Dynamic motor current phase unbalance protection

The invention claimed is: 1. An apparatus, comprising: a plurality of current transformers associated with an overload relay, connecting with corresponding phases of a three-phase power system providing power to a three-phase motor, each current transformer providing a value representative of current measurement input updates of current flow it senses through each corresponding phase of the three-phase power system; at least one processor associated with the overload relay, coupled to the plurality of current transformers; at least one memory associated with the overload relay, including computer program code, wherein the computer program code, when executed by operation of the at least one processor, performs an operation comprising: receiving values representative of current measurement input updates of current flow sensed by the current transformers corresponding to phases of the three-phase power system providing power to the three phase induction motor; computing an updated average current of the received current measurement input updates; adjusting a threshold for a detected current phase unbalance at which the overload relay will be tripped, as a function of a ratio of the updated average current to motor full load current, based on a cross-over point of average current to motor full load current and a slope of a heating model curve of percent current phase unbalance vs. a ratio of average current to motor full load current; increasing the adjusted threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current decreases; and decreasing the adjusted threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current increases. 2. The apparatus of claim 1 , wherein the computer program code, when executed by operation of the at least one processor, performs an operation further comprising: comparing the current phase unbalance threshold adjustment with current phase unbalance for the three-phase induction motor to determine a current phase unbalance fault. 3. A method, comprising: receiving, by an overload relay, values representative of current measurement input updates of current flow corresponding to phases of a three-phase power system providing power to a three phase induction motor; computing, by the overload relay, an updated average current of the current measurement input updates; adjusting, by the overload relay, a threshold for a detected current phase unbalance at which the overload relay will be tripped, as a function of a ratio of the updated average current to motor full load current, based on a cross-over point of average current to motor full load current and a slope of a heating model curve of percent current phase unbalance vs. a ratio of average current to motor full load current; increasing, by the overload relay, the adjusted threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current decreases; and decreasing, by the overload relay, the adjusted threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current increases. 4. The method of claim 3 , further comprising: comparing, by the overload relay, the current phase unbalance threshold adjustment with current phase unbalance for the three-phase induction motor to determine a current phase unbalance fault. 5. A method, comprising: modeling, by an overload relay, an effect of percent current phase unbalance on a thermal overload trip curve of trip time vs. a ratio of average current to motor full load current, using a conventional fixed threshold setting for a three-phase induction motor of a fixed percent current phase unbalance; determining, by the overload relay, a cross-over point of a ratio of average current to motor full load current, of the modeled thermal overload trip curve of the motor with trip time at the fixed percent current phase unbalance; calculating, by the overload relay, a slope of a heating model curve of percent current phase unbalance vs. the ratio of average current to motor full load current of the motor, at the cross-over point of average current to motor full load current; storing, by the overload relay, the cross-over point of average current to motor full load current and the slope of the heating model curve of percent current phase unbalance vs. the ratio of average current to motor full load current, at the cross-over point of average current to motor full load current; receiving, by the overload relay, values representative of current measurement input updates of current flow corresponding to phases of a three-phase power system providing power to the motor; computing, by the overload relay, an updated average current of the current measurement input updates; adjusting, by the overload relay, a threshold for a detected current phase unbalance at which the overload relay will be tripped, as a function of a ratio of the updated average current to motor full load current, based on the cross-over point of average current to motor full load current and the slope of the heating model curve of percent current phase unbalance vs. the ratio of average current to motor full load current; increasing, by the overload relay, the adjusted threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current decreases; and decreasing, by the overload relay, the adjusted threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current increases. 6. The method of claim 5 , comprising: calculating, by the overload relay, a slope of a heating model curve of change in trip time vs. the ratio of average current to motor full load current, at the cross-over point of average current to motor full load current; storing, by the overload relay, the cross-over point of average current to motor full load current and the slope of the heating model curve of change in trip time vs. the ratio of average current to motor full load current, at the cross-over point of average current to motor full load current; receiving, by the overload relay, values representative of current measurement input updates of current flow corresponding to phases of the three-phase power system providing power to the motor; computing, by the overload relay, an updated average current of the current measurement input updates; adjusting, by the overload relay, a current unbalance trip time threshold for a detected current phase unbalance at which the relay will be tripped, as a function of a ratio of the updated average current to motor full load current, based on the cross-over point of average current to motor full load current and the slope of the heating model curve of change in trip time vs. the ratio of average current to motor full load current; increasing, by the overload relay, the adjusted current unbalance trip time threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current decreases; and decreasing, by the overload relay, the adjusted current unbalance trip time threshold for a detected current phase unbalance at which the relay will be tripped, when the ratio of the updated average current to motor full load current increases. 7. A method, comprising: modeling, by an overload relay, an effect of percent current phase unbalance on a therma