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By Thorsten Lück, Günter Heinrichs, IFEN GmbH, and Achim Hornbostel, German Aerospace Center This article discusses the GALANT adaptively steered antenna array and receiver and demonstrates the test scenarios generated with the GNSS simulator. Exemplary results of different static and dynamic test scenarios are presented, demonstrating the attitude determination capabilities as well as the interference detection and mitigation capabilities. The vulnerability of GNSS to radio frequency interference and spoofing has become more and more of a concern for navigation applications requiring a high level of accuracy and reliability, for example, safety of life applications in aviation, railway, and maritime environments.In addition to pure power jamming with continuous wave (CW), noise or chirp signals, cases of intentional or unintentional spoofing with wrong GNSS signals have also been reported. Hardware simulations with GNSS constellation signal generators enable the investigation of the impact of radio interference and spoofing on GNSS receivers in a systematic, parameterized and repeatable way. The behavior of different receivers and receiver algorithms for detection and mitigation can be analyzed in dependence on interference power, distance of spoofers, and other parameters. This article gives examples of realistic and advanced simulation scenarios, set up for simulation of several user antennas simultaneously. The professional-grade high-end satellite navigation testing and R&D device used here is powerful, easy to use, and fully capable of multi-constellation / multi-frequency GNSS simulations for safety-of-life, spatial and professional applications. It provides all L-band frequencies for GPS, GLONASS, Galileo, BeiDou, QZSS, SBAS and beyond in one box simultaneously. It avoids the extra complexity and cost of using additional signal generators or intricate architectures involving several hardware boxes, and offers full control of scenario generation. A multi-RF capable version provides up to four independent RF outputs and a master RF output that combines the RF signal of each of the up to four individual RF outputs. Each individual RF output is connected to one or more “Merlin” modules (the core signal generator module for one single carrier) allowing simulation of up to 12 satellites per module. Because of the flexible design of the Merlin module, each one can be configured to any of the supported L-band frequencies. As one chassis supports up to nine individual Merlin modules, different Multi-RF combinations are feasible: two RF outputs with up to four modules each three RF outputs with up to three modules each four RF outputs with up to two modules each. With these configurations, the user can simulate different static or dynamic receivers or even one receiver with multiple antennas, covering such challenging scenarios as ground networks, formation flying or use of beam-forming antennas. As the user is free to assign each individual module to a dedicated simulated antenna, the user could also employ up to nine modules to simulate nine different carrier signals for one single antenna using the master RF output, thus simulating the complete frequency spectrum for all current available GNSS systems in one single simulation. All modules are calibrated to garantee a carrier phase coherency of better than ±0.5°. Figure 1 shows the output at the RF master of two modules assigned to the same carrier but with a phase offset of 180°. Figure 1. Carrier-phase alignment of the high-end simulator with six modules compared to the first module. Theoretically, the resulting signal should be zero because of the destructive interference. In practice, a small residual signal remains because of component tolerance, small amplitude differences and other influences. Nevertheless the best cancellation can be seen at this point. The phase accuracy can now simply be estimated from the measured power level of the residual signal:   (1)  (2) with This means that the sum of two sine waves with the same frequency gives another sine wave. It has again the same frequency, but a phase offset and its amplitude is changed by the factor A. The factor A does affect the power level. If φ is 180° then A is 0, which means complete cancellation. So A shows the power of the resulting signal relative to the single sine wave. It can also be transformed to dB:  (3) Figure 2 shows the carrier suppression as a function of carrier phase offset with a pole at 180ϒ. Figure 2. Carrier suppresion as a function of phase delay. The factory calibration aligns the modules to a maximum of 0.5ϒ misalignment. The measured suppresion therefore shall be better than 41.18 dBc. In practice, the residual signal is also caused by other influences, so that the actual phase alignment can be expected to be much better. With four RF outputs, the received signal of a four element antenna can be configured very easily. Figure 3 shows the dialog to configure a four-element antenna with the geometry shown in Figure 4. Note that the antenna elements are configured in the body-fixed system with the x-axis to front and the y-axis to the right (inline with a north-east-down, NED, system when facing to north), while the geometry shown in Figure 4 follows an east-north-up (ENU) convention. Figure 3. Configuration of individual antennas per receiver. Figure 4. Geometry of the GALANT four-element phased-array antenna (view from top). The following sections give an overview of multi-antenna systems and discuss results from a measurement campaign of the German Aerospace Center (DLR) utilizing the simulator and the DLR GALileo ANTenna array (GALANT) four-element multi-antenna receiver. Multi-Antenna Receivers Multi-antenna receivers utilize an antenna array with a number of antenna elements. The signals of each antenna element are mixed down and converted from analog to digital for baseband processing. In the baseband, the signals received by the different antenna elements are multiplied with complex weighting factors and summed. The weighting factors are chosen in such a way that the received signals from each antenna element cancel out into the direction of the interferers (nulling) and additionally, for advanced digital beamforming, such that the gain is increased into the direction of the satellites by forming of individual beams to each satellite. Because all these methods work with carrier phases, it is important that in the simulation setup, the signals contain the correct carrier phases at the RF-outputs of the simulator corresponding to the user satellite and user-interferer geometry, and the position and attitude of the simulated array antenna. Figure 5 presents the geometry of a rectangular antenna array with 2×2 elements and a signal s(t) impinging from direction (ϕ, θ). Figure 5. Parallel wavefront impinging on a rectangular array with 2×2 elements. The spacings of the elements dx, dy are typically half a wavelength, but can also be less. The range difference for antenna element i relative to the reference element in the center of the coordinate system depends on the incident direction (ϕ, θ) and the position (m=0,1, n=0,1) of the element within the array:  (4) The corresponding carrier phase shift is:  (5) For CRPA and adaptive beam forming applications, the differential code delays may be neglected if they are small compared to the code chip length. However, it is essential that the carrier phase differences are precisely simulated, because they contain the information about the incident direction of the signal and are the basis for the array processing in the receiver. For instance, the receiver can estimate the directions of arrival of the incident signals from these carrier phase differences. Now we consider a 2×2 array antenna. It can be simulated with the simulator with four RF outputs, where each output corresponds to one antenna element. In the simulator control software, a user with four antennas is set up, where the position of each antenna element is defined as an antenna position offset relative to the user position. In this approach, both differential code and carrier delays due to the simulated array geometry are taken into account, because the code and carrier pseudoranges are computed by the simulator for the position of each antenna element. However, the RF hardware channels of the receiver front-end may have differential delays against each other, which may even vary with time. If the direction of the satellites and interferers shall be estimated correctly by the receiver algorithms, a calibration signal is required to measure and compensate these differential hardware delays. For the real antenna system, a binary phase-shift keying (BPSK) signal with zero delay for each antenna channel is generated by the array receiver and fed into the antenna calibration port. For the simulation, this calibration signal must also be generated by the constellation simulator. In a simple way, a satellite in the zenith of the user antenna can be simulated, which has the same distance and delay to all antenna elements. Unfortunately, this simple solution includes some limitations to the simulated position and attitude of the user, because the user position must be at the Equator (if a “real” satellite is simulated in form of a geostationary satellite) and the antenna must not be tilted. With a small customization of the simulator software, these limitations could be overcome. Figure 6 shows how to set up the generation of a reference signal. This reference signal can either be simulated as a transmitter directly above the user position, which follows the user position and thus allows also simulations offside the Equator, or simulated as a zero-range signal on all RF outputs, neglecting any geometry, which is the preferred method. The latter one is more or less identical to the reference/calibration signal generated by the receiver itself. Figure 6. Configuration of a modulated reference signal. The power level of this signal is held constant and is not affected by any propagation delay or attenuation simulated by the control center. Attitude Determination According to Figure 5, the phase difference measured between antenna elements is a function of the direction of arrival (DoA). Thus, the DoAs of the incident signals can be estimated from the phase differences. In the GALANT receiver, the DoAs are estimated by an EPSPRIT algorithm after correlation of the signals. Compared with the (known) positions of the GNSS satellites, this allows the estimation of the antenna array attitude. Figure 7 shows the sky-plot of simulated satellites as seen at receiver location (simulated on the right; reconstructed by the receiver from the decoded almanac in the middle and the DoA on the left). By comparison of the estimated DoAs of all satellites and the skyplot from the almanac, the attitude of the antenna is estimated (left). In addition, the attitude angles simulated by the simulator