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How to Clean Anti-Glare-Coated Glasses Use warm, never hot, water and mild soap to clean your anti-glare-coated glasses. As is true for any eyeglass lenses, your primary objective when cleaning anti-glare lenses is to avoid scratching them. Using the same steps as you would clean regular eyeglass lenses: Wet your lenses with clean water or an approved eyeglasses cleaning solution. Using a clean microfiber cloth, gently wipe each side of the lens in a circular motion to remove residue. Repeat steps 1 and 2 until the lenses are clean. Available Anti-Reflective Treatments and Lens Options An anti-reflective coating is available for all types of eyeglass lenses, including reading glasses. To include the premium AR treatment, choose either the Standard or Premium option when adding lenses to your frames. You can select these treatment options for single vision, progressive, bifocal, reader, or plano (non-prescription) lenses. Standard Lens Option The Standard lens option includes DuraClear™, a premium anti-reflective treatment that lets in 99% of available light and improves clarity and contrast. Lenses coated with Duraclear help prevent eye strain and are easy to clean, thanks to the superhydrophobic coating. Premium Lens Option The Premium lens option includes Blue-Violet Light Filtering with BlueReflect™ to filter blue-violet light, as well as premium anti-reflective treatment and UV protection. BlueReflect provides clearer vision while you use digital devices. Buying your glasses online can be less expensive than visiting your local optician, and we make the process simple. Are Anti-Reflective Lenses Worth It? For most glasses wearers the benefits of lenses with an anti-reflective coating far outweigh the disadvantages. The long lifespan and everyday vision improvements AR-coated lenses offer are well worth the minor addition to the overall price tag of a new pair of glasses. Learn about the other lens options available at FramesDirect.com, or call one of our certified opticians at 1-800-248-9427 (Int'l: +1 513-765-2513) to find out more about anti-reflective coating or to add it to your lenses. Reviewed by Sonia Kelley, OD, MS on June 27, 2023 Shop All Eyeglasses

Noise refers to the random variations in colour and brightness that can appear in an image. High levels of noise can reduce image quality and make an image appear grainy. Several factors contribute to noise in camera sensors, including the sensor size, pixel count, and ISO settings. Larger sensors and lower pixel counts can result in lower noise levels, while higher ISO settings can increase noise levels. ISO settings control the sensitivity of the camera sensor to light and higher ISO settings amplify the signal more, which increases the noise levels. It's important to choose an ISO setting that balances image quality with noise levels, depending on the lighting conditions.

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Use warm, never hot, water and mild soap to clean your anti-glare-coated glasses. As is true for any eyeglass lenses, your primary objective when cleaning anti-glare lenses is to avoid scratching them.

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Premium anti-reflective treatments also include a superhydrophobic coating that repels dust and resists water, oil, and fingerprints so your lenses are easier to clean. FramesDirect.com offers premium anti-reflective treatment as part of both the Standard and Premium lens options.

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The primary purpose of an anti-reflective (AR) treatment for prescription eyewear lenses is to allow more light to pass through the lens and therefore reduce glare. The coating reduces reflections on the lens to reduce distractions and allow you to see more of what’s ahead of you. It also increases your eye comfort while you use digital screens, read, or drive and helps prevent eye fatigue. We strongly recommend an anti-reflective treatment for all lenses.

On average, anti-reflective lens coatings last about two years, but with proper care an AR coating should last the life of the lens. How to Clean Anti-Glare-Coated Glasses Use warm, never hot, water and mild soap to clean your anti-glare-coated glasses. As is true for any eyeglass lenses, your primary objective when cleaning anti-glare lenses is to avoid scratching them. Using the same steps as you would clean regular eyeglass lenses: Wet your lenses with clean water or an approved eyeglasses cleaning solution. Using a clean microfiber cloth, gently wipe each side of the lens in a circular motion to remove residue. Repeat steps 1 and 2 until the lenses are clean. Available Anti-Reflective Treatments and Lens Options An anti-reflective coating is available for all types of eyeglass lenses, including reading glasses. To include the premium AR treatment, choose either the Standard or Premium option when adding lenses to your frames. You can select these treatment options for single vision, progressive, bifocal, reader, or plano (non-prescription) lenses. Standard Lens Option The Standard lens option includes DuraClear™, a premium anti-reflective treatment that lets in 99% of available light and improves clarity and contrast. Lenses coated with Duraclear help prevent eye strain and are easy to clean, thanks to the superhydrophobic coating. Premium Lens Option The Premium lens option includes Blue-Violet Light Filtering with BlueReflect™ to filter blue-violet light, as well as premium anti-reflective treatment and UV protection. BlueReflect provides clearer vision while you use digital devices. Buying your glasses online can be less expensive than visiting your local optician, and we make the process simple. Are Anti-Reflective Lenses Worth It? For most glasses wearers the benefits of lenses with an anti-reflective coating far outweigh the disadvantages. The long lifespan and everyday vision improvements AR-coated lenses offer are well worth the minor addition to the overall price tag of a new pair of glasses. Learn about the other lens options available at FramesDirect.com, or call one of our certified opticians at 1-800-248-9427 (Int'l: +1 513-765-2513) to find out more about anti-reflective coating or to add it to your lenses. Reviewed by Sonia Kelley, OD, MS on June 27, 2023 Shop All Eyeglasses

