Method to control fuel spray duration for internal combustion engines

The invention claimed is: 1. A method, comprising: actuating a fuel injector needle having a fuel channel within a body to sequentially move the needle downward from a closed to a first open position, fluidically connecting a first fuel channel width to a first nozzle hole, followed by moving the needle downward, fluidically disconnecting the first width, and fluidically connecting a second, wider, fuel channel width to a second nozzle hole at a second open position. 2. The method claim 1 , further comprising fluidically connecting the first nozzle hole to the fuel channel for a first duration in the first open position and fluidically connecting the second nozzle hole to the fuel channel for a second duration in the second open position, the second duration longer than the first duration, wherein the first duration is based on at least partial overlap between the first width of the fuel channel and a first diameter of the first nozzle hole and the second duration is based on at least partial overlap between the second width and a second diameter of the second nozzle hole, where the second diameter is equal to the first diameter. 3. The method of claim 1 , further comprising injecting a first volume of fuel through the first nozzle hole during the first open position and injecting a second volume of fuel through the second nozzle hole during the second open position, where the first volume of fuel is less than the second volume of fuel. 4. The method of claim 3 , further comprising injecting the first volume of fuel in a first area of a combustion chamber and injecting the second volume of fuel in a second area of the combustion chamber, the second area having more turbulent air flow with higher tumble and swirl than air flow in the first area. 5. The method of claim 1 , further comprising: fluidically connecting the second nozzle hole to the second width of a second region of the fuel channel and fluidically connecting a third nozzle hole simultaneously to the second width of a third region of the fuel channel during the second open position, the third region in an area different from the second region of the fuel channel, and injecting the second volume of fuel through each of the second nozzle hole and the third nozzle hole. 6. The method of claim 1 , wherein actuating the needle to sequentially move the needle downward from the closed position through a plurality of the open positions comprises actuating the needle to sequentially move through nine open positions, each of the nine open positions including fluidic communication between specific injector holes and a specific region of the fuel channel, injecting a different volume of fuel during at least one of the open positions of the plurality of open positions. 7. The method of claim 1 , further comprising moving the needle upward sequentially through a plurality of open positions, injecting residual fuel from the fuel channel during the plurality of open positions, and moving the needle back to the closed position, ending fuel injection.