Product Information : Samsung UE32F6510
Picture size is measured in inches.
An inch is 2.54 cm. The size of the screen is measured diagonally from corner to corner.
What technology is the TV based on?
Plasma tvs are thin and lightweight and capable of being mounted on a wall like a painting. Their main advantage toward LCD is that they are capable of showing a more intense black.
LCD stands for Liquid Crystal Displays. It is a flat panel technology which uses liquid crystals sandwiched between two glass plates. These TVs can be even thinner than plasma screens and they normally use less energy. LCD-technology is the most common technique today.
LED-tvs are newer versions of LCD-tvs that use light-emitting diodes as backlight. This allows them to show black and dark colors more intensively.
Projection-TV use three picture tubes instead of one. A red, a blue and a green cathode ray tube. The advantage is that you can easily project to a large surface area without too much loss of quality. One disadvantage is that it is still very expensive to buy.
The TV can accept, process and display High Definition 720p and 1080i signals. To enjoy HDTV broadcasts it will need a device that can receive and decode the signals.
The TV can accept, process and display High Definition signals (720p and 1080i). It also has a built-in device capable of receiving and decoding HD (720p, 1080i) Satellite, Cable or Terrestrial broadcast transmissions.
HD Ready 1080p
The TV can accept, process and display High Definition 720p 1080i and 1080p signals. To enjoy HDTV broadcasts it will need a device that can receive and decode the signals.
The TV can accept, process and display High Definition signals up to 1080p. It also has a built-in device capable of receiving and decoding HD (720p, 1080i) Satellite, Cable or Terrestrial broadcast transmissions.
4:3 Standard Displays
Code Width Height Ratio
QVGA 320 x 240 4:3
HVGA 640 x 240 8:3
VGA 640 x 480 4:3
SVGA 800 x 600 4:3
XGA 1024 x 768 4:3
XGA+ 1152 x 768 3:2
1152 x 864 4:3
SXGA 1280 x 1024 5:4
SXGA+ 1400 x 1050 4:3
UXGA 1600 x 1200 4:3
QXGA 2048 x 1536 4:3
16:9 and 16:10 Widescreen Displays
Code Width Height Ratio
WXGA 1280 x 768 5:3
1280 x 800 16:10
1366 x 768 ~16:9
WXGA+ 1280 x 854 ~3:2
1440 x 900 16:10
1440 x 960 3:2
WSXGA 1600 x 900 16:9
1600 x 1024 16:10
WSXGA+ 1680 x 1050 16:10
WUXGA 1920 x 1200 16:10
WQXGA 2560 x 1600 16:10
WQUXGA 3840 x 2400 16:10
|1920x1080 (Full HD)|
The filter shows whether the TV has the capability to display 3D movies.
|Motion Frequency Rate||400Hz|
This feature allows you to access programs like YouTube, Twitter and Facebook via your TV. Using the remote control, you can download widgets and easily get access to these programs.
Record onto an external USB-device
|Energy Efficiency Class
Manufacturers of TV's must declare the energy efficiency of their products, using an A to G scale - A being the most energy efficient. The label must be clearly shown on the TV set.
|Power Consumption (In use)||52 W|
|Power Consumption (Standby)||0.1 w|
Indicates the sound effect.
For example, 2x10W means that the model has two sound channels with a power of 10 Watts each. Watt - in short, the measure of the amplifier's power.
The year in which the TV manufacturer has released the product into the market. Usually the same year as its available in stores.
High Definition Media Interface. A type of connection for connecting Digital Video and Audio.
(Universal Serial Bus) A widely used hardware interface for attaching peripheral devices. USB ports began to appear on PCs in 1997, and Windows 98 was the first Windows to support it natively. Within a few years, USB became popular for connecting nearly every external peripheral device. Replacing the serial and parallel ports on a PC, at least four USB ports are standard on every computer.Hot SwappableUSB devices can be connected to without turning the computer off, enabling removable devices to be plugged and unplugged as needed. This feature, combined with easy-reach ports on the front of the computer case, gave rise to the ubiquitous USB drive.USB 1.0 and USB 2.0USB has a maximum bandwidth of 12 Mbps for USB 1.0 and 1.1 and 480 Mbps for Hi-Speed USB 2.0. Up to 127 peripheral devices can be attached to the bus, and USB 1.1 devices can plug into USB 2.0 ports. Fast devices can use the full bandwidth, while low-speed ones can use a 1.5 Mbps sub channel.USB HubsA USB hub provides additional ports for the user. Like any other USB device, the hub plugs into a USB port on the computer and provides four or more USB ports for peripherals. The peripherals themselves may also contain hubs. For example, a monitor may have a built-in USB hub in order to provide a convenient desktop location for plugging in other devices.Type A and B, Mini-A and BThe USB ports on computers and hubs have a rectangular Type A socket, and peripheral devices have a cable with a Type A plug. Peripherals that do not have an attached cable have a square Type B socket on the device and a separate cable with a Type A and Type B plug.The Mini-A and Mini-B connectors are used on small portable devices such as PDAs, music players, digital cameras and cell phones. Hubs may use Mini-B instead of Type B for the computer connection.
|Digital Optical Out||Yes|
Ethernet is a network standard of communication using either coaxial or twisted pair cable. The most widely used for of LAN communication, Ethernet typically runs at 10 megabytes per second, though newer systems use 100 Mbps and even 1 gigabit of transfer.Ethernet has the IEEE standard 802.3. It has several different flavors, with the original Ethernet designed with 10base5. The "10" stands for 10 megabytes per second. Base is the baseband communications it uses. The "5" stands for a maximum distance of 500 meters to communicate with. Original Ethernet used coaxial wiring, while newer versions use twisted-pair cabling. There are several flavors of Ethernet, including 10Base2 (10 Mbps, 200 meters), 10BaseT (10 Mbps, 100 meters, twisted-pair), and 100BaseT (100 Mbps, 100 meter, twisted-pair).