To　avoid　the　high　driving　voltage　and　illuminant　non-uniformity　of　carbon　nano-tube　field　emission　display　(CNT-FED)　fabricated　by　silk　screen-printed　technology,　a　voltage　controlled　address　display-period　separation　driving　circuit　is　designed　and　implemented.　Line　and　column　driving　wave　are　realized　by　adopting　a　separate　high　voltage　controller　and　a　reverse　high　voltage　is　applied　to　control　turn-off　pixels.　The　circuit　not　only　satisfies　the　high　driving　voltage　from　700　V　to　1000　V　for　silk　screen-printed　CNT-FED,　and　also　the　crosstalk　caused　by　leakage　current　is　restrained.　Current-limit　resistance　is　presented　on　every　line　which　serves　as　the　feed-back　for　field　emission　current,　and　the　illuminant　uniformity　of　CNT-FED　is　improved　effectively.　The　driving　circuit　has　low　cost,　and　luminance　and　uniformity　of　silk　screen-printed　CNT-FED　is　advanced　from　the　point　of　circuits　view.　Tests　results　show　that　CNT-FED　with　the　driving　circuit　can　displays　dynamic　image　and　the　peak　luminance　comes　to　1400　cd/m2.