Side-by-side specs, scores and live prices. Start over
| General | ||
Released ⓘRefers to the year this camera was officially made available for sale. |
2021 | 2020 |
Announcement date ⓘRefers to the date the manufacturer publicly announced the upcoming release and general specs of this camera. |
02/09/2021 | 26/02/2020 |
| Camera type | Mirrorless | Mirrorless |
| Camera size | 118 x 83 x 47 mm | 135 x 93 x 84 mm |
| Camera weight | 383 g | 607 g |
| Optics | ||
Megapixels ⓘThe higher the number of megapixels, the more detail the cameras sensor can capture. |
26 MP050 | 26 MP050 |
Image resolution ⓘImage resolution is measured in pixels and megapixels, width by height. The higher the number, the higher its resolution. |
6240 x 4160 | 6240 x 4160 |
Sensor type ⓘThe camera sensor captures light and records the image. Sensors vary in physical size, the number of pixels, and quality. |
CMOS | CMOS |
Sensor size ⓘThe sensor size contributes to the overall quality as well as the dynamic and tonal range a camera can capture. As a rule of thumb, the more surface there is to read the light, the more information it will capture. |
23.5 x 15.6 | 23.5 x 15.6 |
Sensor format ⓘRefers to the most commonly used sensor sizes. |
APS-C | APS-C |
Continuous shooting ⓘThe number of sequential frames per second the camera can write to the memory card when shooting in burst or continuous mode. |
30 fps045 | 20 fps045 |
Lens mount ⓘThe lens mount will tell you what type of lens range you can fit onto the camera body. Often the same camera company will have different lens ranges for different cameras. |
Fujifilm X | Fujifilm X |
Image processor ⓘThe image processor in the camera converts the information collected on the sensor for digital storage on the memory card. |
X-Processor 4 | X-Processor 4 |
Aspect ratio ⓘThe aspect ratio refers to the proportional difference between width and height. The most popular aspect ratios are 3:2 and 4:3. |
3:2 | 3:2 |
Min ISO ⓘRefers to the lowest native (or 'base') ISO setting. Lower ISO are less sensitive to light but make a cleaner image. |
16030200 | 16030200 |
Max ISO ⓘRefers to the highest native (or 'base') ISO setting. Higher ISO is necessary for low-light situations or night photography, but higher ISOs often introduce grain or noise. |
128003003280000 | 128003003280000 |
Min ISO (expanded) ⓘExpanded (or extended) ISO is a digitally enhanced feature available on some cameras. It allows you to push beyond the native ISO range if necessary. |
8030200 | 8030200 |
Max ISO (expanded) ⓘExpanded (or extended) ISO is a digitally enhanced feature available on some cameras. It allows you to push beyond the native ISO range if necessary. |
512003003280000 | 512003003280000 |
Minimum shutter speed ⓘThe minimum shutter speed will tell you the longest exposure your camera can take without using an external accessory. |
90044080 | 3044080 |
Max shutter speed ⓘThe maximum shutter speed tells you the length inside 1 second the camera will capture. These can sometimes be extended with accessories such as extra external batteries. |
400080032000 | 800080032000 |
Autofocus points ⓘAutofocus points show where the camera is focusing graphically as squares or brackets in Live View or on an electronic viewfinder. These points are also used for light meter readings. |
4250300 | 4250300 |
In-body stabilisation ⓘIn-body Stabilization means the camera has a certain technology embedded that counteracts camera shake. |
✗ | ✓ |
Viewfinder type ⓘThe viewfinder type is either electronic or optical. Electronic viewfinders will have a small screen in the viewfinder. Optical viewfinders will use prisms and mirrors to look through the lens. |
Electronic | Electronic |
| Viewfinder dots | 236000009900000 | 369000009900000 |
| Video | ||
Video ⓘIndicates if this camera is capable of recording video. |
✓ | ✓ |
Max video resolution ⓘThe best resolution this camera can capture video in. Modern cameras can capture up to 8K video. |
4K | 4K |
Max video format ⓘVideo resolution measured by the greatest number of pixels possible in each frame, width by height. A higher resolution means more detail or clarity in your video. |
4096 x 2160 | 4096 x 2160 |
Max video frame rate ⓘHow many frames per second your video will capture. Most cameras have options for multiple frame rates, depending on the resolution you shoot in. For a general video, 24p or 30p is the standard, but more serious filmmakers may need a higher frame rate for creative effect. |
120 fps | 120 fps |
Timelapse built in ⓘA built in time-lapse mode will allow continuous shooting throughout a prolonged period of time to be compressed into a sped up video. |
✓ | ✓ |
Video file format ⓘDifferent cameras can record in various video file formats. The File format you record in can impact how you edit and use the files. |
MPEG-4, H.264 | MPEG-4,MOV |
| Features | ||
Builtin flash ⓘA built-in flash will often be positioned right above the lens. This will automatically pop up when you activate it. |
✓ | ✗ |
External flash ⓘExternal flashes are often connected through a hot shoe at the top of a camera, or a cable at the side of the camera. |
✓ | ✓ |
GPS ⓘGPS features in a camera will include location metadata to each of your photographs. |
✗ | ✗ |
Weather sealing ⓘWeather sealing capabilities will give you more confidence when shooting in unfavourable conditions. |
✗ | ✓ |
| Screen type | LCD | TFT LCD |
Touch screen ⓘTouchscreen allows you to change camera settings and access menus with a swipe of your finger, instead of using buttons. |
✓ | ✓ |
| Screen size | 3" | 3" |
Screen dots ⓘScreen dots indicate the resolution of the LCD screen by including each sub pixel. |
10400001150001500000 | 16200001150001500000 |
Flip screen ⓘA flip screen (or articulating screen) is a second screen which can flip out from the side or top of the camera. This rotating screen allows you more freedom to take photos at different angles. |
✓ | ✓ |
Live view ⓘLive View feature allows you to see a continuous live video of what is being seen through your lens. |
✓ | ✓ |
Wi-Fi ⓘBuilt-in Wi-Fi allows you to connect your camera and share images wirelessly. |
✓ | ✓ |
Bluetooth ⓘBluetooth capabilities allow you wireless control of your camera with other external devices. |
✓ | ✓ |
| Storage & battery | ||
| Memory card | SD / SDHC / SDXC (UHS-I compatible) | SD / SDHC / SDXC (UHS-II compatible) |
| Dual memory card slots | ✗ | ✓ |
| Battery type | NP-W126S | NP-W235 |
Battery life ⓘApproximately how long this cameras battery will last measured by how many photographs you will be able to take. |
380 shots1505000 | 500 shots1505000 |
| USB charging | ✓ | ✓ |
The Fujifilm X-T4 outperforms the Fujifilm X-T30 II with a score of 76/100 compared to 65/100. Both cameras share the mirrorless design, were announced in 2020 and 2021, and have similar launch prices of $1699 and $899, respectively.
