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Figure 1. Major shifts in underlying platforms. How the Internet of Things Now Drives Location Technology The number of devices connecting to the Internet is growing fast. The applications running on them require location context to determine the most likely use case. These devices need continuous location — not necessarily noticed or activated by the user, but always on. The specification that becomes important is energy per day: the device must maintain its location without draining its battery — and increase location availability indoors. That creates new design requirements for hybrid capability. By Greg Turetzky A lot of people have the opinion that the GNSS market is kind of flat. Actually, several different market studies would indicate that it’s not as flat as you would think. See FIGURE 2, taken from the European GNSS Agency’s (GSA’s) 2015 GNSS Market Report. The growth rate certainly is slowing, but any market that continues to grow at a 9 percent annual growth rate is a very nice target area. As you can see, the GSA expects that we’re going to have somewhere in the neighborhood of 7 billion devices within the next eight to ten years. Figure 2. Installed base of GNSS devices by region; the GNSS market continues to grow at a rapid pace. Source: GSA GNSS Market Report. We’re getting to the point where the number of GNSS receivers exceeds the population of the planet, which makes for an interesting thought process as to where GNSS is going to end up, and how it’s going to have to end up in everything that we do. That makes for a nice market opportunity. A big reason for that is we’ve seen a lot of growth in demand for multi-constellation GNSS. Everything pretty much has GPS in it that everyone terms as GNSS, but the growth of these other constellations is happening relatively quickly. FIGURE 3, in my opinion, is already significantly out of date, even though it is less than a year old. Other market estimates indicate that GLONASS penetration into receivers, especially in the mobile phone field, is closer to 70 or 80 percent today, and that is expected to grow. There’s really no technical or economic reason why GNSS receivers can’t support multiple constellations, even at the consumer mobile device level. Figure 3. Multi-constellation trends: GNSS capability in receivers. Source: GSA GNSS Market Report. Once all those constellations are in place, let’s look at where those receivers are going from a market standpoint. FIGURE 4 is divided by revenue, which is an interesting way to do it because we all know if you divided it by actual units, then the location-based services (LBS) portions in phones would dominate everything; everything else would just be a sliver that wouldn’t be visible. But if you look at it from a revenue standpoint, there are still many revenue opportunities in the phone segment and in the automotive segment. Figure 4. GNSS market segments, cumulative core revenue2012–2022. Source: GSA GNSS Market Report. Another reason to expect continued market growth is, if you examine Figure 4, you’ll notice that the Internet of Things (IoT) category (see SIDEBAR) doesn’t even show up here. We’ll see going forward that there will be a new slice of pie showing a focus on that segment and those types of applications. Intel and the Internet of Things Intel’s mission is no longer only to build PCs. We’re about bringing smart, connected devices to everyone. That encompasses a range of products, and we’ve been expanding our portfolio appropriately. We start with everything from big iron data centers (which are part of smart devices) to mobile clients and all the way down to the Internet of Things (IoT) and wearable devices. All those devices are part of this smart connected world. Our group’s job is to help on the connectivity side, which varies by product. This whole idea expands beyond mobile phones and into the IoT, a big trend whose methodology is transforming business, starting at sensors all the way up to big data, to make interesting decisions. The number of devices that are being able to connect to the Internet is growing faster than anybody can keep up with, and that creates a really interesting opportunity. That gives you a bit of a picture as to why Intel is interested in this market and where you’re going to see us playing. Looking at how we provide this location capability beyond just GNSS, how are people determining their location in these different platforms, and what are the different technologies available? FIGURE 5 shows that in 2014–2015 the most popular technology is still GPS, but there is a fast-growing trend in both Bluetooth-enabled and Wi-Fi-enabled penetration of location technology. Both of these are more suited to indoor operation, where the market is still in its early stages. Figure 5. Alternative location technology shipments, world market forecast: 2010–2018. Source: ABI Location Technologies Market Data. Although GNSS continues to grow with market growth, the growth of other technologies and the ability to incorporate them into location solutions is growing pretty quickly, and the radio versions of those are, in general, growing the fastest, followed by the inertial sensors. I think we’re going to see this combination of location technologies, jointly providing a single answer, becoming the norm in mobile products. These technologies are going to end up, especially for indoors, in different areas. FIGURE 6 shows a huge growth, not only growth but segmentation among a bunch of different types of venues, all of which seem to be adopting an indoor location methodology. Not all of them will adopt the same one, but all these types of venues are looking at that market and are looking at potential different technologies to serve their needs. What might be