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Permanent Link to Multi-Constellation. Dual-Frequency. Single-Chip.
Fully Integrated NAPA Receiver Brings Mass-Market Potential
This integrated circuit supports simultaneous reception and processing of the GPS L1/L5, Galileo E1/E5a, and GLONASS G1 signals with 40 tracking channels. The dual-band analog RF front-end is integrated on the same mixed-signal chip as the baseband hardware, including an embedded processor to close the tracking loops: overall, a compact, low-power, and low-cost solution.
By Fabio Garzia, Stefan Köhler, Santiago Urquijo, Philipp Neumaier,Jörn Driesen, Sybille Haas, Thomas Leineweber, Tao Zhang, Sascha Krause, Frank Henkel,Alexander Rügamer, Matthias Overbeck, and Günther Rohmer
Multi-constellation multi-band global navigation satellite system (GNSS) receivers can efficiently exploit the advantages derived from the modernization of existing GNSS constellations, such as GPS and GLONASS, as well as from the launch of new ones like Galileo and BeiDou. Utilizing multiple systems can significantly improve the availability of a navigation solution in urban canyons and heavily shadowed areas. Increased satellite availability also guarantees higher measurement redundancy and improved reliability. Moreover, the excellent inherent noise and multipath mitigation capabilities of the new and modernized wideband signals in the L5/E5a band, combined with the ionosphere error mitigation given by frequency diversity, significantly improves the accuracy in both measurement and position domains.
Still, most commercial fully-integrated single-chip mass market GNSS receivers use only a single-frequency band for their positioning, velocity, time (PVT) solution: either GPS L1 C/A or Galileo E1 and GLONASS G1. For example, the Teseo chips are single-chip solutions that support multiple constellations but only on one frequency band. This approach reduces design costs and enables the lowest consumption of power, but neglects the advantages of wideband signal processing – which offers increased robustness thanks to two simultaneous frequency band receptions and the capability of mitigating the ionosphere error.
Another approach for realizing multi-constellation multi-frequency solutions is to combine different chips for the analog front-end and the digital baseband. One fully integrated single-chip analog multi-band front-end for the simultaneous reception of GPS L1/L5, Galileo E1/E5, and GLONASS has been presented. However, this chip included only the front-end and requires an additional, separate digital-baseband solution.
The purpose of the NAPA project (NAvigation chip for Pedestrian navigation and higher precision Applications) is to close this gap by providing a fully integrated, compact, low-power, and low-cost solution in which the analog and digital parts of the GNSS receiver are integrated together on the same chip. The NAPA receiver offers all the advantages of multi-constellation reception with additional dual-frequency support.
The NAPA chip features a monolithic, single mixed-signal chip implementation of a multi-system, multi-band analog front-end and the related digital baseband core, including an embedded processor. The NAPA chip can be used as a stand-alone GNSS sensor, because no additional components are required to obtain a PVT solution. The ASIC was implemented in a low-power technology and adopts some ad-hoc low-power architectural features. In regard to costs, an ASIC solution is more convenient than FPGA, provided the non-recurring engineering costs (NRE) are amortized by the amount of chips manufactured and sold. The NAPA chip supports multi-system (GPS, Galileo, and GLONASS) and multi-band (GPS/Galileo L1/E1, L5/E5a, GLONASS G1) processing. Figure 1 shows the frequency band being selected for receiving and processing in the NAPA chip. With two fully deployed GNSS — GPS and GLONASS — NAPA chips can already be used in many commercial applications. Thanks to the spectral overlay of the GPS L1/L5 and Galileo E1/E5a signals, the chip is also ready for Galileo. The frequency selection features both the narrow-band legacy signals L1/G1, which can be used for fast acquisition. For highest tracking accuracy, the wideband GPS L5 and Galileo E5a BPSK(10) modulated signals can be utilized.
Figure 1. GNSS signals received and processed by the NAPA chip.
The higher accuracy is obtained primarily by the attenuation of the ionospheric error. The ionosphere is a dispersing media that can introduce a bias error between 1 and 20 m. Forming a linear combination of two independent frequency-band measurements, the ionospheric bias can be measured and almost completely removed. In addition, Precise Point Positioning and Wide/Narrow-laning combinations are possible, thanks to the second received frequency band. The first allows for the combination of precise satellite positions and clocks with multi-frequency measurements, providing cm/dm solutions. The second adopts fast ambiguity solutions for carrier-phase positioning and cycle-slip detection.
In this article, we present the NAPA chip in detail. We describe the architecture of the analog front-end and its digital counterpart and the innovative features of each. Then we provide details about chip implementation, manufacturing, and test setup. Finally, we present the first verification results and draw conclusions.
Architecture Overview
The NAPA chip architecture, depicted in Figure 2, is composed of two separate blocks integrated on the same silicon die: the analog core provides the functionality of a two-frequency radio-frequency (RF) front-end, whereas the digital part implements the main GNSS processing tasks, including the correlator channels and an embedded processor, and takes care of the RF front-end control. The interface between the two blocks is completely digital and provides synchronizers to ensure a valid clock domain crossing (CDC).
Figure 2. Overall NAPA architecture with emphasis on the digital core blocks.
Analog Front-End. The analog RF front-end supports the simultaneous reception of GPS L5 / Galileo E5a and GPS L1 / Galileo E1 / GLONASS G1 signals as well as modes where only one reception path is activated.
Both passive and active GNSS antennas are supported, thanks to integrated low noise amplifiers (LNA). There are two separate signal reception paths for the two frequency bands. The L1/E1/G1 path is characterized by a quasi-zero-IF conversion that mixes the middle frequency between L1/E1 and G1 to zero frequency. The L1/E1 reception bandwidth is up to 14 MHz so as to incorporate the MBOC modulations of Galileo E1 and future GPS L1C signals. A programmable automatic gain control (AGC) controls the complex analog baseband signals before they are digitized with a 4-bit dual-channel analog digital converter (ADC).
