3 to 6 *10^-14 2013
Toshiba
?
cm2 [37]
RadFET from Tyndall
p-channel MOSFET for LHC RadMon characterized [63]
2013
measuring TID
All other parts
I2C bridge
n.u.
8
TulliosPreferredPartList &lt; Main &lt; TWiki
FMMT491 from Zetex
FMMT591 from Zetex
IDT71V416S from ?
EP1S20F780 from ?
Statek CXO3M from ?
MIC35302 from ?
MIC37302 from ?
DS90LV047ATM
DS90LV048ATM
FIN1047
FIN1048
PCF8575TS
AD7417AR
QS3VH125S1
SN74LVC10 from ?
SN74LVC86 from ?
SN74LVC2T45 from ?
75LVDT386 from ??
AD8028AR from ?
ADM812 from ?
Power Transistor NPN LHC
230 MeV p: survived 500 Gy,
2013
characterized [62]
Power Transistor PNP LHC
230 MeV p: survived 500 Gy,
2013
characterized [62]
RAM
ALICE TOF 10 to 60 MeV p. TID: ok up to
2004
14krad. No SEL. SEU cross section
= 8.5 10E(-15). [5]
RAM
ALICE TOF 10 to 60 MeV p. TID: ok up to
2004
14krad. No SEL. SEU cross section
~2 10E(-14). [5]
clock
ALICE TOF 10 to 60 MeV p. TID: ok up to
2004
14krad. No SEL. [5]
Current-Sense
TID fail at 30 krad [27]
2012
Amplifier
Current-Sense
TID fail at 30 krad [27]
2012
Amplifier
LVDS driver
ATLAS muon 60MeV p beam : ok up to
2002
trigger
TID=70krad [25]
LVDS receiver
ATLAS muon 60MeV p beam : ok up to
2002
trigger
TID=70krad [25]
LVDS driver
ATLAS muon 60MeV p beam : ok up to
2002
trigger
TID=42krad [25]
LVDS receiver
ATLAS muon 60MeV p beam : ok up to
2002
trigger
TID=42krad [25]
I/O expander for I2C
ATLAS muon 60MeV p beam : ok up to
2002
trigger
TID=42krad [25]
10-bit ADC
ATLAS muon 60MeV p beam : ok up to
2002
trigger
TID=42krad [25]
FET switch
ATLAS muon 60MeV p beam : ok up to
2002
trigger
TID=42krad [25]
NAND gate
CMS EMU ? No SEL up to 4E10 p/cm2.TID: ok 2003
up to 5krad (63MeV p). [4]
Exclusive-OR gate
CMS EMU ? No SEL up to 4E10 p/cm2.TID: ok 2003
up to 5krad (63MeV p). [4]
Tri-statable Bus
CMS EMU TID ok at 30 krad [27]
2012
Transceiver
200Mbps Differential CMS ECAL ? No SEL up to 4E10 p/cm2.TID: ok 2003
Line Receiver
up to 5krad (63MeV p). [4]
amplifier
CMS EMU TID ok at 30 krad [27]
2012
Voltage Monitor
CMS EMU TID ok at 30 krad [27]
2012
References
[1]
http://cmsdoc.cern.ch/cms/HCAL/document/www-ppd.fnal.gov/tshaw.myweb/CMS/presentations/Raddam_ESR.pdf
[2] http://lss.fnal.gov/archive/2002/conf/Conf-02-224-E.pdf
[3] http://lss.fnal.gov/archive/2002/conf/Conf-02-277-E.pdf
[4] http://www.physics.ohio-state.edu/~cms/dmb/esr.pdf
[5]
References
9
TulliosPreferredPartList &lt; Main &lt; TWiki
[6] http://indico.cern.ch/getFile.py/access?contribId=2&amp;resId=0&amp;materialId=slides&amp;confId=104371
[7] http://indico.cern.ch/getFile.py/access?contribId=6&amp;resId=0&amp;materialId=slides&amp;confId=56796
[8]
http://indico.cern.ch/getFile.py/access?contribId=33&amp;sessionId=16&amp;resId=1&amp;materialId=paper&amp;confId=21985
refers to ADS7801 but I think it is a typo.
[9] https://indico.cern.ch/getFile.py/access?contribId=2&amp;resId=0&amp;materialId=slides&amp;confId=142284
[10] “THE EFFECT OF RADIATION ENVIRONMENT ON FILM RESISTORS“, Dorst et al., 1962 IRE
National Convention available on
http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&amp;arnumber=1536182&amp;userType=inst
[11] Transient Effects of Pulsed Nuclear Radiation on Electronic Parts and Materials”, H. J. DEGENHART et
al., IRE TRANSACTIONS ON COMPONENT PARTS, 1961 . Local copy
[12] &quot;Thin-film Thermo-resistor radiation hardness experimental results&quot;, Nikiforov et al., Radiation effects
data workshop. 1997 IEEE, pages: 41-43.
