A contact probe may include a Ni pipe that may include a coiled spring structure, and the Ni pipe 11 may contain 0.5 to 10 wt % of phosphorus (P). The contact probe may have improved durability, by reducing shrinkage, after probing performed in a high temperature environment.

An object is to provide an alignment chip for forming an alignment symbol on a wiring board of a probe card. Provided are: a substrate 51 having a pasting surface to be pasted to a probe installation surface 17 of a wiring board 14 constituting a probe card 10 via an adhesive 54; and an alignment symbol 501 made of a metal film 52 formed on a symbol surface on a side opposite to the pasting surface of the substrate 51. The symbol surface includes a symbol peripheral region 502 surrounding the alignment symbol 501, and the symbol peripheral region 502 has a lower reflectance than the alignment symbol 501.

An object is to provide an alignment chip for forming an alignment symbol on a wiring board of a probe card. Provided are: a substrate 51 having a pasting surface to be pasted to a probe installation surface 17 of a wiring board 14 constituting a probe card 10 via an adhesive 54; and an alignment symbol 501 made of a metal film 52 formed on a symbol surface on a side opposite to the pasting surface of the substrate 51. The symbol surface includes a symbol peripheral region 502 surrounding the alignment symbol 501, and the symbol peripheral region 502 has a lower reflectance than the alignment symbol 501.

Probes for contacting electronic components include compliant modules stacked in a serial configuration, which are supported by a sheath, exoskeleton, or endoskeleton which allows for linear longitudinal compression of probe ends toward one another wherein the compliant elements within the compliant modules include planar springs (when unbiased). Alternatively, probes may be formed from single modules or back-to-back modules that may share a common base/standoff. Modules may allow for lateral and/or longitudinal alignment relative to array structures or other modules. Planar springs may be spirals, interlaced spirals having common or offset longitudinal levels, with similar or different rotational orientations that are functionally joined. Compression of probe tips toward one another may cause portions of spring elements to move closer together or further apart.

Probes for contacting electronic components include compliant modules stacked in a serial configuration, which are supported by a sheath, exoskeleton, or endoskeleton which allows for linear longitudinal compression of probe ends toward one another wherein the compliant elements within the compliant modules include planar springs (when unbiased). Alternatively, probes may be formed from single modules or back-to-back modules that may share a common base/standoff. Modules may allow for lateral and/or longitudinal alignment relative to array structures or other modules. Planar springs may be spirals, interlaced spirals having common or offset longitudinal levels, with similar or different rotational orientations that are functionally joined. Compression of probe tips toward one another may cause portions of spring elements to move closer together or further apart.

Probe structures, arrays, methods of using probes and arrays, and/or methods for making probes and/or arrays wherein the probes include at least one flat tensional spring segments and in some embodiments include narrowed channel passage segments (e.g. by increasing width of plunger elements or by decreasing channel widths) along portions of channel lengths (e.g. not entire channel lengths) to enhance stability or pointing accuracy while still allowing for assembled formation of movable probe elements.

Probe structures, arrays, methods of using probes and arrays, and/or methods for making probes and/or arrays wherein the probes include at least one flat tensional spring segments and in some embodiments include narrowed channel passage segments (e.g. by increasing width of plunger elements or by decreasing channel widths) along portions of channel lengths (e.g. not entire channel lengths) to enhance stability or pointing accuracy while still allowing for assembled formation of movable probe elements.

Vertical probes, formed of at least one layer that longitudinally includes a first and a second end and a central portion, with the central portion including at least three compliant arms wherein each of the two outer arms include a material having a yield strength greater than a first amount and the at least one intermediate arm is formed of a material having a yield strength less than the first yield strength amount wherein a yield strength of the material of the intermediate arm has a ratio to that of an outer arm of less than 1, more preferably less than 0.8, even more preferably less than 0.6, and most preferably less than 0.4.

Probes for contacting electronic components include a plurality of compliant modules stacked in a serial configuration, which are supported by an exoskeleton or an endoskeleton which allows for linear longitudinal compression of probe ends toward one another wherein the compliant elements within the compliant modules include planar springs (when unbiased). Other probes are formed from single compliant modules or pairs of back-to-back modules that may share a common base. Module bases may include configurations that allow for one or both lateral alignment and longitudinal alignment of probes relative to array structures (e.g., array substrates, guide plates) or other modules they contact or to which they adhere.

Probes for contacting electronic components include a plurality of compliant modules stacked in a serial configuration, which are supported by an exoskeleton or an endoskeleton which allows for linear longitudinal compression of probe ends toward one another wherein the compliant elements within the compliant modules include planar springs (when unbiased). Other probes are formed from single compliant modules or pairs of back-to-back modules that may share a common base. Module bases may include configurations that allow for one or both lateral alignment and longitudinal alignment of probes relative to array structures (e.g., array substrates, guide plates) or other modules they contact or to which they adhere.