Sony a3500 vs Canon EOS 60D Astrophotography
This is a full comparison between the cameras Sony a3500 and Canon EOS 60D Astrophotography. We compare them by looking at the categories you see below.
Sony a3500 is made by Sony, while Canon EOS 60D Astrophotography is made by Canon. Both brands have unique strengths and specializations, catering to different photography needs.
Release Date and Price
Release Year
Sony a3500 was released in 2014, making it a newer model compared to Canon EOS 60D Astrophotography, which was released in 2012.
Release Date
Sony a3500 was released on 2014-03-21, making it a newer option than Canon EOS 60D Astrophotography, which was released on 2012-04-07.
MSRP (Manufacturer's Suggested Retail Price)
The MSRP (Manufacturer’s Suggested Retail Price) helps compare the original cost of the camera, offering insight into its market position.
Canon EOS 60D Astrophotography is priced higher at $1499, compared to Sony a3500 which has an MSRP of $399. This indicates Canon EOS 60D Astrophotography might offer better features or performance.
Camera and Sensor Type
Camera Type
The camera type (DSLR, mirrorless, etc.) affects size, handling, and features, impacting its usability for different photography styles.
Sony a3500 is a mirrorless camera, while Canon EOS 60D Astrophotography is a dslr camera. These differences could affect their performance and suitability for different types of photography.
Sensor Size
Sensor size influences image quality, depth of field, and low-light performance, with larger sensors generally producing better results.
Both Sony a3500 and Canon EOS 60D Astrophotography have the same sensor size: APS-C (approx 22.3 x 14.9 mm). This means similar image quality and performance in terms of sensor capabilities.
Sensor Type
The sensor type (e.g., CMOS, CCD) determines how light is captured, affecting image quality, speed, and power consumption.
Both Sony a3500 and Canon EOS 60D Astrophotography feature the same sensor type: CMOS. This similarity could indicate comparable image processing and performance characteristics.
Resolution and Megapixels
Higher megapixels allow for larger prints and more detailed images but may result in larger file sizes.
Sony a3500 offers a higher resolution with 19,816,192 pixels and 20 megapixels, compared to Canon EOS 60D Astrophotography, which has 17,915,904 pixels and 18 megapixels.
Processor
The image processor affects camera speed, image processing quality, and power efficiency.
Sony a3500 uses the Bionz processor, while Canon EOS 60D Astrophotography is powered by the DIGIC 4 processor. These differences could impact overall speed, performance, and image processing quality.
ISO Range
The ISO range measures the camera’s sensitivity to light, impacting performance in low-light environments and image noise levels.
Canon EOS 60D Astrophotography offers a wider ISO range (100 - 51200), while Sony a3500 has a more limited ISO range (100 - 16000). This makes Canon EOS 60D Astrophotography more capable in challenging lighting conditions.
Image Properties
White Balance Presets
White balance ensures colors are accurately represented by adjusting the camera for the lighting conditions.
Sony a3500 provides more white balance presets (9) compared to Canon EOS 60D Astrophotography, which offers 8 presets. This gives Sony a3500 greater flexibility in achieving accurate color balance.
Custom White Balance
Custom white balance allows users to manually adjust color tones, ideal for achieving precise color in challenging lighting conditions.
Both Sony a3500 and Canon EOS 60D Astrophotography offer custom white balance, allowing for precise color adjustments in challenging lighting conditions.
Uncompressed Format Support
Uncompressed formats retain more data for higher image quality, useful for professional editing.
Both Sony a3500 and Canon EOS 60D Astrophotography support the same uncompressed format: RAW. This means they provide similar flexibility in post-processing and image quality.
Optics and Focus
Image Stabilization
Image stabilization reduces camera shake, allowing for sharper images, especially in low light or handheld shooting.
Sony a3500 offers image stabilization, while Canon EOS 60D Astrophotography lacks this feature, giving Sony a3500 an advantage in low-light or handheld shooting.
Image Stabilization Details
Sony a3500 features image stabilization technology: Optical.
CIPA Image Stabilization Performance
Image Stabilization CIPA Rating | N/A | N/A |
Autofocus Motor
An autofocus motor allows lenses to focus automatically, improving the speed and accuracy of focusing.
