Capacitive pressure transducer

1. A capacitive pressure transducer comprising, in combination, a pair of essentially zero hysteresis nonconductive electrically insulative members, at least one of said electrically insulative members comprising an elastic diaphragm defining a substantially planar inner surface and having a continuous solid cross-section, the other of said electrically insulative members defining a substantially planar inner surface and having a substantially continuous solid cross-section, said electrically insulative members being disposed in vertically aligned, stacked relationship with marginal edge portions in overlying relationship and with said inner surfaces in spaced apart parallel relationship to define a gap, seal means comprising a fired glass frit having a thickness ranging from about 0.1 milinch to 20 milinch bonding said overlying edge portions together in sealed relationship having a predetermined spacing and fixing said electrically insulative members in a parallel relationship, said frit and insulative members being of substantially similar materials from the standpoint of coefficient of thermal expansion, a planar layer of conductive material secured on each of said inner surfaces, each of said layers of conductive material comprising a central conductive portion and a co-planar conductive path portion extending from said central portion for connection to external leads, said central conductive portions on said inner surfaces being disposed in vertically aligned, spaced apart parallel relationship to form a capacitor having a capacitance which varies according to the substantially transverse flexing of said elastic diaphragm toward the other member in response to pressure, with the gap being dimensioned between 0.1 milinches to 20 milinches and the diaphragm being constructed to enable said diaphragm to bottom out when a pressure in excess of a predetermined pressure is applied to the transducer so as to avoid damaging stress on said transducer.