The X-T4 excels in its larger size, measuring 135 x 93 x 84mm, and heavier weight at 607g (1.34lbs), which may provide better handling and stability for some users. On the other hand, the X-T30 II has a smaller form factor of 118 x 83 x 47mm and weighs only 383g (0.84lbs), making it more portable and lightweight for those on the go.
Ultimately, the Fujifilm X-T4’s higher score reflects its superior performance, while the Fujifilm X-T30 II offers a more compact and budget-friendly option for photographers.
The Fujifilm X-T30 II and the Fujifilm X-T4 both have a video score of 91/100, making them equal in terms of video capabilities. Both cameras share common specifications, including a maximum video resolution of 4K, maximum video dimensions of 4096 x 2160, a maximum video frame rate of 120fps, and built-in time-lapse functionality.
Despite the identical scores, there are areas where one camera may excel over the other. The Fujifilm X-T4, for example, may offer additional features or improved performance in certain aspects of video recording. These improvements could include better autofocus, enhanced image stabilization, or more advanced video codecs. However, since both cameras have the same score, these differences are likely to be minimal and may not significantly impact the overall video performance.
On the other hand, the Fujifilm X-T30 II might have advantages in other areas, such as a more compact size, lower weight, or a more affordable price point. These factors could make the X-T30 II a more attractive option for users who prioritize portability and budget over additional video features.
In comparing the Fujifilm X-T30 II and the Fujifilm X-T4, it is clear that both cameras offer excellent video capabilities, as evidenced by their identical video scores. While the X-T4 may have some minor advantages in certain areas, the X-T30 II might be more appealing to users who prioritize a compact design and affordability. Ultimately, both cameras are strong contenders for those seeking high-quality video performance.
The Fujifilm X-T4 wins in the features category with a score of 85/100, while the Fujifilm X-T30 II scores 70/100. Both cameras share several features, including a 3-inch screen, touchscreen capabilities, flip screen, absence of GPS, and the presence of WIFI and Bluetooth connectivity.
The X-T4 has a superior screen resolution at 1,620,000 dots, compared to the X-T30 II’s 1,040,000 dots. This higher resolution provides a clearer and more detailed display, making it easier for users to review their photos and navigate the camera settings. This advantage contributes to the X-T4’s higher feature score.
The X-T30 II, despite its lower score, still offers a solid set of features that are comparable to the X-T4. Both cameras have a touchscreen and flip screen, which are essential for ease of use and shooting flexibility. They also both lack GPS, which may not be a significant drawback for some users, and include WIFI and Bluetooth for convenient sharing and remote control.
In weighing these points, the Fujifilm X-T4 is the better camera in terms of features, primarily due to its higher screen resolution. The X-T30 II, while not as feature-rich, still provides a reliable set of features that cater to the needs of most photographers. Ultimately, the choice between these two cameras will depend on the user’s specific requirements and preferences.
The Fujifilm X-T4 outperforms the X-T30 II in storage and battery, scoring 73/100 compared to the X-T30 II’s 35/100. Both cameras share the feature of USB charging, which is convenient for on-the-go power needs.
The X-T4 excels with its two memory card slots, accepting SD, SDHC, and SDXC cards with UHS-II compatibility, providing faster read and write speeds. Additionally, the X-T4 boasts a longer battery life of 500 shots, using the NP-W235 battery type.
On the other hand, the X-T30 II has only one memory card slot and accepts SD, SDHC, and SDXC cards with UHS-I compatibility. Its battery life is shorter at 380 shots, using the NP-W126S battery type.
Considering these factors, the Fujifilm X-T4 offers superior storage and battery capabilities, making it a better option for those who require enhanced performance in these areas. The X-T30 II, while not as impressive, still provides adequate storage and battery life for casual users.

Are you still undecided about which camera is right for you? Have a look at these popular comparisons that feature the Fujifilm X-T30 II or the Fujifilm X-T4: