A two-phase 14-stage transfer shift register has been built and operated which uses the surface-charge transistor structure to effect the transfer of signal charge from one stage to the next. This paper describes the structure and presents preliminary experimental results which characterize its operation as a digital shift register. The shift register is operated in both the complete and partial transfer modes. An analytical solution for the approximate equation of motion of charge under a single electrode plate has been obtained. A key result of the analytical solution is that the characteristic time for transfer of charge out of a full potential well is given by t0=L2/μ(V-VT). A computer simulation of the 14-stage shift register, using the analytical solution for a single stage, is in good agreement with the experimental results.