Almost unlimited in scope
Users can analyze and archive, visualize and export measurement results, regardless of any prescribed, specific file formats. If required, this can be done automatically, in a chosen format, and with presentation quality without the need for intermediate processing on an external PC. Users can simply load their own software packages on to the analyzer to handle user-specific services. There is an immense degree of freedom to connect additional sensors or measurement modules for the special parameters that may be encountered in infrequent measurement tasks, for example. Users can also add on almost any number of peripherals such as printers, displays, or a mouse, along with the associated drivers.
Standard languages and popular formats
“Open” means that the SignalShark family communicates in standard languages, and uses and supports the popular formats in common use in the scientific field. Naturally, this also means that the range of expansion modules can include products that are not Narda-branded devices. But, this exceptional degree of freedom does not mean that users have to make do with a sort of construction kit that needs to be put together. Not at all. In fact, this spectrum analyzer can be put into service straight from the factory without any complicated setting up or configuration, and full use made of its optimum speed, real time bandwidth, dynamic range, and sensitivity.
The “unbeatable operating system” strategy
Narda’s thinking behind the open platform strategy is simple: Because of the huge number of potential applications, it would be a complete illusion to think of providing test engineers with a universal solution that would cover 100% of all practical situations in the form of a “closed box”. So, it has to be made as easy as possible to process the measurement results and add on peripheral equipment. The logical step for Narda’s engineers was to embed windows into the system. This operating system is currently “unbeatable” when it comes to docking components or installing software modules.
So much freedom in practice
Having virtually no system limitations basically means that users can integrate and utilize things that they have become familiar with over a long time. As well as the convenience of flexibility, this primarily also means that time is saved in the daily routine, and, not least, that all those sources of error due to complicated reconfiguration can certainly be avoided. For example, one of the main tasks for the SignalShark family is to provide support for the authorities that are keeping radio networks free of interference. Technicians often have to decode the interference signals detected in the spectrum in order to accomplish this task. The open platform makes it possible to install specific decoder software for specialized services directly on the measuring instrument to cope with the rising number of digital communications channels. In the area of radio communications used by emergency services like the police and fire departments, such services include Tetra, Tetrapol and P25 to name just three.
The thoroughly open philosophy is further shown by the use of Python. This universally applicable and – thanks to its clearly structured syntax – easily learned programming language comes pre-installed on the SignalShark. It is thus a simple matter to create scripts, or smaller programs, with the aid of a popular script editor. These scripts are ideal for auto-controlling the device or for running routine jobs so the technician doesn’t have to.
The advantages of an open platform can perhaps best be illustrated using the example of the so-called “screen recorder”, one of the many possible features that can be installed on the SignalShark as needed. This application allows the actual measurement process, i.e. what is happening live on the instrument, to be recorded and this record to even be annotated with a simultaneous audio commentary by the technician using the built in microphone. These recordings can then simply be replayed on the SignalShark itself or exported as documents. These have the potential to even replace parts of the traditional operating manual in the form of modern tutorials or practical teaching videos, due to the extremely high density of information that they contain.