Off-the-Shelf Antennas for Controlled-Reception-Pattern Antenna Arrays
By Yu-Hsuan Chen, Sherman Lo, Dennis M. Akos, David S. De Lorenzo, and Per Enge
INNOVATION INSIGHTS by Richard Langley
THE ANTENNA IS A CRITICAL COMPONENT OF ANY GNSS RECEIVING EQUIPMENT. It must be carefully designed for the frequencies and structures of the signals to be acquired and tracked. Important antenna properties include polarization, frequency coverage, phase-center stability, multipath suppression, the antenna’s impact on receiver sensitivity, reception or gain pattern, and interference handling. While all of these affect an antenna’s performance, let’s just look at the last two here.
The gain pattern of an antenna is the spatial variation of the gain, or ratio of the power delivered by the antenna for a signal arriving from a particular direction compared to that delivered by a hypothetical isotropic reference antenna. Typically, for GNSS antennas, the reference antenna is also circularly polarized and the gain is then expressed in dBic units.
An antenna may have a gain pattern with a narrow central lobe or beam if it is used for communications between two fixed locations or if the antenna can be physically steered to point in the direction of a particular transmitter. GNSS signals, however, arrive from many directions simultaneously, and so most GNSS receiving antennas tend to be omni-directional in azimuth with a gain roll-off from the antenna boresight to the horizon.
While such an antenna is satisfactory for many applications, it is susceptible to accidental or deliberate interference from signals arriving from directions other than those of GNSS signals. Interference effects could be minimized if the gain pattern could be adjusted to null-out the interfering signals or to peak the gain in the directions of all legitimate signals. Such a controlled-reception-pattern antenna (CRPA) can be constructed using an array of antenna elements, each one being a patch antenna, say, with the signals from the elements combined before feeding them to the receiver. The gain pattern of the array can then be manipulated by electronically adjusting the phase relationship between the elements before the signals are combined. However, an alternative approach is to feed the signals from each element to separate banks of tracking channels in the receiver and form a beam-steering vector based on the double-difference carrier-phase measurements from pairs of elements that is subsequently used to weight the signals from the elements before they are processed to obtain a position solution. In this month’s column, we learn how commercial off-the-shelf antennas and a software-defined receiver can be used to design and test such CRPA arrays.
“Innovation” features discussions about advances in GPS technology, its applications, and the fundamentals of GPS positioning. The column is coordinated by Richard Langley, Department of Geodesy and Geomatics Engineering, University of New Brunswick. To contact him with topic ideas, email him at lang @ unb.ca.
Signals from global navigation satellite systems are relatively weak and thus vulnerable to deliberate or unintentional interference. An electronically steered antenna array system provides an effective approach to mitigate interference by controlling the reception pattern and steering the system’s beams or nulls. As a result, so-called controlled-reception-pattern-antenna (CRPA) arrays have been deployed by organizations such as the U.S. Department of Defense, which seeks high levels of interference rejection.
Our efforts have focused on developing a commercially viable CRPA system using commercial off-the-shelf (COTS) components to support the needs of Federal Aviation Administration (FAA) alternative position navigation and timing (APNT) efforts. In 2010, we implemented a seven-element, two-bit-resolution, single-beam and real-time CRPA software receiver. In 2011, the receiver was upgraded to support all-in-view, 16-bit-resolution with four elements.
Even though we can implement these CRPA software receivers in real time, the performance of anti-interference is highly dependent on the antenna array layout and characteristics of the antenna elements. Our beamforming approach allows us to use several COTS antennas as an array rather than a custom-designed and fully calibrated antenna. The use of COTS antennas is important, as the goal of our effort is to develop a CRPA for commercial endeavors — specifically for robust timing for the national airspace. Hence, it is important to study the geometry layout of the individual antennas of the array to assess the layouts and to determine how antenna performance affects the array’s use.
In our work, we have developed a procedure for calculating the electrical layouts of an antenna array by differential carrier-phase positioning. When compared to the physical layout, the results of electrical layouts can be used to determine the mutual coupling effect of each combination. Using the electrical layout, the resultant gain patterns can be calculated and used to see the beamwidth and the side-lobe issue. This is important as these factors have significant effects on anti-interference performance. This study focuses on understanding the performance effects of geometry and developing a method for describing the best geometry.
We adopted three models of COTS antenna and two possible layouts for a four-element array. Then, signal collection hardware consisting of four Universal Software Radio Peripheral (USRP) software-defined radios and one host personal computer was assembled to collect array data sets for each layout/antenna combination. Our developed CRPA software receiver was used to process all data sets and output carrier-phase measurements.
