View detail for Atmel Aerospace Rad-Hard Integrated Circuits

Atmel Aerospace
Rad-Hard Integrated Circuits
Company Experience
Long-term Commitment to the Aerospace Industry
Atmel® Aerospace components are all fully designed, assembled, tested, and qualified in Europe.
For nearly 30 years, Atmel has been a leading provider of highly integrated solutions to the aerospace industry. Thanks
to its dual-use strategy, Atmel gives customers access to the latest commercial technology innovations through radiation
hardening by design. The Atmel® Aerospace Business Unit offering of integrated circuits (ICs) is one of the most attractive
and competitive on the market. It includes:
•
•
•
•
•
•
•
•
180nm to 65nm CMOS processes
180nm CMOS, 150nm SOI and 65nm CMOS ASIC libraries
RISC rad-hard microprocessors
Reprogrammable microprocessors
4Mb SRAM and EEPROM
Memory modules
SEU-hardened by design reprogrammable FPGA
Spacewire communication devices
Thanks to advanced products, dedicated packaging which supports module techniques, QML-certified lines and world-class
quality, Atmel is paving the way to full-system integration and system on chip solutions. The complexity of future systems
solutions requires partnerships with government agencies and aerospace equipment manufacturers. Strong partnerships
with these key market contributors enable Atmel to validate products and services in actual system environments. Atmel is
committed for the long term to supporting the aerospace industry.
Quality Management
The ultimate goal is to reach full customer satisfaction through continuous improvement of
Atmel products and services. To achieve this objective, Atmel has developed a Corporate
Quality Management System that includes:
• A worldwide Quality Organization with dedicated resources for space offerings
• A robust Corporate Quality System that, beyond the traditional ISO9001-V2000
registrations, complies either with the MIL-PRF-38535 or the ESCC-QML quality systems.
Atmel facilities are fully QML qualified by the U.S. DLA (Defense Logistic Agency) and
the European Space Agency (ESA), covering a wide range of technologies, including the
most advanced silicon and high pin count assembly techniques. This system is periodically
rated by the most demanding aerospace customers, as well as the prestigious national and
international space agencies, such as ESA, CNES (Centre National d’Etudes Spatiales) and
NASA (National Aeronautics and Space Administration)
• The first-ever ESCC-QML qualified process for space (the Atmel 0.35μm ASIC)
• A policy of systematic continuous improvement, supported by state-of-the-art approaches,
techniques and methodologies (self-assesment against business excellence models, “Six
Sigma,” Hoshin, etc.)
• Periodic reporting and review of actual performance by top management
• Customer satisfaction regularly measured via periodic business reviews, score cards and
customer surveys
2
ISO 9001
ESCC-QML certification
DLA-QML certification
© 2015 / www.atmel.com
Atmel Aerospace
Rad-Hard Integrated Circuits
Atmel Rad-Hard Processors
Atmel’s Unrivalled Flight Heritage
Over the last 20 years, Atmel has steadily built a space microprocessor strategy based on the SPARC® architecture. With
worldwide sales of over 3500 flight models featuring the Atmel TSC695—and already over 1,000 flight models with the
Atmel AT697F—the Atmel SPARC processor roadmap boasts an unrivalled flight heritage.
TSC695F
AT7913E
AT697F
ATF697FF
32-bit SPARC V7
32-bit SPARC V8
Spacewire Remote
Terminal Controller
32-bit SPARC V8
32-bit SPARC V8
Reconfigurable with
Embedded FPGA
20MIPS/5MFlops
@SYSCLK = 25Mhz
40MIPS
@SYSCLK=50Mhz
90 MIPs
@ SYSCLK = 100MHz
90MIPS
@SYSCLK=100Mz
Typ. Consumption
1W
50mW/MIPS
1W
25mW/MIPS
0.7W
8mW/MIPS
0.7W
8mW/MIPS
Operating Voltage
4.5 to 5.5V
1.65V to1.95V(Logic)
3V to 3.6V (Buffers)
1.65V to1.95V(Logic)
3V to 3.6V (Buffers)
1.65V to 1.95V(Logic)
3V to 3.6V (Buffers)
>300Krad;
70MeV/mg/cm2
>300Krad;
95MeV/mg/cm2@125°C
>300Krad;
95MeV/mg/cm2@125°C
>300Krad;
95MeV/mg/cm2@125°C
QFP256
QFP352/CGA349
QFP256/CGA349
QFP352
UART,1553, CAN, ADC,
DAC, SpW
UART, PCI
UART, PCI, FPGA
Now
ESCC and QMLV
Now
ESCC and QMLV
Now
ESCC and QMlV
Description
Performance
TID; Latch-up
Package
SoC integration
Availability and
Qualification
Now
ESCC and QMLV
Extending the Capabilities of SPARC V8 Processors
Atmel uses innovative design techniques to optimize the SPARC V8 processor. The Atmel ATF697FF is the only solution
available on the market today that combines a powerful rad-hard processor and a reprogrammable SRAM-based FPGA.