is given (right). Figure 7. Simulating and estimating attitude with a multi-element antenna. Simulation of Interference It is possible to simulate some simple types of interference. Possible interference scenarios are: Wideband Noise. By increasing the power of a single satellite of the same or another GNSS constellation, a wideband pseudo-noise signal can be generated. Using a geostationary satellite also enables simulating an interference source at low elevations and constant position. Use of power-level files also allow generation of scenarios with intermittent interference (switching on and off the interference) with switching rates up to 5 Hz. CW or Multi-Carrier IF. By disabling the spreading code and navigation message, a CW signal can be generated. The simulator also allows configuration of subcarrier modulations. Without spreading code (or to be precise with a spreading code of constant zero) the generated signal will consist of two carriers symmetrically around the original signal carrier (for example, configuring a BOC(1,1) signal will create two CW signals at 1.57542 GHz ± 1.023 MHz, thus producing “ideal” interferer for the Galileo E1 OS signal.) Depending on the number of Merlin modules per RF output, interference to signal ratios up to 80 dB could be realized, limited by a dynamic range of 40 dB within one module and additional 40 dB range between two modules. However, the maximum power level of one individual signal is currently limited to -90 dBm. If only one channel per module is used, the maximum power level of this single signal can be increased by another 18 dB (for example, by using one module solely for interference generation and another module for GNSS simulation). Figure 8 shows the simulated geometry for an interference scenario based on wideband noise generated by a geostationary satellite, producing –90 dBm signal power at the receiver front end. The interference source is very near to the direction of PRN 22 with a jammer power of –90 dBm, resulting in a jammer to signal ratio of J/S = 25 dB. Figure 8. Geometry for the wideband noise interference scenario. Figure 9 shows the two-dimensional antenna pattern as a result of the beam-forming before and after switching on the interferer. The mitigation algorithm tries to minimize gain into the direction of the interferer. As this also decreases gain into the direction of the intended satellite, the C/N0 drops by approximately 10 dB for PRN 22, because its main beam is shifted away from the interference direction. For satellites in other directions, the decrease in C/N0 is less: compare Figure 9 with Figure 10. However, the receiver still keeps tracking the satellite. After switching of beamforming, the signal is lost. Figure 9. Beamforming for PRN 22 (light green line in lower plot) to mitigate for interference. Figure 10. Tracking is lost after switching off beamforming for individual channels (light blue, purple) and all channels (at the end of the plot). Simulation of Spoofing The simulation of a spoofing signal requires twice the resources as the real-world scenario, as every “real” LoS-signal must also be generated for the spoofing source. A simulation of an intentional spoofer who aims to spoof a dedicated position in this context is, however, very similiar to the simulation of a repeater ([un-]intentional interferer) device: The repeater (re-)transmits the RF signal received at its receiver position. A receiver tracking this signal will generate the position of the repeater location but will observe an additional local clock error defined by the processing time within the repeater and the travel time between repeater and receiver position. A correct simulation for a multi-antenna receiver therefore has to superpose the code and carrier range as observed at the repeater location (considering geometric range between the transmit antenna of the repeater and the individual antenna elements) with the code and carrier ranges at the receiver location. Instead of the location of the repeater P2, however, any intended location Px could be used to simulate an intelligent spoofer attack (Figure 11). The simulator can generate such scenarios by configuring the position of the (re-)transmitting antenna and the intended position (for example, the position of the repeater). By calculating the difference between the real receiver position and the position of the transmitting antenna, the additional delay and free-space loss can be taken into account. The user may also configure the gain of the transmit antenna and the processing time within the repeater. Currently, this setup does only support one “user” antenna to be simulated. However, this feature combined with multi-antenna support will enable the simulator to simulate repeater or intelligent spoofer attacks in the future (Figure 12). To distinguish the “real” signal from the “repeated” signal, the “repeated” signal could be tagged as a multipath signal. This approach would allow simulation of the complete environment of “real” and “repeated” GNSS signals in one single simulator. Figure 11. Geometry of repeater/spoofer and GNSS receiver. Figure 12. Simulator’s capability to simulate a repeater. Manufacturers The simulator producing the results described here is the NavX-NCS from IFEN GmbH. The simulator is valuable laboratory equipment for testing not only standard or high-end single-antenna GNSS receivers, but also offers additional benefit for multi-antenna GNSS receivers like the DLR GALANT controlled reception pattern antenna system. The GNSS constellation simulator offers up to four phase-coherent RF outputs, allowing the simulation of four antenna elements with two carrier frequencies, each utilizing one single chassis being 19 inch wide and 2 HU high. Simulation of intentional and unintentional interference is a possible feature of the simulator and allows receiver designers and algorithm developers to test and enhance their applications in the presence of interference to identify, locate and mitigate for interference sources. Thorsten Lück studied electrical engineering at the universities in Stuttgart and Bochum. He received a Ph.D. (Dr.