Fast fault detector

What is claimed is: 1. A method for estimating current in a power system, the method comprising: providing a pickup level that defines a current threshold for opening a switch in response to overcurrent; and estimating current in the power system from current measurement signals, wherein estimating the current is performed using a sliding observation window that is shorter than one cycle, wherein estimating current in the power system includes using observation windows that are about one-quarter of a current cycle. 2. The method according to claim 1 further comprising: accumulating time from a reset zero position during the time that the estimation of the current is greater than the pickup level; subtracting time from the accumulated time during the time that the estimation of the current is less than the pickup level after time has been accumulated from when the estimation of the current is greater than the pickup level; detecting the overcurrent if the accumulated time reaches a predetermined accumulation time; and opening the switch if the overcurrent is detected. 3. The method according to claim 2 wherein subtracting time from the accumulated time includes stopping subtracting time if the accumulated time reaches the reset zero position. 4. The method according to claim 2 further comprising providing a no-delay threshold that defines a current threshold above the pickup level, wherein detecting the overcurrent includes immediately detecting the overcurrent if the estimated current goes above the no-delay threshold. 5. The method according to claim 4 wherein the no-delay threshold is in the range of 1%-100% greater than the pickup level. 6. The method according to claim 1 wherein the switch is part of a recloser. 7. The method according to claim 6 wherein the recloser employs pulse closing technologies. 8. The method according to claim 1 wherein estimating current in the power system includes using the time derivative of the current. 9. The method according to claim 1 wherein estimating current in the power system includes modeling the current as: {tilde over (x)} ( k )= A cos(2π Fk )+ B sin(2π Fk ), where {tilde over (k)}(k) is the current waveform, F is the ratio of system frequency and sampling frequency, k is sample time, and A and B are unknown amplitudes. 10. A method for estimating current in a power system, the method comprising: providing a pickup level that defines a current threshold for opening a switch in response to the overcurrent; estimating current in the power system from current measurement signals; accumulating time from a reset zero position during the time that the estimation of the current is greater than the pickup level; subtracting time from the accumulated time during the time that the estimation of the current is less than the pickup level after time has been accumulated from when the estimation of the current is greater than the pickup level; detecting the overcurrent if the accumulated time reaches a predetermined accumulation time; and opening the switch if the overcurrent is detected, wherein estimating current in the power system includes using a sliding observation window that is shorter than one cycle. 11. The method according to claim 10 wherein subtracting time from the accumulated time includes stopping subtracting time if the accumulated time reaches the reset zero position. 12. The method according to claim 10 further comprising providing a no-delay threshold that defines a current threshold above the pickup level, wherein detecting the overcurrent includes immediately detecting the overcurrent if the estimated current goes above the no-delay threshold. 13. The method according to claim 12 wherein the no-delay threshold is in the range of 1%-100% greater than the pickup level. 14. A system for protecting a power system from overcurrent, the system comprising: means for providing a pickup level that defines a current threshold for opening a switch in response to the overcurrent; and means for estimating current in the power system from current measurement signals, wherein the means for estimating the current uses a sliding observation window that is shorter than one cycle, wherein the means for estimating current in the power system uses observation windows that are about one-quarter of a current cycle. 15. The system according to claim 14 further comprising: means for accumulating time from a reset zero position during the time that the estimation of the current is greater than the pickup level; means for subtracting time from the accumulated time during the time that the estimation of the current is less than the pickup level after time has been accumulated from when the estimation of the current is greater than the pickup level; means for detecting the overcurrent if the accumulated time reaches a predetermined accumulation time; and means for opening the switch if the overcurrent is detected. 16. The system according to claim 15 wherein the means for subtracting time from the accumulated time stops subtracting time if the accumulated time reaches the reset zero position. 17. The system according to claim 15 further comprising means for providing a no-delay threshold that defines a current threshold above the pickup level, wherein the means for detecting the overcurrent immediately detects the overcurrent if the estimated current goes above the no-delay threshold.