Disclaimer:Please be aware that due to limited server storage, converted images will be automatically purged over time for optimal server performance.
How to use this SVG to TIFF Image Converter 🤔
Click 👆 on the Choose File(s) button and choose input SVG files, or you may drag and drop SVG files to the Drop area. You may choose one image 🌁 or multiple images 🌃 🌄 🎇. The chosen images are displayed with size information in the input section.
You may change the conversion parameters like quality 🎛, background color, etc., using the sliders, or color input buttons.
Now you can click on the Convert button. This is where the ⛄ magic happens. Your images are sent ➚ to the server for conversion. This all happens in a lightening speed ⚡.
Once the input SVGs are converted ✅ to TIFFs, they appear in the download section.
You may click 👆 on the big Download button to download ↓ all your converted TIFFs, or you may download individual TIFF by clicking on the respective download button.
There is also a link 🔗 which you can Copy and share it using which you can download the converted TIFF files.
SVG Format
TIFF Format
TIFF (Tagged Image File Format) is a versatile and highly flexible image format that is widely used in the fields of photography, printing, and professional graphics. It was developed by Aldus Corporation in collaboration with Microsoft for use in desktop publishing. TIFF is known for its ability to store high-quality images with support for various color spaces and depths.
Usage in Specific Fields
Photography: TIFF is popular among photographers for storing high-quality images without compression artifacts, making it ideal for post-processing and archiving.
Printing: The format is widely used in the printing industry due to its support for CMYK color space and high resolution, ensuring accurate color reproduction in printed materials.
Medical Imaging: TIFF is often used in medical imaging for storing detailed images like X-rays and MRIs because of its ability to preserve fine details.
Graphic Design: Graphic designers use TIFF for images that require high quality and precise color management, especially in print design.
Specific Properties Regarding Color Channels
Color Depth: TIFF supports multiple color depths, including 1-bit (black and white), 8-bit grayscale, 24-bit RGB, and 48-bit RGB (16 bits per channel), allowing for very high color fidelity and detail.
Color Spaces: TIFF supports a variety of color spaces, including RGB, CMYK, Lab, and indexed color, making it suitable for different imaging and printing needs.
Alpha Channel: TIFF can include an alpha channel for transparency, although this feature is less commonly used compared to PNG and WEBP.
Compression Options: TIFF supports both lossless (LZW, ZIP) and lossy (JPEG) compression, giving users flexibility in balancing image quality and file size.
Advantages of TIFF
High Quality: TIFF is ideal for storing high-resolution images with great detail and color accuracy, making it perfect for professional use.
Lossless Compression: TIFF's support for lossless compression ensures that no image data is lost, preserving the original quality of the image.
Flexibility: The format's ability to handle multiple color spaces and depths makes it adaptable to various professional applications.
Metadata Support: TIFF files can store extensive metadata, including image details, camera settings, and editing history, which is useful for professional workflows.
Limitations of TIFF
Large File Size: Due to its high-quality storage and lack of compression, TIFF files can be significantly larger than other formats, making them less ideal for web use and storage-limited environments.
Compatibility Issues: While widely supported in professional applications, TIFF is not as universally supported by consumer-grade software and web browsers as formats like JPEG and PNG.
Processing Power: Handling large TIFF files can be demanding on system resources, requiring more memory and processing power, which can slow down performance on less powerful devices.
{
"convert": "svg-tiff",
"multiple": true,
"from": "svg",
"to": "tiff",
"controls": [
{
"type": "range",
"name": "quality",
"label": "Quality",
"range": {
"min": 1,
"max": 100,
"value": 50
},
"desc": "Desired quality of output image, an integer value in the range 1-100, lower quality results in lower file size"
},
{
"type": "color",
"name": "backgroundColor",
"label": "background color",
"defaultValue": "#FFFFFF",
"desc": "Desired background color for the transparent area."
},
{
"type": "select",
"name": "resolutionUnit",
"label": "Resolution (inch/cm)",
"defaultValue": "inch",
"items": {
"inch": "inch",
"centimeter": "cm"
},
"desc": "Resolution unit in inches or centimeters for TIFF image."
}
],
"to_desc": "<p><strong>TIFF (Tagged Image File Format)</strong> is a versatile and highly flexible image format that is widely used in the fields of photography, printing, and professional graphics. It was developed by Aldus Corporation in collaboration with Microsoft for use in desktop publishing. TIFF is known for its ability to store high-quality images with support for various color spaces and depths.</p><h3>Usage in Specific Fields</h3><ul><li><strong>Photography:</strong> TIFF is popular among photographers for storing high-quality images without compression artifacts, making it ideal for post-processing and archiving.</li><li><strong>Printing:</strong> The format is widely used in the printing industry due to its support for CMYK color space and high resolution, ensuring accurate color reproduction in printed materials.</li><li><strong>Medical Imaging:</strong> TIFF is often used in medical imaging for storing detailed images like X-rays and MRIs because of its ability to preserve fine details.</li><li><strong>Graphic Design:</strong> Graphic designers use TIFF for images that require high quality and precise color management, especially in print design.</li></ul><h3>Specific Properties Regarding Color Channels</h3><ul><li><strong>Color Depth:</strong> TIFF supports multiple color depths, including 1-bit (black and white), 8-bit grayscale, 24-bit RGB, and 48-bit RGB (16 bits per channel), allowing for very high color fidelity and detail.</li><li><strong>Color Spaces:</strong> TIFF supports a variety of color spaces, including RGB, CMYK, Lab, and indexed color, making it suitable for different imaging and printing needs.</li><li><strong>Alpha Channel:</strong> TIFF can include an alpha channel for transparency, although this feature is less commonly used compared to PNG and WEBP.</li><li><strong>Compression Options:</strong> TIFF supports both lossless (LZW, ZIP) and lossy (JPEG) compression, giving users flexibility in balancing image quality and file size.</li></ul><h3>Advantages of TIFF</h3><ul><li><strong>High Quality:</strong> TIFF is ideal for storing high-resolution images with great detail and color accuracy, making it perfect for professional use.</li><li><strong>Lossless Compression:</strong> TIFF's support for lossless compression ensures that no image data is lost, preserving the original quality of the image.</li><li><strong>Flexibility:</strong> The format's ability to handle multiple color spaces and depths makes it adaptable to various professional applications.</li><li><strong>Metadata Support:</strong> TIFF files can store extensive metadata, including image details, camera settings, and editing history, which is useful for professional workflows.</li></ul><h3>Limitations of TIFF</h3><ul><li><strong>Large File Size:</strong> Due to its high-quality storage and lack of compression, TIFF files can be significantly larger than other formats, making them less ideal for web use and storage-limited environments.</li><li><strong>Compatibility Issues:</strong> While widely supported in professional applications, TIFF is not as universally supported by consumer-grade software and web browsers as formats like JPEG and PNG.</li><li><strong>Processing Power:</strong> Handling large TIFF files can be demanding on system resources, requiring more memory and processing power, which can slow down performance on less powerful devices.</li></ul>"
}
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