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Company Profile Overview Founded 1989 (but really operative since 1995) www.microgate.it Engineering Development of advanced electronic systems for adaptive optics and other control applications in both scientific and industrial fields engineering.microgate.it www.adoptica.com Professional Timing Development, production marketing of professional equipment for sports and timing timing.microgate.it Training & Sport Development, production and marketing of systems for athletic performance evaluation training.microgate.it www.optojump.com witty.microgate.it Spin-off company of Politecnico di Milano founded in 2004. www.micro-photon-devices.com Medical Rehab Development, production and marketing of systems of Gait Analysis for medical rehabilitation medical.microgate.it www.optogait.com gyko.microgate.it Geographical location • Microgate is based in Bolzano - Italy • 280 km from Milan – Italy • 220 Km from Venice – Italy • 270 from Munich - Germany Munich Bolzano Milan Venice Facilities and employees • New building • Electronic laboratory • Mechanical laboratory, test room • Clean room class ISO-7 • 35+ employees: 14 engineers with 4 PhD among them (4 aerospace, 7 electronics, 3 computer science) Capabilities The internal capabilities cover the entire process of electronic systems design and manufacturing: • Control System Design • Electronic design of Microcontroller, DSP and FPGA based devices • High speed optical communication and logic • Wireless systems • Boards layout • Software design and implementation • embedded software for real-time systems • high level user interfaces • Integration of industrial control systems • Internal prototyping and manufacturing of small series • Management of the whole process from design and prototypes to little and medium size productions • Components procurement • Management of assembly and integration • Testing Quality Policy • Quality, since beginning, on top of the priorities • 2008: Hiring of a Quality Assurance Manager • 2009: ISO9001:2008 Certification acquired (paperless) • 2011: ISO13485:2012 Certification acquired Sales Network • About 60 distributors in 33 countries all around the world • Founded in 2010: Microgate USA (located in Mahopac, NY) Professional Timing How it Started Professional Timing • Despite of being one of the youngest companies producing professional timing equipment for sports, Microgate holds worldwide a relevant position in this market niche. • A wide palette of products has been developed in order to offer a complete line: •Chronometers for international competitions and for training •Patented radio-transmission systems for timing impulses •Pixel and LED Displayboards •Photocells and Start Systems •Accessories: starting gates, sensors, bags, tripods, intercom •Partnership with leading company in related market niche (Photofinish, Swimming solutions) Timing References • Italian Olympic Comitee (C.O.N.I.) • Italian Timekeepers Association (F.I.Cr.) • Italian Track & Field Association (FIDAL) • Several International and National Winter Sports Federations • Matsport (official chrono service of Tour de France) • Several service timing companies in more than 40 countries Some international events timed with Microgate products • • • • • • • • Tour de France and Tour de Suisse (in collaboration with Matsport Timing) Giro d'Italia Rally Montecarlo Alpine Ski World Cup Slalom Races in Levi - Finland Orienteering World Championship Switzerland Alpine Ski Europa Cup Finals in Piancavallo - Italy Lake Lanier Canoa Kayak World Championship in Atlanta – USA FEI (International Federation for Equestrian Sports) World Cup in Verona – Italy • Attelage World Cup in Paris – France • R.I.D.E. Normandy - Attelage World Cup Installations • Velodrome in Palma de Mallorca – Spain (2007) • Palaindoor in Ancona – Italy (2006) • Kolomna ice-skating centre in Kolomna – Russia (2007) • Bob-Luge Olympic Track in Russia (2008) • Salt Lake City Olympic Winter Games in 2002 (display-boards for Seiko) • Track & Field Stadium in Iceland (2003) • Track & Field Training Center in Qatar Main Products Chronometers LED Displayboards Accessories: • Radio transmission • Photocells • Starting gates • GPS Synchronizer • ... REI2 • Specific and targeted software for the management of different sport disciplines • Full-scale software with an user-friendly