Patent ID: 7343258

Claim:
A method for splicing optical fibers, said method including a step for calibrating fusion temperature in an optical fiber splicing device, wherein the relative change of fusion temperature due to significant changes of operative environment as well as electrode conditions is determined based upon measuring the amount of fusion time spent on reaching a pre-determined reduction of cladding diameter of a warm-fiber that is heated by an electrical arc using the pre-calibrated fusion current derived by an altimeter's model, said step for calibrating fusion temperature comprising the steps of: placing two optical fibers having their end regions aligned with each other and their end surfaces in close contact with each other; adjusting the fusion currents I*, based on measuring the altitude with help of an altimeter, by using an equation I* 1 =h 1 I i +(h 2 H+h 3 I 1 +h 4 ) 2 +h 5 ; starting the electrical arc with a pre-fusion current to clean the optical fibers and detecting an initial position of an arc-center (X 0 ); repositioning the fiber ends with respect to the arc center (X 0 ); starting the electric arc with a main fusion current and heating an abutted point of two optical fibers and connecting them together to give a splice; measuring the initial cladding diameter of the warm-fiber, replacing the main fusion current with a target current (I c,1 ), estimating a corresponding time (t c,1 ) using an equation 1 (t=c 1 e −c 2 I ) and starting the calibration process; continually heating the abutted point with the target current (I c,1 ) and measuring the reduction of cladding diameter of warm-fibre until said diameter reaches a predetermined threshold value; stopping the electrical arc, calculating a total fusion time (t 2 ) spent on the calibrating process and deriving a corresponding current (I c,2 ) using the equation t=c 1 e −c 2 I ; calculating an amount of fusion current needed for compensation ΔI c (ΔI c =I c,1 −I c,2 ); calculating correction factors δ i (δ i =1−0.5(I c,1 −I i )/I c,1 ) for compensating current difference between the target current used in the calibrating process and currents used in various splicing processes; calculating new currents I NEW,i (I NEW,i =I* i +δ i ΔI c ) needed for replacing values of expected fusion currents in various splicing processing; and, splicing one or more optical fibers using said new currents.