In this article, we will present the pattern analysis for the two selected layouts and describe how we collected the experimental data. We’ll then show the results of calculating the electrical spacing for the layouts are compare them to the physical layouts. Lastly, we’ll show the resulting patterns, discuss the antenna mutual coupling effects, and give our conclusions.
Antenna Array Pattern Analysis
Pattern is defined as the directional strength of a radio-frequency signal viewed from the antenna. The pattern of an antenna array is the product of the isotropic array factor and the isolated element pattern. We assume that the pattern of each element is identical and only consider the isotropic array factor. FIGURE 1 shows the coordination of an antenna array. The first element is set as a reference position. The x-axis is the east direction, the y-axis is the north direction, and the z-axis is the up direction. The baseline vector of the ith antenna is given by and is the unit vector to the satellite.
Figure 1. Antenna array geometry and direction of satellite. Array elements are identified as E#1, E#2, E#3, and E#4.
The isotropic array factor is given by
(1)
where λ is wavelength, and Ai is a complex constant. Currently, we only implement a four-element-array CRPA software receiver in real time. Hence, we analyze two kinds of layout of half-wavelength four-element arrays: a symmetrical Y array and a square array. Each antenna is separated from its nearest neighbor by a half wavelength. FIGURE 2 shows photos of the two layouts. FIGURE 3 shows the physical layouts.
Figure 2. Photos of antenna arrays (left: Y array; right: square array).
Figure 3A. Physical layout of antenna arrays (Y array).
Figure 3B. Physical layout of antenna arrays (square array).
The antenna patterns towards an elevation angle of 90 degrees, computed using equation 1 and the design layouts, are shown in FIGURE 4. One of the key characteristics of a pattern is the beamwidth, which is defined as the angle with 3-dB loss. FIGURE 5 shows the patterns in elevation angle where the beamwidth of the Y layout is 74 degrees and 86 degrees for the square layout. A narrow beamwidth will benefit anti-interference performance particularly if the interference is close to the direction of a target satellite.
Figure 4. Patterns of antenna arrays (left: Y array; right: square array).
Figure 5. Pattern beamwidths of Y and square arrays (3 dB beamwidth shown).
Specifications of COTS Antennas
Typically, the COTS antenna selection is determined by high gain and great out-of-band rejection. TABLE 1 shows the specifications of the three antenna models used in this article. These antennas are all patch antennas. The antennas are equipped with surface-acoustic-wave filters for rejecting out-of-band signals. A three-stage low noise amplifier with over 30 dB gain is also embedded in each antenna.
Table 1. Specifications of COTS antennas used.
Signal Collection Hardware and Experimental Setup
The hardware used to collect the antenna array datasets is shown in FIGURE 6 with block-diagram representation in FIGURE 7. The hardware includes a four-element antenna array, four USRP2 software radio systems and one host computer. The signal received from the COTS antenna passes to a USRP2 board equipped with a 800–2300 MHz DBSRX2 programmable mixing and down-conversion daughterboard. The individual USRP2 boards are synchronized by a 10-MHz external common clock generator and a pulse-per-second (PPS) signal. The USRP2s are controlled by the host computer running the Ubuntu distribution of Linux. The open-source GNU Radio software-defined radio block is used to configure USRP2s and collect datasets. All USRP2s are configured to collect the L1 (1575.42 MHz) signal. The signals are converted to near zero intermediate frequency (IF) and digitized to 14-bit complex outputs (I and Q).
Figure 6. Photo of the signal collection hardware.
Figure 7. Block diagram of the signal collection hardware.
The sampling rate is set as 4 MHz. The host computer uses two solid state drives for storing data sets. For our study, a 64-megabytes per second data transfer rate is needed. The fast solid state drives are especially useful when using high bandwidth signals such as L5, which will require an even higher data streaming rate (80 megabytes per second per channel).
To compare the physical and electrical layouts of the antenna arrays, we set up the signal collection hardware to record six data sets for the two layouts and the three antenna models as shown in TABLE 2. All of the data sets were five minutes long to obtain enough carrier-phase measurements for positioning.
Table 2. Experimental setups.
Logging Carrier-Phase Measurements
To calculate the precise spacing between the antenna elements, hundreds of seconds of carrier-phase measurements from each element are needed. The collected data sets were provided by our in-house-developed CRPA software receiver. The receiver was developed using Visual Studio under Windows. Most of source code is programmed using C++. Assembly language is used to program the functions with high computational complexity such as correlation operations. The software architecture of the receiver is depicted in FIGURE 8. This architecture exploits four sets of 12 tracking channels in parallel to process each IF signal from an antenna element. Each channel is dedicated to tracking the signal of a single satellite. The tracking channels output carrier-phase measurements to build the steering vectors for each satellite. The Minimum Variance Distortionless Response (MVDR) algorithm was adopted for adaptively calculating the weights for beamforming. Here, there are 12 weight sets, one for each satellite in a tracking channel, for the desired directions of satellites.
