Variation in the trend of electron flux graph in the ionosphere on the global map is common with respect to proton
flux variation in inverse manner seen on diurnal basis. Continuous observation connected with the NOAA , IPS and
SOHO satellite respectively of USA, Australia ,Japan and India have revealed the facts remarkably peculiar and
interesting trend other than usual graph of Electron flux and solar x-ray decrease in peak level immediate prior a
seismic event. An observation recorded in juxtaposition the trend of correlation establishes this fact. This typify the
events like Iran 14th April, China 17th April 2013, with 7.8 and 7.3 MW, New Zealand 6.8 MW on 16th August 2013,
Pakistan 7.8 Mw and 6.8 Mw respectively on25th September, and 26th September’2013 are the supportive
illustrations to the concluding concepts. The trend is also observed during the solar coronal mass ejection event.
Events occur deceptively quite similar to the pre seismicity. Its diagnostic distinction can be made with the solar
data available by SWPC (Australia) forecasting for solar prominences data prediction and forecasting tool. Most of
the seismic phenomena are the diagnostic preseismic phenomena as the electron flux anomaly mechanism and
principle clarify on the basis of fundamental laws of electrostatics and Maxwell equation of electromagnetic wave
theory. This may prove a precursory tool in the seismic event forecasting and prediction technique.
Since the dawn of precursory revolution in the seismology and electromagnetic radiation platform., F.T. Freund (2010) et.al, have used piezoelectric effect on the crustal geo-materials and emanation of seismic pre signals frequently. Their effect in form of ULF and VHF are commonly detected (by Greece and American seismologists)in the upper ionosphere from surface of globe. TEC, OLR. MMC are the consequent instrumentation in acquiring data to these pre-earthquake signals. Our attempt is to detect the signals prior to earthquake due to impending stress in the area and store the spreading destructive energy to electrical voltage applying the mathematics of piezoelectric equations and algebra. Energy released during seismic eruption is in the range of 10 13 to 1018 Joule for each event of 6 to 8 Mw. Spread and propagation of energy follows the Maxwell theory of wave equation and fundamental law of electricity and electromagnetism. Stress accumulated within the crustal block is triggered into bringing about geophysical and geochemical changes within the reservoir rocks interacting stress. Study made by pioneers in the seismic precursory development states generation of charge and coronal discharge prior seismicity within the rocks under stress. This is consequence to admixing of positive charge developed at unstressed volume and negative at stressed sub volume of rocks1 [F.T.Freidemann2010]. Ionosphere proturbance in form of ULF, ELF, ELS and EQL, EQS are the projected consequence of electromagnetic wave propagation 2 [10,11,15 ] Harnessing of electrical components from the energy propagated due to stress inducing EM waves is the aim of paper. Electrical discharge prior to seismicity within geo-materials is established phenomena which can be calibrated with the piezoelectric sensors application implanted for detection and harnessing the signals. These prior signals induced in form of electromagnetic response are felicitated into being converted into electrical energy with the suitable circuit diagram of capacitors, condensers and diodes in the piezoelectric mesh of sensors implication implanted within the ground of seismic prone area.