It offers the best reconfigurable solution for in-flight space applications and helps our customers in case of:
• Design modifications occurring late in the process
• In–flight adjustments during trial flights
• Post-launch updates
The Atmel AT7913E SpaceWire Remote Terminal Controller is a highly integrated processor offering lower power
consumption and reduced size through full system-on-chip integration. Based on the LEON2FT processor core, the
AT7913E embeds the following peripherals:
• 64Kb EDAC protected on-chip memory
• ADC/DAC interface for analog acquisition/conversion
• CAN for instrument control
• SpaceWire interfaces for bridging of traffic from sensors
onto a high-speed network
Atmel ATF697FF
Atmel Aerospace Rad-Hard Integrated Circuits
3
Tools and Software for Processors
To help designers develop their applications faster and reduce time to market, Atmel provides:
• Hardware development boards with debug capabilities
• A set of embedded and demonstration software to ease software porting and fast
system evaluation
Atmel AT697F
Evaluation Board
Connecting Space Systems
Atmel SpaceWire value for space applications
• Compliant with the SpaceWire standard ECSS-E-ST-50-12C
• Flight Heritage in ESA, NASA, JAXA missions
• Use of SEU hardened libraries
• QMLQ & QMLV space grades with SMD
• Insure System interoperability
Clock
100MHz
SRAM
(15ns)
Atmel
AT697F
(100MHz)
Atmel ASIC
(150nm or 65nm)
(7 to 30 Mgates)
200 MBit/s
SpaceWire
EEPROM
AT17
(1Mbits)
20 Mbit/s
SpaceWire
100 Mbit/s
20 Mbit/s
EEPROM
AT69170
(4Mbits)
SRAM
(15ns)
ADC/DAC
Interface
SRAM
(15ns)
100 Mbit/s
SpaceWire
SRAM
(15ns)
SpaceWire
SpaceWire
Atmel
ATF280F
PROM
200 MBit/s
20 Mbit/s
SpaceWire
Codec
(50Mhz)
Clock
25 MHz
Wavelet
Transform
(25MHz)
DPRAM
Atmel
AT7913 RTC
(50MHz)
PROM
Clock
50MHz
Atmel
ATF280F
SRAM
(15ns)
100 Mbit/s
EEPROM
AT69170
(4Mbits)
EEPROM
AT69170
(4Mbits)
Memory Bus
Atmel Hotline: [email protected]
StarDundee: http://www.star-dundee.com/products/leon-sde
4
SpaceWire Router – AT7910E
IPs for connectivity
• Eight SpaceWire ports and two external
parallel ports
• 196-pin CQFP package
• 3.3V, LVDS
• Total dose up to 300 Krad
• Proven & space qualified IPs for ASIC & FPGA
• Spacewire, 1553, CAN, PCI, UART, …
• Placed & Routed for the best performances
© 2015 / www.atmel.com
Atmel Aerospace
Rad-Hard Integrated Circuits
Memories for Space
Atmel has a long track record with memories (SRAM, DPRAM, FIFO and EEPROM), and its current offering supports
the space industry’s efforts regarding standardization of part variations with respect to:
• Size and format
• Package
• Power consumption and speed
Format
Operating
Voltage(V)
Prime
Speed
Spec
(ns/mA)
TID
(Krad)
Package
Part Number
Type
Process
Feature
Size(μm)
AT65609EHV
SRAM
0.35
128K x 8
4.5 – 5.5
40/50
300
FP32.4
SB32.4
M65609E
SRAM
0.35
128K x 8
3.0 – 3.6
40/50
300
FP32.4
AT60142HT*
SRAM
0.25
512K x 8
3.0 – 3.6*
17/170
300
FP36.5
AT60142H
SRAM
0.25
512K x 8
3.0 – 3.6
15/170
300
FP36.5
AT68166HT*
MCP SRAM
0.25
512K x 32
3.0 – 3.6*
20/170
300
CQFP68
AT68166H
MCP SRAM
0.25
512K x 32
3.0 – 3.6
18/180
300
CQFP68
M67025E
DPRAM
0.6
8K x 16
4.5 – 5.5
30/200
30
CQFP84