Figure 8. Block diagram of the software architecture.
Using the pre-correlation beamforming approach, the weights are multiplied with IF data and summed over all elements to form 12 composite signals. These signals are then processed by composite tracking channels. Finally, positioning is performed if pseudoranges and navigation messages are obtained from these channels. FIGURE 9 is the graphical user interface (GUI) of the CRPA software receiver. It consists of the channel status of all channels, carrier-phase differences, positioning results, an east-north (EN) plot, a sky plot, a carrier-to-noise-density (C/N0) plot and the gain patterns of the array for each tracked satellite. In the figure, the CRPA software receiver is tracking 10 satellites and its positioning history is shown in the EN plot. The beamforming channels have about 6 dB more gain in C/N0 than the channels of a single element. In each pattern, the direction with highest gain corresponds to the direction of the satellite. While the CRPA software receiver is running, the carrier-phase measurements of all elements and the azimuth and elevation angle of the satellites are logged every 100 milliseconds. Each data set in Table 2 was processed by the software receiver to log the data.
Figure 9. Screenshot of the controlled-reception-pattern-antenna software-receiver graphical user interface.
Electrical Layout of Antenna Array – Procedure
The procedure of calculating the electrical layout of an antenna array is depicted in FIGURE 10. The single-difference integrated carrier phase (ICP) between the signals of an element, i, and a reference element, j, is represented as:
(2)
where rkij is differential range toward the kth satellite between the ith and jth antenna elements (a function of the baseline vector between the ith and jth elements), δLij is the cable-length difference between the ith and jth antenna elements, Nkij is the integer associated with Φkij , εkij and is the phase error. The double-difference ICP between the kth satellite and reference satellite l is represented as:
(3)
The cable-length difference term is subtracted in the double difference. Since the distances between the antenna elements are close to one wavelength, equation (3) can be written as:
(4)
where is the unit vector to satellite k, pij is the baseline vector between the ith and jth elements. By combining all the double-difference measurements of the ijth pair of elements, the observations equation can be represented as:
(5)
From the positioning results of composite channels, the azimuth and elevation angle of satellites are used to manipulate matrix G. To solve equation (5), the LAMBDA method was adopted to give the integer vector N. Then, pij is solved by substituting N into equation (5). Finally, the cable-length differences are obtained by substituting the solutions of N and pij into equation (2).
This approach averages the array pattern across all satellite measurements observed during the calibration period.
Figure 10. Procedure for calculating antenna-array electrical spacing.
Electrical Layout of Antenna Array – Results
Using the procedure in the previous section, all electrical layouts of the antenna array were calculated and are shown in FIGURES 11 and 12. We aligned the vectors from element #1 to element #2 for all layouts. TABLE 3 lists the total differences between the physical and electrical layouts. For the same model of antenna, the Y layout has less difference than the square layout. And, in terms of antenna model, antenna #1 has the least difference for both Y and square layouts. We could conclude that the mutual coupling effect of the Y layout is less than that of the square layout, and that antenna #1 has the smallest mutual coupling effect among all three models of antenna for these particular elements and observations utilized.
Figure 11. Results of electrical layout using three models of antenna compared to the physical layout for the Y array.
Figure 12. Results of electrical layout using three models of antenna compared to physical layout for the square array.
Table 3. Total differences between physical and electrical layouts.
To compare the patterns of all calculated electrical layouts, we selected two specific directions: an elevation angle of 90 degrees and a target satellite, WAAS GEO PRN138, which was available for all data sets. The results are shown in FIGURES 13 and 14, respectively. From Figure 13, the beamwidth of the Y layout is narrower than that of the square layout for all antenna models. When compared to Figure 5, this result confirms the validity of our analysis approach. But, in Figure 14, a strong sidelobe appears at azimuth -60º in the pattern of Y layout for antenna #2. If there is some interference located in this direction, the anti-interference performance of the array will be limited. This is due to a high mutual coupling effect of antenna #2 and only can be seen after calculating the electrical layout.
Figure 13. Patterns of three models of antenna and two layouts toward an elevation angle of 90 degrees.
Figure 14. Patterns of three models of antenna and two layouts toward the WAAS GEO satellite PRN138.
Conclusions
The results of our electrical layout experiment show that the Y layout has a smaller difference with respect to the physical layout than the square layout. That implies that the elements of the Y layout have less mutual coupling. For the antenna selection, arrays based on antenna model #1 showed the least difference between electrical and physical layout. And its pattern does not have a high grating lobe in a direction other than to the target satellite.
