13 digit mobile numbers

The Department of Telecommunications (DoT) has asked telecom service providers to start issuing 13-digit numbers for SIM-based machine-to-machine (M2M) services, which will co-exist with 10-digit numbers.

The DoT had approved the scheme and a letter on it was sent to various departments on February 9, 2018.

M2M services are those where Internet-enabled devices like point-of-sale machines or even latest refrigerators which communicate through a SIM card. This decision will not have any effect on mobile phone SIMs.

During the meeting, it was decided that 13-digit M2M numbering plan will be implemented from July 1, 2018. From this date onwards, all new M2M mobile connections will be allocated 13-digit numbers only.

The DoT said all service providers must ensure that their network elements including IT and other relevant systems are aligned with 13-digit numbering for M2M SIMs before July 1, 2018.

Migration of existing 10-digit M2M numbers to 13 digits will start by October 1, 2018 and shall be completed by December 31, 2018, it said.

Why People Root Android Phones?

        And What Is Rooting

Sony Corporation

Android

That fantastic new Android phone has an open source operating system, but that doesn't actually make the whole thing open. You see, phone carriers and device manufacturers actually put quite a few modifications and restrictions on your phone. Even Google put restrictions into its own operating system - for safety and security, but also at the request of carriers and phone manufacturers.

What Is "Rooting" Android?

On a basic level, rooting an Android phone means giving yourself superuser access.

What does that mean? If you use a desktop computer that allows multiple user accounts, some of those user accounts have more power than others,right? Administrative accounts allow you to do more, and they're also a little more dangerous - because they allow you to do more. A superuser account on Android is sort of like that administrator account. It allows more access to the operating system. That means more power, but it also means more potential for damage.

You Are Prevented from Rooting for Security

This is to say that phone carriers and even Google is treating you a little like a small child. Don't get me wrong. We are a little like small children when it comes to using our phones. Giving us unfettered access to the  source code means we could easily screw up our phones. More importantly, giving us unfettered access means the apps we run could potentially do a lot of damage. What if you install a malicious app that completely bricks your phone?

Well, lucky for you, you don't have that access. Your user account isn't logged in as root, so all your apps only have permission to play sandboxed areas.

Why Would You Override Security and Root Anyway?

Now, I'm going to turn around and tell you the exact opposite thing. Well, not exactly. I'm not saying rooting is for everyone.

It isn't. It involves hacking your phone and risks that you will break it. However, for some people, rooting is practically a requirement. Rooting your phone gives you total control. You can "flash" variations of the Android operating system that may be more convenient. You can get apps that allow you to have super-powers and do things that the phone carriers and phone makers wouldn't ordinarily allow you to do. Some of those things are perfectly fine, and some may be a bit questionable ethically or legally, so be a good judge. 

Believe it or not, Google is pretty cool with this whole rooting thing. They could make rooting harder. Lots of Android phone makers did. You can find tons of apps designed to run on rooted Android devices in the Google Play store. If Google were out to quash rooting, that would not be the case. While I can't guarantee any particular app is safe or wise, if you're going to install root access apps, sticking to the Google Play store is at least a way to keep out most of the bad actors.

What Are the Consequences of Rooting Your Phone?

Well, you're going to void your warranty. You might also break your phone permanently. You are also now in charge of keeping track of your own Android maintenance.

Any system updates are now your own responsibility. 

Rooting your phone appears to be in a legal gray area. However, unlocking your phone is more clearly forbidden, provided that you purchased that phone after January 1, 2013. What is the difference? Unlocking your phone means that you are changing it in a way to make it interoperable on another carrier. You obviously can't do that with every carrier - different phones use different wireless communication systems, but if you wanted to take your AT&T phone over to T-Mobile, the courts now say you need AT&T's permission to do that. Some methods to root phones may also unlock them.

How to Root Android without Computer  without PC

Kingo Android Root has launched its KingoRoot apk for Android, which provides a universal one-click Android root solution for Android users. It is easy to use and saves the trouble to connect to PC via USB cable.

Before jumping into the rooting process, please make sure you get everything right beforehand.

