Samsung OmniaLITE B7300
Market Status: Released
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|Device type||Smart phone|
|OS||Windows Mobile Professional (6.5)|
|Dimensions||4.21 x 2.04 x 0.51 inches (107 x 51.8 x 12.9 mm)|
|Weight||3.63 oz (103 g)|
the average is 5.2 oz (149 g)
|Keys||Left: Volume control, Other; Right: Camera shutter, Lock/Unlock key|
|Physical size||3.0 inches|
|Resolution||240 x 400 pixels|
Pixel density - The pixel density of a display represents the number of pixels over an area of one inch. It’s measured in “pixels per inch”, or ppi. The higher the number, the more detailed and good-looking the display is.
Technology - There are two main screen technologies currently used in phones and tablets: LCD and AMOLED. The former usually features a light source and liquid crystals, while the latter is based on organic light-emitting diodes. Newer LCD variations like IPS-LCD and Super-LCD allow for very accurate color reproduction and very wide viewing angles, where no significant image quality loss is observed. Current AMOLED screens differ in such a way that they can exhibit much more saturated colors (sometimes too much) and incredibly high contrast levels, which is due to black color being completely black in AMOLED displays.
|Screen-to-body ratio||46.23 %|
|Software Features||Digital zoom|
Processor - The processor is the main computing component of a phone and is a major factor when it comes to the overall speed of the device. Some more powerful smartphones use dual-core and quad-core processors designed to deliver greater performance.
|Single core, 800 MHz, Samsung SC36410|
System memory - System memory, or RAM memory is the type of memory that the device uses to temporarily store data from the OS or currently-running apps. The more RAM available to the device, the better the performance will be when multiple or heavier programs are running.
|0.125 GB RAM / 512 MB ROM|
|Built-in storage||0.15 GB|
|Storage expansion||microSD, microSDHC|
|Type||User replaceable, Li - Ion|
|Talk time||11.33 hours|
the average is 15 h (874 min)
|Stand-by time||25.4 days (610 hours)|
the average is 15 days (365 h)
|Talk time (3G)||6.50 hours|
the average is 17 h (1012 min)
|Stand-by time (3G)||25.0 days (600 hours)|
the average is 21 days (506 h)
|Supported formats||MP3, AAC, AAC+, eAAC+, WMA|
|Supported formats||MPEG4, H.263, H.264, DivX, XviD, WMV|
|supports||HTML, WAP 2.0|
|GSM||850, 900, 1800, 1900 MHz|
|UMTS||900, 2100 MHz|
|Data||UMTS, HSDPA 3.6 Mbit/s|
|Notifications||Haptic feedback, Music ringtones (MP3), Polyphonic ringtones, Vibration, Phone profiles, Flight mode, Silent mode, Speakerphone|
|Phonebook||Unlimited entries, Caller groups, Multiple numbers per contact, Search by both first and last name, Picture ID, Ring ID|
|Organizer||Calculator, World clock, Stopwatch, Notes, Document viewer, Alarm, To-Do, Calendar|
|Messaging||SMS, Predictive text input, MMS|
|IMAP, POP3, SMTP|
JAVA - J2ME (Java 2 Platform, Micro Edition) is a technology that allows programmers to use the Java programming language and related tools to develop programs for mobile wireless information devices such as cellular phones and personal digital assistants (PDAs). J2ME consists of programming specifications and a special virtual machine, the K Virtual Machine, that allows a J2ME-encoded program to run in the mobile device.
|Midp 2.1, CLDC 1.1|
|Other features||Voice dialing, Voice commands, Voice recording|
|Profiles/ Protocols||Headset (HSP), Handsfree (HFP), Dial-up networking (DUN), File Transfer (FTP), Object Push (OPP), Generic Access (GAP), Serial Port (SPP), Service Discovery Protocol (SDP), Basic Printing (BPP), Human Interface Device (HID), Generic Audio/Video Distribution (GAVDP), Advanced Audio Distribution (A2DP), Audio/Visual Remote Control Profile (AVRCP), Personal Area Networking Profile (PAN), SIM Access (SAP), Bluetooth Network Encapsulation Protocol (BNEP), Audio/Video Distribution Transport Protocol (AVDTP), Audio/Video Control Transport Protocol (AVCTP), Phone Book Access (PBAP)|
|Wi-Fi||802.11 b, g|
Positioning - This field shows the positioning systems supported by the device. There are three main types: GPS, A-GPS and GLONASS. GPS - This is one of the most widespread global positioning technologies, developed and maintained by the U.S. government. It uses satellites in order to detect your location. Works best in clear weather. A-GPS - A-GPS stands for Assisted GPS and is the industry standard for positioning and navigation. “Assisted” means that it can use local wireless networks, in addition to satellites, for quicker and more precise localization. GLONASS - GLONASS is a global positioning system, developed by the Russian Federation. It’s very similar to GPS, but isn’t so popular in cell phones.
|Other||Computer sync, OTA sync|
|Officially announced||15 Jun 2009|
FCC approval - The Federal Communications Commission (FCC) is an independent United States government agency, directly responsible to Congress. The FCC was established by the Communications Act of 1934 and is charged with regulating interstate and international communications by radio, television, wire, satellite and cable. The FCC's jurisdiction covers the 50 states, the District of Columbia, and U.S. possessions. Every wireless phone device that is sold in the U.S. has to be tested and approved for sale by the FCC.
Date approved - Shows the date when the particular phone is approved by the Federal Communications Commission
|16 Jun 2009|
|FCC ID value: A3LGTB7300 link|
FCC measured SAR
FCC measured SAR - Working closely with federal health and safety agencies, such as the Food and Drug Administration (FDA), the FCC has adopted limits for safe exposure to radiofrequency (RF) energy. These limits are given in terms of a unit referred to as the Specific Absorption Rate (SAR), which is a measure of the amount of radio frequency energy absorbed by the body when using a mobile phone. The FCC requires cell phone manufacturers to ensure that their phones comply with these objective limits for safe exposure. Any cell phone at or below these SAR levels (that is, any phone legally sold in the U.S.) is a "safe" phone, as measured by these standards. The FCC limit for public exposure from cellular telephones is an SAR level of 1.6 watts per kilogram (1.6 W/kg).
|Measured in||1900 MHz|
|Measured in||1900 MHz|