Parabrachial nucleus (PBN) is involved in transmission of autonomic information. It is an important site for both visceral and gustatory afferent processing. It is also involved in the pain regulation of the descending pain pathway. The PBN has traditionally been separated into lateral (LPBN) and medial (MPBN), and a part of axons of LPB neuron seem to project to the NAergic A7 nucleus, which contains a group of noradrenergic cells and locates in the pons. However, the composition and electro-physiological characteristics were still unknown. Here, we study the intrinsic membrane characteristics of LPB neurons and try to separate these cells. First we record the spontaneous firing pattern of LPB neurons, and then give different stimulation protocols to record their intrinsic property. The cells we record can be grouped into four categories by the criteria of the delay onset and the hyperpolarizing voltage sag. Among these four groups, there are no significant differences in resting membrane potential, spike amplitude and spike half-width. However,the difference of the rheobase are significant in every pair of group. Comparing the spontaneous firing pattern, cells in all groups contain all the firing patterns, include regular-spontaneous firing pattern, non-regular-spontaneous firing pattern and non-spontaneous firing pattern. In comparison of morphology, the neuron processes of the group that showed the prominent delay onset and the hyperpolarizing voltage sag spreaded locally, while other groups had longer ones and spread more close to the A7 nucleus.