interface • More than 100 timing lines available through cables and radio • Countless connections available (PC, display-boards, other chronometers, probes, semaphore lights, beepers, etc) • Only chronometer able to apply a bidirectional data transmission between Chronometer and PC (participants’ list, start-lists, groups, rankings, etc.) • Rei2 network available with automatic data-backup and synchronization between more Rei2s • Only chronometer able to show start-numbers, times, names and nationalities on one or more display-boards without using a PC Racetime2 • Specific and targeted softwares for the management of different sport disciplines and training • Simplicity of use • Small size, light weight and anatomic shape • High reliability • Data transmission from Chronometer to PC (rankings and other data) • Detachable printer Display Boards • Numeric, Alphanumeric or Graphic • Possibility to build-up a modular system • Pixel or LED Technology • Include various programs: Display, Timing (stopwatch), Lap Time, Counter, Speed measurement, Self Timing (Single or Parallel), etc. • Battery mode • Communication protocols: RS232, RS485, Ethernet (IP), WIFI (optional) • GPS (optional) DisplayBoards LinkGate • Redundant transmission of data packages which assures maximum precision and reliability • Single- or multifrequency • 10 or 500mW power (2km or 9 km range) • Transmission of the start-number directly to Microgate’s chronometers • Wireless transmission of data between chronometer and display-board • Selectable impulse type (Start, Stop, Lap, etc) • Possibility to store and re-transmit data Kit for Ski and Training • No cables, allows free moving freely along the track • Easy to transport and quick to set-up • Very reliable, operates at the lowest temperatures and in the worst weather conditions • Intuitive and user-friendly interface • Allows chronometer to PC data transfer • Used by the best ski national teams in the world Softwares • For the management of various types of race and suitable for the real-time display of rankings and data • For the exchange of data (athletes’ names, start-lists, results, etc.) between PC and chronometer • For the management of the display-boards Other Products Semaphore light Start Gate Photocells Intercom Startbeeper GPS Synchronizer Clima Sensors Digital Photofinish by Lynx • FinishLynx® is the world's most popular and versatile digital photofinish and timing system. • Basic Kit includes minimum equipment (EtherLynx Camera and PC running Windows) • You can automatically link ALL the data handling tasks at your events and do the Total Event Management (start lists, results, scoreboards, wind gauges, etc.. ) • Advanced Features: • Start Sensor • Photoeye(s) • Wind Gauge • Internet connection • Running Time Scoreboard Display(s) • Results Scoreboard Display(s) • Video Converter for TV broadcast (PAL/SECAM/NTSC) Other Lynx products • IdentiLynx IdentiLynx is an Ethernet based full-frame digital video camera that when combined with any EtherLynx line-scan photo finish will produce a totally integrated photo finish solution that maximizes the functionality of each technology. • SerialLynx Connection of devices with serial interface using an ethernet network, also wireless • Reactime Detection of false starts, acquisition of reaction and explosive force times also wireless without the need for laying cables • FieldLynx A revolution in the way data are exchanged between the various sites at a sports event • LaserLynx Measurement and transmission of data for throws in a single operation • ResultTV Display of results on television circuits Complex installations for big events Falconry Race Management • Since 2010 Microgate manages the Timing of the most important competitions of Falconry races in Dubai and Abu Dhabi • Custom hardware development (Lidar scanner, Rfid Falcon rings, etc.) • Custom software development for championship management and race timing • 12 dedicated persons every year for 4 months on the field Falconry Race Management Training & Sport Training Sector • Microgate performs an important work in the field of athletic preparation and evaluation, providing trainers and others working in these sectors with high technology and innovative products, technical consultancy and assistance. • The continuous collaboration with top level teams, important universities and research