#Magnet Mount 4g Antenna
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Global Top 14 Companies Accounted for 66% of total Automotive Antenna Module market (QYResearch, 2021)
Automotive Antenna Module is an electrical component which is designed to be mounted on the vehicle refers to receive and transfer information. Typically, an antenna consists of an arrangement of metallic conductors (elements), electrically connected (often through a transmission line) to the receiver or transmitter. An oscillating current of electrons forced through the antenna by a transmitter will create an oscillating magnetic field around the antenna elements, while the charge of the electrons also creates an oscillating electric field along the elements. These time-varying fields radiate away from the antenna into space as a moving transverse electromagnetic field wave. Conversely, during reception, the oscillating electric and magnetic fields of an incoming radio wave exert force on the electrons in the antenna elements, causing them to move back and forth, creating oscillating currents in the antenna.
According to the new market research report “Global Automotive Antenna Module Market Report 2023-2029”, published by QYResearch, the global Automotive Antenna Module market size is projected to reach USD 1.91 billion by 2029, at a CAGR of 3.2% during the forecast period.
Figure. Global Automotive Antenna Module Market Size (US$ Million), 2018-2029
Figure. Global Automotive Antenna Module Top 14 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)
The global key manufacturers of Automotive Antenna Module include Harada, Laird, Yokowo, Continental, TE Connectivity, Northeast Industries, Fiamm, Ace Tech, Riof, Suzhong, etc. In 2022, the global top five players had a share approximately 66.0% in terms of revenue.
About QYResearch
QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.
QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.
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Magnetic Base 4G Antenna (3m)
Magnetic Base 4G Antenna (3m)
• 3m cable
• RG174 cable
• SMA (Male) connector
• Magnetic base for easy mounting
• 700~960/1710~2690MHz frequency range
• ≤2.5 VSWR
• 50Ω impedance
• 50W max power input
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2J Antennas Introduces the World’s Smallest 5GNR, WiFi-6E and GNSS Combination Antennas
2J Antennas Introduces the World’s Smallest 5GNR, WiFi-6E and GNSS Combination Antennas
2J Antennas, a global leader in high-performance antenna solutions, has introduced the new Stellar Series of antennas designed for a large suite of devices with a focus on sub 6 GHz, 5G NR, 4G LTE, 3G, 2G, WiFi-6E, and GNSS technologies. With superior reliability, quality, performance, real-time connectivity, and smaller size, the Stellar Series caters to law enforcement, medical transportation, fire rescue, and any other applications where mission-critical communication is a requirement. This series includes single or up to 9-in-1 configuration choices within a frequency range from 617 MHz to 7125 MHz.
“We are excited to reinvent antenna designs to meet the fast-growing global markets and offer antenna solutions with the highest quality while reducing antenna sizes as much as possible. We are proud to continue to bring antenna solutions to customers that require small device integration, reliability, and new designs,” states Ruben Cuadras, PhD., Director of Engineering.
The cutting-edge patent-pending technology reduces the antenna footprint by 55% while implementing a new double trifilar design and longitudinal resonances for MIMO/ ARRAY configurations that traditionally have more complex size restrictions (i.e. B71 Band/ 600 MHz). Each antenna configuration uses symmetrical or asymmetrical resonators for negative sections of the antenna resulting in a maximum performance at low and mid frequencies. The Stellar Series offers magnetic and adhesive mounting choices, making them ideal for temporary installations. For permanent installation, 2J Antennas also offers the screw mount option in their Roof Series. The low-profile and lightweight housing introduces an attractive new design that offers a more cost-effective solution for suppliers and distributors.
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2J Antennas Introduces the World’s Smallest 5GNR, WiFi-6E and GNSS Combination Antennas
2J Antennas Introduces the World’s Smallest 5GNR, WiFi-6E and GNSS Combination Antennas
2J Antennas, a global leader in high-performance antenna solutions, has introduced the new Stellar Series of antennas designed for a large suite of devices with a focus on sub 6 GHz, 5G NR, 4G LTE, 3G, 2G, WiFi-6E, and GNSS technologies. With superior reliability, quality, performance, real-time connectivity, and smaller size, the Stellar Series caters to law enforcement, medical transportation, fire rescue, and any other applications where mission-critical communication is a requirement. This series includes single or up to 9-in-1 configuration choices within a frequency range from 617 MHz to 7125 MHz.
“We are excited to reinvent antenna designs to meet the fast-growing global markets and offer antenna solutions with the highest quality while reducing antenna sizes as much as possible. We are proud to continue to bring antenna solutions to customers that require small device integration, reliability, and new designs,” states Ruben Cuadras, PhD., Director of Engineering.
The cutting-edge patent-pending technology reduces the antenna footprint by 55% while implementing a new double trifilar design and longitudinal resonances for MIMO/ ARRAY configurations that traditionally have more complex size restrictions (i.e. B71 Band/ 600 MHz). Each antenna configuration uses symmetrical or asymmetrical resonators for negative sections of the antenna resulting in a maximum performance at low and mid frequencies. The Stellar Series offers magnetic and adhesive mounting choices, making them ideal for temporary installations. For permanent installation, 2J Antennas also offers the screw mount option in their Roof Series. The low-profile and lightweight housing introduces an attractive new design that offers a more cost-effective solution for suppliers and distributors.
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Four of the Best 4G Omni Antennas for Site Workplaces
Site offices requiring the full scope of interchanges administrations can be a take a look at in particular in prerequisites the place the areas are far away or quick and constant line correspondences cannot be successfully appointed. In these cases, the lone choice is far-flung get admission to and for facts functions using a 4g Omni antenna is a conspicuous response for greater statistics rates. Frequently web page offices are resorts developed of steel and consequently the real hotels can obstruct the faraway symptoms for consumers inside. For this state of affairs a faraway antenna is commonly conveyed outdoor the website online workplace to beautify gathering.
Here we take a gander at four of the excellent 4G and LTE Omni antennas for website workplaces.
A 4g Omni antenna is an antenna that transmits towards every route and would not ready be pointed at the close by pinnacle or base station. Directional antennas have to be pointed at the transmitter, Omni antennas can get indicators from all bearings due to this fact commonly getting sign from greater than one regional tower.
High Gain Omni Antenna
A clearly excessive addition omni providing 4-5 dBi collect throughout the organizations besides the requirement for mounting onto a big steel floor (groundplane) and bears the price of purchasers the high-quality in 4g Omni antennas execution. Of sturdy improvement with a Fiberglass sheath to face up to the components, the FGO is meant for shaft mount or divider mount sending. When blended with distinct low misfortune hyperlink alternatives interfacing with a 4G swap or modem interior the website online office, the FGO offers effective admittance to far off administrations. You can download the datasheet here.