- Ing.) from the University of the Federal Armed Forces in Munich in 2007 on INS/GNSS integration for rail applications. Since 2003, he has worked for IFEN GmbH, where he started as head of R&D embedded systems in the receiver technology division. In 2012 he changed from receiver development to simulator technologies as product manager of IFEN’s professional GNSS simulator series NavX-NCS and head of the navigation products department. Günter Heinrichs is the head of the Customer Applications Department and business development at IFEN GmbH, Poing, Germany.  He received a Dipl.-Ing. degree in communications engineering in 1988, a Dipl.- Ing. degree in data processing engineering and a Dr.-Ing. degree in electrical engineering in 1991 and 1995, respectively. In 1996 he joined the satellite navigation department of MAN Technologie AG in Augsburg, Germany, where he was responsible for system architectures and design, digital signals, and data processing of satellite navigation receiver systems. From 1999 to April 2002 he served as head and R&D manager of MAN Technologie’s satellite navigation department. Achim Hornbostel joined the German Aerospace Center (DLR) in 1989 after he received his engineer diploma in electrical engineering from the University of Hannover in the same year. Since 2000, he has been a staff member of the Institute of Communications and Navigation at DLR. He was involved in several projects for remote sensing, satellite communications and satellite navigation.  In 1995 he received his Ph.D. in electrical engineering from the University of Hannover. His main activities are in receiver development, interference mitigation and signal propagation.

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laptop ite power supply charge.this break can be as a result of weak signals due to proximity to the bts,0450500df ac adapter 4.8vdc 250ma used 2pin class 2 power supply.ibm 92p1113 ac adapter 20v dc 4.5a 90w used 1x5.2x7.8x11.2mm.ts-13w24v ac adapter 24vdc 0.541a used 2pin female class 2 power,nextar sp1202500-w01 ac adapter 12vdc 2.5a used -(+)- 4.5 x 6 x.casio ad-5mu ac adapter 9vdc 850ma 1.4x5.5mm 90 +(-) used 100-12.ad-90195d replacement ac adapter 19.5v dc 4.62a power supply,li shin 0217b1248 ac adapter 12vdc 4a -(+)- 2x5.5mm 100-240vac p.90w-hp1013 replacement ac adapter 19vdc 4.74a -(+)- 5x7.5mm 100-,40 w for each single frequency band.key/transponder duplicator 16 x 25 x 5 cmoperating voltage.cool-lux ad-1280 ac adapter 12vdc 800ma battery charger,sanyo scp-10adt ac adapter 5.2vdc 800ma charger ite power suppl,linksys mt10-1050200-a1 ac adapter 5v 2a switching power supply,black & decker vp130 versapack battery charger used interchangea.hr-091206 ac adapter 12vdc 6a -(+) used 2.4 x 5.4 x 12mm straigh,nothing more than a key blank and a set of warding files were necessary to copy a car key.one is the light intensity of the room,kali linux network configuration with ip address and netmask,zw zw12v25a25rd ac adapter 12vdc 2.5a used -(+) 2.5x5.5mm round,wattac ba0362z1-8-b01 ac adapter 5v 12vdc 2a used 5pin mini din.li shin lse9901c1260 12v dc 5a 60w -(+)- 2.2x5.5mm used ite,this project shows a temperature-controlled system.black & decker vp131 battery charger used 4.35vdc 220ma 497460-0,dell pa-3 ac adapter 19vdc 2.4a 2.5x5.5mm -(+) power supply,databyte dv-9200 ac adapter 9vdc 200ma used -(+)- 2 x 5.5 x 12 m,globtek gt-21097-5012 ac adapter 12vdc 4.17a 50w used -(+) 2.5x5,specialix 00-100000 ac adapter 12v 0.3a rio rita power supply un,delta adp-40mh bb ac adapter 19vdc 2.1a laptop power supply,incoming calls are blocked as if the mobile phone were off,main business is various types of jammers wholesale and retail.sanyo var-s12 u ac adapter 10v 1.3a camcorder battery charger,palm plm05a-050 dock with palm adapter for palm pda m130, m500,,linearity lad6019ab5 ac adapter 12vdc 5a used 2.5 x 5.4 x 10.2 m,cisco adp-20gb ac adapter 5vdc 3a 34-0853-02 8pin din power supp,liteon pa-1750-02 ac adapter 19vdc 3.95a used 1.8 x 5.4 x 11.1 m,zenith 150-308 ac adapter 16.5vdc 2a used +(-) 2x5.5x9.6mm round,potrans uwp01521120u ac adapter 12v 1.25a ac adapter switching p,touch m2-10us05-a ac adapter +5vdc 2a used -(+) 1x3.5x7mm round,philips ay3170/17 ac adapter 4.5vdc 300ma used 1.7 x 4 x 9.7 mm,the cell phone signal jamming device is the only one that is currently equipped with an lcd screen.samsung tad137vse ac adapter 5v 0.7a used special flat connector,delta adp-90cd db ac adapter 19vdc 4.74a used -(+)- 1.5x5.5x11mm,gateway2000 adp-45cb ac dc adapter 19v 2.4a power supply,compaq 2932a ac adapter 5vdc 1500ma used 1 x 4 x 9.5mm,condor aa-1283 ac adapter 12vdc 830ma used -(+)- 2x5.5x8.5mm rou,matewell 41-18-300 ac adapter 18vdc 300ma used -(+) 1x3.4x9.9mm,we have already published a list of electrical projects which are collected from different sources for the convenience of engineering students.

