Philipp Putzer scite author profile

Philipp Putzer

14Publications

22Citation Statements Received

93Citation Statements Given

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Attocube Systems (Germany), Kayser Automotive (Germany), Technical University of Munich

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Design challenges of a tunable laser interrogator for geo-stationary communication satellites

Ibrahim¹,

Honniball²,

Todd³

et al. 2017

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Recently optical sensing solutions based on fiber Bragg grating (FBG) technology have been proposed for temperature monitoring in telecommunication satellite platforms with an operational life time beyond 15 years in geo-stationary orbit. Developing radiation hardened optical interrogators designed to be used with FBG sensors inscribed in radiation tolerant fibers offer the capabilities of multiplexing multiple sensors on the same fiber and reducing the overall weight by removing the copper wiring harnesses associated with electrical sensors. Here we propose the use of a tunable laser based optical interrogator that uses a semiconductor MG-Y type laser that has no moving parts and sweeps across the C-band wavelength range providing optical power to FBG sensors and optical wavelength references such as athermal Etalons and Gas Cells to guarantee stable operation of the interrogator over its targeted life time in radiation exposed environments. The MG-Y laser was calibrated so it remains in a stable operation mode which ensures that no mode hops occur due to aging of the laser, and/or thermal or radiation effects. The key optical components including tunable laser, references and FBGs were tested for radiation tolerances by emulating the conditions on a geo-stationary satellite including a Total Ionizing Dose (TID) radiation level of up to 100 krad for interrogator components and 25 Mrad for FBGs. Different tunable laser control, and signal processing algorithms have been designed and developed to fit within specific available radiation hardened FPGAs to guarantee operation of a single interrogator module providing at least 1 sample per second measurement capability across >20 sensors connected to two separate optical channels. In order to achieve the required temperature specifications of ±0.5°C across a temperature range of -20°C to +65°C using femtosecond inscribed FBGs (fs-FBG), a polarization switch is used to mitigate for the polarization dependent frequency shift (PDFS) induced from fs-FBG which could be in the order of > 20 pm causing > 2°C error in the measurement. Also special transducers were designed to isolate the strain from the FBGs to reduce any strain influence on the FBG temperature measurements while ensuring high thermal conductivity.In this paper we demonstrate the operation of an optical FBG interrogator as part of a hybrid sensor bus (HSB) engineering model system developed in the frame of an ESA-ARTES program and is planned to be deployed as a flight demonstrator on-board the German Heinrich Hertz geo-stationary satellite.

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All-in-fiber SESAM based comb oscillator with an intra-cavity electro-optic modulator for coherent high bandwidth stabilization

Schweyer¹,

Eder²,

Putzer³

et al. 2018

Opt. Express

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We demonstrate the stabilization of an all-in-fiber polarization maintaining semi-conductor saturable absorber mirror (SESAM) mode locked frequency comb oscillator with an intra-cavity waveguide electro-optic phase modulator (EOM) to a narrow linewidth HeNe laser over 46 hours. The high feedback bandwidth of the EOM allows a coherent optical lock with an in-loop integrated phase noise of 1.12 rad (integrated from 10 Hz to 3 MHz) from the carrier signal. No piezo fiber stretcher was required to guarantee long-term stabilization, preventing mechanical degradation of the optical fibers and enabling a long lifetime of the oscillator. As an application a hybrid stabilization scheme is presented, where a comb tooth is phase locked to a longitudinal mode of the large ring laser "G" located at the Geodatic Observatory Wettzell. The hybrid stabilization scheme describes the optical lock of the frequency comb to the G laser and the simultaneous compensation of the ring laser frequency drift by comparing the comb repetition rate against an active H-maser reference. In this context the ring laser reached a fractional Allan deviation of 5 · 10 at an integration time of 16384 s.

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Characterization of a SESAM mode-locked erbium fiber laser frequency comb with an integrated electro-optic modulator

Schweyer

Kienberger

Eder

et al. 2014

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Total Ionizing Dose and Displacement Damage Effects in a Tunable Laser Diode Based Fiber Optic Sensing System

Roner

Putzer

Hurni

et al. 2015

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Design of a fiber-optic interrogator module for telecommunication satellites

Putzer¹,

Koch²,

Plattner

et al. 2017

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Abstract-In this paper we present the results of the radiation tests performed on the optical components of the fiber-optic interrogator module as a part of the Hybrid Sensor Bus (HSB) system. The HSB-system is developed in the frame of an ESA-ARTES program and will be verified as flight demonstrator onboard the German Heinrich Hertz satellite in 2016. The HSB system is based on a modular concept which includes sensor interrogation modules based on I²C electrical and fiber Bragg grating (FBG) fiber-optical sensor elements. Onboard fiber-optic sensing allows the implementation of novel control and monitoring methods. For read-out of multiple FBG sensors, a design based on a tunable laser diode as well as a design based on a spectrometer is considered.The expected and tested total ionizing dose (TID) applicable to the HSB system is in the range between 100 krad and 300 krad inside the satellite in the geostationary orbit over a life time of 15 years. We present radiation test results carried out on critical optical components to be used in the fiber-optic interrogation module. These components are a modulated grating Y-branch (MGY) tunable laser diode acting as light source for the tuning laser approach, the line detector of a spectrometer, photodetectors and the FBG sensors acting as sensor elements. A detailed literature inquiry of radiation effects on optical fibers and FBG sensors, is also included in the paper.The fiber-optic interrogator module implemented in the HSB system is based on the most suitable technology, which sustains the harsh environment in the geostationary orbit.

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All-in-fiber polarization maintaining tapered fiber carbon nanotube erbium frequency comb with an integrated electro-optic modulator

Schweyer

Kieu

Putzer

et al. 2017

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Concept and design of a fiber-optic and an I²C hybrid sensor bus system for telecommunication satellites

Putzer¹,

Hurni

Manhart

et al. 2012

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In this paper the concept and design of the Hybrid Sensor Bus (HSB) system for telecommunication satellites is presented. The HSB development in the frame of an ESA-ARTES project has been started in 2011 and the system will be tested as flight demonstrator onboard the German Heinrich Hertz communication satellite (H2Sat) in 2016.In state-of-the-art telecommunication platforms hundreds of sensors are necessary for satellite control and monitoring. The sensors are wired point-to-point (p2p) to the satellite management unit (SMU) which results in a high mass impact but preliminary increases AIT effort and thereby the overall satellite costs. Sensor bus architectures reduce AIT cost by reduction of wiring effort, reduction in required test time and by providing a flexible sensor network topology.The HSB system is based on a modular concept including a controller module, a fiber-optic interrogator module and an I²C electric interrogator module The HSB system provides advanced performance which includes programmable and sensor specific alarm functions, averaging of dedicated sensor values and thereby a reduction of SMU processor load. The combination of electrical I²C sensors for punctual resolved measurements and fiber-optic sensors for e.g. thermal mapping of panels by embedding sensor fibers in the satellite structures results in a versatile system.In this paper we present the design of the HSB system taking into account the requirements from European platform manufacturers. The HSB design yields a product which can be implemented as replacement of standard p2p systems to build up a more cost efficient sensor system for geostationary satellites. MOTIVATION OF HSB DEVELOPEMENTState-of-the-art telecommunication satellite platforms have to process a tremendous amount of monitoring data to fulfill tasks, as e.g. attitude and orbit control. Especially for temperature monitoring hundreds of sensors are required. They are currently point-to-point wired in a star configuration covering the whole satellite. This results in a complex sensor harness which increases mass, AIT effort and therefore the overall satellite costs. An additional problem arises because of the inflexibility of the state-of-the-art wiring. In the integration phase of the satellite the harness and the panels are the first subsystems to be integrated. All other subsystems are integrated afterwards. If any problem arises during tests concerning the sensor harness (e.g. more sensors required or sensors on wrong position) the harness must be partly extracted from the satellite. This has the consequence, that some of the subunits also have to be extracted. The full procedure, caused by the inflexibility of the wiring, has a high effort and increases the costs dramatically.In Figure 1, part of the GALILEO harness is illustrated. The wires in brown and white color are used for temperature monitoring and control. All p2p-wired temperature sensors are fed to a multiplexing unit, to be queried by the SMU. This results in a high SMU processor load only for monitorin...

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A space-borne fiber-optic interrogator module based on narrow-band tunable laser diode for temperature monitoring in telecommunication satellites

Putzer¹,

Kuhenuri²,

Koch³

et al. 2013

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Philipp Putzer

Design challenges of a tunable laser interrogator for geo-stationary communication satellites

All-in-fiber SESAM based comb oscillator with an intra-cavity electro-optic modulator for coherent high bandwidth stabilization

Characterization of a SESAM mode-locked erbium fiber laser frequency comb with an integrated electro-optic modulator

Total Ionizing Dose and Displacement Damage Effects in a Tunable Laser Diode Based Fiber Optic Sensing System

Design of a fiber-optic interrogator module for telecommunication satellites

All-in-fiber polarization maintaining tapered fiber carbon nanotube erbium frequency comb with an integrated electro-optic modulator

Concept and design of a fiber-optic and an I²C hybrid sensor bus system for telecommunication satellites

A space-borne fiber-optic interrogator module based on narrow-band tunable laser diode for temperature monitoring in telecommunication satellites

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Philipp Putzer

Design challenges of a tunable laser interrogator for geo-stationary communication satellites

All-in-fiber SESAM based comb oscillator with an intra-cavity electro-optic modulator for coherent high bandwidth stabilization

Characterization of a SESAM mode-locked erbium fiber laser frequency comb with an integrated electro-optic modulator

Total Ionizing Dose and Displacement Damage Effects in a Tunable Laser Diode Based Fiber Optic Sensing System

Design of a fiber-optic interrogator module for telecommunication satellites

All-in-fiber polarization maintaining tapered fiber carbon nanotube erbium frequency comb with an integrated electro-optic modulator

Concept and design of a fiber-optic and an I2C hybrid sensor bus system for telecommunication satellites

A space-borne fiber-optic interrogator module based on narrow-band tunable laser diode for temperature monitoring in telecommunication satellites

Contact Info

Product

Resources

About

Concept and design of a fiber-optic and an I²C hybrid sensor bus system for telecommunication satellites