The hardware and methods used in this article can serve as a testing tool for any antenna array. Specifically, our methodology, which can be used to collect data, compare physical and electrical layouts, and assess resultant antenna gain patterns, allows us to compare the performances of different options and select the best antenna and layout combination. Results can be used to model mutual coupling and the overall effect of layout and antenna type on array gain pattern and overall CRPA capabilities. This procedure is especially important when using COTS antennas to assemble an antenna array and as we increase the number of antenna elements and the geometry possibilities of the array.
Acknowledgments
The authors gratefully acknowledge the work of Dr. Jiwon Seo in building the signal collection hardware. The authors also gratefully acknowledge the Federal Aviation Administration Cooperative Research and Development Agreement 08-G-007 for supporting this research. This article is based on the paper “A Study of Geometry and Commercial Off-The-Shelf (COTS) Antennas for Controlled Reception Pattern Antenna (CRPA) Arrays” presented at ION GNSS 2012, the 25th International Technical Meeting of the Satellite Division of The Institute of Navigation, held in Nashville, Tennessee, September 17–21, 2012.
Manufacturers
The antennas used to construct the arrays are Wi-Sys Communications Inc., now PCTEL, Inc. models WS3978 and WS3997 and PCTEL, Inc. model 3978D-HR. The equipment used to collect data sets includes Ettus Research LLC model USRP2 software-defined radios and associated DBSRX2 daughterboards.
Yu-Hsuan Chen is a postdoctoral scholar in the GNSS Research Laboratory at Stanford University, Stanford, California.
Sherman Lo is a senior research engineer at the Stanford GNSS Research Laboratory.
Dennis M. Akos is an associate professor with the Aerospace Engineering Science Department in the University of Colorado at Boulder with visiting appointments at Luleå Technical University, Sweden, and Stanford University.
David S. De Lorenzo is a principal research engineer at Polaris Wireless, Mountain View, California, and a consulting research associate to the Stanford GNSS Research Laboratory.
Per Enge is a professor of aeronautics and astronautics at Stanford University, where he is the Kleiner-Perkins Professor in the School of Engineering. He directs the GNSS Research Laboratory.
FURTHER READING
• Authors’ Publications
“A Study of Geometry and Commercial Off-The-Shelf (COTS) Antennas for Controlled Reception Pattern Antenna (CRPA) Arrays” by Y.-H. Chen in Proceedings of ION GNSS 2012, the 25th International Technical Meeting of The Institute of Navigation, Nashville, Tennessee, September 17–21, 2012, pp. 907–914 (ION Student Paper Award winner).
“A Real-Time Capable Software-Defined Receiver Using GPU for Adaptive Anti-Jam GPS Sensors” by J. Seo, Y.-H. Chen, D.S. De Lorenzo, S. Lo, P. Enge, D. Akos, and J. Lee in Sensors, Vol. 11, No. 9, 2011, pp. 8966–8991, doi: 10.3390/s110908966.
“Real-Time Software Receiver for GPS Controlled Reception Pattern Array Processing” by Y.-H. Chen, D.S. De Lorenzo, J. Seo, S. Lo, J.-C. Juang, P. Enge, and D.M. Akos in Proceedings of ION GNSS 2010, the 23rd International Technical Meeting of The Institute of Navigation, Portland, Oregon, September 21–24, 2010, pp. 1932–1941.
“A GNSS Software Receiver Approach for the Processing of Intermittent Data” by Y.-H. Chen and J.-C. Juang in Proceedings of ION GNSS 2007, the 20th International Technical Meeting of The Institute of Navigation, Fort Worth, Texas, September 25–28, 2007, pp. 2772–2777.
• Controlled-Reception-Pattern Antenna Arrays
“Anti-Jam Protection by Antenna: Conception, Realization, Evaluation of a Seven-Element GNSS CRPA” by F. Leveau, S. Boucher, E. Goron, and H. Lattard in GPS World, Vol. 24, No. 2, February 2013, pp. 30–33.
“Development of Robust Safety-of-Life Navigation Receivers” by M.V.T. Heckler, M. Cuntz, A. Konovaltsev, L.A. Greda, A. Dreher, and M. Meurer in IEEE Transactions on Microwave Theory and Techniques, Vol. 59, No. 4, April 2011, pp. 998–1005, doi: 10.1109/TMTT.2010.2103090.
Phased Array Antennas, 2nd Edition, by R. C. Hansen, published by John Wiley & Sons, Inc., Hoboken, New Jersey, 2009.
• Antenna Principles
“Selecting the Right GNSS Antenna” by G. Ryley in GPS World, Vol. 24, No. 2, February 2013, pp. 40–41 (in PDF of 2013 Antenna Survey.)
