Adaptive Measuring System for On-line Monitoring of Parameters of Radio-electronic Means
The most important component of a modern product quality control system is automated measuring devices, which exclude subjective errors during the control according to an approved method. When mass production of electronic products such tools are developed in accordance with the production technology and the life cycle of specific products. For independent quality control laboratories that carry out orders for selective control of product parameters, the use of such tools is practically excluded. In our opinion, it is advisable to equip such laboratories with automated measurement systems based on commercially produced measuring devices with the ability to quickly adapt to changing the control procedures at the program level. The paper explores the possibilities of using digital oscilloscopes of the MSO1000 series and generators of the DG1000 series as components of a measuring laboratory, analyzes the basic capabilities of these devices, and provides fragments of instrument control code for their integration into a single automated measurement system. As an example of practical implementation, the process of automated measurement of the transfer characteristic of an optical angular displacement sensor using the API functions of the Rigol MSO 1000 digital oscilloscope and the specialized transfer characteristics processing libraries is shown.