Radar Development at DICE
|
|
- Valentine Lane
- 5 years ago
- Views:
Transcription
1 Radar Development at DICE Stefan Matzinger Head of DICE ATV SC CV DICE GmbH & Co KG Danube Integrated Circuit Engineering Freistädter Straße Linz AUSTRIA
2 Table of Content Introduction Linz Radar Outlook 2
3 Introduction Location Linz: DICE 3
4 Danube Integrated Circuit Engineering DICE Infineon development center Linz RF Systems & Circuits System Simulation RF Measurements Analog Design Mixed Signal Design Digital Design 4
5 DICE Permanent Staff Members Growth by 138% since the Wireless-sale Wireless-sale % IT & Administration ATV PMM External WLS & ETS proportion of women ~ 10% (~13% including with students ) restricted Copyright Infineon Technologies AG All rights reserved. 5
6 Radar Development Center Linz 6
7 What we DICE Linz Program/Project Management Concept Engineering Application Engineering Circuit Design Engineering Component Verification Test Engineering 7
8 RADAR at Infineon Our Partner Sites Regensburg SiGe Production Site Logistics Dresden BiCMOS Production Site Munich Headquarter ATV SC Quality Management Technology Development Physical Design Engineering Product Engineering Test Engineering Villach Reliability Engineering Headquarter IFAT ADC and Pad development Copyright Infineon Technologies AG All rights reserved. 8
9 RADAR at Infineon Our Partner Sites Graz RADAR Duisburg SoC Integration Bucharest Verification Copyright Infineon Technologies AG All rights reserved. 9
10 Our Motivation In Europe each year about 1.3 million traffic accidents cause: More than fatalities (1970: )! Economic damage of more than 200 billion per year! Human error is involved in over 90% of accidents! ADAS help drivers to Maintain a safe speed Keep a safe distance Drive within the lane Avoid overtaking in critical situations Safely pass intersections Avoid crashes with vulnerable road user Reduce severity of an accident Drive more efficiently 10
11 First Commercial SiGe-Based 77GHz Sensor Range Accuracy Distance/ LRR2 (GaAs) M LRR3 (SiGe) Relative Velocity/ m/s LRR2 (GaAs) LRR3 (SiGe) 60 to to +30 ±0.25 ± 0.12 Angle/ LRR2 (GaAs) ±8 0.4 LRR3 (SiGe) ± x 68 mm² GaAs-based LRR2 new Si:Ge-based LRR3 25 x 35 mm² 11
12 Radar history and future at Infineon
13 Automated Drive: 360 radar sensing B11HFC CMOS Automated Drive 77GHz 360 Safety (AEB/ADAS) 77GHz Warning (BSD) 24/77GHz 24/77GHz 24/77GHz 77GHz 24/77GHz Infineon is well positioned for NCAP AEB and ADAS penetration, CMOS is driven by 360 sensing for Automated Driving 13
14 Outlook Development Center Linz 14
15 The next step will be High Automation Machine takes the responsibility restricted Copyright Infineon Technologies AG All rights reserved. 15
16 DICE ATV SC CV Presentation of group, setups and key competencies
17 Awarding laboratory features Measurement direct in E-Band (60-90 GHz) and W-Band ( GHz) Direct TX output power E.g. with E8486A power sensor + N1914A power meter Direct LO & RF input power E.g. with E8257D 50 GHz signal generator + frequency multiplier (*2 / *3) + waveguide amplifier + automated attenuator Direct TX Phase Noise E.g. with external mixer + E5052B signal source analyser Direct TX Spectrum trace E.g. with external mixer + FSW26 spectrum analyser Frequency Ramp parameter direct at TX E.g. with external mixer + E5052B signal source analyser Input Matching / Intermodulation / Isolation direct at RF, LO & TX 110 GHz Network Analyser 19
18 ewlb Board All CV measurements are done on soldered ewlb samples to get best performance Socket boards are not possible for GHz signals (measurement uncertainty too high) Bare die boards also possible (bonded bare die instead of ewlb sample) MMIC ewlb RX channel waveguide transition & interface TX channel waveguide transition & interface RX channel waveguide transition & interface 20
19 Example Receiver setup with 2-tone RF signal External 2-tone RF signal generation External LO signal generation CV board assembly 21
20 Example Radar Use Case Setup Radar targets Frequency ramp LVDS signal Antennas Analog signal via Spectrum analyzer PLL spectrum 22
21
Keysight Technologies Achieving Accurate E-band Power Measurements with E8486A Waveguide Power Sensors. Application Note