High Gain Magnetic Low Profile Antenna
In mild of the tremendous excellent 4G multiband, low profile antenna from Laird, this high gain wifi antenna ought to be set up on metallic floor for perfect execution. With high-quality expand throughout the groups, this antenna is supplied with 4M of hyperlink ended in a SMA-Male as standard. It tends to be hooked up on a steel pinnacle of a website workplace and later on the hyperlink can be run inside. As the antenna is low profile, it is much less prone to harm, specially treasured in improvement or mining applications. The LTE-HIGUAIN-Mag is handy to purchase from our webshop.
Practical Omni Dipole Antenna
For a savvy, website workplace Omni antenna arrangement, the LGGNF, in view of Laird's OC69271 is a beneficial decision. With multiband LTE, 4G, 3G and GSM recurrence support, this antenna is minimal and discrete and fantastic for outdoor mounting. As it is ended in a N-Female connector, it very properly may also be packaged with an assortment of low misfortune hyperlinks for community to the swap inside. The datasheet on this antenna can be downloaded here.
Window-Mount MIMO Antenna
The MIMO-Blade from EAD is some other Omni-directional antenna for window-mount applications. On the off hazard that mounting one of the above antennas outside, is virtually no longer potential or potential out of the blue, then, at that factor this minimal MIMO (different in/various out) 4G multiband antenna is an terrific different option. With two antenna aspects and two hyperlink takes care of every interfacing with an antenna port on the switch, the MIMO-Blade can be adhered to inside a web site workplace window using the pull cups furnished with the antenna.
In many conditions, the above 4g Omni antennas have to tackle web site workplace needs. In far away regions, directional antennas may be wished for strong 3G and 4G access, these come in one-of-a-kind shape elements and sorts like MIMO, minimal 4G board, general board, and yagi antennas.
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Proxicast Ultra Low Profile MIMO 3G / 4G / LTE Omni-Directional 2.5 dBi Puck Magnetic/Adhesive Mount Antenna (SMA) for Verizon, ATT, Sprint and Others from Proxicast
We are happy to review the brilliant Proxicast Ultra Low Profile MIMO 3G / 4G / LTE Omni-Directional 2.5 dBi Puck Magnetic/Adhesive Mount Antenna (SMA) for Verizon, AT&T, Sprint and Others.
With so many on offer these days, it is wise to have a product you can trust. The Proxicast Ultra Low Profile MIMO 3G / 4G / LTE Omni-Directional 2.5 dBi Puck Magnetic/Adhesive Mount Antenna (SMA) for Verizon, AT&T, Sprint and Others is certainly that and will be a great buy.
For this price, the Proxicast Ultra Low Profile MIMO 3G / 4G / LTE Omni-Directional 2.5 dBi Puck Magnetic/Adhesive Mount Antenna (SMA) for Verizon, AT&T, Sprint and Others comes widely respected and is a popular choice with most people. Proxicast have provided some excellent touches and this means great value for money.
The article was originally published here!
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Magnetic Mount Antenna 433Mhz Lora 3G GSM 4G LTE Wifi Antenna Whip Anten...
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Fast delivery of 4G outdoor WiFi flat satellite antenna
Q: what type of antenna do you use?
A: we have different frequencies lpda antenna manufacturer</a> and gains according to different types of antennas.
Gain: 2dBI, 3dBi, 5dBi, 7dbi, 9dbi, 11dbi, 12dBi, 16dbi, 25dbi,...
frequency: 315 MHz, 433 MHz, 868 MHz, 900 MHz, 915 MHz, 1575.42 MHz, 2.4G, 5.8G,
RFID, WiFi, GPS, GSM, 3G, 4G,. ... Outlook: wall mounted, ceiling mounted, Yagi, LPDA, rubber, patch, panel, magnetic.
Slim Omni Antenna supplier</a> question: we want 1m cable, can you do it?
A: no problem for us. The cable length can be customized. They can be 1 meter, 2 meters, 3 meters or even longer.
Can a connector be used with another type of connector?
A: Yes, we can customize connectors, SMA series, MCX, fakra, TS9, crc9 and so on.
Q: we would like to have a few Slim Omni Antenna supplier</a> samples for testing. Can you provide them?
A: Yes, if the antenna value is not high, we can provide you with free samples, but some expensive antennas, such as Yagi, wall mounted antenna, and then we will charge you, and the freight will be paid by you.
Q: what is the cost?
A: we will quote the price of EXW. We can use your own express account, such as DHL. If you are willing to use our products, we will also quote you the freight.
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A GPS chip antenna is a crucial component in global positioning system (GPS) devices. It is responsible for receiving signals from GPS satellites and transmitting them to the GPS chip or receiver for processing. Here are some key points about GPS chip antennas:
Function: The primary function of a GPS chip antenna is to capture and amplify the weak signals sent by GPS satellites orbiting the Earth. These signals contain information about the satellite's location and time, which the GPS receiver uses to calculate its own position.
Compact Design: GPS chip antennas are designed to be small and compact, making them suitable for integration into various electronic devices, including smartphones, navigation systems, wearables, and more.
Antenna Type: The GPS chip antenna is often a type of patch antenna. Patch antennas are flat, low-profile antennas that are well-suited for embedded applications. They are also known as planar antennas due to their flat, planar shape.
Frequency: GPS satellites transmit signals in the L-band at approximately 1.57542 GHz. GPS chip antennas are designed to operate at this frequency to effectively capture the GPS signals.
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20,000 Satellites for 5G to be Launched Sending Focused Beams of Intense Microwave Radiation Over Entire Earth
by John P. Thomas
Health Impact News
Public attention about 5G has been focused on the plans of telecom companies to install millions of small cell towers on electric utility poles, on public buildings and schools, on bus stop shelters, in public parks, and anywhere they want in national parks and on federally owned land.
In local urban communities there would be a cell tower approximately every 500 feet along every street.
As bad as these small cell towers might seem from the standpoint of constant exposure to radio frequency (RF) radiation in close proximity to the source, perhaps an even more alarming prospect will be the beaming of millimeter length microwaves at the earth from thousands of new communication satellites.
The FCC gave approval to SpaceX on March 29, 2018, to launch 4,425 satellites into low orbit around the Earth. [1]
The total number of satellites that is expected to be put into low and high orbit by several companies will be 20,000 satellites. [1]
5G will use Phased Array Antennas to shoot Beams of Radiation at Cell Phones
These satellites will use the same type of phased array antennas as will be used by the ground-based 5G systems.
This means that they will send tightly focused beams of intense microwave radiation at each specific 5G device that is on the Earth and each device will send a beam of radiation back to the satellite. [2]
Previous generations of RF cellular communication used large antennas to send a blanket of radiation in all directions. The lower frequencies they used and the broad distribution of microwaves limited the numbers of cellular devices that could connect through an individual tall tower.