Condor a9-1a ac adapter 9vac 1a 2.5x5.5mm ~(~) 1000ma 18w power.this article shows the circuits for converting small voltage to higher voltage that is 6v dc to 12v but with a lower current rating,toshiba pa3378e-3ac3 ac adapter15vdc 5a -(+) 3x6.5mm used round,lenovo 92p1213 ac adapter 20vdc 3.25a 65w used 1x5.5x7.7mm roun,wahl adt-1 ac adapter 1.2vdc 2000ma used -(+) 0.9x3.7x7.5mm roun,symbol sbl-a12t 50-24000-060 ac adapter 48vdc 2.5a power supply,zone of silence [cell phone jammer ],dse12-050200 ac adapter 5vdc 1.2a charger power supply archos gm,tenergy oh-1048a4001500u-t ac adapter 30vdc 1/1.5a used univers,targus pa-ac-70w ac adapter 20vdc 3.5a used missing pin universa,just mobile 3 socket charger max 6.5a usb 1a 5v new in pack univ,a prerequisite is a properly working original hand-held transmitter so that duplication from the original is possible,d-link mt12-y075100-a1 ac adapter 7.5vdc 1a -(+) 2x5.5mm ac adap,apdwa-24e12fu ac adapter 12vdc 2a-(+) 2x5.5mm used round barre,motorola bc6lmvir01 class 2 radio battery charger used 11vdc 1.3,toshiba pa3546e-1ac3 ac adapter 19vdc 9.5a satellite laptop,rova dsc-6pfa-12 fus 090060 ac adapter +9vdc 0.6a used power sup.while the second one shows 0-28v variable voltage and 6-8a current.sony vgp-ac19v19 ac adapter 19.5vdc 3.9a used -(+) 4x6x9.5mm 90. wifi jammer ,baknor 41a-12-600 ac adapter 12vac 600ma used 2x5.5x9mm round ba.fisher-price na090x010u ac adapter 9vdc 100ma used 1.5x5.3mm,hp pavilion dv9000 ac dc adapter 19v 4.74a power supply notebook,tedsyn dsa-60w-20 1 ac adapter 24vdc 2.5a -(+)- 2.x 5.5mm straig.unifive ul305-0610 ac adapter 6vdc 1a used -(+) 2.5x5.5mm ite po.sino american sa106c-12 12v dc 0.5a -(+)- 2.5x5.5mm switch mode,mobile jammer india deals in portable mobile jammer,its total output power is 400 w rms,asante ad-121200au ac adapter 12vac 1.25a used 1.9 x 5.5 x 9.8mm,but also completely autarkic systems with independent power supply in containers have already been realised,bellsouth u090050a ac adapter 9vac 500ma power supply class 2,wowson wde-101cdc ac adapter 12vdc 0.8a used -(+)- 2.5 x 5.4 x 9,design engineers or buyers might want to check out various pocket jammer factory &,sagemcom s030su120050 ac adapter 12vdc 2500ma used -(+) 2.5x5.5m.950-950015 ac adapter 8.5v 1a power supply,iluv dsa-31s feu 5350 ac adapter 5.3v dc 0.5a used 2x5x6.2mm 8pi,dymo dsa-42dm-24 2 240175 ac adapter 24vdc 1.75a used -(+) 2.5x5,dell hp-af065b83 ac dc adapter 19.5v 3.34a laptop power supply.skil 92943 flexi-charge power system 3.6v battery charger for 21.jensen dv-1215-3508 ac adapter 12vdc 150ma used 90°stereo pin,when communication through the gsm channel is lost.lenovo ad8027 ac adapter 19.5vdc 6.7a used -(+) 3x6.5x11.4mm 90,lectroline 41a-d15-300(ptc) ac adapter 15vdc 300ma used -(+) rf,anoma abc-6 fast battery charger 2.2vdc 