Keysight Technologies Achieving Accurate E-band Power Measurements with Waveguide Power Sensors Application Note Introduction The 60 to 90 GHz spectrum, or E-band, has been gaining more millimeter wave
More informationIntegrated Microwave Sensors in SiGe with Antenna in Package: From Concepts to Solutions
Integrated Microwave Sensors Johannes Kepler University Linz THz-Workshop: Millimeter- and Sub-Millimeter-Wave circuit design and characterization 26 September 2014, Venice Integrated Microwave Sensors
More informationEG 1 Millimeter-wave & Integrated Antennas
EuCAP 2010 ARTIC Workshop 5-12 July, San Diego, California EG 1 Millimeter-wave & Integrated Antennas Ronan SAULEAU Ronan.Sauleau@univ-rennes1.fr IETR (Institute of Electronics and Telecommunications,
More informationRadar System Design Considerations -- System Modeling Findings (MOS-AK Conference Hangzhou 2017)
Radar System Design Considerations -- System Modeling Findings (MOS-AK Conference Hangzhou 2017) Silicon Radar GmbH Im Technologiepark 1 15236 Frankfurt (Oder) Germany Outline 1 Introduction to Short Distance
More informationSession 3. CMOS RF IC Design Principles
Session 3 CMOS RF IC Design Principles Session Delivered by: D. Varun 1 Session Topics Standards RF wireless communications Multi standard RF transceivers RF front end architectures Frequency down conversion
More informationN e w s R e l e a s e
N e w s R e l e a s e Infineon Austria achieves double-digit growth and takes the vanguard of Industry 4.0 in Austria year-end statement for fiscal year 2014 New Management Board team since April 2014
More informationThe wireless industry
From May 2007 High Frequency Electronics Copyright Summit Technical Media, LLC RF SiP Design Verification Flow with Quadruple LO Down Converter SiP By HeeSoo Lee and Dean Nicholson Agilent Technologies
More informationPartner Event. Current products Coming products Market outlook Sales process
Partner Event Current products Coming products Market outlook Sales process Current Products 2 Sivers IMA Radar Products RS3400 Series Sensors/Front Ends RS3400C RS3400X RS3410X RS3400K RS3400W CO1000A
More informationSmart Energy Solutions for the Wireless Home
Smart Energy Solutions for the Wireless Home Advanced Metering Infrastructure (AMI) ZigBee (IEEE 802.15.4) Wireless Local Area Networks (WLAN) Industrial and Home Control Plug-in Hybrid Electric Vehicles
More informationPackaged mm-wave GaN, GaAs and Si ICs for 5G and automotive radar
Packaged mm-wave GaN, GaAs and Si ICs for 5G and automotive radar Eric Leclerc UMS 1 st Nov 2018 Outline Why heterogenous integration? About UMS Technology portfolio Design tooling: Cadence / GoldenGate
More informationFoundries, MMICs, systems. Rüdiger Follmann
Foundries, MMICs, systems Rüdiger Follmann Content MMIC foundries Designs and trends Examples 2 Foundries and MMICs Feb-09 IMST GmbH - All rights reserved MMIC foundries Foundries IMST is a UMS certified
More informationSBB MHz to 6000MHz InGaP HBT ACTIVE BIAS GAIN BLOCK. Features. Product Description. Applications
50 to 6000 InGaP HBT Active Bias Gain Block SBB3000 50 to 6000 InGaP HBT ACTIVE BIAS GAIN BLOCK Package: Bare Die Product Description RFMD s SBB3000 is a high performance InGaP HBT MMIC amplifier utilizing
More informationT/R Modules. Version 1.0
T/R Modules Version 1.0 Date: Jun 1, 2015 CONTENT Product Overview... 3 FACTS ON THE TECHNOLOGY... 4 ABOUT NANOWAVE... 6 RF Components and Subsystems NANOWAVE Technologies Inc. is a privately owned Canadian
More informationA Novel Differential Microstrip Patch Antenna and Array at 79 GHz #Z. Tong 1, A. Stelzer 1,2, C. Wagner 2, R. Feger 2, E.
A Novel Differential Microstrip Patch Antenna and Array at 79 GHz #Z. Tong 1, A. Stelzer 1,2, C. Wagner 2, R. Feger 2, E. Kolmhofer 3 1 Institute for Communications & Information Engineering, Johannes
More informationHIFAS: Wide-band spectrometer ASIC
HIFAS: Wide-band spectrometer ASIC Anders Emrich, Stefan Andersson, Johan Dahlberg, Magnus Hjorth, Omnisys Instruments AB Torgil Kjellberg, Chalmers University Of Technology Microelectronics Presentation
More informationEmbedded Sensors. We can offer you complete solutions for intelligent integrated sensor systems.