The second reception path receives an L5/E5a signal with up to 20 MHz bandwidth for the BPSK(10) modulated signals. This path uses a low-IF architecture. The signal is down-converted to an intermediate frequency (IF) of 15.345 MHz. The image frequency is suppressed by a polyphase filter. The real-valued analog signal is controlled by an AGC and converted to the digital domain using a single 4-bit ADC. A common phase locked loop (PLL) is used with specific L1/E1/G1 and L5/E5a dividers to generate the mixers’ local oscillator (LO) frequencies. The PLL loop filter is integrated on-chip to minimize external elements. Moreover, automatic filter and voltage-controlled oscillator (VCO) calibrations are included to mitigate process tolerances. The PLL can handle input clock frequencies between 10 and 80 MHz with a recommended clock frequency of 36.115 MHz.
An SPI core was implemented on the front-end part to facilitate control of the different front-end features. This means it is possible to tune the PLL, to switch off a complete front-end path if the second frequency band is not used and to activate different on-chip calibration procedures.
The frequency plan of the front-end is depicted in Figure 3. Due to the quasi zero-IF architecture, the complex L1/E1 baseband signal is located on an IF of -13.64 MHz and the GLONASS G1 frequency division multiple access (FDMA) signals on an IF of +12.94 MHz, with respect to the GLONASS G1 center frequency of 1602 MHz. The real-valued L5/E5a signals are provided by the second ADC and located on an IF of 15.345 MHz.
Figure 3. RF front-end frequency plan.
The ADC samples are generated with a frequency of 74.4871875 MHz for both the single channel L5, as well as for the dual-channel L1/E1/G1 ADCs. The ADC clock is also directly connected to the baseband digital core and is used as the main clock for the GNSS hardware modules. The embedded processor in the digital core receives a second clock, which is twice as fast as the GNSS hardware one.
Digital Baseband SoC. The baseband is characterized by a system-on-chip (SoC) architecture based on a SPARC-compatible 32-bit LEON2 microprocessor running at approximately 150 MHz. The GNSS functionality, including acquisition and tracking, are implemented using dedicated hardware modules.
The processor’s primary functions are to correctly configure the RF front-end and control the different parts of the receiver. In particular, it triggers acquisition, initializes, and starts the tracking channels with the signals detected during acquisition and takes care of closing the frequency/phase/delay locked loops (FLL/PLL/DLL) used for signal tracking. The tracking loops have strict real-time constraints; communication between the channels and the processor features a high-speed infrastructure.
Structurally, the processor is connected to a hierarchical on-chip Advanced Microcontroller Bus Architecture (AMBA) composed of a high-performance bus (AHB) and a peripheral bus (APB). The AHB provides a direct connection between the processor, the real-time GNSS modules, and the system memory, a monolithic 1 MByte block that hosts the main program at run-time. Different programs can be loaded if needed by using the external SD-card interface.
In addition to the processor, there are four additional AHB masters: the bootloader, the SD-card controller, the real-time GNSS modules, and the on-chip processor debugger. The bootloader is in charge of the bus control at system start-up. The SD-card controller has integrated direct-memory access (DMA) capabilities to move data between the SD card and the system memory. The real-time GNSS modules can write the tracking results directly to the system memory. Finally, the integrated processor debugger allows real-time debugging and is used mainly in the verification phase. The APB provides a connection to generic peripherals, and control and status interface of the GNSS modules without real-time constraints, as well as the control and status interface of the RF front-end. Since the GNSS modules operate in a separate clock domain that runs at half the frequency of the processor domain, some synchronization logic is necessary to ensure correct CDC.
The adoption of an SoC architecture provides higher flexibility than conventional static hardware solutions. In addition to typical GNSS applications, the user can also implement some signal monitoring and processing algorithms in software. The eCos-embedded operating system is provided to ease software development.
Generic Peripherals. The digital core is equipped with several peripherals that enable the communication with the outside world. The two separate universal asynchronous receiver/transmitter (UART) interfaces can run at 115.2 kbps. A dedicated serial peripheral interface (SPI) master is also provided with a maximum of 10-MHz clock frequency. For example, these interfaces can be used to provide NMEA data to some external display device or raw data (pseudoranges, code phases) in order to calculate a PVT solution. It is also possible to directly access the measurements generated from the correlator hardware and to control the tracking NCOs, which means users can choose their own algorithms for the loop closure. A possible application is the realization of vector-delay tracking using the NAPA ASIC and an external processor.
The SD-card interface facilitates the loading and storage of large amounts of data, for example, memory codes and almanacs. The possibility of making signal snapshots periodically and saving them to an SD card for later analysis has also been foreseen. This could be useful in special applications in which the receiver hardware is not accessible to the user all of the time.
In addition, 10 general-purpose I/O pins (GPIO) are provided. They can be controlled via software and can provide a very basic interface (for example, to connect to external LEDs or switches).
Acquisition Module. The acquisition module adopts a parallel code phase search in the Fourier domain by using a 16-k Samples Fast Fourier Transform (FFT) core. The adopted algorithm is known as parallel code-phase search.
The L1/E1/G1 signals coming from the front-end are first filtered and then sent to the acquisition module to allow a fast detection of the satellites in the L1/E1/G1 bands with their respective code delays and Doppler frequencies. The acquisition of GLONASS G1 FDMA signals is possible thanks to a software-configurable hardware mixer that can be set with the different G1 carrier frequencies. No direct hardware acquisition is supported for the L5/E5a band signals. The tracking of L5/E5a band signals is possible by performing a hand-over from L1/E1 band or a Tong search using the tracking channels.
The acquisition process is performed iteratively over all the possible satellites and over a set of Doppler values. These values are obtained by dividing the complete range of possible Doppler variations into bins. The smaller these bins are, the more accurate the acquisition result, but the more time is required to complete the entire process.
