We have investigated the effects of hole doping in the Y-Ba-Cu-O syste
m by substituting calcium(II) in the Y(III)-site. We have analysed the
resistivity, paraconductivity, interlayer coupling strength (J) as a
function of dopant concentration. T-c and J are found to decrease with
increasing calcium content. We have also studied surface binding ener
gies of various components in a Ca doped sample through secondary ion
mass spectrometry (SIMS). The binding energy of CuO in a CuO2 sheet do
es not increase as compared to that in undoped YBCO, indicating that t
he extra hole doped in the Y site does not bring positive charge to th
e conducting CuO2 layer. Doping of calcium perhaps destroys the orderi
ng of oxygen in the Cu-O-Cu chain, which affects superconductivity.