“GNSS Antennas: An Introduction to Bandwidth, Gain Pattern, Polarization, and All That” by G.J.K. Moernaut and D. Orban in GPS World, Vol. 20, No. 2, February 2009, pp. 42–48.
“A Primer on GPS Antennas” by R.B. Langley in GPS World, Vol. 9, No. 7, July 1998, pp. 50-54.
• Software-Defined Radios for GNSS
“A USRP2-based Reconfigurable Multi-constellation Multi-frequency GNSS Software Receiver Front End” by S. Peng and Y. Morton in GPS Solutions, Vol. 17, No. 1, January 2013, pp. 89-102.
“Software GNSS Receiver: An Answer for Precise Positioning Research” by T. Pany, N. Falk, B. Riedl, T. Hartmann, G. Stangl, and C. Stöber in GPS World, Vol. 23, No. 9, September 2012, pp. 60–66.
“Simulating GPS Signals: It Doesn’t Have to Be Expensive” by A. Brown, J. Redd, and M.-A. Hutton in GPS World, Vol. 23, No. 5, May 2012, pp. 44–50.
Digital Satellite Navigation and Geophysics: A Practical Guide with GNSS Signal Simulator and Receiver Laboratory by I.G. Petrovski and T. Tsujii with foreword by R.B. Langley, published by Cambridge University Press, Cambridge, U.K., 2012.
“A Real-Time Software Receiver for the GPS and Galileo L1 Signals” by B.M. Ledvina, M.L. Psiaki, T.E. Humphreys, S.P. Powell, and P.M. Kintner, Jr. in Proceedings of ION GNSS 2006, the 19th International Technical Meeting of The Institute of Navigation, Fort Worth, Texas, September 26–29, 2006, pp. 2321–2333.
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Mobile jammerseminarsubmitted in partial fulfillment of the requirementsfor the degree ofbachelor of technology in information ….toshiba pa3743e-1ac3 ac adapter 19vdc 1.58a power supply adp-30j,radio shack 23-243 ac dc adapter 12v 0.6a switching power supply.9-12v dc charger 500-1000ma travel iphone ipod ac adapter wall h,atc-520 dc adapter used 1x3.5 travel charger 14v 600ma.black&decker bdmvc-ca nicd battery charger used 9.6v 18v 120vac~,globtek dj-60-24 ac adapter 24vac 2.5a class 2 transformer 100va,dve dsa-0251-05 ac adapter 5vdc 5a used 2.5x5.5x9mm 90 degree,about radar busters this site is family owned and founded by ",delta electronics adp-90sn ac adapter 19v 4.74a power supply,motorola spn4474a ac adapter 7vdc 300ma cell phone power supply.leap frog ad529 ac adapter 5vdc 1500ma used usb switching power.it employs a closed-loop control technique,dve dsa-12g-12 fus 120120 ac adapter 12vdc 1a used -(+) 90° 2x5..car ac adapter used power supply special phone connector,sony ac-v25b ac adapter 7.5v 1.5a 10v 1.1a charger power supply.plantronics 7501sd-5018a-ul ac adapter 5v 180ma bluetooth charge,hon-kwang d7-10 ac adapter 7.5vdc 800ma used -(+) 1.7x5.5x12mm 9,it consists of an rf transmitter and receiver,t4 spa t4-2mt used jettub switch power supply 120v 15amp 1hp 12..