institutes in Italy and abroad allows Microgate to keep its systems updated to the latest needs in the field of training and performance development. • Infrared device for the evaluation of the athletic performance through different indexes like contact and flight times, jump height, specific power, etc. • System management through PC + webcams for video analysis • Easy to setup Single Meter In this configuration OptoJump Next makes it possible to perform jump tests, reaction tests and running tests (if mounted on a treadmill). The data that can be obtained are: • contact times • flight times • reaction time to a sound/visual impulse • elevation of center of gravity • specific power (W/Kg) • frequency • energy expended (J) Modular System The modular system (up to 100 meters) allows a complete analysis of a run or of a gait and offers further fundamental indexes as acceleration, speed and length of the step/stride, asymmetries, etc. On Treadmill OptoJump can easily be placed on the lateral bands of any treadmill for walking or running analysis. Simply leaned on or permanently fixed with adhesive-tape, OptoJump is the first portable laboratory for Run/Gait Analysis to produce a full report at very low cost. Two-dimensional System • The two-dimensional acquisition mode makes it possible • to acquire all the data typical of OptoJump Next, leaving the athlete free to move in any direction • to create exercises and reaction tests in which the athlete must move along predefined courses inside the measurement surface, exploiting his/her powers of reactivity and concentration • to perform complex tests that involve the combination of two or more tests or the combination of jump tests with movement tests The Software Management of • Athletes' data • Custom Test Definitions • Test Execution • Results & Reports • Test Compare and History of athlete's evolution • Video analysis • Easy User Interface • New wireless Timing Kit for Training • First chronometer with COLOR display and easy User Interface • Highly Portable Easy to perform all the athletic tests typical of modern athletic preparation (such as sprint, shuttle, resistance, courses) and to acquire their results with an accuracy higher than 1/1000s • Multisport • Witty has been developed to satisfy timing requirements for all forms of training and testing. The timer comes with a variety of preconfigured tests, used in athletic preparation (including sprint, shuttle, endurance, course), it also allows the trainer to define and set sport specific customized tests. GyKo is an inertial measurement tool for the analysis of the movement of any body segment http://gyko.microgate.it • 3 axis accelerometer, gyroscope, magnetometer • 1 KHz sampling rate • Bluetooth 4.0 • Used with OptoJump/OptoGait or RePower Software • Pelvic belt, the vest, two belts of different sizes for upper and lower limbs and a magnetic support In combination with OptoJump Next or standalone: • Eccentric and concentric work and duration • Force, Velocity and Maximum Power • Rate of Force Development and Landing Rate The Power section of Gyko RePower Software is specifically designed to evaluate and monitor sporting performance, particularly in relation to the analysis of muscle strength and work on its development. Training References • Football FIFA, UEFA, Inter FC, Milan AC, Juventus, Napoli, Sampdoria, Udinese, Chelsea, Liverpool, Real Madrid, Valencia, Tottenham, Manchester City, Augsburg, Football Federation Australia, Belgian Football Association, Norwegian Football association, UAE Football Association and other important football teams of italian Serie A and B and european leags • Basket Toronto Raptors (NBA), Virtus Bologna, Benetton Treviso, APFIP - Associazione Preparatori Fisici Italiani Pallacanestro • Volley Novara, Perugia, Trento, Dynamo Mosca • Rugby Italian and French National Team, Benetton Treviso • Hockey Rangers NY, Penguins (NHL) • University Salzburg, Wien, Digion, Nürnberg, Graz, Köln, Hamburg, Freiburg, Kyoto, Bern, Cardiff, Edinburgh, Ferrara, Bologna, CONI (Rome/Formia), Univesitaet Potsdam – DE , Zagreb University of Sport & Kinesiology, Universität Kassel – DE, Bundesuniversität München – DE, Viborg Katedralskole – DK • Olympic Centers and others U.S. Olympic Training Centers (USA: Colorado Springs, Chulavista,Park City), C.O.N.I (Formia), Bertesgaden, Frankfurt, Berlin, Maklingen, Spala, Qatar, INSEP