Best TVs for Digital Signage to Buy in 2024

Jul. 29, 2024

Best TVs for Digital Signage to Buy in

Figuring out which screen to use for your digital signage can be overwhelming. With a wide array of brands/features, it can be challenging to make a decision.

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Whether you're starting from scratch and trying to determine the cost of digital signage, or you're looking to purchase a single display for your startup or hundreds of displays for your enterprise, we have you covered. This article will provide a brief summary of some of the best options we can recommend for various settings and usage scenarios.

Trends

In , digital signage trends show a growing preference for advanced 4K and 8K screens. They offer sharper and more detailed images, making these screens ideal for creative installations and impactful advertising. The demand for these visually stunning screens is expected to rise in almost any setting, including retail, hospitality, and digital out-of-home (DooH) advertising.

As technologies becomes more affordable, businesses are increasingly choosing larger display sizes to effectively capture their audience's attention. While screens of 55 inches and smaller are still commonly used, there is a growing preference for larger displays to create a more immersive experience. However, the final decision on screen size depends on the specific requirements of the installation, including the size of the space, distance to the screen, and type of content.

Consumer Displays

While consumer TVs may not have the same level of durability and continuous operational capabilities as commercial-grade signage displays, they can still be effective in certain scenarios, which we will discuss below. For those considering this option, we recommend exploring three vendors that offer a good balance between cost and performance for digital signage purposes.

Hisense TVs

For the past few years, Hisense has become known as a manufacturer of affordable consumer TVs that offer attractive pricing and design, while maintaining an acceptable level of build quality. Although they are not made for professional digital signage settings that require 24/7 or even 16/7 operation, they can still be suitable for less demanding environments. Hisense TVs come with the Google TV operating system, which makes it easy to access the TelemetryTV digital signage software directly from the Google Play Market. Hisense's lineup includes LED and Mini-LED technologies in their ULED range, providing different levels of brightness and color accuracy.

Recommended Options

Hisense's affordability makes their TVs an attractive option for startups seeking internal communication solutions or dashboard TVs, as well as for local businesses looking to enhance customer engagement without a significant investment. The Class A6 and Class U6 Series, starting from only $400 for a 65-inch display, are recommended for displaying informational or educational content in settings with controlled lighting (e.g. offices, small clinics, etc.) where there is no direct sunlight.

The Quantum ULED, Class U7, and Class U8 series have a higher price starting from $800, but they are more suitable for settings where content needs to be visually appealing, such as videos and engaging images. These screens also perform well in various lighting conditions, thanks to the combination of quantum dot technology and Mini LED, offering excellent brightness for any content, even when the screen is located near a big window.

The weakest aspect of Hisense screens is their viewing angle. Although we hope this will be improved in future models, at present, we cannot recommend them for large spaces where the viewing angles of audiences may vary. In such cases, we suggest considering TCL TVs, which are priced slightly higher than Hisense.

Hisense Website

TCL TVs

TCL, known for its consumer TVs in the mid-price range, strikes a good balance between affordability, build quality, and performance. These TVs are ideal for small to medium-sized organization seeking signage screens that don't need to be used 16/7 or 24/7, all without breaking the bank. Most of TCL's models are available with various platforms, including Android TV, Google TV, or Fire TV, which we highly recommend for compatibility with the TelemetryTV digital signage software available in both Google and Amazon's application marketplaces.

TCL offers a range of technologies, from standard LED to more advanced QLED and Mini-LED options (or a combination of both), to cater to different needs and preferences. Notably, TCL's TVs combining both QLED and Mini-LED technologies are ideal for scenarios that require high color accuracy (i.e., clothing retail) and brightness. The Mini-LED technology, in particular, provides exceptional contrast and deep blacks thanks to its localized dimming capabilities.

Recommended Options

For banking, healthcare, and other types of environments where viewing angles are crucial due to diverse viewing positions, TCL's CLASS 4-SERIES or S CLASS offerings with HDR LED technologies would be suitable. If these environments also require higher brightness levels due to challenging light conditions, then TCL's CLASS 5-SERIES with QLED HDR technologies will be a better option. Each of these models is priced at around $550 for a 65-inch TV screen.

