Method and power distribution unit for preventing disjunctions

What is claimed is: 1. A method of preventing disjunctions in a power distribution unit (PDU) having an input connector and a plurality of output connectors, comprising: sensing a power level of each of the plurality of output connectors; detecting that the power level of a given one of the plurality of output connectors exceeds a fixed power limit; and in response to detecting that the power level of the given one of the plurality of output connectors exceeds a fixed power limit, stopping a delivery of power by the given one of the plurality of output connectors while maintaining a delivery of power by a remainder of the plurality of output connectors, wherein stopping the delivery of power by the given one of the plurality of output connectors comprises: generating a fault signal in response to detecting that the power level of the given one of the plurality of output connectors exceeds the fixed power limit, applying the fault signal on a first input of a latch to set the latch, the fault signal being maintained at an output of the latch until a rearm signal is received at a second input of the latch, applying a disabling signal on a relay to disconnect the given one of the plurality of output connectors from the input connector when the fault signal is maintained on the output of the latch, and releasing the disabling signal applied on the relay to reconnect the given one of the plurality of output connectors to the input connector when the fault signal is not maintained on the output of the latch. 2. The method of claim 1 , wherein sensing the power level of each of the plurality of output connectors comprises: sensing a power parameter for each of the plurality of output connectors, the power parameter being selected from a voltage, a current, an effective current, an instantaneous power, an instantaneous active power, an instantaneous reactive power, a phase angle of the voltage relative to the current, and a combination thereof; and calculating the power level for each of the plurality of output connectors based on the sensed power parameter for each of the plurality of output connectors. 3. The method of claim 1 , further comprising: receiving a user command to rearm the given one of the plurality of output connectors; forwarding the rearm signal to the second input of the latch for the given one of the plurality of output connectors in response to the user command to rearm the given one of the plurality of output connectors; and resuming the delivery of power by the given one of the plurality of output connectors in response to the rearm signal. 4. The method of claim 1 , further comprising providing a visual indication in proximity to the given one of the plurality of output connectors when stopping the delivery of power by the given one of the plurality of output connectors. 5. The method of claim 1 , further comprising transmitting from the PDU, over a power line, an indication of a power level of at least one of the plurality of output connectors. 6. The method of claim 5 , wherein the indication of the power level of the at least one of the plurality of output connectors is transmitted over the power line using a power line communication (PLC) protocol. 7. A power distribution unit (PDU), comprising: an input connector; a plurality of output connectors; and a plurality of circuits, each circuit being adapted to selectively connect the input connector to a corresponding one of the plurality of output connectors, each circuit comprising: a sensor adapted to sense a power level of the corresponding one of the plurality of output connectors, a detector operatively connected to the sensor, the detector being adapted to generate a fault signal when the power level exceeds a fixed power limit, a latch having a first input, a second input and an output, the latch being configured to be set when receiving the fault signal from the detector at the first input, and to maintain the fault signal on the output until a rearm signal is received at the second input, a logic combiner configured to issue a disabling signal when the fault signal is maintained on the output of the latch, and to release the disabling signal when the fault signal is not maintained on the output of the latch, and a relay configured to connect the input connector to the corresponding one of the plurality of output connectors when the disabling signal is not applied on the relay by the logic combiner and to disconnect the corresponding one of the plurality of output connectors from the input connector when the disabling signal is applied on the relay by the logic combiner. 8. The PDU of claim 7 , wherein the sensor for each of the plurality of output connectors is selected from a voltmeter, an ammeter, a power meter and a combination thereof. 9. The PDU of claim 7 , further comprising: a user interface; and a controller operatively connected to the user interface and to each of the plurality of circuits and adapted to individually provide the rearm signal to any one of the latches of the plurality of circuits when receiving a user command from the user interface. 10. The PDU of claim 9 , further comprising a modem operatively connected to the controller and to a power line for allowing the controller to communicate with other devices. 11. The PDU of claim 10 , wherein the modem is further adapted to use a power line communication (PLC) protocol over the power line. 12. The PDU of claim 10 , wherein the controller is further adapted to cause the modem to transmit an indication of the power level of at least one of the one or more channels over the power line.