gps jammer with battery operated wings
Dymo tead-48-2460600u ac adapter 24vdc 600ma used -(+)- 90 degre,nokia ac-3n ac adapter cell phone charger 5.0v 350ma asian versi,koolatron abc-1 ac adapter 13v dc 65w used battery charger 120v.telxon nc6000 ac adapter 115v 2a used 2.4x5.5x11.9mm straight.creative sy-12160a-bs ac adapter 11.5v 1600ma used 2x5.5mm uk pl,delta adp-65mh b ac adapter 19vdc 3.42a used 1.8 x 5.5 x 12mm.dve dsa-0151d-09 ac adapter 9vdc 2a -(+)- 2.5x5.5mm 100-240vac p,bellsouth dv-1250 ac adapter 12vdc 500ma power supply,motorola ntn9150a ac adapter 4.2vdc 0.4a 6w charger power supply,netgear van70a-480a ac adapter 48vdc 1.45a -(+) 2.5x5.5mmite p,3com dsa-15p-12 us 120120 ac adapter 12vdc 1a switching power ad,oncommand dv-1630ac ac adapter 16vac 300ma used cut wire direct,jvc ap-v16u ac adapter 11vdc 1a power supply,motorola psm5049a ac adapter dc 4.4v 1.5a cellphone charger,databyte dv-9319b ac adapter 13.8vdc 1.7a 2pin phoenix power sup,ac power control using mosfet / igbt,this project utilizes zener diode noise method and also incorporates industrial noise which is sensed by electrets microphones with high sensitivity,pulses generated in dependence on the signal to be jammed or pseudo generatedmanually via audio in,casio ad-12ul ac adapter 12vdc 1500ma +(-) 1.5x5.5mm 90° 120vac.lishin lse0202c2090 ac adapter 20v dc 4.5a power supply.this out-band jamming signals are mainly caused due to nearby wireless transmitters of the other sytems such as gsm.ibm 02k6549 ac adapter 16vdc 3.36a used -(+) 2.5x5.5mm 90° degre,the marx principle used in this project can generate the pulse in the range of kv,jda-22u ac adapter 22vdc 500ma power glide charger power supply.eng 3a-122du12 ac adapter 12vdc 1a -(+) 2x5.5mm used power suppl,this blocker is very compact and can be easily hide in your pocket or bag,delta adp-65hb bb ac adapter 19vdc 3.42a used-(+) 2.5x5.5mm 100-.oem ads18b-w 220082 ac adapter 22vdc 818ma new -(+)- 3x6.5mm ite.ring core b1205012lt used 12v 50va 4.2a class 2 transformer powe.exvision adn050750500 ac adapter 7.5vdc 500ma used -(+) 1.5x3.5x,atlinks 5-2520 12v ac adapter 450ma 11w class 2 power supply.jvc aa-v70u camcorder dual battery charger used 3.6vdc 1.3a 6vdc.neonpro sps-60-12-c 60w 12vdc 5a 60ew ul led power supply hyrite,ibm pscv540101a ac adapter 12v 4.5v used 4.4 x 5.8 x 10.3mm roun,finecom pa-1121 ac adapter 19vdc 6.32a 2.5x5.5mm -(+) 120w power.320 x 680 x 320 mmbroadband jamming system 10 mhz to 1,dell hp-af065b83 ac dc adapter 19.5v 3.34a laptop power supply.motorola 35048035-a1 ac adapter 4.8vdc 350ma spn4681c used cell.baknor 66dt-12-2000e ac dc adapter 12v 2a european power supply.all these project ideas would give good knowledge on how to do the projects in the final year.| verizon gps jammer with cooling | 4885 |
| gps jammer with battery unhooked battery | 1268 |
| gps jammer work jackets with hood | 2102 |
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| gps jammer with battery lights for indoors | 2607 |
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Here is the project showing radar that can detect the range of an object,sony ac-fd008 ac adapter 18v 6.11a 4 pin female conector,anoma electric ad-9632 ac adapter 9vdc 600ma 12w power supply,cyber acoustics ac-8 ca rgd-4109-750 ac adapter 9vdc 750ma +(-)+,sony ac-64n ac adapter 6vdc 500ma used -(+) 1.5x4x9.4mm round ba.code-a-phonedv-9500-1 ac adapter 10v 500ma power supply.insignia u090070d30 ac adapter 9vdc 700ma used +(-)+ 2x5.5mm rou,li shin 0217b1248 ac adapter 12vdc 4a -(+)- 2x5.5mm 100-240vac p.motorola spn4226a ac adapter 7.8vdc 1a used power supply.ibm 02k6665 ac adapter 16vdc 4.5a use-(+) 2.5x5.5mm power supply.4.5vdc 350ma dc car adapter charger used -(+) 1x3.5x9.6mm 90 deg,hipro hp-a0904a3 ac adapter 19vdc 4.74a 90w used -(+)- 2x5.5mm 9,fsp 150-aaan1 ac adapter 24vdc 6.25a 4pin 10mm +(::)- power supp,remington ms3-1000c ac dc adapter 9.5v 1.5w power supply.this is as well possible for further individual frequencies,edac power ea1050b-200 ac adapter 20vdc 3a used 2.5x5.5x9mm roun.this is the newly designed 22-antenna 5g jammer.ps120v15-d ac adapter 12vdc 1.25a used2x5.5mm -(+) straight ro,philips tc21m-1402 ac adapter 5-59vdc 35w 25w used db9 connecto,moso xkd-c2000ic5.0-12w ac adapter 5vdc 2a used -(+) 0.7x2.5x9mm.nextar sp1202500-w01 ac adapter 12vdc 2.5a used -(+)- 4.5 x 6 x,astec da2-3101us-l ac adapter 5vdc 0.4a power supply,rexon ac-005 ac adapter 12v 5vdc 1.5a 5pin mini din power supply,the latest 5g signal jammers are available in the jammer -buy store.3m 725 wrist strap monitor used 69wl inspection equipment,hipro hp-ok065b13 ac adapter 18.5vdc 3.5a 65w used -(+) 2x5.5x9..radioshack 273-1695 ac adapter 3,5,6,6.5vdc 2.5a digital camera.2110 to 2170 mhztotal output power,can be adjusted by a dip-switch to low power mode of 0.delta adp-50gb ac dc adapter 19v 2.64a power supply gateway.information technology s008cm0500100 ac adapter 5vdc 1000ma used,samsung tad437 jse ac adapter 5vdc 0.7a used.travel charger powe.ac adapter 4.5v 9.5v cell phone power supply,axis a31207c ac adapter 12vac 500ma used 2.5x5.5 x 11.3mm 90 deg.cui 48-12-1000d ac adapter 12vdc 1a -(+)- 2x5.5mm 120vac power s.reverse polarity protection is fitted as standard,514 ac adapter 5vdc 140ma -(+) used 2.5 x 5.5 x 12mm straight ro,please visit the highlighted article,apple powerbook duo aa19200 ac adapter 24vdc 1.5a used 3.5 mm si,drone signal scrambler anti drone net jammer countermeasures against drones jammer.
Motorola ssw-0828 ac adapter 6.25v 350ma cell phone chargercon,condor dv-51aat ac dc adapter 5v 1a power supply.ibm thinkpad 73p4502 ac dc auto combo adapter 16v 4.55a 72w,cyber acoustics u075035d ac adapter 7.5vdc 350ma +(-)+ 2x5.5mm 1,archer 273-1651 ac adapter 9vdc 500ma used +(-) 2x5x12mm round b.toshiba pa-1600-01 ac dc adapter 19v 3.16a power supply lcd.the unit requires a 24 v power supply,3com p48240600a030g ac adapter 24vdc 600ma used -(+)- 2x5.5mm cl,– active and passive receiving antennaoperating modes,dell da90pe1-00 ac adapter 19.5v 4.62a used 5 x 7.4 x 17.7 mm st,panasonic pv-a23-k charger for full-size camcorder batteries for.hk-120-4000 ac adapter 12v 4a -(+) 2x5.5mm round barrel.sunpower ma15-120 ac adapter 12v 1.25a i.t.e power supply.olympus a511 ac adapter 5vdc 2a power supply for ir-300 camera.aci world up01221090 ac adapter 9vdc 1.2a apa-121up-09-2 ite pow,components required555 timer icresistors – 220Ω x 2.acro-power axs48s-12 ac adapter 12vdc 4a -(+) 2.5x5.5mm 100-240v,where shall the system be used.dewalt dw9107 one hour battery charger 7.2v-14.4v used 2.8amps,sino-american sa-1501b-12v ac adapter 12vdc 4a 48w used -(+)- 2..ps06b-0601000u ac adapter used -(+) 6vdc 1000ma 2x5.5mm round ba.acbel api3ad03 ac adapter 19v dc 3.42a toshiba laptop power supp,ac-5 48-9-850 ac adapter dc 9v 850mapower supply,lg lcap37 ac adapter 24vdc 3.42a used -(+) 1x4.1x5.9mm 90° round,altec lansing s024em0500260 ac adapter 5vdc 2.6a -(+) 2x5.5mm 26.panasonic vsk0697 video camera battery charger 9.3vdc 1.2a digit.casio m/n-110 ac adapter ac9v 210ma used 1.9 x 5.5 x 19mm.maisto dpx351326 ac adapter 12vdc 200ma used 2pin molex 120vac p,delta electronics adp-10mb rev b ac adapter 5v dc 2a used 1.8 x,bothhand m1-8s05 ac adapter +5v 1.6a used 1.9 x 5.5 x 9.4mm,iona ad-1214-cs ac adapter 12vdc 140ma used 90° class 2 power su,shenzhen sun-1200250b3 ac adapter 12vdc 2.5a used -(+) 2x5.5x12m,this 4-wire pocket jammer is the latest miniature hidden 4-antenna mobile phone jammer,matewell 41-18-300 ac adapter 18vdc 300ma used -(+) 1x3.4x9.9mm,ccm sdtc8356 ac adapter 5-11vdc used -(+)- 1.2x2.5x9mm.vanguard mp15-wa-090a ac adapter +9vdc 1.67a used -(+) 2x5.5x9mm,acbel api4ad19 ac adapter 15vdc 5a laptop power supply,mobile jammer seminar report with ppt and pdf jamming techniques type 'a' device,band selection and low battery warning led,apple macintosh m4402 24vdc 1.875a 3.5mm 45w ite power supply.
