Side-by-side specs, scores and live prices. Start over
| General | ||
| Brand | Panasonic | Sony |
| Model | Lumix DMC-GH4 | a6000 |
Released ⓘRefers to the year this camera was officially made available for sale. |
2014 | 2014 |
Announcement date ⓘRefers to the date the manufacturer publicly announced the upcoming release and general specs of this camera. |
07/02/2014 | 12/02/2014 |
| Camera type | Mirrorless | Mirrorless |
| Camera size | 133 x 93 x 84 mm | 120 x 67 x 45 mm |
| Camera weight | 560 g | 344 g |
| Optics | ||
Megapixels ⓘThe higher the number of megapixels, the more detail the cameras sensor can capture. |
16 MP050 | 24.3 MP050 |
Image resolution ⓘImage resolution is measured in pixels and megapixels, width by height. The higher the number, the higher its resolution. |
4608 x 3456 | 6000 x 4000 |
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. |
13 x 17.3 | 15.6 x 23.5 |
Sensor format ⓘRefers to the most commonly used sensor sizes. |
Micro Four Thirds | 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. |
12 fps045 | 11 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. |
Micro 4/3 | Sony E |
Image processor ⓘThe image processor in the camera converts the information collected on the sensor for digital storage on the memory card. |
Venus Engine IX | Bionz X |
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. |
4:3 | 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. |
20030200 | 10030200 |
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. |
256003003280000 | 256003003280000 |
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. |
10030200 | 5030200 |
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. |
256003003280000 | 256003003280000 |
Minimum shutter speed ⓘThe minimum shutter speed will tell you the longest exposure your camera can take without using an external accessory. |
6044080 | 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. |
800080032000 | 400080032000 |
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. |
490300 | 1790300 |
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 | 235900009900000 | 144000009900000 |
| 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 | Full HD |
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 | 1920 x 1080 |
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. |
24 fps | 60 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. |
MOV, MP4, AVCHD | MPEG-4 |
| 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 | 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. |
10360001150001500000 | 9216001150001500000 |
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 | SD / SDHC / SDXC, Memory Stick Pro Duo / Pro-HG Duo |
| Dual memory card slots | ✓ | ✗ |
| Battery type | DMW-BLF19 | NP-FW50 |
Battery life ⓘApproximately how long this cameras battery will last measured by how many photographs you will be able to take. |
500 shots1505000 | 360 shots1505000 |
| USB charging | ✗ | ✗ |
The Panasonic Lumix DMC-GH4 edges out the Sony a6000 with a score of 58/100 compared to 57/100. Both mirrorless cameras were released in 2014, with the GH4 announced on February 7th and the a6000 on February 12th. They share similarities in their camera type and release year.
The GH4 surpasses the a6000 with a larger camera size (133 x 93 x 84mm) and a heavier weight (560g / 1.23lbs), which may provide a more comfortable grip and sturdier feel. However, the Sony a6000 shines with its significantly lower launch price of $799 compared to the GH4’s $1700, making it a more budget-friendly option.
Considering the specifications, the Panasonic GH4 has a slight edge, but the Sony a6000 offers an affordable alternative for those seeking a mirrorless camera without breaking the bank.
The Sony a6000 outperforms the Panasonic Lumix DMC-GH4 in optics, scoring 67/100 compared to the GH4’s 52/100. Both cameras share certain specifications, such as having a CMOS sensor, no image stabilization, and lens mounts specific to their respective brands (Micro 4/3 for GH4 and Sony E for a6000).
The Sony a6000’s superior optics can be attributed to its higher megapixel count of 24.3, larger APS-C sensor size, and a better DXOMARK score of 82 for its sensor. These features contribute to the a6000’s ability to capture higher resolution images with greater detail and improved low-light performance. Additionally, the Sony a6000 uses a Bionz X processor, which enhances image quality and processing speed.
On the other hand, the Panasonic GH4 has a slightly faster shooting speed of 12 frames per second, compared to the a6000’s 11. This may be beneficial for capturing fast-moving subjects, although the difference is minimal. The GH4 also has a different aspect ratio of 4:3, which may be preferred by some photographers for specific compositions.