[13] Space Material Handbook NASA SP-3025, 1966
[14] http://nepp.nasa.gov/npsl/nepat/psap/docs/clr79rad.pdf
[15] “Radiation hardness studies of coolingfluids epoxies and capacitors for CMS pixel system”, M. Atac et
al., NIM A 476 (2002) pages 676–679,
available on: http://www.phy.olemiss.edu/HEP/cms/CMS_Pixel_RAD_Hard.pdf
[16] Private communication with Theresa Shaw based on experience from the CDF experiment.
[17] Melanie Berg, Hak Kim, and Anthony Phan, &quot;Heavy Ion SEE Tests for Texas Instruments ADS5483
ADC&quot; ,
also on http://radhome.gsfc.nasa.gov/radhome/papers/T052309_IU081009_ADS5483.pdf, May 2009.
[18] Paul PERONNARD, Giovanni SPIEZIA, Test Report available on
https://edms.cern.ch/file/1171336/1/7feb2011-PSI-AnalogComp.pdf
[19] Paul PERONNARD, Giovanni SPIEZIA, Test Report available on
https://edms.cern.ch/file/1224739/1/PSI_Isource_LM334.pdf
[20] Paul PERONNARD, Giovanni SPIEZIA, et al.
https://edms.cern.ch/file/1231452/1/PSI_VoltageRegulator_Report_LP3990_LP2980_LM340_MAX6350.pdf
[21] http://klabs.org/richcontent/fpga_content/SX_Series/SX_SEU_Summary.PDF
[22] https://edms.cern.ch/file/1224632/1/PSI_Switch_ADG1421.pdf
[23] https://edms.cern.ch/file/1224739/1/PSI_Isource_LM334.pdf
[24] https://edms.cern.ch/document/1092724/1 , the MC199LVELT22 on board 5 drives a LVDS input on
board 3.
References
10
TulliosPreferredPartList &lt; Main &lt; TWiki
[25] Gianluca Di Mattia, thesis, Univ. &quot;La Sapienza&quot; , 2003, Roma http://maclabe.roma1.infn.it/muonl1/thesis/GDM_thesis.pdf
[26] http://indico.cern.ch/contributionDisplay.py?sessionId=47&amp;contribId=43&amp;confId=170595
[27] J. Gilmore et al. , JINST, Feb 2013
http://iopscience.iop.org/1748-0221/8/02/C02040/pdf/1748-0221_8_02_C02040.pdf
[28] G. Spiezia et a., https://edms.cern.ch/file/1246888/1/PSI_Report_Transceiver_Report_V3.pdf
[29] G. Spiezia et a., https://edms.cern.ch/file/1246969/1/PSI_MosFet_Report_V4.pdf
[30] G. Spiezia et a., https://edms.cern.ch/file/1241067/1/PWM_Report_v4.pdf
[31] G. Spiezia et al., https://edms.cern.ch/file/1250547/1/PSI_Report_MAX3491_V0.pdf
[32] S. Uznanski, https://edms.cern.ch/document/1251606/1
[33] S. Uznanski, https://edms.cern.ch/document/1251605/1
[34] S. Uznanski, https://edms.cern.ch/document/1251604/1
[35] S. Uznanski, https://edms.cern.ch/document/1251607/1
[36] E. Hazen, http://bmc.bu.edu/bmc/radtol/
[37] G. Spiezia et al., https://edms.cern.ch/document/1275830/1
[38] G. Foucard et al. https://edms.cern.ch/document/1279855/1
[39] https://edms.cern.ch/document/1280154/1
[40] https://edms.cern.ch/document/1289605/
[41] https://edms.cern.ch/document/1289608/
[42] https://indico.cern.ch/getFile.py/access?contribId=1&amp;resId=1&amp;materialId=slides&amp;confId=252789
[43] https://edms.cern.ch/document/1289590/1
[44] Anne Samaras, https://escies.org/download/webDocumentFile?id=60355
[45] D. Herv&eacute; et al., https://escies.org/download/webDocumentFile?id=60356
[46] https://escies.org/download/webDocumentFile?id=60358 .Local copy
[47] https://indico.cern.ch/getFile.py/access?contribId=3&amp;resId=0&amp;materialId=slides&amp;confId=197024
[48] https://edms.cern.ch/document/1319268/1
[49] https://edms.cern.ch/document/1319267/1
[50] https://edms.cern.ch/document/1325464/1
References
11
TulliosPreferredPartList &lt; Main &lt; TWiki
[51] https://edms.cern.ch/document/1327311/1
[52] https://edms.cern.ch/document/1330229/1
[53] C. POIVEY, https://escies.org/download/webDocumentFile?id=60375
[54] A. Costantino, https://escies.org/download/webDocumentFile?id=60427
[55] Microsemi, 2011 High Reliability Radiation Hardened Semiconductors (Rectifiers, Diodes, BiPolar
Transistors, Power MOSFETs), Local copy.