The much shorter length microwaves used for 5G will make it possible to use small phased array antennas to send and receive signals.
Phased array antennas consist of clusters of hundreds of tiny antennas that work together to shoot a ray of energy at a target just like a bullet. A cluster of these tiny antennas can be arranged in a 4 inch by 4 inch matrix.
The rays of microwaves they produce will be strong enough to pass through walls and human bodies. If they were not strong enough to do this, then everyone with a 5G smartphone would have to stand outside when using the devices. [2]
Each 5G product will also have multiple phased array antennas which will be used to create a powerful beam of radiation back to the 5G devices mounted on electrical utility poles or toward a specific satellite in space.
These beams of radiation will also need to be strong enough to pass through walls and human flesh such as a hand or head to reach the intended destination. [2]
This means that if you are in a crowded location, such as an airport or on a train, there will be hundreds if not thousands of invisible beams of radiation flying through the environment at the speed of light.
As people move in that environment, their bodies will be penetrated by numerous beams of radiation as they walk or as other people walk around them with their 5G smartphones. [2]
5G Phones will be much more Powerful than Previous Phones
The effective radiated power of the 5G phased array antennas in phones will be 10 times more powerful than 4G phones.
No one will be free from exposure.
In addition, 5G beams of microwave radiation will be received and transmitted from new computer equipment, household appliances, and automobiles.
Stationary equipment such as Wi-Fi hubs in homes and offices will be permitted to use microwave beams that are 15 times stronger (300 watts) than the signals from 5G phones or 150 times stronger than 4G phones. [2]
Why is 5G so Much More Dangerous than Previous Microwave Communication Systems?
Arthur Firstenberg, author, researcher, and advocate for limiting RF exposure from the environment, explains the analysis of 5G radiation that was published in Microwave News in 2002. He stated:
When an ordinary electromagnetic field enters the body, it causes charges to move and currents to flow.
But when extremely short electromagnetic pulses enter the body [5G], something else happens: the moving charges themselves become little antennas that re-radiate the electromagnetic field and send it deeper into the body.
These re-radiated waves are called Brillouin precursors.
They become significant when either the power or the phase of the waves changes rapidly enough.
5G will probably satisfy both requirements. This means that the reassurance we are being given-that these millimeter waves are too short to penetrate far into the body-is not true. [2]
5G Satellites Will Fill the Skies
These are the companies with the biggest plans to deploy satellites:
SpaceX: 12,000 satellites
OneWeb: 4,560 satellites
Boeing: 2,956 satellites
Spire Global: 972 satellites
Arthur Firstenberg describes the plans of corporations who want to use 5G technology. He states:
Honeywell has already signed a memorandum of understanding to become OneWeb's first large customer-it plans to provide high-speed Wi-Fi on business, commercial, and military aircraft throughout the world.
SpaceX would like to provide the equivalent of 5G to every person on the planet. [3]
Ground-based 5G Implementation
Ground-based 5G systems are already being implemented in dozens of major cities right now. Plans are being approved by hundreds of other cities, which will allow implementation in 2019 and beyond.
As I explained in my previous articles, cities do not have the right to “say no” to 5G. FCC regulations prevent cities from objecting on the basis of health concerns – they only can speak to issues of esthetics and the practical matter of the placement of equipment.
They are required to “say yes,” and they better do it quickly, or telecom companies will threaten them with legal action for obstructing their plans.
Satellite Based 5G Implementation
The first two 5G test satellites were launched by SpaceX in February of 2018. Hundreds of other satellites are expected to be launched in 2019. The full set of 20,000 satellites could be put in orbit during the next two years.
To put this into perspective, as of September 2017 there were 1,738 operating satellites into orbit around the Earth. This means the number of satellites will be 11 times greater than the current number. [4]
Environmental Catastrophe from Rockets used to Launch Satellites
Rocket fuel is very destructive to the Earth's ozone layer which protects us from the harsh effects of radiation from the sun. In 2017, there were 90 rocket launch attempts worldwide. [5]
The rockets that use solid fuel produce massive ozone depletion. While rockets using liquid kerosene as fuel destroy less ozone, they release massive amounts of black carbon soot into the air, especially at high altitudes.
If the number of annual rocket launches increases by 10 or more times, which is likely under the plans these corporations have made, computer models suggest that the combination of ozone depletion and release of black soot could produce a 3 degree warming effect over the Antarctic and reduce the ozone in the world's atmosphere by 4%. [3]
Even though it will be possible for a single rocket to put multiple satellites into orbit, we are still talking about a 10 or 20 fold increase in environmental damage over what is being produced today. [3]
The 5G satellites have a relatively short lifespan, perhaps only 5 years, which means there will be high numbers of rocket launches, not just in the next few years, but in every year for the foreseeable future. [3]
Mercury-based Rocket Fuel Could Spread Neurotoxins Over the Earth
As bad as liquid and solid rocket fuels will be for the environment, Apollo Fusion is developing a mercury-based propulsion system for launching rockets.
These ion propulsion rocket engines use powerful magnets to push away small charged particles at high speeds, which generates thrust. NASA experimented with mercury ion propulsion in the 1960s, but abandoned the research.
Mercury is an extremely strong neurotoxin, which is harmful to all forms of life, especially humans.
The risks of an environmental catastrophe are monumental, because if there was a malfunction and one of these engines exploded, highly toxic mercury would be spread through the atmosphere and over the Earth. [6]
All the talk from telecom companies about 5G being a panacea for environmental protection and energy conservation is quite ridiculous when we think about the environmental damage that will be created by any of the rocket engines they choose to use for launching their satellites.
Space Junk will Pollute the Earth
Each satellite will be the size of a small refrigerator and will weigh approximately 880 pounds. [4]
With a life expectancy of only 5-years [3], this means there will be a massive amount of space junk orbiting the Earth.
Eventually, all those satellites will fall down to Earth and will burn up as they enter the Earth's atmosphere.
All the hazardous materials in the satellites will be released into the air and will float down to the ground as dust or in droplets of rain.
Telecom Companies are Creating a Worldwide Disaster in the Name of Technological Progress
5G is promoted as being the next great wonder in the plan to advance technology to create smart cities where everything and everyone is instantly connected in real time with no lags or lost signals.
Of course there will be a few costs.
Everyone will be irradiated with millimeter-size, non-ionizing radiation 24 hours a day with completely unknown health effects.
Studies designed to investigate harm from 5G will be completed many years after the 5G systems on the ground and in space are fully implemented.
At that point it is very unlikely that telecom companies would dismantle their systems even if it is shown that their technology is causing cancer and other diseases. They would just deny the risks.
They will tell us that the science was settled decades ago. They will tell us that evidence linking 5G to cancer and other diseases is just a conspiracy theory that only a few crackpots believe.
Millions of people will suffer from radiation exposure with symptoms such as headaches, weakness, brain fog, impaired ability to learn and reason, chest pain, and numerous other symptoms that will baffle most conventional physicians.
There is Nowhere to Hide from 5G Radiation
Today, it is possible to live in a location that has reduced levels of microwave exposure. This is accomplished by choosing a living space that is far away from cell phone towers.
However, in the near future, it won't matter where we live, because 5G will irradiate us wherever we happen to live or work.
Cities Can't Say No to 5G Implementation
FCC regulations have been structured in such a way that local municipalities cannot stop telecom companies from installing 5G. They are specifically prohibited from trying to delay or stop 5G implementation on the basis of health concerns. Their only recourse is to try to make the ground-based 5G system somewhat more esthetically pleasant.
Based on what has been happening around the country, telecom companies are sweeping aside local resistance and gaining approval for their 5G systems in rapid succession.
Can 5G Implementation be Stopped?
As far as I can tell, at this point, the only way that 5G will be stopped will be by congressional action. If enough people raise a stink with their elected officials, then perhaps 5G could be put on hold while studies are done to examine the true health risks.
Telecom investment in 5G has been massive. They are planning full implementation on the ground and in space in the next couple years. The time to object is now and not after hundreds of thousands of people become sick. [7]
If you would like to watch an in-depth presentation on the risks and hazards of 5G, then please view the following presentation.
Listen to Arthur Firstenberg discuss the history, science, and description of 5G, including 5G from satellites in space and its expected effects on all living things:
Cell Phone Task Force, Taos, New Mexico, August 2, 2018
You also may wish to review some of my previous articles about the risks of 5G and other forms of radio frequency exposure.
Public Waking up to Fact that 5G has not been Proven Safe for Human Health
5G Technology is Coming – Linked to Cancer, Heart Disease, Diabetes, Alzheimer's, and Death
Cell Phone and Wi-Fi Exposure to the Eyes Causes Long-Term Damage
New 5G Cell Towers and Smart Meters to Increase Microwave Radiation – Invade Privacy
Smart Meters: Countdown to a National Crisis of Illness and Death
Will Driverless Cars Cause DNA Damage and Cancer?
How Big Technology Companies Control the Minds of the Masses through Smart Phone Addiction
About the Author
John P. Thomas is a health writer for Health Impact News. He holds a B.A. in Psychology from the University of Michigan, and a Master of Science in Public Health (M.S.P.H.) from the School of Public Health, Department of Health Administration, at the University of North Carolina at Chapel Hill.
References
[1] “Planetary Emergency,” Arthur Firstenberg, Cellular Phone Task Force.
[2] “5G – from Blankets to Bullets,” Arthur Firstenberg, Cellular Phone Task Force.
[3] “WiFi in the Sky,” Arthur Firstenberg, Cellular Phone Task Force.
[4] “5G from Space,” Arthur Firstenberg, Cellular Phone Task Force.
[5] “2017 Space Launch Statistics,” – Spaceflight101.
[6] “Space Startup Apollo Fusion Wants To Use Mercury as a Fuel,” Avery Thompson, Popular Mechanics, 11/20/2018.
[7] Arthur Firstenberg, Cellular Phone Task Force, Taos, New Mexico, 8/12/2018.
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20,000 Satellites for 5G to be Launched Sending Focused Beams of Intense Microwave Radiation Over Entire Earth
by John P. Thomas
Health Impact News
Public attention about 5G has been focused on the plans of telecom companies to install millions of small cell towers on electric utility poles, on public buildings and schools, on bus stop shelters, in public parks, and anywhere they want in national parks and on federally owned land.
In local urban communities there would be a cell tower approximately every 500 feet along every street.
As bad as these small cell towers might seem from the standpoint of constant exposure to radio frequency (RF) radiation in close proximity to the source, perhaps an even more alarming prospect will be the beaming of millimeter length microwaves at the earth from thousands of new communication satellites.
The FCC gave approval to SpaceX on March 29, 2018, to launch 4,425 satellites into low orbit around the Earth. [1]
The total number of satellites that is expected to be put into low and high orbit by several companies will be 20,000 satellites. [1]
5G will use Phased Array Antennas to shoot Beams of Radiation at Cell Phones
These satellites will use the same type of phased array antennas as will be used by the ground-based 5G systems.
This means that they will send tightly focused beams of intense microwave radiation at each specific 5G device that is on the Earth and each device will send a beam of radiation back to the satellite. [2]
Previous generations of RF cellular communication used large antennas to send a blanket of radiation in all directions. The lower frequencies they used and the broad distribution of microwaves limited the numbers of cellular devices that could connect through an individual tall tower.
The much shorter length microwaves used for 5G will make it possible to use small phased array antennas to send and receive signals.
Phased array antennas consist of clusters of hundreds of tiny antennas that work together to shoot a ray of energy at a target just like a bullet. A cluster of these tiny antennas can be arranged in a 4 inch by 4 inch matrix.
The rays of microwaves they produce will be strong enough to pass through walls and human bodies. If they were not strong enough to do this, then everyone with a 5G smartphone would have to stand outside when using the devices. [2]
Each 5G product will also have multiple phased array antennas which will be used to create a powerful beam of radiation back to the 5G devices mounted on electrical utility poles or toward a specific satellite in space.
These beams of radiation will also need to be strong enough to pass through walls and human flesh such as a hand or head to reach the intended destination. [2]
This means that if you are in a crowded location, such as an airport or on a train, there will be hundreds if not thousands of invisible beams of radiation flying through the environment at the speed of light.
As people move in that environment, their bodies will be penetrated by numerous beams of radiation as they walk or as other people walk around them with their 5G smartphones. [2]
5G Phones will be much more Powerful than Previous Phones
The effective radiated power of the 5G phased array antennas in phones will be 10 times more powerful than 4G phones.
No one will be free from exposure.
In addition, 5G beams of microwave radiation will be received and transmitted from new computer equipment, household appliances, and automobiles.
Stationary equipment such as Wi-Fi hubs in homes and offices will be permitted to use microwave beams that are 15 times stronger (300 watts) than the signals from 5G phones or 150 times stronger than 4G phones. [2]
Why is 5G so Much More Dangerous than Previous Microwave Communication Systems?
Arthur Firstenberg, author, researcher, and advocate for limiting RF exposure from the environment, explains the analysis of 5G radiation that was published in Microwave News in 2002. He stated:
When an ordinary electromagnetic field enters the body, it causes charges to move and currents to flow.
But when extremely short electromagnetic pulses enter the body [5G], something else happens: the moving charges themselves become little antennas that re-radiate the electromagnetic field and send it deeper into the body.
These re-radiated waves are called Brillouin precursors.
They become significant when either the power or the phase of the waves changes rapidly enough.
5G will probably satisfy both requirements. This means that the reassurance we are being given-that these millimeter waves are too short to penetrate far into the body-is not true. [2]
5G Satellites Will Fill the Skies
These are the companies with the biggest plans to deploy satellites:
SpaceX: 12,000 satellites
OneWeb: 4,560 satellites
Boeing: 2,956 satellites
Spire Global: 972 satellites
Arthur Firstenberg describes the plans of corporations who want to use 5G technology. He states:
Honeywell has already signed a memorandum of understanding to become OneWeb's first large customer-it plans to provide high-speed Wi-Fi on business, commercial, and military aircraft throughout the world.
SpaceX would like to provide the equivalent of 5G to every person on the planet. [3]
Ground-based 5G Implementation
Ground-based 5G systems are already being implemented in dozens of major cities right now. Plans are being approved by hundreds of other cities, which will allow implementation in 2019 and beyond.
As I explained in my previous articles, cities do not have the right to “say no” to 5G. FCC regulations prevent cities from objecting on the basis of health concerns – they only can speak to issues of esthetics and the practical matter of the placement of equipment.
They are required to “say yes,” and they better do it quickly, or telecom companies will threaten them with legal action for obstructing their plans.
Satellite Based 5G Implementation
The first two 5G test satellites were launched by SpaceX in February of 2018. Hundreds of other satellites are expected to be launched in 2019. The full set of 20,000 satellites could be put in orbit during the next two years.
To put this into perspective, as of September 2017 there were 1,738 operating satellites into orbit around the Earth. This means the number of satellites will be 11 times greater than the current number. [4]
Environmental Catastrophe from Rockets used to Launch Satellites
Rocket fuel is very destructive to the Earth's ozone layer which protects us from the harsh effects of radiation from the sun. In 2017, there were 90 rocket launch attempts worldwide. [5]
The rockets that use solid fuel produce massive ozone depletion. While rockets using liquid kerosene as fuel destroy less ozone, they release massive amounts of black carbon soot into the air, especially at high altitudes.
If the number of annual rocket launches increases by 10 or more times, which is likely under the plans these corporations have made, computer models suggest that the combination of ozone depletion and release of black soot could produce a 3 degree warming effect over the Antarctic and reduce the ozone in the world's atmosphere by 4%. [3]
Even though it will be possible for a single rocket to put multiple satellites into orbit, we are still talking about a 10 or 20 fold increase in environmental damage over what is being produced today. [3]
The 5G satellites have a relatively short lifespan, perhaps only 5 years, which means there will be high numbers of rocket launches, not just in the next few years, but in every year for the foreseeable future. [3]
Mercury-based Rocket Fuel Could Spread Neurotoxins Over the Earth
As bad as liquid and solid rocket fuels will be for the environment, Apollo Fusion is developing a mercury-based propulsion system for launching rockets.
These ion propulsion rocket engines use powerful magnets to push away small charged particles at high speeds, which generates thrust. NASA experimented with mercury ion propulsion in the 1960s, but abandoned the research.
Mercury is an extremely strong neurotoxin, which is harmful to all forms of life, especially humans.
The risks of an environmental catastrophe are monumental, because if there was a malfunction and one of these engines exploded, highly toxic mercury would be spread through the atmosphere and over the Earth. [6]
All the talk from telecom companies about 5G being a panacea for environmental protection and energy conservation is quite ridiculous when we think about the environmental damage that will be created by any of the rocket engines they choose to use for launching their satellites.
Space Junk will Pollute the Earth
Each satellite will be the size of a small refrigerator and will weigh approximately 880 pounds. [4]
With a life expectancy of only 5-years [3], this means there will be a massive amount of space junk orbiting the Earth.
Eventually, all those satellites will fall down to Earth and will burn up as they enter the Earth's atmosphere.
All the hazardous materials in the satellites will be released into the air and will float down to the ground as dust or in droplets of rain.
Telecom Companies are Creating a Worldwide Disaster in the Name of Technological Progress
5G is promoted as being the next great wonder in the plan to advance technology to create smart cities where everything and everyone is instantly connected in real time with no lags or lost signals.
Of course there will be a few costs.
Everyone will be irradiated with millimeter-size, non-ionizing radiation 24 hours a day with completely unknown health effects.
Studies designed to investigate harm from 5G will be completed many years after the 5G systems on the ground and in space are fully implemented.
At that point it is very unlikely that telecom companies would dismantle their systems even if it is shown that their technology is causing cancer and other diseases. They would just deny the risks.
They will tell us that the science was settled decades ago. They will tell us that evidence linking 5G to cancer and other diseases is just a conspiracy theory that only a few crackpots believe.
Millions of people will suffer from radiation exposure with symptoms such as headaches, weakness, brain fog, impaired ability to learn and reason, chest pain, and numerous other symptoms that will baffle most conventional physicians.
There is Nowhere to Hide from 5G Radiation
Today, it is possible to live in a location that has reduced levels of microwave exposure. This is accomplished by choosing a living space that is far away from cell phone towers.
However, in the near future, it won't matter where we live, because 5G will irradiate us wherever we happen to live or work.
Cities Can't Say No to 5G Implementation
FCC regulations have been structured in such a way that local municipalities cannot stop telecom companies from installing 5G. They are specifically prohibited from trying to delay or stop 5G implementation on the basis of health concerns. Their only recourse is to try to make the ground-based 5G system somewhat more esthetically pleasant.
Based on what has been happening around the country, telecom companies are sweeping aside local resistance and gaining approval for their 5G systems in rapid succession.
Can 5G Implementation be Stopped?
As far as I can tell, at this point, the only way that 5G will be stopped will be by congressional action. If enough people raise a stink with their elected officials, then perhaps 5G could be put on hold while studies are done to examine the true health risks.
Telecom investment in 5G has been massive. They are planning full implementation on the ground and in space in the next couple years. The time to object is now and not after hundreds of thousands of people become sick. [7]
If you would like to watch an in-depth presentation on the risks and hazards of 5G, then please view the following presentation.
Listen to Arthur Firstenberg discuss the history, science, and description of 5G, including 5G from satellites in space and its expected effects on all living things:
Cell Phone Task Force, Taos, New Mexico, August 2, 2018
You also may wish to review some of my previous articles about the risks of 5G and other forms of radio frequency exposure.
Public Waking up to Fact that 5G has not been Proven Safe for Human Health
5G Technology is Coming – Linked to Cancer, Heart Disease, Diabetes, Alzheimer's, and Death
Cell Phone and Wi-Fi Exposure to the Eyes Causes Long-Term Damage
New 5G Cell Towers and Smart Meters to Increase Microwave Radiation – Invade Privacy
Smart Meters: Countdown to a National Crisis of Illness and Death
Will Driverless Cars Cause DNA Damage and Cancer?