For environments with even more uncontrolled light conditions, such as corporate communication dashboard TVs positioned near windows or retail screens needing vibrant colors to boost sales, the recommended options are TCL's CLASS 6-SERIES or Q CLASS offerings. These options combine advanced QLED + MINI-LED technologies. Depending on the model, a 65-inch screen will cost between $1,000 and $1,700.

However, although the brightness level of CLASS 6-SERIES or Q CLASS offerings is excellent, it may not be the preferred choice for high-end clothing or beauty space retailers that require precise color accuracy. If that's the case, continue reading for SONY's higher-tier options or professional Philips displays.

TCL Website

SONY TVs

SONY stands out in the consumer TV market due to its high build quality and premium offerings. While SONY TVs are often associated with a higher price point, especially compared to TCL or Hisense, SONY is the only vendor from the consumer list that provides ultimate solutions with superior color accuracy, wide viewing angles, and excellent brightness all in one. This is made possible by SONY utilizing cutting-edge technologies such as QD-OLED, OLED, Mini LED, and Full Array LED, either individually or in combination. And of course, all consumer SONY TVs come with Google TV, which provides easy access to the TelemetryTV digital signage software.

Recommended Options

Even slight variations in shade can have a significant impact on the audience in places like luxury brand stores, beauty salons, or art galleries. These settings require not only optimal brightness and color but also perfect viewing angles. The SONY A95L model combines OLED and quantum dot technologies, offering top color accuracy and excellent viewing angles, making it ideal for such demanding environments. However, the starting price of $3,500 may be a drawback. For a more affordable option, the A80L screen with OLED technology is available for $2,200. However, it is important to note that the term "decent" is more relevant in describing the model's color brightness and accuracy.

If your setting doesn't require extremely accurate colors but still demands captivating video and images with various viewing angles under controlled lighting conditions, SONY's LED HDR models starting at $700 will meet your needs. If you encounter challenges with brightness and contrast levels rather than viewing angles, we recommend considering the X90L and X93L models, which utilize Full Array LED and Mini LED technologies respectively. These models are priced at $1,400 and $2,000.

SONY Website

Commercial Displays

There are a few key differences to consider when we start looking at commercial digital signage displays vs. consumer displays. These include decent brightness, viewing angle, suitability for 18/7 or 24/7 use, extended warranty duration, and others. However, the most important factor here is reliability and scalability. If you have a network of tens, hundreds, or thousands of screens, this will be the most crucial factor you will think of. As truck rolls related to network maintenance could be really high, you will need to minimize that and maintain screens remotely. So the pricing tiers of $2,000 - $3,000 (for a 65-inch screen) will be quickly recouped by the lower network's total cost of ownership guaranteed by professional displays. Taking these aspects into account, here are two reliable vendors of commercial digital signage displays we can recommend for .

NEC Digital Signage Screens

NEC Display Solutions is a leading provider of professional-grade digital signage solutions, renowned for its innovative and high-quality displays. With a strong presence in the industry, NEC specializes in delivering cutting-edge visual technology and comprehensive digital signage solutions for various markets, including corporate, healthcare, education, and transportation. Their commitment to reliability, performance, and sustainability has made them a preferred choice for businesses looking to effectively communicate with their audience.

NEC's commitment to research and development ensures that they stay at the forefront of digital signage display technology. They offer products that seamlessly integrate into a wide range of applications and environments, and are designed to be durable (as evidenced by the full 3-year commercial warranty).

Recommended Options

In , NEC offers two model lines for ultra-high-definition 4K displays: ME and M. These models are designed to cater to the diverse needs of modern businesses and public spaces. The ME651 model, with a price starting at $1,565 and varying based on available features, is an excellent choice for environments that require 18/7 operation. This includes large healthcare facilities and education facilities. The more advanced M651 model, priced at $2,399, is specifically designed for demanding 24/7 operations. It is ideal for transportation hubs, airports, and manufacturing facilities. The M651 model is equipped with an industrial-strength panel and additional thermal protection to ensure durability and reliability.

If you need a display with extensive brightness for your digital signage, we suggest considering Philips displays. Some of their higher-tier models offer exceptional brightness levels.