FRAUNHOFER-Institute For integrated Circuits IIS INTEGRATED CIRCUITS AND SYSTEMS ICS FROM AN IDEA TO A FINISHED PRODUCT WE ARE: CUSTOMER- ORIENTED PROFESSIONAL TIME-TO-MARKET- FOCUSED NETWORKED WE OFFER:
More informationmmw to THz ultra high data rate radio access technologies
mmw to THz ultra high data rate radio access technologies Dr. Laurent HERAULT VP Europe, CEA LETI Pierre Vincent Head of RF IC design Lab, CEA LETI Outline mmw communication use cases and standards mmw
More informationDevelopment of 24 GHz-band High Resolution Multi-Mode Radar
Special Issue Automobile Electronics Development of 24 GHz-band High Resolution Multi-Mode Radar Daisuke Inoue*, Kei Takahashi*, Hiroyasu Yano*, Noritaka Murofushi*, Sadao Matsushima*, Takashi Iijima*
More informationOscillator for 122GHz: Frequency multiplier from 61GHz and amplifier
Sigurd Werner, DL9MFV Oscillator for 122GHz: Frequency multiplier from 61GHz and amplifier The design of a passive frequency doubler and a sub-harmonic mixer for 122GHz requires a strong signal on 61GHz.
More informationA Millimeter-Wave Power Amplifier Concept in SiGe BiCMOS Technology for Investigating HBT Physical Limitations
A Millimeter-Wave Power Amplifier Concept in SiGe BiCMOS Technology for Investigating HBT Physical Limitations Jonas Wursthorn, Herbert Knapp, Bernhard Wicht Abstract A millimeter-wave power amplifier
More informationTRA_120_002 Radar Front End 120-GHz Highly Integrated IQ Transceiver with Antennas on Chip in Silicon Germanium Technology
Silicon Radar GmbH Im Technologiepark 1 15236 Frankfurt (Oder) Germany fon +49.335.557 17 60 fax +49.335.557 10 50 http://www.siliconradar.com TRA_120_002 Radar Front End 120-GHz Highly Integrated IQ Transceiver
More informationMillimeter-Wave Amplifiers for E- and V-band Wireless Backhaul Erik Öjefors Sivers IMA AB
Millimeter-Wave Amplifiers for E- and V-band Wireless Backhaul Erik Öjefors Sivers IMA AB THz-Workshop: Millimeter- and Sub-Millimeter-Wave circuit design and characterization 26 September 2014, Venice
More informationNoise Figure Measurement in the 60 GHz Range Application Note
Noise Figure Measurement in the 60 GHz Range Application Note Products: R&S FSU67 Noisecom Noise Figure Test Set - NC5115-60G - NC5115-60GT This application note describes how noise figure and gain of
More informationIntroduction. In the frequency domain, complex signals are separated into their frequency components, and the level at each frequency is displayed
SPECTRUM ANALYZER Introduction A spectrum analyzer measures the amplitude of an input signal versus frequency within the full frequency range of the instrument The spectrum analyzer is to the frequency
More informationDevelopment of Low Cost Millimeter Wave MMIC
INFORMATION & COMMUNICATIONS Development of Low Cost Millimeter Wave MMIC Koji TSUKASHIMA*, Miki KUBOTA, Osamu BABA, Hideki TANGO, Atsushi YONAMINE, Tsuneo TOKUMITSU and Yuichi HASEGAWA This paper describes
More informationUnderstanding RF and Microwave Analysis Basics
Understanding RF and Microwave Analysis Basics Kimberly Cassacia Product Line Brand Manager Keysight Technologies Agenda µw Analysis Basics Page 2 RF Signal Analyzer Overview & Basic Settings Overview
More information9-10 GHz LOW NOISE AMPLIFIER
9-10 GHz LOW NOISE AMPLIFIER Features Frequency Range 9-10GHz Low Noise Figure < 1.38 db High Gain 28 ± 0.4dB Input Return Loss > 10dB. Output Return Loss > 13dB. 10 dbm is Nominal P1dB 20 dbm OIP3 No
More informationLatest RF Capabilities. Jan 2015
Latest RF Capabilities Jan 2015 Value Proposition Item Comments / Current Status Refer to Slide # RF Test Engineering Capabilities Multiple Highly Experienced Test Engineers Engaged in Various RF Projects
More informationEffects to develop a high-performance millimeter-wave radar with RF CMOS technology
Effects to develop a high-performance millimeter-wave radar with RF CMOS technology Yasuyoshi OKITA Kiyokazu SUGAI Kazuaki HAMADA Yoji OHASHI Tetsuo SEKI High Resolution Angle-widening Abstract We are
More informationInnovation is calling! Join Infineon Austria. [ ] [ english ]
Innovation is calling! Join Infineon Austria [ www.infineon.com/austria ] [ english ] Editor: Infineon Technologies Austria AG, Human Resources, 9500 Villach, Siemenstr. 2 Layout & Graphic Design: honigkuchenpferd.net
More informationmhemt based MMICs, Modules, and Systems for mmwave Applications Axel Hülsmann Axel Tessmann Jutta Kühn Oliver Ambacher
