Camera module

What is claimed is: 1 . A camera module comprising: a housing; a lens barrel disposed in the housing; a lens barrel driving unit including a driving magnet and a driving coil, configured to drive the lens barrel in an optical axis direction; and a position restoration member disposed to face the driving magnet, wherein a conditional expression Yh<(Mh−AFL/2) is satisfied, where Yh is a total length of the position restoration member in the optical axis direction, Mh is a total length of the driving magnet in the optical axis direction, and AFL is a maximum displacement of the lens barrel in the optical axis direction. 2 . The camera module of claim 1 , further comprising one or more ball bearings disposed between the lens barrel and the housing. 3 . The camera module of claim 1 , wherein the lens barrel driving unit comprises: a first driving magnet and a first driving coil configured to provide driving force to one side of the lens barrel; and a second driving magnet and a second driving coil configured to provide another driving force to another side of the lens barrel. 4 . The camera module of claim 3 , wherein the first driving magnet is configured to have a total length (ML 1 ) that is different from a total length (ML 2 ) of the second driving magnet. 5 . The camera module of claim 4 , wherein a ratio (ML 1 /ML 2 ) between the total length (ML 1 ) of the first driving magnet and the total length (ML 2 ) of the second driving magnet is 0.3 to 0.7. 6 . The camera module of claim 3 , wherein the position restoration member is disposed to face the first driving magnet, and Mh is the total length of the first driving magnet in the optical axis direction, and wherein the camera module further comprises another position restoration member disposed to face the second driving magnet. 7 . The camera module of claim 6 , wherein another conditional expression Yh 2 <(Mh 2 −AFL/2) is satisfied, where Yh 2 is a total length of the other position restoration member in the optical axis direction, and Mh 2 is a total length of the second driving magnet in the optical axis direction. 8 . The camera module of claim 1 , wherein the total length (Yh) of the position restoration member in the optical axis direction is less than the total length (Mh) of the driving magnet in the optical axis direction. 9 . A camera module comprising: a housing; a lens barrel configured to be movable in an optical axis direction; a barrel holder coupled to the lens barrel and disposed inside of the housing; a lens barrel driving unit configured to drive the lens barrel in the optical axis direction, and including a driving magnet and a driving coil; and a position restoration member configured to face the driving magnet in a direction intersecting an optical axis, wherein a total length of the position restoration member in the optical axis direction is less than a total length of the driving magnet in the optical axis direction, to limit a displacement of the lens barrel in the optical axis direction. 10 . The camera module of claim 9 , wherein the position restoration member applies a passive attractive force to the driving magnet to limit the displacement of the lens barrel in the optical axis direction. 11 . The camera module of claim 9 , further comprising one or more ball bearings disposed between a guide groove of the housing and a guide groove of the barrel holder. 12 . The camera module of claim 11 , wherein the one or more ball bearings include two or more ball bearings, and the two or more ball bearing are respectively disposed at portions of diagonal corners of the housing and the barrel holder. 13 . The camera module of claim 11 , wherein the one or more ball bearings include two or more ball bearings, and the two or more ball bearing are disposed between one surface of the housing and one surface of the barrel holder. 14 . The camera module of claim 9 , wherein the lens barrel driving unit comprises: a first driving magnet and a first driving coil configured to provide driving force to one side of the lens barrel; and a second driving magnet and a second driving coil configured to provide another driving force to another side of the lens barrel. 15 . The camera module of claim 14 , wherein the first driving magnet is configured to have a total length (ML 1 ) different from a total length (ML 2 ) of the second driving magnet. 16 . The camera module of claim 15 , wherein a ratio (ML 1 /ML 2 ) between the total length (ML 1 ) of the first driving magnet and the total length (ML 2 ) of the second driving magnet is 0.3 to 0.7. 17 . The camera module of claim 14 , wherein the position restoration member is disposed to face the first driving magnet, Yh 1 is the total length of the position restoration member in the optical axis direction, Mh 1 is the total length of the first driving magnet in the optical axis direction, AFL is a maximum displacement of the lens barrel in the optical axis direction, and a conditional expression Yh 1 <(Mh 1 −AFL/2) is satisfied, and wherein the camera module further comprises another position restoration member disposed to face the second driving magnet, where Yh 2 is a total length of the other position restoration member in the optical axis direction, Mh 2 is a total length of the second driving magnet in the optical axis direction, and another conditional expression Yh 2 <(Mh 2 −AFL/2) is satisfied. 18 . The camera module of claim 9 , further comprising a circuit board disposed to surround an open portion of the housing and electrically connected to the driving coil. 19 . The camera module of claim 9 , further comprising a shield can that is coupled to the housing and configured to block external electromagnetic waves. 20 . The camera module of claim 19 , further comprising: a clip member coupled to the barrel holder; and a buffer member disposed on the clip member.