NEC Website

PPDS Digital Signage Screens

PPDS, which stands for Philips Professional Display Solutions, is a specialized division that focuses on advanced commercial displays and signage solutions branded under Philips. They offer a diverse range of high-quality displays designed for various industries, incorporating the latest technological advancements. Whether it's hospitality, retail, education, or healthcare, their digital solutions enhance engagement, information dissemination, and entertainment. PPDS offers displays in different sizes and formats, including regular digital signage screens, interactive displays with touch technology, and videowall displays for immersive, ultra-high-resolution user experiences. Additionally, PPDS screens come with the Android operating system, making it easy to access the TelemetryTV digital signage software directly from the Google Play.

Recommended Options

The B-Line models (available from $1,100 for a 65-inch screen) boost productivity and seamlessly integrate into corporate comms. With Chromecast built-in, these displays ensure smooth presentations with wireless media sharing from Windows, Apple, and Android devices.

For powerful engagement, the Q-Line models (available from $1,400 for a 65-inch screen) are ready for anything. They are easy to set up and come in both HD and 4K Ultra HD options. These displays require no additional hardware and can be configured for almost any function.

The D-Line models (available from $1,500 for a 65-inch screen) combine performance and versatility. Ranging up to 98" in size, they are the perfect choice for content that needs to make a powerful impact. With built-in Android, these displays offer endless possibilities.

In challenging environments, the P-Line models (available for $1,900 for a 65-inch screen) outperform with heavy-duty components. Designed for 24/7 operation, they feature high-brightness outputs and are ideal for kitchen setups to engine rooms.

To stand out and make an impact in any environment, the H-Line models (starting from $4,000 for a 65-inch screen) offer ultra-high brightness of more than 2,000 nits. This ensures that content cuts through the crowd and receives the recognition it deserves. With robust components, these displays are suitable for 24/7 operation.

PPDS Website

Choosing the Best Digital Signage Player

When diving into the world of digital signage, the choice of screens is crucial but it's just the beginning. Equally important are the software solutions and media players that bring your content to life.

While some screens (especially consumer-focused ones) offer the convenience of built-in media players, creating a plug-and-play experience, professional displays often lack this feature. The all-in-one solutions typically fall short for complex signage needs or advanced applications. For those looking to deploy sophisticated content or set up multi-screen (video wall) signs, a more robust solution is necessary. This means finding a media player that not only supports multi-screen layouts but also boasts the computing power to handle demanding tasks seamlessly.

In our journey since , the TelemetryTV technical team has rigorously evaluated over 300 digital signage players across various platforms. From this extensive testing, we've distilled our findings into a list of the top 10 players for . Each selection is backed by detailed analysis of its strengths, weaknesses, and suitability for different digital signage scenarios. To guide your decision-making process, we invite you to explore our in-depth media player guide on our blog, ensuring you choose the hardware that best fits your project's unique requirements.

Read the Guide

Powerful and Intuitive Cloud-Based Digital Signage Software

Once you've chosen the right digital signage screens and media players, the next essential step is to find software that not only delivers power and reliability but also offers comprehensive content management and simplifies the administration of users, devices, and maintenance. This is particularly vital in large-scale operations.

While some manufacturers might provide software for managing the hardware, they often fall short in offering content management solutions. Moreover, when your setup includes devices from various manufacturers, managing them all through a single vendor-specific platform becomes impossible. The ideal approach is to adopt a platform/vendor-agnostic solution that comes with strong content management features.

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This is where TelemetryTV excels. It offers support of a wide range of media players/platforms, allowing you to remotely manage your hardware fleet. You can also do the same with users, content, or even your custom enterprise-grade signage apps via TelemetryTV's PaaS features.

To experience how TelemetryTV can revolutionize your content and device management, sign up for a free 14-day trial or request a demo to see our comprehensive solution in action, tailored for managing diverse content, devices, users, and applications across various manufacturers.

Learn More

Conclusion

Commercial-grade screens are designed specifically for digital signage, offering a more reliable option for businesses. However, advancements in technology have made high-quality consumer-grade TVs suitable for professional setups as well. Ultimately, you should choose a display that meets your operational needs, ensuring effective content delivery and long-term durability in your specific business context.

What is Design for Manufacturing or DFM?

Design for Manufacturing (DFM) is the process of designing parts, components or products for ease of manufacturing with an end goal of making a better product at a lower cost. This is done by simplifying, optimizing and refining the product design. The acronym DFMA (Design for Manufacturing and Assembly) is sometimes used interchangeably with DFM.