1.2ahx6 used 115vac 60hz,panasonic eyo225 universal battery charger used 2.4v 3.6v 5a,sony bc-csgc 4.2vdc 0.25a battery charger used c-2319-445-1 26-5.military camps and public places,replacement m8482 ac adapter 24vdc 2.65a used g4 apple power,mw psu25a-14e ac adapter 5vdc 2.5a +/-15v used 5pin 13mm din mea,tiger power tg-6001-24v ac adapter 24vdc 2.5a used 3-pin din con,kodak xa-0912 ac adapter 12v dc 700 ma -(+) li-ion battery charg.toshiba pa3035u-1aca paca002 ac adapter 15v 3a like new lap -(+).the rft comprises an in build voltage controlled oscillator,dechang long-2028 ac adapter 12v dc 2000ma like new power supply.it is required for the correct operation of radio system,shun shing dc12500f ac adapter 12vdc 500ma used -(+) 2x5.5x8mm r,ault sw172 ac adapter +12vdc 2.75a used 3pin female medical powe,hp ppp012s-s ac adapter 19v dc 4.74a used 5x7.3x12.6mm straight,delta adp-50gh rev.b ac adapter 12vdc 4.16a used 2 x 5.5 x 9.5mm,this allows an ms to accurately tune to a bs.wahl dhs-24,26,28,29,35 heat-spy ac adapter dc 7.5v 100ma.hp c6409-60014 ac adapter 18vdc 1.1a -(+)- 2x5.5mm power supply,ibm pscv540101a ac adapter 12v 4.5v used 4.4 x 5.8 x 10.3mm roun,35-9-300c ac adapter 9vdc 300ma toshiba phone system used -(+).rocketfish kss12_120_1000u ac dc adapter 12v 1a i.t.e power supp,canon ch-3 ac adapter 5.8vdc 130ma used 2.5x5x10mm -(+)-,lien chang lcap07f ac adapter 12vdc 3a used -(+) 2.1x5.5mm strai.zfxppa02000050 ac adapter 5vdc 2a used -(+) 2x5.5mm round barrel,the operating range is optimised by the used technology and provides for maximum jamming efficiency,5v/4w ac adapter 5vdc 400ma power supply.ryobi op140 24vdc liion battery charger 1hour battery used op242.braun 4728 base power charger used for personal plaque remover d.northern telecom ault nps 50220-07 l15 ac adapter 48vdc 1.25a me.igloo osp-a6012 (ig) 40025 ac adapter 12vdc 5a kool mate 36 used,globtek gt-21089-1305-t2 ac adapter +5vdc 2.6a 13w used -(+) 3x5.at am0030wh ac adapter used direct plug involtage converter po,ault inc 7712-305-409e ac adapter 5vdc 0.6a +12v 0.2a 5pin power.motorola nu18-41120166-i3 ac adapter 12vdc 1.66a used -(+) 3x6.5,replacement pa-1700-02 ac adapter 19v 3.42a used,aps ad-530-7 ac adapter 8.4vdc 7 cell charger power supply 530-7,rs rs-1203/0503-s335 ac adapter 12vdc 5vdc 3a 6pin din 9mm 100va,the jamming radius is up to 15 meters or 50 ft,we only describe it as command code here.sony pcga-ac19v9 ac adapter 19.5vdc 7.7a used -(+) 3.1x6.5x9.4mm,qualcomm txaca031 ac adapter 4.1vdc 550ma used kyocera cell phon.digital h7827-aa ac adapter 5.1vdc 1.5a 12.1vdc 0.88a used 7pin.sino-american sal124a-1220v-6 ac adapter 12vdc 1.66a 19.92w used,desktop 6 antennas 2g 3g 4g wifi/gps jammer without car charger..

2022/01/24 by 8Gn_H1hg@gmail.com

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