10.or comes from ‘tenor’, and is mobile brand launched by Chinese company Huaqin Technology, which was founded in 2005. 10.or entered India in September 2017, with the launch of the 10.or E smartphone on Amazon India. 10.or’s latest mobile launch is the G2. The smartphone was launched in 28th June 2019. The phone comes with a 6.18-inch touchscreen display with a resolution of 1080 pixels by 2246 pixels.
The 10.or G2 is powered by octa-core Qualcomm Snapdragon 636 processor and it comes with 4GB of RAM. The phone packs 64GB of internal storage that can be expanded up to 256GB via a microSD card. As far as the cameras are concerned, the 10.or G2 packs a 16-megapixel + 5-megapixel primary camera on the rear and a 12-megapixel front shooter for selfies.
The 10.or G2 runs Android and is powered by a 5000mAh.
The 10.or G2 is a dual SIM (GSM and GSM) smartphone that accepts Nano-SIM and Nano-SIM. Connectivity options include Wi-Fi, GPS, Bluetooth, Micro-USB, 3G and 4G (with support for Band 40 used by some LTE networks in India). Sensors on the phone include Proximity sensor, Accelerometer, Ambient light sensor and Gyroscope.
There are Orthodox Jewish religious restrictions which, by some interpretations, standard mobile telephones overstep. To deal with this problem, some rabbinical organizations have recommended that phones with text-messaging capability not be used by children. Phones with restricted features are known as kosher phones and have rabbinical approval for use in Israel and elsewhere by observant Orthodox Jews. Although these phones are intended to prevent immodesty, some vendors report good sales to adults who prefer the simplicity of the devices. Some phones are approved for use by essential workers (such as health, security, and public service workers) on the sabbath (the use of any electrical device is generally prohibited during this time, other than to save lives, or reduce the risk of death or similar needs).
Mobile phones communicate with cell towers that are placed to give coverage across a telephone service area which is divided up into ‘cells’. Each cell uses a different set of frequencies from neighboring cells, and will typically be covered by 3 towers placed at different locations. The cell towers are usually interconnected to each other and the phone network and the internet by wired connections. Due to bandwidth limitations each cell will have a maximum number of cell phones it can handle at once. The cells are therefore sized depending on the expected usage density, and may be much smaller in cities. In that case much lower transmitter powers are used to avoid broadcasting beyond the cell.
In order to handle the high traffic, multiple towers can be setup in the same area(using different frequencies). This can be done permanently or temporarily such as at special events like at the Super Bowl, Taste of Chicago, State Fair, NYC New Year’s Eve, hurricane hit cities, etc. where cell phone companies will bring a truck with equipment to host the abnormally high traffic with a portable cell.
Cellular can greatly increase the capacity of simultaneous wireless phone calls. While a phone company for example, has a license to 1000 frequencies, each cell must use unique frequencies with each call using one of them when communicating. Because cells only slightly overlap, the same frequency can be reused. Example cell 1 uses frequency 1–500, next door cell uses frequency 501–1000, next door can reuse frequency 1–500. Cells 1 and 3 are not “touching” and do not overlap/communicate so each can reuse the same frequencies.
This is even more greatly increased when phone companies implemented digital networks. With digital, one frequency can host multiple simultaneous calls increasing capacity even more.
As a phone moves around, a phone will “hand off” – automatically disconnect and reconnect to the tower of another cell that gives the best reception.
Additionally, short-range Wi-Fi infrastructure is often used by smartphones as much as possible as it offloads traffic from cell networks on to local area networks.