Polarization, which is an anti-glare coating that is used on sunglasses only. Many top sunglasses makers, including Maui Jim, will infuse their lenses with polarization and anti-reflective technologies in order to provide the brightest, clearest vision.

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The minor disadvantage to an anti-reflective coating is that it can become marred or scratched over time. Clean your lenses properly and often in order to avoid scratching caused by normal wear and tear, and always store glasses in a case. Besides the minor cost increase the coating adds and a minimal chance for scratching, an AR coating offers no real disadvantages.

The size of a camera sensor has a significant impact on image quality. Larger sensors can capture more light, which results in better image quality. With more light, the camera sensor can produce a higher signal-to-noise ratio. This means that the image will have a higher contrast, better colour accuracy, and reduced noise levels. Furthermore, larger sensors tend to have larger pixels which can further improve image quality by capturing more light and producing a clearer image.

With that all read and/or heard, in conclusion, camera sensor technology plays a crucial role in determining image quality and noise levels. The size of the sensor, the number of pixels, dynamic range, and ISO settings are all important factors to consider when looking into purchasing a camera. It’s important to understand these factors and how they impact image quality to make informed decisions when purchasing a camera. By considering these factors as well as your photographic needs, you can ensure that you purchase a camera that will produce the types of images suitable for your photography needs.

The number of pixels in a camera sensor is another factor that affects image quality. More pixels mean that the image will have greater detail and resolution, but it also means that the individual pixels will be smaller, which can result in increased noise levels. With smaller pixels, the camera sensor has to amplify the signal more, which increases the noise levels. This is why it's important to balance the number of pixels with the size of the sensor to ensure that the image quality remains high.

Understanding camera sensor technology is very important as this is the backbone of any digital photography system. This small piece of technology plays a crucial role in determining image quality. A camera sensor is a light-sensitive device that captures the light that enters the camera and converts it into an electronic signal. The resulting signal is then processed by the camera’s image processor to create a digital image. It's important to understand that the quality of the image captured by a camera depends not only on the lens but also on the camera sensor. In order for you to make the right purchase choice and/or to learn more about your camera, let’s take a closer look at camera sensor technology and how it affects image quality and noise. Sensor Size The size of a camera sensor has a significant impact on image quality. Larger sensors can capture more light, which results in better image quality. With more light, the camera sensor can produce a higher signal-to-noise ratio. This means that the image will have a higher contrast, better colour accuracy, and reduced noise levels. Furthermore, larger sensors tend to have larger pixels which can further improve image quality by capturing more light and producing a clearer image. Pixel Count The number of pixels in a camera sensor is another factor that affects image quality. More pixels mean that the image will have greater detail and resolution, but it also means that the individual pixels will be smaller, which can result in increased noise levels. With smaller pixels, the camera sensor has to amplify the signal more, which increases the noise levels. This is why it's important to balance the number of pixels with the size of the sensor to ensure that the image quality remains high. Dynamic Range Dynamic range refers to the range of light levels that a camera can capture and is an important factor in determining image quality. A camera with a high dynamic range will be able to capture both bright and dark areas in a scene without losing detail, while a camera with a low dynamic range may result in an overexposed or underexposed image. Larger sensors typically have a wider dynamic range compared to smaller sensors, as they can capture more light, which results in greater detail in both the bright and dark areas of the image. Noise Noise refers to the random variations in colour and brightness that can appear in an image. High levels of noise can reduce image quality and make an image appear grainy. Several factors contribute to noise in camera sensors, including the sensor size, pixel count, and ISO settings. Larger sensors and lower pixel counts can result in lower noise levels, while higher ISO settings can increase noise levels. ISO settings control the sensitivity of the camera sensor to light and higher ISO settings amplify the signal more, which increases the noise levels. It's important to choose an ISO setting that balances image quality with noise levels, depending on the lighting conditions. Good Quality Image Low Quality (Noisy) Image What Did They Wild Eye Guides Use First? Pros To Full Frame: Larger sensor size results in better image quality, with higher signal-to-noise ratios and wider dynamic range. Larger sensor size can capture more light, resulting in better image quality with better color accuracy, higher contrast, and reduced noise levels. Larger sensors typically have larger pixels, which can further improve image quality by capturing more light and producing a clearer image. Full-frame sensors are more versatile and can be used in a wider range of photography applications. Pros To Crop Sensor: Smaller sensors tend to be more compact and portable than full-frame sensors, making them easier to carry around. Smaller sensor cameras are typically less expensive than full-frame cameras. Smaller sensors can still produce high-quality images, especially for photographers who do not need the extra image quality and versatility that larger sensors provide. Cons To Full Frame: Full-frame cameras tend to be larger and heavier than smaller sensor cameras, making them less portable. Full-frame cameras can be more expensive than smaller sensor cameras. Full-frame sensors may not be necessary for photographers who do not need the extra image quality and versatility that larger sensors provide.     Cons To Crop Sensors: Smaller sensor size can result in lower image quality, with lower signal-to-noise ratios and narrower dynamic range. Smaller sensors tend to have smaller pixels, which can result in increased noise levels and lower image quality. Smaller sensors may not be suitable for low-light photography, as they do not capture as much light as larger sensors. There is more to Full Frame vs Crop Sensors and so feel free to read this blog I wrote as well as more about my personal gear journey here.  With that all read and/or heard, in conclusion, camera sensor technology plays a crucial role in determining image quality and noise levels. The size of the sensor, the number of pixels, dynamic range, and ISO settings are all important factors to consider when looking into purchasing a camera. It’s important to understand these factors and how they impact image quality to make informed decisions when purchasing a camera. By considering these factors as well as your photographic needs, you can ensure that you purchase a camera that will produce the types of images suitable for your photography needs. Feel free to reach out may you have any questions. Until then, happy snapping! Michael Laubscher

