How Big Is A 32 Inch TV?
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Table of Contents_
- What are the dimensions of a 32 Inch TV?
- What Additional Factors Should I Consider?
- Considering the Field of View
- Considering the Viewing Angles
- Considering the Size of Your Room
- Considering the Price of the TV
Retailers assign TV sizes based on the size of the screen. So, a 32” TV is not precisely 32 inches. This precedent can leave people wondering about the actual size and how big is a 32-inch TV. To answer that question, you have to understand the industry standard for measuring TVs. This can be applied to all screen sizes, whether you’re looking at 32 or 65-inch TVs. However, if you are asking because you want to purchase the best TV, you should know to keep some things in mind before you make your choice.
- A 32-inch TV measures diagonally across the screen only at 32 inches.
- Some listings say “32-inch class,” meaning that the size is within half an inch of 32 inches.
- Prospective TV buyers should consider the field of view, viewing angles, room size, and price when purchasing a new TV.
What are the dimensions of a 32 Inch TV?
In order to determine the height and width of a 32” TV model, there are some formulas you can use. These formulas use either algebra or trigonometry and can be found online. In order to do the math, you need the diagonal length of the screen, which is what the TV size includes.
You also need to know that the most common aspect ratio for a widescreen TV is 16:9 units, which can also be written as 16/9.
If you don’t want to break out your high school math, and really who can blame you, you can also use a website to calculate the approximate height and width. You will need the same information that I gave above to put into the calculator.
Some charts can be found for standard TV sizes. For example, a 32” screen is about 27.9” wide and 15.7” tall.
However, when measuring a space to determine the size of a TV that can fit, make sure to include a few additional inches in the height and width of the bezel.
On the other hand, if you need a much smaller TV that is capable of being taken with you on the go, you should look into one of the top-rated portable TVs.
What Additional Factors Should I Consider?
There are many factors to consider when you purchase a new TV, including the field of view, angular resolution, room size, and price. To determine the best TV for you, you may need to decide which aspects are most important to you. For example, if you are budget conscious, you may want a less expensive TV than if you were more concerned with the field of view or angular resolution.
And, if you want instructions on setting up internet on a TV, we have a guide for that, too.
Considering the Field of View
Field of view refers to what you can see. In order for a TV show to appear as desired, you most likely need to consider the distance you are sitting away from the TV and what amount of your vision the TV should take up. The recommended amount of your field of vision for a recommended mixed usage viewing is 30°, while 40° is recommended for cinema. In terms of distance, some recommend sitting 4.5 feet from a 32” TV for mixed media. Most people watching TV at home want to follow the recommended mixed media distance. Once you get the sitting distance right, you should only find out how to improve your TV signal and enjoy watching your favorite TV shows.
Considering the Viewing Angles
Ideally, the viewing angle for a TV would be straight on. However, when more people are around, people view the TV from different angles. If you get a TV with certain features, the TV may look more consistent from these wider viewing angles.
In-plane switching (IPS) panels on liquid crystal displays (LCDs) with light-emitting diode (LED) backlights have more versatility when it comes to viewing angles than a vertical alignment (VA) panel. Organic light-emitting diode (OLED) TVs also have more versatility when it comes to viewing angles than either IPS or VA LCD TVs. However, OLED screens are hard to find in 32-inch TVs, so keep an eye out for this resolution on the biggest screens. They’re more common in larger sizes, so this technology lacks being found in a vast variety of sizes. OLED TVs also come with a much higher price tag because of the technology, and the materials may not be seen as easily. As OLED screens become more common, this price difference may decrease.
Considering the Size of Your Room
When selecting a TV, one of the things you should keep in mind is the size of the room that where you’ll place the TV. Many consider 32 in. TVs to fall under the “small” category. This category includes TVs from 24”-32”, with 32” being one of the larger TVs. However, many consider this TV size to be a popular TV size for bedrooms, guest rooms, and kitchens. In fact, with smaller living spaces, people in Europe are more likely to turn to a 32-inch TV for their main set than people in the US. If 32-inch sounds like a good size for your area, you can check out the TCL 32S327 for a great review of this smart TV. You can also find out how big a 24-inch TV is and see if it will suit your needs or check out our guide on the top 24-inch televisions. Additionally, you can read about our comparison of the difference between 24 vs 32-inch TVs.
