Focus stacking is a great technique for landscape photography because it provides perfect sharpness throughout the scene you’re shooting. In fact, the results are so clear that the resulting images can look surreal. So, here’s how to focus pictures, just read on.


Focus stacking

How to teach focus stacking

A large depth of field is a necessary element in most landscape images, but it is not always possible to achieve a certain sharpness across a scene with an image. Despite shooting at a narrow aperture such as f/11 or f/16, if there are scene elements close to the camera and more interest behind the scene near the horizon, it is often impossible to see everything clearly. The background may be “acceptably sharp”, but not as sharp as the focus point and surrounding area.

In the focus stacking tutorial review, you should know that the best way to ensure optimal sharpness was to focus your images and combine them in Affinity Photo. The advantage here is that you can shoot from the “sweet spot” of your lens. This is the aperture that produces the sharpest results, although it is not the largest depth of field, and is usually f/8 or f/11. Then by merging these images together, you both create pin-sharpness throughout the image and get the sharpest results possible with your lens.

How to Improve Depth of Field Using Focus Stacking

Get amazing composite photos using this technique. Learn this skill for amazing photo editing, using focus stacking to improve the depth of field in your photos! Focus stacking is a creative technique in photography that is created by combining different focus points in an image to create deep depth of field (how sharp and focused the photo is).

Photos taken with different focus are merged or superimposed in the edit. A very sharp image is useful when your camera settings can’t quite get the required depth of field. This tutorial includes Lightroom and Photoshop for editing as well as a specific understanding of exposure steps. If you need a refresher, check out the tutorials on these topics:

Free landscape photography workshop; Edit epic landscapes in Lightroom
The ultimate Lightroom tutorial for beginners
Companion editing: Lightroom classic editing tutorial; Free raw files


Focus training

How to improve depth of field by teaching focus stacking

How to Improve Depth of Field Step 1: Take the right shots in the field

In the focus stacking tutorial review, you should know that you are out on location and preparing to take a photo, and the most important thing is to frame the photo well. Adjust your composition to what looks most appealing. To do proper focus placement, you need to take these specific shots. You’ll combine these later in the editing section: focus the camera on the background distance and then take at least three shots with different exposure settings.

Focus the camera on the foreground, then take three photos at least with different exposure settings. You can do one with focus on the ground and take three shots with different exposure settings but it’s optional. You can use a bracket or an on-camera setup that takes multiple shots at different exposures, but you can also do this manually. The handheld allows you to set your preferred exposure.

How to improve depth of field Step 2: Combine and edit photos in Lightroom

In reviewing the focus stacking tutorial, you should know to open two of the focused photos in the foreground and two focused photos in the distance. Choose the best exposure for each. Start by focusing the photos on the background, select both, and then right-click and choose Photo Merge > HDR from the menu. Merge and edit photos with the same focus point with an HDR

(HDR stands for High Dynamic Range, which occurs when multiple focus and exposure points are combined into one photo). This process merges exposures with the same focus point into a new image that you can now edit. Edit the photo as you like using the editing panel with the slider on the right.


Focused photos

Focus on hdr background blending for editing

In the focus stacking tutorial review, you should know that after finishing editing, tap “control shift C” on your keyboard to bring up the copy settings. In the pop-up window, make sure everything is checked and click copy. Then, do the same HDR merge for the two differently exposed shots focused on the foreground. Right-click on the newly merged image to paste the copied edits you made onto this new image.

Better depth of field Step 3: Assemble everything in Photoshop

Next, select both merged HDR images. Right-click, select Edit in from the menu, open a page in Photoshop as a layer. Select Edit, Autoblend layers. You can make detailed settings in the editing section. You need to make sure that the image is super sharp and has a wide dynamic range. Save and close the image from Photoshop and return to Lightroom where the final image resides. Combine photos in Photoshop to get the final stack and amazing depth of field.

sony alpha a7c is the world’s smallest mirrorless camera and the lightest full-frame body with unparalleled performance. This mirrorless interchangeable lens camera (MILC) is small and packed with features that deliver the superb performance we’ve come to expect from a Sony Alpha model. What do we give up to get small size? It is better to read more about it.