[56] TWEPP2012 Optoelectronics Working Group
http://indico.cern.ch/event/170595/session/63/material/slides/1?contribId=191
[57] https://edms.cern.ch/document/1372879/1
[58] G Drake et al, 2014 JINST 9 , C01059,
http://iopscience.iop.org/1748-0221/9/01/C01059/pdf/1748-0221_9_01_C01059.pdf
[59] C. Abbate et al., http://iopscience.iop.org/1748-0221/9/02/C02017/pdf/1748-0221_9_02_C02017.pdf
[60] J. Casas and N. Trikoupis,
http://iopscience.iop.org/1748-0221/9/03/C03024/pdf/1748-0221_9_03_C03024.pdf
[61]
http://nepp.nasa.gov/DocUploads/8152BF7C-D3B6-4CF7-8AE9488DB7923C37/Task%201%20-%20Programmable%
[62] https://edms.cern.ch/document/1387205/1
[63] https://edms.cern.ch/document/1387258/1
Preferred and tested parts from other sites
• CERN accelerators RadWG
• ESA RADIATION Reports
• Radiation Tests performed at Fraunhofer reserach center
• Marek's list of radiation-tolerant parts (at CERN)
• Texas Instruments Radiation Data
• Isocom Ltd, a UK company selling rad-tol optocouplers !
• Measurement Specialties, a US company selling qualified sensors
• NSREC radiation effects testing data (very good). The same list is also on IEEE.
• JPL RAD Archive (I do not have access).
• NASA NEPP: (passive parts, thermal switches, etc)
• NASA GSFC Radiation Data Base (old list)
• Component list of AMS experiment, restricted to members
Parts designed for rad-tol
name and
Part
Notes
organization Description
xxx from
many parts
search
http://www.intersil.com/
Intersil
&quot;radiation&quot;
on their
website
Preferred and tested parts from other sites
Documentation
12
TulliosPreferredPartList &lt; Main &lt; TWiki
DCUF from
CERN MIC
Analog Mux,
ADC, Temp
sensor
AD41240 from 12 bit-40 Ms/s
CERN MIC
450 mW
CMOS A/D
Converter
QPLL from
Phase-Locked
CERN MIC
Loop based on
a Voltage
Controlled
Quartz Crystal
Oscillator
(VCXO)
LVDS MUX LVDS-CMOS
from CERN translator +
MIC
multiplexer
LVDSBUF
LVDS buffer
from CERN and CMOS
MIC
buffers
Delay25 from CMOS
CERN MIC
programmable
delay line
HPTDC from performant,
CERN MIC
flexible TDC
ISL75052SEH 1.5A LDO
from Intersil regulator,
SMD
M.S. Kennedy various parts
Radiation
NGCL3571
from Northrop Hardened 16:1
Analog
Grumman
Multiplexers
Corp.
128K x 8
W28C0108
from Northrop CMOS
Grumman
EEPROM
Corp.
xxx from
12-bit,
Ridgetop
40MS/s,
Group Inc
15mW ADC
CMS TRK http://cmstrackercontrol.web.cern.ch/cmstrackercontrol/documents/Magazz
CMS
ECAL
http://proj-kchip.web.cern.ch/proj-Kchip/preshower/doc/AD41240%20Man
CERN
proj-qpll.web.cern.ch/proj-qpll/
CMS
http://cmstrackercontrol.web.cern.ch/cmstrackercontrol/documents/LVDSM
CMS
http://cmstrackercontrol.web.cern.ch/cmstrackercontrol/documents/LVDSB
CMS
http://proj-delay25.web.cern.ch/proj-delay25/
CMS
http://tdc.web.cern.ch/tdc/hptdc/hptdc.htm
price: $262 http://www.intersil.com/content/dam/Intersil/documents/eldrs_reports/an18
-
http://www.mskennedy.com/
http://www.es.northropgrumman.com/solutions/radhardenedmicrocircuits/a
-
http://www.es.northropgrumman.com/solutions/radhardenedeeproms/index
-
http://indico.cern.ch/getFile.py/access?contribId=148&amp;sessionId=67&amp;resId
This topic: Main &gt; TulliosPreferredPartList
Topic revision: r97 - 28 May 2014 - TullioGrassi
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Parts designed for rad-tol
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