Paris (FRA), CAR Sierra Nevada (ESP), New Balance Puerto Rico, Nike – US, Republic of Azerbaijan Ministr, Comando per la Formazione, Specializzazione e Dottrina dell’esercito – ITA Medical • Medical version of OptoJump • Same philosophy and principles • Different software with more specific Gait Reports • Surface Electromyography (EMG) Interface • Registered to Italian Medical Device Directory • ISO 13485 certification OptoGait makes it possible to: • assess performance and physical condition • rapidly identify any muscular deficiencies and measure tolerance to various workloads • develop customized and diversified training/rehabilitation based on the test results • periodically check the results and the effectiveness of treatment • create a database of subjects • motivate subject by providing tangible evidence of progress Single Meter In this configuration OptoGait makes it possible to perform jump tests, reaction tests and running tests (if mounted on a treadmill). The data that can be obtained are: • contact times • flight times • reaction time to a sound/visual impulse • elevation of center of gravity • specific power (W/Kg) • frequency • energy expended (J) Modular System The modular system (up to 100 meters) allows a complete analysis of a gait: • Stance phase • Swing phase • Single and Double Support • Step Time and Lenght • Gait Cycle • Stride lenght • Speed • Acceleration • Cadence • Contact, flat foot, propulsive phase Two-Dimensional System • To the classic bars, more bars (Y) can be added to form a rectangle, where new information can be gathered for the gait tests: • Step width: distance between the middle support point of each foot • Walking Base: distance between the innermost foot support points (for superposed steps this value can be negative) • Walking Points: middle points between the two support feet; their connection defines the gait progress (Line of Progression); conventionally it is expressed in positive values if there is a deviation towards left and negative with a rightward deviation • Walking Point Gap: progressive variation of the current walking point with respect to the previous one • The maximum length of the 2D course can be increased up to 13 meters purchasing one or more special Y TX bars called '2D-Boosted' On Treadmill OptoGait can easily be placed on the lateral bands of any treadmill for Gait Analysis. Simply leaned on or permanently fixed with adhesive-tape, OptoGait is the first portable laboratory to produce a full report at very low cost. Surface EMG • OptoGait can be used as a “virtual footswitch” to be connected with Surface EMG (Electromyography) devices. • In this mode, OptoGait will send a continuous impulse when the feet of the patient are in contact with the floor. Each foot will send a separate impulse (the “starting foot” will be set in the options of the test) so that the EMG device will be able to distinguish between left and right The Software • Management of • • • • • • Patiences' data Test Definitions Test Execution Results & Reports Test Compare & History Video analysis • Enhanced Gait Reports • Easy User Interface • In combination with OptoGait: • Antero-posterior and medio-lateral imbalance • Main directions and breadth of the movement of the trunk • Upper Phase Coordination Index (UPCI) that describes coordination in the rotation of the trunk • Phase difference between the lower body and the upper body • RMS, Harmonic Ratio and Harmonicity index describing gait stability • Posture Analysis • Projection length and area • Projection travel speed • Sway frequency The Rehab section of Gyko RePower implements protocols for the evaluation and monitoring of joint functionality and muscle strength when rehabilitating a certain section of the musculoskeletal system and also makes it possible to perform a stabilometric analysis of the centre of mass. Medical References • • Clinical Universitys • University of Haifa Department of Physical Therapy (IL) • • • • • • University of Jena (D) University of Basel (CH) University of Bern (CH) University of Bern (CH) Universidad Europea de Madrid – ES University of Stellenbosch – Sud africa • University College Birmingham – UK Hospitals & Clinics • NHO-Klinik Innsbruck (A) • Grenoble Hospital (F) • Rosenheim Hospital (D) • • • • • • • Clinique Romande de Readaptation (Sion, CH) Schultess Clinic Zürich (CH) Velamed: Biomechanical Center Köln (D) OrthoTrain Berlin (D) Fondazione Don Gnocchi (Firenze, I) IncedoOrthopedics (USA) St. Vincent Hospital (USA) , etc. • • • • • • • • • • • • • • • • • Academy of Physical Education in Poznan – Polonia Apos - Worldwide Beijing Xiaotangshan Hospital – Cina California State University Canadian Sport Centre Calgary CHUNG NAM National University Hospital – Korea Defense Health Headquarters – US Everton Academy – UK Felix Platter Spital Basel Mobility Center – CH Fundación Universidad Católica de Valencia – ES Helsinki Metropolia - University of Applied Sciences – FIN HOPITAL MILITAIRE LAVERAN – FR Institute of sport Serbia – Serbia Kantonsspital Luzern – CH Oslo and Akershus University College – NW Podoactiva – ES TU München - Fakultät für Sport- Und Gesundheitswissenschaft – DE Engineering Adaptive optics: what is it? • Adaptive optics is a technology that allows correcting the image blurring typically caused by the atmospheric turbulence. An example of this phenomenon can be noticed looking at distant objects on a hot day. • Main application fields: astronomy, medical imaging, high resolution printing systems, military equipment • The concept was introduced by the astronomer Horace W. Babcock in 1953, but its deployment is quite recent: first military applications date back to the 80’s, while the first adaptive optics systems for telescopes were introduced in the 90’s • The image blurring due to atmospheric turbulence is a fundamental problem in large terrestrial telescopes and has been one of the main driver for building the space telescope Hubble Microgate and Adaptive Optics • The idea of implementing the adaptive optics correction on large telescopes at the secondary mirror was originally introduced by Piero Salinari at Osservatorio Astrofisico di Arcetri in 1993. • The project feasibility is investigated through numerical simulation by two PhD students (R.Biasi/D.Gallieni) at Aerospace dept. of Politecnico di Milan. • In 1996 Microgate starts the development of the dedicated control electronics for a 30 actuators prototype of the adaptive secondary. The project is founded by a small contract by the Italian Research Council (CNR). The collaboration between Microgate (electronics and control), ADS (Lecco, mechanical design), Osservatorio Astrofisico di Arcetri (system design and scientific overview) and Politecnico di Milano (control system simulation). • In 1997 the prototype is tested against a similar system developed by an american company involved since long in military applications of adaptive optics. • The italian group clearly wins the competition. The University of Arizona, thanks to Air Force funds, grants to the group a contract for the realization of the first ‘real’ adaptive secondary, to be installed at the MMT telescope (Mount Hopkins, Arizona). The MMT336 adaptive secondary is delivered 2000 and operative since 2002. Adaptive secondary mirrors • The wavefront sensor measures quantitatively the residual wavefront aberration • The real time reconstructor computes the correction command for the correcting mirror • A deformable adaptive secondary mirror corrects the wavefront aberration Microgate is involved in the development and construction of all main components of the adaptive optics loop ATMOSPHERIC TURBULENCE ABERRATED WAVEFRONT ADAPTIVE SECONDARY REAL TIME RECONSTRUCTOR CORRECTED WAVEFRONT WAVEFRONT SENSOR DICHROIC SCIENCE CAMERA The adaptive secondary concept • The thin mirror levitates and is actively and massively controlled by a large number of electromagnetic actuators Control electronics Cold plate • The actuators are contactless, only magnetic forces are transferred to the mirror Reference body F Capacitive sensor armatures Magnets • The distance feedback is provided by co-located capacitive sensors measuring the distance between thin mirror and reference surface The adaptive secondary concept The mirror magnetic levitation (Data refer to the VLT Deformable Secondary Mirror) • 1170 actuators acting on the mirror • Mirror diameter : 1.12 m • Mirror thickness: 1.8mm • Response time of the mirror shape and position control: < 1/1000 s • The mirror position is acquired and the actuators’ forces are updated accordingly 70000 times every second • Actuators positioning accuracy: ~2 nanometers (millionths of millimeter) • Computational throughput of the dedicated