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Hisense H55M3300 vs Panasonic TX-50CX680 vs Panasonic TX-50CX700

Hisense H55M3300 vs Panasonic TX-50CX680 vs Panasonic TX-50CX700

(7)
Hisense H55M3300
Panasonic TX-50CX680
Panasonic TX-50CX700

Top Prices

PRC Direct
Checked 14 hours ago
FREE Standard delivery
In stock
BT Business Direct
Checked 14 hours ago
Standard delivery: £7.80
In stock
BT Shop
Checked 14 hours ago
Standard delivery: £3.49
In stock
Discount AV
Checked 6 hours ago
Delivery unknown
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RGB Direct
Checked 2 hours ago
Delivery unknown
Atlantic Electrics Ltd
Checked 10 hours ago
Out of stock
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Checked 8 hours ago
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Electronics & Gadgets Direct
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Reasons For

4 Reasons For
Marginally larger display diagonal Edit
The Hisense H55M3300 has a display diagonal of 55", but the Panasonic TX-50CX680 and the Panasonic TX-50CX700 are both only 50" TVs (5" smaller). Read more

The display diagonal of a TV is the most common measure of screen size and is the distance from the top left to the bottom right of the visible part of a TV screen excluding any frame or border. One of the most important considerations when choosing the right screen size for your TV is the typical distance from which you will be viewing the screen. A good rule of thumb is to multiply the display diagonal by 2.5 to determine the viewing distance. So a 40 inch TV is best viewed from 100 inches away, which is equivalent to 8.3 feet or 2.54m. For home cinema setups and a truly immersive experience this ratio can be reduced to 1.2. This will give a screen size that fills 40 degrees of the viewer's field of vision. So if you viewing from a distance of 6ft (72 inches) you would need a TV display diagonal of 60 inches.

TVs with a bigger display diagonal allow you to make the most of HD content and are great for watching movies.

Vastly faster motion interpolation frequency Edit
The Hisense H55M3300 has a motion interpolation frequency of 800Hz (as does the Panasonic TX-50CX700), however the Panasonic TX-50CX680 is only a 200Hz motion interpolation frequency TV (600Hz slower). Read more

The motion interpolation frequency is the frame rate which the TV is able to artificially create by inserting additional frames into the picture between the frames included in the original video source. Motion interpolation technology can sometimes create some unwanted side effects such glitches when the technology suddenly activates during an action scene. Most modern TVs will have an option to switch off the motion interpolation if it is not desired.

A faster motion interpolation frequency will result in smoother action scenes, less motion blur and a more life like image.

15 shops are selling it
A greater number of shops increases the price competition amongst retailers for the product and also increases the chances of this TV remaining in stock.
Energy efficiency rating is superior
The Hisense H55M3300 has an energy efficiency rating of "A", whereas the Panasonic TX-50CX680 has a rating of "A" and the Panasonic TX-50CX700 has a rating of "A".
4 Reasons For
Cheaper by £109
The Panasonic TX-50CX680 is £109.01 cheaper than the Hisense H55M3300 and £130 cheaper than the Panasonic TX-50CX700.
Cheaper to run by £38.46
Over five years the Panasonic TX-50CX680 is £38.46 cheaper to run than the Hisense H55M3300 and £14.42 cheaper to run than the Panasonic TX-50CX700. Read more
Energy efficiency rating is superior
The Panasonic TX-50CX680 has an energy efficiency rating of "A", whereas the Hisense H55M3300 has a rating of "A" and the Panasonic TX-50CX700 has a rating of "A".
Considerably better expert reviews
The average expert review score of the Panasonic TX-50CX680 is 90% based on 1 review, whereas the average rating of the Hisense H55M3300 is 77% (based on 2 reviews) and the average rating of the Panasonic TX-50CX700 is 80% (based on 1 review).
5 Reasons For
3D Edit
The Panasonic TX-50CX700 is 3D, but the Hisense H55M3300 and the Panasonic TX-50CX680 are not 3D. Read more

3D technology has become increasingly popular as the amount of 3D film and TV content has increased dramatically in recent years. All 3D TVs will also display regular 2D content and most will allow you to switch on and off the 3D effect on 3D content. Most 3D TVs require you to wear special 3D glasses in order to view the content in 3D, however some of the newer 3D TVs require no 3D glasses at all. Of those TVs that do require glasses, there are two main types of 3D technology: passive and active. Passive 3D uses glasses similar to those that you wear in the cinema. The glasses have polarised lenses which ensure that the correct image is displayed to each eye. The main advantage of passive 3D is that the glasses are very light and comfortable to wear, but it can result in a less bright image. Active 3D uses battery powered glasses which control active shutters in each lens. These shutters constantly open and close very quickly in sync with two different images that are being displayed by the TV. This ensures that the correct image is displayed to each eye. The main advantage of active 3D is that the image is brighter, however the glasses are heavier and more expensive.