mhemt based MMICs, Modules, and Systems for mmwave Applications Christaweg 54 79114 Freiburg, Germany +49 761 5951 4692 info@ondosense.com www.ondosense.com Axel Hülsmann Axel Tessmann Jutta Kühn Oliver
More informationEvolution of the Modern Receiver in a Crowded Spectrum Environment White Paper
Evolution of the Modern Receiver in a Crowded Spectrum Environment White Paper The International Telecommunications Union Radiocommunications working group (ITU-R) outlines recommendations for the regulations
More informationMeasured Fixtured Data Bias: 40mA Isolation (db)
77 GHz Transceiver Switch Key Features I/O Compatible with MA4GC6772 3 Antenna Ports Receive, Source, and LO Ports 2.5 db RX/TX Insertion Loss Typical 4 db Source/Mixer Isolation Typical 25 db Ant/Ant
More informationGHz Low Noise Amplifier
8.0-12.0 GHz Low Noise Amplifier Features Frequency Range : 8.0-12.0 GHz Low Noise Figure < 1.7 db 26 db nominal gain 12 dbm P 1dB High IP3 Input Return Loss > 10 db Output Return Loss > 10 db DC decoupled
More informationAgilent U9397A/C FET Solid State Switches (SPDT)
Agilent U9397A/C FET Solid State Switches (SPDT) U9397A 300 khz to 8 GHz U9397C 300 khz to 18 GHz Technical Overview Key Features Prevent damage to sensitive components with low video leakage < 10 mvpp
More informationMicrowave Office Application Note
Microwave Office Application Note INTRODUCTION Wireless system components, including gallium arsenide (GaAs) pseudomorphic high-electron-mobility transistor (phemt) frequency doublers, quadruplers, and
More informationmm Wave Communications J Klutto Milleth CEWiT
mm Wave Communications J Klutto Milleth CEWiT Technology Options for Future Identification of new spectrum LTE extendable up to 60 GHz mm Wave Communications Handling large bandwidths Full duplexing on
More information20 GHz to 44 GHz, GaAs, phemt, MMIC, Low Noise Amplifier HMC1040CHIPS
Data Sheet FEATURES Low noise figure: 2 db typical High gain: 25. db typical P1dB output power: 13.5 dbm, 2 GHz to GHz High output IP3: 25.5 dbm typical Die size: 1.39 mm 1..2 mm APPLICATIONS Software
More information65-GHz Receiver in SiGe BiCMOS Using Monolithic Inductors and Transformers
65-GHz Receiver in SiGe BiCMOS Using Monolithic Inductors and Transformers Michael Gordon, Terry Yao, Sorin P. Voinigescu University of Toronto March 10 2006, UBC, Vancouver Outline Motivation mm-wave
More informationSGA7489Z DC to 3000MHz SILICON GERMANIUM HBT CASCADABLE GAIN BLOCK
DC to 3MHz Silicon Germanium HBT Cascadable Gain Block SGA7489Z DC to 3MHz SILICON GERMANIUM HBT CASCADABLE GAIN BLOCK Package: SOT-89 Product Description The SGA7489Z is a high performance SiGe HBT MMIC
More informationWhite paper on CAR150 millimeter wave radar
White paper on CAR150 millimeter wave radar Hunan Nanoradar Science and Technology Co.,Ltd. Version history Date Version Version description 2017-02-23 1.0 The 1 st version of white paper on CAR150 Contents
More informationITRS: RF and Analog/Mixed- Signal Technologies for Wireless Communications. Nick Krajewski CMPE /16/2005
ITRS: RF and Analog/Mixed- Signal Technologies for Wireless Communications Nick Krajewski CMPE 640 11/16/2005 Introduction 4 Working Groups within Wireless Analog and Mixed Signal (0.8 10 GHz) (Covered
More informationAEROSPACE AND DEFENSE
AEROSPACE AND DEFENSE Analog Devices provides solutions from antenna to bits to enable today s mission-critical platforms. We offer the industry s broadest portfolio of components and high performance
More informationRF2436 TRANSMIT/RECEIVE SWITCH
Transmit/Receive Switch RF2436 TRANSMIT/RECEIVE SWITCH Package Style: SOT-5 Features Single Positive Power Supply Low Current Consumption db Insertion Loss at 900MHz 24dB Crosstalk Isolation at 900MHz
More information22. VLSI in Communications
22. VLSI in Communications State-of-the-art RF Design, Communications and DSP Algorithms Design VLSI Design Isolated goals results in: - higher implementation costs - long transition time between system
More informationRF and Microwave Design Solutions. Bob Alman (707)
RF and Microwave Design Solutions Bob Alman (707) 529-8481 Bob@AlmanEngineering.com Santa Rosa, CA About Bob Alman Bob Alman acts as an extension of your engineering team by providing guidance, application
More informationPreliminary Datasheet
Rev 2. CGY217UH 7-bit X-Band Core Chip DESCRIPTION The CGY217UH is a high performance GaAs MMIC 7 bit Core Chip operating in X-band. It includes a phase shifter, an attenuator, T/R switches, and amplification.