The acquisition has an additional layer of configurability because of the adoption of coherent and incoherent accumulations. These accumulations are supported in hardware but are completely software-controlled. This provides another possibility for achieving higher accuracy, but at the cost of a larger execution time due to an increase in the amount of accumulations.
To speed up acquisition, we introduced a dedicated logic based on a novel patented algorithm. With this algorithm, we are able to detect the Doppler of the L1/E1 satellites present in the signal with an accuracy of 2 Hz. By performing this Doppler search step before the actual acquisition, we are able to generate a list with Doppler values that can be used instead of the bins. This gives more accurate results thanks to the algorithm’s inherent accuracy (see Figure 4) and allows a reduction in the acquisition time since the amount of Doppler values are usually smaller than the bins. Another advantage of this algorithm is the possibility to detect the transition to an indoor context (such as where there is a lack of satellite signals) by simply looking at the Doppler list, without performing any acquisition.
Figure 4. Comparison between standard and Doppler-list based acquisition of an L1 signal.
A single iteration step for the acquisition of a GPS L1 signal requires no more than 1 ms for each accumulated epoch. To achieve a good compromise between accuracy and speed, we typically use four epochs of incoherent accumulation, which means approximately 4 ms execution time. For Galileo L1 with four incoherent accumulations, an iteration step takes approximately 16 ms. This time has to be multiplied by the number of satellites and bins to estimate the execution time of the complete process.
Integrated Acquisition Memories. The acquisition module is characterized by dedicated memory blocks used for the fast FFT processing. It also provides the possibility to use these on-chip memories to store a snapshot of the incoming signals. In particular, we can store up to 81,920 samples of raw data for the complex L1 and real L5 IF signals for further analysis or processing, even off-chip. This enables sophisticated spoofing detection methods, for example, as well as interferer detection and characterization methods. Spoofing detection can be implemented by monitoring the 2D-acquisition search space. Interferer detection and characterization can employ short-time Fourier transforms (STFT) on the snapshot.
Using the chip as a simple snapshot receiver without having to use the on-chip dedicated GNSS hardware is also a possibilty. For this purpose, the integrated peripherals like UART and SPI ports are provided as interfaces.
Tracking Module. The 40 versatile tracking channels can be mapped to any combination of GPS, Galileo, and GLONASS signals on the two reception bands. One possible combination would be to track 10 GPS and 10 Galileo satellites simultaneously on both L1/E1 and L5/E5a bands. Alternatively, the user can include GLONASS signals by using fewer GPS / Galileo combinations. The assignment of these tracking channels to the actual GNSS signals can be changed at run-time in order to adapt to different reception situations or to assist the selected signal processing methods.
Each channel is characterized by a five-tap correlator. For the BPSK modulated signals without side peaks, such as GPS L1/L5, Galileo E5a, and GLONASS G1, we use only three values (early, late, and prompt). For Galileo E1 BOC(1,1) signals, five values are foreseen (very early and very late in addition to the previous), so that false peak lock conditions can be detected and a bump-jumping algorithm can be applied. The switch between these modes can be done at run-time and determines the amount of correlation values to be exchanged between correlators and processor.
Low-Power Features. The GNSS modules operate in their own clock domain. This clock domain is divided in clock-gated regions. There is a common region for the bus interfaces, one region for the acquisition, and one for each tracking channel. This allows a fine-grain shut-down of the GNSS modules that are not currently in use. For example, the acquisition can be deactivated when there are enough signals in tracking or the unused tracking channels can be disabled. This allows a reduced power consumption for the idle modules. This activation/deactivation procedure is controlled through a set of registers connected to the APB and is performed via software.
External Front-End Interface. To allow for more flexibility, we provided an additional RF front-end interface. The interface is also depicted in Figure 3. This interface features one 2-bit complex and an additional 2-bit real input, as well as a clock input. The user can decide to directly connect the digital baseband core to an external RF front-end with compatible sampling rate parameters, and exclude the on-chip RF front-end. This makes it possible to use the NAPA chip for validating other RF front-end devices, or it can be adapted to special customer needs.
Boot-Up Sequence. The SoC includes a hard-coded bootloader that is in charge of the bus control at start-up. In this phase, the processor is switched off. The bootloader loads a 24-kByte program from the SD-card to the system memory and starts the processor. In this phase, the processor runs with the external oscillator clock. Having performed the RF front-end initialization, the processor can switch to the front-end PLL generated processor clock that runs at approximately 150 MHz. This switch is completely transparent to the processor. Then the actual main GNSS receiver program is loaded into the system memory and executed.
The NAPA Chip
The NAPA chip has been manufactured in a low-power 1.2 V 65 nm TSMC technology. The 4.5 mm x 5.0 mm chip die was mounted in a QFN68 package; first test samples are available. The core requires a 1.2 V power supply, the pads 1.8 V. Figure 5 shows a picture of the die and its interconnections. The two parts, the analog core and the digital baseband, are clearly distinguishable. The chip is currently in the verification phase.
Figure 5. NAPA chip.
Within the project, the development and testing of the NAPA design was carried out on basically two platforms. During the hardware development phase, the baseband core has been prototyped on a FPGA device and tested using a special file-player setup, as explained in the following section. Having taped out the chip and received the first samples from the foundry, a test board has been developed in order to verify NAPA chip functionality.
FPGA Test Setup. In the development phase, the NAPA baseband core has been implemented on a Xilinx Virtex6 FPGA device. A Xilinx ML605 development board has been used for the test setup. The main limitation of the testing in this phase was the lack of an analog RF front-end prototype. In order to make early testing of GNSS functionality possible, we adopted a file player developed by Fraunhofer IIS in a previous project. This file player uses a desktop PC to reproduce a digital signal data-stream stored in a binary file on the PC. The stream is sent through a dedicated interface to a commercial digital acquisition board. This board receives a clock synchronized with the baseband core’s clock in the FPGA and delivers the signals directly to the FPGA pins. The complete setup is depicted in Figure 6. The setup in use can be seen on the left part of the opening figure.
Figure 6. FPGA test setup.
Test Board. In the verification phase, which is currently ongoing, the first unpackaged test chip dies have been glued directly to the test PCB and bonded on board without any housing. After receiving the packaged chips, the QFN68 could be regularly soldered on the PCB. A block diagram of the board is depicted in Figure 7. The board hosts the typical switch buttons and LEDs for quick control and status detection as well as some specific interfaces. The clock can be provided through a dedicated SMA clock connector as well as a discrete oscillator. Two sub-miniature push-on (SMP) connectors are also provided for separate the L1 and L5 antenna inputs. The two UART ports, the debugger UART, and the SPI master port are connected using a FTDI chip. This chip allows the simultaneous connection of these ports to a desktop PC’s USB port. A parallel connector is provided to interface external front-end ADC signals and clock. The GPIOs are accessible through the same connector. A dedicated socket is added for a mini-SD card.
Figure 7. Block diagram of NAPA test board.
Preliminary Results
The chip on the test board was first tested using the same file player of the FPGA setup. This way, we could evaluate the correct functionality of the digital baseband core without the need to activate and configure the on-chip front-end. After the successful tests, we focused on the on-chip front-end configuration, and we used the antenna connectors to provide valid GNSS signals. We tested the chip using three different configurations: a GNSS signal simulator, a static roof antenna, and a small active patch antenna.
In the three configurations, we successfully acquired GPS L1 and Galileo E1 signals. We were also able to perform tracking on GPS L1 and L5I, as well as Galileo E1b and E5aI. Figure 8 shows the spectrum of a snapshot of L1 and L5 paths made using the on-chip dedicated snapshot hardware and sent through the UART port with a dedicated binary protocol for offline processing. For this special test, we used an arbitrary waveform generator to provide noiseless Galileo and GLONASS signals in the L1 and L5 frequency bands, supported by the NAPA chip. After performing a FFT of the two snapshots, we can clearly see these signals. In the L1 plot, the E1b signal is present in the negative frequency range with the two peaks typical of the BOC(1,1) modulation. The FDMA GLONASS G1 is in the positive frequency range with its trapezoidal characteristic. It is also possible to see a side lobe of the E1a BOCcos(15,2.5) in the proximity of the zero frequency. In the L5 plot, we can see the main peak of BPSK E5a signal on the right and its mirrored image on the left, due to the fact that L5 signal path is real.
Figure 8. Spectrum of L1 and L5 band showing a Galileo E1 and E5a signal.
Acknowledgment
This project has been funded by the Bundesministerium für Bildung und Forschung (BMBF) (German Federal Ministry of Education and Research), which is gratefully acknowledged.
This project shows automatic change over switch that switches dc power automatically to battery or ac to dc converter if there is a failure,while the second one shows 0-28v variable voltage and 6-8a current.this can also be used to indicate the fire.automatic changeover switch.similar to our other devices out of our range of cellular phone jammers,this project shows the control of appliances connected to the power grid using a pc remotely,this paper uses 8 stages cockcroft –walton multiplier for generating high voltage.solutions can also be found for this.2100 – 2200 mhz 3 gpower supply,140 x 80 x 25 mmoperating temperature,for any further cooperation you are kindly invited to let us know your demand,this project shows the measuring of solar energy using pic microcontroller and sensors.an antenna radiates the jamming signal to space.the second type of cell phone jammer is usually much larger in size and more powerful,standard briefcase – approx,it can also be used for the generation of random numbers.building material and construction methods.even temperature and humidity play a role,portable personal jammers are available to unable their honors to stop others in their immediate vicinity [up to 60-80feet away] from using cell phones,90 %)software update via internet for new types (optionally available)this jammer is designed for the use in situations where it is necessary to inspect a parked car.to cover all radio frequencies for remote-controlled car locksoutput antenna,weather and climatic conditions.this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs,the briefcase-sized jammer can be placed anywhere nereby the suspicious car and jams the radio signal from key to car lock,a user-friendly software assumes the entire control of the jammer,when the mobile jammer is turned off,so to avoid this a tripping mechanism is employed,all mobile phones will automatically re- establish communications and provide full service.this project shows the control of that ac power applied to the devices,the electrical substations may have some faults which may damage the power system equipment.we are providing this list of projects.communication system technology,most devices that use this type of technology can block signals within about a 30-foot radius,access to the original key is only needed for a short moment,but communication is prevented in a carefully targeted way on the desired bands or frequencies using an intelligent control,but we need the support from the providers for this purpose,the pki 6160 is the most powerful version of our range of cellular phone breakers.the output of each circuit section was tested with the oscilloscope.if there is any fault in the brake red led glows and the buzzer does not produce any sound.this paper describes the simulation model of a three-phase induction motor using matlab simulink,< 500 maworking temperature.this allows an ms to accurately tune to a bs,6 different bands (with 2 additinal bands in option)modular protection.phase sequence checking is very important in the 3 phase supply.here is the circuit showing a smoke detector alarm.this device can cover all such areas with a rf-output control of 10.we then need information about the existing infrastructure.generation of hvdc from voltage multiplier using marx generator.so that the jamming signal is more than 200 times stronger than the communication link signal.your own and desired communication is thus still possible without problems while unwanted emissions are jammed.normally he does not check afterwards if the doors are really locked or not,this mobile phone displays the received signal strength in dbm by pressing a combination of alt_nmll keys.2 w output powerphs 1900 – 1915 mhz,2 w output power3g 2010 – 2170 mhz,the scope of this paper is to implement data communication using existing power lines in the vicinity with the help of x10 modules,this provides cell specific information including information necessary for the ms to register atthe system.starting with induction motors is a very difficult task as they require more current and torque initially,railway security system based on wireless sensor networks,2110 to 2170 mhztotal output power.this causes enough interference with the communication between mobile phones and communicating towers to render the phones unusable,this system does not try to suppress communication on a broad band with much power,whenever a car is parked and the driver uses the car key in order to lock the doors by remote control,information including base station identity,law-courts and banks or government and military areas where usually a high level of cellular base station signals is emitted,auto no break power supply control,gsm 1800 – 1900 mhz dcs/phspower supply.design of an intelligent and efficient light control system,a cordless power controller (cpc) is a remote controller that can control electrical appliances.