Mirrorless camera

Notable points in the sony alpha a7c smallest mirrorless camera review

In our Sony Alpha a7c smallest mirrorless camera review, let’s take a look at the differences between the a7C and the a7 III, starting with visual comparisons. Starting the Sony alpha a7c review with this question may seem strange until one realizes the vast similarities between the two models. Size and features directly related to size should be considered. These cameras are almost identical, but this sameness includes the imaging sensor and image quality. While the similarities reflect very positively on the a7C, the differences need to be understood.

1- The a7C has a minimalistic eye. The a7C’s autofocus system is significantly improved, the a7C lacks a joystick, the autofocus feature is touch and works well.

2- This camera supports (human) eye tracking and auto focus during video recording.

The a7C does not have a front panel.

The a7C lacks flicker avoidance.

The a7C has an increased buffer size.

The a7C has a working range of up to EV -4 versus EV -3.

The a7C’s maximum shutter speed is 1/4000 versus 1/8000.

The a7C can do X-Sync at 1/160 vs. 1/250 second.

The a7C does not have a mechanical first-curtain shutter.

The a7C has a side-opening LCD screen (required for automatic recording) versus tilting.

The a7C has a movie button on the top, which is easier to access from the front versus the back button.

Battery life: approximately 680 vs. 610 shots

The a7C has upgraded 5-axis shutter and body stabilization units.

The a7C has one custom button versus 4.

The a7C has 3 custom modes versus 2.

The a7C has a silver shutter release button versus a black shutter release with no tactile feedback.

The a7C has wireless support for both the 2.4GHz and 5GHz bands vs. 2.4GHz.

A digital audio interface has been added to the camera’s Multi Interface (MI) shoe, allowing the ECM-B1M Shotgun Microphone or the XLR-K3M XLR Adapter Kit to connect digital audio signals directly to the MI shoe for cleaner, clearer sound. be

Added vertical video support.

Inserting and removing memory cards in the a7C is more challenging.


sony alpha a7c

All about sony alpha a7c smallest mirrorless camera

Sony alpha a7c performance review The smallest mirrorless camera Sony A7C seems to be aimed more at online content creators, the people who make all the videos we watch on YouTube and Instagram for hours a day. This is similar to the way many new cameras are introduced now. According to Sony’s study, the group is looking for the robust performance of a full-frame sensor in a compact form (body). In addition, they want more advanced features to make it easier when filming their latest masterpiece.

It’s possible that the Sony A7C is just what they’re looking for, as it manages to squeeze a powerful full-frame sensor into a much smaller body than most of its competitors.

Sony Alpha 7C full frame mirrorless camera

In fact, when this camera was first introduced, Sony claimed it was the world’s smallest and lightest full-frame camera. However, if you read the fine print, you’ll realize that the Sony A7C is actually the smallest and lightest full-frame camera that accepts interchangeable lenses and has in-body image stabilization. Still, there’s no denying that the A7C is an impressive piece of engineering. This means that as a result it will be interesting to more people than just bloggers. Among those who could be interested are enthusiasts looking for a small camera to use as a second body, or novices looking to upgrade from a smartphone but don’t want the size of a DSLR. At the same time, due to the small size of the Sony A7C, several concessions had to be made to make it work.

Key features of sony alpha a7c smallest mirrorless camera

24 megapixel BSI CMOS full frame sensor

Bionz X processor

Real-time tracking autofocus system with head, face, eye and animal detection

Oversampling of 4K videos up to 30p, including 8-bit S-Log and HLG

Continuous playback up to 10 frames per second

Touch screen with a resolution of 921 thousand dots

Microphone and headphone socket

Dual-band Wi-Fi, 2.4 and 5 GHz

Large “Z” type battery with a rating of 740 shots per charge

Sony a7C new features and comparison with other cameras

In terms of basic specifications, the a7C shares significant similarities with the current generation a7 III. The most important distinction is the scale of its organization. Sony has updated its in-body stabilization technology to allow it to fit into a much smaller package than before. What’s immediately noticeable about the Sony a7C is how similar the camera body is to the Sony a6600, which is either a good thing or a bad thing, depending on your point of view. According to Sony, this camera is the smallest full-frame interchangeable lens camera in the world

(red, green and blue). The amount of light passing through each pixel varies depending on the image data received from the computer. Light from a lamp is directed through LCD panels, focused using a lens, and projected onto a screen. The overall structure of the device is similar to a slide projector, where the “slide” consists of three LCD panels that are placed close together near the focal point of the projection lens. The advantages of LCD technology include efficiency, ease of brightness and contrast adjustment, and high image resolution.

A newer and more expensive scheme is known as digital light processing (DLP), a proprietary technology developed by Texas Instruments. In DLP display, small mirrors are used instead of transparent panels. Each mirror represents one pixel. Light is reflected off the panel instead of passing through it. The mirrors move back and forth and the amount of light that reaches the display lens from each pixel is different. Color is obtained by passing the lamp light through a rotary wheel with red, green and blue filters. This exposes the mirrors to each of the primary colors in a rapid rotating sequence. The result is a color modulated image that the human eye perceives as natural color. Advantages of DLP technology include light weight, high contrast, and lack of pixels.

2) The term digital video projector is sometimes used for a program that facilitates the viewing of three-dimensional, interactive, full-motion audio and video files on a personal computer. Versions are available for both IBM-compatible and Macintosh computers and can be downloaded from the Internet. They can be used as plugins for popular browsers to view animated web page content. For optimal performance on the Internet, due to the high speed and interactive nature of the content, and because the files sent are often large, a broadband connection must be used.


Projector type

Everything related to video projectors

If you’ve been to the movies, you’ve probably watched a movie using a video projector. Or maybe you use it at home to watch movies and play video games. Have you ever wondered how your projector works? Also, did you know that there are different types of projectors with different pixels and resolutions? If you know how the projector works and what specifications to look for, it will be easier to choose the right projector for your needs.

Outdoor projector screen

You know how you can cut a small hole and put a flashlight inside it to reflect the light on the wall that looks like the hole? A projector works similarly, but instead of the light passing through an open hole, it passes through a lens and an inverted image is magnified on the wall. The real difference is the type of projector technology used to create the image, and there are many different types of projectors.

Types of projectors

1-Projector in the dark

2-Cathode ray tube projector

Cathode ray tube projectors, also known as gun projectors, are the oldest type of screen projector. They use the same technology you find in CRT TVs. In a nutshell, CRT projectors produce images using a light-magnifying lens and three high-brightness cathode ray tubes arranged like horizontal traffic lights—but in red, green, and blue. The lights then converge on a phosphor-coated surface to create an image.

final word

In general, to gain more experience and knowledge in selfie photography, try to become a professional in this field by purchasing Ms. Bahare Salehnia’s packages such as camera photography master class package and mobile phone photography master class package.

Control highlights and see all the details, even in the darkest shadows, at the same time. The results of using this technique looked more natural. Now, HDR photography no longer refers to a specific post-processing workflow, but simply a technique that allows photographers to capture perfect exposure in every part of the frame. HDR literally stands for High Dynamic Range. When used in a photography-related context, it refers to the technique of capturing the full dynamic range of the scene you want to photograph. This technique involves taking multiple exposures with different settings and then merging them together in post-production.

Overall, your goal should be to capture a series of different exposures so that you have all the details of the scene, from the whitest highlights to the darkest shadows. A good tip is to start with the lightest and go to the darkest (or vice versa) so that you can easily distinguish them. Some photographers even take a dark frame or a hand shot in it to know where the HDR sequence starts.