Considering the differences in optics, the Sony a6000 is the clear winner, offering higher resolution images, better low-light performance, and a larger sensor size. While the Panasonic GH4 has a marginally faster shooting speed, this advantage is not enough to outweigh the a6000’s superior image quality. As a result, the Sony a6000 is the better choice for photographers prioritizing optics and image quality.
The Panasonic Lumix DMC-GH4 takes the lead in video capabilities with a score of 70/100, while the Sony a6000 follows with a score of 56/100. Both cameras share some common specifications, such as offering manual exposure control and focus peaking for precise adjustments during video recording. Additionally, both cameras allow for an external microphone to be connected, ensuring clear and high-quality audio.
The Lumix GH4 outperforms the a6000 in several aspects. Its maximum video resolution is 4K (4096 x 2160) compared to the a6000’s Full HD (1920 x 1080) resolution, providing a significantly higher level of detail in the recorded footage. This higher resolution offers more flexibility in post-production, such as cropping and reframing without sacrificing image quality. Moreover, the GH4 has a built-in time-lapse functionality, enabling users to create stunning time-lapse videos without the need for additional equipment or software.
On the other hand, the Sony a6000 has an advantage in terms of maximum video frame rate, offering 60fps compared to the GH4’s 24fps. This higher frame rate allows for smoother video playback and the ability to create slow-motion footage, which can be beneficial for certain types of videography, such as sports or action scenes.
Taking these factors into account, the Panasonic Lumix DMC-GH4 is a superior choice for those prioritizing video quality and versatility, as its 4K resolution and built-in time-lapse functionality provide greater creative options. However, the Sony a6000 may be a better fit for users seeking smoother video playback and slow-motion capabilities, thanks to its higher maximum frame rate.
The Panasonic Lumix DMC-GH4 emerges as the winner in the comparison of features with a score of 70/100, while the Sony a6000 trails behind with a score of 41/100. Both cameras share several common specifications, such as a 3-inch screen size, flip screen, absence of GPS, and the presence of WiFi connectivity. However, there are significant differences that give the GH4 an edge over the a6000.
The most notable advantage of the GH4 is its touchscreen functionality, which the a6000 lacks. A touchscreen allows for easier navigation and control of the camera, providing a more user-friendly experience. Additionally, the GH4 has a higher screen resolution of 1,036,000 dots, compared to the a6000’s 921,600 dots. This results in a sharper and clearer display, enabling better image preview and review.
In terms of features where the Sony a6000 outshines the GH4, there are none. The a6000 only matches the GH4 in certain aspects, such as screen size, flip screen, and WiFi connectivity, but does not surpass it in any of the compared features.
Taking these points into consideration, the Panasonic Lumix DMC-GH4 clearly offers better features than the Sony a6000. With the touchscreen and higher screen resolution, the GH4 provides a more convenient and enjoyable user experience. Meanwhile, the Sony a6000 does not have any standout features that make it superior to the GH4. Therefore, when comparing these two cameras solely based on features, the Panasonic Lumix DMC-GH4 is the better choice.
The Panasonic Lumix DMC-GH4 outperforms the Sony a6000 in storage and battery, scoring 60/100 compared to the Sony’s 21/100. Both cameras have common specifications, such as accepting SD, SDHC, and SDXC memory cards and lacking USB charging.
The Lumix DMC-GH4 holds an advantage with two memory card slots, while the a6000 has only one. Additionally, the GH4’s battery life lasts for 500 shots, outlasting the a6000’s 360 shots. The GH4 uses a DMW-BLF19 battery type, contributing to its longer battery life.
On the other hand, the Sony a6000 can also use Memory Stick Pro Duo and Pro-HG Duo cards, providing users with more storage options. However, this advantage does not compensate for its shorter battery life and fewer memory card slots.
Considering these points, the Panasonic Lumix DMC-GH4 proves to be the superior choice for storage and battery capabilities. Its longer battery life and additional memory card slot make it a more reliable option for photographers.

Are you still undecided about which camera is right for you? Have a look at these popular comparisons that feature the Panasonic Lumix DMC-GH4 or the Sony a6000: