System and method for detecting hydrogen tank fill operation in a fuel cell electric vehicle

What is claimed is: 1 . A fuel system for a fuel cell electric vehicle (FCEV), comprising: a fuel delivery system fluidly coupled to a fuel tank, including: a fuel line defining an inlet and adapted to extend between the inlet and the fuel tank to transport fuel, and one or more sensors configured to provide data indicative of a characteristic of the fuel, the one or more sensors include: a first pressure sensor configured to detect a pressure at a first portion of the fuel line, and a second pressure sensor configured to detect a pressure at a second portion of the fuel line, wherein the second pressure sensor is provided closer to the inlet than the first pressure sensor; and a controller configured to control the fuel delivery system for a fill operation in response to detecting a characteristic differential between the inlet and the fuel tank based on the data indicating occurrence of the fill operation, wherein the controller is configured to detect a pressure differential as the characteristic differential responsive to the pressure at the second portion of the fuel line being greater than the pressure at the first portion of the fuel line. 2 . The fuel system of claim 1 , wherein the fuel delivery system further includes a fill valve arranged between the inlet and the fuel tank. 3 . The fuel system of claim 2 , wherein: the one or more sensors include a delta pressure sensor to measure a delta pressure across the fill valve, and the controller is further configured to detect a second pressure differential as the characteristic differential responsive to the delta pressure sensor detecting a forward bias pressure and, for the fill operation, to operate the fill valve to an open position to have the fuel flow through the fill valve to the fuel tank. 4 . The fuel system of claim 1 , wherein the controller is further configured to: monitor the pressure at the first portion of the fuel line, and detect a second pressure differential as the characteristic differential by detecting an increase in the pressure at the first portion at an identified rate. 5 . The fuel system of claim 1 , wherein: the fuel delivery system further includes a tank valve operable to direct the fuel to an injector or to the fuel tank, and the controller, for the fill operation, is configured to control the tank valve to direct the fuel to the fuel tank. 6 . The fuel system of claim 1 , wherein: the one or more sensors include; a temperature sensor arranged at the fuel tank and configured to detect a temperature at the fuel tank; and the controller is further configured to: detect a virtual tank pressure based on at least one of the pressure at the first portion or the pressure at the second portion, the temperature at the fuel tank, and a density of the fuel tank, and detect a second pressure differential as the characteristic differential based on the virtual tank pressure and a recent pressure detected by at least one of the first or second pressure sensors, wherein the second pressure differential is detected in response to the recent pressure being higher than that of the virtual tank pressure. 7 . The fuel system of claim 1 , wherein: the fuel delivery system further includes an injector adapted to inject the fuel to a fuel cell, and the controller, for the fill operation, is configured to control the injector to cease injection of the fuel to the fuel cell. 8 . The fuel system of claim 1 , wherein: the one or more sensors include: a first temperature sensor configured to detect a first temperature at a first area of the fuel tank, and a second temperature sensor configured to detect a second temperature at a second area of the fuel tank opposite the first area, and the controller is further configured to detect a temperature differential as the characteristic differential responsive to the first temperature at the first area of the fuel tank being higher than the second temperature at the second area of the fuel tank. 9 . A method for providing fuel to a fuel cell electric vehicle (FCEV) via a fuel system of the FCEV, the method comprising: obtaining data indicative of a characteristic of the fuel in a fuel line of a fuel delivery system of the fuel system from one or more sensors arranged at the fuel system, wherein the data obtained is indicative of a pressure at a first portion of the fuel line being less than a pressure at a second portion of the fuel line, wherein the second portion of the fuel line is closer to an inlet of the fuel delivery system than the first portion; and controlling the fuel delivery system for a fill operation in response to detecting a pressure differential between the inlet and a fuel tank based on data from the one or more sensors to have the fuel provided to the fuel tank. 10 . The method of claim 9 , wherein: the fuel delivery system further includes a tank valve and a fill valve, wherein the tank valve and the fill valve are arranged between the inlet and the fuel tank with the fill valve being closer to the inlet than the fuel tank, and the method further comprises: measuring a delta pressure across the fill valve using a delta pressure sensor; and detecting a forward bias pressure using the delta pressure sensor to detect the pressure differential. 11 . The method of claim 9 , wherein: the data is indicative of a pressure at a first portion of the fuel line, and the method further comprises: monitoring the pressure at the first portion of the fuel line; and detecting the pressure differential when the pressure at the first portion increases at an identified rate. 12 . The method of claim 9 , further comprises, for the fill operation, controlling a tank valve to direct the fuel to the fuel tank. 13 . The method of claim 9 , wherein: the data is indicative of a first pressure of the fuel at a portion of the fuel line associated with the fuel tank, and a temperature at the fuel tank, and the method further comprises detecting a virtual tank pressure based on the first pressure, the temperature at the fuel tank, and a density of the fuel tank, wherein the pressure differential is detected based on the virtual tank pressure and a recent value of the first pressure. 14 . The method of claim 9 , further comprises, for the fill operation, ceasing injection of the fuel to a fuel cell. 15 . A fuel system for a fuel cell electric vehicle (FCEV), comprising: a fuel delivery system fluidly coupled to a fuel tank, the fuel delivery system including: a tank valve, a fill valve, a fuel line defining an inlet and adapted to extend between the inlet and the fuel tank to transport fuel, wherein the tank valve and the fill valve are arranged between the inlet and the fuel tank with the fill valve being closer to the inlet than the fuel tank, and one or more sensors configured to provide data indicative of a characteristic of the fuel, the one or more sensors including a delta pressure sensor to measure a delta pressure across the fill valve; and a controller configured to: identify occurrence of a fill operation in response to detecting a characteristic differential between the inlet and the fuel tank based on data from the one or more sensors, wherein the characteristic differential is at least one of a pressure differential or a temperature differential, identify that the delta pressure sensor detects a forward bias pressure to detect the pressure differential, and control the fuel delivery system for the fill operation in response to detecting the pressure differential to direct the fuel to the fuel tank and to i