The best settings for HDR photography

The logical question you might be asking now is: What settings should I change? Well, you should know that there is no general rule because every situation is different. My personal advice is to play with a parameter that doesn’t change in the scene you want to shoot. For example, let’s say you’re shooting a landscape with some flowing water in it: if your goal is to shoot that stream at a shutter speed of 1, you’ll need to adjust the ISO and/or aperture to give a lighter to get Darker exposure

Another example is if you’re shooting a scene that requires a lot of depth of field and you want to use an aperture of f/13, you’ll probably want to change the shutter speed to get the full dynamic range of the frame. and/or ISO instead of aperture. Why? Because it will be easier for you (or for the software, if you do it automatically) to merge all the exposures together later in post-production. The less difference there is between one shot and the next, the more complex the production of the final HDR image will be.

final word

In general, in order to learn more about the best settings for HDR photography, it is necessary to use the camera photography master class package and the mobile phone photography master class package of Mrs. Bahare Salehnia. Just go to their website and use their excellent services. Try to achieve excellent progress in this profession by consulting with them and using their excellent packages.

HDR photography training HDR photography has become more popular among different groups of people. Everywhere we look, we see photographers publishing the results of their experiments with HDR photos. This encourages us to create some HDR photos of our own. But how do we create really interesting high dynamic range photography?

HDR photography

Remarkable points in the review of HDR photography training

HDR photography is surprisingly easy. It simply involves taking multiple photos at different exposures using the appropriate camera settings. Choosing your shutter speed is important when shooting HDR because you need to capture many images at different exposure settings. When making HDR photos, you can use the automatic exposure bracket for this task in the best way. After taking several photos, you need to do some HDR processing to produce the final HDR image. This can be done with dedicated HDR software.

The HDR photography technique involves taking at least three photos of a high-contrast scene to create an HDR image. Creating HDR images in this way requires using a good tripod to create bracketed exposures. Creating HDR images at different exposures while holding your camera does not provide adequate results for HDR photography. Each photo for an HDR image must have exactly the same composition, otherwise you will see a ghosting effect after the HDR processing is complete. But first, before we get into how to shoot HDR, let’s take a look at what HDR photography is and what HDR photos actually are.

How to shoot HDR

What is HDR photography?

HDR stands for High Dynamic Range. HDR photography is a combination of two or more images of the same scene taken at different exposures. They are then combined to create a fully exposed HDR image. HDR photography is primarily dependent on post-processing tools. This is because HDR photography is very difficult to fully display everything in one image. Just like anything else in photography, there is more than one way to create HDR images. You can simply shoot RAW images and then adjust them to create HDR images. This can be an alternative to creating multiple images of a scene and then combining everything together. That’s what multiple HDR photography is all about.

So when you set up your camera to create HDR photos, you need to focus on the final HDR image. You can do this by setting your camera manually or by using HDR mode if your camera has it. Then, once you have your set of images for your HDR photo, you need to combine them using software or an app like Aurora HDR.

Why is HDR photography so popular?

The main reason why HDR photography is so popular is that a digital camera cannot capture the wide dynamic range of tones in a single frame that the human eye can see. Dynamic range is about how well the camera can capture the darkest and brightest areas in a composition. Currently, even the most advanced digital cameras do not capture full dynamic range in high-contrast scenes. HDR processing is possible by creating multiple exposures, with manual or automatic exposure bracketing. Since images taken with different exposure values are combined into one final image, the tone mapping features in the software allow for a fuller dynamic range to be visible in the final image.

Landscape photography using the HDR photography technique has become very popular. High dynamic range images have become very popular among almost all landscape photographers because the use of HDR mode allows them to capture bright skies and dark shadows in a single HDR photo, preserving detail at both ends of the dynamic range. . This may not be possible in a single image taken with a digital camera.

HDR photography technique

Tools needed for hdr images

Basic tools you need to create an HDR image:




Photo editing programs such as Adobe Photoshop or Lightroom

A dedicated HDR program such as Photomatrix Pro

Shooting an image and then creating different components from it allows you to deal with many issues such as image blur and compositional differences. In this tutorial we are going to learn how to create an HDR image with only one RAW frame.

