Barium　titanate-based　ceramics　Ba(Zr,　Ti)O3-x(Ba,　Ca)TiO　(BZT-xBCT)　are　considered　as　promising　candidate　material　for　piezoelectric　sensors　due　to　its　superior　piezoelectricity　and　non-toxicity.　However,　the　piezoelectric　temperature　stability　of　the　BZT-xBCT　is　poor　around　phase　transition　point,　which　restricts　its　application　in　different　thermal　environments.　Therefore,　it　is　crucial　to　improve　the　temperature　stability　of　BaTiO-based　piezoelectric　sensor.　In　this　work,　a　laminated　structure　is　proposed　to　improve　the　temperature　stability　of　the　piezoelectric　material,　and　the　piezoelectric　coefficient　at　different　temperatures　has　been　measured.　The　results　show　that　the　laminated　material　in　parallel　structure　exhibits　suppressed　and　expanded　peak　value　in　a　wide　temperature　range,　which　indicates　improved　temperature　stability　of　piezoelectric　property.　Our　results　provide　a　general　approach　for　developing　advanced　piezoelectrics　with　high　temperature　reliability.　©　2020　IEEE.