M67204H
FIFO
0.6
4K x 9
4.5 – 5.5
15/120
30
FP28.4
M67206H
FIFO
0.6
16K x 9
4.5 – 5.5
15/120
30
FP28.4
FIFO with programmable HFF
0.6
16K x 9
4.5 – 5.5
15/120
30
FP28.4
AT28C010-12DK
Parallel EEPROM
0.6
128K x 8
4.5 – 5.5
120/80
30
FP32.4
AT17LV010-10DP
Serial EEPROM
0.35
1M x 1
3.0 – 3.6
100/10
60
FP28.4
AT69170E
Serial EEPROM
0.18
4M x 1
3.0 – 3.6
70/15
60
FP18.3
M672061H
* 5V tolerant / ** Not for new designs
Atmel Aerospace Rad-Hard Integrated Circuits
5
Atmel ASICs for Space
The Atmel Aerospace ASIC offering is enriched with new libraries each time the latest generation technology is introduced.
As an example, the ninth generation of Aerospace ASIC technologies, the ATC18RHA series, is a standard cell library
characterized on the Atmel 0.18μm CMOS technology.
Combined with these libraries are multiple options for embedding dedicated blocks, as well as a large choice of complex
hermetic packages. A MPW (multi-project wafer) service allows the users to lower the NRE.
ATC18RHA
ATMX150RHA
AT65RHA (*)
Bulk CMOS
SOI CMOS
Bulk CMOS
0.18
0.15
0.065
Digital
Mixed-signal
Digital
7M
22M
50M
7.5GHz
7.5GHz
30GHz
40
40
15ps
>400
>700
>1000
Flip-chip I/O available
N
N
Y
5V and HV (25/45/65V) option
N
Y
N
LVDS, PCI
LVDS, PCI
HSSL, LVDS, PCI
1.8/3.3/2.5V
1.8/5/3.3/2.5V
1.2/1.8/2.5/3.3V
Power consumption (nW/gate.MHz)
at 20% duty cycle
<10
<10
<0.5
Analog IPs Full-custom available
PLL
ADC, DAC, PLL, ···
PLL
RAM compiler
Y
Y
Y
NVM
N
Y
N
300
300
300
>95 @ 125°C (**)
>95 @ 125°C
>60 @ 125°C
Now
Now
Now
ESCC QML, QML-Q,
QML-V, QML-V RHA
2015
2016
Process
Feature size (µm)
Library
Usable gates (equivalent NAND2)
Maximum toggle frequency
Gate delay @25°C (ps)
Signal I/Os
Specific I/Os
Supply voltage
Rad Hardness
Functional TID (krads(Si))
Latch up (MeV/mg/cm2)
Availability
Qualification
(*): Targets
6
(**): Maximum rate possible with test equipment
© 2015 / www.atmel.com
Atmel Aerospace
Rad-Hard Integrated Circuits
Robust Design Flow
The Atmel aerospace design flow uses a validated
sequence of tools from RTL to GDSII.
Synopsys
Logic/physical/test synthesis, physical design,
power analysis, static timing analysis, formal
verification, cell characterization tool
Mentor
Graphics
Logic simulation, test synthesis, DRC/ARC/LVS
verification
Magma
Library cell characterization
Atrenta
Power optimization, DFT, SDC/CDC
verification at RTL level
Ansys
Power integrity
Feasibility Study
Preliminary Design Review
Digital & Analog Logic Design
Intermediate Design Review
Physical Design
Verifications
Critical Design Review
Package Development
Floor planning, layout prototyping,
signal integrity, package design
Customer Requirements
Test Development
Cadence
Digital & Analog
Design Kit
Mask Generation
Prototypes
Production
FPGA Retargeting to ASIC
Retargeting an FPGA to an ASIC means benefiting from the technical advantages of ASICs, such as a faster, smaller chip
with lower power consumption, while maintaining the original functionality of the device. In the aerospace domain, it also
offers improved reliability and radiation performance. Atmel offers an automatic FPGA retargeting service that reduces the
cost and design resources.
Hotline: [email protected]
Reprogrammable FPGAs for Space
The Atmel reprogrammable FPGA family offers a new alternative for space applications that combines innovative techniques
with industry-leading expertise in rad-hard by design technology. For low-gate-count designs and low power consumption
applications, Atmel offers the reprogrammable AT40K FPGA. For designs requiring more gates, Atmel has significantly
increased the gate count with the ATF280.
Benefits of the Atmel reprogrammable FPGA family include:
• In-system reprogrammability - Allows implementation of multiple design iterations at no additional cost
• Radiation-hardened by design
• Innovative built-in SEU protection - Users can design without using mitigation techniques, saving gate count and
development resources
• Secured configuration
• Cost-effective alternative to mask-configured ASICs
• Easy development flow with no NRE cost, shorter time to market, no miminum order quantity
Atmel Aerospace Rad-Hard Integrated Circuits
7
Features
AT40
ATF280
0.35µm CMOS
0.18µm CMOS
Unlimited re-programmability
Yes
Yes
Equivalent ASIC gates
40K
280K
18432 bits
115200 bits
18 ns
10 ns
20 MHz
50 MHz
Yes
Yes
2,304
14,400
233
308
-
8/8
300
300
70 @ 125°C (**)
95 @ 125°C(**)
Available in QML-Q and QML-V with
5962-03250 and ESCC with 9304/008
Available in QML-Q and QML-V
with 5962-12225
Technology
User-configurable RAM (FreeRAM™)
FreeRAM access time
System speed
Configuration auto-checks
Number of cells (one 4-input LUT
and one HDFF)
Cold-sparing and PCI-compliant I/Os
Transceivers/receivers LVDS
Functional TID (krads(Si))
Latch up (MeV/mg/cm2)
Availability
(*): Targets
(**): Maximum rate possible with test equipment
ATF280
AT69170
Self Check
POR
EEPROM
Core
User
I/O
FPGA Core
Config.
SRAM
Config.
Control
Memory Controller
Boundary
Scan
Controller
LVDS
Interface
Differential
Clocks
Config.
Self Int.
Checker
Config.
Load
Checker
Serializer
POR
Two-Wire
Interface
CRC
Securing FPGA Configuration
8
© 2015 / www.atmel.com
Atmel Aerospace
Rad-Hard Integrated Circuits
Serial EEPROM for FPGA Configuration
For FPGA configurations, Atmel not only offers use of the 1Mb EEPROM AT17LV010 qualified for space use, but
also the AT69170, a 4Mb version qualified for space use in 2014.
Process Feature Size
(μm)
Format (bit)
Operating Voltage(V)
Packages
Availability
AT17LV010-10DP
0.35
1M x 1
3.0 – 3.6
FP28.4
Now
AT69170
0.18
4M x 1
3.0 – 3.6
FP18.3
2014
Multi-Chip Module
To reduce size and weight, Atmel has combined 2 ATF280 FPGA and 2 AT69170
EEPROM into one multichip package. This cost saving solution, the ATFEE560, is available for
prototypes and qualified for space applications in 2015.
The ATF697, combining the ATF280 with the AT697 processor, permits to enhances
the AT697 capabilities with interfaces such as SpW. This cost saving solution is available
for prototypes and qualified for space applications.
ATFee560
Development Tools and Software
Atmel FPGA Development Kits
• Fast and economical product evaluation
• Can be used to run simple demonstrations or a complete
application
• A 6U C-PCI board with Atmel Aerospace EEPROMs and
SRAMs and a full set of peripherals
Space Programmer
Atmel ATF280 Evaluation Board
• Multi-platform software tool with USB interface for in-situ programming of the FPGA and EEPROM
IDS System Designer
• Integrated development system for logic synthesis from a VHDL model entry or direct gate-level entry, for place and
route, back annotation and final simulation
Mentor Graphics Precision®
• Comprehensive synthesis tool for Atmel FPGAs
Atmel Aerospace Rad-Hard Integrated Circuits
9
Atmel Aerospace Product Ordering Information
Atmel Ordering Code
Package Type
Operating Voltage
Quality Level
TSC695F-25MA-E
CQFP256
5V/25MHz
Engineering Samples
5962-0054001QXC
CQFP256
5V/25MHz
QML-Q
TSC695F and TSC695FL Processors
5962-0054001VXC
CQFP256
5V/25MHz
QML-V
5962R0054001VXC
CQFP256
5V/25MHz
QML-V RHA
951200301
CQFP256
5V/25MHz
ESCC
AT697F and ATF697FF Processors
AT697F-2H-E
CCGA349
3.3V/100MHz
Engineering Samples
AT697F-KG-E
CQFP256
3.3V/100MHz
Engineering Samples
5962-0722402QXB
CCGA349
3.3V/100MHz
QML-Q
5962-0722402QYC
CQFP256
3.3V/100MHz
QML-Q
AT697F-2H-SV
CCGA 349
3.3V/100MHz
QML-V equiv.
