Low voltage hot to hot timer

What is claimed is: 1 . A method of measuring a hot-to-hot load transfer time for a transfer switch on an electrical system including a first power source, a second power source and a load, the transfer switch being configured to transfer supply of power to the load from one of the first and second power sources to the other one of the first and second power sources, the method comprising: receiving, at a controller, a selection of a transfer mode to be implemented by or through the transfer switch from a plurality of different types of transfer modes, the different types of transfer modes including at least a closed transition transfer mode and an open transition transfer mode; monitoring, via the controller, electrical signals from first and second sensing leads or signals derived therefrom to sense a supply state of electrical power from the first and second power sources to the load, each of the first and second sensing leads being connectable or couplable to the electrical system or a component thereof according to the transfer mode being implemented by or through the transfer switch; identifying, via the controller, an occurrence of a contact lift and an occurrence of a contact landing, which are associated with a load transfer operation of the transfer switch, from the monitored electrical signals or signals derived therefrom, the contact lift being an operation of the transfer switch which disconnects one of the first and second powers from the load, the contact landing being an operation of the transfer switch which connects the other one of the first and second powers to the load; measuring, via the controller, a load transfer time based on a timing of the identified occurrence of the contact lift and the identified occurrence of the contact landing, and the selected transfer mode; and outputting via the controller the measured load transfer time wherein the open transition transfer mode comprises a load transfer scenario where the one of the first and second power sources is connected to the load, the one of the first and second power sources is then disconnected from the load, and thereafter the other one of the first and second power sources is connected to the load to complete the load transfer operation, and the closed transition transfer mode comprises a load transfer scenario where the one of the first and second power sources is connected to the load, the other one of the first and second power sources is then connected to the load, and thereafter the one of the first and second power sources is disconnected from the load to complete the load transfer operation. 2 . The method according to claim 1 , wherein, for the closed transition transfer mode, one of the first and second sensing leads is connected or coupled to one of the first and second power sources and the other one of the first and second sensing leads is connected or coupled to the other one of the first and second power sources. 3 . The method according to claim 1 , wherein, for the closed transition transfer mode, the measured load transfer time is a time period from the identified occurrence of contact landing to the identified occurrence of the contact lift. 4 . The method according to claim 3 , wherein the contact landing is identified as a first signal transition or edge signal from the electrical signals or signals derived therefrom being monitored over time and at or above a defined signal time length when one of the first and second power sources is connected to the load, and after the contact landing, the contact lift is subsequently identified as a last signal transition or edge signal from the electrical signals or signals derived therefrom being monitored over time and at or above the defined signal time length when the other one of the first and second power sources is disconnected from the load. 5 . The method according to claim 1 , wherein, for the open transition transfer mode, one of the first and second sensing leads is connected or coupled to one of the first and second power sources and the other one of the first and second sensing leads is connected or coupled to the load. 6 . The method according to claim 1 , wherein, for the open transition transfer mode, the measured load transfer time is a time period from the identified occurrence of the contact lift to the identified occurrence of the contact landing. 7 . The method according to claim 6 , wherein the contact lift is identified as a last signal transition from the electrical signals being monitored over time and at or above a defined signal time length when one of the first and second power sources, which is connected to the load, is disconnected from the load, and after the contact lift, the contact landing is subsequently identified as a first signal transition from the electrical signals being monitored over time and at or above the defined signal time length when the other of the first and second power sources is connected to the load. 8 . The method according to claim 1 , wherein the monitored electrical signals from the first and second sensing leads or signals derived therefrom correspond to or represent a potential voltage difference across the first and second sensing leads. 9 . The method according to claim 1 , further comprising: filtering the monitored electrical signals or signals derived therefrom to filter out signals below a defined signal time length or a signal time length of 40 μ-sec, wherein the identifying an occurrence of a contact lift and an occurrence of a contact landing ignores signals associated with contact bounce from the monitored electrical signals or signals derived therefrom when identifying for an occurrence of a contact landing and ignores signals associated with contact chatter when identifying for a contact lift. 10 . The method according to claim 1 , wherein an order in which the identifying operation identifies the occurrence of the contact lift and the occurrence of the contact landing is changed according to the selected transfer mode. 11 . A system for measuring a hot-to-hot load transfer time for a transfer switch on an electrical system including a first power source, a second power source and a load, the transfer switch being configured to transfer supply of power to the load from one of the first and second power sources to the other one of the first and second power sources, the system comprising: first and second sensing leads connectable or couplable to the electrical system or a component thereof to monitor a supply of power from the first and second power sources to the load; a mode selector for selecting a transfer mode to be implemented by or through the transfer switch from a plurality of different types of transfer modes, the different types of transfer modes including at least a closed transition transfer mode and an open transition transfer mode; and a controller, coupled to a memory, configured to: monitor electrical signals from first and second sensing leads or signals derived therefrom to sense a supply state of electrical power from the first and second power sources to the load, each of the first and second sensing leads being connectable or couplable to the electrical system or a component thereof according to the transfer mode being implemented by or through the transfer switch; identify an occurrence of a contact lift and an occurrence of a contact landing, which are associated with a load transfer operation of the transfer switch, from the monitored electrical or signals derived therefrom, the contact lift being an operation of the transfer switch which disconnects one of the first and second powers from the load, the contact landing being an operation of the