Glass antenna for vehicle

The invention claimed is: 1. A glass antenna of a vehicle for receiving FM broadcast wave and AM broadcast wave comprising: a power feeding portion provided at a first lateral side portion of a side glass of the vehicle; a main element connected to the power feeding portion, the main element having; (a) a first line arranged along an upper side or a lower side of the side glass and extending straight in a lateral direction from the power feeding portion to a first end of a first bending portion arranged along a second lateral side of the side glass opposite the first lateral side of the side glass; (b) a second line having a first end is connected to a second end of the first bending portion opposite the first end of the first bending portion, the second line extending straight in the lateral direction from the second lateral side portion up to the first lateral side portion of the side glass substantially on a center line of the side glass; and (c) a third line arranged in a longitudinal direction along the first lateral side portion of the side glass, a first end of the third line being connected to a second end of the second line, and a second end of the third line being open; and a square bracket-shaped element having two parallel portions connected by a third portion there between, the square bracket-shaped element being arranged along a periphery of the side glass outside of the main element, one of the two parallel portions being arranged along the upper side of the side glass, the other of the two parallel portions being arranged along the lower side of the side glass, and the third portion being arranged along the second lateral side of the side glass, a first end of the square bracket-shaped element being connected to a connecting point of some midpoint of the main element, and when a wavelength of a center frequency of frequency band of a low frequency with respect to a center frequency of frequency band of the FM broadcast wave received by the glass antenna is X and a wavelength of a center frequency of frequency band of a high frequency with respect to the center frequency of frequency band of the FM broadcast wave received by the glass antenna is X′, and also when a wavelength shortening coefficient of the side glass is a, and further when a length of the main element is L1, a length of the square bracket shaped element is L2 and a length from the some midpoint of the main element at which the square bracket-shaped element is connected up to the power feeding portion is L3, these L1, L2 and L3 being set so as to substantially satisfy a following relationship; L 1=α*λ*¾, L 2+ L 3=α*λ′*¾ or L 1=α*λ′*¾, L 2+ L 3=α*λ*¾. 2. The glass antenna of the vehicle as claimed in claim 1 , wherein: a dummy element is arranged parallel to a part of the square bracket-shaped element in a region of the side glass remote from the main element. 3. The glass antenna of the vehicle as claimed in claim 1 , wherein: the square bracket-shaped element is arranged at a clearance of 10 mm or more from a flange peripheral edge of the vehicle where the side glass is mounted. 4. The glass antenna of the vehicle as claimed in claim 1 , wherein: a part of the square bracket-shaped element which extends along the main element is arranged at a distance of 10 mm or more from the main element.