![]() Loss of the information in these cookies may make our services less functional, but would not prevent the website from working. This enables us to personalize our content for you, greet you by name and remember your preferences (for example, your choice of language or region). Functionality Cookies: These cookies are used to recognize you when you return to our website. This helps us to improve the way the website works, for example, by ensuring that users are easily finding what they are looking for. ![]() ![]() Analytics/Performance Cookies: These cookies allow us to carry out web analytics or other forms of audience measuring such as recognizing and counting the number of visitors and seeing how visitors move around our website. They either serve the sole purpose of carrying out network transmissions or are strictly necessary to provide an online service explicitly requested by you. ![]() The cookies we use can be categorized as follows: Strictly Necessary Cookies: These are cookies that are required for the operation of or specific functionality offered. To get more information on a given object run: To get a list of currently available objects with the BSP installed simply run: The available code is available in the GitHub repo folder here, where object tests have the naming convention Tests. Similarly, ADALM-PHASER class is also derived from low level objects based on their parts.įor example usage of certain objects, it can be useful to inspect their related test code which exercises initiations in different configurations. Therefore, it uses the objects corresponding to these devices along with ADAR100x, a genric ADAR1000 superclass under the hood. The Stingray Evaluation board contains an ADXUD1AEBZ, ADF4371 and LTC2314. These System Objects can be access under the “adi” namespace in MATLAB and are followed by their part number or board name and finally Tx or Rx:įor example, to instantiate a Stingray object to control the X-Band Development Platform it can be created as follows: The functions were developed with R11.1, but they work with R13.Device interfaces which provide control and data streaming are implemented with MATLAB System Objects and Simulink Blocks. Usage examples are found throughout the above text. The toolbox includes functions for the design and analysis of multilayer film structures, antireflection coatings, polarizers, omnidirectional mirrors, narrow-band transmission filters, birefringent multilayer films and giant birefringent optics impedance matching methods, quarter-wavelength multisection Chebyshev transformers, stub matching, and L, Pi and T-section reactive matching networks analysis of transmission lines and waveguides S-parameters, Smith charts, stability and gain circles, noise figure circles, and microwave amplifier design computation of directivities and patterns of linear and aperture antennas horn design computation of diffraction integrals and knife-edge diffraction coefficients antenna array design methods for sector and narrow beams numerical methods for the Hallen and Pocklington integral equations computation of self and mutual antenna impedances coupled antennas various types of azimuthal and polar gain plots and several movies showing the propagation of pulses on terminated transmission lines and on cascaded lines, reflections from reactive terminations, fault location by TDR, crosstalk signals on coupled lines, and time-evolution of the field radiated by a Hertzian dipole antenna. The book may be downloaded from the web page A toolbox of functions to accompany the author's online book on "Electromagnetic Waves & Antennas".
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