Both Sony a3500 and Canon EOS 60D Astrophotography are equipped with an autofocus motor, allowing for fast and accurate focusing with a wide range of lenses.
Autofocus Modes
Autofocus modes determine how the camera focuses, with options like continuous, single, and tracking autofocus for different scenarios.
Autofocus Modes for Sony a3500
- Contrast Detect (sensor)
- Multi Area
- Center
- Selective Single Point
- Tracking
- Single
- Continuous
- Face Detection
- LiveView
Autofocus Modes for Canon EOS 60D Astrophotography
- Contrast Detect (sensor)
- Phase Detect
- Multi Area
- Selective Single Point
- Single
- Continuous
- Face Detection
- LiveView
Autofocus Points
Focus points define how much of the scene can be focused automatically, impacting flexibility in composition.
Sony a3500 offers more autofocus points (25) compared to Canon EOS 60D Astrophotography with 9 points. This may give Sony a3500 an advantage in tracking and focus accuracy.
Lens Mount Compatibility
The lens mount determines compatibility with different lenses, affecting the versatility of the camera.
Lens Mounts for Sony a3500
- Sony E
Lens Mounts for Canon EOS 60D Astrophotography
- Canon EF
- Canon EF-S
Focal Length Multiplier (Crop Factor)
Focal length multipliers (crop factor) impact the effective field of view, especially for non-full-frame cameras.
Focal Length Multiplier for Sony a3500
APS-C Sensor
1.6x multiplier
Example:
24 mm becomes 38 mm
50 mm becomes 80 mm
100 mm becomes 160 mm
200 mm becomes 320 mm
Focal Length Multiplier for Canon EOS 60D Astrophotography
APS-C Sensor
1.6x multiplier
Example:
24 mm becomes 38 mm
50 mm becomes 80 mm
100 mm becomes 160 mm
200 mm becomes 320 mm
Screen and Viewfinder
Screen Dots (LCD Resolution)
The number of dots on the camera screen affects display clarity, useful for reviewing images and navigating menus.
Canon EOS 60D Astrophotography offers better screen resolution with 1040000 dots, while Sony a3500 has only 230400 dots.
Touchscreen
A touchscreen allows for easier navigation, focusing, and menu selection, providing a more intuitive user interface.
Neither Sony a3500 nor Canon EOS 60D Astrophotography have a touchscreen, meaning they rely on traditional button and dial controls.
Live View
Live view allows users to see a real-time preview of their shot on the camera’s display, making it easier to compose and focus.
Both Sony a3500 and Canon EOS 60D Astrophotography support live view, making it easier to preview shots in real time on the LCD screen.
Photography Features
Frames Per Second (FPS)
FPS, or Frames Per Second, measures how many photos a camera can take in one second during continuous shooting. A higher FPS is particularly beneficial for capturing fast-moving subjects, such as in sports, wildlife, or action photography, where timing is critical to get the perfect shot.
Canon EOS 60D Astrophotography provides a higher burst rate of 5,3 fps, giving it an edge in action or sports photography over Sony a3500, which shoots at a slower rate of 3,5 fps.Shutter Speed
Shutter speed determines how long your camera's sensor is exposed to light. A slower shutter speed is ideal for low-light photography and capturing motion blur, while a faster shutter speed is better for freezing fast-moving subjects like in sports or wildlife photography.
Minimum Shutter Speed
Both Sony a3500 and Canon EOS 60D Astrophotography offer the same minimum shutter speed of 30 seconds, allowing for long-exposure shots like light trails or astrophotography.
Maximum Shutter Speed
Canon EOS 60D Astrophotography provides a faster maximum shutter speed of 1/8000, offering better performance for action photography compared to Sony a3500, which has a slower maximum speed of 1/4000.
Built-in Flash
A built-in flash can be handy for quick shots in low-light environments, especially when an external flash isn't available. However, built-in flashes are typically less powerful than external ones and are best for shorter ranges.
Both Sony a3500 and Canon EOS 60D Astrophotography come with a built-in flash, making them useful for low-light photography without the need for external lighting.