3D compatible TVs allow you to watch 3D content. For most TVs you will need to wear special glasses to see the 3D effect.

600Hz faster motion interpolation frequency Edit
The Panasonic TX-50CX700 has a motion interpolation frequency of 800Hz (as does the Hisense H55M3300), however the Panasonic TX-50CX680 is only a 200Hz motion interpolation frequency TV (600Hz slower). Read more

The motion interpolation frequency is the frame rate which the TV is able to artificially create by inserting additional frames into the picture between the frames included in the original video source. Motion interpolation technology can sometimes create some unwanted side effects such glitches when the technology suddenly activates during an action scene. Most modern TVs will have an option to switch off the motion interpolation if it is not desired.

A faster motion interpolation frequency will result in smoother action scenes, less motion blur and a more life like image.

Card reader integrated Edit
The Panasonic TX-50CX700 has a card reader integrated, whereas the Hisense H55M3300 does not have a card reader integrated.
Thinner Edit
The Panasonic TX-50CX700 has a depth of 46mm. That's 38mm thinner than the Hisense H55M3300 (46mm) and 1mm thinner than the Panasonic TX-50CX680 (46mm). Read more

The depth of the TV is the thickness of the TV measured from the back of the TV to the front of the TV. Curved TVs will have quite a big depth as this dimension is measured from the back of the centre of the screen to the front of the edges of the screen.

A thinner TV has the advantage of appearing more elegant and will also mean that the TV will not stick out as much when mounted on a wall.

Energy efficiency rating is superior
The Panasonic TX-50CX700 has an energy efficiency rating of "A", whereas the Hisense H55M3300 has a rating of "A" and the Panasonic TX-50CX680 has a rating of "A".

Reasons Against

5 Reasons Against
Not 3D Edit
The Hisense H55M3300 is not 3D (As does the the Panasonic TX-50CX680), whereas the Panasonic TX-50CX700 is 3D. Read more

3D technology has become increasingly popular as the amount of 3D film and TV content has increased dramatically in recent years. All 3D TVs will also display regular 2D content and most will allow you to switch on and off the 3D effect on 3D content. Most 3D TVs require you to wear special 3D glasses in order to view the content in 3D, however some of the newer 3D TVs require no 3D glasses at all. Of those TVs that do require glasses, there are two main types of 3D technology: passive and active. Passive 3D uses glasses similar to those that you wear in the cinema. The glasses have polarised lenses which ensure that the correct image is displayed to each eye. The main advantage of passive 3D is that the glasses are very light and comfortable to wear, but it can result in a less bright image. Active 3D uses battery powered glasses which control active shutters in each lens. These shutters constantly open and close very quickly in sync with two different images that are being displayed by the TV. This ensures that the correct image is displayed to each eye. The main advantage of active 3D is that the image is brighter, however the glasses are heavier and more expensive.

3D compatible TVs allow you to watch 3D content. For most TVs you will need to wear special glasses to see the 3D effect.

46% thicker Edit
The Hisense H55M3300 has a depth of 84mm. That's 37mm thicker than the Panasonic TX-50CX680 (46mm) and 38mm thicker than the Panasonic TX-50CX700 (46mm). Read more

The depth of the TV is the thickness of the TV measured from the back of the TV to the front of the TV. Curved TVs will have quite a big depth as this dimension is measured from the back of the centre of the screen to the front of the edges of the screen.

A thinner TV has the advantage of appearing more elegant and will also mean that the TV will not stick out as much when mounted on a wall.