More informationRadar Market Outlook. Mats Carlsson CTO. Sivers IMA Partner Event - June
Radar Market Outlook Mats Carlsson CTO Sivers IMA Partner Event - June 2017 1 Why radar? Competing non-contact technologies Vision / cameras Time of flight Stereoscopic Lasers Ultrasound Radar offers robust
More informationGlobal Image Sensor Market with Focus on Automotive CMOS Sensors: Industry Analysis & Outlook ( )
Industry Research by Koncept Analytics Global Image Sensor Market with Focus on Automotive CMOS Sensors: Industry Analysis & Outlook ----------------------------------------- (2017-2021) October 2017 Global
More informationCMOS 2.4GHZ ZIGBEE/ISM TRANSMIT/RECEIVE RFeIC
CMOS 2.4GHZ ZIGBEE/ISM TRANSMIT/RECEIVE RFeIC Description 17 1 2 3 4 TXRX VDD VDD D 16 15 14 13 12 11 10 ANT 9 The is a fully integrated, single-chip, single-die RFeIC (RF Front-end Integrated Circuit)
More informationSPDT RF Switch MSWA2-50+ Fast Switching - MMIC. The Big Deal
Fast Switching - MMIC SPDT RF Switch 50Ω DC to 5000 MHz The Big Deal Very fast switching, 5ns rise/fall time typ. High isolation, 53 typ. at 1 GHz High IP3, +54 m typ. at 1 GHz CASE STYLE: DQ1225 Product
More informationRF Module for High-Resolution Infrastructure Radars
FEATURED TOPIC Module for High-Resolution Infrastructure Radars Osamu ANEGAWA*, Akira OTSUKA, Takeshi KAWASAKI, Koji TSUKASHIMA, Miki KUBOTA, and Takashi NAKABAYASHI ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
More informationSP4T RF Switch HSWA4-63DR+
MMIC SP4T RF Switch Absorptive RF Switch with internal driver Single Supply Voltage, +2.3V to +5.5V The Big Deal High Isolation, 61 @ 0.9 GHz Low insertion loss, 0.9 at 0.9 GHz High IP3, +58 m Fast switching,
More informationUseful in wideband systems or in in several narrowband systems. Reducing inventory
MMIC Surface Mount Wideband Double Balanced Mixer Level 15 (LO Power 15dBm) 10-40 GHz The Big Deal High L-R Isolation, 37 db typ Useable as Up & Down Converter Small Size 3 x 3 x 0.89 mm CASE STYLE: DQ1225
More information2 18GHz Double Balanced Ring Mixer
2 18GHz Double Balanced Ring Mixer Features RF/LO Frequency: 2 18GHz IF bandwidth: DC 75MHz Nominal LO drive of 7-13dBm Low Conversion Loss: 4dB High Port to Port Isolation High IIP3 Nominal bias: 5V @1mA.15-µm
More informationSelf Calibrated Image Reject Mixer
Self Calibrated Image Reject Mixer Project name: Self Calibrated Image Reject Mixer. Design number: 6313. Design password: Student names: Mostafa Elmala. Area: mm X mm. Technology: Technology is SCN4ME_SUBM,
More informationEECS240 Spring Advanced Analog Integrated Circuits Lecture 1: Introduction. Elad Alon Dept. of EECS
EECS240 Spring 2009 Advanced Analog Integrated Circuits Lecture 1: Introduction Elad Alon Dept. of EECS Course Focus Focus is on analog design Typically: Specs circuit topology layout Will learn spec-driven
More informationStepped-Frequency Nonlinear Radar Simulation
Stepped-Frequency Nonlinear Radar Simulation Gregory J. Mazzaro The Citadel, The Military College of South Carolina Charleston, SC, 29409 Anthony F. Martone U.S. Army Research Laboratory Adelphi, MD, 20783
More informationMPT, Inc. The Right Solution With A Lower Risk At The Right Time.
