Fault parameter indicator device and related methods

What is claimed is: 1. A method of determining a fault parameter, including a fault direction parameter, of a fault on an AC transmission line of a power distribution system relative to a measurement location of the transmission line, the method comprising: measuring a time-dependent current of the transmission line at the measurement location; transmitting a current signal indicative of the measured current to a decision logic section, the current signal including a plurality of pre-fault current values and a plurality of post-fault current values; determining, by the decision logic section, a plurality of phase difference values indicative of respective phase differences between respective ones of the pre-fault current values and respective ones of the post-fault current values; accumulating the plurality of phase difference values into an accumulated phase difference parameter; obtaining the fault parameter by comparing the accumulated phase difference parameter to a threshold value; and outputting the determined fault parameter, wherein measuring a time-dependent current of the transmission line includes measuring a current but measuring no voltage of the transmission line. 2. The method according to claim 1 , wherein the plurality of pre-fault current values includes n pre-fault current values, and the plurality of post-fault current values includes n post-fault current values, and the plurality of phase difference values includes n phase difference values, n being at least one of freater than 1 and less than 3, wherein an i-th one of the pre-fault current values, for 1≦i≦n, corresponds to a respective i-th pre-fault time, and an i-th one of the post-fault current values corresponds to a respective i-th post-fault time, and wherein an i-th one of the phase difference values is indicative of a phase difference between the i-th pre-fault current value and the i-th post-fault current value, respectively. 3. The method according to claim 2 , wherein the i-th pre-fault times and the respective i-th post-fault times are separated by an integer number of AC periods. 4. The method according to claim 1 , wherein the phase difference values are accumulated over a time interval which is longer than one AC period, in relating to post-fault current values that span a time interval being longer than one AC period and being after the fault. 5. The method according to claim 1 , wherein the accumulated phase difference parameter is obtained according to Δφ=Σ i=1 n * N Δφ( I post ( i ), I pre ( i )), wherein n is a positive number, N is a number of samples within an AC cycle, Δφ(a, b) is a phase difference between two complex numbers a and b; and I post (i), I pre (i) are the i-th post-fault and i-th pre-fault complex-number currents, respectively, wherein, I post (i)=I k+i ; I pre (i)=I k+i−m*N , wherein I i is the i-th sampled current value, k is the index corresponding to a time proximate to the fault event, and m is a positive integer number, wherein, n is 2 or more, and wherein, m=n. 6. The method according to claim 1 , wherein the transmission line includes a plurality of phases, the method comprising: measuring the current at each of the phases; and determining respective phase difference values for each of the plurality of phases separately. 7. The method according to claim 6 , wherein the plurality of phase difference values are accumulated by selecting, from the three phases, a maximum phase difference value to be accumulated or a maximum accumulated phase difference parameter. 8. The method according to claim 1 , comprising: comparing a magnitude of the current values to a threshold value, and, when the magnitude of a respective one of the current values is lower than the threshold value, discarding at least one of some of the phase difference values and issuing a “neutral” signal. 9. The method according to claim 1 , wherein the fault parameter is a fault direction parameter including “forward fault” or “backward fault”, that corresponds to mutually opposite signs of the accumulated phase difference parameter. 10. The method according to claim 1 , wherein the fault parameter is a fault direction parameter including “neutral”, and wherein the fault direction parameter is “neutral” when the absolute value of the accumulated phase difference parameter is less than a threshold value. 11. A fault parameter indicator device for indicating a fault parameter including a fault direction parameter of a fault on an AC transmission line of a power distribution system relative to a measurement location of the transmission line, the fault parameter indicator device comprising: an input section for receiving a current signal indicative of a time-dependent current measured by a measuring unit at the measurement location, the current signal having a plurality of pre-fault current values and a plurality of post-fault current values; a decision logic section configured for determining the fault parameter based on the current signal, the decision logic section including: a phase difference value determining sub-section configured to determine a plurality of phase difference values indicative of respective phase differences between respective ones of the pre-fault current values and respective ones of the post-fault current values; an accumulating sub-section configured to accumulate the plurality of phase difference values into an accumulated phase difference parameter; a fault parameter generating sub-section configured to generate the fault parameter by comparing the accumulated phase difference parameter to a threshold value; and a measurement unit having a current sensor for measuring the current at the measurement location of the transmission line, wherein the measurement unit lacks a voltage sensor and is operatively coupled to the input section for transmitting the current signal obtained from the current measurement to the input section. 12. A directional overcurrent relay comprising: a fault parameter indicator device having an input section for receiving a current signal indicative of a time-dependent current measured by a measuring unit at the measurement location, the current signal having a plurality of pre-fault current values and a plurality of post-fault current values; a decision logic section configured for determining the fault parameter based on the current signal, the decision logic section including: a phase difference value determining sub-section configured to determine a plurality of phase difference values indicative of respective phase differences between respective ones of the pre-fault current values and respective ones of the post-fault current values; an accumulating sub-section configured to accumulate the plurality of phase difference values into an accumulated phase difference parameter; a fault parameter generating sub-section configured to generate the fault parameter by comparing the accumulated phase difference parameter to a threshold value; a circuit breaker operatively coupled to the fault direction parameter indicator device for receiving, from the fault parameter indicator device, the fault parameter being a fault direction parameter; and a measurement unit having a current sensor for measuring the current at the measurement location of the transmission line, wherein the measurement unit lacks a voltage sensor operatively coupled to the input section for transmitting the current signal obtained from the current measurement to the input section. 13. An outdoor and/or smart grid power distribution network, comprising: a fault parameter indicator device having an input section for receiving a curren