How Big Technology Companies Control the Minds of the Masses through Smart Phone Addiction
About the Author
John P. Thomas is a health writer for Health Impact News. He holds a B.A. in Psychology from the University of Michigan, and a Master of Science in Public Health (M.S.P.H.) from the School of Public Health, Department of Health Administration, at the University of North Carolina at Chapel Hill.
References
[1] “Planetary Emergency,” Arthur Firstenberg, Cellular Phone Task Force.
[2] “5G – from Blankets to Bullets,” Arthur Firstenberg, Cellular Phone Task Force.
[3] “WiFi in the Sky,” Arthur Firstenberg, Cellular Phone Task Force.
[4] “5G from Space,” Arthur Firstenberg, Cellular Phone Task Force.
[5] “2017 Space Launch Statistics,” – Spaceflight101.
[6] “Space Startup Apollo Fusion Wants To Use Mercury as a Fuel,” Avery Thompson, Popular Mechanics, 11/20/2018.
[7] Arthur Firstenberg, Cellular Phone Task Force, Taos, New Mexico, 8/12/2018.
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Overview on Industrial Grade 4G Wireless Routers
The industrial grade 4G wireless router is an industrial IoT high-speed router that provides a solution for users to access 4G networks through WIFI or network ports. Support WLAN wireless LAN function, support FDD LTE/TD-LTE two 4G LTE network standards, but also backward compatible with 2G/3G, support TD-SCDMA/WCDMA/EDGE/GPRS/GSM/CDMA1X/EVDO, etc. Performance 32-bit ARM processor with APN private network, VPN, mandatory portal, flow control, peanut shell domain name service and many other functions. Currently widely used in the M2M industry in the IoT industry chain, such as smart grid, intelligent transportation, smart home, finance, mobile POS terminal, supply chain automation, industrial automation, intelligent building, fire protection, public safety, environmental protection, meteorology, digitization Medical, telemetry, agriculture, forestry, water, coal, petrochemical and other fields.
Features
1, features and functions:
Built-in 3G/3G+/4G LTE industrial-grade wireless modules supporting FDD-LTE, TD-LTE, WCDMA, HSPA+, TD-SCDMA, and backward compatible with EDGE/GPRS/GSM network standards
Support wired, Wi-Fi, 4G/4G+/LTE multi-network switching
Support DTU function: support RS232, RS485 serial data transparent transmission
WIFI communication distance up to 100 meters
2, high reliability:
Full industrial grade EMC electromagnetic compatibility design, power supply anti-reverse protection, ESD anti-static / anti-surge protection
Iron enclosure protection class IP30
Support hardware watchdog, never crash
3. Features:
Support VPN, APN private network access
Compulsory portal, WIFI-DOG
Support NTP network timing
Support WEB, SSH encryption communication, set software multiple parameter management methods,
Support WEB mode firmware upgrade
Provides functions such as parameter backup and import, system local log and remote log sending.
Provide system local log and remote log to send remote LOG server for real-time network monitoring
Parameter settings file can be exported and imported
4, router function:
Support DHCP server to automatically obtain IP
Support DNS domain name resolution
Support various routing functions: static routing, port forwarding, network diagnosis, DDNS dynamic domain name resolution;
Support firewall
Intelligent QOS flow control
Support port mapping: support mapping from external network port to internal network port
Support static routing table
Hardware system
CPU: Industrial Grade 32-Bit Communication Processor, 580MHz
FLASH: 16MB (128Mb) (expandable to 512MB/4Gb)
RAM: 64MB (512Mb) (expandable to 256MB/2Gb)
Interface Type
Ethernet interface: 1 10/100M Ethernet LAN port (RJ45 socket), adaptive MDI/MDIX, built-in 1.5KV electromagnetic isolation protection;
1 10/100M Ethernet WAN port (RJ45 socket), adaptive MDI/MDIX, built-in 1.5KV electromagnetic isolation protection, cascaded superior router or xDSL or Cable Modem;
(When WAN RJ45 can be converted to LAN RJ45 port, it becomes 2 LAN RJ45 ports)
DTU serial port: support 1 serial port; 1 terminal block RS232 serial port (or RS485), built-in 15KV ESD protection, the parameters are as follows:
Data bits: 5, 6, 7, 8 bits;
Stop bits: 1, 1.5 (optional), 2 bits;
Flow control: none, hardware, software;
Calibration: no parity, even parity, odd parity, (SPACE and MARK check) (optional);
Serial port rate: 300bps, 600bps, 1200bps, 2400bps, 4800bps, 9600bps, 19200bps, 38400bps, 57600bps, 115200bps;
Working mode: server mode (supports 4 central terminals, and can customize more central terminals), client mode;
Heartbeat package: support
I/O port: 2-4
LED indicator: system power supply SYS*1, VPN*1, signal strength Signal*1, online Cell*1, WAN*1, LAN*1, WiFi*1
Antenna and interface
Standard SMA female antenna interface with a characteristic impedance of 50 ohms;
WiFi antenna interface - SMA female antenna interface × 1-2, 50 ohm;
Wireless antenna interface--SMA female antenna interface ×1-4, 50 ohm;
GPS antenna interface - SMA female antenna interface × 1, 50 ohm;
Support MIMO
SIM/UIM card interface: standard caliper user card interface, support 1.8V/3V SIM/UIM card, built-in 15KV ESD protection; 2 SIM card slots;
Power interface
3 power supply backups:
Standard 3-pin locomotive power outlet with built-in power reverse protection and overvoltage protection;
Terminal block power connector;
POE power supply
Reset button: This button restores the parameter configuration of ROUTER to the factory.
Console port: Debug port × 1
Powered by
Standard power supply: DC12V/1.5A or 9V/2A
Power supply range: wide power input (DC 5~40V), optional DC 5~60V
Current: Idle mode: approx. 100mA@12VDC
Communication mode: about 260mA@12VDC
Software system
VPN features
Support IPSec, PPTP, L2TP, GRE, OpenVPN, DMVPN (optional) and others;
Support VPN transparent transmission;
Firewall throughput speed: 100Mbps
VPN encryption speed: 5M~200M bps
Number of concurrent sessions: 8192~327680 seconds
Number of new sessions processed: 2250~45000
Number of VPN tunnels: 100~5000
Key exchange algorithm: Diffie-Hellman
HASH algorithm: (MD5, SHA128, SHA256, SHA384, SHA512), Cipher (AES, 3DES, DES)
The return key is completely confidential (PFS)
Authentication mode: Preshare password
VPN network type: support network to network intranet
Wi-Fi
WLAN (WiFi) function, support 802.11b/g/n, 300Mbps;
Support AP mode, bridge mode and Client client mode;
GPS/GNSS (optional) GPS/GNSS function
Voice (optional) Controls the upper and lower lines
SMS
Control the upper and lower lines to detect the status of the router;
Send and receive text messages;
Configuring an APN parameter of the WAN microcell Cell;
SMS alert;
Alarm: low signal strength or no signal SMS or voice notification (voice notification is optional)
VLAN: Support dual LAN IP address
Supported protocols TCP, UDP, SMTP, POP, ICMP, FTP, PPP, DHCP, DDNS dynamic domain name service, DNS, SNMP, NAT/NAPT, DMZ, Qos, ALG, VLAN, DNS proxy, static routing, dynamic routing, etc.
