A passion for performance. Digital and Mixed-Signal custom, semi-custom, off-the-shelf designs with Aeroflex Gaisler IP Guaranteed radiation performance QML-V, QML-Q, Mil-Aero, medical, industrial grades Category 1A Trusted Accreditation “Integrating the Signal Chain” RadHard and HiRel ASICS Digital and Mixed-Signal R adHard AS I Cs n Fabless business model for mask generation and wafer fabrication. - All other design, manufacturing and quality assurance steps occur in house. 30 YEARS AND MOVING FORWARD A eroflex Microelectronic Solutions – HiRel has a 30-year history of cost-effective RadHard and commercial ASIC solutions for the most critical applications. To meet the new demands of the digital world, Aeroflex offers proven RadHard n Numerous mature foundry processes available. Mixed-Signal ASIC capabilities, expanding our products to a full range of custom solutions - from FPGA conversions to complete Mixed-Signal system-level solutions, from high-voltage 0.6 µm n Aeroflex proprietary ASIC libraries & IP. - Access to commercial libraries & IP as well. CMOS to dense 90 nm CMOS. Aeroflex RadHard ASICs have flown before on Cassini, Mars Rover, GOES-R, Iridium, Milstar, P-91, the International Space n Industry standard EDA design tools and design flow. Station, and many classified satellites. Aeroflex's commercial Mixed-Signal ASICs are currently installed in medical, security, and industrial applications. With Aeroflex's new custom RadHard n n Assured long term supplier of integrated circuit products Specialized development and qualification of RadHard ASIC technologies. Mixed-Signal solutions, system designers do not need to settle for more costly and power-hungry FPGA solutions. By leveraging our high-volume commercial and RadHard product knowledge, our Aeroflex Gaisler portfolio, our proprietary advanced RadHard techniques, and the strength of our foundry n Trusted, CAT1A Accredited, Design through Qualification partners, Aeroflex has the experience, technology, and motivation to assure your program success. Aeroflex remains committed to assured supply from 0.6 µm to 90 nm. AEROFLEX GAISLER – SOC Building Block IP n n n n n n n n n n n n n n n n n LEON3/4 SPARC V8 Processor LEON3/4 FT SPARC V8 Processor GRLIB portable IP library GRFPU IEEE-754 floating-point unit GRPCI Master/Target PCI bridge GRETH 10/100/1000 Mbit Ethernet MAC USB host controller USB device controller SpaceWire controller SpaceWire router GR1553 AHB IF for 1553 Spacecraft Data Handling I²C - Inter-IC Bus interfaces Serial Peripheral Interface AES/ECC Cryptography CAN controllers Memory controllers FLEX ENGAGEMENT MODELS Aeroflex has proven experience in converting FPGAs into RadHard ASICs. As FPGAs (most recently the 1020, 1040 and 1280) become obsolete, Aeroflex has converted many Flex Engagement Models to ASICs. Examples include Actel RH1020, RH1280, RT54SX32S/72S, RTAX250S/1000S/2000S, Xilinx XC2/3/4000, and Virtex-II/-IIPro/-4/-5. We offer these benefits. n CML/SSTL/LVDS/PLL capability n Chip capacitors on packages n SEU of <2E-12 error/bit-day n SEL of >128MeV on 0.6 µm process* n SEL of >110MeV on 0.25 µm process* n Actel compatible 84, 172, 208, 256, 352 CQFPs, n Xilinx compatible CQFP, Flip Chip, CCGA, PBGA, 624 CCGA LGA pinouts * maximum rate possible with test equipment @ 125°C Aeroflex Process Technology TE C H N O LO GY 90nm CMOS 130nm CMOS 180nm CMOS 0.25µm CMOS 0.35µm CMOS 0.6µm CMOS Metal layers 6-9 Cu 6-8 Al/Cu 5-6 Al/Cu 4-5 Al/Cu 3-4 Al/Cu 3 Al/Cu Capacitors MiM MiM MiM MiM MiM/PiP PiP High-value resistors No Yes Yes Yes Yes Yes Vertical NPN bipolar No No Yes Yes Yes Yes Substrate PNP bipolar Yes Yes Yes Yes Yes Yes HV CMOS support No No 5 V (self-aligned) Yes 10 V (self-aligned) 20 V (ext drain) Thick metal inductor No Yes Yes No Yes No Digital/analog supply voltages (DVdd, AVdd; Vss=0) 2.5, 1.8, 1.2, 1.0 3.3, 2.5, 1.8, 1.5, 1.2 5.0, 3.3, 1.8 3.3, 2.5 10.0, 5.0, 3.3 5.0, 3.3, 2.5 PAR AM ETE R S ±2.5, ±1.65, ±0.9 Alternate analog supply voltages (AVdd/AVss) ±5, ±2.5, ±1.65 Maximum toggle frequency 33 GHz 5 GHz 2.4 GHz 1 GHz 375 MHz 215 MHz Power dissipation - nW/ gate - MHz; 20% duty cycle 7 10 20 40 150 320 Gate delay 25°C (ps) 6 20 50 65 140 225 Usable gates 15-50 M 10-15 M 8M 3M 1.5 M 500 K (NAND2 equivalent) Typical signal I/O ~1024 ~1024 ~1024 ~512 ~425 ~400 Flip-chip I/O available Yes Yes Yes No No No Cold sparing Yes No Yes Yes Yes Yes Full 5V compliance No No Yes No Yes Yes 5V tolerance No No Yes Yes Yes Yes ADCs, DACs PLL Band-gap, Volt. reg. Comp/op-amps, DACs, ADCs, PLL, VCO Band-gap, Volt. reg. Comp/op-amps ADCs, DACs PLL Band-gap, Volt. reg. Comp/op-amps, ADCs, DACs, PLL, VCO RC oscillator Band-gap, Volt. reg. SerDes Temp Sensor PLL PLL/DLL Yes Yes Yes No No No Example analog IP (full custom analog available) SRAM compiled Flash* EEPROM* RadHard OTP Metal Fuse** Non-volatile memory Flash* EEPROM* RadHard OTP Metal Fuse** Special I/O SSTL, MGT, CML, LVDS, PCI, PCI, SerDes SSTL, MGT, CML, LVDS, PCI SSTL, MGT, CML, LVDS, PCI, USB1.1 SSTL, MGT, CML, LVDS PCI SSTL, MGT, CML, LVDS, PCI, RS232/ RS485 (±5V), USB1.1 SSTL, MGT, CML, LVDS, PCI Total ionizing dose Rads(Si) 30-300 K 30-300 K 30-300 K 30-300 K 30-300 K 30-300 K SEL (MeV-cm2/mg) @ Vdd max and 125°C >100 >110 >110 >110 >110 >128 Reliability (FIT rate) <50 <20 <10 <10 <10 <5 Wafer foundry quality level QML-Q&V QML-Q/Q+ QML-Q/Q+ QML-Q&V QML-Q&V QML-Q&V Trusted foundry level CAT1A CAT1A *Limited total-ionizing dose environments. Floating Gate Memories such as Flash and EEPROM must be periodically re-written in a total ionizing dose environment for reliability. ** To be QML qualified R adHard AS I C Design Flow SUPPORTED DESIGN TOOLS Aeroflex Colorado Springs actively supports robust and easy-to-use design environments including VHDL and Verilog, using third-party design tools. Aeroflex supports libraries for: n Cadence n Mentor Graphics n MATLAB n Synopsys n Full mixed-mode simulation n many others R adHard sensor inter face solutions A eroflex understands that RadHard data conversion solutions must be system oriented. That’s why Aeroflex offers Aeroflex Gaisler IP and radiation analysis of photonic sensors using an Aeroflex-proprietary SEE simulator. Using the output of our simulator, we can take into account all radiation-induced noise sources, including the noise generated in the sensor when designing RadHard analog-to-digital conversion ASICs for critical control loop or sensing applications. R ather than have discrete ADCs for each sensing channel, Aeroflex can integrate multiple, independent ADCs on a single ASIC with low cross-talk between channels. Using Aeroflex’s substrate-isolated, RadHard analog library, channel-to-channel isolation of >-108 dB can be achieved. Multiple, parallel ADCs often save power over highly MUXed solutions, since each ADC can operate at significantly lower frequencies. Contact Aeroflex today to take advantage of the increased performance, reliability and reduced size and power consumption of our RadHard Mixed-Signal ASICs. W E C O N N E C T T H E R E A L W O R L D T O T H E D I G I TA L W O R L D ™ E X AM P LE S O F A RadHard AS I C S O LUTI O N Radiation RE AL Temperature Light SENSOR Acceleration W O R LD PP Pressure U U FILTER TT Magnetism LNA IN ADC MAC PHY DSP µP + - NVM ANALOG MEMORY DIGITAL R adHard AS I Cs PACKAGING TYPE LEADS/DESCRIPTION CQFP 68, 84, 132, 172, 196, 208, 256, 304, 340, 352 CPGA 281, 299 CLGA/CCGA 472, 624, 1028, 1752 Chip-on-Flex 100µ lead pitch Aeroflex also offers custom packages including multi-chip modules, end modules, and all JEDEC packages. WEB SiTE www.aeroflex.com/radhardasic www.aeroflex.com/Gaisler TELEPHONE Our passion for performance is defined by three attributes represented by these three icons: solution-minded, performance-driven and customer-focused. 1-800-645-8862 Part No. RHASIC 8/11/2015. Specifications are subject to change without notice.