Connector part of a subsea connector

What is claimed is: 1. A connector part of a subsea connector adapted to be mated with a second part of the subsea connector, wherein the connector part comprises: at least a first contact configured for engagement with a respective second contact of the second connector part for establishing a connection, and a damper unit, wherein at least the first contact is mounted to the damper unit, wherein the damper unit is configured to be activated by a mating of the connector part with the second connector part and is further configured to delay the engagement of said first contact with the second contact of the second connector part during the mating of the connector part with the second connector part. 2. The connector part according to claim 1 , wherein the damper unit is configured to delay the engagement of the first contact with the second contact such that at the point in time when the connector part and the second connector part reach a mated state, the first contact is not yet in engagement with the second contact, and wherein the damper unit is configured to move the first contact into engagement with the second contact after the connector part and the second connector part have reached the mated state. 3. The connector part according to claim 1 , wherein the damper unit is configured to delay the engagement of said first contact with the second contact with a time constant that is determined by a flow of fluid through a restriction. 4. The connector part according to claim 1 , wherein the damper unit comprises a movable element to which the first contact is mounted, wherein the movable element is movable between a first position in which the first contact engages the second contact when the connector part and the second connector part are in the mated state, and a second position in which the first contact is spaced apart from the second contact when the connector part and the second connector part are in the mated state. 5. The connector part according to claim 4 , wherein when the connector part is in an unmated state, the movable element is located at the first position, and wherein during the mating of the connector part with the second connector part, the movable element is moved into the second position. 6. The connector part according to claim 4 , wherein the movement of the movable element is effected by a mating force applied to the connector part or the second connector part during mating, and/or wherein the movement of the movable element is effected by an elastic force or a spring force. 7. The connector part according to claim 4 , wherein the damper unit further comprises a spring that is mechanically connected to the movable element so as to urge the movable element into the first position. 8. The connector part according to claim 7 , wherein a movement of the movable element from the second position into the first position is effected by said spring, wherein the damper unit is configured such that said movement displaces a liquid at a predetermined rate, said displacement of liquid damping said movement and delaying said engagement of the first contact with the second contact. 9. The connector part according to claim 4 , wherein said movable element is a damper body. 10. The connector part according to claim 1 , wherein said damper unit comprises a damper body defining a chamber and further comprises a piston providing a wall of the chamber, wherein the piston is movable relative to the damper body to change the volume of the chamber, wherein the chamber is filled with a liquid and comprises an opening through which the liquid can enter and escape the chamber, wherein the first contact is mounted to the piston or the damper body, and wherein the delay in the engagement of the first contact with the second contact at least partly results from the time required to expel liquid from within said chamber through said opening when moving the damper body relative to the piston. 11. The connector part according to claim 10 , wherein said chamber comprises a spring that applies a force to the piston that pushes the piston in a direction in which the volume of the chamber is increased. 12. The connector part according to claim 1 , wherein the connector part has a forward end for mating with the second connector part and a rearward end at which a connection is provided, wherein the damper unit comprises: a damper body having a forward end and a rearward end, wherein the damper body includes a chamber that has an opening facing forwardly, a first spring bearing on one side against the rearward end of the damper body and at the other side against a connector housing of the connector part, a piston arranged in the opening of the chamber of the damper body, the piston extending forwardly, a second spring arranged in the chamber and bearing on one side against said piston and on the other side against a rearward wall of the chamber, the second spring urging the piston forwardly with respect to the damper body, and an opening in the chamber enabling a liquid to enter and escape the chamber, wherein said first contact is mounted to the damper body and wherein said piston is configured to be engaged by a shuttle pin of the connector part. 13. The connector part according to claim 12 , wherein the damper body is a movable element that has a first position in which the first contact engages the second contact when the connector part and the second connector part are in the mated state and a second position in which the first contact is spaced apart from the second contact when the connector part and the second connector part are in the mated state, wherein the damper unit is configured such that in the unmated state of the connector part, the damper body is in the first position and the first and second springs are in an extended state, and that upon mating of the connector part with the second connector part, the piston and the damper body are urged rearwardly, thereby compressing the first spring and bringing the damper body into the second position, whereby mating of the first contact with the second contact is prevented, and that after the connector part and the second connector part have reached the mated state, the damper body is urged forwardly by said first spring, thereby expelling liquid from within said chamber through said opening to dampen the movement, wherein the first contact is moved into engagement with the second contact. 14. A method of providing a connection in a subsea environment by means of a connector part of a subsea connector, wherein the connector part comprises at least a first contact configured for engagement with a respective second contact of a second connector part, wherein the method comprises: engaging the first connector part with the second connector part, activating a damper unit during the engagement, wherein at least the first contact is mounted to the damper unit, delaying the engagement of the first contact with the second contact of the second connector part by means of the damper unit during the engagement, after the first connector part and the second connector part are in a mated state, bringing the first contact into engagement with the second contact by means of the damper unit to provide the connection. 15. The method according to claim 14 , wherein the step of activating the damper unit during engagement comprises urging a damper body of the damper unit rearwardly in a housing of the connector part against the force of a spring, thereby moving the first contact rearwardly, and wherein the steps of delaying the