control electronics: 150 billions of multiplications and sums in floating point every second • Communication speed: 4 Gbit/s (4 billions bits/s, corresponding to about 500.000 pages every second) Contactless adaptive mirrors: past, present, future GMT ASM E-ELT M4AU 7x672 = 4704 acts, 7x1.05m Phase B: 2014 5316 acts, 2.4m Phase 1: 2014 Start construction 2015 Start construction 2015 VLT1170 Optically calibrated @ ESO-Garching Telescope installation 2015 LBT672a/b + MAG585 Operational since 2010 MMT336 Operational since 2002 Past projects: MMT336 ATMOSPHERIC TURBULENCE • Project MMT (Multiple Mirror Telescope – Mount Hopkins – Arizona, USA) Adaptive secondary mirror. The first adaptive secondary mirror installed on a telescope. 64cm mirror diameter, 336 actuators, 42 custom DSP boards ABERRATED WAVEFRONT ADAPTIVE SECONDARY • Committent: University of Arizona / Steward Observatory. Funded by Air Force • Microgate tasks: Prime contractor, control system design, electronic design and construction. • Partners: ADS Mechanical design and construction. INAF – Osservatorio Astrofisico di Arcetri Scientific advisor, control, test (electromechanical + optical). Politecnico di Milano – Dipartimento di Ingegneria Aerospaziale Control system design & simulation Steward Observatory Optical test • Status: Acceptance at Microgate in July 2000. Installed on the telescope in July 2002. Still in operation REAL TIME RECONSTRUCTOR CORRECTED WAVEFRONT WAVEFRONT SENSOR DICHROIC SCIENCE CAMERA Past projects: MMT336 Past projects: LBT672 ATMOSPHERIC TURBULENCE • Project LBT (Large Binocular Telescope – Mount Graham – Arizona, USA) 2x8.4m primary mirror – the biggest! Adaptive secondary mirrors (2 units) 94cm mirror diameter, 672 actuators, 84 DSP boards ABERRATED WAVEFRONT ADAPTIVE SECONDARY REAL TIME RECONSTRUCTOR • Committent: LBT Corporation (50% USA, 25% ITA, 25% GER) • Microgate tasks: Prime contractor, control system design, electronic design and construction (HW + SW). Real time reconstructor and wavefront sensor design and construction (HW + SW). • Partners: ADS – subcontractor Mechanical design and construction. INAF – Osservatorio Astrofisico di Arcetri Scientific advisor, control, test (electromechanical + optical). Politecnico di Milano – Dipartimento di Ingegneria Aerospaziale Control system design & simulation • Status: Unit ‘A’ is operating at the telescope since early 2010 and has obtained among the sharpest images ever acquired by a telecope. Unit ‘B’ optical acceptance in progress. Shipping to the telescope: late 2010. CORRECTED WAVEFRONT WAVEFRONT SENSOR DICHROIC SCIENCE CAMERA Past projects: LBT672 Past projects: LBT672 Past projects: LBT672 Past projects: LBT672 Past projects: LBT672 Past projects: LBT672, Results 80% SR in H, 20sec 500 modes corrected 7 cm 0.16” Bolzano 90 km Brennero Past projects: LBT672, Results Past projects: LBT672, Results On-Sky Adaptive Optics Galactic center – 3x better than Hubble 80% SR in H, 20sec 500 modes corrected Hubble space telescope LBT Past projects: LBT672, Results On-Sky Adaptive Optics 80% SR in H, 20sec 500 modes corrected See also http://www.physorg.com/news195838118.html Past projects: Keck NGWC • Project Keck – the main US telescope. 2x 10m telescopes, Mauna Kea, Hawaai • Committent: CARA-Keck – California Association for Research in Astronomy • Microgate tasks: Electronic design and construction. The hard real-time computer is based on Microgate custom electronics. • Status: System delivered in June 2006 In operation on both Keck telescopes ATMOSPHERIC TURBULENCE ABERRATED WAVEFRONT ADAPTIVE SECONDARY REAL TIME RECONSTRUCTOR CORRECTED WAVEFRONT WAVEFRONT SENSOR DICHROIC SCIENCE CAMERA Past projects: Keck NGWC Past projects: Keck NGWC Past projects: VLT DSM ATMOSPHERIC TURBULENCE • Project ESO VLT (Very Large Telescope – Paranal Observatory – Chile) – the largest observatory – www.eso.org 4 unit telescopes (UTs), 8.2m primary mirror + 4 auxiliary telescopes (ATs), 1.8m primary mirror Adaptive secondary mirror (DSM = Deformable secondary mirror) for UT4 112cm mirror diameter, 1170 actuators, 78 custom DSP boards • Committent: ESO – European Southern Observatory (Belgium, Denmark, Finland, France, Germany, Italy, the Netherlands, Portugal, Sweden, Switzerland and the United Kingdom) • Microgate tasks: Prime contractor, control system design, electronic design and construction HW/SW. ABERRATED