| Patent Number |
Title Of Patent |
Date Issued |
| 4422233 |
Method for producing high temperature electrical connection |
December 27, 1983 |
| Improved lead attachment method accommodates a situation wherein electrical signal leads must be connected to portions of a circuit operating at high temperatures such as 900.degree. F. or more and terminate in equipment operating at or near ambient temperatures. For example, in solid |
| 4378279 |
High temperature electrical connection and method of producing same |
March 29, 1983 |
| Improved lead attachment method accommodates a situation wherein electrical signal leads must be connected to portions of a circuit operating at high temperatures such as 900.degree. F. or more and terminate in equipment operating at or near ambient temperatures. For example, in solid |
| 4334940 |
Method of making solid electrolyte oxygen sensor with integral heater |
June 15, 1982 |
| Solid electrolyte oxygen sensor incorporates a sealed integral heater which is positioned internally of the tubular wall of the ceramic sensor body in the region radially adjacent the disc shaped solid electrolyte which is mounted transverse to the axis of the body. A plurality of small |
| 4251342 |
Solid electrolyte oxygen sensor with integral heater |
February 17, 1981 |
| Solid electrolyte oxygen sensor incorporates a sealed integral heater which is positioned internally of the tubular wall of the ceramic sensor body in the region radially adjacent the disc shaped solid electrolyte which is mounted transverse to the axis of the body. A plurality of small |
| 4229275 |
Solid electrolyte oxygen sensor and method of making same |
October 21, 1980 |
| Oxygen sensor with a disc type solid electrolyte has the disc sealed in a shrinkable ceramic tube by the pressure which is developed and the surface glazing which takes place as the tube is fired. The tube is preferably formed of forsterite which can shrink about 25% during firing, thus |