Considering the Price of the TV
The price can also be an essential factor when considering TVs to purchase. Many 32” TVs cost less than larger TVs, meaning they may be more budget-friendly. However, some features make the TV more expensive, including smart TV functionality and increased resolution. Although you may find it hard to find a 32” TV with 4K resolution, many of these TVs can get away with lower resolutions because of their size. The smaller size can help you not notice every detail on the display resolution so you still have a great viewing experience of a seamless performance. And on the other hand, a resolution with extra pixels might not even be worth it if you can’t notice the performance of the numerous pixels. In addition, some features like quantum dot light-emitting diode (QLED) TVs can also help increase the resolution of the TV. As stated above, OLED TVs will also increase the image’s resolution, but they also come with a steeper price. And with the larger screens (50-inch size, 65-inch size, etc.) plus a resolution like OLED or QLED, the price only goes up from there. You don’t have to get the most advanced resolution though, because ultimately, it comes to personal preference in what you want in a TV.
STAT: With smaller living spaces, people in Europe are more likely to turn to a 32-inch TV for their main set than people are in the US. (source)
Is a 32-inch TV a good size for a bedroom?
Many consider a 32” TV to be a good size for bedrooms, kitchens, or guest rooms.
How far should you sit from a 32-inch TV?
The recommended distance you should sit from a 32-inch TV is about 4. 5 feet.
How wide is a Samsung 32-inch TV?
For a TV with a standard aspect ratio of 16:9, the screen is about 27.9” wide.
32-inch TV Dimensions and Viewing Distance
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32-inch is not the mainstream size for flat-screen television as it used to be. However, it is still preferred by many people due to its portability and resolution for tight spaces, such as small bedrooms, kitchens, doms, or trailers…
Before buying a 32-inch TV, it is wise to have a little research on common dimensions and specifications to ensure the perfect experience and best fitting for your house and audiences.
Dimensions By Brand
The sizes of different television names are measured diagonally instead of horizontally from the screen’s visible side. Other measurements that determine a television’s size are the width, height, and depth. Typically, a 32-inches TV dimensions will land somewhere 28″ x 16.5″, more or less.
However, this does not mean that all 32-inch televisions are the same. They vary depending on the brand, thickness, material, and model.
Here are some examples of dimensions for a 32-inch tv from common brands.
- Samsung- 6.1 by 28.5 by 18.8 inches
- Sony- 6.9 by 29 by 19 inches
- Hisense- 3.4 by 28.3 by 16.9 inches
- Sceptre- 7.94 by 28.78 by 18.34 inches
- TCL- 7.1 by 28.8 by 19.1 inches
- Insignia- 8.15 by 28.86 by 19.02 inches
- Vizio- 7.04 by 28.88 by 19.49 inches
This is the distance between the television and the viewer, and it helps you determine whether your 32-inch television is the right choice for your house. Knowing the correct viewing distance also helps reduce eye strain and headaches.
To get a rough estimate, multiply the height of your television by three. This can differ whether you calculate the height with the stand on or not. According to experts, the perfect viewing distance for a 32-inch is 1.3 to 1.5 meters (4.5 to 5 feet).
This distance can vary depending on your television resolution. The higher the resolution on your television, the closer you can sit to it without seeing pixelated images. Most 32-inch TVs have a 1080p resolution. For smaller size TV such as a 32-inch, 4K capability should not be of your concern, since the visual difference, compared to HD or Full HD, is extremely narrow and often not detectable by the common eye.
This refers to how far a viewer can move to the side of the television without the images getting blurry or dark. This is a key factor to consider if more people will be watching scattered around the room.
Typically, there is usually a 30-degree viewing angle for most 32-inch televisions. However, this depends on the technology used on televisions. OLED televisions have the largest viewing angle, but it is hard to find a 32-inch OLED television.
Therefore, the best choice is an LED TV because of its brighter display plus enhanced contrast compared to an LCD one.
