Elevator brake arrangement

The invention claimed is: 1 . An elevator brake arrangement, comprising: a body, a brake plate assembly, a spring assembly, an electromagnet arrangement and a counter element, and a rotating brake disc, wherein the brake plate assembly comprises at least two separate brake plates and a state detector, wherein the state detector comprises an antenna arranged to monitor operation states of more than one of the at least two brake plates. 2 . The elevator brake arrangement according to claim 1 , wherein the state detector is arranged to measure an instantaneous position of each brake plate in relation to the brake disc. 3 . The elevator brake arrangement according to claim 1 , wherein the state detector comprises a proximity sensor. 4 . The elevator brake arrangement according to claim 1 , wherein the state detector is arranged to recognize which one of the brake plates is closed and which one is open. 5 . The elevator brake arrangement according to claim 1 , wherein the antenna is placed with an offset in relation to a position of the brake plates. 6 . An elevator brake arrangement, comprising: a body; a brake plate assembly; a spring assembly; an electromagnet arrangement and a counter element; and a rotating brake disc, wherein the brake plate assembly comprises at least two separate brake plates and a state detector that is arranged to monitor the operation states of the at least two separate brake plates, wherein the state detector comprises an antenna that is placed with an offset in relation to the position of the at least two separate brake plates, and wherein a smaller area of the antenna overlaps the first brake plate in the direction of movement of the brake plate assembly and a greater area of the antenna overlaps the second brake plate in the direction of movement of the brake plate assembly. 7 . The elevator brake arrangement according to claim 1 , wherein the state detector is arranged to recognize which one of the brake plates is closed and which one is open by utilizing a non-homogenous field distribution. 8 . The elevator brake arrangement according to claim 1 , wherein the state detector is arranged to detect at least four different operation states of the brake plates. 9 . The elevator brake arrangement according to claim 8 , wherein the at least four different operation states of the brake plates are as follows: both the brake plates are open, the first brake plate is closed and the second brake plate is open, the second brake plate is closed and the first brake plate is open, and both the brake plates are closed. 10 . The elevator brake arrangement according to claim 1 , wherein one of the brake plates is arranged to hit the brake disc earlier than the other brake plate when a braking is actuated. 11 . The elevator brake arrangement according to claim 1 , wherein the brake plates are unequal in their thickness. 12 . The elevator brake arrangement according to claim 1 , wherein the electromagnet arrangement comprises a coil that is in common with both the brake plates. 13 . The elevator brake arrangement according to claim 1 , wherein an electromagnet arrangement comprises a separate coil for each brake plate. 14 . The elevator brake arrangement according to claim 13 , wherein the brake arrangement comprises an adjuster configured to adjust each brake plate separately. 15 . The elevator brake arrangement according to claim 2 , wherein the state detector comprises a proximity sensor. 16 . The elevator brake arrangement according to claim 1 , wherein the antenna is attached to a processor. 17 . The elevator brake arrangement according to claim 16 , wherein the counter element is spaced from the brake plate assembly in a direction of movement of the brake plate assembly, and wherein the rotating brake disc is in a gap between the brake plate assembly and the counter element.