Terminal

The invention claimed is: 1. A terminal used in an electronic circuit unit with a circuit board including an edge portion and a plurality of connection conductors on a surface of the edge portion, a housing for housing the circuit board and a plurality of terminals respectively provided on ends of a plurality of wires to be connected to the respective connection conductors of the circuit board and each including a contact portion to be brought into contact with the corresponding connection conductor, comprising: a wire connecting portion to be connected to an end portion of the wire; and a board connecting portion to be connected to the connection conductor; wherein the board connecting portion includes a substantially rectangular tubular main portion having opposite front and rear ends, a bottom wall formed with an opening and opposite first and second side walls extending from the bottom wall, a first resilient contact piece bent from the bottom wall at a first distance from the front end and extending into the tubular main body, the first resilient contact piece being adjacent the first side wall and having a first contact portion projecting into the opening to be brought resiliently into contact with the connection conductor and being resiliently deformable so as to allow a resilient displacement of the first contact portion and a second resilient contact piece bent from the bottom wall at a second distance from the front end and extending into the tubular main body, the second resilient contact piece being adjacent the second side wall and having a second contact portion projecting into the opening to be brought resiliently into contact with the connection conductor that is contacted by the first contact portion and being resiliently deformable so as to allow a resilient displacement of the second contact portion, and the first and second distances being different from one another so that the first and second resilient contact pieces are resiliently deformable independently of each other and have mutually different natural vibration frequencies. 2. The terminal of claim 1 , wherein the first and second resilient contact pieces are shaped to extend in specific longitudinal directions perpendicular to resilient displacement directions and have mutually different lengths in the longitudinal directions. 3. The terminal of claim 2 , wherein: the first resilient contact piece has opposite first and second ends in the longitudinal direction, the first contact portion being formed on the first end of the first resilient contact piece and the first resilient contact piece being resiliently deformable so that the first contact portion is displaced resiliently with the second end of the first resilient contact piece as a support; the second resilient contact piece has opposite first and second ends in the longitudinal direction, the second contact portion being formed on the first end of the second resilient contact piece and the second resilient contact piece being resiliently deformable so that the second contact portion is displaced resiliently with the second end of the second resilient contact piece as a support; and the first and second resilient contact pieces are arranged adjacent to each other in an arrangement direction perpendicular to the longitudinal directions and thickness directions thereof so that the longitudinal directions thereof are parallel. 4. The terminal of claim 3 , wherein the second end of the first resilient contact piece and the second end of the second resilient contact piece are arranged to be longitudinally separated from each other so that the first and second contact portions are adjacent to each other in the arrangement direction. 5. A terminal, comprising: a wire connecting portion to be connected to an end portion of a wire; and a board connecting portion extending from the wire connecting portion, the board connecting portion including: a substantially rectangular tubular main portion having opposite front and rear ends, a bottom wall and opposite first and second side walls extending from the bottom wall, a first resilient contact piece bent from the bottom wall at a first distance from the front end and extending into the tubular main body at a position adjacent the first side wall, the first resilient contact piece having a first contact at a specified distance from the rear end and being configured for contacting a mating contact, and a second resilient contact piece bent from the bottom wall at a second distance from the front end and extending into the tubular main body at a position adjacent the second side wall, the second resilient contact piece having a second contact portion at the specified distance from the rear end and being configured for contacting the mating contact, wherein the first and second distances are different from one another so that the first and second resilient contact pieces have mutually different natural vibration frequencies. 6. The terminal of claim 5 , further comprising at least one biasing member disposed in the tubular main body and being compressed for urging at least one of the first and second contact portions against the mating contact. 7. The terminal of claim 6 wherein the at least one biasing member comprises a first biasing member disposed for urging the first contact portion against the mating contact and a second biasing member disposed for urging the second contact portion against the mating contact.