• Device powered on.
• At least 50% battery level.
• Internet connection necessary (Wi-Fi network suggested).
• Allow installation of apps from unknown sources.
   Settings > Security > Unknown Sources        

Root Android via KingoRoot APK Without PC Step by Step

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Step 1: Free download KingoRoot.apk.

The download will be automatically started. If Chrome has warned you about KingoRoot.apk, click "OK" to proceed.

If you are using PC to view this tutorial, you have three choices.

• You can use the PC Version of KingoRoot Android (PC Version), which has a higher success rate due to technical reasons.
 How to root any android device and version with KingoRoot?    
• You can visit APK Root for Android on your mobile and download the file on your device.
         
• You can download KingoRoot.apk on your PC, transfer it to your Android device and then find the file via File Explorer and install it from APK section.

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Step 2: Install KingoRoot.apk on your device.

If you didn't check "Unknown Sources" in Settings > Security, then during installation, you will get a prompt "Install blocked", stating that "For security, your phone is set to block installation of apps obtained from unknown sources".

Just follow phone instructions and install Kingo Root on your device and allow installs from "Unknown Sources".

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Step 3: Launch "Kingo ROOT" app and start rooting.

Kingo Root is very user-friendly and easy to use. Click "One Click Root" to start the rooting process.

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Step 4: Waiting for a few seconds till the result screen appear.

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Step 5: Succeeded or Failed.

It is highly recommended that you try several times when rooting with KingoRoot apk version. We have several rooting methods integrated in apk root, however, it will only run one at a time.

IMPORTANT POINTS TO CONSIDER WHILE BUYING A SMART PHONE

 

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​Buying a smartphone: 10 things to consider

Smartphones these days have become an integral part of our lives. We use them for communication, taking pictures, saving documents on the cloud, internet browsing and even as a power bank to charge other smartphones.

 

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Build quality

Build is all about durability of a smartphone. The entire handset market is largely divided in two types of builds -- metal and plastic.

There are some that even have glass-coated panels, but those are very limited.  

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​Display

The size and resolution of display depends on how you use your smartphone. If you often stream videos, edit photos or videos, or download and view movies, then a smartphone display ranging from 5.5-inch to 6-inch, full-HD or QHD resolution should be good enough for you.

Anything larger than a 6-inch display not just makes the handset extra bulky, but also difficult to carry around. If you are a regular user and largely use the smartphone for checking emails, chatting and browsing social media apps, then anything from 5-inch to 5.5-inch HD or full-HD display handsets is perfect. 

4 / 11

​Processor

The processing power of a smartphone varies from one device to another depending on several factors such as OS version, UI, bloatware and more.

If you are a heavy user who need to edit images/videos/documents online, play  

5 / 11

​Camera

Just having higher number of megapixels does not mean that the smartphone camera is better. Several specifications such as camera aperture, ISO levels, pixel size, autofocus and more are essential as well. A 16MP rear camera does not necessarily be better than a 12MP camera. Same theory goes for the front-facing camera.

Higher number of pixels mean that the size of the image is bigger, which becomes more sharper when seen on a small screen. A photographer enthusiast might want a camera with 12 or 16MP sensor under f/2.0 or lower aperture for speedy shots even in low lights. A casual shooter can go by even with an 8MP 0r 12MP camera with f/2.0-f/2.2 aperture.

 

6 / 11

​Battery

The battery usage differs from user to user depending on the way he/she uses the smartphone. If you are a heavy user and work on apps, play games, stream videos and more then go for a smartphone with at least 3500mAh battery or above. If you are an average or light user, a handset with 3000mAh battery would be good enough to 

7 / 11

User interface/OS version

User interface and the OS version too are key factors to consider while choosing a smartphone. These are the interfaces that one would have to interact with each time to access anything, so it should be easy and simple.

 

8 / 11

Storage

A large part of the smartphone’s storage is taken away from the OS and the apps the device comes pre-installed with.

A 16GB/32GB/64GB or more don’t really come with exact mentioned space. If you like to keep less number of apps on your devices, you can go for 32GB storage. 

