Methods, systems, and apparatuses are described for transferring power. A power transfer device may be configured to securely fit in a fuse block, fuse holder, and/or the like. The power transfer device may transfer power from a source to a load connected to the fuse block, fuse holder, and/or the like, while also isolating the power to prevent the power from backfeeding to the source. The power transfer device may be used to perform testing, measurements, and/or analysis (e.g., voltage measurements, power measurements, frequency analysis, system impedance testing, etc.).

[THIS SECTION WILL BE COMPLETED AFTER INVENTOR REVIEW AND WILL BE BASED ON THE INDEPENDENT CLAIMS]

A high voltage fuse adapter system and method. A fuse adapter system includes an indicator-end adapter configured to circumferentially enclose an indicator-end terminal of a high voltage IEC rated fuse, including a hollow portion having an inner diameter that surrounds the indicator-end terminal, the hollow portion including at least one axially extending slot compressible around the indicator-end terminal, and an indicator portion, a piston and needle enclosed within the indicator portion, the piston and needle coupled to a striker of the high voltage IEC-rated fuse such that upon extension of the striker, the piston at least partially actuates the needle outside of the indicator-end adapter, a non-indicator-end adapter configured to circumferentially enclose a non-indicator-end terminal of the high voltage fuse, and a pair of end caps enclosing the indicator-end adapter and the non-indicator end adapter to form an adapted fuse configured to fit in an UL-style fuse mounting.

A fuse housing assembly and a fuse kit are provided. The fuse housing assembly and the fuse kit are configured to allow for fuses having terminals of different sizes to be mounted onto a circuit board. The fuse housing assembly and the fuse kit include a spacer configured to protect the exposed portions of the fuse terminals from the environment and prevent the proximal ends of the fuse terminals from breaking the fuse elements. Further, the spacer retains the fuse body of the respective fuses and the fuse terminals in a fixed position relative to each other so as to prevent the fuse terminals from being bent.

Apparatus for enabling distribution of electric power, fusing, and/or ground connection in electrical systems is provided. The apparatus may include an extensible, interlocking, modular block of multiple-use modules. Each module may be configured to include a fuse or a link bar mounted within it. Each module may accept multiple sizes and types of fuses. Each module may be configured to include an external link bar for providing an electrical connection to at least one other module. Apparatus may enable distribution of electrical power, fused power, and/or ground connection from a power source to a plurality of electrical components while organizing and minimizing wired connections.

A fuse block assembly includes a nonconductive base formed with pedestal surfaces attachable to terminals from a location above the base, while providing a clearance between the body of a fuse and the middle portion of the base when a fuse is installed.

A modular housing assembly for an electrical connector connectable to a plug fuse includes a surrounding housing and an inner housing that receives a contact element plugged to the plug fuse and has an insertion opening through which one of the fuse contacts of the plug fuse can be plugged. The surrounding housing includes a module chamber receiving the inner housing and an access opening leading into the module chamber that passes through a housing wall and is sized to receive the fuse body of the plug fuse along the material thickness of the housing wall. The fuse contact coming from outside can better reach the internally disposed contact element. An electrical connector is provided with such a housing assembly and a contact element.

A circuit breaker for protecting an electric circuit contains a housing and an adapter having a receiving connector. The circuit breaker has two electrically conductive, substantially cylinder-shaped connection points which are positioned along an axis. Either the outer diameter of the connection points is between 5.0 mm and 5.3 mm and the maximum distance between the connection points is between 19.0 mm and 21.0 mm, or the outer diameter of the connection points is between 6.2 mm and 6.5 mm and the maximum distance between the connection points is between 30.5 mm and 33.0 mm.

A fuse holder comprises first and second body halves. The first body half includes a wall having a fuse cavity, a first channel extending from a first end of the fuse cavity of the first body half, and a second channel extending from a second end of the fuse cavity of the first body half. The second body half includes a wall having a fuse cavity, a third channel extending from a first end of the fuse cavity of the second body half, and a fourth channel extending from a second end of the fuse cavity of the second body half. The first channel and the third channel mate together and form a first fuse lead guide path, and the second channel and the fourth channel mate together and form a second fuse lead guide path.

A fuse holder comprises body halves. A first body half comprises a wall having a fuse cavity formed therein, a first channel formed therein and extending from a first end of the fuse cavity of the first body half, and a second channel formed therein and extending from a second end of the fuse cavity of the first body half. A second body half comprises a wall having a fuse cavity formed therein, a third channel formed therein and extending from a first end of the fuse cavity of the second body half, and a fourth channel formed therein and extending from a second end of the fuse cavity of the second body half. The first channel and the third channel mate together and form a first fuse lead guide path, and the second channel and the fourth channel mate together and form a second fuse lead guide path.