Filed Under: Tips & Tricks
What diagonals do TVs have? Table of TV diagonals in cm
Reading time: 16 min
It is difficult to determine by eye what diagonals TVs have , and even more so – to choose the best one for specific purposes. Even more questions arise regarding the correct selection of the size of the TV for specific tasks. We propose to deal with the features of size rulers, the principles of calculating the dimensions of TVs and calculate the optimal diagonal for personal purposes.
What are inches on TV?
When they say a 43-inch TV, it means that it has a 43-inch matrix. To make it clearer how many diagonal 43 inches are in cm, we simply translate this value using the standard formula (given in the next section). For now, let’s just say that this is 109 cm. However, the width and length of the TV in each model may still differ, since the thickness of the frames must be added to these 109 cm.
Interesting! Why are televisions, for example, 32 inches and not cm? Traditionally, TVs are made in more developed countries, like the USA, where the inch system is used instead of the metric system. The second reason is the inconvenience of converting to centimeters. People constantly say that the TV is 40 inches, but it’s hard to imagine the phrase: TV is 101.6 cm. This causes confusion and is simply inconvenient to pronounce.
What is the TV diagonal in centimeters?
To calculate a 40 inch TV in centimeters, simply multiply the value by 2.54. How many centimeters are there in 1 inch. Thus, we can translate absolutely any values. Yes, we understand that it is inconvenient to calculate on a calculator or in your mind how many centimeters are in an inch, for this a table of TVs is presented with a division by inches. We will describe in more detail in the thematic section of this material.
To consolidate the material, we propose to analyze how to determine the diagonal of the TV in centimeters using an example. If the TV has a diagonal of 65 inches, in centimeters it will be 165 cm. What the calculation looks like: 65 * 2.54 = 165.1 cm.
Another option is that the owner does not know the diagonal, but wants to find out. The first option is to find a model on TV and enter it on the Internet, all the information will be there. If it is not possible to find out the name, you should manually calculate the diagonal.
How to measure the TV diagonal in cm:
- We measure the length and height of the matrix (from the beginning of the screen to its end, excluding the frame). For example, we got 88.6×49.8 cm.
- We square the resulting length and height, and then sum them. It turns out 7850 + 2480 = 10330.
- We calculate the root of this value and get 101. 6 cm, which exactly corresponds to the 40th diagonal. This is easy to check by dividing the number by 2.54.
What are the TV sizes?
Today, each manufacturer decides on his own what size TVs to make. However, they are still limited in choice, as most developers use matrices not of their own production. Common manufacturers produce fixed display sizes, so TV creators already adjust to them anyway. Even those who produce matrices themselves still continue to follow unspoken standards in order to compete in specific size classes, and not offer a TV with a dubious diagonal.
There are other reasons why developers stick to the same diagonals:
- Difficulties with content output. It will be difficult to maintain the correct aspect ratio, so dark bars may appear at the top and bottom of most videos.
- It will be necessary to introduce a new permission, which will begin to confuse users. Expanding the TV sideways or upwards, you need to add new pixels, so instead of the traditional 3840×1920, you will have to do, for example, 4028×1920 points. This is inconvenient and again causes difficulties with content playback.
What are the sizes of TVs depending on the diagonal:
- 24 inches in centimeters diagonally the TV is ~ 61 cm. There are also 22-23 inches, but most often they still produce 23.6, 23.8 and 24 ” .
- 27” and 28” most often these TVs are designed as a more affordable alternative to computer monitors.
- 31.5-32 inches, sometimes 34”;
- 40-43 inches, occasionally 39and 39.5 inches;
- 49-50 and 55”;
- 70, 75 and rarely 77 inches;
- 82, 85, 86”;
- 98-110 inches;
- 292” is the largest TV diagonal.
Table of TV diagonals in cm
Probably, there is no desire to calculate for a long time how many cm a TV is with a diagonal of 43 inches. This waste of time is pretty easy to avoid with our spreadsheet. It immediately indicates the corresponding TV values \u200b\u200bin cm for popular TV sizes. Important correction, this data only applies to devices with an aspect ratio of 16:9, but not suitable for 4: 3 TV, which are now very few.
Table of TV diagonals in cm, as well as width and height:
|Diagonal in inches
This table helps you quickly convert inches to centimeters for TVs. It contains common sizes of diagonals, but in a more familiar form.
How to choose a TV size?
