This disclosure relates to electrical connectors and, more particularly, to electrical connectors for use with high-voltage signals.
Electrical connections between subassemblies may be achieved using standard electrical connectors, such as a molded housing that includes male/female connectors that are configured to mate with corresponding female/male connector. In such an interconnection scheme, a printed circuit assembly (PCA) may be populated with connectors that are configured to mate with a connector assembly on a cable.
The above-described high-voltage type of interconnections system has performance/cost limitations when used with Automatic Testing Equipment (ATE), as such connections tend to be bulky and expensive.
In one implementation, a high voltage connector assembly includes a plurality of pin assemblies, each of the plurality of pin assemblies having a first end and a second end. The first end of each of the plurality of pin assemblies is configured to releasably electrically engage a load board. A plurality of pin pads, wherein the second end of each of the plurality of pin assemblies is configured to electrically engage a pin pad included within the plurality of pin pads. A plurality of connector pads are electrically coupled to the plurality of pin pads, wherein each of the plurality of connector pads is configured to be electrically coupled to a wire-based conductor included within a plurality of wire-based conductors. A potting compound is configured to encapsulate the plurality of connector pads.
One or more of the following features may be included. The load board may be configured to releasable engage one or more devices under test (DUTs). The pin assemblies may be pogo pin assemblies. The plurality of pin pads and the plurality of connector pads may be included on a connector circuit board. The plurality of pin pads and the plurality of connector pads may be positioned on opposite sides of the connector circuit board. The wire-based conductor may be soldered to a connector pad included within the plurality of connector pads. The plurality of wire-based conductors may be included within a multi-conductor cable assembly. A pin alignment structure may be configured to position the plurality of pin assemblies with respect to each other.
In another implementation, a high voltage connector assembly includes a plurality of pogo pin assemblies, each of the plurality of pin assemblies having a first end and a second end. The first end of each of the plurality of pin assemblies is configured to releasably electrically engage a load board that is configured to releasable engage one or more devices under test (DUTs). A plurality of pin pads, wherein the second end of each of the plurality of pin assemblies is configured to electrically engage a pin pad included within the plurality of pin pads. A plurality of connector pads are electrically coupled to the plurality of pin pads. Each of the plurality of connector pads is configured to be electrically coupled to a wire-based conductor included within a plurality of wire-based conductors. A potting compound is configured to encapsulate the plurality of connector pads.
One or more of the following features may be included. The plurality of pin pads and the plurality of connector pads may be included on a connector circuit board. The plurality of pin pads and the plurality of connector pads may be positioned on opposite sides of the connector circuit board. The wire-based conductor may be soldered to a connector pad included within the plurality of connector pads. The plurality of wire-based conductors may be included within a multi-conductor cable assembly. A pin alignment structure may be configured to position the plurality of pin assemblies with respect to each other.
In another implementation, a high voltage cable assembly includes a multi-conductor cable assembly, a PCB connector assembly coupled to a first end of the multi-conductor cable assembly, and a high voltage connector assembly coupled to a second end of the multi-conductor cable assembly. The high voltage connector assembly includes a plurality of pin assemblies, each of the plurality of pin assemblies having a first end and a second end. The first end of each of the plurality of pin assemblies is configured to releasably electrically engage a load board. A plurality of pin pads, wherein the second end of each of the plurality of pin assemblies is configured to electrically engage a pin pad included within the plurality of pin pads. A plurality of connector pads are electrically coupled to the plurality of pin pads, wherein each of the plurality of connector pads is configured to be electrically coupled to a wire-based conductor included within the multi-conductor cable assembly. A potting compound is configured to encapsulate the plurality of connector pads.
One or more of the following features may be included. The load board may be configured to releasable engage one or more devices under test (DUTs). The pin assemblies may be pogo pin assemblies. The plurality of pin pads and the plurality of connector pads may be included on a connector circuit board. The plurality of pin pads and the plurality of connector pads may be positioned on opposite sides of the connector circuit board. The wire-based conductor may be soldered to a connector pad included within the plurality of connector pads. A pin alignment structure may be configured to position the plurality of pin assemblies with respect to each other.
The details of one or more implementations are set forth in the accompanying drawings and the description below. Other features and advantages will become apparent from the description, the drawings, and the claims.
Like reference symbols in the various drawings indicate like elements.
Referring to
Referring also to
Each of the plurality of pin assemblies 26 (e.g., pin assembly 28) may include first end 30 and second end 32. Pin assembly 28 may also include spring-loaded cylinder 34, which may bias first end 30 and second end 32 away from each other. When compressed between two electrical circuits (circuits 36, 38), first end 30 and second end 32 at each end of pin assembly 28 may establish (e.g., temporary) electrical connections with these two electrical circuits (circuits 36, 38 respectively), thereby temporarily electrically coupling circuits 36, 38.
High voltage connector assembly 18 may include pin alignment structure 40, which may be configured to position plurality of pin assemblies 26 with respect to each other. For example and as shown in
The first end (e.g., first end 30) of each of plurality of pin assemblies 26 may be configured to releasably electrically engage load board 44. Load board 44 may be a printed circuit board and may be configured to releasable engage one or more devices under test (DUTs), such as DUTs 46, 48, 50, 52.
Referring also to
Pin alignment structure 40 may be configured so that plurality of pin assemblies 26 positioned within pin alignment structure 40 are properly spaced to ensure that e.g., plurality of pin pads 56 are positioned in such a manner to avoid any arcing/shorting or similar undesirable conditions during use of high voltage connector assembly 18.
Each of plurality of connector pads 58 may be configured to be electrically coupled to a wire-based conductor (e.g., wire 62) included within plurality of wire-based conductors 64 (e.g., which may be included within multi-conductor cable assembly 12). The wire-based conductor (e.g., wire 62) may be soldered to a connector pad included within plurality of connector pads 58. Accordingly and as shown in
As discussed above, high voltage cable assembly 10 may be configured to connect automated testing equipment 22 to components 24 that are being tested, and may transmit high voltage signals therebetween. Accordingly, as the distance between adjacent connector pads decreases, the likelihood of signals arcing between adjacent connector pads increases. Accordingly, high voltage connector assembly 18 may include potting compound 66 that may be configured to encapsulate plurality of connector pads 58 (and possibly a portion of plurality of wire-based conductors 64), thus isolating/insulting adjacent connector pads from each other and reducing the likelihood of arcing therebetween.
One or more alignment pins (e.g., alignment pins 68, 70) may be utilized to align load board 44 and high voltage connector assembly 18. For example, alignment pins 68, 70 may be tapered alignment pins that are sized to fit within passages in load board 44, thus ensuring proper electrical connectivity with plurality of pin assemblies 26.
A number of implementations have been described. Having thus described the disclosure of the present application in detail and by reference to embodiments thereof, it will be apparent that modifications and variations are possible without departing from the scope of the disclosure defined in the appended claims.
Number | Name | Date | Kind |
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20020098728 | Kedrowski | Jul 2002 | A1 |
Number | Date | Country | |
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20140203833 A1 | Jul 2014 | US |