Method and system for filling a gas cylinder

What is claimed is: 1. A charge station for filling a gas cylinder with gas, said charge station comprising: a gas output port configured to be fluidly connected to a supply of gas, the gas output port configured to be fluidly connected to the gas cylinder for filling the gas cylinder with gas from the supply of gas; a control system operatively connected to the gas output such that the control system is configured to control filling of the gas cylinder; and a radio frequency identification (RFID) reader operatively connected to the control system, the RFID reader configured to read data from an RFID tag on the gas cylinder including a hydrostatic test date of the gas cylinder, an end of life date of the gas cylinder and an operating pressure of the gas cylinder, wherein: the control system includes a processor and a memory configured to cause the control system to enable a flow of gas from the output port to the gas cylinder for filling the gas cylinder based on data consisting of data read from the RFID tag and from data stored in the memory of the control system, the control system further configured to, prior to enabling the flow of gas for filling the gas cylinder, use the data read from the RFID tag to determine whether or not at least one condition of the following conditions is satisfied: (a) end of life date of the first gas cylinder has expired, (b) the hydrostatic test date of the first gas cylinder has expired, or (c) the operating pressure of the first gas cylinder is not equal to the fill pressure setting of the charge station, and display a warning and/or prevent the gas cylinder being filled based upon the following sequence: upon a determination that a first one of said conditions (a), (b) or (c) is met, and if the first one of said conditions (a), (b) or (c) is not met, upon a determination that a second one of said conditions (a), (b) or (c) is met, and if the first and the second one of said conditions (a), (b) or (c) are not met, upon a determination that a third one of said conditions (a), (b) or (c) is met. 2. The charge station according to claim 1 , further comprising a data collection system operatively connected to the RFID reader to receive data read from the RFID tag on the gas cylinder, the data collection system being operatively connected to the control system such that the data collection system is configured to at least one of send data read from the RFID tag to the control system and control filling of the gas cylinder based at least in part on data received from the RFID reader. 3. The charge station according to claim 1 , further comprising a data collection system operatively connected to the RFID reader to receive data read from the RFID tag on the gas cylinder, wherein at least one of the data collection system and the control system is configured to store at least one of data read from the RFID tag by the RFID reader, data related to the gas cylinder, and data related to the charge station. 4. The charge station according to claim 1 , wherein the RFID reader is configured to read from the RFID tag at least one of a serial number of the gas cylinder, a manufactured date of the gas cylinder, a type of the gas cylinder, an early warning of upcoming cylinder obsolescence of the gas cylinder, an upcoming hydrostatic test requirement of the gas cylinder, frequency of usage of the gas cylinder, a utilization of the gas cylinder, justification for additional equipment related to at least one of the gas cylinder and the charge station, a location of the gas cylinder, a filling date of the gas cylinder, an identification of the charge station, a location of the charge station, a current date, a current time, ambient air sample data, and an identification of an operator. 5. The charge station according to claim 1 , wherein at least one of the following is true: the RFID reader comprises a hand-held RFID reader; or the RFID reader is fixedly mounted on the charge station. 6. The charge station according to claim 1 , wherein the charge station comprises the supply of gas. 7. The charge station according to claim 1 , wherein the charge station includes at least two cylinder docks, each dock configured to accommodate a single gas cylinder. 8. The charge station according to claim 7 , wherein the processor and the memory cause the control system to: read data from an additional RFID tag on an additional gas cylinder, said data including at least one of a hydrostatic test date of the additional gas cylinder, an end of life date of the additional gas cylinder and an operating pressure of the additional gas cylinder, enable a flow of gas to the additional gas cylinder based on data consisting of data read from the additional RFID tag and from data stored in the memory of the control system, and determine whether or not at least one condition of the end of life date of the additional gas cylinder has expired, the hydrostatic test date of the additional gas cylinder has expired of the operating pressure of the additional gas cylinder is not equal to the fill pressure setting of the charge station, and upon a determination that at least one of said conditions is met, display a warning and/or prevent the additional gas cylinder being filled. 9. A method for filling one or more gas cylinders with gas using a charge station, said method comprising: loading a first gas cylinder into a first cylinder dock of the charge station, the first gas cylinder including a first radio frequency identification (RFID) tag, the first RFID tag having stored thereon at least a hydrostatic test date of the first gas cylinder, an end of life date of the first gas cylinder and an operating pressure of the first gas cylinder; reading data from the first RFID tag, said data including the hydrostatic test date of the first gas cylinder, an end of life date of the first gas cylinder and an operating pressure of the first gas cylinder; and filling the first gas cylinder with gas based on data consisting of data read from the first RFID tag and from data stored in a memory of the charge station, said method comprising: prior to filling the first gas cylinder, using the data read from the first RFID tag to determine whether or not at least one condition of the following conditions is satisfied: (a) end of life date of the first gas cylinder has expired, (b) the hydrostatic test date of the first gas cylinder has expired, or (c) the operating pressure of the first gas cylinder is not equal to the fill pressure setting of the charge station, and displaying a warning and/or preventing the first gas cylinder being filled based upon the following sequence: upon a determination that a first one of said conditions (a), (b) or (c) is met, and if the first one of said conditions (a), (b) or (c) is not met, upon a determination that a second one of said conditions (a), (b) or (c) is met, and if the first and the second one of said conditions (a), (b) or (c) are not met, upon a determination that a third one of said conditions (a), (b) or (c) is met. 10. The method according to claim 9 , wherein filling the first gas cylinder with gas comprises automatically filling the first gas cylinder using a processor. 11. The method according to claim 9 , further comprising storing at least one of data read from the first RFID tag by the RFID reader, data related to the first gas cylinder, and data related to the charge station. 12. The method according to claim 9 , wherein reading data from the first RFID tag comprises reading at least one of a serial number of the first gas cylinder, a manufactured date of the first gas cylinder, a type of the first gas cylinder, an early warning of upco