High voltage and high current power outlet

What is claimed is: 1. A power distribution device including at least one power outlet, the at least one power outlet comprising: a housing; at least one receptacle within the housing, the at least one receptacle including an internal conductor configured to be coupled to a power source and to an external conductor inserted into the at least one receptacle; a switch within the housing, the switch configured to provide an indication of whether the external conductor has been inserted at least to a predetermined point within the at least one receptacle; a relay configured to be selectively coupled between the external conductor and the power source to form a first connection between the external conductor and the power source; a transistor configured to be coupled between the external conductor and the power source, in parallel with the relay, to form a second connection between the external conductor and the power source; and a controller coupled to the relay, the transistor, and the switch, wherein the controller is configured to: determine, based on the indication from the switch, that the external conductor is being removed from the at least one receptacle, in response to the determination that the external conductor is being removed from the at least one receptacle, control the relay to open and sever the first connection, in response to opening the relay, control the transistor to turn off after a predetermined transistor delay and sever the second connection, determine, based on the indication from the switch, that the external conductor is being inserted into the at least one receptacle; in response to the determination that the external conductor is being inserted into the at least one receptacle, control the transistor to turn on and provide power from the power source to the external conductor via the second connection; and in response to turning on the transistor, control the relay to close after a predetermined relay delay and provide power from the power source to the external conductor via the first connection. 2. The power distribution device of claim 1 , wherein the switch includes a mechanical switch having a first position that indicates to the controller that the external conductor has been inserted at least to the predetermined point within the at least one receptacle and a second position that indicates to the controller that the external conductor has not been inserted at least to the predetermined point within the at least one receptacle. 3. The power distribution device of claim 2 , wherein the mechanical switch is one of a ball switch and a plunger switch. 4. The power distribution device of claim 1 , wherein the switch includes an optocoupler pair including an optocoupler transmitter coupled to the housing and an optocoupler receiver located external the housing. 5. The power distribution device of claim 1 , wherein the relay is a mechanical relay including a coil coupled to the controller via a relay control line and a contact configured to be selectively coupled between the external conductor and the power source in the second connection, and wherein in response to turning on the transistor, the controller is configured to transmit, after the predetermined relay delay, a relay control signal to the coil via the relay control line that results in the contact being coupled between the external conductor and the power source in the first connection. 6. The power distribution device of claim 5 , wherein in response to the determination that the external conductor is being removed from the at least one receptacle the controller is further configured to end transmission of the relay control signal to the coil, resulting in the opening of the relay contact and the severing of the first connection. 7. The power distribution device of claim 1 , wherein the at least one power outlet further comprises a transistor control line coupled between the controller and a gate of the transistor, and wherein in response to opening the relay, the controller is configured to transmit, after the predetermined transistor delay, a first transistor control signal via the transistor control line to the gate of the transistor, the first transistor control signal operating the transistor to turn off and sever the second connection. 8. The power distribution device of claim 7 , wherein in response to the determination that the external conductor is being inserted into the at least one receptacle, the controller is further configured to transmit a second transistor control signal via the transistor control line to the gate of the transistor to turn on the transistor and provide power from the power source to the external conductor via the second connection. 9. The power distribution device of claim 1 , wherein the power distribution device is a power strip including a plurality of the at least one power outlets. 10. The power distribution device of claim 1 , wherein the power source is a DC power source. 11. A method for controlling a power outlet, the power outlet including a housing, at least one receptacle within the housing having an internal conductor configured to be coupled to a power source and to an external conductor inserted into the at least one receptacle, a switch within the housing, a relay configured to be selectively coupled between the external conductor and the power source, and a transistor configured to be coupled between the external conductor and the power source, in parallel with the relay, the method comprising: inserting the external conductor into the at least one receptacle to couple the external conductor to the internal conductor; providing, with the switch, an indication that the external conductor is being inserted into the at least one receptacle; in response to the indication by the switch that the external conductor is being inserted into the at least one receptacle, controlling the transistor to turn on and provide power from the power source to the external conductor via the transistor; in response to turning on the transistor, controlling, after a predetermined relay delay, the relay to close and provide power from the power source to the external conductor via the relay; removing the external conductor from the at least one conductor; providing, with the switch, an indication that the external conductor is being removed from the at least one receptacle; in response to an indication by the switch that the external conductor is being removed from the at least one receptacle, controlling the relay to open and sever connection from the power source to the external conductor via the relay; and in response to opening the relay, controlling, after a predetermined transistor delay, the transistor to turn off and sever connection from the power source to the external conductor via the transistor. 12. The method of claim 11 , wherein the switch includes a mechanical switch having a first state indicative of the external conductor being inserted into the at least one receptacle and a second state indicative of the external conductor being removed from the at least one receptacle, wherein inserting the external conductor into the at least one receptacle includes configuring the mechanical switch into the first state, and wherein removing the external conductor from the at least one receptacle includes configuring the mechanical switch into the second state. 13. The method of claim 11 , wherein the relay includes a coil coupled to the controller via a relay control line and a contact configured to be selectively coupled between the power source and the external conductor, and wherein controlling the relay to clos