Download or read book Design of Three Stage Ku Band Low Noise Amplifier Operating at 15Ghz written by Praveen D'souza and published by . This book was released on 2019 with total page 66 pages. Available in PDF, EPUB and Kindle. Book excerpt: Design of Three stage Ku band Low Noise Amplifier operating at 15 GHz By Praveen D'souza Master of Science in Electrical Engineering The main aim of this project is to simulate and design a three stage Ku band Low Noise Amplifier to find the gain and noise figure at 15GHz. In order to fulfil this requirement of high gain and low noise, a transistor MGF4965BM is chosen. This transistor belongs to Mitsubishi Electric Corporation and is basically a very low noise GaAs HEMT. It is desired to get a gain of more than 30dB with a low noise figure lower than 2dB. Microstrip lines are used to design the input and output matching networks to get the desired gain with low noise figure. The amplifier design must be a multistage design, i.e. it has more than single transistor. All the results were verified using hand calculations, MATLAB and RF and Microwave software. The three stage LNA design and simulation was done using Microwave AWR Office Software. Operating Frequency15GHz Total Gain> 30dB Total Noise Figure

Download or read book Three Stage K band Low Noise Amplifier Operating at 16 GHz written by Prashanth Hara and published by . This book was released on 2017 with total page 56 pages. Available in PDF, EPUB and Kindle. Book excerpt: ABSTRACT THREE-STAGE LOW NOISE AMPLIFIER at 16GHz By Prashanth Hara Master of Science in Electrical Engineering The purpose of this project is to design a three stage LNA in which all the stages are identical in nature. The transistor used for the design is MGF 4937 - AM operating at a frequency of 16GHz with the goal of achieving a total gain over 30dB and a noise figure less than 2dB. The basic steps involved in the design are: 1) Choosing the appropriate transistor, 2) Conduting the stability test of the transistor, 3) Calculating the gain and noise figure of the amplifier and 4) Designing the input matching network , output matching network and the M-prime network. First the smith chart is used for developing the design and then the design is verified using Microwave Office. The hand calculations are also verified using Matlab and RF/MW design software. The final three-stage low noise amplifier design was simulated using Microwave Office software obtaining a gain of 33dB and a noise figure of 1.6dB.

Download or read book Three Stage Ku Band Low Noise Amplifier at 16 GHz written by Soham Jagalpure and published by . This book was released on 2017 with total page 83 pages. Available in PDF, EPUB and Kindle. Book excerpt: In order to design an amplifier at a certain frequency, the gain and noise figure needs to be decided on the basis of the market research. After deciding these three values, a transistor was selected such that it helped to achieve these values. The formulas used in the design process determined the number of stages required to complete the design and to measure the performance of the amplifier. After reviewing more than fifty transistors, the transistor FHX13/14LG was decided for the design of Low Noise Amplifier in the Ku Band at 16 GHz. The design objective was to achieve 40 dB gain with a noise figure of less than 1dB at the specified frequency. After the preliminary calculations, it was concluded that there will be three stages based on the selected transistor. The finalization of each stage was a challenge because of the trade-off issues in gain and noise figure. In order to verify the results, National Instruments Microwave Office (student version) was used for simulation. It gave the simulation values which were very close to the hand calculations. This was also verified using MATLAB along-with an RF/MW E-Book Software* software developed by Dr. Matthew Radmanesh with his published book "Advanced RF & Microwave Circuit Design" for accuracy.

