D.I. Davletchin - Ph.D. (Eng.), Associate Professor, Senior Research Scientist, All-Russian Scientific Research Institute of Aviation Materials; Senior Research Scientist, Moscow State University for Information Technology, Radiotechnics, Electronics E-mail: damir2000@mail.ru

The main object of the article survey is the modern equipment in analytical chemistry and its software. Voltammetric analyzers are cho-sen from the wide range of equipment. Software for VA analysis can be divided into several types: hardware control, signal and calcula-tion registration system, different libraries which increase the service capabilities and applications, databases. In the nearest future the connection system for the equipment will become obligatory (involving network and radio channels); this will unite the analytical equip-ment into global system, connecting it to the general center of calculation and processing, controlled by quality management system. We have elaborated programs for automatic polarographs PU-1, PLS-1 and the system for automatic analysis of processes, taking part in the cells for PU-2 and PLS-2 polarographs. Separately we developed the direction of unique software for scientific research, where the tasks are widely diverse. The superuniver-sal polarograph PU-2 contains unique mode of cyclic voltammetry, realized in hardware; a special VAgram processing program was ela-borated to that end; analyzed and upgraded software for PU was realized in PLS-2A. The PLS-2A software allows controlling the work of the sensor with a mercury-dripping electrode, solid electrode. It includes the pro-gram for VAgram processing. The polarographs PU-1M, PLS-2M, PU-2 and PLS-2A are equipped with automatic database of metals, soil, water, air, food, biosubstrates, pharmaceuticals (over 1000 names). The database contains data presented in specialized theses, articles and approved techniques. The quality management system stands for the constant improvement of equipment; this aim is reached by accomplishing software con-trol and self-control; which improves the quality and preciseness of analysis. The innovative step in VA-analysis suggests the creation of 3D VAgrams; in hardware creating the matrix of electrodes and in software by casting series of VAgrams.

 

1. Davletchin D.I. Analiz vozdukha rabochejj zony metodom inversionnojj voltamperometrii // Nelinejjnyjj mir. 2015. № 4. S. 21-24.
2. Davletchin D.I. Kontrol vod v proizvodstvennykh laboratorijakh volt-amperometricheskim metodom // Naukoemkie tekhnologii. 2014. T. 15. № 7. S. 30-33.
3. Salikhdzhanova R.M.-F., Davletchin D.I., Avetisov A.G. Osnovy proizvodstva apparatury telekommunikacionnykh volokonno-opticheskikh linijj svjazi: Uchebnoe posobie. M.: MIREHA. 2012. 56 s.
4. Petrova N.JA., Gorobec A.I., Davletchin D.I., Derbashi I.I. Principy postroenija ehkspertnykh sistem dlja voltamperometricheskogo analiza razlichnykh obektov // Mezhvuzov. sbornik nauch. trudov «Voprosy povyshenija ehffektivnosti radioehlektronnykh sistem». M.: MIREHA. 2001. S. 143-149.
5. Gorobec A.I., Davletchin D.I., Salikhdzhanova R.M.-F. Superuniversalnyjj poljarograf PU-2 // Vestnik Tambovskogo gosudarstvennogo tekhnicheskogo universiteta. 1998. T. 4. № 2-3. S. 307-314.
6. Gorobec A.I., Davletchin D.I., Bykova L.N., Salikhdzhanova R.M.-F. Issledovanie uslovijj izmerenija analiticheskogo signala poljarografa PU-2 // ZHurnal analiticheskojj khimii. 2001. T. 56. № 5. S. 552-556.
7. Davletchin D.I., Petrova N.JA. Programmirovanie ciklicheskojj voltamperometrii // Sbornik trudov 52 Nauchno-tekhnich. konf. CH. 3. Tekhnicheskie nauki. M.: MIREHA. 2003. S. 65-67.
8. Petrova N.JA., Gorobec A.I., Davletchin D.I., Derbashi I.I. Modernizacija avtomatizirovannojj bazy voltamperometricheskikh metodik // Mezhvuzov. sbornik nauch. trudov «Voprosy povyshenija ehffektivnosti radioehlektronnykh sistem». M.: MIREHA. 2001. S. 149-153.
9. Davletchin D.I., Bykova L.N., Petrova N.JA. Informacionnaja baza dannykh dlja voltamerometrii // Sbornik nauch. trudov «Kompjuternyjj tekhnologii v obrazovatelnojj i nauchnojj dejatelnosti». M.: MGTU. 2001. S. 141-144.
10. Petrova N.JA., Gorobec A.I., Davletchin D.I., Derbashi I.I. Modernizacija avtomatizirovannojj bazy voltamperometricheskikh metodik // Mezhvuzov. sbornik nauch. trudov «Voprosy povyshenija ehffektivnosti radioehlektronnykh sistem». M.: MIREHA. 2001. S. 149-153.
11. Strakhov P.V., Bajjkov V.I., Rogozhin O.V., Davletchin D.I. Avtomatizirovannaja sistemy kontrolja i diagnostiki radioehlektronnojj apparatury // Mir izmerenijj. 2012. № 5(135). S. 3-9.
12. Strakhov P.V., Trushin A.JU., Davletchin D.I. Sovremennye avtomatizirovannye sredstva kontrolja i diagnostiki radioehlektronnojj apparatury // Sbornik trudov I-jj Mezhdunar. nauchno-praktich. konf. «Aktualnye problemy i perspektivy razvitija radiotekhnicheskikh i infokommunikacionnykh sistem». «RADIOINFOKOM-2013» (28-30 marta 2013 g.). M.: MGTU MIREHA. CH. 1. S. 47.
13. Davletchin D.I., Salikhdzhanova R.M.-F. Provedenie ocenki nadezhnykh kharakteristik ehlektronnojj komponentnojj bazy importnogo proizvodstva // Materialy VIII Vseross. konf. po ehlektrokhimicheskim metodam analiza «EHMA-2012». Ufa-Abzakovo. 3-9 ijunja 2012. S. 35.