More expensive by £109
The Hisense H55M3300 is £109.01 more expensive than the Panasonic TX-50CX680.
Higher running costs over five years by £38.46
The running costs over five years of the Hisense H55M3300 are £176.10 which is £38.46 more than the Panasonic TX-50CX680 and £24.04 more than the Panasonic TX-50CX700. Show assumptions.
Expert review Rating is considerably Worse
The average expert rating of the Hisense H55M3300 is only 77%, whereas the average expert rating of the Panasonic TX-50CX680 is 90% (based on 1 review) and the Panasonic TX-50CX700 is 80% (based on 1 review).
6 Reasons Against
Slightly smaller display diagonal Edit
The Panasonic TX-50CX680 has a display diagonal of 50" (as does the Panasonic TX-50CX700), but the Hisense H55M3300 is a 55" TV (5" larger). Read more

The display diagonal of a TV is the most common measure of screen size and is the distance from the top left to the bottom right of the visible part of a TV screen excluding any frame or border. One of the most important considerations when choosing the right screen size for your TV is the typical distance from which you will be viewing the screen. A good rule of thumb is to multiply the display diagonal by 2.5 to determine the viewing distance. So a 40 inch TV is best viewed from 100 inches away, which is equivalent to 8.3 feet or 2.54m. For home cinema setups and a truly immersive experience this ratio can be reduced to 1.2. This will give a screen size that fills 40 degrees of the viewer's field of vision. So if you viewing from a distance of 6ft (72 inches) you would need a TV display diagonal of 60 inches.

TVs with a bigger display diagonal allow you to make the most of HD content and are great for watching movies.

Not 3D Edit
The Panasonic TX-50CX680 is not 3D (As does the the Hisense H55M3300), whereas the Panasonic TX-50CX700 is 3D. Read more

3D technology has become increasingly popular as the amount of 3D film and TV content has increased dramatically in recent years. All 3D TVs will also display regular 2D content and most will allow you to switch on and off the 3D effect on 3D content. Most 3D TVs require you to wear special 3D glasses in order to view the content in 3D, however some of the newer 3D TVs require no 3D glasses at all. Of those TVs that do require glasses, there are two main types of 3D technology: passive and active. Passive 3D uses glasses similar to those that you wear in the cinema. The glasses have polarised lenses which ensure that the correct image is displayed to each eye. The main advantage of passive 3D is that the glasses are very light and comfortable to wear, but it can result in a less bright image. Active 3D uses battery powered glasses which control active shutters in each lens. These shutters constantly open and close very quickly in sync with two different images that are being displayed by the TV. This ensures that the correct image is displayed to each eye. The main advantage of active 3D is that the image is brighter, however the glasses are heavier and more expensive.

3D compatible TVs allow you to watch 3D content. For most TVs you will need to wear special glasses to see the 3D effect.

Vastly slower motion interpolation frequency Edit
The Panasonic TX-50CX680 has a motion interpolation frequency of 200Hz, however the Hisense H55M3300 and the Panasonic TX-50CX700 are both 800Hz motion interpolation frequency TVs (600Hz faster). Read more

The motion interpolation frequency is the frame rate which the TV is able to artificially create by inserting additional frames into the picture between the frames included in the original video source. Motion interpolation technology can sometimes create some unwanted side effects such glitches when the technology suddenly activates during an action scene. Most modern TVs will have an option to switch off the motion interpolation if it is not desired.

A faster motion interpolation frequency will result in smoother action scenes, less motion blur and a more life like image.

3% thicker Edit
The Panasonic TX-50CX680 has a depth of 47mm. That's 37mm thinner than the Hisense H55M3300 (46mm) and 1mm thicker than the Panasonic TX-50CX700 (46mm). Read more

The depth of the TV is the thickness of the TV measured from the back of the TV to the front of the TV. Curved TVs will have quite a big depth as this dimension is measured from the back of the centre of the screen to the front of the edges of the screen.

A thinner TV has the advantage of appearing more elegant and will also mean that the TV will not stick out as much when mounted on a wall.