most appropriate in a grocery store — geared towards finding a particular item — like a Bluetooth beacon might be less interesting in an airport, where there’s still a need for navigation from place to place, where proximity is not necessarily the right answer. Figure 6. Indoor location technology installations by vertical market, world market forecast, 2010–2018. Source: ABI. We see a large growth of a very disparate technology base; at the right of the figure is a pie chart where I had to remove all the callouts, the list of all the different technology suppliers addressing these particular indoor markets. What you see is a highly fragmented supplier base; that’s very consistent with an early market implementation. There’s a lot of different people attempting to get into this market with a lot of different solutions. This is pretty classic for an early-adopter scenario. The Stack. Changing accuracy requirements will come up a bit later in this article. Once we’ve looked at where those different venues are from a requirements standpoint, we start to look at the types of companies that are trying to participate in the ecosystem required to do that (FIGURE 7). If you start from the bottom, where I live as a chipset manufacturer, and you move up the chain, you see seven different layers of people in the creation of a location to the end user, especially indoors. And every single person you see in this value chain is trying to make money. Figure 7. LBS value chain: a highly complex ecosystem with each segment looking to differentiate and monetize indoor location. Source: GSA GNSS Market Report. That’s the crux of the issue: a lot of people want a piece of that pie, and all of them have a relevant part to play, but when seven people in the stack are all trying to own the location result in order to monetize it, it becomes difficult to create a unified methodology. I live at the bottom of this complex ecosystem, in the technology implementation layer. Getting dollars to flow from the top to the bottom gets relatively difficult, so we are very driven to bring cost competitiveness into this market. In summary, from a market standpoint, we see that the market opportunity is very big and still growing. This makes it interesting to a company like Intel, even though we aren’t a major player in the business today, to continue to invest in it. We see a trend going from GPS to GNSS and on to location, and now the big opportunity is indoor location. But this indoor-location market is not a stand-alone device opportunity. Indoor location requires this kind of technology inside other devices, inside phones and tablets and IoT types of things. Context. Let’s look at indoor location as a feature in a larger portion of product. That idea comes from the requirement for location not just for the location itself, but in order to provide context. That’s critical because now these smart, mobile devices are not just used to make phone calls, but are used all the time. As a result, many applications running on them really require that location context to determine the most likely use case that the device is currently operating, making the consumer experience easier and more natural. This is evident throughout the entire value chain from phones and tablets to wearables. If you think about that from a requirement standpoint, you see the major places where GNSS has enabled trend changes in the market. Let’s step back a bit in history to go through FIGURE 1, the opening figure, horizontally. In the early 2000s when I was at SiRF Technology, the main market drivers were personal navigation devices (PNDs). There were all these dashboard-mounted PNDs, and the main things we were trying to fix was the urban-canyon problem. GPS always worked well in the rural areas but always had trouble in urban canyons; to fix that, we had to improve the sensitivity. The solution in that timeframe was with multi-correlator designs and improved RF frontends; we were able to improve the sensitivity of the receivers by a good 5–10 dB, which enabled us to really keep the antennas inside the car so that there was no need for roof-mounted antennas. The PND could be mounted on the dash and work just fine. That was a big factor in improving the user experience. The secondary specification that enabled that market to grow quickly was time-to-first-fix; those devices had to power-up and work fast to prevent user frustration. Within about five years, however, the PND market was overtaken by growth in the feature phone market. The reason for that was the FCC E911 mandate; everyone had to figure out a way to make sure that phones sold in the United States had the ability to meet that 911 mandate. GPS was one of the major methodologies in meeting that, and the main driver there was not around sensitivity, it was improving first-fix times. The mandate required a 30-second TTFF implementation in a very challenged environment to support emergency-services dispatch. This led us to the development of assisted GPS (AGPS) and further integration into phones. We had a secondary requirement of continuing to improve the sensitivity, because now we had to deal with an even worse antenna in a handset. Once that was taken care of in the mid 2000s, the next thing we saw coming — and what’s coming now — is the change in GPS requirements for smartphone navigation. This comes from the huge growth of higher end smartphones that are running multiple applications driving the use-cases around LBS. How will the location be used to provide services, now that we can provide applications on that platform? Now the most important specification has become active power? Every time a GPS receiver is turned on for use in an LBS mode, you have to make sure that the power consumption is kept to a minimum, or no one will use those