Making the image is very easy. Just follow the normal approach and capture the frame(s) you want to convert to RAW. Be careful to shoot them all in RAW format as this is a lossless compression that allows you to change everything.

Everything related to HDR photography

Even if you’re just a beginner photographer, chances are you’ve come across or heard the words “HDR photography” at least a few times in your life. This particular photography technique became very popular in the last decade, especially when digital cameras with extremely wide dynamic range did not yet exist. When the HDR technique first came out, it was considered by many to be a shock factor for photos (you’ll find out why later in this article), because it meant that the photo was post-processed with a very strangely done.. that’s why it immediately got a negative meaning in the world of photography.

However, in the following years, photographers began to use the HDR technique for its true purpose – capturing the entire dynamic range of an image in order to

What is scientific photography or micrography? For educational or research purposes, a scientific photographer takes pictures of natural and experimental phenomena. Accurate recording of scientific data is the focus of this field of photography. Composition, lighting and other issues are important, but the framing and final presentation of the image can take into account non-artistic requirements. Since many scientific phenomena are visually fascinating, some scientific photographers blur the lines between art and science and create works that are both aesthetically pleasing and scientifically useful. Here, in order to learn more about scientific photography or micrography, it is necessary to check the rest of the article.


Scientific photography

Everything related to scientific photography or micrography

In reviewing scientific photography or micrography, you should know that some scientific photographers have documented experiments. The photography conditions in the laboratory as well as during each stage of the event are part of this documentation. Depending on the nature of the experiment, a scientific photographer may be asked to use techniques such as micrography, which involves taking pictures through a microscope. Photographers use testers in their publications to show how their work is done and show their results.

Others may take pictures for proper illustration. For the most accurate reference images, these images require the use of ideal samples. Science photographers may be commissioned by news organizations to photograph phenomena of interest for a story, where the images must be informative and engaging to the general public.

In considering scientific photography or micrography, you should know that imaging for scientific research and further understanding is another option for a scientific photographer. For example, Rosalind Franklin used X-ray crystallography to highlight important aspects of DNA structure. His research made a significant contribution to the field of human genetics. As he demonstrated, scientific photographers can use invisible energy, such as infrared, ultraviolet, and other forms of radiation, to create detailed images that provide valuable information about the natural world.

After capturing the images, the scientific photographer carefully develops and processes them. Photographers don’t want to change or blur the results of their images, so they need to be careful with things like color pass filtering to avoid data being removed or confused. They also worry about things like focus, composition and style, which can mean the difference between a clear, understandable image and a dull, uninformed one. Working as a science photographer requires knowledge of science as well as photography. To get clear and usable images, the photographer may need to manipulate certain aspects of the environment without disturbing the science. Simple steps can include placing a sample on a colored background to increase contrast and highlight the resulting image. Photographers can record different phenomena with a variety of cameras, lenses and filters.


Scientific photographer

Important points in the review of scientific photography or micrography

In examining scientific photography or micrography, you should know that images are essential in making scientific research more accessible and memorable. Articles, posters, and presentations can all benefit from detailed, visually appealing charts. While diagrams and micrographs are important figures, they are not always sufficient to show pathways and mechanisms or to captivate the audience. No one wants to spend hours drawing cells and molecules by hand or poring over stock images they’re only going to use once, so compile a list of your favorite places to find free science images so you can easily Use them.

When reviewing scientific photography or micrography, you should know that it is an excellent source for anatomy, biology, and medical images. You can download specific items or a whole collection of images. Everything is included in PowerPoint presentations, so you can easily edit and combine the elements of your choice. This material is covered by a Creative Commons 3.0 license, which means you can share and edit the material as long as you provide proper attribution.