WAVEFRONT ADAPTIVE SECONDARY REAL TIME RECONSTRUCTOR CORRECTED WAVEFRONT WAVEFRONT SENSOR DICHROIC • Partners: ADS – subcontractor - Mechanical design and construction. Optics furnished by SAGEM-Reosc (Paris) and SESO (Marseille) • Status: Assembly Readyness Review completed (all parts manufactured) Dec 2011: Test Acceptance Europe 1 (TAE1): electromech. tested at Microgate and delivered to ESO Sept 2012: Test Acceptance Europe 2 (TAE2): optically tested at ESO 2016: System in Chile SCIENCE CAMERA Past projects: VLT DSM Past projects: VLT DSM Microgate AdOpt 16ch DSP control board Hexapod actuator (ADS) Zerodur reference body (SESO) Past projects: ALMA • Project Atacama Large Millimeter/submillimeter Array (Atacama desert – Chile – 5300m) The main radioastronomy project for the next decade http://www.eso.org/sci/facilities/alma/ http://www.almaobservatory.org/ 54 12m antennas + 12 7m antennas • Committent: EIE – (ALMA-EU consortium involving Thales Alcatel Alenia Space, MT Aerospace ed European Industrial Engineering). The main committent is the European Southern Observatory ALMA is an international facility involving the National Radio-Astronomy Observatory (NRAO-USA), ESO, Japan, Taiwan, Chile • Microgate tasks: Antenna axes control, thermal metrology and wind metrology • Partners: EIE Phase – antenna driving system • Status: In full production (now ~ antenna 10 of 25) Final delivery of last antenna planned for end 2011 Past projects: ALMA Past projects: ALMA MICROCLINE • Microgate Clinometer with Limited Inertial Effects: high resolution tiltmeter with reduced sensitivity to in-plane accelerations • Specifically developed to correct the large antennas’ pointing errors due to wind-induced structural deformations • Other applications field: geophysics, structural monitoring • 0.1µradian accuracy • Patent pending 0.1 µradian is a very, very modest inclination… 1 mm 10 km The big ones… E-ELT European Extremely Large Telescope ESO – European Southern Observatory 39m primary mirror! Currently in Phase C-D GMT TMT Giant Magellan Telescope Thirty Meter Telescope Carnegie Institution for Science The University of Texas at Austin Harvard University The Australian National University Smithsonian Astrophysical Observatory University of Arizona Texas A&M University Astronomy Australia Ltd. Korea Astronomy and Space Science Institute Association of Canadian Universities for Research in Astronomy Californian Institute of Technology University of California 7x 8.4m primaries = 24.5m Currently in Phase A-B www.eso.org www.gmto.org 30m primary mirror Currently in Phase B www.tmt.org E-ELT M4 2.5m, 5316 actuators 6 segments European Extremely Large Telescope (ESO) Cerro Armazones (Chile) Primary mirror: 39m First light: 2024 E-ELT M4 • Project ESO has granted two competitive Preliminary Design Studies of the M4 adaptive unit. This is one of the most critical and complex part of the telescope. 20% of Phase B budget. Adaptive mirror, 2.5 x 2.6m elliptic, ~6000 actuators • Committent: ESO – European Southern Observatory (Belgium, Denmark, Finland, France, Germany, Italy, the Netherlands, Portugal, Sweden, Switzerland and the United Kingdom) • Microgate tasks: Prime contractor, control system design, electronic design, electronic manufacturing and test of Demonstration Prototype • Partners: ADS – subcontractor Mechanical design, manufacturing of Demonstration Prototype SAGEM-Reosc – subcontractor Optical design and manufacturing (Demonstration Prototype Shell + Thin shell prototype) INAF-OAB – subcontractor Optical testing Politecnico di Milano – Dipartimento di Ingegneria Aerospaziale Simulation • Status: Advanced preliminary design (Phase 1 study) has been completed in early 2015 E-ELT M4 M2 M4 M5 M3 M1 Prime contractor Electronics, software and control system design Mechanics Optical tests Optics E-ELT M4 18nm rms E-ELT axes control • Project ESO E-ELT • Committent: Phase • Microgate tasks: Control system design, control electronics layout – Phase B • Status: Started 2010 E-ELT building control • Project ESO E-ELT • Committent: EIE • Microgate tasks: Control system design, control electronics layout – Phase B • Status: Started 2010 GMT ASM • Project The Giant Magellan Telescope has a segmented Adaptive Secondary Unit based on 7 indepenedent mirrors. Each mirror ha 1.05m diameter and 672 actuators Phase A-B study. • Committent: GMTO • Microgate tasks: Control system design, electronic design. • Partners: ADS – Main contractor : Mechanical design PoliMi – Dipartimento di Ingegneria Aerospaziale Simulation • Status: A first preliminary study has been delivered in October 2013, and a more advanced design including lab experimental tests is currently ongoing. GMT ASM Giant Magellan Telescope (USA/AUS/ROK) Cerro Las Campanas (Chile) Primary mirror: 7x8.4m ~ 24.5m First light: 2018 7x1.05m 4704 actuators GMT ASM LATT: Large Aperture Telescope Technology • Project ESA (European Space Agency) research project. Our adaptive mirror technology goes into space! • Committent: Carlo Gavazzi Spazio (CGS). Main committent is ESA. • Microgate tasks: Control system design, control electronics layout • Status: Pre-study completed in 2008 Phase A study completed in 2010 LATT: Large Aperture Telescope Technology Stowed Config Deployed Config LATT: Large Aperture Telescope Technology • ESA TRL3 project • In cooperation with CGS (OHB) • Micro Photon Devices is a spin-off company of Politecnico di Milano founded in 2004. • Located in Bolzano, by Microgate • Partners: • • • • Microgate Politecnico di Milano Three professors from Politecnico di Milano, lead by Prof.Cova Roberto Biasi • Mission: Development and production of photon counting modules based on Single Photon Avalanche Photodiodes Single photon counting and timing • Extremely high sensitivity allows detection of single photons • The photon arrival time is detected with an accuracy of ~30ps Photon Detection Modules • Ultra low dark counting rates (as low as 1c/s) • 20µm, 50µm and 100µm active area diameter • Ultrafast timing resolution (as low as 25ps FWHM) • High Quantum Efficiency (up to 53% @ 550nm) • Robust, reliable and low power consumption PDM • HIGH Coupling Efficiency (> 80%) • FC/PC, FC/APC and SMA connectors • SM Fiber Coupling (SM600 and SMF28) • MM Fiber Coupling (62.5µm graded index) • Extremely reliable assembly PDC PDF • Drives any silicon SPADs with breakdown as high as 500V • Protection against overheating and over-illuminating • Diode intrinsic performances completely exploited • Peltier Cooling Wafer fabrication overview Full set of technological facilities and equipment: Ion Implantation, Thermal Processing, Dry Etching, Deposition, Lithography…. Furnace stack (class 100) Front-to-back wafer alignment. Sputtering with load-lock chamber Plasma enhanced CVD Markets • Universities, R&D Facilities and OEM’s • Astronomy • Adaptive Optics • Biomedical • • • • • • • DNA and Drug discovery Confocal Microscopy Fluorescence Lifetime Measurements Fluorescence Correlation Spectroscopy Time Resolved Spectroscopy Light Tomography Single Molecule Spectroscopy Markets • Industrial • Particle Sizing • Metrology by Time of Flight Measurements • LIDAR - LADAR • Quantum Cryptography • Custom Applications Customers • MIT Lincoln Lab USA • Instituto de Ciencias Fotònicas SPAIN • U.S. Genomics USA • Katholieke Universiteit Leuven BELGIUM • U.S. Navy USA • Sympatec GERMANY • Novartis AUSTRIA • Hewlett-Packard USA • Oxford University ENGLAND • Universität Bielefeld GERMANY • Stanford University USA • NASA USA • Università di Padova ITALY • University of Tokyo JAPAN • University of California Los Angeles USA • Massachusetts Institute of Technology USA • PicoQuant GERMANY • Heidelberg University GERMANY Some peculiar aspect of Microgate activity • ‘Industrial handcraft’ • handcraft quantities, but… • technology content, reliability, quality do require an industrial approach • How? • personnel skill and training • IT integration • QA processes strongly integrated in the design and production flows and the suppliers chain control • products testing Some peculiar aspect of Microgate activity • Interaction with research institutes • Research institute as customer • Development effort/costs properly recognized • Strong technical interaction • Documentation effort • Collaboration with research institutes • • • • Thesis - PhD – PostDoc Specific R&D projects (EU) funded projects Spin-off and partnership (e.g. MPD) IT as Hybrid Cloud Integrated ERP Knowlodge Portals For every project or main product a single portal contains all the information Intranets & Extranets Web based Custom Tools for employees, partners and customers Whatever you can think or dream, begin it. Boldness has genius, power, and magic in it. J.W. Goethe
