Methods and systems for a fuel injector assembly

The invention claimed is: 1. A method, comprising: injecting fuel from a fuel injector by displacing a plurality of fuel injector needles of the fuel injector along a longitudinal axis of the fuel injector to deliver the fuel through a first nozzle of the fuel injector coupled to a first fuel chamber of the fuel injector, a second nozzle of the fuel injector coupled to a second fuel chamber of the fuel injector, and a third nozzle of the fuel injector coupled to a third fuel chamber of the fuel injector during a single actuation cycle of the fuel injector, and the plurality of fuel injector needles comprising a second injector needle encircling a first injector needle, an outlet of the second nozzle positioned vertically above an outlet of the first nozzle along the longitudinal axis of the fuel injector and an outlet of the third nozzle positioned vertically above the outlet of the second nozzle along the longitudinal axis of the fuel injector, wherein the fuel that is delivered through the first nozzle, the second nozzle, and the third nozzle is supplied by a common fuel supply configured to fluidly couple to each of the first fuel chamber, the second fuel chamber, and the third fuel chamber. 2. The method of claim 1 , wherein displacing the plurality of fuel injector needles along the longitudinal axis of the fuel injector comprises displacing the first injector needle for a first distance along the longitudinal axis of the fuel injector from a closed position to a first open position, wherein at the first open position, the fuel injector injects fuel through the first nozzle fluidically coupled to the first fuel chamber, the first fuel chamber receiving fuel through a first passage of the first injector needle fluidically coupled to a first fuel branch, and wherein the second nozzle is spaced apart from the first nozzle and spaced apart from the third nozzle. 3. The method of claim 2 , wherein displacing the first injector needle along the longitudinal axis of the fuel injector further comprises displacing the first injector needle along with the second injector needle for a second distance along the longitudinal axis of the fuel injector from the first open position to a second open position, wherein at the second open position, the fuel injector injects fuel through the second nozzle and through the first nozzle. 4. The method of claim 3 , wherein at the second open position, the second fuel chamber receives fuel through a second passage of the second injector needle, the second passage coupled to a second fuel branch, and at the second open position, the first injector needle is fluidically decoupled from the first fuel branch and the first fuel chamber does not receive fuel through the first passage of the first injector needle. 5. The method of claim 3 , wherein displacing the first injector needle along the longitudinal axis of the fuel injector further comprises displacing the first injector needle along with the second injector needle and a third injector needle of the plurality of injector needles for a third distance along the longitudinal axis of the fuel injector from the second open position to a third open position, wherein at the third open position, the fuel injector injects fuel through the third nozzle, through the second nozzle, and through the first nozzle. 6. The method of claim 5 , wherein at the third open position, the third fuel chamber receives fuel through a third passage of the third injector needle coupled to a third fuel branch, the first fuel chamber is fluidically decoupled from the first fuel branch and does not receive fuel through the first passage of the first injector needle, and the second fuel chamber is fluidically decoupled from the second fuel branch and does not receive fuel through the second passage of the second injector needle. 7. The method of claim 6 , wherein a third pressure in the first fuel chamber at the third open position is more than a second pressure in the first fuel chamber at the second open position and the second pressure is more than a first pressure in the first fuel chamber at the first open position. 8. The method of claim 6 , wherein a fourth pressure in the second fuel chamber at the third open position is more than a fifth pressure in the second fuel chamber at the second open position. 9. The method of claim 6 , further comprising moving the first injector needle from the third open position to the closed position via the second open position and the first open position, wherein at the closed position, no fuel is delivered to each of the first fuel chamber, the second fuel chamber, and the third fuel chamber, and no fuel is injected through the first nozzle, the second nozzle, and the third nozzle. 10. A method, comprising: injecting fuel from a fuel injector by displacing a plurality of fuel injector needles along a longitudinal axis of the fuel injector to deliver the fuel to a cylinder through a first row of nozzles coupled to a first fuel chamber, a second row of nozzles coupled to a second fuel chamber, and a third row of nozzles coupled to a third fuel chamber during a single actuation cycle of the fuel injector, the displacing including displacing a first injector needle for a first distance along the longitudinal axis of the fuel injector from a closed position to a first open position, wherein at the first open position, the fuel injector injects fuel through the first row of nozzles, the injecting further including selectively coupling and decoupling the first fuel chamber to a first fuel branch, the second fuel chamber to a second fuel branch, and the third fuel chamber to a third fuel branch, the first fuel chamber receiving fuel through a first passage of the first injector needle fluidically coupled to the first fuel branch, the plurality of fuel injector needles including a second injector needle encircling the first injector needle, and wherein respective outlets of the second row of nozzles are positioned vertically above respective outlets of the first row of nozzles along the longitudinal axis of the fuel injector and respective outlets of the third row of nozzles are positioned vertically above the respective outlets of the second row of nozzles along the longitudinal axis of the fuel injector, the second row of nozzles spaced apart from the first row of nozzles and spaced apart from the third row of nozzles, wherein displacing the first injector needle along the longitudinal axis of the fuel injector further comprises displacing the first injector needle along with the second injector needle for a second distance along the longitudinal axis of the fuel injector from the first open position to a second open position, wherein at the second open position, the fuel injector injects fuel through the second row of nozzles and through the first row of nozzles. 11. The method of claim 10 , wherein at the second open position, the second fuel chamber receives fuel through a second passage of the second injector needle, the second passage coupled to the second fuel branch, and at the second open position, the first injector needle is fluidically decoupled from the first fuel branch and the first fuel chamber does not receive fuel through the first passage of the first injector needle. 12. The method of claim 10 , wherein displacing the first injector needle along the longitudinal axis of the fuel injector further comprises displacing the first injector needle along with the second injector needle and a third injector needle of the plurality of injector needles for a third distance along the longitudinal axis of the fuel injector from the second open position to a third open position, wherein at the third open positio