A colored digital scanning electron microscopic (SEM) image shows a number of yellow bacteria, Yersinia pestis, collected on the preventral spines of a Xenopsylla cheopis flea. The bacterium Y. pestis is the cause of bubonic plague. M

The Public Health Image Library (PHIL) is a database of images from the Centers for Disease Control and Prevention (CDC) in Atlanta, USA. The database includes photos, images and videos, many of which are available in high resolution. Images are often in the public domain and are free to use.

Good old Wikipedia is listed! It contains over 45 million files that are categorized and searchable. Images can be in the public domain or covered by Creative Commons licenses. In the license section of the image page, find out which license applies.

This science photo library has over 4,000 free images from the Commonwealth Scientific and Industrial Research Organization (CSIRO) in Australia. Categories include astronomy, microscopy and nature photography. Most images are photos and micrographs that are free to download and use as long as you credit the original author.

Educational or research purposes

Pixabay is a good source of free science stock images (with the option to pay for higher resolution photos). In reviewing scientific photography or micrography, you should know that there are a number of high-quality diagrams of cells and DNA, as well as images of scientists at work. They are free to download and use.

Adobe Stock is full of quality images. Big companies often use these images in their marketing campaigns, and for good reason! There are many 3D images that are accurate, artistic and scientifically valid. For this reason, Adobe Stock’s basic membership is $30 per month. However, you can sign up for a one-month trial and download up to 10 images for free. You’ll need to enter your credit card information, but if you cancel in the first month, you won’t be charged.

Scientific stock images

Important things in scientific photography or micrography

In examining scientific photography or micrography, you should know that scientific photography dates back to the 1930s in John Innes and Herbert Osterstock, whose story deserves a blog of its own. The notion of scientific photography is that we live in a dark studio, taking profile shots of staff or photographing plant research specimens spread out against a plain background. Our day-to-day work includes UV fluorescence photography, large plants, Arabidopsis trays, small plant specimens, growing plant time-lapses, copy and archival work, VIP visits and PR photography. All this requires nuances in photography technique and special knowledge to achieve the best image. For example, Andy has placed many of his photos on the front cover of various prestigious magazines

Shooting and editing film, graphic design work and photographing subjects for front covers are all part of the tasks of scientific photography or micrography. We’re sure many people don’t realize how versatile we are. We do a lot of photos of people’s results, or compare different colors or levels of inflorescences on plants, or a bunch of microbiology pages, but it can be anything that helps people in their research. If you have an idea that may involve photography, videography or anything creative, we’d love for you to come and use our facilities, equipment and experience to make it happen.

final word

In examining scientific photography or micrography, you should know that this process should not be confused with photomicrography, which involves taking pictures on very small film to produce small images that can only be seen under magnification. While photomicrography simply involves taking pictures using a microscope, microphotography is the process by which an image is reduced in size so that it can only be seen using a microscope. Since this technique allows for a significant reduction in the size of photographs, it has proven to be useful for many libraries that use it for documentation today.

In microphotography, the photographer uses a special negative called microfilm to preserve the images. Here, the subject to be photographed (documents, etc.) may be photographed in one of two ways. A linear array or a two-dimensional array. In general, to learn more about photography-related training, you can use the camera photography master class package and mobile phone photography master class package of Mrs. Bahare Salehnia.

There is a wide range of gimbal stabilizers for mobile phones. A gimbal is a handheld mechanical stabilizer that uses two or three orthogonal axes of rotation to hold the camera steady. It consists of two parts, a handle at the bottom, which usually contains operational buttons, and a gimbal is placed on top of the handle. Here, in order to learn more about the best-selling mobile gimbals, it is necessary to check the rest of the article.