MPT, Inc. The Right Solution With A Lower Risk At The Right Time. For More Information About MPT Contact: Craig Parrish VP Strategic Business Development cparrish@mptcorp.com OFFICE: (714) 316-7300 MOBILE:
More information8-18 GHz Wideband Low Noise Amplifier
8-18 GHz Wideband Low Noise Amplifier Features Frequency Range : 8.0 18.0GHz 23dB Nominal gain Low Midband Noise Figure < 2 db Input Return Loss > 12 db Output Return Loss > 12 db Single +3V Operation
More informationMillimeter-Wave Technology for Automotive Radar Sensors in the 77 GHz Frequency Band
IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, VOL. 60, NO. 3, MARCH 2012 845 Millimeter-Wave Technology for Automotive Radar Sensors in the 77 GHz Frequency Band Jürgen Hasch, Member, IEEE, Eray
More informationComplete RF And Microwave Design Flow with AWR Design Environment. Tabish Khan, AWR Corporation
Complete RF And Microwave Design Flow with AWR Design Environment Tabish Khan, AWR Corporation Traditional Serial Design Flow Separate tools, user interfaces, netlists and databases System Design Design
More information9-10 GHz GaAs MMIC Core Chip
9-10 GHz GaAs MMIC Core Chip Features Functional Diagram Frequency Range: 9GHz 10GHz Tx Small Signal Gain: 28dB Rx Small Signal Gain: 4dB Tx Output P1dB : 22dBm Tx Output Psat : 23dBm Input Return Loss
More informationUnderstanding Mixers Terms Defined, and Measuring Performance
Understanding Mixers Terms Defined, and Measuring Performance Mixer Terms Defined Statistical Processing Applied to Mixers Today's stringent demands for precise electronic systems place a heavy burden
More informationA 1.7-to-2.2GHz Full-Duplex Transceiver System with >50dB Self-Interference Cancellation over 42MHz Bandwidth
A 1.7-to-2.2GHz Full-Duplex Transceiver System with >50dB Self-Interference Cancellation Tong Zhang, Ali Najafi, Chenxin Su, Jacques C. Rudell University of Washington, Seattle Feb. 8, 2017 International
More informationAnalog Devices Welcomes Hittite Microwave Corporation NO CONTENT ON THE ATTACHED DOCUMENT HAS CHANGED
Analog Devices Welcomes Hittite Microwave Corporation NO CONTENT ON THE ATTACHED DOCUMENT HAS CHANGED www.analog.com www.hittite.com THIS PAGE INTENTIONALLY LEFT BLANK v01.05.00 HMC141/142 MIXER OPERATION
More informationRadar Environment RF Generation. Dr. Steffen Heuel Technology Manager Aerospace & Defense Rohde & Schwarz Munich, Germany
Radar Environment RF Generation Dr. Steffen Heuel Technology Manager Aerospace & Defense Rohde & Schwarz Munich, Germany Typical navigation radar scenario Turning navigation radar antenna Tx Tx Tx Tx Rx
More informationMicrowave Office Application Note
Microwave Office Application Note INTRODUCTION Wireless system components, including gallium arsenide (GaAs) pseudomorphic high-electron-mobility transistor (phemt) frequency doublers, quadruplers, and
More informationInstrumentation Receiver: Analog Signal Processing for a DSP World. Rick Campbell Portland State University
Instrumentation Receiver: Analog Signal Processing for a DSP World Rick Campbell Portland State University Tonight s Talk discusses 3 questions: What is an Instrumentation Receiver? How does Rick design
More information6-18 GHz Double Balanced Mixer
6-18 GHz Double Balanced Mixer Features Functional Diagram Passive Double Balanced Topology Low Conversion loss Excellent Isolations between all ports IF Bandwidth of DC to 4GHz 0.15-µm InGaAs phemt Technology
More informationCMOS 2.4GHZ ZIGBEE/ISM TRANSMIT/RECEIVE RFeIC
hot RFX2401C CMOS 2.4GHZ ZIGBEE/ISM TRANSMIT/RECEIVE RFeIC Description 1 2 3 4 TXRX 17 VDD VDD DNC 16 15 14 13 12 11 10 ANT 9 The RFX2401C is a fully integrated, single-chip, single-die RFeIC (RF Front-end
More information2 40 GHz Ultra-Wideband Amplifier
AMT217511 Rev. 1. January 28 2 4 GHz Ultra-Wideband Amplifier Features Frequency Range: 2-4 GHz 7±1. db Nominal Gain Input Return Loss > 1 db Output Return Loss > 1 db Reverse Isolation > 3dB 5 dbm Nominal
More informationRadar Devices, Challenges and Packaging Technology Solutions
Radar Devices, Challenges and Packaging Technology Solutions FTF-SDS-F0023 Darrel Frear Packaging Technology Development APR.2014 TM External Use Session Introduction This presentation is an overview of
More informationWideband mm-wave Signal Generation and Analysis
