We have developed a broadband VLBI system named GALA-V, which is compatible with the VGOS (VLBI Global Observing System) specification. The development contains broadband receiver system, data acquisition system, and up to data processing software for precision delay determination. This system demonstrated sub-pico second precision VLBI delay measurement by one second of observation between Japanese domestic broadband VLBI stations: Ishioka 13m and Kashima 34m. We conducted a series of broadband VLBI experiments between two small telescopes installed at NICT(Tokyo) and NMIJ(Tsukuba) for measurement of clock difference between UTC(NICT) and UTC(NMIJ). Analysis results of these experiments proved that broadband VLBI system enables pico-second precision observation even with small diameter radio telescopes. Weighted RMS of post-fit residual delay were around ten and a few pico-seconds on 1.6m-2.4m antenna pair.　The experiment results suggest that delay precision was improved to a sufficient level by broadband system, and the error of geodetic/clock analysis is dominated by atmospheric delay uncertainty.