An Electric Vehicle Carrying Electromagnet Automatic Charging Power Device
Issue:
Volume 1, Issue 1, September 2017
Pages:
10-15
Received:
31 March 2017
Accepted:
24 April 2017
Published:
20 May 2017
DOI:
10.11648/j.an.20170101.13
Downloads:
Views:
Abstract: This paper provides an electric automobile carrying electromagnet automatic charging power device, which includes charging cable with one end connecting gang socket, electromagnetic gear driving the connecting socket and a charging pile breaking or closing, and detecting part for detecting electric vehicle static call or start state. The gang socket mentioned above is linked to electromagnetic gear, and the detecting part is connected with charging management system containing the intelligent charging power module which controls the electromagnetic drive action to close socket with a charging pile at static state and to break at start state. Our work holds an electric automobile with convenience, safety low maintenance cost.
Abstract: This paper provides an electric automobile carrying electromagnet automatic charging power device, which includes charging cable with one end connecting gang socket, electromagnetic gear driving the connecting socket and a charging pile breaking or closing, and detecting part for detecting electric vehicle static call or start state. The gang socke...
Show More
Experimental Investigation on Humidity Sensing of Nanostructured Ferric Oxides
Richa Srivastava,
Satyendra Singh,
Nidhi Verma
Issue:
Volume 1, Issue 1, September 2017
Pages:
16-21
Received:
7 March 2017
Accepted:
20 April 2017
Published:
22 June 2017
DOI:
10.11648/j.an.20170101.14
Downloads:
Views:
Abstract: Nanostructured ferric oxides (A and B) were synthesized via chemical precipitation method using two different precipitating agents i.e. ammonium hydroxide and sodium hydroxide. X-ray diffraction proved the formation of ferric oxide. Crystallite sizes of the materials A and B were 40 and 18 nm respectively. Surface morphology of sample B reveals that it has more adsorption sites in comparison to A. Further the pellets and thick films of materials A and Bwere prepared and investigated with the exposition of humidity from 10%RH to 90 %RH. It was found that the thick film prepared with material B was most sensitive among all having maximum average sensitivity 8.12 MΩ/%RH. Good sensitivity, less hysteresis, and reproducibility identify that fabricated humidity sensor (B) is promising for the device application.
Abstract: Nanostructured ferric oxides (A and B) were synthesized via chemical precipitation method using two different precipitating agents i.e. ammonium hydroxide and sodium hydroxide. X-ray diffraction proved the formation of ferric oxide. Crystallite sizes of the materials A and B were 40 and 18 nm respectively. Surface morphology of sample B reveals tha...
Show More