Five principles are examined during a DFM. They are:

Process
Design
Material
Environment
Compliance/Testiing

Ideally, DFM needs to occur early in the design process, well before tooling has begun. In addition, properly-executed DFM needs to include all the stakeholders &#; engineers, designers, contract manufacturer, moldbuilder and material supplier. The intent of this &#;cross-functional&#; DFM is to challenge

the design &#; to look at the design at all levels: component, sub-system, system, and holistic levels &#; to ensure the design is optimized and does not have unnecessary cost embedded in it.

The following chart offers an excellent visual representation of the effect of an early DFM. As the design progresses through the product life cycle, changes become more expensive, as well as more difficult to implement. Early DFM allows design changes to be executed quickly, at the least expensive location.

Pulling stakeholders together early in the design process is easier if you're developing a new product, but even if you're dealing with an established product, challenging the original design is a necessary element of a thorough DFM. Too often, mistakes in a design are repeated by replicating a previous design. Question every aspect of your design.

Look at the original drawings.
Tear down the product.
Look at competitive and near-neighbor products, as well as lead users such as medical and automotive.
Talk to your contract manufacturer &#; who may have solved the problem with a different customer?
Has someone else solved this problem a different way?
Is there a way to make it better?

A lot of thought, time and effort go into a DFM. Jeff Tadin, our senior product development engineer, has almost 30 years of experience with product development, design and manufacturing. Today, he&#;s going to walk us through a hypothetical DFM process using a basic computer mouse (this mouse was not produced by East West Manufacturing.)

5 PRINCIPLES OF DFM: A CLOSER LOOK

1 | PROCESS

The manufacturing process chosen must be the correct one for the part or product. You wouldn't want to use highly-capitalized process like injection molding which involves building of tools and dies to make a low-volume part that could have been manufactured using a lower-capitalized method, such as thermoforming. That would be equivalent to using a tank to squash an anthill &#; a classic case of overkill. Let's see what Jeff has to say about selecting the right manufacturing process:

In determining the manufacturing process, Jeff said the DFM took into consideration the quantity of parts being made, the material being used, the complexity of the surfaces, the tolerances required and whether there were secondary processes required. You'll note that many of the same questions he asks with regard to process will also come up under the 'Design' heading.

2 | DESIGN

Design is essential. The actual drawing of the part or product has to conform to good manufacturing principles for the manufacturing process you&#;ve chosen. Here's Jeff, talking about design of the mouse:

In the case of plastic injection molding, for example, the following principles would apply:

Constant wall thickness, which allows for consistent and quick part cooling
Appropriate draft (1 - 2 degree is usually acceptable)
Texture - need 1 degree for every 0.001&#; of texture depth on texture side walls
Ribs = 60 percent of nominal wall, as a rule of thumb
Simple transitions from thick to thin features
Wall thickness not too small - this increases injection pressure
No undercuts or features that require side action - all features &#;in line of pull/mold opening&#;
Spec the loosest tolerances that allow a good product - and consult the trade organization for your manufacturing process on what is reasonable for that process

Be sure to discuss the design with your contract manufacturer, who can ensure that your design conforms to good manufacturing principles for the selected process.

3 | MATERIAL

It's important to select the correct material for your part/product. In this video, Jeff talks about some of the criteria that go into that decision:

Some material properties to consider during DFM include:

Mechanical properties - How strong does the material need to be?
Optical properties - Does the material to be reflective or transparent?
Thermal properties - How heat resistant does it need to be?
Color - What color does the part need to be?
Electrical properties - Does the material need to act as a dielectric (act as an insulator rather than a conductor)?
Flammability - How flame/burn resistant does the material need to be?

Again, be sure to discuss the material with your contract manufacturer, who might have access to existing materials in their portfolio which would allow you to secure lower material pricing.

4 | ENVIRONMENT

Your part/product must be designed to withstand the environment it will be subjected to. All the form in the world won&#;t matter if the part can&#;t function properly under its normal operating conditions:

5 | COMPLIANCE/TESTING

All products must comply with safety and quality standards. Sometimes these are industry standards, others are third-party standards and some are internal, company-specific standards.