To choose the right TV for your screen size, it’s important to evaluate all the variables. We will talk more about the features of the choice further:
- The ratio of the distance to TV and diagonal. Depending on the distance of the viewer from the screen, it is worth considering the optimal size of the TV. From a distance of 3 meters it is comfortable to watch TV 32 inches. If the distance is 4 m, it is better to buy a device with a diagonal of about 40”. If the distance is 5-6 m, a 50-60 inch TV will be perfect in the room. To comfortably look at a 70-80 inch TV, you need a distance of at least 7 m, but it will be comfortable from a distance of 10 m.
See also: Which TV to choose in the kitchen?
- Balance between room size and diagonal. In a small room, a 24-30 inch TV will be perfect. In a bedroom up to 15 m2, it will be comfortable to use a 40-43 inch TV. In the hall and living room with an area of 20 m2, a 60-inch device will look perfect. 65+ inches is best installed in rooms with an area of 20 m2.
- Correspondence between resolution and diagonal. This is very important, otherwise the image may be too grainy. Again, for a TV with a small screen size, a high resolution is meaningless. FullHD looks fine on TVs up to 32 inches, but noticeable pixels already appear on 40 inches. 4k is the optimal resolution for diagonals from 40 to 65 inches. 6k and 8k are now available only in premium models, so their presence in a screen from 65” is desirable, but you can get by with 4k with a sufficient level of comfort.
See also: 4K TV Rating
These tips will help you choose the right TV size in accordance with other variables. The instruction also talks in detail about how to convert inches to centimeters, both based on the data in the table, and using manual calculation. Now any confusion with diagonals should be cleared up and the reader can adequately determine the appropriate screen size. This will save a lot of money and nerves, as many buyers take large TVs from 50 inches to the bedrooms and then experience discomfort.
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3DNews Monitors and projectors TVs Big test of LCD TVs: looking for a model …
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Many people notice that their eyes get tired from the screens of some TVs, projectors, monitors and laptops, while not getting tired from others. Eye fatigue can be caused by flickering light emitted by screens – but monitor and laptop manufacturers have long noticed this problem and release flicker-free models with the “flicker free” mark. The situation is much worse with televisions
All modern LCD televisions use LED backlighting – lamps are a thing of the past. When the backlight brightness is set to 100%, there is usually no ripple – the LEDs are powered by constant voltage. But 100% backlighting is good only in a store – at home, such brightness turns out to be excessive, it has to be reduced.
Pulse width modulation (PWM) is almost always used to adjust the brightness of the backlight – LEDs turn on and off at a frequency of one hundred to several thousand times per second. The ratio of the time the LEDs are on (pulse length on) and the time they are off (length of pause between pulses) determines the average brightness.
When the pulse frequency is low (100 or 120 hertz), the pulsation of light can be seen with peripheral vision or when looking quickly from one point to another. It is believed that a pulsation with a frequency of up to 300 Hz causes eye and brain fatigue and can lead to headaches and exacerbation of nervous diseases. In addition, it is believed that reducing the brightness using PWM causes irritation of the retina due to the fact that the pupil expands, focusing on the average level of illumination, and the retina receives “hit” with light pulses of maximum brightness.
Armed with a Nikon 1 V1 camera that shoots video at 1200 frames per second, I went to electronics stores and checked how the matrix backlight worked on 42 TV models from six manufacturers.
In shop windows, all TVs always work with 100% backlight brightness, so before taking measurements, I reduced the backlight brightness for each TV to 30-50%.
I’ll start with the good news – no backlight ripple was found in all tested Sony TVs. Most likely, a very high PWM frequency is used there (tens of thousands of switching per second). I checked the following models:
In a 40x slow motion video, LG 32LH570U (left) and Sony KDL-32RE303 (right) TV screens with 30% backlight look like this:
The Chinese Haier TVs also didn’t have ripple, but the reason for this is quite banal: they simply don’t have backlight brightness control – it always burns at full power. I tested two models:
Panasonic TVs are now hard to find in stores, but I did manage to find two 32-inch models. And they turned out to be completely different. Have a cheap Panasonic TX-32DR300 the backlight blinks at a triple signal frequency (150/180 Hz), the more expensive Panasonic TX-32ESR50 has no backlight ripple at all.