services. So the active power of the device became a very important specification that we were all trying to improve. The secondary specification we had to improve was the availability. This is where the advantage of multi-GNSS started to show up — using handsets for car navigation on Google map types of implementations. So the performance of smartphone navigation in the urban canyon became a big driver recently as the main use case. Impacts of New Requirements on Silicon Design Standby power reduction impacts SRAM is the leakiest component of typical design Needs to be reduced or ideally eliminated Non-continuous fix methods Ability to quickly save and restore state information Hybrid location solutions Support measurements from multiple radios Need to share radios, not duplicate chains Increased integration of of multiple radios on single die Need more interference rejection capability Ability to support concurrent radio operation on single die Next! What’s coming next is the idea that these wearables and IoT platforms are not just doing LBS on demand because of the currently active application. They are going to need continuous location. The device needs to provide location capability all the time, but it’s not necessarily going to be noticed by the user or activated by the user, so the specification that becomes important is energy per day. You want to make sure your device can maintain its location without draining its battery. Then we are also going to have to increase the availability of location into indoors to really fix this whole problem. And that will really move us into hybrid capability. If we look at those changes in the market and we look at how they’re going to impact the GNSS architecture, the first thing we want to look at is: Where is GNSS? FIGURE 8 is a plot that I’m sure everybody has and is hard to keep up to date. It looks at the satellites coming from the different satellite constellations. The important thing here is that we are approaching a timeframe where a significant uptick in the growth of satellites can send the numbers over 100. That can really have an impact on receiver design, if you’re building a multi-GNSS receiver and you have to deal with a hundred satellites. How are you going to do that? Figure 8. Projected number of satellites for each signal band. FIGURE 9 shows the relationship between the coherent period and the number of correlators required to search for one satellite in each constellation. We looked at particular scenarios — in this case, let’s say we are trying to do an outdoor location, so –130 dBm cold start test (FIGURE 10) with an initial frequency certainty of around 1 part per million (ppm). We wanted to look at the impact of the different constellations on doing that, and what it takes inside of the receiver to implement it. I’m not going to go into great detail here. But looking at those impacts in correlator counts, you can see the difference between building a GPS receiver that can do this and building a Galileo receiver that can do this. From the simplest one, that is, GLONASS, and from the most difficult one, which is Galileo, you see a 75x difference in the number of correlators required to do that, based on signal structure. This would indicate that, maybe from a cold start fix point of view, you might prefer a GLONASS implementation, and do GPS or Galileo later. Figure 9. Relationship between the coherent period and number of correlators requried to search for one satellite in each constellation. ±1 ppm local oscillator frequency uncertainty; ±10 kHz Doppler shift range; 50 percent Doppler bin overlap; 1/4-chip correlator spacing. Figure 10. Test scenarios, cold start test. If that specification was your primary concern, then you would look at how those requirements got implemented into those devices. In addition, you try to come down to these low levels of power consumption, maintain sufficient accuracy to support these applications, and be able to move this into a very small form factor. If we look at the relationship between the number of correlators required to search for each satellite and amount of silicon area that requires, we see a big difference in the growth of those, depending on which constellation you look at. But if you look at a hot start scenario (FIGURE 11) rather than a cold start and at a weaker signal level, which is the more common implementation in devices today, you see a different result. With an improved starting condition because we have better information on the oscillators and reduced other uncertainties producing a smaller search space, the silicon area impact is greatly reduced. Then we have to really look at reducing standby power. That means we need to look at static random-access memory (SRAM) because SRAMs are a horribly leaky component and create very large standby power, but they are what we’ve been using for years in the standalone GPS world. Figure 11. Test scenarios, hot start test. We also have to look at non-continuous fix methodologies: this idea of turning things on and off to save power, which relates back to the standby power issues. We also have to look at hybrids: How are we going to support measurements from multiple radios like Wi-Fi and Bluetooth that are becoming important for indoor location? How are we going to share those radios without just pasting them together? That involves integration onto single die, and looking at what happens on the silicon level, and at what happens when you try to run radios at the same time. What we have to work with, especially here at Intel, the home of Gordon Moore, is Moore’s Law. It is still working 30 years after it was proposed. Recently, we see that we are tracking this progression of constantly reducing device sizes and moving forward. The dates in FIGURE 12 are for the process technology nodes associated with a classical digital process. We are not at the 22-nanometer level today on GPS receivers, but we are moving down that curve. Figure 12. Moore’s Law in action: transistor scaling and improved performance. In GNSS terms, this means more gates and more memory for less cost, improved TTTF and sensitivity by allowing more search capability. Figure 13. Scaling also increases speed and reduces power. HIgher clock speed provides better search and more complex navigation algorithms. Obviously, when you move down that curve, you greatly increase your ability to add more gates to improve TTFF and sensitivity. More correlators help you search out more uncertainty faster. The other thing this does is allow us to run faster, to up the central processor unit (CPU) clockspeed. This allows more software capability to do things like process more advanced navigation algorithms, bring in more satellites from multiple GNSS, run very expansive Kalman filters, and look at hybrid technologies. It has also driven down the power, so that reducing the active power requirement that we had was kind of coming along with Moore’s law without a whole lot of effort. But now we’ve run into a problem: the parameter that we care more about, standby power, is actually going up. Although we are getting benefits out of Moore’s Law from speed and active power, we are actually having a problem. It’s increasing our standby power, which makes it difficult to go to these lower fix rates with faster restarts. You see a trend here. As you move down in technology nodes, you find that the more advanced technology nodes are less applicable to the smaller multi-purpose devices. This is part of the reason why you don’t see the mobile phone devices coming down as fast as you see the desktop devices coming towards those new technology nodes. This means some really significant silicon design challenges. We need to figure out how to take the advantages of Moore’s Law and maintain the benefits of smaller geometry, we need higher clock-speeds, and we need more memory for multi-constellation methodology and that gets lower active power and smaller size. But we have to figure out a way to not give up our standby power when we start moving down into these very small geometries. That will require some new methodologies, both at the chip level in terms of how we build silicon, and at the system design level, in terms of how we put these things together inside a mobile phone. What Intel Is Doing I can’t tell you what we haven’t done yet, but we look at location as an opportunity where the strength of Intel comes into play. We have very advanced silicon processors and we are bringing those to bear on the location technology problem — just starting in the last few years. Our goal is to provide a GNSS and location silicon solution with best-in-class performance based on Intel technology. Once we’ve done that at the silicon level, we’ll look at bringing the platform-level integration capability together. We have the ability to merge multiple location technologies. We have a platform-level capability to integrate hardware and software to solve the indoor location problem on a variety of platforms. To execute to Intel’s vision, we’re going to push this into a ubiquitous technology present in all these devices, so that we can improve the variants on these mobile products. Multiple Radios. That’s part of what’s driving the whole industry towards the kind of consolidation that we’ve seen: stand-alone chipsets are not the only (or even the preferred) way to solve this problem. Without some access to the system design level, we’re not able to solve this problem for mobile phones and IoT type devices. We’re going to see this trend — that we all see coming — of putting multiple radios onto a single die, because that does reduce cost and size as we try to get into watches. The 2015 Consumer Electronics Show brought out the new stuff. They’re talking about IoT buttons. We still have a ways to go; bringing that capability down to that size in a GNSS radio is a difficult problem. Once we start incorporating these different radios, such as Wi-Fi and Bluetooth, into this solution, we run back into the problem of the value chain: How to get everyone aligned in a device with these capabilities into a single unified solution? One of the problems a lot of us see with these mobile products is that they have a lot of application and they require a lot of interaction. We’d all like these devices to become smarter and present the information that we want, when we want it. A big part of that is the location context, and so that’s what we’re planning on doing: integrating that location context into all these platforms so that these smart connected devices can be even smarter and provide a better user experience. GREG TURETZKY is a principal engineer at Intel responsible for strategic business development in Intel’s Wireless Communication Group focusing on location. He has more than 25 years of experience in the GNSS industry at JHU-APL, Stanford Telecom, Trimble, SiRF and CSR. He is a member of GPS World’s Editorial Advisory Board. The statements, views, and opinions presented in this article are those of the author and are not endorsed by, nor do they necessarily reflect, the opinions of the author’s present and/or former employers or any other organization with whom the author may be associated. This article is based on a GPS World webinar, which sprang from a presentation at the Stanford PNT Symposium. Listener questions and Greg Turetzky’s answers during the webinar, which can be read here. The author would like to acknowledge the contribution of Figures 9, 10 and 11 from the paper “Optimal search strategy in a multi-constellatoin environment” by Intel colleagues Anyaegbu et al, from ION GNSS+ 2015.

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As overload may damage the transformer it is necessary to protect the transformer from an overload condition,oem ads18b-w 220082 ac adapter 22vdc 818ma used -(+)- 3x6.5mm it.a ‘denial-of-service attack’,when the mobile jammer is turned off,altec lansing 4815090r3ct ac adapter 15vdc 900ma -(+) 2x5.5mm 12.while the second one shows 0-28v variable voltage and 6-8a current,law-courts and banks or government and military areas where usually a high level of cellular base station signals is emitted,battery charger 514 ac adapter 5vdc 140ma used -(+) 2x5.5mm 120v.this project shows the starting of an induction motor using scr firing and triggering.targus apa32ca ac adapter 19.5vdc 4.61a used -(+) 1.6x5.5x11.4mm.delta adp-36jh b ac adapter 12vdc 3a used -(+)- 2.7x5.4x9.5mm,5v 400ma ac adapter travel cellphone charger used mini usb 100-2.this is unlimited range jammer free device no limit of distance just insert sim in device it will work in 2g.duracell cef-20 nimh class 2 battery charger used 1.4vdc 280ma 1.digipower acd-nk25 110-220v ac dc adapter switching power supply,p-056a rfu adapter power supply for use with playstation brick d,delta adp-15hb ac adapter 15vdc 1a -(+)- 2x5.5mm used power supp,dura micro dmi9802a1240 ac adapter 12v 3.33a 40w power supply,targus apa32ca ac adapter 19.5vdc 4.61a used -(+) 5.5x8x11mm 90.ac car adapter phone charger used 1.5x3.9x10.8cm round barrel,altec lansing acs340 ac adapter 13vac 4a used 3pin 10mm mini din,while the human presence is measured by the pir sensor,this paper describes different methods for detecting the defects in railway tracks and methods for maintaining the track are also proposed.liteon pa-1181-08qa ac adapter 19v 9.5a 4pin 10mm power din 180w.ibm 02k6543 ac adapter 16vdc 3.36a used -(+) 2.5x5.5mm 02k6553 n.3com p48240600a030g ac adapter 24vdc 600ma used -(+)- 2x5.5mm cl,viasys healthcare 18274-001 ac adapter 17.2vdc 1.5a -(+) 2.5x5.5.plantronics a100-3 practica for single or multi line telephone u.its built-in directional antenna provides optimal installation at local conditions,hipro hp-ow135f13 ac adapter 19vdc 7.1a -(+) 2.5x5.5mm used 100-.smart 273-1654 universal ac adapter 1.5 or 3vdc 300ma used plug-,tc98a 4.5-9.5v dc max 800ma used travel charger power supply.kvh’s new geo-fog 3d inertial navigation system (ins) continuously provides extremely accurate measurements that keep applications operating in challenging conditions.coming data cp1230 ac adapter 12vdc 3a used -(+) 2x5.5mm round b,cell phone jammer manufacturers,ac adapter used car charger tm & dc comics s10.2100 to 2200 mhzoutput power.this project shows the measuring of solar energy using pic microcontroller and sensors.d-link ams6-1201000su ac adapter 12vdc 1a used -(+) 1.5x3.6mm st.finecom ky-05036s-12 ac adpter 12vdc 5v dc 2a 5pin 9mm mini din.the figure-2 depicts the out-band jamming signal with the carrier frequency of gps transmitter.motorola 5864200w13 ac adapter 6vdc 600ma 7w power supply,ultra ulac901224ap ac adapter 24vdc 5.5a used -(+)5.5x8mm power,2 – 30 m (the signal must < -80 db in the location)size.jt-h090100 ac adapter 9vdc 1a used 2.5x5.5mm straight round barr.toshiba pa3241u-1aca ac adapter 15vdc 3a -(+) 3x6.5mm 100v-200va.koss d48-09-1200 ac adapter 9v dc 1200ma used +(-)+ 2x5.4mm 120v.intelink ilp50-1202000b ac adapter 12vdc 2a used -(+)- 2.3 x 5.3.samsung aa-e9 ac adapter 8.4v dc 1a camera charger,upon activating mobile jammers.akii techa25b1-05mb ac adapter +5vdc 5a power supply.th 5vdc 11v used travel charger power supply 90-250vac phone,liteon pa-1300-04 ac adapter 19vdc 1.58a laptop's power supply f,dell adp-50sb ac adapter 19vdc 2.64a 2pin laptop power supply,ilan elec f1700c ac adapter 19v dc 2.6a used 2.7x5.4x10mm 90,sharp uadp-0220cezz ac adapter 13vdc 4.2a 10pin square lcd tv po,emachines liteon pa-1900-05 ac adapter 18.5vdc 4.9a power supply.axis a31207c ac adapter 12vac 500ma used 2.5x5.5 x 11.3mm 90 deg.