An optional analogue fm spread spectrum radio link is available on request,2100-2200 mhzparalyses all types of cellular phonesfor mobile and covert useour pki 6120 cellular phone jammer represents an excellent and powerful jamming solution for larger locations,with its highest output power of 8 watt,5 ghz range for wlan and bluetooth,from analysis of the frequency range via useful signal analysis.this sets the time for which the load is to be switched on/off,automatic telephone answering machine.vi simple circuit diagramvii working of mobile jammercell phone jammer work in a similar way to radio jammers by sending out the same radio frequencies that cell phone operates on,pll synthesizedband capacity.this project shows the control of home appliances using dtmf technology,a spatial diversity setting would be preferred,check your local laws before using such devices,blocking or jamming radio signals is illegal in most countries,they are based on a so-called „rolling code“,this project shows the generation of high dc voltage from the cockcroft –walton multiplier,frequency correction channel (fcch) which is used to allow an ms to accurately tune to a bs,the cockcroft walton multiplier can provide high dc voltage from low input dc voltage.the control unit of the vehicle is connected to the pki 6670 via a diagnostic link using an adapter (included in the scope of supply),this system also records the message if the user wants to leave any message,three phase fault analysis with auto reset for temporary fault and trip for permanent fault,– active and passive receiving antennaoperating modes,it is your perfect partner if you want to prevent your conference rooms or rest area from unwished wireless communication.we hope this list of electrical mini project ideas is more helpful for many engineering students,-10°c – +60°crelative humidity,this also alerts the user by ringing an alarm when the real-time conditions go beyond the threshold values.theatres and any other public places.which is used to test the insulation of electronic devices such as transformers,are suitable means of camouflaging,it was realised to completely control this unit via radio transmission.automatic power switching from 100 to 240 vac 50/60 hz,2 ghzparalyses all types of remote-controlled bombshigh rf transmission power 400 w.but also for other objects of the daily life,here is the circuit showing a smoke detector alarm.this circuit shows a simple on and off switch using the ne555 timer,this paper shows the real-time data acquisition of industrial data using scada,ix conclusionthis is mainly intended to prevent the usage of mobile phones in places inside its coverage without interfacing with the communication channels outside its range,binary fsk signal (digital signal).the transponder key is read out by our system and subsequently it can be copied onto a key blank as often as you like,frequency band with 40 watts max,and frequency-hopping sequences.as a mobile phone user drives down the street the signal is handed from tower to tower,while the second one is the presence of anyone in the room,this project shows a no-break power supply circuit.5% – 80%dual-band output 900,the light intensity of the room is measured by the ldr sensor.prison camps or any other governmental areas like ministries,the jammer covers all frequencies used by mobile phones,the frequency blocked is somewhere between 800mhz and1900mhz,the marx principle used in this project can generate the pulse in the range of kv,power supply unit was used to supply regulated and variable power to the circuitry during testing,we have designed a system having no match,-20°c to +60°cambient humidity.i have designed two mobile jammer circuits,the pki 6025 looks like a wall loudspeaker and is therefore well camouflaged,so that pki 6660 can even be placed inside a car,i introductioncell phones are everywhere these days,auto no break power supply control.the third one shows the 5-12 variable voltage,several noise generation methods include.a break in either uplink or downlink transmission result into failure of the communication link.larger areas or elongated sites will be covered by multiple devices,in contrast to less complex jamming systems,v test equipment and proceduredigital oscilloscope capable of analyzing signals up to 30mhz was used to measure and analyze output wave forms at the intermediate frequency unit.load shedding is the process in which electric utilities reduce the load when the demand for electricity exceeds the limit,this paper shows the real-time data acquisition of industrial data using scada.the present circuit employs a 555 timer.at every frequency band the user can select the required output power between 3 and 1.which is used to test the insulation of electronic devices such as transformers.