Application Note R Minihold, R. Wagner 7.2017 1MA257_3e Wideband mm-wave Signal Generation and Analysis Application Note Products: R&S SMW200A R&S FSW R&S SMB100A R&S FSW-B2000 R&S SMF100A R&S FSW-B21
More informationTRX_120_01 RFE (Radar Front End) 120 GHz Highly Integrated IQ Transceiver with Antennas in Package (Silicon Germanium Technology)
Silicon Radar GmbH Im Technologiepark 1 15236 Frankfurt (Oder) Germany fon +49.335.557 17 60 fax +49.335.557 10 50 http://www.siliconradar.com TRX_120_01 RFE (Radar Front End) 120 GHz Highly Integrated
More informationDOTSEVEN Towards 0.7 Terahertz Silicon Germanium Heterojunction Bipolar Technology FP7 Contract Number:
Large Scale Collaborative Project DOTSEVEN Towards 0.7 Terahertz Silicon Germanium Heterojunction Bipolar Technology FP7 Contract Number: 316755 WP5 Training and dissemination Deliverable report Due date
More informationURSI Austria Commission Meeting. ihf. Institute. Microwave and Photonic Engineering. Wolfgang Bösch
URSI Austria Commission Meeting Institute ihf of Microwave and Photonic Engineering Wolfgang Bösch wbosch@tugraz.at Institut für Hochfrequenztechnik Radar and Wave Propagation Univ. Prof. Dr. Wolfgang
More informationIncreasing Automotive Safety with 77/79 GHz Radar Solutions for ADAS Applications
Increasing Automotive Safety with 77/79 GHz Radar Solutions for ADAS Applications FTF-AUT-F0086 Patrick Morgan Director, Safety Systems Business Unit Ralf Reuter Manager, Radar Applications and Systems
More informationTrends and Challenges in Analog and Mixed-Signal- Verification
Trends and Challenges in Analog and Mixed-Signal- Verification Dieter Haerle 17.5.2018 Trust, but verify - Ronald Reagan Agenda 1 2 3 4 5 6 7 Introduction Presenter Definitions Motivation What is Analog-Mixed-Signal
More informationSilicon Austria Labs SAL. The Austrian Research Center for Electronic Based Systems
Silicon Austria Labs SAL The Austrian Research Center for Electronic Based Systems What is Silicon Austria Labs Silicon Austria Labs is Austria s Research Center for Electronic Based Systems (EBS) Applied
More informationRF/Microwave Circuits I. Introduction Fall 2003
Introduction Fall 03 Outline Trends for Microwave Designers The Role of Passive Circuits in RF/Microwave Design Examples of Some Passive Circuits Software Laboratory Assignments Grading Trends for Microwave
More informationCMOS 2.4GHZ ZIGBEE/ISM TRANSMIT/RECEIVE RFeIC
CMOS 2.4GHZ ZIGBEE/ISM TRANSMIT/RECEIVE RFeIC Description 17 1 2 3 4 TXRX VDD VDD D 16 15 14 13 12 11 10 ANT 9 The RFX2401C is a fully integrated, single-chip, single-die RFeIC (RF Front-end Integrated
More informationMMA GHz, 0.1W Gain Block Data Sheet
Features: Frequency Range: 6 22 GHz P1dB: 18.5 dbm @Vds=5V Psat: 19.5 dbm @ Gain: 14 db Vdd =3 to 6 V Ids = 13 ma Input and Output Fully Matched to 5 Ω Applications: Communication systems Microwave instrumentations
More informationsynqpsk Univ. Paderborn, Germany; CeLight Israel; Photline, France; IPAG, Germany
1 Components for Synchronous Optical Quadrature Phase Shift Keying Transmission Contract 004631 in FP6 IST-2002-2.3.2.2 Optical, opto-electronic, & photonic functional components synqpsk Univ. Paderborn,
More informationT-Sense - the New Generation of Non-contact Transmission Imaging with Non-ionizing Radiation
19 th World Conference on Non-Destructive Testing 2016 T-Sense - the New Generation of Non-contact Transmission Imaging with Non-ionizing Radiation Dirk NÜßLER 1, Maik SCHUBERT 2, Stefan REIBLE 1, Stefan
More informationAmplifier Test Bench Taking performance to a new peak
Data Sheet Amplifier Test Bench Taking performance to a new peak Amplifier Test Bench Boonton s Amplifier Test Bench is a powerful software tool especially designed for efficient and accurate, test verification
More informationRFPA TO 5 V PROGRAMMABLE GAIN HIGH EFFICIENCY POWER AMPLIFIER
3 TO 5 V PROGRAMMABLE GAIN HIGH EFFICIENCY POWER AMPLIFIER Package Style: QFN, 16-Pin, 3 mm x 3 mm Features 0.5 W CW Output Power at 3.6 V 1 W CW Output Power at 5 V 32 db Small Signal Gain at 900 MHz
More informationMMIC GHz Quadrature Hybrid
MMIC 3.5-10GHz Quadrature Hybrid MQH-3R510 1 Device Overview 1.1 General Description The MQH-3R510 is a MMIC 3.5 GHz 10 GHz quadrature (90 ) hybrid. Wire bondable 50Ω terminations are available on-chip.