Built-in Flash Range
Canon EOS 60D Astrophotography has a longer built-in flash range of 13 m, giving it better reach than Sony a3500's range of 6 m.External Flash Compatibility
An external flash provides more power and flexibility compared to a built-in flash. External flashes can be mounted on the camera’s hot shoe and offer greater lighting control, making them ideal for professional and low-light photography.
Both Sony a3500 and Canon EOS 60D Astrophotography support external flashes, providing more control over lighting for professional-grade photography.
Self-Timer Functionality
A self-timer allows you to delay the shutter release, giving you time to get into the frame for group shots, self-portraits, or to avoid camera shake when shooting on a tripod.
Both Sony a3500 and Canon EOS 60D Astrophotography have a self-timer feature, making them convenient for group shots or self-portraits.
Time-Lapse Photography
The time-lapse feature allows you to capture a sequence of photos at intervals and combine them into a video, creating stunning visual effects like speeding up slow-moving subjects such as clouds, sunsets, or cityscapes.
Canon EOS 60D Astrophotography supports time-lapse photography, giving it an edge over Sony a3500, which does not offer this feature.
Metering Modes
Metering modes help your camera measure the light in a scene to determine the proper exposure. Different metering modes are useful in different situations, such as multi-pattern for general use, center-weighted for portraits, spot metering for precise areas, and more.
Metering Modes for Sony a3500
- Multi
- Center Weighted
- Spot
Metering Modes for Canon EOS 60D Astrophotography
- Multi
- Center Weighted
- Spot
- Partial
Videography Features
Video Recording Capability
Video recording is an essential feature for users who want to capture high-quality videos alongside still photography. Cameras with video recording capabilities allow for versatility, whether you're creating cinematic content, vlogging, or capturing everyday moments.
Video Recording
Both Sony a3500 and Canon EOS 60D Astrophotography support video recording, making them versatile options for users who want to shoot both photos and videos.
Built-in Microphone and Speakers Comparison
Having a built-in microphone and speakers can help you quickly capture and review audio when recording video. While they may not replace professional equipment, they are useful for casual video recording and on-the-go playback.
Both Sony a3500 and Canon EOS 60D Astrophotography are equipped with built-in microphones, allowing you to record audio directly with the camera.
Both Sony a3500 and Canon EOS 60D Astrophotography have built-in speakers, allowing you to play back recorded audio without needing headphones.
Connectivity
HDMI Output, Microphone, and Headphone Ports Comparison
These ports are important for video professionals who need external monitoring and audio control. HDMI allows external display connections, while microphone and headphone ports offer superior audio recording and monitoring options.
Both Sony a3500 and Canon EOS 60D Astrophotography have HDMI output, making them ideal for real-time monitoring and external recording.
Canon EOS 60D Astrophotography includes a microphone port for external audio capture, while Sony a3500 lacks this feature.
Neither Sony a3500 nor Canon EOS 60D Astrophotography have a headphone port, making audio monitoring during recording difficult.
Wireless Connectivity Comparison
Wireless connectivity allows for convenient sharing of photos and remote camera control. Some cameras offer advanced wireless options like Wi-Fi, Bluetooth, or NFC for easy file transfer and remote shooting.
Canon EOS 60D Astrophotography offers wireless connectivity (Sony a3500), giving it an advantage over Eye-Fi Connected, which does not support wireless features.
Remote Control Feature Comparison
Remote control functionality allows photographers to control the camera without physically touching it, which is useful for reducing camera shake during long exposures or self-portraits. Some cameras offer compatibility with dedicated remotes, while others support wireless or app-based control.
Both Sony a3500 and Canon EOS 60D Astrophotography support remote control functionality. Sony a3500 offers Yes (via optional RM-VPR1), while Canon EOS 60D Astrophotography provides Yes (Optional), allowing for hands-free control during shooting.
Camera Body and Dimensions
Environmentally Sealed Comparison
An environmentally sealed camera is protected against dust, moisture, and sometimes freezing temperatures. This feature is important for photographers who often shoot in challenging environments like rain, snow, or desert landscapes.
Canon EOS 60D Astrophotography offers environmental sealing, giving it better protection against dust and moisture than Sony a3500, which is not sealed.
