![]() ![]() Waveforms display during configuration to allow for precision adjustments.Ĭompatible with Omniace RA2300A accessories.Customizable realistic pen recorder mode.Configure detailed settings with touch panel.Operation panel design with physical buttons for essential functions.Our noise-resistance technology was developed with input from our customers in the railroad, aerospace, construction, civil engineering and steel market. ![]() The new MKII can use 11 input amplifiers as well as communication units, AC bridge power supplies, recording paper and storage box designed for the older model.Dynamic waveform display 12.1 inch LCD dynamically displays waveforms across 16 channels.Numerical display and waveform division can be configured by application.Enhanced usability Shorten setup time with virtual amplifier setup screen and AUTO button.Direct input sensors Directly input voltage, strain, temperature, vibration, pressure or rotational pulse signal with 11 types sensors inherited from the RA1000 and RA2000 series.Pen recorder mode is used to output data to chart paper directly. This mode shows pen-written waveforms on the screen. Amplifiers and chart speed can be set similar to a chart recorder.Recording resolution (time axis): 20 to 80 dots/mm.#BASIC DATA ACQUISITION SYSTEM PDF MANUAL#.The additional aspects of the system include a service subsystem responsible for data retrieval and analysis of diagnostics data, this integrates a facility to view diagnostics/subsystem signals across the network using a centralized MATLAB based plotting and analysis tool for the SST-1 diagnostics data. ![]() The focus is also on the need and implementation of loss-less data acquisition for various slow and fast SST-1 diagnostics channels along with synchronization of DAS elements with central timing system. The associated DAS software essentially addresses the requirement of an active initialization of acquisition from SST-1 Central control and, subsequently, pushing the sampled data into the NAS for data archival using Ethernet. In order to facilitate a reliable data acquisition, the model further integrates the objects of the systems with the Central Control System of SST-1 using the TCP/IP communication. For these large sets of channels acquiring from individual diagnostics and subsystems has been a combined setup, subjected to a gradual phase of optimization and tests resulting into a series of improvisations over the recent operations. PXI based DAS and CAMAC based DAS have been chosen to cater the need, with sampling rates varying from 10Ksamples/sec to 1Msamples/sec. At present different distributed DAS caters the need of around 130 channels from different SST-1 diagnostics and its subsystems. SST-1 Data Acquisition Systems have been reliably operated in the SST-1 experimental campaigns. The central archiving and retrieval service is based on a dual step architecture involving a combination of Network Attached Server (NAS) and a Storage Area Network (SAN). The DAS also provides the essential user interface for data acquisition to cater both on and off-line data usage. This paper describes the SST-1 Data Acquisition systems (DAS), which with its heterogeneous composition and distributed architecture, aims to cover a wide range of slow to fast channels interfaced with a large set of diagnostics. The recent first phase operations of SST-1 in short pulse mode have provided an excellent opportunity for the essential initial tests and benchmark of the SST-1 Data Acquisition System. ![]()
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