We report the time domain measurement of continuous variable entanglement using a pulsed light source and waveguides. In the time domain measurement we obtained the quadrature amplitude value for each pulse independently using a oscilloscope, therefore it is easy to apply to quantum information processing. However, in the case of pulsed light source there is a problem of temporal-mode matching between local oscillator (LO) pulses used for homodyne detection and entangled pulses. We solved the problem by shortening the duration of the LO pulse by parametric amplification. Furthermore, we made homodyne detectors suitable for the time-domain measurement. The product of measured conditional variances satisfies the EPR-Reid criterion although the significance is not sufficient.