- DIFFERENT COMPONETS AVAILABLE IN OPTISYSTEM GENERATOR
- DIFFERENT COMPONETS AVAILABLE IN OPTISYSTEM REGISTRATION
- DIFFERENT COMPONETS AVAILABLE IN OPTISYSTEM CODE
Control amplitude and phase balance of different components. Applications include mixers, power combiners, dividers, modulators, and phased array radar antenna systems.
DIFFERENT COMPONETS AVAILABLE IN OPTISYSTEM GENERATOR
Optical Sources: VCSEL Laser and Laser Rate Equations: A new adaptive step engine allows for fast convergence of high frequency analog signals.ĬATV Carrier Generators: New parameters include the ability to enable or disable specific channels, facilitating the measurements of carrier to noise ratio (CNR).Ĭarrier Generator Measured: A new list of pre-defined set of standard carrier spacing allows for easy setting up of PAL GB (up to 97 channels), NTSC (up to 157 channels) and L (up to 58 channels) systems.ġ80 and 90 Degree Hybrid Couplers, DC blockers, power splitters and combiners: A new component library geared for ROF applications. Wideband Traveling Wave SOA: Flexible selection between a static or dynamic model.ĪWG NxN Bidirectional: A sophisticated new AWG model facilitates the design of AWG based PON using the unique bidirectional capabilities of OptiSystem. OptiSystem 6.0 automates the analysis of laser pulses by plotting autocorrelation and FROG (Frequency Resolved Optical Gating) graphs directly from the optical time domain analyzer.īidirectional Optical Fibers: A new discretization parameter for broadband sampled signals offers improved performance, accuracy, and convergence for doped amplifier gain and Brillouin calculations. Determine the tradeoffs between EDFAs, EYDFs, EYDWs, YDFs, SOAs and Raman amplifiers cost and performance. As result, users now can calculate the MMF link frequency responses faster allowing extensive statistical modeling of multimode-fiber links.ĭesign a variety of waveguide and fiber optic amplifiers using OptiSystem. The Multimode Component Library of OptiSystem 6.0 includes an exciting new feature empowering users with the option to load multimode fibers measurements of modal delays and power-coupling coefficients using the Cambridge file format. latest version of OptiSystem features a number of requested enhancements to address the design of passive optic network (PON) based FTTx, optical wireless communication (OWC), and radio over fiber systems (ROF). This.products = ko.observableArray() // Start empty If you configure Knockout to fetch them via an AMD module loader such as require.js, then they can either be preloaded (possibly bundled/minified), or incrementally loaded as needed. In most applications, you’ll want to keep component view models and templates in external files. Example: Loading the like/dislike widget from external files, on demand In this example, the component both displays and edits an observable property called userRating on the Product view model class. New Product('Seagull spaghetti', 'like') // This one was already 'liked' erRating = ko.observable(rating || null) A component definition specifies a viewModel and template.
DIFFERENT COMPONETS AVAILABLE IN OPTISYSTEM REGISTRATION
To get started, you can register a component using ko.components.register (technically, registration is optional, but it’s the easiest way to get started). Knockout takes care to ensure compatibility even with old browsers such as IE 6. Instead of needing placeholder s into which components are injected with bindings, you can use more self-descriptive markup with custom element names (e.g., or ).
DIFFERENT COMPONETS AVAILABLE IN OPTISYSTEM CODE
This pattern is beneficial for large applications, because it simplifies development through clear organization and encapsulation, and helps to improve runtime performance by incrementally loading your application code and templates as needed.Ĭustom elements are an optional but convenient syntax for consuming components.