Fewer sellers
The Panasonic TX-50CX680 is only stocked by 3 sellers, but the Hisense H55M3300 is stocked by 18 sellers. Read more
The fewer the number of shops that stock the product, the lower the competition amongst shops to keep prices low.
Older by over one year
The Panasonic TX-50CX680 is 15 months older than the Hisense H55M3300. The Panasonic TX-50CX680 is the same age as the Panasonic TX-50CX700.
6 Reasons Against
5" smaller display diagonal Edit
The Panasonic TX-50CX700 has a display diagonal of 50" (as does the Panasonic TX-50CX680), but the Hisense H55M3300 is a 55" TV (5" larger). Read more

The display diagonal of a TV is the most common measure of screen size and is the distance from the top left to the bottom right of the visible part of a TV screen excluding any frame or border. One of the most important considerations when choosing the right screen size for your TV is the typical distance from which you will be viewing the screen. A good rule of thumb is to multiply the display diagonal by 2.5 to determine the viewing distance. So a 40 inch TV is best viewed from 100 inches away, which is equivalent to 8.3 feet or 2.54m. For home cinema setups and a truly immersive experience this ratio can be reduced to 1.2. This will give a screen size that fills 40 degrees of the viewer's field of vision. So if you viewing from a distance of 6ft (72 inches) you would need a TV display diagonal of 60 inches.

TVs with a bigger display diagonal allow you to make the most of HD content and are great for watching movies.

More expensive by £130
The Panasonic TX-50CX700 is £20.99 more expensive than the Hisense H55M3300 and £130 more expensive than the Panasonic TX-50CX680.
Fewer sellers
The Panasonic TX-50CX700 is only stocked by 3 shops, but the Hisense H55M3300 is stocked by 18 retailers. Read more
The fewer the number of sellers that stock the product, the lower the competition amongst sellers to keep prices low.
Older by over one year
The Panasonic TX-50CX700 is 15 months older than the Hisense H55M3300. The Panasonic TX-50CX700 is the same age as the Panasonic TX-50CX680.
£14.42 more expensive to run over five years
The running costs of the Panasonic TX-50CX700 are £152.06 which is £14.42 more than the Panasonic TX-50CX680 over five years. Show assumptions.
Expert review Rating is much Worse
The average expert rating of the Panasonic TX-50CX700 is 80%, whereas the average expert rating of the Panasonic TX-50CX680 is 90% (based on 1 review).

Awards

No awards found 1 Award
Trusted Reviews: Recommended
No awards found

Average Expert Rating

Average User Rating

No reviews found No reviews found

Date Released

11 months Ago 26 months Ago 26 months Ago

Running Costs Over 5 Years

Electricity cost - switched on £ 173.06
Electricity cost - standby £ 3.04
Total running cost £ 176.10
Purchase price £ 459.00
Total cost of ownership £ 635.10
Details
Electricity cost - switched on £ 134.60
Electricity cost - standby £ 3.04
Total running cost £ 137.64
Purchase price £ 349.99
Total cost of ownership £ 487.63
Details
Electricity cost - switched on £ 149.02
Electricity cost - standby £ 3.04
Total running cost £ 152.06
Purchase price £ 479.99
Total cost of ownership £ 632.05
Details

Energy Efficiency Class

Environmental Impact

0.87T
Running this TV over 5 years will generate 0.87 tonnes of carbon dioxide (CO2).
22
To offset that much CO2 you would need to plant and grow them for 10 years.
0.68T
Running this TV over 5 years will generate 0.68 tonnes of carbon dioxide (CO2).
18
To offset that much CO2 you would need to plant and grow them for 10 years.
0.75T
Running this TV over 5 years will generate 0.75 tonnes of carbon dioxide (CO2).
19
To offset that much CO2 you would need to plant and grow them for 10 years.

Display

Display Diagonal
55"
BEST
50" 50"
HD Type
 4K Ultra HD
 4K Ultra HD
 4K Ultra HD
3D
 3D
 3D
 3D
BEST
High Frequency Rate
Unknown - Click to provide data Unknown - Click to provide data 800Hz
3D Type
 Active
 Active
 Active
Screen Shape
 Flat
 Flat
 Flat
2D-3D Converter
 2D-3D converter
Unknown - Click to provide data Unknown - Click to provide data
Motion Interpolation Frequency
800Hz
BEST
200Hz 800Hz
BEST
Motion Interpolation Technology
 Smart Motion Rate (SMR)
 Smart Motion Rate (SMR)
 Smart Motion Rate (SMR)
Aspect Ratio
 16:9
 16:9
 16:9
Dynamic Contrast Ratio Marketing Name
 Brilliant Contrast
 Brilliant Contrast
 Brilliant Contrast
Display Diagonal (metric)
138cm
BEST
126cm 126cm
Viewing Angle, Horizontal
Unknown - Click to provide data 176° 176°
Supported Graphics Resolutions
 3840 x 2160
 3840 x 2160
BEST
 3840 x 2160
Viewing Angle, Vertical
Unknown - Click to provide data 176° 176°