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Security/extra features

Most smartphones these days have started coming with extra security features such as fingerprint sensor or even iris sensors. These are not just to lock/unlock a handset but as a password to access certain files, documents or apps.

 

10 / 11

​Audio/speakers

Speakers and the quality of audio coming out of it can be an important parameter for those who rely on heavy video streaming or video conferences. If you like entertainment-on-the-go, buy a handset that has front-facing speakers. This gives clear sound even while holding the smartphone in landscape mode.

 

11 / 11

Headphone jack/USB port

Ports too can be a factor to consider. Although both micro-USB and USB Type-C ports are available in smartphones these days, it is preferable to switch to USB Type-C not just because it is easy to plug in but also it is future-proof.

WIRELESS CHARGING

   

Wireless Charging provides a convenient, safe, and reliable way to charge and power millions of electrical devices at home, in the workplace and in industry.

By eliminating the use of physical connectors and cables, wireless charging provides a number of efficiency, cost and safety advantages over the traditional charging cable.

From smartphones, to hand-held industrial devices and heavy-duty equipment applications, wireless power maintains safe, continuous, and reliable transfer of power to ensure all varieties of devices and equipment are charged and ready to go at a moment’s notice.

• WHAT IS WIRELESS CHARGING?

Essentially wireless charging (a.k.a wireless power transfer or charging by induction) uses electromagnetic fields to safely transfer power from a transmitting source to a receiving device for the purposes of wirelessly charging (or recharging) a battery.  As the name suggests, it does so without the use of a physical connection.

HOW DOES WIRELESS CHARGING WORK?

Wireless charging is based on the principle of magnetic resonance, or Inductive Power Transfer (IPT).  This is the process of transferring an electrical current between two objects through the use of coils to induce an electromagnetic field.

The diagram below simplifies the process of wireless charging and power transfer into 5 key steps.

TRANSCRIPT OF WIRELESS CHARGING STEPS

• Mains voltage is converted into high frequency alternating current (AC).
• The alternating current (AC) is sent to the transmitter coil by the transmitter circuit.  The alternating current then induces a time varying magnetic field in the transmitter coil.
• Alternating current flowing within the transmitter coil induces a magnetic field which extends to the receiver coil (when within a specified distance).
• The magnetic field generates current within the receiver coil of the device.  The process whereby energy is transmitted between the transmitter and receiver coil is also referred to as magnetic or resonant coupling and is achieved by both coils resonating at the same frequency.
• Current flowing within the receiver coil is converted into direct current (DC) by the receiver circuit, which can then be used to wirelessly charge the battery.

It’s through this process that power is safely transferred over an air gap. As well as any non-metal object that might exist between the coils. Such as wood, plastic or granite.

WHAT IS ‘RESONANT’ WIRELESS CHARGING?

You will often hear people talk about inductive and resonant technology in regards to wireless power.  From a technical point of view, they are essentially one in the same.  Inductive power transfer (as the overriding principle) uses resonance in order to achieve coupling of the transmitter and recover coil  – achieved when the transmitter and receiver coils both oscillate – or ‘resonate’ – at the same frequency.  This resonant frequency refers to the frequency at which an object naturally vibrates or rings. This is most commonly seen in the way a tuning fork can cause another to vibrate when both are tuned to the same pitch.

However in recent times, the term ‘resonant’ has taken on a slightly different meaning.  What is now commonly referred to as Resonant wireless charging, is seen as an advancement on inductive capabilities in that it allows a number of advantages in relation to performance and convenience.

Some of the key advantages include:

• Greater spatial freedom:  This refers to the ability to achieve coupling/power transfer with greater mis-alignment for the receiver and transmitter coil along the x, y and z axis.  In a real-life scenario, this means not having to precisely align your smartphone or device on top of the transmitter in order for it to begin charging.
• Charging multiple devices simultaneously: Resonance promises the ability to charging more than one device at a time.  How this is achieved from a technical point of view will depend on the coil geometry of the respective system, but nonetheless it provides an added convenience for larger transmitter surfaces such as table tops or work benches.
• Charging speeds:  Charging speeds for devices will continue to be a major factor in the adoption of wireless charging.  Charging by induction solutions currently produce slower charge times compared to a wired charger.  In the future, resonant promises improved efficiency for power transfer between the transmitter and receiver coils, which in turn increase the rate at which power is delivered to the battery for re-charging.

