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A battery clamp assembly connecting an electrical wire to a battery terminal includes a body having a clamp cavity and at least one connection socket for receiving the electrical wire, a clamp device positioned in the clamp cavity, a compression wedge positioned in the clamp cavity, and a fastening

A battery clamp assembly connecting an electrical wire to a battery terminal includes a body having a clamp cavity and at least one connection socket for receiving the electrical wire, a clamp device positioned in the clamp cavity, a compression wedge positioned in the clamp cavity, and a fastening member that engages the compression wedge to couple the clamp and the compression wedge to the body. A polarity marker may be plugged into a terminal aperture provided in an access cover to permit visual identification of the terminal connection. A method of completing an electrical circuit between a component and a power source may include coupling a battery clamp assembly to the power source, connecting the electrical wire to the battery clamp assembly by securing the electrical wire into the connection using the compression screw, and tightening the fastening member which engages the compression wedge to close the clamp. A post to be used for attachment of a jumper cable may be mounted to the battery clamp.

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1. A battery clamp assembly for connecting an electrical wire to a battery terminal, comprising: a body having a clamp cavity and at least one connection socket for receiving the electrical wire;a floating clamp positioned in the clamp cavity, wherein the floating clamp comprises a mounting post;an

1. A battery clamp assembly for connecting an electrical wire to a battery terminal, comprising: a body having a clamp cavity and at least one connection socket for receiving the electrical wire;a floating clamp positioned in the clamp cavity, wherein the floating clamp comprises a mounting post;an upper flange plate comprising a post mounting slot, wherein the post mounting slot seats the mounting post of the floating clamp to restrict the horizontal movement of the floating clamp;a compression wedge positioned in the clamp cavity; anda fastening member that engages the compression wedge to couple the floating clamp and the compression wedge to the body. 2. The battery clamp assembly of claim 1, wherein the body further comprises a clamp mount, the clamp mount extending into the clamp cavity and aligning with the floating clamp to form a clamping cylinder. 3. The battery clamp assembly of claim 1, wherein a vertical movement of the compression wedge translates into a horizontal movement of the floating clamp. 4. The battery clamp assembly of claim 1, further comprising an access cover having a terminal aperture, and wherein the body further comprises an upper surface, the access cover slidably mating to the upper surface of the body. 5. The battery clamp assembly of claim 4, wherein the upper surface further comprises left and right contoured shelves, the left and right contoured shelves protruding from the upper surface to form a keyed slot, and the access cover further comprises a keyed end, and wherein the keyed end of the access cover slidably seats in the keyed slot. 6. The battery clamp assembly of claim 5, wherein the upper surface further comprises a body fastening aperture and the access cover further comprises a cover fastening aperture, and wherein the body fastening aperture and the cover fastening aperture align when the keyed end of the access cover slidably seats in the keyed slot. 7. The battery clamp assembly of claim 4, further comprising a polarity marker, wherein the polarity marker slidably inserts into the terminal aperture. 8. The battery clamp assembly of claim 1, further comprising an insert slidably mounted into the at least one connection socket, wherein the insert reduces a size of the connection socket for receiving the electrical wire. 9. The battery clamp assembly of claim 1, further comprising a protective cover. 10. The battery clamp assembly of claim 4, further comprising a jump start attachment, wherein the jump start attachment connects directly to the battery terminal through the terminal aperture. 11. The battery clamp assembly of claim 1, further comprising a compression screw, wherein the compression screw extends through the body into the connection socket for securing the electrical wire to the battery clamp assembly. 12. The battery clamp assembly of claim 1, wherein the body further comprises a connection socket for coupling the electrical wire to the battery terminal. 13. The battery clamp assembly of claim 12, further comprising a compression screw, wherein the compression screw extends through the body into the connection socket for securing the electrical wire to the battery clamp assembly. 14. A method of completing an electrical circuit between a component and a power source, comprising: coupling a battery clamp assembly to the power source, wherein the battery clamp assembly includes: a body having a clamp cavity and at least one connection socket for receiving an electrical wire from the component;an access cover having a fastening aperture, wherein the access cover is coupled to the body of the battery clamp assembly by extending the fastening member through the access cover;a clamp positioned in the clamp cavity;a compression wedge positioned in the clamp cavity;a fastening member that engages the compression wedge to couple the clamp and the compression wedge to the body; anda compression screw extending through the body into the at least one connection socket;connecting the electrical wire to the battery clamp assembly by securing the electrical wire into the at least one connection socket using the compression screw; andtightening the fastening member which engages the compression wedge to close the clamp and provide a secure electrical connection between the battery clamp assembly and the power source. 15. The method of completing an electrical circuit between a component and a power source of claim 14, wherein a vertical movement of the compression wedge translates into a horizontal movement of the clamp. 16. The method of completing an electrical circuit between a component and a power source of claim 14, further comprising the step of sliding an insert into the at least one connection socket, wherein the insert reduces a size of the connection socket for receiving the electrical wire. 17. A method of completing an electrical circuit between a power source and a battery terminal, comprising the steps of: coupling a battery clamp assembly to the battery terminal, wherein the battery clamp assembly comprises an access cover comprising a fastening aperture;mounting an attachment device to the battery clamp assembly, wherein the access cover is coupled to the body of the battery clamp assembly by extending the attachment device through the access cover, wherein the battery terminal is in direct contact with the attachment device; andelectrically connecting the power source to the battery terminal through the attachment device.