5962-0722402VYC
CQFP256
3.3V/100MHz
QML-V
AT697F-2H-SR
CCGA349
3.3V/100MHz
QML-V RHA equiv.
5962R0722402VYC
CQFP256
3.3V/100MHz
QML-V RHA
ATF697FF-ZA-E
CQFP352
3.3V/100MHz
Engineering Samples
5962-1422901QXC
CQFP352
3.3V/100MHz
QML-Q
5962-1422901VXC
CQFP352
3.3V/100MHz
QML-V
5962R1422901VXC
CQFP352
3.3V/100MHz
QML-V RHA
AT697F and ATF697FF Development Kits
AT697-EK
ATF697-EK
AT7913E Processors
10
AT7913E-2H-E
CCGA349
3.3V/50MHz
Engineering Samples
5962-10A0301QXB
CCGA349
3.3V/50MHz
QML-Q
5962-10A0301VXB
CCGA349
3.3V/50MHz
QML-V
5962R10A0301VXB
CCGA349
3.3V/50MHz
QML-V RHA
AT7913E-2U-E
CLGA349
3.3V/50MHz
Engineering Samples
5962-10A0301QYC
CLGA349
3.3V/50MHz
QML-Q
5962-10A0301VYC
CLGA439
3.3V/50MHz
QML-V
5962R10A0301VYC
CLGA349
3.3V/50MHz
QML-V RHA
AT7913E-YC-E
CQFP352
3.3V/50MHz
Engineering Samples
© 2015 / www.atmel.com
Atmel Aerospace
Rad-Hard Integrated Circuits
Atmel Ordering Code
Package Type
Operating Voltage
Quality Level
5962-10A0301QZC
CQFP352
3.3V/50MHz
QML-Q
5962-10A0301VZC
CQFP352
3.3V/50MHz
QML-V
AT7913E-YC-SR
CQFP352
3.3V/50MHz
QML-V RHA equiv.
AT7910EKB-E
CQFP196
Engineering Samples
5962-09A0301QXC
CQFP196
QML-Q
5962-09A0301VXC
CQFP196
QML-V
5962R09A03VXC
CQFP196
Communication ICs
3.3V
QML-V RHA
3.3V
Engineering Samples
AT40 FPGA
AT40KEL040KW1-E
CQFP160
AT40KEL040KZ1-E
CQFP256
3.3V
Engineering Samples
5962-0325001QXC
CQFP160
3.3V
QML-Q
5962-0325001QYC
CQFP256
3.3V
QML-Q
5962-0325001VXC
CQFP160
3.3V
QML-V
5962-0325001VYC
CQFP256
3.3V
QML-V
3.3V
5962R0325001VXC
CQFP160
5962R0325001VYC
CQFP256
QML-V RHA
930400801
CQFP160
3.3V
ESCC
930400802
CQFP256
3.3V
ESCC
QML-V RHA
AT40KFL040KW1-E
CQFP160
3.3V / 5V tolerant
Engineering Samples
AT40KFL040KZ1-E
CQFP256
3.3V / 5V tolerant
Engineering Samples
5962-0325002QXC
CQFP160
3.3V / 5V tolerant
QML-Q
5962-0325002QYC
CQFP256
3.3V / 5V tolerant
QML-Q
5962-0325002VXC
CQFP160
3.3V / 5V tolerant
QML-V
5962-0325002VYC
CQFP256
3.3V / 5V tolerant
QML-V
5962R0325002VXC
CQFP160
3.3V/ 5V tolerant
QML-V RHA
5962R0325002VYC
CQFP256
QML-V RHA
AT40 Development Kits
AT40KEL-EK
ATF280 FPGA
ATF280F-2J-E
CCGA472
ATF280F-2V-E
CLGA472
3.3V
Engineering Samples
ATF280F-YF-E
CQFP352
3.3V
Engineering Samples
ATF280F-YJ-E
CQFP256
3.3V
Engineering Samples
Atmel Aerospace Rad-Hard Integrated Circuits
3.3V
Engineering Samples
11
Atmel Ordering Code
Package Type
Operating Voltage
Quality Level
5962-1222501QXB
CCGA472
3.3V
QML-Q
5962-1222501QYC
CLGA472