Safety
Support 64/128 bits WEP, 802.1x, WPA, and WPA2
Support WDS
Support WPA1/2 – PSK
Support WPA1/2 – 802.1x
Support EAP – TLS, TTLS, LEAP, PEAP
Support access with user name & password.
Support access control base WAN/LAN interface
Support access control base source IP address
Defense DOS attack, SYN flooding, IP surfing, ping of Death, fragile, teardrop, land etc.
Support PAP, CHAP, MsChap
Support IP filtering
Remote management system NMS
Physical characteristics
Housing: Metal enclosure, protection class IP30. The housing and system are safely isolated, especially suitable for industrial field applications
Dimensions: PCBA board: 96mm x 56mm x 14mm
Machine: 100mm x 60mm x 21mm
Weight: 220g (excluding antenna and mounting parts)
Working temperature: -35~+75oC
Storage temperature: -40~+85oC
Relative humidity: 95% (no condensation)
Magnetic compatibility performance Electrostatic discharge immunity test level: 3
Radio frequency electromagnetic field radiation immunity test level: 3
Applications
Industrial IoT Application
Use RJ45 network port and WiFi to connect Ethernet or WIFI wireless serial port server to realize remote acquisition of sensor data and serial port control. The network cable connects IP camera to realize remote transmission of video.
Smart life application:
Widely used in intelligent express cabinets, smart vending machines, smart number machines, smart buses, self-service ATM machines, advertising machines, etc.
Realize business data upload, free wifi, advertising broadcast, remote video surveillance, VPN / APN private network management and other application requirements, etc.
---------------------------------------------------
Source: https://elinstechnology.tumblr.com/post/182956990325/overview-on-industrial-grade-4g-wireless-routers
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There are different types of communication antennas bot for indoors and outdoors. Outdoor cell phone signal booster like car cell phone booster will usually have an outside antenna which is a critical component for proper reception of signals. This antenna pulls in the weak cell phone signals easily and therefore higher the outside antenna, better the coverage. Usually cell phone signal booster antenna consists of a ground plane that is the surface that conducts the radio waves from other parts of the antenna. It is the size and shape of the ground plane that highly determines the gain and other radiation qualities.
The Directional Antennas
The Omni directional antenna is perhaps the most common type of wireless communications antennas. These are also called the all-rounder antennas as it performs always pulling the reception from all the directions at a 360 degrees operating area. If you live in an area that has lots of cell towers around you then this is a wonderful antenna to invest on. It will also support different cellular service providers at the same time. Yagi antenna is another unidirectional specialized antenna that pulls cell phone reception from only a specific direction and angle such as 45 degrees. This is best for the remotest of places.
Vehicle And Car Antennas
You can also use different antennas and cell phone repeaters 4g for your vehicle such as your RV or trucks, marine vessels or motor homes, cars or SUVs. These antennas have diverse mounts such as car magnet standard mount type or large vehicle or recreational vehicle antennas. You also get waterproof and weatherproof antennas for marine vessels such as yachts or boats. You will also get inside Antennas for your building such as the panel inside antenna, dome inside antenna and many more inside antennas for large and small vehicles as well.
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Gear Review: WeBoost Drive 4G-X OTR Vehicle Booster
WeBoost Drive 4G-X OTR Vehicle Booster
Price: $549.00
Summary: The WeBoost Drive 4G-X OTR is a great addition to any mountain enthusiast’s vehicle as it will enhance voice and data signals when you’re venturing off of the beaten path and are living life on the fringes of cell service.
Buy Now On WeBoost.com
What Does The WeBoost Drive 4G-X OTR Do? And What Does It Not Do?
The WeBoost Drive 4G-X OTR is a vehicle signal booster that enhances your voice and data signal while on the move. Out of WeBoost’s product line the 4G-X OTR is the strongest 4G booster. If you install it on your vehicle, it will:
Boost signal up to 32X
Reduce dead zones on cross country road trips #vanlife
Limit lost calls
Improve audio quality
Increase upload/download speeds
Enhance 4G LTE
Provide longer talk time
Work with multiple users at once
Work with all major US and Canadian carriers (AT&T, T-Mobile, Verizon, Sprint, US Cellular)
California
Now before you get all excited and immediately buy one, it’s important to look at what a WeBoost Drive 4G-X OTR can actually do. The 4G-X OTR will ENHANCE a signal. It will NOT create a signal. What this means is if you’re rolling down the highway and you have 1 bar of signal, the booster might pop it up a couple of bars, thus enhancing the signal. If you’re out in the middle of nowhere camping and there is no signal, the WeBoost 4G-X OTR will do nothing for you. Does that make sense?
During a 3000+ mile skiing road trip through Idaho, Nevada, California, Oregon, Washington, and Montana we put the WeBoost Drive 4G-X OTR to the test and we were pleasantly surprised with how it performs. What we found is that even when we were on the fringes of cell phone service, we still had a strong signal allowing us to take advantage of things like Google Earth, calling our wives, checking emails, or posting on Instagram. If we ventured too far off the grid, the WeBoost didn’t do much for us as was to be expected. Basically,
The WeBoost 4G-X OTR works really well, but it’s almost hard to appreciate it. Until you turn it off. Throughout our road trip we flipped it on and off to test its signal abilities. When a weak signal was present and the WeBoost turned on, the signal would jump several bars. We found it best to leave the WeBoost on at all times. This way we didn’t exactly notice jumps in service, but we had a stronger signal at all times – unless we were completely out of cell signal range.
Being able to access a more reliable cell signal offers both convenience and peace of mind. That’s a good thing – especially when you need to look up random trivia on the backroads of Oregon, check the weather at the trailhead in the Eastern Sierra, communicate with loved ones after an adventure, or potentially call for help in the event of an emergency.
For communication when we’re completely off the grid, we always carry a DeLorme inReach Explorer. It’s text messages only, but it works like a charm.
How It Works?
If you’re buying a WeBoost vehicle booster it’s good to understand how it works. The screenshot directly from WeBoost.com keeps it simple – even a ski bum can understand it:
How It Works | Screenshot from WeBoost.com
What’s In The Box?