Battery Life Comparison
Battery life is an important consideration, especially for photographers who shoot for long periods. The number of shots per charge is measured according to CIPA standards, giving a reliable estimate of real-world performance.
The battery life of Canon EOS 60D Astrophotography is rated at 1100 shots, outperforming Sony a3500's 480 shots, making it ideal for extended shooting.
Camera Dimensions Comparison
Camera dimensions affect portability and comfort when using the camera. Here's how the two cameras compare in size.
The Sony a3500 has dimensions of 128 mm in width, 91 mm in height, and 85 mm in depth.
The Canon EOS 60D Astrophotography measures 145 mm in width, 106 mm in height, and 79 mm in depth.
The Sony a3500 is more compact with a total volume of 990080 mm³ compared to the Canon EOS 60D Astrophotography, which has a larger volume of 1214230 mm³.
Camera Weight Comparison
The weight of a camera can affect portability and handling, especially for long shooting sessions. Here’s how the two cameras compare in terms of weight, including the battery.
The Sony a3500 weighs 411 grams including the battery.
The Canon EOS 60D Astrophotography weighs 755 grams including the battery.
The Sony a3500 is lighter, weighing 411 grams, compared to the Canon EOS 60D Astrophotography which weighs 755 grams.
View and Compare Specifications for Sony a3500 and Canon EOS 60D Astrophotography
Product |
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Name This is the official name of the camera as listed by the manufacturer. |
Sony a3500 | Canon EOS 60D Astrophotography |
Also known as Cameras are sometimes sold under different names in various regions or by different retailers. These are the alternative names for this model. |
Canon EOS 60Da | |
Manufacturer The company that designs, manufactures, and markets this camera model. |
Sony | Canon |
SKU The Stock Keeping Unit (SKU) is a unique identifier used by retailers to track inventory. Some cameras might have multiple SKUs depending on the bundle or specific features. |
ILCE-3500 / CX77100 | |
Release Date and Price |
||
Release Year The year when this camera model was officially released to the public. |
2014 | 2012 |
Release Date The exact date when this camera model was launched. |
2014-03-21 | 2012-04-07 |
MSRP The Manufacturer's Suggested Retail Price (MSRP) is the price at which the manufacturer recommends that the retailer sells the product. This can vary by region and retailer. Here the price is listed in US Dollars. |
$ 399 | $ 1499 |
Camera Type |
||
Camera Type The camera type defines the fundamental design of the camera, whether it uses a mirror for its viewfinder (DSLR), a translucent mirror (SLT), or no mirror at all (Mirrorless). |
Mirrorless | DSLR |
Sensor |
||
Sensor Size The sensor size determines the amount of light that can be captured, impacting image quality, depth of field, and low-light performance. Different sensor sizes are used for various camera types and applications. |
APS-C (approx 22.3 x 14.9 mm) | APS-C (approx 22.3 x 14.9 mm) |
Sensor Type The type of sensor used in the camera, which could be CCD, CMOS, or others, affecting how the image data is captured and processed. |
CMOS | CMOS |
Resolution Resolution is the number of pixels used to create an image. Higher resolution allows for larger prints and more detailed images. |
5456 x 3632 pixels | 5184 x 3456 pixels |
Megapixels Megapixels refer to the number of millions of pixels the sensor can capture, impacting the detail and print size of the images. |
20 MP (19,816,192 pixels) | 18 MP (17,915,904 pixels) |
Image Processor The image processor is responsible for converting the data captured by the sensor into a viewable image, impacting speed, quality, and performance. |
Bionz | DIGIC 4 |
Image |
||
ISO Range The ISO range indicates the sensitivity of the camera's sensor to light. A lower ISO is ideal for bright conditions, while a higher ISO allows for shooting in low light but may introduce noise. |
100 - 16000 | 100 - 51200 |
White Balance Presets White balance presets allow the camera to adjust colors to match different lighting conditions, ensuring that your photos have accurate and natural colors. |
9 | 8 |
Custom White Balance Custom white balance allows you to manually set the white balance using a neutral reference, such as a gray card, ensuring accurate color reproduction in various lighting conditions. |
Yes | Yes |
