A turn‐on delay, during which the output voltage of a Josephson logic circuit is very small, is of prime interest for the design of high‐speed Josephson digital integrated circuits. We have derived an analytical formula for the turn‐on delay of the current‐injection logic circuits, which is in good agreement with computer simulations. Analysis of the circuit equations shows that the nonlinear inductance of a current‐summing Josephson junction plays an important role for the turn‐on delay. Dependences of the turn‐on delay on circuit parameters and operating conditions are calculated. For parameter values typical of 5‐&mgr;m current‐injection circuits, the turn‐on delay is on the order of 10 ps. The turn‐on delay and operating margin are compared in various types of current‐injection logic circuits. The higher sensitivity of the threshold gate current to the input current is found to be desirable not only to reduce the turn‐on delay but to operate in a wide margin.