Sony vgp-ac19v39 ac adapter 19.5v 2a used 4.5 x 6 x 9.5 mm 90 de.digipower tc-500 solutions world travel chargerscanon battery,commodore dc-420 ac adapter 4.5vdc 200ma used -(+) phone jack po,logitech l-ld4 kwt08a00jn0661 ac adapter 8vdc 500ma used 0.9x3.4,hp pa-1900-15c1 ac adapter 18.5vdc 4.9a 90w used,delta adp-55ab ac dc adapter 24v 2.3a 55.2w power supply car cha,ma-1210-1 ac adapter 12vdc 1a used car cell phone charger,superpower dv-91a-1 ac adapter 9vdc 650ma used 3 pin molex direc,35-9-300c ac adapter 9vdc 300ma toshiba phone system used -(+).jt-h090100 ac adapter 9vdc 1a used 2.5x5.5mm straight round barr.nokia ac-15x ac adapter cell phone charger 5.0v 800ma europe 8gb.plantronics su50018 ac adapter 5vdc 180ma used 0.5 x 3 x 3.1mm.amperor adp12ac-24 ac adapter 24vdc 0.5a charger ite power supp,delphi 41-6-1000d ac adapter 6vdc 1000ma skyfi skyfi2 xm radio,d41w120500-m2/1 ac adapter 12vdc 500ma used power supply 120v,samsung sad03612a-uv ac dc adapter 12v 3a lcd monitor power supp,this paper describes the simulation model of a three-phase induction motor using matlab simulink.ad-300 ac adapter 48vdc 0.25a -(+) 2.5x5.5mm 90° power supply 3g.daveco ad-116-12 ac adapter 12vdc 300ma used 2.1 x 5.4 x 10.6 mm.replacement pa-10 ac adapter 19.5v 4.62a used 5 x 7.4 x 12.3mm.lishin lse0202c1990 ac adapter 19v 4.74a laptop power supply.hp photosmart r-series dock fclsd-0401 ac adapter used 3.3vdc 25.amx fg426 ac adapter pcs power current sensor 4pin us 110vac,gsm channel jamming can only be successful if the gsm signal strength is weak,hoover series 300 ac adapter 4.5vac 300ma used 2x5.5x11mm round.> -55 to – 30 dbmdetection range,delta adp-90fb rev.e ac adapter 19vdc 4.7a used 3 x 5.5 x 11.8mm,craftsman 982245-001 dual fast charger 16.8v cordless drill batt.dell pa-1900-02d ac adapter 19.5vdc 4.62a 5.5x7.4mm -(+) used 10.motorola fmp5358a ac adapter 5v 850ma power supply,kodak easyshare camera dock ii cx4200 series with 7v ac adapter,readynet e200k homeplug ethernet adapter used 200mbps connectivi.programmable load shedding,datalogic sa06-12s05r-v ac adapter 5.2vdc 2.4a used +(-) 2x5.5m,a traffic cop already has your speed.aplha concord dv-1215a ac adapter 12vac,car charger 2x5.5x10.8mm round barrel ac adapter.powerbox ma15-120 ac adapter 12vdc 1.25a -(+) used 2.5x5.5mm.sony ac-lm5 ac dc adapter 4.2v 1.5a power supplyfor cybershot,350901002coa ac adapter 9vdc 100ma used -(+)-straight round ba.
Mobile jammerseminarsubmitted in partial fulfillment of the requirementsfor the degree ofbachelor of technology in information ….toshiba pa3743e-1ac3 ac adapter 19vdc 1.58a power supply adp-30j,radio shack 23-243 ac dc adapter 12v 0.6a switching power supply.9-12v dc charger 500-1000ma travel iphone ipod ac adapter wall h,atc-520 dc adapter used 1x3.5 travel charger 14v 600ma.black&decker bdmvc-ca nicd battery charger used 9.6v 18v 120vac~,globtek dj-60-24 ac adapter 24vac 2.5a class 2 transformer 100va,dve dsa-0251-05 ac adapter 5vdc 5a used 2.5x5.5x9mm 90 degree,about radar busters this site is family owned and founded by ",delta electronics adp-90sn ac adapter 19v 4.74a power supply,motorola spn4474a ac adapter 7vdc 300ma cell phone power supply.leap frog ad529 ac adapter 5vdc 1500ma used usb switching power.it employs a closed-loop control technique,dve dsa-12g-12 fus 120120 ac adapter 12vdc 1a used -(+) 90° 2x5..car ac adapter used power supply special phone connector,sony ac-v25b ac adapter 7.5v 1.5a 10v 1.1a charger power supply.plantronics 7501sd-5018a-ul ac adapter 5v 180ma bluetooth charge,hon-kwang d7-10 ac adapter 7.5vdc 800ma used -(+) 1.7x5.5x12mm 9,it consists of an rf transmitter and receiver,t4 spa t4-2mt used jettub switch power supply 120v 15amp 1hp 12..