Download or read book Three Stage K band Low Noise Amplifier Operating at 20 GHz written by Brijesh Patel and published by . This book was released on 2017 with total page 58 pages. Available in PDF, EPUB and Kindle. Book excerpt: Three Stage K-band low noise amplifier which is operating at a frequency of 20GHz. The specifications of this amplifier include gain that is greater than or equal to 40dB and a noise figure of less than 1dB. The transistor used for this project is MGF4964BL which is manufactured by Mitsubishi Electric. It is a super low noise GaAs HEMT (High Electron Mobility Transistor) transistor. It provides high gain and low noise figure for high frequency operations. The results are obtained using three different ways, namely, hand calculations, MATLAB and AWR (Microwave Office) simulation. Also, the values derived by hand calculations and MATLAB are verified using the Microsoft RF/MW Software, designed by Dr. Radmanesh. The Amplifier is designed using distributed elements for all three stages. All three stages of this amplifier are a low noise amplifier. It also includes an inter-stage matching network. Three stages provide the gain of 40.8dB and satisfies noise figure criteria too. The concept is using Low Noise Amplifier (LNA) for three stages is very simple. It makes calculations easy and when we add more LNA stages, it increases the gain by keeping noise figure less than 1dB. The schematic was designed by hand calculations whose values were verified twice. Once by using the Microsoft RF/MW Software and second time using MATLAB. The simulation was done after designing the inter-stage matching network on Microwave Office (AWR). First it was carried out for a single stage and then for all three stages together. The results were verified using graphs in AWR.

Download or read book Two stage Ku band Low Noise Amplifier Operating at 18 GHz written by Aditya Y. Vadalkar and published by . This book was released on 2016 with total page 61 pages. Available in PDF, EPUB and Kindle. Book excerpt: This report is about the design of a Ku-band two-stage low noise amplifier working at an operating frequency of 18 GHz. The specification of this low noise amplifier includes a gain, which is greater than 25dB and a low noise figure less than 1dB. The transistor used to design is ATF-36077 manufactured by Hewlett-Packard which is an ultra-low noise transistor providing a high and stable gain at the required frequency along with a low noise figure. The results obtained after running the simulations concluded that the two-stage low noise amplifier satisfactorily provided a power gain of about 24.7 dB and a low noise figure of about 0.68dB. As a result, cascading the two-stages consisting first stage as a minimum noise amplifier (MNA) and second stage as a maximum gain amplifier (MGA) helped us to achieve the specified requirements. The minimum noise amplifier stage helped us to reduce the noise at the input while the maximum gain amplifier stage helped us increase the gain. The matching networks at input and output terminals helped in achieving gain stability at the output. The schematic was implemented using the Agilent's Advanced Design System (ADS) software. The circuit simulation was carried out in the same software and the results were verified. The results were also verified using the hand calculations and MATLAB software. At the end, the final layout was designed and sketched.

Download or read book Three Stage Low Noise Amplifier Operating at 21 GHz written by Priya A. Pathak and published by . This book was released on 2017 with total page 52 pages. Available in PDF, EPUB and Kindle. Book excerpt: The report has been written for a three stage Low Noise Amplifier whose operating frequency is 21 GHz. The aim of the project is to obtain a gain exceeding 30 dB as well as a noise figure minimum i.e. below 2 dB. For obtaining these results, the transistor chosen is MGF4941CL that has been produced by Mitsubishi Electric. This transistor is pretty well-known for its properties for operating at high frequencies yielding low noise. The project consists of 3 identical stages, all of them to be LNA. After the designing part of the project all of the hand calculated values were verified with the help of Matlab and AWR Microwave Office Software. On simulation the software yields the noise and gain plots, which give the desired results for the gain to be more than 30 dB and the noise figure to be less than 2 dB for the single stage as well as the cascaded 3 stage amplifier.

Download or read book Three Stage Low Noise Amplifier Operating at 17 GHz written by Vaidehi Amin and published by . This book was released on 2017 with total page 51 pages. Available in PDF, EPUB and Kindle. Book excerpt: The fundamental goal of this project is to design and build a three stage low noise amplifier at a frequency of 17 GHz. It is desired to have a gain of more than 30 dB and a noise figure value less than 1.5 dB. The transistor which is selected for this project is MGF4964Bl which is InGaAs high electron mobility transistor specially designed to operate at K band. This transistor is a product of Mitsubishi Electric Corporation. Impedance matching networks are designed at the input and output stages to achieve the desired noise figure with the highest possible gain. The calculations were verified with the Matlab code and also with the RF/Microwave software provided by the book'RF and Microwave Design essentials' for more accurate results. The circuit was built up and simulated in AWR Microwave Office software. In the beginning, the results were verified for only one stage of LNA. Later cascading all the three stages and after running simulation in the AWR software, a desired gain of 40.19 dB was obtained and a noise figure of 0.768 dB.