Best selling gimbal

Effective tips regarding the best-selling mobile gimbals

In reviewing the best-selling mobile gimbals, you should know that smartphones have built-in electronic image stabilization systems, but gimbals offer more stabilization and good features. Some mobile gimbals have shooting modes, time-lapse, dolly zooms, and object tracking features that automatically track and capture a moving subject in the frame. Gimbals help in smooth and professional filming without any shaky footage. It is better to follow these things:

Eliminate camera shake

Provides smooth video

Shoot for longer

Have different shooting modes

It requires less effort

Easy setup

Easy balance


Mobile gimbals

Choosing the right phone gimbal

In reviewing the best-selling mobile gimbals, you should know that if you like to make movies, blog, make short travel videos with your smartphone, a gimbal can be a good choice to achieve more professional videos. There are a wide variety of gimbal brands available for phones. When choosing a phone gimbal in the market, you should consider several points:

Axis stabilization

Title angle

Panning angle

rolling angle

Long battery life

Ergonomic design


Easy to set up the device

Compatibility with all phones

Portable gimbal


Review of the best selling gimbals

The best gimbal for mobile phones

There are two types of gimbals, but 3-axis camera stabilizers are the most popular phone gimbals in use because they offer stable videos. Here is a list of the best gimbal for your phone to capture smooth motion videos:

1. DJI – OM 4 Gimbal

Dji om4 phone gimbal has:

3 axis gimbal

Tracking objects

Free tripod

Compatible with most phones

2. Zhiyun – Smooth 4 gimbal has:

3- Axial gimbal

Tracking objects

Free tripod

Compatible with most phones

3. Hohm – iSteady X has

Hohm landline gimbal

3- Axial gimbal

Tracking objects

Compatible with most phones

Portable gimbal

4. DJI – Pocket 2 has:

gimbal gimbal dji pocket 2

Integrated camera stabilizer

3- Axial gimbal

Tracking objects


Very portable

5. DJI – OM 3 Gimbal has:

3- Axial gimbal

Free tripod

Compatible with most phones

Portable gimbal

6. Hohm – iSteady Mobile Plus has:

3- Axial gimbal

Tracking objects

Free tripod

Compatible with most phones

Portable gimbal

7. Moza India – Mini Phone Gimbal has:

3- Axial gimbal

Free tripod

Compatible with most phones


8. Zhiyun – Smooth Gimbal Q2 has:

Xiaomi smartphone gimbal

3- Axial gimbal

Compatible with most phones


9. FeiyuTech – Vimble 2S has:

3- Axial gimbal

Tracking objects

Telescopic handle

Compatible with most phones

Portable gimbal

10. Benro – smartphone gimbal has:

Benro mobile gimbal stabilizer

3- Axial gimbal

Compatible with most phones


11. Joby Smart Camera Stabilizer has:

joby camera stabilizer

3- Axial gimbal

Tracking objects

Telescopic handle

Compatible with most phones

Portable gimbal

12. Sirui India – M1 Phone Gimbal has:

3- Axial gimbal

Free tripod

Compatible with most phones



The best gimbal for phones

How to use a smartphone gimbal

In the review of the best-selling mobile gimbals, you should know that the mobile gimbal is one of the best stabilization tools on the market for smooth video recording. Smartphones have built-in EIS, but a gimbal offers better stabilization, keeping your phone steady and axis control for proper movement. Here are some quick and easy gimbal setup tips:

First, assemble the gimbal and lock its axis

Place your smartphone on the installation screen

After that, put the screen and camera inside the gimbal

Test the balance of the camera

If necessary, install the program

Now you can use the gimbal

Many of Samsung’s best phones are equipped with incredible video-centric features like 8K video, even manual controls, and super-smooth OIS. But no matter how good the built-in stabilizer is, it’s hard to beat a real gimbal for smooth, even video that counteracts any shaky hand movements. The DJI OM4 (opens in new tab) is affordable, compact, and easy to use, but it’s far from your go-to option.


The best stabilization tools on the market


In our review of the best-selling mobile gimbals, the DJI OM 4 is the easiest way to jump quickly into stable video without worrying about precisely calibrating each gimbal axis. While you can adjust the axles a bit, the motors inside are strong enough to handle almost any imbalance, and the OM 4’s adjustable clamp can be made large enough to