Intended Use of Technology - Case Study Example

This paper details the background and use of one such patented innovation referred to as the Acceleration Recorder and Playback Module. Available literature demonstrates that the Acceleration Recorder and Playback Module “is directed to methods and apparatus relating to an accelerometer electrical signal recorder and playback module” (Acceleration Recorder, n.d., para. 1). It may be manufactured in lightweight configuration for ease of transportation and other logistics; however, it captures and stores data using available analog memory components.

It is also documented that “signal conditioning is incorporated into the module so that signals may be connected directly from the accelerometer to the recorder module” (Acceleration Recorder, n.d., para. 1). The dry cell compartment may be included to secure direct current (DC) batteries that are used as a source of power for the module as well as the accelerometer. It is also documented that a timing circuitry is included in the Acceleration Recorder and Playback Module “to control the time duration within which data is recorded or played back so as to avoid overloading the analog memory components” (Acceleration Recorder, n.d., para. 1). Richard J.

Bozeman, the inventor of the Acceleration Recorder and Playback Module in the United States, uses diagrams to demonstrate how multiple accelerometer recordings may be taken concurrently without analog to digital circuits with the view to, among other things, multiplexing circuitry or software to recompense for the outcomes or upshots of multiplexing the signals in user mode. Innovations the world over are intended to translate knowledge into business opportunities, spur the development of knowledge, facilitate the exchange of knowledge between all the actors involved in such innovations, as well as improve business processes and procedures (Seidel et al., 2010). In general terms, the Acceleration Recorder and Playback Module are used to obtain and record machine vibration data, implying that it can be used “to simply record the data coming from an FMC daughter card to memory and to retrieve it on the host PC” (Dominique, 2013, para. 3). It is important to note that the Acceleration Recorder and Playback Module has the capacity to make recordings on multiple channels at the same time, hence giving users a competitive advantage over other recording modules.

Available literature demonstrates that “vibration analysis has been used for years to provide a determination of the proper functioning of different types of machinery, including rotating machinery and rocket engines” (Acceleration Recorder, n.d., para. 4) Here, it can be argued that the Acceleration Recorder and Playback Module is used by organizations such as NASA and General Electric to determine a malfunction in these types of machinery with the view to allowing shifts in operating mode and a sequenced shutdown of components of the machinery or the whole system prior to a total breakdown.

Such preventative measures, according to available documentation, not only result in less extensive or less expensive refurbishments on the system but can also avert an occasional disastrous failure of the machinery (Acceleration Recorder, n.d.). Lastly, the Acceleration Recorder and Playback Module can be used to monitor the health of rotating machinery. This is done through the involvement of “scheduled recording and playback of vibration data over time to provide a historical mapping of the machine using frequency and power spectral density analysis” (Acceleration Recorder, n.d., para. 5). Available documentation demonstrates that this process is of immense importance in identifying the degradation of the internal components of machinery and also in providing direct measurements of the machine under investigation.