There is more to Full Frame vs Crop Sensors and so feel free to read this blog I wrote as well as more about my personal gear journey here.

In order for you to make the right purchase choice and/or to learn more about your camera, let’s take a closer look at camera sensor technology and how it affects image quality and noise.

Using the same steps as you would clean regular eyeglass lenses: Wet your lenses with clean water or an approved eyeglasses cleaning solution. Using a clean microfiber cloth, gently wipe each side of the lens in a circular motion to remove residue. Repeat steps 1 and 2 until the lenses are clean.

An anti-reflective coating is available for all types of eyeglass lenses, including reading glasses. To include the premium AR treatment, choose either the Standard or Premium option when adding lenses to your frames. You can select these treatment options for single vision, progressive, bifocal, reader, or plano (non-prescription) lenses.

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Identifying year and month of travel will help us narrow down the options available and find the best fit for you - feel free to choose multiple months if you have some degree of flexibility.

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For most glasses wearers the benefits of lenses with an anti-reflective coating far outweigh the disadvantages. The long lifespan and everyday vision improvements AR-coated lenses offer are well worth the minor addition to the overall price tag of a new pair of glasses.

Anti-reflective coatings help to reduce eye strain and fatigue and increase comfort while using screens and driving. This is extremely important if you spend any significant time driving at night, whether commuting, working, or going out to dinner. With fewer reflections, more light can reach your eyes, improving visual acuity and reducing many risks associated with nighttime driving.

Dynamic range refers to the range of light levels that a camera can capture and is an important factor in determining image quality. A camera with a high dynamic range will be able to capture both bright and dark areas in a scene without losing detail, while a camera with a low dynamic range may result in an overexposed or underexposed image. Larger sensors typically have a wider dynamic range compared to smaller sensors, as they can capture more light, which results in greater detail in both the bright and dark areas of the image.

Anti-glare coatings shield your eyes from external light sources, while anti-reflective coatings react to both external and internal light. Lenses with an anti-reflective coating also work better to filter blue-violet light from sunlight and indoor light. Whether you choose anti-glare or anti-reflective lenses, you’ll appreciate the benefits of reduced glare and reflections in your vision.

The Standard lens option includes DuraClear™, a premium anti-reflective treatment that lets in 99% of available light and improves clarity and contrast. Lenses coated with Duraclear help prevent eye strain and are easy to clean, thanks to the superhydrophobic coating.

Learn about the other lens options available at FramesDirect.com, or call one of our certified opticians at 1-800-248-9427 (Int'l: +1 513-765-2513) to find out more about anti-reflective coating or to add it to your lenses.

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The Premium lens option includes Blue-Violet Light Filtering with BlueReflect™ to filter blue-violet light, as well as premium anti-reflective treatment and UV protection. BlueReflect provides clearer vision while you use digital devices. Buying your glasses online can be less expensive than visiting your local optician, and we make the process simple.

Understanding camera sensor technology is very important as this is the backbone of any digital photography system. This small piece of technology plays a crucial role in determining image quality. A camera sensor is a light-sensitive device that captures the light that enters the camera and converts it into an electronic signal. The resulting signal is then processed by the camera’s image processor to create a digital image. It's important to understand that the quality of the image captured by a camera depends not only on the lens but also on the camera sensor.