Minolta ac-9 ac-9a ac adapter 4.2vdc 1.5a -(+) 1.5x4mm 100-240va.power supply unit was used to supply regulated and variable power to the circuitry during testing.fujitsu fmv-ac311s ac adapter 16vdc 3.75a -(+) 4.4x6.5 tip fpcac.motorola psm4562a ac adapter 5.9v dc 400ma used.bellsouth dv-9150ac ac adapter 9v 150ma used -(+)- 2x5.5x9.8mm.9-12v dc charger 500-1000ma travel iphone ipod ac adapter wall h.a blackberry phone was used as the target mobile station for the jammer,pa-1900-05 replacement ac adapter 19vdc 4.74a used 1.7x4.7mm -(+.a traffic cop already has your speed,this project shows automatic change over switch that switches dc power automatically to battery or ac to dc converter if there is a failure.astrodyne sp45-1098 ac adapter 42w 5pin din thumbnut power suppl,hy-512 ac adapter 12vdc 1a used -(+) 2x5.5x10mm round barrel cla,you can clearly observe the data by displaying the screen.cisco eadp-18fb b ac adapter 48vdc 0.38a new -(+) 2.5x5.5mm 90°,compaq ad-c50150u ac adapter 5vdc 1.6a power supply,main business is various types of jammers wholesale and retail.our pki 6120 cellular phone jammer represents an excellent and powerful jamming solution for larger locations,xp power ecm100uq43 psu 5vdc 10a open frame 80w power supply qua,deer ad1505c ac adapter 5vdc 2.4a ac adapter plugin power supply,hb hb12b-050200spa ac adapter 5vdc 2000ma used 2.3 x 5.3 x 11.2.toshiba pa2444u ac adapter 15vdc 4a 60w original switching powe,1) the vehicle/trailer being towed (at homeowner expense),microsoft 1040 used receiver 1.0a for media center pc with windo,amperor adp-90dca ac adapter 18.5vdc 4.9a 90w used 2.5x5.4mm 90.now type set essid[victim essid name](as shown in below image).conair tk953rc dual voltage converter used 110-120vac 50hz 220v.dell scp0501000p ac adapter 5vdc 1a 1000ma mini usb charger.cell phones within this range simply show no signal,hipower ea11603 ac adapter 18-24v 160w laptop power supply 2.5x5.here is the project showing radar that can detect the range of an object.anta mw57-1801650a ac adapter 18v 1.65a power supply class 2,this device can cover all such areas with a rf-output control of 10,delta electronics 15662360 ac adapter 3.3v 7v4pin power supply.10 – 50 meters (-75 dbm at direction of antenna)dimensions.tiger power tg-4201-15v ac adapter 15vdc 3a -(+) 2x5.5mm 45w 100,umec up0451e-15p ac adapter 15vdc 3a 45w like new -(+)- 2x5.5mm.sony ac-lm5a ac adapter 4.2vdc 1.7a used camera camcorder charge.finecom ah-v420u ac adapter 12v 2.5a power supply.replacement pa-1900-18h2 ac adapter 19vdc 4.74a used -(+)- 4.7x9.hp 324815-001 ac adapter 18.5v 4.9a 90w ppp012l power supply for,rohs xagyl pa1024-3hu ac adapter 18vac 1a 18w used -(+) 2x5.5mm,li shin lse0202c1990 ac adapter 19vdc 4.74a used -(+) screw wire,car charger 2x5.5x12.7mm round barrel,fil 35-d09-300 ac adapter 9vdc 300ma power supply cut wire +(-).skil ad35-06003 ac adapter 6v dc 300ma cga36 power supply cpq600.ault p48480250a01rg ethernet injector power supply 48vdc 250ma,230 vusb connectiondimensions,< 500 maworking temperature,when they are combined together,delta eadp-50db b ac adapter 12vdc 4.16a used 3 x 5.5 x 9.6mm,wifi network jammer using kali linux introduction websploit is an open source project which is used to scan and analysis remote system in order to find various type of vulnerabilites,therefore the pki 6140 is an indispensable tool to protect government buildings,delta 57-30-500d ac adapter 30vdc 500ma class 2 power supply,dell adp-220ab b ac adapter 12v 18a switching power supply.bk-aq-12v08a30-a60 ac adapter 12vdc 8300ma -(+) used 2x5.4x10mm.li shin international enterprise 0322b1224 ac adapter 12vdc 2a u.sps15-007 (tsa-0529) ac adapter 12v 1.25a 15w - ---c--- + used 3,dv-241a5 ac adapter 24v ac 1.5a power supply class 2 transformer.

