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Miniaturisation of Instrument Elecctronics using ASICs
Интегрируйте ваши идеи
Dr. D. Fernandez, CEO
www.arquimea.com
ARQUIMEA – THE COMPANY
ACTUATION SYSTEMS (ASAS)
SENSING SYSTEMS (AS3)
ELECTRONIC SYSTEMS (ASICS)
Integrate your Ideas
Интегрируйте ваши идеи
www.arquimea.com
www.arquimea.com
Группа интегральных схем ARQUIMEA готова обсудить ваше применение в любое время. Интегрируйте ваши идеи.
Интегрируйте ваши идеи
Выбор и координация партнеров для субподряда является ключевым фактором
Партнерство Alter и Arquimea в разработке ASIC смешанного сигнала
ОПЫТОПЫТ• Изучение и разработка испытательной модели радиационно-стойких аналогов
смешанного сигнала для космического применения (ЕКА)• Изучение процессов считывания технологии ASIC и разработка испытательной модели
для космического применения (ЕКА)• Квалифицированные для космического применения ASIC (Контроль элементов антенн
подверженных прямому радиационному воздействию) для REDSAT (EADS Casa Espacio)• Квалифицированные для космического применения ASIC смешанного сигнала
(Процессорная электроника для Оптических беспроводных коммуникационных систем) для METNET (INTA)
• Радиационно-стойкие ASIC структуры в глубоких сверхтонких технологиях (Catrene, ЕС)• Считывающая электроника для обнаружения частиц высокого приближения ASIC для
Hyde-Gaspard
• Изучение и разработка испытательной модели радиационно-стойких аналогов смешанного сигнала для космического применения (ЕКА)
• Изучение процессов считывания технологии ASIC и разработка испытательной модели для космического применения (ЕКА)
• Квалифицированные для космического применения ASIC (Контроль элементов антенн подверженных прямому радиационному воздействию) для REDSAT (EADS Casa Espacio)
• Квалифицированные для космического применения ASIC смешанного сигнала (Процессорная электроника для Оптических беспроводных коммуникационных систем) для METNET (INTA)
• Радиационно-стойкие ASIC структуры в глубоких сверхтонких технологиях (Catrene, ЕС)• Считывающая электроника для обнаружения частиц высокого приближения ASIC для
Hyde-Gaspard
ALTER – КОМПАНИЯ,
Alter оказывает поддержку клиенту на всех этапах
ASIC – ПАРТНЕРЫ ARQUIMEA
ARQUIMEA OFFERS
Integrated Circuit Development
RAD-HARD ASIC STRUCTURES IN DEEP SUBMICRON TECHNOLOGIES. OPTIMISE (CATRENE, EU)
ARQUMEA - Current ASIC’s programmes
AD584
HS1840
IRHNA57Z60
ADC128S102
AD584
HS1840….
IRHNA57Z60
ADC128S102
120kRAD-55ºC, +125ºC20 years
EOLITAR
120kRAD-55ºC, +125ºC20 years EOL
QMLITAR FREE
+5,000 uds.
Stock
TEST(ALTER)
SPACE COMPONENTS PROCUREMENT ISSUES
SPACE components procurement issues
PROBLEMSOLUTION
COTS (Evaluation + Upscreening)
ECI programme
ASICS development
OTHER
Availability of Space Qualified Parts is reduced and decreasing
X X X*
ITAR/ European dependence X X X*
OBSOLESCENCE/Technology life-cycle X X X*
Obsolescence management programmes
COMPETENCE•Power reduction needs•Mass reduction needs•Performance increase needs.
X X XX*
Current Monopoly cases X X*
* Depending on the function
c
One single ASIC can solve several issues at the same time*
Space Mixed Signal ASICs - Risk reduction strategy.
MIXED SIGNAL ASIC PROJECT ADVANTAGES
TECHNICAL
ECONOMIC PROGRAMMATICSTRATEGIC
Technical advantages
Economic Advantages
Programmatic Advantages
Strategic Advantages
ITARFor US components ITAR free today does not mean ITAR Free tomorrow.
Non Dependence technology: An alternative can be implementing the system on a
Radiation Hard ASIC using non-ITAR technologies by ARQUIMEA.
In 2006, During the political crisis between US and Europe due to 2nd Iraqui War, shipments of 54SX FPGAs where delayed by US DOD during 2 months.
No European satellite could be finished on time.
Wolfgang Veith, ESA's head of product assurance and safety, says: ‘ITAR Components increases the risk, both programmatic and technological. It's programmatic risk in the sense that it inevitably leads to extended procurement times. And the lifecycle of each component must be tracked to a large level of detail, from design to integration to testing to launch.'
MIXED SIGNAL ASIC TYPICAL APPLICATIONS
Antenna ManufacturerActive antennas used in satellites, are an array of different transmitter/receivers which have to be controlled independently. To reduce mass, size and power consumption an ASIC can be developed to control each of the this sections.
Mixed Signal ASIC typical applications
Remote Terminal UnitsEarth-observation satellites or space telescopes uses large format focal planes, based on an array of CCDs. Each of these CCDs need specific circuitry which can be efficiently implemented to be placed on the back of each CCD, leading to a light, small and power saving design.