Image Stabilization Image stabilization helps reduce blur caused by camera shake, allowing you to capture sharper images, especially in low-light situations or when using longer focal lengths. |
Yes (Optical) | No |
Image Stabilization CIPA Rating The CIPA rating measures the effectiveness of image stabilization, indicating how many stops of exposure you can gain by using the stabilization feature. |
N/A | N/A |
Uncompressed Format An uncompressed format retains all the image data captured by the sensor, resulting in higher quality images with more detail, but also larger file sizes. |
RAW | RAW |
Optics and Focus |
||
Autofocus Motor The autofocus motor allows the camera to automatically focus on subjects. If 'Yes', the camera has a built-in autofocus motor, enabling faster and quieter focusing with compatible lenses. |
Yes | Yes |
Autofocus Different autofocus modes allow the camera to focus in various ways, such as detecting contrast, tracking moving subjects, or focusing on specific points in the frame. |
Contrast Detect (sensor) Multi Area Center Selective Single Point Tracking Single Continuous Face Detection LiveView |
Contrast Detect (sensor) Phase Detect Multi Area Selective Single Point Single Continuous Face Detection LiveView |
Focus Points Focus points refer to the number of areas in the frame where the camera can lock focus. More focus points allow for more accurate focusing, especially in complex scenes. |
25 | 9 |
Lens Mount The lens mount indicates the type of lenses that are compatible with the camera. Different mounts are used by different manufacturers and camera types. |
Sony E Sony Lens Mount Adapter LA-EA5 |
Canon EF Canon EF-S |
Focal Length Multiplier The focal length multiplier, also known as the crop factor, affects the effective focal length of a lens when used with cameras that have sensors smaller than full frame. This value multiplies the lens's focal length, which can be beneficial for telephoto photography but limits the field of view for wide-angle lenses. |
APS-C Sensor 1.6x multiplier Example: 24 mm becomes 38 mm 50 mm becomes 80 mm 100 mm becomes 160 mm 200 mm becomes 320 mm |
APS-C Sensor 1.6x multiplier Example: 24 mm becomes 38 mm 50 mm becomes 80 mm 100 mm becomes 160 mm 200 mm becomes 320 mm |
Screen and Viewfinder |
||
Articulated LCD An articulated LCD allows for flexible screen movement, making it easier to capture shots from difficult angles. It can be particularly useful for vlogging, low-angle, or high-angle photography. |
Fixed | Fully articulated |
Screen Size The screen size is measured diagonally in inches. A larger screen can be beneficial for reviewing images and navigating menus. |
3” | 3” |
Screen Dots Screen dots refer to the resolution of the camera's LCD screen, with more dots generally indicating a sharper display. |
230400 | 1040000 |
Touchscreen A touchscreen allows you to interact with the camera's menu and focus points directly by touching the screen. |
No | No |
Screen Type The screen type indicates the technology used in the camera's display, such as LCD, OLED, etc. |
TFT LCD | Clear View TFT color LCD |
Live View Live View allows you to use the LCD screen as a viewfinder, showing a live preview of the image before you capture it. |
Yes | Yes |
Viewfinder Type The viewfinder type specifies whether the camera uses an optical viewfinder (OVF), electronic viewfinder (EVF), or has no viewfinder. |
Electronic | Optical (pentaprism) |
Viewfinder Coverage Viewfinder coverage indicates the percentage of the scene that is visible in the viewfinder compared to what the sensor captures. 100% coverage means you see exactly what the sensor will capture. |
100% | 96% |
Viewfinder Magnification Viewfinder magnification describes the size of the image seen in the viewfinder relative to the size of the actual scene. |
0.7× (0.47× 35mm equiv.) | 0.95× (0.59× 35mm equiv.) |
Viewfinder Resolution Viewfinder resolution refers to the number of pixels in the electronic viewfinder. A higher resolution provides a clearer and more detailed image. |
N/A | N/A |
Photography Features |
||
Frames per second Frames per second (fps) measures how many frames the camera can capture in one second. Higher fps rates are useful for action photography. |
3,5 fps | 5,3 fps |
Minimum Shutter Speed The minimum shutter speed is the longest exposure time the camera can achieve, allowing for more light to enter, which is useful in low-light situations. |
30 seconds | 30 seconds |