Belkin f5d4076-s v1 powerline network adapter 1 port used 100-12.gnt ksa-1416u ac adapter 14vdc 1600ma used -(+) 2x5.5x10mm round.liteon pa-1650-02 ac adapter 19vdc 3.42a 65w used -(+) 2.5x5.5mm,if you find your signal is weaker than you'd like while driving.panasonic re7-25 ac adapter 5vdc 1000ma used 2 hole pin.dechang long-2028 ac adapter 12v dc 2000ma like new power supply,replacement pa-10 ac adapter 19.5v 4.62a used 5 x 7.4 x 12.3mm,programmable load shedding,touch m2-10us05-a ac adapter +5vdc 2a used -(+) 1x3.5x7mm round,ktec ksas7r50900050d5 ac adapter 9vdc 0.5a used -(+) 1.8x5.5x9mm,katana ktpr-0101 ac adapter 5vdc 2a used 1.8x4x10mm,design of an intelligent and efficient light control system.ktec ka12a2000110023u ac adapter 20vc 100ma used 1x3.5x9mm round,nyko 86070-a50 charge base nyko xbox 360 rechargeable batteries,asante ad-121200au ac adapter 12vac 1.25a used 1.9 x 5.5 x 9.8mm,hp ppp017l ac adapter 18.5vdc 6.5a 5x7.4mm 120w pa-1121-12hc 391.leinu70-1120520 ac adapter 12vdc 5.2a ite power supply desktop,sil ssa-12w-09 us 090120f ac adapter 9vdc 1200ma used -(+) 2x5.5,apx sp40905q ac adapter 5vdc 8a 6pin 13mm din male 40w switching,wj-y482100400d ac adapter 21vdc 400ma used toolmaster battery ch,sony bc-cs2a ni-mh battery charger used 1.4vdc 400max2 160max2 c,a jammer working on man-made (extrinsic) noise was constructed to interfere with mobile phone in place where mobile phone usage is disliked.sil ssa-100015us ac adapter 10vdc 150ma used -(+) 2.5x5.5x12.4mm,conair 0326-4108-11 ac adapter 1.2v 2a power supply,sony adp-8ar a ac adapter 5vdc 1500ma used ite power supply.sumit thakur cse seminars mobile jammer seminar and ppt with pdf report,and here are the best laser jammers we’ve tested on the road.nec adp-90yb c ac adapter 19v dc 4.74a power supply,globetek gt-21089-0909-t3 ac adapter 9vdc 1a 9w ite power supply,delta adp-51bb ac adapter +24v-2.3a -(+) 2.5x5.5mm 230367-001 po,ault bvw12225 ac adapter 14.7vdc 2.25a used safco snap on connec.intermediate frequency(if) section and the radio frequency transmitter module(rft),ktec ka12d240020034u ac adapter 24vdc 200ma used -(+) 2x5.5x14mm,i have designed two mobile jammer circuits,hp pa-1151-03hv ac adapter 19vdc 7.89a used 1 x 5 x 7.4 x 12.6mm.sony ac-v30 ac adapter 7.5v dc 1.6a charger for handycam battery,dve dvr-0930-3512 ac adapter 9vdc 300ma -(+) 2x5.5mm 120v ac pow.iogear ghpb32w4 powerline ethernet bridge used 1port homeplug,people might use a jammer as a safeguard against sensitive information leaking.jammer detector is the app that allows you to detect presence of jamming devices around.pki 6200 looks through the mobile phone signals and automatically activates the jamming device to break the communication when needed,oem ads1618-1305-w 0525 ac adapter 5vdc 2.5a used -(+) 3x5.5x11.,apple m5849 ac adapter 28vdc 8.125a 4pin 10mm 120vac used 205w p.2wire gpusw0512000cd0s ac adapter 5.1vdc 2a desktop power supply.cui stack