天線原理介紹-Antenna-Theoryppt課件

1、1,Base Station Antennas,CONFIDENTIAL- Proprietary Information,Antenna Theory Basic Principles for Daily Applications,November 2004,2,Dipole,3,3D View Antenna Pattern,4,Understanding the Mysterious “DB,dBd”Signal strength relative to a dipole in empty space “dBi”Signal strength relative to an isotrop

2、ic radiator “dB”Difference between two signal strengths “dBm”Absolute signal strength relative to 1 milliwatt 1 mWatt=0 dBm1 Watt=30 dBm20 Watts=43 dBm “dBc”Signal strength relative to a signal of known strength, in this case: the carrier signal Example: -100 dBc = 100 dB below carrier signalIf carr

3、ier is 100 Watt = 50 dBm-100 dBc = -50 dBm or 0.00001 mWatt,Note: TheLogarithmic Scale10 * log10 (Power Ratio,5,Effect of VSWR,VSWR,Return Loss (dB,Transmission Loss (dB,Power Reflected (,Power Trans. (,1.00 1.10 1.20 1.30 1.40 1.50 2.00,26.4 20.8 17.7 15.6 14.0 9.5,0.00 0.01 0.04 0.08 0.12 0.18 0.5

4、1,0.0 0.2 0.8 1.7 2.8 4.0 11.1,100.0 99.8 99.2 98.3 97.2 96.0 88.9,Good VSWR is only one component of an efficient antenna,6,Shaping Antenna Patterns,Vertical arrangement of properly phased dipoles allows control of radiation patterns at the horizon as well as above and below the horizon. The more d

5、ipoles are stacked vertically, the flatter the vertical pattern is and the higher the antenna coverage or “gain” in the general direction of the horizon,7,Shaping Antenna Patterns (cont . . .,Stacking 4 dipoles vertically in line changes the pattern shape (squashes the doughnut) and increases the ga

6、in over single dipole. The peak of the horizontal or vertical pattern measures the gain. The little lobes, illustrated in the lower section, are secondary minor lobes,Aperture of Dipoles,Vertical Pattern,Horizontal Pattern,4 Dipoles Vertically Stacked,Single Dipole,GENERAL STACKING RULE: Collinear e

7、lements (in-line vertically). Optimum spacing (for non-electrical tilt) is approximately 0.9. Doubling the number of elements increases gain by 3 dB, and reduces vertical beamwidth by half,8,Gain,What is it? Antenna gain is a comparison of the power/field characteristics of a device under test (DUT)

8、 to a specified gain standard,Why is it useful? Gain can be associated with coverage distance and/or obstacle penetration (buildings, foliage, etc,How is it measured? It is measured using data collected from antenna range testing. The reference gain standard must always be specified,What is Andrew s

9、tandard? Andrew conforms to the industry standard of +/-1 dB accuracy,9,Gain References (dBd and dBi,An isotropic antenna is a single point in space radiating in a perfect sphere (not physically possible) A dipole antenna is one radiating element (physically possible) A gain antenna is two or more r

10、adiating elements phased together,0 (dBd) = 2.15 (dBi,Isotropic (dBi) Dipole (dBd) Gain,Isotropic Pattern,3 (dBd) = 5.15 (dBi,Dipole Pattern,10,Principles of Antenna Gain,11,Theoretical Gain of Antennas (dBd,Could be horizontal radiator pairs fornarrow horizontal apertures,3 dB Horizontal Aperture (

11、Influenced by Grounded Back “Plate”,Typical Lengthof Antenna (ft., of Radiators Vertically Spaced (0.9,12,Gain vs. Length,13,Gain vs. Beamwidths,14,Antenna Gain,Gain (dBi) =Directivity (dBi) Losses (dB) Losses:ConductorDielectricImpedancePolarization Measure Using Gain by Comparison,15,Feed Networks

12、,Cable Microstripline, Corporate Feeds Dielectric Substrate Air Substrate T-Line Feed and Radiator,16,DB812 Omni AntennaVertical Pattern,17,932DG65T2E-MPattern Simulation,18,Main Lobe,What is it? The main lobe is the radiation pattern lobe that contains the majority portion of radiated energy,Why is

13、 it useful? Shaping of the pattern allows the contained coverage necessary for interference-limited system designs,How is it measured? The main lobe is characterized using a number of the measurements which will follow,What is Andrew standard? Andrew conforms to the industry standard,19,Half-Power B

14、eamwidthHorizontal and Vertical,What is it? The angular span between the half-power (-3 dB) points measured on the cut of the antennas main lobe radiation pattern,Why is it useful? It allows system designers to choose the optimum characteristics for coverage vs. interference requirements,How is it m