The WeBoost Drive 4G-X OTR includes everything you need for most installs:
24 inch 4G Trucker Mirror-Mount Outside Antenna with 15 foot cable
Low Profile Inside Antenna
Mounting Bracket
Power Supply
Drive 4G-X Booster
What’s Included
Installing the WeBoost Drive 4G-X OTR On A Sprinter Van
Sprinter Van Install
The supplied 4G-X OTR’s outside antenna is designed to be mounted on the side mirror of big rig trucks, but it can also be mounted on the roof of an RV or a van if you make a few small modifications. The mounting bracket will fit over horizontal or vertical bars up to 1 inch in diameter. Unfortunately, it did not fit over the roof bars on the Sprinter Van. This left a few options: hard mount the outside antenna to the vehicle, order the magnet antenna that comes with the Drive 4G-X, or get creative.
Supplied Mounting Bracket
We opted to get creative. We ordered the Tram 269 Triple Magnet Mount and modified it to attach to the 24 inch WeBoost antenna. (FYI there is a shorter 19″ spring mounted antenna available on Amazon). The Tram 269 just barely fit over the ridges in the roof of the Sprinter Van. Once securely on the roof, the magnet mount is solid. There was no movement going 80 MPH on I-90 in crosswinds for multiple hours. Take note at how high the antenna sits though and be aware of overhanging branches, late night drive throughs, and other low hanging hazards. One of our concerns is the long term durability of the antenna…
Outside Antennae With Tram 269 Magnet Mount
Once the outside antenna was secure, we ran the 15 foot cable along the roof and through the back door of the van. The length wasn’t quite long enough so we added an SMA Male to SMA Female extension to make up the extra distance needed to connect to the booster.
Roof Set Up On Sprinter Van
Before we connected the booster, we plugged in the power supply to a 12V outlet at the base of the driver’s seat. This outlet was ideal because it is powered at all times – even when the engine is off. We ran this cord around to the booster, but did not connect it yet.
Power Supply
The last piece of the puzzle was the inside antenna. It’s about the size of a candy bar and attaches anywhere with hook and loop velcro. WeBoost suggests attaching it to one of the front seats. The inside antenna has a range of about 4 feet, so proper placement is important. We attached the inside booster on our galley that sits mid-van. This way it had range to the front seats and the back seats. Plus it’s adjustable as necessary.
Inside Antenna
The Drive 4G-X booster can be mounted anywhere or slipped under the seat. We placed the booster under the sink near our water supply where it was out of sight. Finally we attached all three cords (outside antenna, inside antenna, and power supply) to the booster and flipped on the power. The green light went on and we were live.
Booster
The full install only takes a few minutes. We managed to do everything without any hard installs, so we can remove it if we choose. We probably won’t because it’s the ideal addition for any vehicle that’s rumbling down FS roads, staying at somewhat remote campgrounds, heading on road trips across the west, or just needs reliable signal for remote #vanlife or work. All of those things apply to us on a regular basis so we give the WeBoost Drive 4G-X OTR two thumbs up.
One last thing to note: WeBoost has fantastic customer service. So if you have any questions about products, installation, or compatibility, be sure to give them a shout directly. They’re happy to help.
Out There
Where do you plan to use the WeBoost 4G-X OTR? Tell us about your adventures in the comments below.
Buy The WeBoost 4G-X OTR on Amazon.com:
Shaky video install of the WeBoost 4G-X OTR on a Sprinter Van:
Disclaimer: WeBoost sent the Drive 4G-X OTR to A Mountain Journey test and review.
Official Specs for WeBoost Drive 4G-X OTR from WeBoost.com:
Frequency:
Band 17/12 | 700 MHz
Band 13 | 700 MHz
Band 5 | 850 MHz
Band 4 | 1700/2100 MHz
Band 2 | 1900 MHz
Max Gain: 50 dB
Power Req: 6V/2A
Connectors: SMA Female
Dimensions: 3.5 x 10 x 27.5 in
Weight: 4.95 lbs
See more photos of the WeBoost Drive 4G-X OTR Truck:
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Sprinter Van Install
California
What’s Included
Booster
Supplied Window Attachment
Outside Antennae With Tram 269 Magnet Mount
Inside Antenna
Booster
Out There
Roof Set Up On Sprinter Van
Power Supply
Ever wish you had a stronger cell signal while you're off on an adventure? @WeBoost can help. Gear Review: WeBoost Drive 4G-X OTR Vehicle Booster Price: $549.00 Summary: The WeBoost Drive 4G-X OTR is a great addition to any mountain enthusiast's vehicle as it will enhance voice and data signals when you're venturing off of the beaten path and are living life on the fringes of cell service.
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C&T RF Antennas Inc - Magnetic mount sucker antenna 2G 3G 4G GSM GPRS antenna with RG174 cable and TS9 connector
#C&T RF Antennas Inc#magnetic antenna mount#magnetic antenna design#magnetic antenna for car#magnetic antenna for pocket wifi#magnetic antenna for marine radio#magnetic antenna mount n-type#magnetic antenna mount bnc#a magnetic dipole antenna is used#magnetic antenna base#magnetic antenna base sma#magnetic base antenna (5dbi)#magnetic uhf antenna base#magnetic antenna cb#magnetic antenna car#magnetic car antenna mount#magnetic coil antenna#magnetic external antenna#electromagnetic antenna#magnetic antenna gain
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Car radio FM antenna L band glass installation windowschild film patch DAB antenna SMB
Q: what type of antenna do you use?
A: we have different frequencies and gains according to different types of antennas.
Gain: 2dBI, 3dBi, 5dBi, 7dbi, 9dbi, 11dbi, 12dBi, 16dbi, 25dbi,...
frequency: >wifi panel antenna</a> 315 MHz, 433 MHz, 868 MHz, 900 MHz, 915 MHz, 1575.42 MHz, 2.4G, 5.8G,
RFID, WiFi, GPS, GSM, 3G, 4G,. ... Outlook: wall mounted, ceiling mounted, Yagi, LPDA, rubber, patch, panel, magnetic.
question: we want 1m cable, can you do it?
A: no problem for us. The cable length can be customized. They can be 1 meter, 2 meters, 3 meters or even longer.
Can a connector be used with another type of connector?
A: Yes, we can customize connectors, SMA series, MCX, fakra, TS9, crc9 and so on.
Q: we would >in-building antenna manufacturer</a> like to have a few samples for testing. Can you provide them?
A: Yes, if the antenna value is not high, we can provide you with free samples, but some expensive antennas, such as Yagi, wall mounted antenna, and then we will charge you, and the freight will be paid by you.
Q: what is the cost?
A: we will quote the price of EXW. >in-building antenna manufacturer</a> We can use your own express account, such as DHL. If you are willing to use our products, we will also quote you the freight.
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