For a more in-depth look into the advantages of resonant wireless charging and a discussion on the current options being developed in the marketplace – check out our blog from 2015: What’s the big deal about Resonant?

THE FUTURE OF WIRELESS CHARGING

No matter the device, industry, or application, the removal of the physical connection required for powering or charging devices delivers a number of benefits over traditional cable connectors – some of which aren’t immediately obvious.

The video below takes a glimpse into the future and examines just some of the possible applications using wireless power.

View and comment on this video on YouTube

CURRENT AND FUTURE APPLICATIONS FOR WIRELESS CHARGING

WIRELESS CHARGING FOR SMARTPHONES & TABLETS

Perhaps the most well known application of wireless charging is for smartphones.

In recent years, the number of phone manufacturers who have offered wireless charging capabilities have steadily grown, and for even those brands which do not have wireless charging functionality, you can acquire a myriad of external charging cases and sleeves which can enable wireless charging of these devices.

The current technology enables consistent, safe charging of single devices when placed accurately on a wireless charging pad – characteristic of ‘charging by induction‘ systems.  The leading wireless standard worldwide for this technology is Qi, which is developed by the Wireless Power Consortium and is used by over 900 products worldwide.

As advancements continue to be made, wireless charging will likely become more ubiquitous and convenient.  The development of resonant capabilities will continue to increase the appeal of wireless charging for consumers, while integrated transmitters into tables and bench tops will make it easier than ever to recharge our phones.

PowerbyProxi doesn’t manufacture wireless charging pads, wireless smartphone chargers, or integrated receiver solutions like sleeves and cases for public purchase.  Instead our focus is on developing the next generation of solutions for wireless charging for smartphones including greater capability for free placement of devices, foreign object detection and multi-device charging.

Customers have the opportunity to purchase our development kit and patent licenses to develop and manufacture their own product.  For more information, check out our Proxi-2D EVK page.

WIRELESS CHARGING FOR WEARABLES

There is no question that wearable technology is becoming increasingly integrated and available in our daily lives.

The size and form factor of such devices are integral to making them more ubiquitous and convenient from a consumer perspective.  At the same time, the miniaturised nature of wearables provide unique challenges around recharging and ensuring power is supplied in a manner that is equally as convenient as the device itself.

Wireless  power is potential solution for this problem by removing the requirement for cables and h being connected directly to the device itself.

PowerbyProxi began investigating several means to provide a convenient, cable free solution for recharging multiple wearable devices simultaneously as part of our Proxi-3D project – established within our Proxi Labs innovation centre.

WIRELESS CHARGING FOR AA BATTERY POWERED DEVICES

Millions of everyday electronic devices – including video game controllers, remotes, torches, toys etc, use AA batteries.  However whenever these batteries run out of charge, the means to replace or recharge them, isn’t exactly convenient.  Non-rechargeable batteries cost a lot to continually replace, and are a significant biological hazard when disposed of.  Rechargeable AA batteries however, can be time consuming and a hassle to recharge, while being that much more expensive.

Wireless power technology offers another solution through in-device charging, whereby AA batteries are fitted with a wireless receiver which can recharge the battery when placed inside a transmitter device.  The beauty of this solution is that the battery can be recharged without being removed from the device, so that it never needs to be replaced.  PowerbyProxi prototyped a solution for AA batteries as part of our Proxi Labs innovation centre which allowed for safe wireless charging of numerous types of devices using specially designed AA batteries.

WIRELESS CHARGING FOR COMMERCIAL  APPLICATIONS

The advantages of wireless charging is not only restricted to consumer device applications.  Wireless charging offers real benefits in terms of productivity, efficiency and safety for industrial applications  where cables and connectors can become unreliable, dangerous or incur high maintenance costs.