3.3V
QML-Q
5962-1222501QZC
CQFP352
3.3V
QML-Q
5962-1222501QUC
CQFP256
3.3V
QML-Q
5962-1222501VXB
CCGA472
3.3V
QML-V
5962-1222501VYC
CLGA472
3.3V
QML-V
5962-1222501VZC
CQFP352
3.3V
QML-V
5962-1222501VUC
CQFP256
3.3V
QML-V
5962R1222501VXB
CCGA472
3.3V
QML-V RHA
5962R1222501VYC
CLGA472
3.3V
QML-V RHA
5962R1222501VZC
CQFP352
3.3V
QML-V RHA
5962R1222501VUC
CQFP256
3.3V
QML-V RHA
3.3V
Engineering Samples
ATF280 Development Kits
ATF280-EK
ATFEE560 FPGA
ATFEE560FE-ZB-E
CQFP352
ATFEE560-ZB-MQ (1)
CQFP352
3.3V
QML-Q equiv.
ATFEE560-ZB-SV (1)
CQFP352
3.3V
QML-V equiv.
ATFEE560 Development kit
ATFEE560-EK
(1) Preliminary ordering information prior to SMD reference availability
12
© 2015 / www.atmel.com
Atmel Aerospace
Rad-Hard Integrated Circuits
Atmel Ordering Code
Package Type
Operating
Voltage
Format
Prime Speed Spec
(ns/mA)
Quality Level
Serial EEPROM AT17LV010 & AT69170
AT17LV010-10DP-E
AT17LV010-10DP-MQ
Engineering samples
FP28
3-3.6V
1Mx1
100/10
QML-Q like
AT17LV010-10DP-SV
QML-V like
AT69170F-DT-E
Engineering samples
AT69170F-DT-MQ
FP18
3-3.6V
4Mx1
70/15
AT69170F-DT-SV
QML-Q like
QML-V like
Parallel EEPROM AT28C010
AT28C010-12DK-E
AT28C010-12DK -MQ
Engineering samples
FP32
4.5-5.5V
128Kx8
120/80
AT28C010-12DK-SV/MQ
QML-Q like
QML-V like
SRAM M65609 AT65609EHV AT60142 AT68166
MMDJ-65609EV-40-E
Engineering samples
5962-0250101QXC
QML-Q
5962-0250101VXC
FP32
3-3.6V
128kx8
40/50
QML-V
SMDJ-65609EV-40SCC
ESCC
5962R0250101VXC
QML-V RHA
AT65609EHV-DJ40-E
Engineering samples
AT65609EHV-DJ40MQ
AT65609EHV-DJ40SV
AT65609EHV-DJ40SR
AT65609EHV-C940SV
QML-V
4.5-5.5V
AT65609EHV-C940-E
AT65609EHV-C940MQ
QML-Q
FP32
128Kx8
40/50
ESCC
Engineering samples
QML-Q
SB32
QML-V
AT65609EHV-C940SR
ESCC
w
Atmel Aerospace Rad-Hard Integrated Circuits
13
Atmel Ordering Code
Package Type
Operating
Voltage
Format
Prime Speed Spec
(ns/mA)
AT60142H-DS15M-E
Engineering samples
5962-0520804QYC
15/180
(12/220)
5962-0520804VYC
5962R0520804VYC
AT60142H-DS15MSCC
AT60142HT-DS17M-E
FP36
3-3.6V
QML-Q
QML-V
QML-V RHA
ESCC
512Kx8
Engineering samples
5962-0520803QYC
QML-Q
17/170
5962-0520803VYC
QML-V
5962R0520803VYC
QML-V RHA
AT60142HT-DS17MSCC
ESCC
AT68166H-YS18-E
Engineering samples
5962-0622906QYC
QML-Q
18/170
5962-0622906VYC
5962R0622906VYC
AT68166H-YS18-SCC
AT68166HT-YS20-E
QML-V
QML-V RHA
FP68
3-3.6V
ESCC
4*
512Kx8
Engineering samples
5962-0622905QYC
QML-Q
20/165
5962-0622905VYC
5962R0622905VYC
QML-V
QML-V RHA