Your manufacturer should have ISO-certified testing facilities. Find out: Who will provide UL, ETL and other third-party testing? Where will that testing take place?

FACTORS THAT AFFECT DFM

The goal of DFM is to reduce manufacturing costs without reducing performance. In addition to the principles of DFM, here are five factors that can affect design for manufacturing and design for assembly:

1 | Minimize Part Count

Reducing the number of parts in a product is the quickest way to reduce cost because you are reducing the amount of material required, the amount of engineering, production, labor, all the way down to shipping costs.

2 | Standaradize Parts and Materials

Personalization and customization are expensive and time-consuming. Using quality standardized parts can shorten time to production as such parts are typically available and you can be more certain of their consistency.

Material is based on the planned use of the product and it's function. Consider:

How should it feel? Hard? Soft?
Does it need to withstand pressure?
Will your part or product need to conduct heat, electricity?

3 | Create Modular Assemblies

Using non-customized modules/modular assemblies in your design allows you to modify the product without losing its overall functionality. A simple example is a basic automobile that allows you to add in extras by putting in a modular upgrade.

4 | Design for Efficient Joining

Can the parts interlock or clip together? Look for ways to join parts without the use of screws, fasteners or adhesives. If you must use fasteners, here are a few tips:

Keep the number, size and variation of fasteners to a minimum
Use standard fasteners as much as possible.
Use self-tapping and chamfered screws for better placement.
Stay away from screws that are too long or too short, separate washers, tapped holes, round heads and flatheads.

5 | Minimize Reorientation of Parts During Assembly & Machining

Parts should be designed so that a minimum of manual interaction is necessary during production and assembly.

6 | Streamline Number of Manufacturing Operations/Processes

The more complex the process of making your product, is the more variables for error are introduced. Remember what Jeff said: All processes have limitations and capabilities. Only include those operations that are essential to the function of the design.

7 | Define "Acceptable" Surface Finishes

Unless it must be trade show grade, go with function rather than flashy for your surface finish.

BONUS: 4 KEY QUESTIONS ABOUT PLASTIC INJECTION MOLDING & DFM

Jeff talked a good bit about plastic injection molding in the videos. Here are four important questions to keep in mind about DFM and the injection molding process:

Which direction will the tool pull?

Here&#;s how it works: A tool (or mold) is made of two halves. The hot plastic liquid is poured into the mold, then quickly cooled. The two halves are pulled apart and there&#;s your part. If any feature in your part moves in a direction other than the pull of the mold, that will complicate the tooling and the tool will cost more.

Are there undercuts or features that will get trapped?

Undercuts are protrusions or recesses in the design that prevent the mold from sliding away from the part. They can get caught in the tool and cause damage. If the design element causing the undercut is absolutely necessary it&#;s possible to get around it by using a slide, but that increases the price of the tool. Better to get rid of the undercut by changing the design.

How consistent are the wall thicknesses?

The thick areas on plastic parts are designed that way for strength. But thickness also dictates how long it takes for the part to cool, and the longer it takes to cool the greater the chance for sink. Sink is not good. It is an area of weakness in the part. Also, longer cycle times increase part cost, as the amount of press time to mold the part is increased.

To address this problem, an engineer will thin a thick area out and reinforce it with ribs. Thin walls are not good either, however. Walls that are too thin can easily break. Depending on the part, wall thicknesses will run from 3 mm to 5 mm in thickness. Engineers will also look for transitions between thin and thick walls, making sure the transition is gradual.

Does the design need draft angles?

Straight sides or walls cause the part to stick to the mold, making the parts difficult to remove from the tool. Draft angles are slight tapers of the walls or sides of the mold which assist in the part ejecting properly from the mold. The greater the draft angle, the easier it is to get the part out.

10 OUTCOMES OF AN EFFECTIVE DFM

The book Computer-Aided Manufacturing offers 10 generally accepted Design for Manufacturing principles that were developed to help designers decrease the cost of and complexity of manufacturing a product. The results of a successful DFM are quantifiable in a host of ways.

