Introducing: LTC5553 A 3GHz to 20GHz Microwave Mixer with Integrated LO Buffer ©2017 Analog Devices, Inc. All rights reserved.

Slides:

Advertisements

Similar presentations

E3 237 Integrated Circuits for Wireless Communication Gaurab Banerjee Department of Electrical Communication Engineering, Indian Institute of Science,

Advertisements

Microwave Doppler Speed Measurement System Guo Jianghuai Supervisor: Roland G Clarke Assessor: Chris Trayner Introduction A Doppler radar is a special.

- Faculty of Engineering Integrated Circuits Laboratory 28-June-2003 Integrated RF Receivers Design Issues Presented by: Sameh Assem Ibrahim.

ASTRON / Photonics p1. Photonics and AA station design Peter Maat – ASTRON Photonics and AA station design Peter Maat – ASTRON.

Spectrum analyser basics Spectrum analyser basics 1.

System Design for Cognitive Radio Communications

Types Of Mixers In Radar Receivers

Sensor for cellular activity Supervised by : Yossi Hipsh Preformed by : Assaf Haim Ohad Fremder.

Mid-Semester Design Review High Frequency Radio with BPSK Modulation.

Ultra-Wideband Research and Implementation By Jarrod Cook and Nathan Gove Advisors: Dr. Brian Huggins Dr. In Soo Ahn Dr. Prasad Shastry.

An Integrated Solution for Suppressing WLAN Signals in UWB Receivers LI BO.

Introduction to RFIC receiver architecture Special Topics in Computers and Circuits 30(Wed), March, Min, Kyungsik.

2.4-GHZ RF TRANSCEIVER FOR IEEE B WIRELESS LAN UF# UF#

High Frequency (Millimeter Wave) B.M YU.

ECE1352F University of Toronto 1 60 GHz Radio Circuit Blocks 60 GHz Radio Circuit Blocks Analog Integrated Circuit Design ECE1352F Theodoros Chalvatzis.

2.4GHz Single Balanced Mixer Andrew Bacon Jacqueline Griffin John Stone.

 Defining the RF jamming system and showing the importance and need of using it in many places.  Giving a complete RF jamming system design based on.

 All rights reserved to Humavox Ltd. RF Energy Harvesting Ambient Energy sources.

2/23/2010R. Munden - Fairfield University1. Objectives Describe double conversion and up-conversion and explain their advantages Analyze the advantages.

1 Chapter 1 Introduction to Communications Circuits.

Study of 60GHz Wireless Network & Circuit Ahn Yong-joon.

New MMIC-based Millimeter-wave Power Source Chau-Ching Chiong, Ping-Chen Huang, Yuh-Jing Huang, Ming-Tang Chen (ASIAA), Shou-Hsien Weng, Ho-Yeh Chang (NCUEE),

134GHz – The new frontier Sam Jewell, G4DDK RAL 2007.

ADS Design Guide.

LOW COST RADAR 2012 CERF PROJECT ERIC WALTON OSU/ESL JULY 2012 ERIC WALTON OSU/ESL JULY

A 1.5-V 6-10-GHz Low LO-Power Broadband CMOS Folded-Mirror Mixer for UWB Radio H.-W. Chung, H.-C. Kuo, and H.-R. Chuang Institute of Computer and Communication.

Final Project in RFCS in the MINT Program of the UPC by Sven Günther

1 Electronic Circuits MULTI STAGE AMPLIFIERS. 2 Electronic Circuits There are several different multi-stage amp circuits that function as dc-amps. 1)COMPLIMENTARY.

CommunicationElectronics Principles & Applications Third Edition Chapter 6 Radio Transmitters ©2001 Glencoe/McGraw-Hill Louis E. Frenzel.

Integrated receivers for mid-band SKA Suzy Jackson Engineer, Australia Telescope National Facility SKADS FP6 Meeting – Chateau de Limelette – 4-6 November,

MMIC design activities at ASIAA Chau-Ching Chiong, Ping-Chen Huang, Yuh-Jing Huang, Ming-Tang Chen (ASIAA), Ho-Yeh Chang (NCUEE), Ping-Cheng Huang, Che-Chung.

Jinna Yan Nanyang Technological University Singapore

Direct RF-Sampling ADCs 1 Media Presentation News Embargo Until July 11, 2011.

Doc.: IEEE a Submission November 2003 B.Gaucher IBMSlide 1 Project: IEEE P Working Group for Wireless Personal Area Networks.

© 2014 IBM Corporation IBM Research - Zurich VCSEL based Radio-over-Fiber Links for Radio Astronomy Jonas Weiss, IBM Zurich Research Lab, Switzerland.

1. Physical Transmission Transmission Media Wire (guided) Coaxial cable Twisted Pair UTP STP Fiber Optic Wireless (unguided) Radio waves Microwave Infrared.