Download or read book Three stage X band Low Noise Amplifier written by Agustin James Rey and published by . This book was released on 2013 with total page 49 pages. Available in PDF, EPUB and Kindle. Book excerpt: The goal of the project is to design a low noise amplifier (LNA) using the given specifications off a transistor datasheet on the market today. The final design is intended to meet key requirements in regards to overall gain, noise figure and frequency range. In order to achieve these requirements, the LNA will consist of three stages with each having specific design requirements on their own.

Download or read book Design of Low Noise Amplifiers for Ultra Wideband Communications written by Roberto Díaz Ortega and published by McGraw Hill Professional. This book was released on 2014-01-13 with total page 129 pages. Available in PDF, EPUB and Kindle. Book excerpt: Cutting-edge techniques for ultra-wideband, low-noise amplifier design This pioneering resource presents alternatives for implementing power- and area-efficient integrated low-noise amplifiers for ultra-wideband communications. Design methodologies for distributed amplifiers, feedback amplifiers, inductor structures with reduced area, and inductorless techniques are discussed. Cowritten by international experts in industry and academia, this book addresses the state of the art in integrated circuit design in the context of emerging systems. Design of Low-Noise Amplifiers for Ultra-Wideband Communications covers: Ultra-wideband overview and system approach Distributed amplifiers Wideband low-noise amplifiers Feedback wideband low-noise amplifiers Inductorless techniques

Download or read book The Design of a 10 Ghz Three Stage Low Noise Amplifier written by Salman-ul Mohammed Haque and published by . This book was released on 2005 with total page 204 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Design and Implementation of Ku band Low noise Amplifier and Power Amplifier written by 許博堯 and published by . This book was released on 2024 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Three Stage Low Noise Amplifier at 6GHz Frequency written by Swapna Raavi and published by . This book was released on 2015 with total page 47 pages. Available in PDF, EPUB and Kindle. Book excerpt: Low Noise Amplifiers are the main components at the receiving end of nearly every communication system. The primary purpose of an LNA is to amplify the input signal while adding minimum noise as little as possible. This project consist of a 6 GHz three stage Low noise amplifier. NEC and CAS are used to create and simulate the design. Microwave office is used to design and simulate the final configuration. The LNA is designed to produce a 35dB gain and an overall noise figure of 2dB at 6GHz frequency. However, the actual design provides an overall gain of 50dB and a noise figure of 1.04dB. The LNA designed meets and exceeds our design requirements. Advancements in the technology and the end user requirement has also influenced in pushing these limits to a new level. This project gives a good base and hands on experience with the industrial standard tools. It also provides an overview of types of amplifiers, detailed design steps and types of matching techniques.