Audio

Audio System
Unknown - Click to provide data VR-Audio True Surround Unknown - Click to provide data
Equalizer
 Equalizer
Unknown - Click to provide data Unknown - Click to provide data
Built-In Subwoofer
 Built-in subwoofer
Unknown - Click to provide data Unknown - Click to provide data
Built-In Speaker
 Built-in speaker
 Built-in speaker
 Built-in speaker
RMS Rated Power
20W 20W 20W
Loudspeaker
2 2 2
Sound Modes
 Standard
 Music
 Standard
 Music
 Standard
 Music
Audio Decoders
 Dolby Digital
 Dolby Digital
 Dolby Digital
Audio Decoding Technology
 Dolby MS10
 Dolby Digital Plus
 Dolby MS10
 Dolby Digital Plus
 Dolby MS10
 Dolby Digital Plus

Smart TV

Smart TV
 Smart TV
 Smart TV
 Smart TV
Internet TV
 Internet TV
 Internet TV
 Internet TV
Timeshift
 Timeshift
Unknown - Click to provide data Unknown - Click to provide data
Hybrid Broadcast Broadband TV (HbbTV)
 Hybrid Broadcast Broadband TV (HbbTV)
Unknown - Click to provide data Unknown - Click to provide data
Operating System Version
Unknown - Click to provide data Firefox OS Firefox O/S

Design

Built-In Camera
 Built-in camera
Unknown - Click to provide data Unknown - Click to provide data
Colour
 Black
 Black
 Black

Power

Power Consumption (typical)
108W 84W
BEST
93W
Power Consumption (standby)
0.5W 0.5W 0.5W
Energy Efficiency Class
 A
 A
 A
Annual Energy Consumption
158kWh 117kWh
BEST
126kWh
AC Input Voltage
 20-24
 20-24
 20-24
AC Input Frequency
 50
 50
 50

Certificates

Digital Living Network Alliance (DLNA) Certified
Unknown - Click to provide data
 Digital Living Network Alliance (DLNA) certified
 Digital Living Network Alliance (DLNA) certified

TV Tuner

Tuner Type
 Analog
 Analog
 Analog
Digital Signal Format System
 DVB
 DVB-S
 DVB-S2
 DVB-T
 DVB-T2
 DVB-C
 DVB
 DVB-S
 DVB-S2
 DVB-T
 DVB-T2
 DVB-C
 DVB
 DVB-S
 DVB-S2
 DVB-T
 DVB-T2
 DVB-C
Tuner
2tuner(s) Unknown - Click to provide data Unknown - Click to provide data

Performance

Card Reader Integrated
 Card reader integrated
Unknown - Click to provide data
 Card reader integrated
BEST
Optical Disc Player Type
 Not included
 Not included
 Not included
Game Mode
Unknown - Click to provide data Unknown - Click to provide data
 Game mode
Compatible Memory Cards
 SD
 SD
 SD
Video Formats Supported
 MP4
 AVI
 FLV
 MOV
 MPEG
 MKV
 VOB
 TS
 WEBM
 WMV
 3GP
 AVCHD
 M4V
 AVC
 3GPP
 VRO
 MP4
 AVI
 FLV
 MOV
 MPEG
 MKV
 VOB
 TS
 WEBM
 WMV
 3GP
 AVCHD
 M4V
 AVC
 3GPP
 VRO
 MP4
 AVI
 FLV
 MOV
 MPEG
 MKV
 VOB
 TS
 WEBM
 WMV
 3GP
 AVCHD
 M4V
 AVC
 3GPP
 VRO
Audio Formats Supported
 FLAC
 MP2
 MP3
 MP4
 WMA
 WAV
 FLAC
 MP2
 MP3
 MP4
 WMA
 WAV
 FLAC
 MP2
 MP3
 MP4
 WMA
 WAV
Voice Control
Unknown - Click to provide data
 Voice control
Unknown - Click to provide data
Image Formats Supported
 JPG
 PNG
 GIF
 BMP
 MPO
 WEBP
 PNS
 JPG
 PNG
 GIF
 BMP
 MPO
 WEBP
 PNS
 JPG
 PNG
 GIF
 BMP
 MPO
 WEBP
 PNS
Teletext Function
 Teletext function
 Teletext function
 Teletext function
USB Recording
 USB recording
Unknown - Click to provide data Unknown - Click to provide data
Local Dimming
Unknown - Click to provide data
 Local dimming
 Local dimming
Ambient Light Sensor
Unknown - Click to provide data Unknown - Click to provide data
 Ambient light sensor
Teletext
899 pages 1,000 pages 1,500 pages
BEST