Meteor Receiver Andrew Thoni Charlie Hunter Greg Watkins Nick Nicholson Will Marshall.

© Sean Nicolson, BCTM 2006 © Sean Nicolson, 2007 A 2.5V, 77-GHz, Automotive Radar Chipset Sean T. Nicolson 1, Keith A. Tang 1, Kenneth H.K. Yau 1, Pascal.

Tests of STO IF Components S. Weinreb April 15, 2009 Two 1-2 GHz IF amplifier plates and one 5 GHz converter plate for the Texas test flight have been.

Mini-GPS2 and Canopy GPS Synchronization

2/June/2009LHCb Upgrade1 Single ended ADC Differential ADC –Convert single ended signal to differential (use AD8138 amp) –ASIC differential output ADC.

Single Balanced Mixer (SBM) Using Reduced-Size Rat-Race Coupler LO1-Group2 Jaemin Shin, Giho Park and Youngsik Hur 07/30/02.

December 1997 Circuit Analysis Examples 걼 Hairpin Edge Coupled Filter 걼 Bipolar Amplifier 걼 Statistical Analysis and Design Centering 걼 Frequency Doubler.

BY….. SU BMITTED TO… MANVENDRA SINGH Mr. R.A. AGARWALA B.TECH (3 rd YEAR) Mrs. SHILPI PATIL ELECTRONICS & COMM. B.B.D.I.T GHAZIABAD.

Integrated Phased Array Systems in Silicon

Amp'ed RF Technology, Inc. August 6, Video over WiFi Solution Features  Wireless video transmission over WiFi  Linux host processer  H.264/MJPEG.

VHF102 Transverter Integration

AMSAT-SA Digital Transponder, telemetry and command system.

Ultra-low Power Components

NSG 4070 Signal generator and immunity test system Dr. Heinrich

RF components Design for the Internet Over TV Band Adaptor

Communication 40 GHz Anurag Nigam.

RF section Control section Output Section Df Df Df CPU Hybrid LC

A High-Dynamic-Range W-band

Linear Technology Corporation

A 1 V RF front-end for both HIPERLAN2 and a

Ultra Wideband Power Amplifiers in 130 nm InP HBT Technology

Video Transmitting Robot

Mobile Broadcast and Spectrum Issues (DVB-T) Workshop April 2003

Variable Gain CMOS LNA MOREIRA E SILVA, Paulo Marcio, DE SOUSA, Fernando Rangel Introduction Simulation.

Focus areas Internet of Things (IoT) Network and Cloud SW

A Novel 1. 5V CMFB CMOS Down-Conversion Mixer Design for IEEE 802

RF Front End Radio Design- Simulations and Specifications

High Performance IF and Transverter Design

5.8GHz CMOS 射頻前端接收電路晶片設計實作 5.8GHz CMOS Front-End Circuit Design

Tri-Band RF Jamming System

Transverters – “Take’s Us Somewhere Else”

EVLA Advisory Panel Mtg. System Overview

Paper review Yun-tae Park Antennas & RF Devices Lab.

Plenary Round Table Interoperable Space and Enabling Technologies and Capabilities The State of Key Technologies that Ease Interoperability Between Government.

Presentation transcript:

Introducing: LTC5553 A 3GHz to 20GHz Microwave Mixer with Integrated LO Buffer ©2017 Analog Devices, Inc. All rights reserved.

LTC5553 3 – 20GHz Microwave Mixer FEATURES Very Wideband Operation RF: 50Ω Matched 3GHz to 20GHz LO: 50Ω Matched 1GHz to 20GHz IF: 50Ω Matched 500MHz to 9GHz Integrated Balun Transformers Up- or Down-Conversion High IIP3: +23.9dBm @ 14GHz +21.5dBm @ 17GHz 0dBm LO Drive Conversion Loss: 11.6dB @17GHz NF: 12.8dB LO-RF Leakage: <-32dBm Tiny 3x2mm QFN-12 Package -40°C to 105°C Case Operating Temp 500MHz – 9 GHz 3 – 20 GHz 1 – 20 GHz

Key Feature: Integrated LO Buffer No External High Power LO Amplifier Needed Low Power 0dBm Drive Very Wideband 50Ω Matched Port Advantages: Ease of Use Reduces LO Radiation and Leakage To Other Circuits Reduces Costs Small Solution Size

Key Feature: Wideband Balun Enable 50Ω Matched RF, IF and LO Ports Over Wide Frequency Ranges Outstanding Dynamic Range Advantages: Simplify Design Consistent Performance Fewer External Components

Small Solution Size Fewer External Components Simpler Design Results In Small Footprint .

Applications Wireless Microwave Backhaul 5G Broadband Wireless Datalink Microwave Transceivers Point-to-Point Radios Massively Parallel Active Antenna Arrays C, X and Ku Band Radar Satellite Transceivers RF Test Equipment