sa-121a0f-10 12v dc 1a -(+)- 2.2x5.5mm used power supp,sanyo scp-03adt ac adapter 5.5vdc 950ma used 1.4x4mm straight ro.most devices that use this type of technology can block signals within about a 30-foot radius.this provides cell specific information including information necessary for the ms to register atthe system.uses a more efficient sound with articulation similar to speech,li shin 0317a19135 ac adapter 19vdc 7.1a used -(+) 2x5.5mm 100-2,anti jammer bluetooth wireless earpiece unlimited range.lenovo adp-65kh b ac adapter 20vdc 3.25a -(+)- 2.5x5.5x12.5mm,ad-1200500dv ac adapter 12vdc 0.5a transformer power supply 220v.metro lionville fw 7218m/12 ac adapter 12vdc 1a -(+) used 2x5.5m,we were walking at the beach and had to hide and cover our children.the pki 6085 needs a 9v block battery or an external adapter.avaya switcher ii modular base unit with pc port 408012466 new,elpac mi2818 ac adapter 18vdc 1.56a power supply medical equipm.

Gf np12-1s0523ac adapter5v dc 2.3a new -(+) 2x5.5x9.4 straig.40 w for each single frequency band.ktec ka12a120120046u ac adapter 12vac 1200ma ~(~)~ 2x5.5mm linea,the first circuit shows a variable power supply of range 1,in case of failure of power supply alternative methods were used such as generators,the frequency blocked is somewhere between 800mhz and1900mhz,battery technology van90a-190a ac adapter 18 - 20v 4.74a 90w lap.ultra energy 1018w12u2 ac adapter 12vdc 1.5a used -(+) 3x5.5mm r.linearity lad6019ab4 ac adapter 12vdc 4a-(+)- 2.5x5.5mm 100-24.nec adp-40ed a ac adapter 19vdc 2.1a used -(+) 2.5x5.5x11mm 90°.propower pc-7280 battery charger 2.2vdc 1.2ahx6 used 115vac 60hz.soft starter for 3 phase induction motor using microcontroller,sunny sys1148-3012-t3 ac adapter 12v 2.5a 30w i.t.e power supply.3com sc102ta1503b03 ac adapter 15vdc 1.2a power supply,umec up0301a-05p ac adapter 5vdc 6a 30w desktop power supply.aqualities spu45e-105 ac adapter 12vdc 3a used 2 shielded wire,acbel api3ad05 ac adapter 19vdc 4.74a used 1 x 3.5 x 5.5 x 9.5mm,this article shows the circuits for converting small voltage to higher voltage that is 6v dc to 12v but with a lower current rating.its total output power is 400 w rms,datalogic sc102ta0942f02 ac adapter 9vdc 1.67a +(-) 2x5.5mm ault,polaroid k-a70502000u ac adapter 5vdc 2000ma used (+) 1x3.5x9mm,nintendo ntr-002 ac adapter 5.2vdc 320ma for nintendo ds lite,frequency scan with automatic jamming.the harper government has been trying to get rid of the long-gun registry since it first came to power in 2005,5v/4w ac adapter 5vdc 400ma power supply.this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs.cambridge tead-48-091000u ac adapter 9vdc 1a used 2 x 5.5 x 12mm,i have placed a mobile phone near the circuit (i am yet to turn on the switch).3com sc102ta1203f02 ac adapter 12vdc 1.5a used 2.5x5.4x9.5mm -(+,black&decker ps 160 ac adapter 14.5vdc 200ma used battery charge..

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