Comparison Navitel E100 vs Navitel E500
Add to comparison |  |  |
|---|---|---|
| Navitel E100 | Navitel E500 | |
from $68.00 | from $84.00 | |
| User reviews | ||
| TOP sellers | ||
| Application area | cars | cars |
Software | ||
| Pre-installed soft | Navitel Navigator | Navitel Navigator |
Receiver | ||
| Bands number | 66 | 66 |
Display specs | ||
| Display | 5 " 480x272 px touch | 5 " 800х480 px touch |
Additional equipment | ||
| More features | video player image display MP3 player | video player image display MP3 player |
| CPU speed | 800 MHz | 800 MHz |
| RAM | 128 MB | 128 MB |
Connections | ||
| Interfaces | USB headphone output | USB headphone output |
General | ||
| Power supply | rechargeable battery | rechargeable battery |
| Battery capacity | 950 mAh | |
| Added to E-Catalog | march 2017 | january 2017 |
Compare Navitel E100 and E500
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Glossary
Display
Parameters of the display installed in the navigator.
— Display diagonal. Size screen size in inches. The larger the screen, the more information can be displayed on it and the more detailed this information will be presented. On the other hand, the size of the display significantly affects the dimensions of the device, and large screens are more expensive.
— Display resolution. Display size in dots (pixels) horizontally and vertically. The higher the resolution (with the same diagonal), the more detailed and clear the image the screen can produce. In addition, on high-resolution displays, small details are better visible, which increases the comfort of viewing information. Too high a resolution is usually not required for GPS navigator displays: for example, 800x480 pixels, limited by the standards of smartphones or tablets, with a diagonal screen size of about 6” are considered quite sufficient even for an advanced device.
— Matrix type. This parameter is indicated mainly for tech cases when the screen uses a high-quality IPS type matrix. This technology provides high quality color rendering, good brightness and wide viewing angles; moreover, IPS screens are relatively inexpensive to produce.
- Touch. Screen support for touch control. You can give commands to the device by touching the icons on the display itself - similar to how this is done in smartphones and tablets. Touch control opens up...many more possibilities than classic controls and provides flexibility in working with the navigator. In particular, by touching the screen you can set points on the route, zoom in or out on the map, etc.
- Color. This parameter determines whether the screen is color or monochrome (black and white). Black and white displays are simple, inexpensive, consume little power, and are quite suitable for displaying basic navigation information. At the same time, color screens are more functional: maps often use different colors to highlight individual objects, which would not be possible on monochrome displays. As a result, black and white screens are quite rare among modern navigators - mainly among the most compact and inexpensive models.
— Backlight. The screen has its own backlight system. This function makes the device independent of external lighting: the illuminated image will be normally visible both at dusk and even in complete darkness. It is also worth noting that many LCD screens have a backlight by default; it is activated when the screen itself is turned on and works regardless of external lighting - without it, the image on the matrix would simply be impossible to see. In particular, this operating principle is used in IPS-type matrices, which have gained popularity in modern portable electronics (including navigators).
— Display diagonal. Size screen size in inches. The larger the screen, the more information can be displayed on it and the more detailed this information will be presented. On the other hand, the size of the display significantly affects the dimensions of the device, and large screens are more expensive.
— Display resolution. Display size in dots (pixels) horizontally and vertically. The higher the resolution (with the same diagonal), the more detailed and clear the image the screen can produce. In addition, on high-resolution displays, small details are better visible, which increases the comfort of viewing information. Too high a resolution is usually not required for GPS navigator displays: for example, 800x480 pixels, limited by the standards of smartphones or tablets, with a diagonal screen size of about 6” are considered quite sufficient even for an advanced device.
— Matrix type. This parameter is indicated mainly for tech cases when the screen uses a high-quality IPS type matrix. This technology provides high quality color rendering, good brightness and wide viewing angles; moreover, IPS screens are relatively inexpensive to produce.
- Touch. Screen support for touch control. You can give commands to the device by touching the icons on the display itself - similar to how this is done in smartphones and tablets. Touch control opens up...many more possibilities than classic controls and provides flexibility in working with the navigator. In particular, by touching the screen you can set points on the route, zoom in or out on the map, etc.
- Color. This parameter determines whether the screen is color or monochrome (black and white). Black and white displays are simple, inexpensive, consume little power, and are quite suitable for displaying basic navigation information. At the same time, color screens are more functional: maps often use different colors to highlight individual objects, which would not be possible on monochrome displays. As a result, black and white screens are quite rare among modern navigators - mainly among the most compact and inexpensive models.
— Backlight. The screen has its own backlight system. This function makes the device independent of external lighting: the illuminated image will be normally visible both at dusk and even in complete darkness. It is also worth noting that many LCD screens have a backlight by default; it is activated when the screen itself is turned on and works regardless of external lighting - without it, the image on the matrix would simply be impossible to see. In particular, this operating principle is used in IPS-type matrices, which have gained popularity in modern portable electronics (including navigators).
Battery capacity
This parameter directly determines the amount of energy that the battery can store; and the greater the energy reserve, the longer the device can work on one battery charge. However, this is in theory; in practice the situation is somewhat more complicated. Firstly, the actual autonomy of the navigator will also depend on the power consumption of the device - and it can vary greatly between different models. Secondly, milliamp-hours, in which capacity is indicated, is not a completely reliable unit: the physical features of such a designation are such that two batteries with the same capacity in mAh, but different nominal voltages, will also have different actual amounts of stored energy.
In light of all this, it is hardly worth assessing the autonomy of the navigator by the capacity of the included battery - it is better to look at the operating time directly stated by the manufacturer.
In light of all this, it is hardly worth assessing the autonomy of the navigator by the capacity of the included battery - it is better to look at the operating time directly stated by the manufacturer.