Minimize the number of product parts. Limiting the number of parts in your product is an easy way to lower the cost of a product. Why? Because it automatically reduces the amount of material and assembly labor required. Reducing the number of parts also means less engineering, production, labor and shipping costs.
Use standardized parts wherever possible. Customization is not only expensive, it&#;s time consuming. Standardized parts are already made to meet the same quality metrics, every time. They are already tooled. So you save costs and you won&#;t have to wonder whether they&#;ll pass inspection.
Create a modular design. Using modules can simplify any future product redesign, and also allows for use of standard components and the re-use of modules in other projects.
Design multi-functional parts. This seems rather obvious, but it&#;s a simple way to reduce the total number of parts: design parts with more than one function.
Design multi-use products. Building on the point above, different products can share parts that have been designed for multi-use. Can your product use standardized parts that can are used in multiple products?
Design for ease of fabrication. Choose the ideal combination between the material and manufacturing process that will minimize production costs. Ridiculously tight tolerances are a no-no. [More about that below.] Avoid expensive and labor extensive final operations as painting, polishing and finish machining.
Design your product to join without using screws, fasteners or adhesives. Is it possible for your product to interlock or clip together? Screws add only about 5% to the material cost, but 75% to the assembly labor. Remember: if fasteners are required, try to keep the size, number and type to a minimum and use standard fasteners whenever possible.
Design your part to minimize handling, especially during production and assembly. Handling includes positioning, orienting and fastening the part into place. For orientation purposes, use symmetrical parts wherever possible.
Minimize assembly direction. If possible, your parts should assemble from one direction. Ideally, parts should be added from above, parallel to the gravitational direction (AKA downward.) This way assembly is facilitated by gravity rather than fought by it.
Design your part to maximize compliance. Rely on built-in design features like tapers or chamfers, or moderate radius sizes to guide insertion of equipment and to protect the part from damage.

It&#;s been said that about 70 percent of manufacturing costs of a product &#; the cost of materials, processing and assembly &#; are determined by design decisions. If that&#;s the case, then you want to make sure you are adhering to the best design practices possible.

THE DANGER OF TIGHT TOLERANCES IN DFM

Any engineer worth their salt is going to also take a very close look at the tolerances specified in the part&#;s drawings. Tolerance is the total amount a specific dimension is allowed to vary, and manufacturers often receive drawings from customers with unreasonably tight tolerances that can wreak havoc on an RFQ.

Lower cost for tooling
Ease of manufacturing
Fewer defects
Greater yields

Why you should ease up on tolerances:

The chart below shows the drop in yield and the rise in cost as the tolerance increases.

The bell curve shows measurements on a particular dimension, including the Upper Spec Limit (USL) and Lower Spec Limit (LSL), which is based on the tolerances. The tighter the tolerance, the narrower the bell curve has to be for the dimensions to be in spec.

All manufacturing processes have limits on what is reasonable to manufacture &#; that's the gap between USL and LSL. Consult with your contract manufacturer or the trade organization for the process, if you are unsure. There is a lot of data on most common processes to give you guidance on what is reasonable to specify.

Tolerances should be driven by three things:

the manufacturing process;
the material used;
the sensitivity of the features to variations.

Managing tolerances is an essential part of a good DFM, and there should always be a justification for the numbers on the drawing.

HOW LONG WILL THE DFM TAKE?

You might be wondering what kind time you'll have to invest in the DFM? That really depends on the quality of the design that you start with.

One of our engineers likened it to proofreading an essay. For example, if you understand the writer's intent, it's much easier to make the corrections in the text. But if you're reading the essay without a clear understanding of intent, you might go back and forth with corrections before you come up with a finished copy.

The DFM is similar. Perhaps the design is clean, answering all questions for all parties. You'll be ready to go in a day or two. But depending on the number of questions, their difficulty, and the speed and thoroughness of the answers, you might be waiting a week or more. Take a deep breath. Your contract manufacturer will be able to give you a better idea of how long they think it will take. Remember speed isn't the goal: a quality product is.

A good DFM hopefully concludes by reducing the complexity of the design and satisfying the customer's requirements for price, specification, material and scheduling.

In other words, the design is deemed manufacturable and ready for the next step on the road to production.

But that's another blog post for another day

Are you ready to learn more about what to look for in a DFM partner? Click on the download below:

Contact us to discuss your requirements of Industrial LCD Display. Our experienced sales team can help you identify the options that best suit your needs.

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