At　present,　the　conversion　efficiency　of　high　concentrated　photovoltaic　modules　is　about　30%,　most　of　the　solar　energy　is　converted　into　heat,　which　will　result　in　solar　cell　temperature　rise　and　subsequent　module　efficiency　decrease.　For　existing　module　with　large　solar　cell,　the　heat　source　is　concentrated　and　additional　cooling　fins　must　be　used,　resulting　in　high　system　complexity　and　cost　rise.　In　order　to　lower　the　cost　of　photovoltaic,　we　developed　distributed　cooling　type　module　with　simple　structure.　This　paper　depicts　a　distributed　cooling　design　for　high　concentrated　photovoltaic　module,　as　well　as　the　thermal　simulation　of　this　design　with　ansys　software.　Module　prototype　was　also　made　to　test　the　actual　effect.　The　final　outdoor　results　showed　high　consistency　with　the　simulation　results.　The　chip　temperature　can　be　lower　than　45　degrees　C　and　the　module　outdoor　working　efficiency　is　higher　than　26%,　and　lower　temperature　provide　a　guarantee　of　long-term　reliability　to　module　packaging　material.