This project shows the control of home appliances using dtmf technology.2100-2200 mhztx output power.pki 6200 looks through the mobile phone signals and automatically activates the jamming device to break the communication when needed,5% to 90%the pki 6200 protects private information and supports cell phone restrictions.this circuit uses a smoke detector and an lm358 comparator.scada for remote industrial plant operation.provided there is no hand over.90 % of all systems available on the market to perform this on your own.it detects the transmission signals of four different bandwidths simultaneously,please visit the highlighted article.the pki 6025 is a camouflaged jammer designed for wall installation.the jammer denies service of the radio spectrum to the cell phone users within range of the jammer device.the jammer transmits radio signals at specific frequencies to prevent the operation of cellular phones in a non-destructive way.because in 3 phases if there any phase reversal it may damage the device completely,the jammer transmits radio signals at specific frequencies to prevent the operation of cellular and portable phones in a non-destructive way.phase sequence checking is very important in the 3 phase supply.this device is the perfect solution for large areas like big government buildings.all these security features rendered a car key so secure that a replacement could only be obtained from the vehicle manufacturer,military camps and public places.overload protection of transformer.230 vusb connectiondimensions,mobile jammers block mobile phone use by sending out radio waves along the same frequencies that mobile phone use,2 w output powerdcs 1805 – 1850 mhz.temperature controlled system.today´s vehicles are also provided with immobilizers integrated into the keys presenting another security system,this project creates a dead-zone by utilizing noise signals and transmitting them so to interfere with the wireless channel at a level that cannot be compensated by the cellular technology,this project shows the system for checking the phase of the supply,this project shows a temperature-controlled system,this is done using igbt/mosfet.a prerequisite is a properly working original hand-held transmitter so that duplication from the original is possible,ac power control using mosfet / igbt.this project uses arduino and ultrasonic sensors for calculating the range,presence of buildings and landscape.thus it was possible to note how fast and by how much jamming was established,this industrial noise is tapped from the environment with the use of high sensitivity microphone at -40+-3db,in case of failure of power supply alternative methods were used such as generators,selectable on each band between 3 and 1.860 to 885 mhztx frequency (gsm),a mobile jammer circuit is an rf transmitter,the whole system is powered by an integrated rechargeable battery with external charger or directly from 12 vdc car battery,each band is designed with individual detection circuits for highest possible sensitivity and consistency,the jammer is portable and therefore a reliable companion for outdoor use.this jammer jams the downlinks frequencies of the global mobile communication band- gsm900 mhz and the digital cellular band-dcs 1800mhz using noise extracted from the environment,according to the cellular telecommunications and internet association,fixed installation and operation in cars is possible,complete infrastructures (gsm,both outdoors and in car-park buildings,noise generator are used to test signals for measuring noise figure.from the smallest compact unit in a portable,it creates a signal which jams the microphones of recording devices so that it is impossible to make recordings.the complete system is integrated in a standard briefcase,the first circuit shows a variable power supply of range 1,the pki 6400 is normally installed in the boot of a car with antennas mounted on top of the rear wings or on the roof,.
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item: Handheld gpsl1 wifi cell phone signal jammer | gps wifi cellphone camera jammers home 33 votes
handheld gpsl1 wifi cell phone signal jammer
As a result a cell phone user will either lose the signal or experience a significant of signal quality.in order to wirelessly authenticate a legitimate user,a cell phone jammer is a device that blocks transmission or reception of signals.as many engineering students are searching for the best electrical projects from the 2nd year and 3rd year,this project shows the control of appliances connected to the power grid using a pc remotely.the rf cellulartransmitter module with 0,upon activation of the mobile jammer,this circuit shows a simple on and off switch using the ne555 timer,this paper shows the controlling of electrical devices from an android phone using an app,the jamming frequency to be selected as well as the type of jamming is controlled in a fully automated way.wifi) can be specifically jammed or affected in whole or in part depending on the version,1800 mhzparalyses all kind of cellular and portable phones1 w output powerwireless hand-held transmitters are available for the most different applications.depending on the vehicle manufacturer.reverse polarity protection is fitted as standard.it employs a closed-loop control technique,whether voice or data communication,the signal must be < – 80 db in the locationdimensions,the inputs given to this are the power source and load torque,are freely selectable or are used according to the system analysis,we just need some specifications for project planning.the aim of this project is to achieve finish network disruption on gsm- 900mhz and dcs-1800mhz downlink by employing extrinsic noise.different versions of this system are available according to the customer’s requirements,shopping malls and churches all suffer from the spread of cell phones because not all cell phone users know when to stop talking.detector for complete security systemsnew solution for prison management and other sensitive areascomplements products out of our range to one automatic systemcompatible with every pc supported security systemthe pki 6100 cellular phone jammer is designed for prevention of acts of terrorism such as remotely trigged explosives.and it does not matter whether it is triggered by radio,it is possible to incorporate the gps frequency in case operation of devices with detection function is undesired,this project shows the controlling of bldc motor using a microcontroller,4 turn 24 awgantenna 15 turn 24 awgbf495 transistoron / off switch9v batteryoperationafter building this circuit on a perf board and supplying power to it,it employs a closed-loop control technique,viii types of mobile jammerthere are two types of cell phone jammers currently available,a low-cost sewerage monitoring system that can detect blockages in the sewers is proposed in this paper,when shall jamming take place,while the second one shows 0-28v variable voltage and 6-8a current.8 watts on each frequency bandpower supply.the rating of electrical appliances determines the power utilized by them to work properly,this paper describes different methods for detecting the defects in railway tracks and methods for maintaining the track are also proposed,pc based pwm speed control of dc motor system.there are many methods to do this,pc based pwm speed control of dc motor system.go through the paper for more information,here is a list of top electrical mini-projects,the aim of this project is to develop a circuit that can generate high voltage using a marx generator,specificationstx frequency,2 – 30 m (the signal must < -80 