Synchronization control is a kernel technique of the laser range-gated(LRG) imaging system which controls the synchronization of the pulsed laser and the ICCD camera directly.It can achieve range gating effectively and improve the resolution of image precisely.Conventional control circuits which are composed of discrete components have a poor performance of anti-interference,and the transmitting signal has a bad delay which affects the conventional circuit’s precision and stabilization seriously.To solve these problems,a range-gated synchronization control circuit is designed.This circuit,which takes the advantages of FPGA’s high compact and flexibility,uses the phase-locking-loop(PLL) to multiply the global clock frequency.This design improves the precision and stabilization greatly,makes the precision up to a nanosecond level and provides a real-time selection of the values of pulse width and delays.Experiments results indicate that this circuit has a high precise and stable range-gated pulse. Synchronization control is a kernel technique of the laser range-gated (LRG) imaging system which controls the synchronization of the pulsed laser and the ICCD camera directly. It can achieve range gating effectively and improve the resolution of image precisely. Conventional control circuits which are composed of discrete components have a poor performance of anti-interference, and the transmitting signal has a bad delay which affects the conventional circuit’s precision and stabilization seriously.Tho solve these problems, a range-gated synchronization control circuit is designed.This circuit, which takes the advantages of FPGA’s high compact and flexibility, uses the phase-locking-loop (PLL) to multiply the global clock frequency. This design improves the precision and stabilization greatly, makes the precision up to a nanosecond level and provides a real-time selection of the values ​​of pulse width and delays. Experiments results indicate that this circuit has a high precise and stable range-ga ted pulse.