Samsung TV backlight ripple varies by model. Relatively cheap TVs, including the younger models of the sixth series, have one hundred percent ripple at a frequency of 100/120 Hz (the backlight ripple frequency is twice the frequency of the input signal). In the center of a 40x slow-motion Samsung UE43NU7140U video:
This ripple is found in the following TV models:
The 2017 Samsung Series 6 models behave quite differently. They do not ripple when the backlight brightness decreases to a certain level (presumably, the current flowing through the LEDs is regulated), and when the backlight level is further reduced, PWM is turned on. The younger models (MU61**) have no ripple at backlight levels of 13-20, and at levels of 0-12, the PWM frequency is 100/120 Hz. The older models (MU64**, MU65**) have no ripple at backlight levels of 10-20, and at levels of 0-9PWM frequency 200/240 Hz.
Samsung 49MU6650U, backlight brightness 50% (10 out of 20 on the tuning scale):
Same TV with backlight brightness 25% (5 out of 20 on the tuning scale):
I tested the following models:
These TVs can easily be classified as flicker free, as lowering the backlight level to 50-65% is enough for the most part – and in this case there is no ripple.
QLED TV Samsung QE49Q7 has a dark bar running across the screen 100 or 120 times per second, the width of which is greater, the lower the backlight brightness is set:
This is a much more gentle pulsation for the eyes than turning the backlight off and on completely.
Most of all I was surprised by the TV of the eighth series Samsung UE55NU8000U . See for yourself (slowdown by 120 times):
At 180 Hz, the backlight changes to red. Apparently, this TV uses RGB LEDs for backlighting.
All of the lower and mid-range LG LCD TVs I’ve tested have a 100/120 Hz backlight when the brightness is reduced. Here, for example, LG 32LJ610V :
This backlight operation was recorded for the following models:
The backlight of older LG models works quite differently. Dark stripes diverge from the center of the screen to the sides. This is what it looks like on the LG 49SJ810 at 40x deceleration:
The whole cycle is repeated 100/120 times per second. At 120x slowdown, you can see that the backlight is divided into six zones that fade in pairs.
This backlight operation is fixed for the following models:
TVs of the Chinese brand Hisense have recently appeared in Russia. For cheap models, the backlight flashes at a triple signal frequency (150/180 Hz).
Among the models I tested, the following models work this way:
In the video, slowed down by 48 times, you can see how quickly Hisense H50A6100 blinks, stripes run on the left of it on an expensive LG, on the right on a Samsung QLED.
More expensive Hisense models have even higher PWM frequency. At 40x slowdown, Hisense H55N6800 ripple looks like fast flickering:
At 120x slowdown, you can see that the backlight color change is used just like in the Samsung eighth series. The frequency is most likely 500/600 Hz, but 1200 fps is not enough for an accurate analysis of the shooting speed.
This is how the backlight works on two tested TVs:
In addition to many LCD TVs, I tested the LG 55EG9 OLED TV for comparisonA7V. Unlike LCD TVs, there is no backlight here – the pixels of the matrix themselves glow. There is also no visible ripple. On high-speed shooting (40 times slowdown), you can see only a narrow horizontal strip running 100/120 times per second, which is slightly paler than the rest of the image.
All TVs tested:
I don’t know why most TV manufacturers use 100/120Hz PWM. At first glance, nothing prevents increasing this frequency by ten or even a hundred times. Perhaps in a few years this will happen, after which they will begin to tell us about the “revolutionary technology” of Flicker Free.
You can check for visible TV screen ripple without special equipment. Reduce the backlight level to the minimum (just the backlight level, not the brightness!). Twirl the pencil in front of the screen (see pencil test). If there is no stroboscopic effect and you see a blurry image of a pencil, there is no visible ripple (or not at all, or the PWM frequency is above 300 Hz). If you see a stroboscopic effect – the pencil “splits” into many pencils – there is a ripple.
There is only one way to get rid of LCD TV screen pulsing without reworking it – turn off all eco modes, set the backlight level to 100% and reduce the brightness to achieve a comfortable picture. In this case, the black color will most likely turn gray and the picture will be more faded, but the eyes will be less tired without pulsation.