Download or read book advances in microwaves and lightwaves written by and published by Allied Publishers. This book was released on with total page 438 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Design and Analysis of a Three stage Low Noise Amplifier at 24 GHz written by Manuel Valadez and published by . This book was released on 2017 with total page 90 pages. Available in PDF, EPUB and Kindle. Book excerpt: There is a continuous demand for the improved performance of low noise amplifiers in modern and future applications. Radar sensors are employed in automotive detection systems to provide early detection of hazards on the road. Radar sensors for automotive detection systems can be expected to operate at the 24 GHz band range. Since most telecommunication systems require low noise amplifiers in their receivers, it is essential to understand and appreciate the design of low noise amplifiers at microwave frequencies. In addition, low noise amplifiers are expected to provide sufficient power gain to the overall system. Gains ranging from 10 dB to 40 dB are often required by devices including smart phones, antennas, and phase-array radar systems. The amplifier should be able to provide the necessary gain for proper operation of the system. Finally, the low noise amplifier should be able to provide the necessary gain while ensuring minimal noise. Noise causes disturbances in the output signal thereby degrading the performance of the system. Noise can cause random humming noises in audio equipment, unexpected voltage drops, and equipment failure. Noise can be generated within electrical components caused from the vibration of charges. Therefore, the low noise amplifier should be designed to provide minimal noise. A multistage amplifier will be designed to operate at 24 GHz. Designing a 24 GHz low noise amplifier will provide ample preparation for designing low noise amplifiers for radar sensors. The low noise amplifier will also achieve a noise figure less than 1.7 dB and a gain of at least 37 dB. Such noise and gain levels are common requirements of low noise amplifiers in modern devices. Empirical formulas and Smith charts are utilized to obtain essential parameters of the low noise amplifier. Simulation tools such as RF Microwave E-Book, Matlab, and Microwave Office were used to verify and analyze the performance of the multistage amplifier. The three-stage low noise amplifier achieved a noise figure of 1.539 dB and a gain of 39.75 dB meeting the design parameters required for use in low noise high frequency systems. The design parameters are summarized below. Frequency of operation = 24 GHz Achieve a noise figure no greater than 1.7 dB Achieve an overall gain of at least 37 dB

Download or read book Design of a Low Noise Amplifier at 26 GHz written by Shivani Parulkar and published by . This book was released on 2016 with total page 60 pages. Available in PDF, EPUB and Kindle. Book excerpt: The purpose of this master's project is to design a low noise amplifier with cascading different amplifier stages together for specific design conditions. The aim of this project is to design a three stage low noise amplifier using minimum noise amplifier and maximum gain amplifier design. The final cascaded design should be able to satisfy the desired specifications using specific transistor at required frequency. The goal is to design a LNA which has maximum gain with low noise figure. The process begins with selecting a proper transistor, DC biasing of the transistor, checking stability conditions, gain, designing matching network, and calculating noise figure for every stage of the cascaded design. As the LNA is designed, the results obtained by hand calculations are certified by MATLAB simulation, Smith Chart and by simulation using Agilent ADS software.

Download or read book Three Stage Low Noise Amplifier at 24GHz written by Preetam M Kodam and published by . This book was released on 2017 with total page 65 pages. Available in PDF, EPUB and Kindle. Book excerpt: The ultimate objective is to create a system design of a low noise amplifier that can function at a frequency of 24GHz. The basic and very important application of the low noise amplifier is in receiver models. Low noise amplifiers are used on a large scale in all most all types of receivers and as a single transistor can have multiple receivers, it is very obvious that the design of low noise amplifiers is important and on a large scale when compared with any other type of transistors. The amplifier design has to be a multistage design, i.e. it has more than one transistor. The multistage low noise amplifier is to be designed using the transistor MGF4961BL. The transistor is a super low noise HEMT. As the name suggests the basic agenda in designing this type of amplifier is to provide low noise amplification at 24GHz. The Noise figure allowed of should be less than 1 dB and the total output gain should be 25dB overall. The overall gain of 25dB is needed. The number of stages in an amplifier design depends on the gain that a single transistor that can provide depending upon its S-parameters. The matching networks is to be designed and aligned using proper Zin so that there is no mismatch and hence no dropping of the gain. Frequency 24 GHz Overall Gain More than 25 dB Overall Noise Figure Less than 2 dB Transistor MGF4961B

Download or read book Ka band Coplanar Low Noise Amplifier Design with Power PHEMTs written by and published by . This book was released on 2003 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: The design of a coplanar low-noise amplifier (LNA)is presented in this paper. Pseudomorphic high electron mobility transistors (PHEMTs), optimized for power applications, are used in order to evaluate the potentiality of this technology for mixed-mode applications. The three stages amplifier noise figure is lower than 2.6 dB on the 27 -31 GHz frequency band with a 20 dB power gain.