Provided according to embodiments of the invention are varistor ceramic formulations that include zinc oxide (ZnO). In particular, varistor ceramic formulations of the invention may include dopants including an alkali metal compound, an alkaline earth compound, an oxide of boron, an oxide of aluminum, or a combination thereof. Varistor ceramic formulations may also include other metal oxides. Also provided according to embodiments of the invention are varistor ceramic materials formed by sintering a varistor ceramic formulation according to an embodiment of the invention. Further provided are varistors formed from such ceramic materials and methods of making such materials.

A method of fabricating resistors in igniter is provided. The method includes punching an alloy material to obtain a plurality of alloy components. The alloy components are disposed on a substrate, and electrodes are disposed on the substrate. Resistors in igniter are obtained by disposing electrodes on the substrate such that two electrically connecting regions of each alloy component are physically contacting and electrically connecting to the electrodes, respectively. The resulting resistors in igniter have uniform size and stable shape hence showing great ignition performance.

An apparatus for treating a substrate is provided. The apparatus includes: a support member provided in a process chamber and configured to support the substrate; and a heater heating element provided in the support member and configured to heat the substrate, wherein at least a part of the heater heating element comprises a first region to which a laser trimming process is applied, at least another part of the heater heating element comprises a second region on which a resistance adjusting material layer is implemented by an electrolytic plating process, and the amount of heat generated in the first region that is at least a part of the heater heating element is increased by performing the laser trimming process and the amount of heat generated in the second region that is at least another part of the heater heating element is decreased by forming the resistance adjusting material layer.

Electrically resistive devices, such as voltage dividers, and methods of making the same are disclosed. An illustrative voltage divider may include a substrate having an axis, an electrically resistive path applied to the substrate, and at least one terminal positioned around the substrate and in contact with the electrically resistive path. The electrically resistive path may include a primary resistor and a secondary resistor, with the primary resistor having a higher electrical resistance than the secondary resistor. An adjustable displacement of the at least one terminal along the axis of the substrate may allow adjustment of at least one electrical resistance associated with the at least one terminal. An adjustable tightness of the at least one terminal around the substrate may allow adjustment of the at least one electrical resistance associated with the at least one terminal.

The present invention relates to a polymer voltage-dependent resistor (PVDR) in various physical forms and methods for manufacturing the varistor. The body of the PVDR is composed of a polymer matrix having a filler composed of doped zinc oxide particles, other semi conductive particles or metal particles uniformly distributed therein. Conductive electrodes may be affixed to the polymer matrix and electrical leads attached to the electrodes.

A polymeric positive temperature coefficient (PPTC) tank heater features a first conductive region, a heater body, and a second conductive region, forming a sandwich. The first conductive region includes a first conductive surface connected to a first lead and a second conductive surface connected to a second lead. The heater body is a PPTC polymer matrix including a conductive filler and a semi-crystalline polymer. The sandwich includes multiple heating elements connected in series and each heating element supplies a different resistance.

A lead-free glass paste, a chip resistor and a method for producing the same are provided. The lead-free glass paste includes 6-7 parts by mass of borosilicate oil, 12-21 parts by mass of aluminum oxide powder, 2-3 parts by mass of glass fiber powder, and 0.1-0.5 parts by mass of a curing agent.

A lead-free glass paste, a chip resistor and a method for producing the same are provided. The lead-free glass paste includes 6-7 parts by mass of borosilicate oil, 12-21 parts by mass of aluminum oxide powder, 2-3 parts by mass of glass fiber powder, and 0.1-0.5 parts by mass of a curing agent.

The present invention relates to a polymer voltage-dependent resistor (PVDR) in various physical forms and methods for manufacturing the varistor. The body of the PVDR is composed of a polymer matrix having a filler composed of doped zinc oxide particles, other semi conductive particles or metal particles uniformly distributed therein. Conductive electrodes may be affixed to the polymer matrix and electrical leads attached to the electrodes.

A novel heater is disclosed for a temperature sensitive actuator. The heater is a polymeric positive temperature coefficient (PPTC) device consisting of conductive filler and semi-crystalline polymer. The PPTC heater is strategically designed to have a predetermined self-regulation temperature suited to whatever application utilizes the heater. Physical characteristics of the PPTC heater, such as gap width and thickness, enable the current flow through the heater to be strategically controlled.