W3513 Datasheet version 1.0. Access Point Router 802.11n Antenna. (04/08) Access Point Router 802.11n Antenna PWB Antenna with feed cable. Pulse Part Number: W3513 Features - Low profile &+ - Omni directional gain in XY-plane - Size W x L x H (16 x 70 x 0.9 mm) - Antenna feed cable length: 250mm (total) / 212mm ,% (from radiator edge) - Antenna feed cable: 1.13mm OD with U.FL compatible connector - Lead free materials - RoHS Compliant Product Applications *% - Access point routers 802.11n - WLAN/WiFi 802.11a/b/g/n Electrical specifications +25 C Note: Electrical characteristics are measured on free space. 2.4 2.5 GHz 4.9 5.85 GHz Typical free space performance Typical free space performance Frequency Range GHz 2.4 2.5 Frequency Range GHz 4.9 5.85 Linear Average Gain dBi -3,5 Linear Average Gain dBi -4,5 3D Peak Gain dBi 2,0 3D Peak Gain dBi 2,0 Total 3D Efficiency 72 / -1,4 (peak) Total 3D Efficiency 65 / -1,9 (peak) % / dB 69 / -1,6 (band edges) % / dB 50 / -3.0 (band edges) Return loss min. dB -10 Return loss min. dB -10 Impedance 50 Impedance 50 Operating Temperature C -40 to +85 Operating Temperature C -40 to +85 Pulse Finland Oy Takatie 6 90440 Kempele, Finland Tel: +358 207 935 500 Fax: +358 207 935 501 www.pulseeng.com/antennas 2008. All Rights Reserved.W3513 Datasheet version 1.0. Access Point Router 802.11n Antenna. (04/08) Access Point Router 802.11n Antenna PWB Antenna with feed cable. Pulse Part Number: W3513 Typical Electrical Characteristics (T=25 C) 2,4 GHz typical Return Loss S11/ impedance I QS QZ8S ( ( (*&& (*+& (+&& */&& */+& +&&& +&+& + && + +& +(&& +(+& +)&& +)+& +*&& +*+& ++&& +++& +,&& +,+& +-&& +-+& +.&& +.+& < k 6 5 GHz typical Return Loss S11/ impedance 8CWn =W dSZQ l7 8 Q =W S dZ (*&& (*+& (+&& */&& */+& +&&& +&+& + && + +& +(&& +(+& +)&& +)+& +*&& +*+& ++&& +++& +,&& +,+& +-&& +-+& +.&& +.+& ( < 7 ( Pulse Finland Oy Takatie 6 90440 Kempele, Finland Tel: +358 207 935 500 Fax: +358 207 935 501 www.pulseeng.com/antennas 2008. All Rights Reserved. IJ EF + /&& &&& &&& C>p IJ 7H J * .&& &&& &&& C>p IJ EF + /&& &&& &&& C>p IJ 7H J * .&& &&& &&& C>p l =W d CWn =W d h g QC>pS 9eh 9eh , & & & FHc FHc + & & + * & & + .+& &&& &&& C>p 9> I C K <I + .+& & C>p ( -(+ Z8 + Z8%H < & Z8 9> I C be C7= +..) f< - (/ ( )* ,&( * / =>p & / / Z8 ) & + * / =>p ( & +, (- ,&* &. 9ZX %%, &&/ ./(% Zgh 8=&BVg &. 9ZX %%, &&/ ./ * <=o * <=o ( & ( & & ( + & & ) & Zg V Z VcY BVm <V c IJ EF ) &&& &&& &&& C>p IJ 7H J ( &&& &&& &&& C>p IJ EF ) &&& &&& &&& C>p IJ 7H J ( &&& &&& &&& C>p QZ8S Q S h g QC>pS * + & * & & ) + (& ) & )& *& ( + +& ( & + ,& 9eh 9eh -& & FHc FHc .& & + /& & & ( +&& &&& &&& C>p 9> I C K <I ( + =>p ( , *.* Z8 + Z8%H < & Z8 9> I C be C7= diVa (9 : X ZcXn * *& - f< * *,) ( +- *., ( * =>p ) +,/ Z8 ( * =>p ) *., )- + &. 9ZX %%, &&/(&/&. Zgh 8=&BVg &. 9ZX %%, &&/(&/&% ) <=o ) <=o