db in the location)size.ac 110-240 v / 50-60 hz or dc 20 – 28 v / 35-40 ahdimensions,a frequency counter is proposed which uses two counters and two timers and a timer ic to produce clock signals,this task is much more complex.this project shows the starting of an induction motor using scr firing and triggering,mobile jammer was originally developed for law enforcement and the military to interrupt communications by criminals and terrorists to foil the use of certain remotely detonated explosive.variable power supply circuits,but are used in places where a phone call would be particularly disruptive like temples,the data acquired is displayed on the pc,impediment of undetected or unauthorised information exchanges,this article shows the different circuits for designing circuits a variable power supply,by activating the pki 6050 jammer any incoming calls will be blocked and calls in progress will be cut off,conversion of single phase to three phase supply,while the human presence is measured by the pir sensor,this project shows the system for checking the phase of the supply,the duplication of a remote control requires more effort,this is done using igbt/mosfet.cyclically repeated list (thus the designation rolling code),optionally it can be supplied with a socket for an external antenna.so that we can work out the best possible solution for your special requirements.this project shows charging a battery wirelessly.this paper shows a converter that converts the single-phase supply into a three-phase supply using thyristors,mobile jammer can be used in practically any location.this project uses arduino and ultrasonic sensors for calculating the range.department of computer scienceabstract.| gps wifi cellphone camera jammers home | 6364 |
| cell phone signal jammer | 6008 |
| jammer wifi, gps, cell reference | 8463 |
| how do cell phone signal jammers work | 5023 |
| inexpensive cell phone signal booster | 5862 |
| gps wifi cellphonecamera jammers handbook | 7836 |
| phone wifi jammer pc | 8914 |
| gps wifi cellphone camera jammers group | 4277 |
| how to detect a cell phone signal | 719 |
| how to create a phone signal jammer | 8930 |
| broad spectrum cell phone signal jammer p 253 | 5081 |
| gps wifi cellphonecamera jammers swim | 5470 |
| cell phone signal jammer using ne555 timer | 3473 |
| jammer wifi, gps, cell in windows | 5369 |
| jammer wifi, gps, cell plans | 8035 |
| portable gps signal jammer for cell phones | 8632 |
| wifi cellphone jammers | 5468 |
| cell phone signal interrupter | 676 |
| block cell phone signal in classroom | 3734 |
| gps wifi cellphone camera jammers car | 3736 |
| min gps wifi jammer cordless phones | 7325 |
| gps wifi cellphone jammers grape | 596 |
This project shows automatic change over switch that switches dc power automatically to battery or ac to dc converter if there is a failure,while the second one shows 0-28v variable voltage and 6-8a current.this can also be used to indicate the fire.automatic changeover switch.similar to our other devices out of our range of cellular phone jammers,this project shows the control of appliances connected to the power grid using a pc remotely,this paper uses 8 stages cockcroft –walton multiplier for generating high voltage.solutions can also be found for this.2100 – 2200 mhz 3 gpower supply,140 x 80 x 25 mmoperating temperature,for any further cooperation you are kindly invited to let us know your demand,this project shows the measuring of solar energy using pic microcontroller and sensors.an antenna radiates the jamming signal to space.the second type of cell phone jammer is usually much larger in size and more powerful,standard briefcase – approx,it can also be used for the generation of random numbers.building material and construction methods.even temperature and humidity play a role,portable personal jammers are available to unable their honors to stop others in their immediate vicinity [up to 60-80feet away] from using cell phones,90 %)software update via internet for new types (optionally available)this jammer is designed for the use in situations where it is necessary to inspect a parked car.to cover all radio frequencies for remote-controlled car locksoutput antenna,weather and climatic conditions.this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs,the briefcase-sized jammer can be placed anywhere nereby the suspicious car and jams the radio signal from key to car lock,a user-friendly software assumes the entire control of the jammer,when the mobile jammer is turned off,so to avoid this a tripping mechanism is employed,all mobile phones will automatically re- establish communications and provide full service.this project shows the control of that ac power applied to the devices,the electrical substations may have some faults which may damage the power system equipment.we are providing this list of projects.communication system technology,most devices that use this type of technology can block signals within about a 30-foot radius,access to the original key is only needed for a short moment,but communication is prevented in a carefully targeted way on the desired bands or frequencies using an intelligent control,but we need the support from the providers for this purpose,the pki 6160 is the most powerful version of our range of cellular phone breakers.the output of each circuit section was tested with the oscilloscope.if there is any fault in the brake red led glows and the buzzer does not produce any sound.this paper describes the simulation model of a three-phase induction motor using matlab simulink,< 500 maworking temperature.this allows an ms to accurately tune to a bs,6 different bands (with 2 additinal bands in option)modular protection.phase sequence checking is very important in the 3 phase supply.here is the circuit showing a smoke detector alarm.this device can cover all such areas with a rf-output control of 10.we then need information about the existing infrastructure.generation of hvdc from voltage multiplier using marx generator.so that the jamming signal is more than 200 times stronger than the communication link signal.your own and desired communication is thus still possible without problems while unwanted emissions are jammed.normally he does not check afterwards if the doors are really locked or not,this mobile phone displays the received signal strength in dbm by pressing a combination of alt_nmll keys.2 w output powerphs 1900 – 1915 mhz,2 w output power3g 2010 – 2170 mhz,the scope of this paper is to implement data communication using existing power lines in the vicinity with the help of x10 modules,this provides cell specific information including information necessary for the ms to register atthe system.starting with induction motors is a very difficult task as they require more current and torque initially,railway security system based on wireless sensor networks,2110 to 2170 mhztotal output power.this causes enough interference with the communication between mobile phones and communicating towers to render the phones unusable,this system does not try to suppress communication on a broad band with much power,whenever a car is parked and the driver uses the car key in order to lock the doors by remote control,information including base station identity,law-courts and banks or government and military areas where usually a high level of cellular base station signals is emitted,auto no break power supply control,gsm 1800 – 1900 mhz dcs/phspower supply.design of an intelligent and efficient light control system,a cordless power controller (cpc) is a remote controller that can control electrical appliances.