Maximum Shutter Speed The maximum shutter speed is the shortest exposure time the camera can achieve, helping to freeze motion in fast-moving subjects. |
1/4000 seconds | 1/8000 seconds |
Built-in Flash A built-in flash provides additional light when shooting in low-light environments, improving image quality. |
Yes | Yes |
Built-in Flash Range The built-in flash range indicates how far the flash can effectively illuminate a subject. This is measured in meters. |
6 m | 13 m |
External Flash An external flash option allows you to attach a separate flash unit, providing more powerful lighting options and flexibility. |
Yes | Yes |
Self-Timer The self-timer feature allows you to set a delay between pressing the shutter button and when the photo is actually taken. This is useful for including yourself in photos or reducing camera shake. |
Yes | Yes |
Time-lapse Time-lapse photography allows you to capture a series of frames at set intervals, which are then combined into a video that shows a process, like a sunset, happening much faster. |
No | Yes |
Metering Modes Metering modes determine how the camera measures the brightness of the scene to set the exposure. Different modes are suited to different lighting conditions. |
Multi Center Weighted Spot |
Multi Center Weighted Spot Partial |
Exposure Compensation Exposure compensation allows you to adjust the exposure set by the camera, making the image brighter or darker as needed. |
+/- 3 (at 1/3 EV steps) | +/- 5 (at 1/3 EV, 1/2 EV steps) |
Videography Features |
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Video Recording Indicates whether the camera supports video recording functionality. |
Yes | Yes |
Video Format The camera supports various video formats, which determine the compression and quality of the recorded video. |
H.264 AVCHD |
H.264 |
Video Resolution The resolutions supported by the camera determine the clarity and detail of the recorded video. |
1920 x 1080 |
1280 x 720 1920 x 1080 |
Built-in Microphone Indicates whether the camera has a built-in microphone for recording audio during video capture. |
Yes | Yes |
Built-in Speakers Indicates whether the camera has built-in speakers for audio playback. |
Yes | Yes |
Storage |
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Memory Card Indicates the types of memory cards that are compatible with the camera. |
Memory Stick Pro Duo SD/SDHC |
SD/SDHC |
Connectivity |
||
HDMI Output Indicates whether the camera has an HDMI output port for connecting to external displays. |
Yes | Yes |
Microphone Port Indicates whether the camera has a dedicated microphone input port. |
No | Yes |
Headphone Port Indicates whether the camera has a headphone port for monitoring audio during recording. |
No | No |
Wireless Indicates whether the camera has wireless capabilities for transferring files or remote control. |
No |
Yes Eye-Fi Connected |
Remote Control Indicates whether the camera supports remote control functionality. |
Yes (via optional RM-VPR1) | Yes (Optional) |
Remote Control SKU The specific SKU associated with the camera's remote control or accessory. |
RM-VPR1 | |
GPS Indicates whether the camera has built-in GPS functionality for geotagging images. |
No | No |
Body and Dimensions |
||
Environmentally Sealed Indicates whether the camera is sealed against dust and moisture. |
No | Yes |
Battery The type of battery used by the camera. |
Battery Pack | Battery Pack |
Battery Details Additional information about the battery, such as capacity or specific model details. |
NP-FW50 lithium-ion battery and USB charger | Lithium-Ion LP-E6 rechargeable battery & charger |
Battery SKU The specific SKU (Stock Keeping Unit) associated with the camera's battery. |
NP-FW50 | LP-E6 |
Battery Life The estimated number of shots the camera can take on a full battery, based on CIPA standards. CIPA (Camera & Imaging Products Association) sets the industry standard for measuring and comparing battery life across different camera models. |
480 shots according to CIPA | 1100 shots according to CIPA |
Width The width of the camera body, measured in millimeters. |
128 mm | 145 mm |
Height The height of the camera body, measured in millimeters. |
91 mm | 106 mm |
Depth The depth of the camera body, measured in millimeters. |
85 mm | 79 mm |
Weight The weight of the camera body, including the battery, measured in grams. |
411 grams including battery | 755 grams including battery |
Written by Henrik Törner
Camera Expert and Founder of Cameraby
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