15、easured? It is measured using data collected from antenna range testing,What is Andrew standard? Andrew conforms to the industry standard,20,Front-To-Back Ratio,What is it? The ratio in dB of the maximum directivity of an antenna to its directivity in a specified rearward direction. Note that on a d

16、ual-polarized antenna, it is the sum of co-pol and cross-pol patterns,Why is it useful? It characterizes unwanted interference on the backside of the main lobe. The larger the number, the better,How is it measured? It is measured using data collected from antenna range testing,What is Andrew standar

17、d? Each data sheet shows specific performance. In general, traditional dipole and patch elements will yield 23-28 dB while the Directed Dipole style elements will yield 35-40 dB,21,Sidelobe Level,What is it? Sidelobe level is a measure of a particular sidelobe or angular group of sidelobes with resp

18、ect to the main lobe,Why is it useful? Sidelobe level or pattern shaping allows the minor lobe energy to be tailored to the antennas intended use. See Null Fill and Upper Sidelobe Suppression,How is it measured? It is always measured with respect to the main lobe in dB,What is Andrew standard? Andre

19、w conforms to the industry standard,22,Null Filling,What is it? Null Filling is an array optimization technique that reduces the null between the lower lobes in the elevation plane,Why is it useful? For arrays with a narrow vertical beam- width (less than 12), null filling significantly improves sig

20、nal intensity in all coverage targets below the horizon,How is it measured? Null fill is easiest explained as the relative dB difference between the peak of the main beam and the depth of the 1st lower null,What is Andrew standard? Most of Decibel arrays will have null fill of 20-30 dBwithout optimi

21、zation. To earn the label MaxFill, we expect no less than 15 and typically 10-12 dB,23,Null Fill,Important for antennas with narrow elevation beamwidths,24,Upper Sidelobe Suppression,What is it? Upper sidelobe suppression (USLS) is an array optimization technique that reduces the undesirable sidelob

22、es above the main lobe,Why is it useful? For arrays with a narrow vertical beamwidth (less than 12), USLS can significantly reduce interference due to multi-path or when the antenna is mechanically downtilted,How is it measured? USLS is the relative dB difference between the peak of the main beam pe

23、ak of the first upper sidelobe,What is Andrew standard? Most of Andrews arrays will have USLS of 15 dB without optimization. The goal of all new designs is to suppress the first upper sidelobe to unity gain or lower,25,Orthogonality,26,Cross-Pol Ratio (CPR,What is it? CPR is a comparison of the co-p

24、ol vs. cross-pol pattern performance of a dual-polarized antenna generally over the sector of interest (alternatively over the 3 dB beamwidth,Why is it useful? It is a measure of the ability of a cross-pol array to distinguish between orthogonal waves. The better the CPR, the better the performance

25、of polarization diversity,How is it measured? It is measured using data collected from antenna range testing and compares the two plots in dB over the specified angular range. Note: in the rear hemisphere, cross-pol becomes co-pol and vica versa,What is Andrew standard? For traditional dipoles, the

26、minimum is 10 dB; however, for the Directed Dipole style elements, it increases to 15 dB minimum,120,TYPICAL,120,DIRECTED DIPOLE,27,Horizontal Beam Tracking,What is Andrew standard? The Andrew beam tracking standard is +/-1 dB over the 3 dB horizontal beamwidth,What is it? It refers to the beam trac

27、king between the two beams of a +/-45 polarization diversity antenna over a specified angular range,Why is it useful? For optimum diversity performance, the beams should track as closely as possible,How is it measured? It is measured using data collected from antenna range testing and compares the t

28、wo plots in dB over the specified angular range,28,Sector Power Ratio (SPR,What is it? SPR is a ratio expressed in percentage of the power outside the desired sectorto the power inside the desired sector created by an antennas pattern,Why is it useful? It is a percentage that allows comparison of va

29、rious antennas. The better the SPR, the better the interference performance of the system,How is it measured? It is mathematically derived from the measured range data,What is Decibel Products standard? Andrew Directed Dipole style antennas have SPRs typically less that 2 percent,PUndesired,SPR (%),

30、X 100,PDesired,300,60,60,300,120,29,Beam Downtilt,In urban areas, service and frequency utilization are frequently improved by directing maximum radiation power at an area below the horizon. This Technique: Improves coverage of open areas close to the base station. Allows more effective penetration

31、of nearby buildings, particular high-traffic lower levels and garages. Permits the use of adjacent frequencies in the same general region,30,Electrical/Mechanical Downtilt,Mechanical downtilt lowers main beam, raises back lobe. Electrical downtilt lowers main beam and lowers back lobe. A combination of equal electrical and mechanical downtilts lowers main beam and brings back lobe onto the horizon,31,Electrical/Mechanical Downtilt,Mechanical,Electric