AT68166HT-YS20-SCC
ESCC
FIFO 67204 67206(1)
14
Quality Level
DPR 67025
MMCP-67204HV-15-E
SB28
Engineering samples
MMDP-67204HV-15-E
FP28
Engineering samples
5962-8956810QTC
SB28
QML-Q
5962-8956810QNC
FP28
QML-Q
5962-8956810VTC
SB28
QML-V
15/120
5962-8956810VNC
FP28
5962D8956810VTC
SB28
QML-V RHA
QML-V RHA
5962D8956810VNC
FP28
SMCP-67204HV-15SCC
SB28
SMDP-67204HV-15SCC
FP28
4.5-5.5V
QML-V
ESCC
4Kx9
ESCC
5962-8956809QTC
SB28
QML-Q
5962-8956809QNC
FP28
QML-Q
5962-8956809VTC
SB28
QML-V
5962-8956809VNC
FP28
QML-V
30/110
5962D8956809VTC
SB28
5962D8956809VNC
FP28
QML-V RHA
QML-V RHA
SMCP-67204HV-30SCC
SB28
ESCC
SMDP-67204HV-30SCC
FP28
ESCC
© 2015 / www.atmel.com
Atmel Aerospace
Rad-Hard Integrated Circuits
Atmel Ordering Code
Package Type
Operating
Voltage
Format
Prime Speed Spec
(ns/mA)
Quality Level
MMCP-67206HV-15-E
SB28
Engineering samples
MMDP-67206HV-15-E
FP28
Engineering samples
5962-9317708QTC
SB28
QML-Q
5962-9317708QNC
FP28
QML*Q
5962-9317708VTC
SB28
5962-9317708VNC
FP28
5962D9317708VTC
SB28
QML-V RHA
5962D9317708VNC
FP28
QML-V RHA
SMCP-67206HV-15SCC
SB28
15/120
4.5-5.5V
QML-V
QML-V
ESCC
16Kx9
SMDP-67206HV-15SCC
FP28
5962-9317707QTC
SB28
QML-Q
5962-9317707QNC
FP28
QML*Q
5962-9317707VTC
SB28
QML-V
5962-9317707VNC
FP28
5962D9317707VTC
SB28
5962D9317707VNC
FP28
ESCC
30/110
QML-V
QML-V RHA
QML-V RHA
SMCP-67206HV-30SCC
SB28
ESCC
SMDP-67206HV-30SCC
FP28
ESCC
MMCP-672061HV-15-E
SB28
Engineering samples
MMDP-672061HV-15-E
FP28
Engineering samples
5962-9317710QTC
SB28
QML-Q
5962-9317710QNC
FP28
QML*Q
5962-9317710VTC
SB28
15/120
QML-V
5962-9317710VNC
FP28
5962D9317710VTC
SB28
QML-V RHA
5962D9317710VNC
FP28
QML-V RHA
SMCP-672061HV-15SCC
SB28
SMDP-672061HV-15SCC
FP28
4.5-5.5V
QML-V
ESCC
16Kx9
ESCC
5962-9317709QTC
SB28
QML-Q
5962-9317709QNC
FP28
QML*Q
QML-V
5962-9317709VTC
SB28
5962-9317709VNC
FP28
30/110
QML-V
5962D9317709VTC
SB28
5962D9317709VNC
FP28
QML-V RHA
SMCP-672061HV-30SCC
SB28
ESCC
SMDP-672061HV-30SCC
FP28
ESCC
MMK2-67025EV-30-E
FP84
Engineering samples
5962-9161709QZC
FP84
5962-9161709VZC
FP84
930105001
FP84
5962-9161706QZC
FP84
5962-9161706VZC
FP84
930105002
FP84
Atmel Aerospace Rad-Hard Integrated Circuits
30/200
4.5-5.5V
QML-V RHA
QML-Q
QML-V
ESCC
8Kx16
QML-Q
45/180
QML-V
ESCC
15
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© 2015 Atmel Corporation. / Rev.: Atmel-4015K-Integrated-Circuits-Space-Rad-Hard-ICs_E_US_052015
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