Telecom Satellites require highly complex remote terminal Units and Payloads
Mixed Signal ASIC typical applications
Instrument Control UnitsEarth Observation satellites, landers, planet probes and others, commonly need systems which need to process and acquire data from different sensors.
As the number of sensor can be high, having each of them different electrical characteristics, integrated acquisition systems can be implemented on an ASIC, allowing centralized acquisition, simplifying data architectures, and adding features as online data processing among others.
Infrared
Radiation
TemperatureRadiometer
Mixed Signal ASIC typical applications
Scientific Payload ManufactuersSpace Exploration, Earth observation, Telescopes, ….
Exploring the limits of physicists implies the limit of technology, and space discrete components are not the most advanced technology available….
Mixed Signal ASIC typical applications
ASICS TECHOLOGY AND RH LIBRARIES STATE OF THE ART
Digital ASICs vs Mixed Signal ASICs for space.
Digital ASICs Mixed signal ASICs
Provide integrated solutions to digital functions.
Provide integrated solutions to digital and analog functions.
Space qualified technologies available in Europe (ATMEL).
No Space qualified technologies available in Europe.
Rad hard libraries available (ATMEL, DARE).
No full rad hard libraries available.
Many design groups available (including OEMs).
Few design groups available (including OEMs).
Replaceable by (space qualified) FPGAs. No replaceable by (space qualified) FPGAs.
ASICs – Technology status in Europe potentially suitable for mixed signal designs.
Foundry Technologies featuresaustriamicrosystems High-Voltage CMOS (3V – 120V operating voltage)
SiGe-BiCMOSNVM in CMOS and High-Voltage CMOS0.35μm and 0.18μm process nodesSpace heritage : ASIC STARX32 (MIXED SIGNAL)SMPS controlerMagnetometer Front End ASIC (MFA) (MIXED SIGNALNemeriX G3 chipset (MIXED SIGNAL)
IMS-Fraunhofer HV/HT 0.35µmIHP SGB25V: 0.25µm BICMOS process 3,3V (2,5V core available)
0,13µm pilot lineLfoundry LF150 PDK: 150nm modular technology
LF350 PDK: 0.35µm modular technologyON Semi. HVCMOS (3V – 80V operating voltage)
0.35μm, 0,25μm and 0.18μm processes.STM HCMOS9-SOI (130nm)
Space heritage: 24-BIT DAC (MIXED SIGNAL)CMOS065-SOI (65nm)
X-FAB CMOS Technologies: 1.0 - 0.18 µm modular mixed-signal CMOS technologies.Space heritage : ASIC REMS (MIXED SIGNAL)1553 Bus transceiverBiCMOS Technologies: 0.6µm technologySpace heritage: 16HPCMD ASIC (MIXED SIGNAL),15KradSOI-CMOS Technologies: 0.6 µm & 1.0 µm CMOS and BCD technology on SOI substrates.
ASIC generic development flow
Technology Validation
Technology Validation
ASIC PrototypeASIC Prototype
ASIC QM/FMASIC QM/FM
DesignValidationManufacturing AssemblyTesting (ESD, electrical and radiation)
DesignValidationManufacturing AssemblyTesting (ESD, electrical and radiation)
DesignValidationManufacturingAssemblyTesting (environmental and relaibility)
DesignValidationManufacturingAssemblyTesting (environmental and relaibility)
Phase I
Phase II
Phase III
Definition and implemetation of test
vehicles for radiation and functinal (parametric)
PERFORMANCE
Definition and implemetation of test
vehicles for radiation and functinal (parametric)
PERFORMANCE
Definition and implemetation of first ASIC
prototype (not fully functional
Definition and implemetation of first ASIC
prototype (not fully functional
DesignValidationManufacturingAssemblingTesting (QM full qualification)FM (LAT ESCC 9000)
DesignValidationManufacturingAssemblingTesting (QM full qualification)FM (LAT ESCC 9000)
Definition and implemetation of final
ASIC version (fully functional).
Definition and implemetation of final
ASIC version (fully functional).
Technology selection
Technology selection
ASIC spec consolidation
ASIC spec consolidation
CONCLUSIONS
• Mixed signal ASICs are postulated as an alternative solution to current procurement ISSUES: space devices availability, ITAR/ European dependence, OBSOLESCENCE, Power reduction Mass reduction, Performance increase and Current Monopoly cases.
• Typical ASICs development programme risks can be mitigated by innovative ASICS design strategies (ASIC re-configurability, re-usability, portability and radiation hardening tailoring).
• Foundries pre-selection, testing optimisation, assembly standardisation will also reduce risks for coming ASICs development programmes.
• Several applications are susceptible of being implements in a ASIC with potential technical, economic and programmatic advantages.
• State of the Art of ASICS and design technologies allows the development of ITAR free rad hard mixed-signal components in Europe.
Thank you
CONTACT: Francisco Gutiérrez – ARQUIMEA Ingeneiría S.L. - [email protected] Nuñez – ATER TECHNOLOGY - [email protected] Popov – ALTER TECHNOLOGY – [email protected]