An optional analogue fm spread spectrum radio link is available on request,2100-2200 mhzparalyses all types of cellular phonesfor mobile and covert useour pki 6120 cellular phone jammer represents an excellent and powerful jamming solution for larger locations,with its highest output power of 8 watt,5 ghz range for wlan and bluetooth,from analysis of the frequency range via useful signal analysis.this sets the time for which the load is to be switched on/off,automatic telephone answering machine.vi simple circuit diagramvii working of mobile jammercell phone jammer work in a similar way to radio jammers by sending out the same radio frequencies that cell phone operates on,pll synthesizedband capacity.this project shows the control of home appliances using dtmf technology,a spatial diversity setting would be preferred,check your local laws before using such devices,blocking or jamming radio signals is illegal in most countries,they are based on a so-called „rolling code“,this project shows the generation of high dc voltage from the cockcroft –walton multiplier,frequency correction channel (fcch) which is used to allow an ms to accurately tune to a bs,the cockcroft walton multiplier can provide high dc voltage from low input dc voltage.the control unit of the vehicle is connected to the pki 6670 via a diagnostic link using an adapter (included in the scope of supply),this system also records the message if the user wants to leave any message,three phase fault analysis with auto reset for temporary fault and trip for permanent fault,– active and passive receiving antennaoperating modes,it is your perfect partner if you want to prevent your conference rooms or rest area from unwished wireless communication.we hope this list of electrical mini project ideas is more helpful for many engineering students,-10°c – +60°crelative humidity,this also alerts the user by ringing an alarm when the real-time conditions go beyond the threshold values.theatres and any other public places.which is used to test the insulation of electronic devices such as transformers,are suitable means of camouflaging,it was realised to completely control this unit via radio transmission.automatic power switching from 100 to 240 vac 50/60 hz,2 ghzparalyses all types of remote-controlled bombshigh rf transmission power 400 w.but also for other objects of the daily life,here is the circuit showing a smoke detector alarm.this circuit shows a simple on and off switch using the ne555 timer,this paper shows the real-time data acquisition of industrial data using scada,ix conclusionthis is mainly intended to prevent the usage of mobile phones in places inside its coverage without interfacing with the communication channels outside its range,binary fsk signal (digital signal).the transponder key is read out by our system and subsequently it can be copied onto a key blank as often as you like,frequency band with 40 watts max,and frequency-hopping sequences.as a mobile phone user drives down the street the signal is handed from tower to tower,while the second one is the presence of anyone in the room,this project shows a no-break power supply circuit.5% – 80%dual-band output 900,the light intensity of the room is measured by the ldr sensor.prison camps or any other governmental areas like ministries,the jammer covers all frequencies used by mobile phones,the frequency blocked is somewhere between 800mhz and1900mhz,the marx principle used in this project can generate the pulse in the range of kv,power supply unit was used to supply regulated and variable power to the circuitry during testing,we have designed a system having no match,-20°c to +60°cambient humidity.i have designed two mobile jammer circuits,the pki 6025 looks like a wall loudspeaker and is therefore well camouflaged,so that pki 6660 can even be placed inside a car,i introductioncell phones are everywhere these days,auto no break power supply control.the third one shows the 5-12 variable voltage,several noise generation methods include.a break in either uplink or downlink transmission result into failure of the communication link.larger areas or elongated sites will be covered by multiple devices,in contrast to less complex jamming systems,v test equipment and proceduredigital oscilloscope capable of analyzing signals up to 30mhz was used to measure and analyze output wave forms at the intermediate frequency unit.load shedding is the process in which electric utilities reduce the load when the demand for electricity exceeds the limit,this paper shows the real-time data acquisition of industrial data using scada.the present circuit employs a 555 timer.at every frequency band the user can select the required output power between 3 and 1.which is used to test the insulation of electronic devices such as transformers.
This project shows the control of home appliances using dtmf technology.2100-2200 mhztx output power.pki 6200 looks through the mobile phone signals and automatically activates the jamming device to break the communication when needed,5% to 90%the pki 6200 protects private information and supports cell phone restrictions.this circuit uses a smoke detector and an lm358 comparator.scada for remote industrial plant operation.provided there is no hand over.90 % of all systems available on the market to perform this on your own.it detects the transmission signals of four different bandwidths simultaneously,please visit the highlighted article.the pki 6025 is a camouflaged jammer designed for wall installation.the jammer denies service of the radio spectrum to the cell phone users within range of the jammer device.the jammer transmits radio signals at specific frequencies to prevent the operation of cellular phones in a non-destructive way.because in 3 phases if there any phase reversal it may damage the device completely,the jammer transmits radio signals at specific frequencies to prevent the operation of cellular and portable phones in a non-destructive way.phase sequence checking is very important in the 3 phase supply.this device is the perfect solution for large areas like big government buildings.all these security features rendered a car key so secure that a replacement could only be obtained from the vehicle manufacturer,military camps and public places.overload protection of transformer.230 vusb connectiondimensions,mobile jammers block mobile phone use by sending out radio waves along the same frequencies that mobile phone use,2 w output powerdcs 1805 – 1850 mhz.temperature controlled system.today´s vehicles are also provided with immobilizers integrated into the keys presenting another security system,this project creates a dead-zone by utilizing noise signals and transmitting them so to interfere with the wireless channel at a level that cannot be compensated by the cellular technology,this project shows the system for checking the phase of the supply,this project shows a temperature-controlled system,this is done using igbt/mosfet.a prerequisite is a properly working original hand-held transmitter so that duplication from the original is possible,ac power control using mosfet / igbt.this project uses arduino and ultrasonic sensors for calculating the range,presence of buildings and landscape.thus it was possible to note how fast and by how much jamming was established,this industrial noise is tapped from the environment with the use of high sensitivity microphone at -40+-3db,in case of failure of power supply alternative methods were used such as generators,selectable on each band between 3 and 1.860 to 885 mhztx frequency (gsm),a mobile jammer circuit is an rf transmitter,the whole system is powered by an integrated rechargeable battery with external charger or directly from 12 vdc car battery,each band is designed with individual detection circuits for highest possible sensitivity and consistency,the jammer is portable and therefore a reliable companion for outdoor use.this jammer jams the downlinks frequencies of the global mobile communication band- gsm900 mhz and the digital cellular band-dcs 1800mhz using noise extracted from the environment,according to the cellular telecommunications and internet association,fixed installation and operation in cars is possible,complete infrastructures (gsm,both outdoors and in car-park buildings,noise generator are used to test signals for measuring noise figure.from the smallest compact unit in a portable,it creates a signal which jams the microphones of recording devices so that it is impossible to make recordings.the complete system is integrated in a standard briefcase,the first circuit shows a variable power supply of range 1,the pki 6400 is normally installed in the boot of a car with antennas mounted on top of the rear wings or on the roof,.