“…Frisch-grid ionization chambers (FGICs) have several advantages, such as high energy resolution, radiation hardness, and large detection efficiency. Therefore, they have been widely used in the nuclear physics, such as the identification of the light charged particles [1,2], the determination of electron transport parameters in gases [3][4][5][6], as well as the correlated measurement of fission fragments [7,8]. During the past few decades, the investigations on the fission progress with TFGIC have been remarkably restarted, driven by the needs for more accurate nuclear data for science and technology, such as the validation of new fission models [9][10][11], the disposal of nuclear waste using the interaction of energetic projectiles with fissionable nuclei, and prediction capability in the detection of special nuclear materials [12], as well as the improvement of the correlated fission codes, like CGMF and FREYA [13,14].…”