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Newcom Department 3 İstanbul Meeting 6 September 2004 Işık University, İstanbul
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Participating Partners POLITO (Giovanni Ghione) Chalmers (Thomas Eriksson) UU (Erik Öjefors) ISIK (Ahmet Aksen, Sıddık Yarman) Bilkent (Abdullah Atalar, Tarık Reyhan) Excused: CTTC, TUI and UoP
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Meeting Agenda Welcome, agreement on agenda Overview and status of WPR3 activities Discussion on Deliverable DR1 Discussion on future actions/activities to make WP3 successful Workshop: –Lecture by Giovanni Ghione on “Nonlinearity characterization and modeling” –Lunch
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Meeting Agenda (cont.) Workshop continued: –Lecture by Thomas Eriksson on “it++” –Tea/coffee break –Lecture by Erik Öjefors on “Integrated antennas” –Tea/coffee break –Lecture by Sıddık Yarman on “Impedance matching and modeling using real frequency techniques”
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Overview and status of WPR3 activities Kickoff meeting of Leuven, 18 June 2004 Eight partners participated and made presentations to describe their research areas 4 clusters formed: –Nonlinearity of power amplifiers (Chalmers, POLITO, Bilkent, UoP, ISIK, CTTC) –Antennas (UU, TUI, CTTC, ISIK) –Phase Noise (Bilkent, Chalmers, POLITO) –RFIC Front ends (UoP, UU, TUI)
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Overview and status of WPR3 activities (cont.) A mail reflector is formed: wpr3@lists.bilkent.edu.tr A web page is prepared: www.ee.bilkent.edu.tr/~newcomd3 (contains the presentations of kickoff meeting)
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Overview and status of WPR3 activities (cont.) it++ developed by Chalmers can be a common ground (GNU License) –This afternoon Thomas Eriksson of Chalmers will make a presentation on it++
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Overview and status of WPR3 activities (cont.) 2 partners (Supelec and PUT) are not participating)
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Discussion on future actions/activities to make WP3 successful
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Our success will be measured by the Degree of integration
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Discussion (cont.) Degree of integration is measured by –Number of PhD students in training activities –Number of PhD students in exchange programs –Number of people in NEWCOM workshops –Number of jointly submitted papers –Number of jointly supervised PhD students
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Discussion (cont.) Degree of integration is measured by –Number of commonly evaluated PhD theses –Number of joint patents –Number of partners providing shared equipment –Number of other students participating in exchange
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PhD Student Exchange Housing cost is provided by NEWCOM Which partners can accept students? Which partners can provide students? For how long? Difficulty of sending a student to another place (is it just a lost time for the sending institution?) Is language a problem?
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Deliverable DR1 DR1 date is delayed by 1.5 months To be prepared: –Related publications with abstracts –Related patents –Completed/ongoing projects –Available measuring equipment, design/analysis software –Courses given on related areas (with detailed syllabus, language of instruction)
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Deliverable DR1 (cont.) –Required know-how to complete WPR3 objectives –Identification of gaps among WPR3 participants (needs to be done through four clusters) –Detailed plan for encountering gaps (needs to be done through four clusters) So far 3 partners provided the contributions (TUI, UU, ISIK)
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NEWCOM WPR3 Workshop
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Nonlinearity of power amplifiers Nonlinearity? –At the input f 1 –At the output ( f 1 ) (2f 1 ) (3f 1 ) (4f 1 ) ….(nf 1 ) –Relatively easy to filter if system bandwidth is not too big.
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Nonlinearity of power amplifiers Why is it important? –Modern communication systems use multicarriers. –At the input: f 1 + f 2 –At the output: (mf 1 + nf 2 ) (m+n th order) –Among them most troublesome: 3rd order (IM3) 2f 1 - f 2 or 2f 2 - f 1
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Nonlinearity of power amplifiers IM3 Example: –f 1 + f 2 : 2420 MHz + 2430 MHz –2f 1 - f 2 : 2410 MHz –2f 2 - f 1 : 2440 MHz
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Nonlinearity of power amplifiers Typical power amplifer operates in Class A or Class AB. (In Class AB amplifier’s DC current increases with increasing drive). What can be done to reduce nonlinearity? –Use the power amplifier at a lower signal level or with a higher bias at the expense of reduced efficiency –Use predistortion/linearization methods
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Linearization techniques Feedforward Linearization Cartesian Feedback RF Predistortion Digital Predistortion
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Nonlinearity of power amplifiers Predistortion/cancellation methods are expensive or are not very efficient: Suitable for base stations For mobile systems efficiency is very important. Comprimise between efficiency and linearity: Bias as low as possible to increase efficiency, sufficiently high to reduce IM3
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Nonlinearity of power amplifiers State-of-the-art: What is done? –Each device is measured for allowable IM3 at each channel –Input level and bias is adjusted to satisfy the specs for highest efficiency –Input level and bias values are stored in a lookup table that contains also temperature variations
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Giovanni Ghione Professor of Politecnico di Torino –Book: Noise in semiconductor devices: Modeling and simulation Nonlinearity characterization and modeling
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it++ Presentation Thomas Eriksson of Chalmers University of Technology, Göteborg
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Integrated antennas Erik Öjefors of University of Uppsala
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Impedance matching and modeling using real frequency techniques Sıddık Yarman of Işık University
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