FIXME **This page is not fully translated, yet. Please help completing the translation.**\\ //(remove this paragraph once the translation is finished)// ====== Short-circuited Quadrifilar helix ====== {{ :cs:antennas:qha:bolidozor_sc-qha_antenna_prototype.jpg?direct&800 |Bolidozor Short-circuited Quadrifilar helix prototype}} Antenna construction is supposed to tackle a following network limitations: * To increase a sensitivity for objects flying over the area of Czech Republic * To increase a gain of antennas used by our stations and thus increase the number of detected meteors * To eliminate fluctuating sensitivity towards different orientations of linearly polarised reflections * To improve the overall data quality * To enable a construction of antennas fields that would make it possible to calculate an estimated direction of signal ===== Parameters ===== NEC model was used to calculate the radiation characteristics and impedance adjustment of antenna for a given band. {{ :cs:antennas:qha:qha_rp.png?600 |Radiation characteristics}} The carrier frequency of [[en:graves|GRAVEsu]] is highlighted in the graph by a red vertical line. {{ :cs:antennas:qha:qha_graves_gain_vswr.png?600 | Antenna adjustement for GRAVES carrier frequency}} ===== Construction ===== Structural parts of the antenna are primarily made of galvanised steel components. Those parts, which are under a higher current load are made of copper tubes. Antenna’s dimensions were optimised using a [[https://github.com/bolidozor/NEC-models/blob/optimize/antennas/src/SC-QHA.ipynb|computer model]] ==== Dimensions ==== * Helix diameter: 389.9 mm * Helix height : 312.2 mm (angle of inclination 27 degrees) * Cutting length of upper cross (??Řezná) : 369.9 mm * Cutting length of helix arm : 687.4 mm ==== Material ==== Phasing lines (?? fázovací vedení) of the antenna is made of coaxial cable RG58U. Quaterwave length, in this case, is 295 mm. Antenna helix is made of copper tubes with outer diameter of 18 mm. The tubes are made of ‘soft’ copper, used in air-conditioning units installations. They are available in reel that makes it much easier to construct the antenna. {{:cs:antennas:qha:cu_tube_reel.jpg?direct&600|Copper tube’s reel.}} * 400x Galvanized tear rivet (?? trhací nýt) 4.8x10 mm ==== Construction ==== {{:cs:antennas:qha:sc-qha_base.jpg?direct&600|The basic construction elements of SC-QHA antenna}} The antenna is made of four pieces of base squares that serve as a universal ground potential. These squares are screwed together at each side by a four M8 screws. There is a fan washer (?? vějířová podložka) at both sides of the screw. A reason for this is a better conductivity of connection and, at the same time, better prevention against a spontaneous loosening during manipulation with antenna. {{:cs:antennas:qha:base_contact_point.jpg?direct&600|Connection of sieves in the basis of antenna.}} Zkratovací kříž (??) at the top of the helix is soldered from 3 pieces of tubes made of ‘hard’ copper. It is probably the most challenging part of the antenna to construct - unfortunately, a copper fitting (?? měděná tvarovka) in the shape of a cross is not available. The cross is thus made of one longer tube with two shorter ones soldered perpendicularly to it. The shorter tubes have their walls pierced, so they fit precisely to the longer tube. It is also necessary to keep the sum of the lengths of the tubes such, that both arms of the cross measure 370 mm. {{:cs:antennas:qha:sc-qha_top_tube_cut.jpg?direct&600|Úprava řezu části vrchního zkratovacího kříže ??}} ===== Measured characteristics ===== The assembled antenna underwent a measurement of adaptation (přizpůsobení antény) using a spectral analyser DSA815-TG with [[http://www.ebay.com/itm/3MHz-1200MHz-RF-Reflection-Bridge-Directional-VSWR-SWR-Bridge-Antenna-Analyzer-/181865632141?|3-1200 MHz reflection bridge]]. {{:cs:antennas:qha:antenna_reflection_measurement_setup.jpg?direct&600|The set used to measure reflections on the antenna}} The antenna is sensitive to the way of connecting the phasing lines. Two basic possibilities can be seen on the following pictures. They differ in the direction of the rotation of the antenna feeds phase (?? liší směrem otáčení fáze přívodů antény). {{:cs:antennas:qha:sc-qha_phased.jpg?direct&600|Phasing lines connected in resonance with the helix}} {{:cs:antennas:qha:sc-qha_prototype_resonance.png?direct&600|Resonance of the antenna prototype}} As you can see on the graph, the resonance of the antenna is approximately 160 MHz, which is a bit higher compared to model. The exact cause of this phenomenon is not yet know. It might be caused by a change of velocity factor (?? činitel zkracení) due to temperature changes in coaxial cable under direct sunshine. {{:cs:antennas:qha:sc-qha_antiphased.jpg?direct&600|Phasing lines connected in antiphase with the antenna helix}} {{:cs:antennas:qha:sc-qha_antiphased.png?direct&600|Reflections measured at (?? při napáječích) connected in antiphase to antenna coil (??vinutí šroubovice).}} When connecting the phase lines conversely, there is no considerable resonance observable, which would drain the supplied energy. ====== References ====== * [[http://personal.ee.surrey.ac.uk/Personal/T.Brown/research/qha.html|Phasing lines on the PCB]].