BENEFITS OF WIRELESS CHARGING:

• Reduced cost associated with maintaining mechanical connectors. For example: Rotating electrical connectors like Slip Rings
• Safe powering or charging devices that need to remain sterile or hermetically sealed (waterproof)
• Prevent corrosion due to elements such as oxygen and water
• Eliminate sparks and debris associated with wired contacts

PowerbyProxi have been pioneering the application of inductive power for industrial applications since 2007. Enabling equipment suppliers to deliver mission-critical wireless power systems in wet, dirty and moving environments the world over.

With a range of wireless power transfer solutions for different power requirements, we are able to deliver unique advantages for the transmission of power for a range of applications, some of which are highlighted below:

MEDICAL DEVICES & EQUIPMENT

WIRELESS CHARGING OF MEDICAL DEVICES & EQUIPMENT

Wireless charging has a vital role to play in the future of medicine and medical care.

Nowadays, even the most basic of medical procedures requiresa range of advanced medical equipment. Equipment that’s powered largely via battery packs or mains power supplies.  Wireless power provides real benefit in such sterile and high traffic environments where traditional connectors become not only source of contamination, but are also a physical hazard as room configurations are constantly changing.

VEHICLES & TRANSPORT

WIRELESS CHARGING OF ELECTRIC VEHICLES

Wireless charging of electric vehicles continue to be one of the most researched  areas of wireless power transfer.  By reducing the reliance on fossil fuels, electric vehicles provide a sustainable and environmentally safe means for fuelling our vehicles well into the future.

However  today’s electric cars are limited to an average travel distance of between just 10 and 40 miles before they require charging. Initiating a convoluted charging process that requires access to a charging point, charging cables, and a multiple-hour wait before the vehicle is sufficiently charged.

With the introduction of wireless charging, the charging experience is set to become a seamless one. Allowing for the convenient charging of electric cars whether parked or on the move.

It won’t be long before this dream becomes a reality. In fact, a number of car manufacturers are already putting test vehicles through their paces. Including the Formula E’s wirelessly chargeable safety car.

This inclusion of wireless charging capabilities won’t just drive an increased adoption of electric vehicles. It will also play a crucial role in supporting the environmental sustainability of future transport. Helping to rid the environment of harmful fossil fuels, cutting down on air pollution emissions and providing not just a more convenient future, but a healthier one too.

Wireless charging for electric vehicles could be carried out in a number of ways, including:

• Parking Spots & Charging Pads
  Like our smartphones and tablets, charging pads will provide one of the most convenient methods of charging electric vehicles. With these pads built into specially designed parking spots, you’ll be able to charge your car while you’re grabbing your shopping or catching a movie.
• Electrically Charged Highways Of The Future
  In time, you may not even need to stop to charge your electric car. Highway England is just one body currently testing the viability of charging lanes that charge vehicles while they’re driving. With the charging devices built into the very asphalt itself.

FAQ’S

IS THERE A WIRELESS CHARGING STANDARD?

An industry standard is required to ensure interoperability between transmitters and receivers made by different manufacturers. There are currently two key groups looking to put forward a specification for wireless charging: the Wireless Power Consortium (WPC) and the Airfuel Alliance.

Of these two, the Wireless Power Consortium is the leading standard for wireless charging through its Qi standard. Qi (pronounced ‘chee’) is the most widely used and commercially available wireless charging standard (used by over 200 companies). The Qi wireless charging and power standard ensures that any device carrying its logo will work, in turn, with any charging surface that also carries the logo, regardless of brand or manufacturer.

This cross-compatibility allows manufacturers like PowerByProxi complete design freedom, as the Qi standard ensures that wireless charging interoperability is guaranteed from conception through to completion. This page on wireless power standards provides further information.

WHY DO WE NEED A STANDARD & WHAT WILL IT GOVERN?

Industry standards are crucial to ensuring interoperability between transmitters and receivers produced by different manufacturers. Once a specification emerges as the standard for the industry, then manufacturers have a blueprint from which to work to create wireless charging technology in the future, thus ensuring that no matter what the device, it can be charged on any charging pad or transmitter.