Packaging Content

Handheld Remote Control
 Handheld remote control
 Handheld remote control
 Handheld remote control
Batteries Included
 Batteries included
Unknown - Click to provide data Unknown - Click to provide data

Ergonomics

VESA Mounting Interfaces
 200 x 200
 200 x 200
 200 x 200
VESA Mounting
 VESA mounting
Unknown - Click to provide data
 VESA mounting

Networking

Wi-Fi
 Wi-Fi
 Wi-Fi
 Wi-Fi
Bluetooth
Unknown - Click to provide data Unknown - Click to provide data
 Bluetooth
Ethernet Port
 Ethernet port
 Ethernet port
 Ethernet port
Browsing
 Browsing
 Browsing
 Browsing

Management Features

Hotel Mode
 Hotel mode
Unknown - Click to provide data
 Hotel mode
Smart Modes
 Cinema
 Game
 Dynamic
 Cinema
 Game
 Dynamic
 Cinema
 Game
 Dynamic
Electronic Programme Guide (EPG)
Unknown - Click to provide data
 Electronic Programme Guide (EPG)
 Electronic Programme Guide (EPG)
On Screen Display (OSD)
 On Screen Display (OSD)
 On Screen Display (OSD)
 On Screen Display (OSD)
On Screen Display (OSD) Languages
 ENG
 ENG
 ENG
Number of OSD Languages
17
BEST
1 Unknown - Click to provide data

Weight & Dimensions

Depth
84mm 47mm 46mm
BEST
Weight
15.5kg
BEST
17kg 16.5kg
Package Weight
21kg
BEST
23kg 21kg
BEST
Weight With Stand
Unknown - Click to provide data 18.5kg 17.5kg
BEST
Depth (with Stand)
241mm 202mm
BEST
242mm
Height (with Stand)
755mm 693mm
BEST
695mm
Width (with Stand)
1,235mm 1,126mm 1,121mm
BEST
Height
717mm 652mm 650mm
Width
1,235mm 1,126mm 1,121mm
Package Height
833mm 743mm
BEST
768mm
Package Width
1,365mm 1,518mm 1,143mm
BEST

Ports & Interfaces

Common Interface (CI)
 Common interface (CI)
Unknown - Click to provide data
 Common interface (CI)
Headphone Outputs
1 1 1
DVI Port
 DVI port
Unknown - Click to provide data
 DVI port
High-Bandwidth Digital Content Protection (HDCP)
 High-Bandwidth Digital Content Protection (HDCP)
Unknown - Click to provide data
 High-Bandwidth Digital Content Protection (HDCP)
PC in (D-Sub) Port
 PC in (D-Sub) port
Unknown - Click to provide data Unknown - Click to provide data
Common Interface Plus (CI+)
 Common interface Plus (CI+)
 Common interface Plus (CI+)
Unknown - Click to provide data
Ethernet LAN (RJ-45) Port
1 1 1
SCART Port
1 1 1
Digital Audio Optical Out
Unknown - Click to provide data 1 1
PC Audio in
 PC Audio in
Unknown - Click to provide data Unknown - Click to provide data
Composite Video in
1 Unknown - Click to provide data 1
Component Video (YPbPr/YCbCr) in
1 1 1
USB 2.0 Port
2 2 2
HDMI Port
4
BEST
3 3
Audio (L,R) in
1 Unknown - Click to provide data Unknown - Click to provide data
Mobile High-Definition Link (MHL)
 Mobile High-Definition Link (MHL)
Unknown - Click to provide data Unknown - Click to provide data
Audio Return Channel (ARC)
 Audio Return Channel (ARC)
 Audio Return Channel (ARC)
 Audio Return Channel (ARC)
USB 3.0 Type-A Port
1 1 1

Technical Details

LED Backlight
 LED backlight
Unknown - Click to provide data Unknown - Click to provide data
Feedback