This study is to set up a measurement platform for the recording of neural ensemble. A 64-channel microelectrode, amplifiers, and filters were therefore designed and implemented. By utilizing the semiconductor processes, a 64-channel microelectrode was implemented in this thesis. The impedance of each electrode, measured with respect to the connecting pad, is only 10 ± 4.56 Ω. The bonding and package of this 64-chanel microelectrode was successfully tested, and enabling the transmission of the detected neuronal activities to the host system for signal processing. Further, a module each with a 16-channel amplifiers and 32-channel filters was designed and fully tested. This module can be used to measure field potential and multi-unit action potential at the same time. The gain of the amplifiers is programmed at 2500, whereas the passbands of the filters are 0.1 - 100 Hz for the Butterworth lowpass filters and 300 Hz – 3 kHz for the Bessel filters. The 2nd-order Butterworth lowpass filter is designed for field potential recording, while the 2nd-order Bessel bandpass filter was for extra-cellular multi-unit recording. A further advantage of the module design for the signal conditioning unit is the flexibility and expandability. This measurement system, in accompany with the A/D convector card, has successfully set up an indispensable platform for the recording of multichannel field potentials as well as action potentials.