Relaxor　ferroelectrics,　with　polar　nanoregions　(PNRs),　are　good　candidates　for　electrocaloric　(EC)　refrigeration.　This　study　investigates　the　EC　performance　of　the　Pb1−1.5xLaxZr0.8Ti0.2O3　relaxor　ferroelectric　ceramics　by　the　direct　measurement　using　a　modified　differential　scanning　calorimeter.　All　the　ceramics　exhibit　pure　perovskite　phase　with　a　dense　microstructure.　The　results　indicate　that　the　increasing　La　substitution　strengthens　the　relaxor　behaviour,　promotes　the　transition　from　non-ergodic　to　ergodic　state,　and　enhances　the　thermal　stability　of　EC　property　(instability　η　max　=　0.98　K　(@140°C)　for　x　=　0.06　to　ΔTmax　=　0.25　K　(@40°C)　for　x　=　0.09　under　an　electric　field　of　40　kV/cm.　Moreover,　the　ceramics　with　x　=　0.07,　near　the　non-ergodic–ergodic　state　boundary,　show　the　optimised　room　temperature　EC　performance,　i.e.　ΔT　=　0.41　K　(@20°C)　and　η　©　2019　Institution　of　Engineering　and　Technology.　All　rights　reserved.