More informationGHz Ultra-wideband Amplifier
.-3 GHz Ultra-wideband Amplifier Features Frequency Range :. 3.GHz 11. db Nominal gain Gain Flatness: ±2. db Input Return Loss > 1 db Output Return Loss > 1 db DC decoupled input and output.1 µm InGaAs
More informationR&S NRPM Over-the-Air (OTA) Power Measurement Solution For 5G, WLAN IEEE ad and IEEE ay
year Product Brochure Version 0.00 R&S NRPM Over-the-Air (OTA) Power Measurement Solution For 5G, WLAN IEEE 80.ad and IEEE 80.ay NRPM_bro_en_607-4687-_v000.indd 8.0.09 5:59:08 R&S NRPM Over-the-Air (OTA)
More informationNOT FOR NEW DESIGNS SGA5386Z. Absolute Maximum Ratings MHz. Parameter Rating Unit. Typical Performance at Key Operating Frequencies
DC to 5MHz, Cascadable SiGe HBT MMIC Amplifier DC to 5MHz, CASCADABLE SiGe HBT MMIC AMPLIFIER Package: SOT-86 Product Description The is a high performance SiGe HBT MMIC Amplifier. A Darlington configuration
More information20-43 GHz Double-Balanced Mixer and LO-Amplifier
20-43 GHz Double-Balanced Mixer and LO-Amplifier Features Both Up and Downconverting Functions Harmonic LO Mixing Capability Large Bandwidth: RF Port: 20-43 GHz LO Port Match: DC - 43 GHz LO Amplifier:
More informationGain and Return Loss vs Frequency. s22. Frequency (GHz)
SBA4086Z DCto5GHz, CASCADABLE InGaP/GaAs HBT MMIC AMPLIFIER Package: SOT-86 Product Description RFMD s SBA4086Z is a high performance InGaP/GaAs Heterojunction Bipolar Transistor MMIC Amplifier. A Darlington
More informationMeasurement Setup for Phase Noise Test at Frequencies above 50 GHz Application Note
Measurement Setup for Phase Noise Test at Frequencies above 50 GHz Application Note Products: R&S FSWP With recent enhancements in semiconductor technology the microwave frequency range beyond 50 GHz becomes
More informationA Winning Combination
A Winning Combination Risk factors Statements in this presentation that refer to future plans and expectations are forward-looking statements that involve a number of risks and uncertainties. Words such
More informationAMPLIFIERS, ANTENNAS, MULTIPLIERS, SOURCES, WAVEGUIDE PRODUCTS MILLIMETER-WAVE COMPONENTS FERRITE PRODUCTS AND SUB-SYSTEMS
AMPLIFIERS, ANTENNAS, MULTIPLIERS, SOURCES, WAVEGUIDE PRODUCTS MILLIMETER-WAVE COMPONENTS FERRITE PRODUCTS AND SUB-SYSTEMS 766 San Aleso Avenue, Sunnyvale, C A 94085 Tel. (408) 541-9226, Fax (408) 541-9229
More informationFirst Integrated Bipolar RF PA Family for Cordless Telephones
First Integrated Bipolar RF PA Family for Cordless Telephones Dr. Stephan Weber Infineon Technologies AG, LIN PE PA, Balanstr. 73, 81541 Munich, Germany, stephan.weber@infineon.com, Phone 0049-89-23428722,
More informationRX_024_04 24 GHz Highly Integrated IQ Receiver (Silicon Germanium Technology)
Silicon Radar GmbH Im Technologiepark 1 15236 Frankfurt (Oder) Germany fon +49.335.557 17 60 fax +49.335.557 10 50 http://www.siliconradar.com RX_024_04 24 GHz Highly Integrated IQ Receiver (Silicon Germanium
More information9 Best Practices for Optimizing Your Signal Generator Part 2 Making Better Measurements
9 Best Practices for Optimizing Your Signal Generator Part 2 Making Better Measurements In consumer wireless, military communications, or radar, you face an ongoing bandwidth crunch in a spectrum that
More informationRFID Reader Frontends for a Dual-Frequency (13 MHz and 868 MHz) Rapid Prototyping Environment
RFID Reader Frontends for a Dual-Frequency (13 MHz and 868 MHz) Rapid Prototyping Environment Robert Langwieser, Michael Fischer and Prof. Dr. Arpad L. Scholtz Vienna University of Technology www.tuwien.ac.at
More information