.LCD File Recovery

Have files been deleted due to a user’s error or software error? Have you formatted a disk by accident and need to know how to recover the files? Read our .LCD file recovery guide for Windows, MacOS, Android and IOS in 2024.

LCD File Recovery

What is a .LCD file?

Language file used by ABBYY FormReader and FineReader OCR software; includes language information used for translating scanned text into actual characters and words.

What Are Common Causes of ".LCD" Files Lost or Failure?

There are several common causes of ".LCD" files lost or failure:

  1. Accidental deletion: Users may accidentally delete ".LCD" files while organizing or cleaning up their computer system.
  2. Software or hardware issues: Malfunctioning software or hardware components can lead to data corruption or loss, including ".LCD" files.
  3. Virus or malware attacks: Malicious software can infect and damage files, including ".LCD" files, leading to their loss or failure.
  4. Power outages or system crashes: Unexpected power outages or system crashes can interrupt file operations and result in the loss or corruption of ".LCD" files.
  5. Formatting or partitioning errors: Incorrect formatting or partitioning of storage devices can cause ".LCD" files to become inaccessible or lost.
  6. File system errors: File system errors, such as file system corruption or bad sectors on storage devices, can lead to the loss or failure of ".LCD" files.
  7. Human errors: Human errors, such as accidental overwriting or improper handling of files, can also result in the loss or failure of ".LCD" files.
  8. Physical damage: Physical damage to storage devices, such as hard drives or memory cards, can render ".LCD" files unreadable or permanently lost.

It is important to regularly back up ".LCD" files and implement proper data recovery measures to minimize the risk of file loss or failure.

How to recover lost ".LCD" files?

Sometimes while working with a computer, laptop or other stationary or mobile devices, you may encounter various bugs, freezes, hardware or software failures, even in spite of regular updates and junk cleaning. As a result, an important ".LCD" file may be deleted.

Go to view
🧺 How to Recover Files and Folders After Sending Them to the Recycle Bin and Deleting? (Windows 11)

🧺 How to Recover Files and Folders After Sending Them to the Recycle Bin and Deleting? (Windows 11)

By no means should you think that the only way to recover a ".LCD" file is always to create it once more.

Use programs for recovering ".LCD" files if a file was lost after accidental or deliberate deleting, formatting the memory card or the internal storage, cleaning the storage device, after a virus attack or a system failure.

Programs to recover ".LCD" files

Looking for a way to get files back? In cases when files were deleted and they cannot be restored by using standard operating system tools, use Hetman Partition Recovery.

The tool recovers data from any devices, regardless of the cause of data loss.

Follow the directions below:

  1. Download Hetman Partition Recovery, install and start the program.

  2. The program will automatically scan the computer and display all hard disks and removable drives connected to it, as well as physical and local disks.

    File Recovery Software
  3. Double-click on the disk from which you need to recover ".LCD" files, and select analysis type.

    Hetman Partition Recovery - Analysis Type
  4. When the scanning is over, you will be shown the files for recovery.

    Hetman Partition Recovery - Files that Can be Restored
  5. To find a file you need, use the program’s interface to open the folder it was deleted from, or go to the folder "Content-Aware Analysis" and select the required file type.

    Hetman Partition Recovery - Deep Scan
  6. Select the files you have been looking for and click "Recovery".

    File Recovery Software - Files List for Recovery
  7. Choose one of the methods for saving the files and recover them.

    Saving recovered files in Hetman Partition Recovery

How to open file with ".LCD" extension?

Looking for how to open a stereo aBBYY Language File image file file?

Programs that open ".LCD" files

Windows
ABBYY FineReader 15 ABBYY FineReader 15
Mac
ABBYY FineReader Pro for Mac ABBYY FineReader Pro for Mac

Additional Information

  • File type: ABBYY Language File

  • File extension: .LCD

  • Developer: ABBYY

  • Category: Data Files

  • Format: N/A

  • File types that use the extension .LCD:

    • ABBYY Language File

    • CDSpace Emulated Disk Image

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Comments (1)

  • Hetman Software: Data Recovery
    Hetman Software: Data Recovery 18.12.2019 14:05 #
    Leave a comment if you have any questions about Recovering lost .LCD files after deleting, cleaning or formatting!
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Vladimir Artiukh

Author: Vladimir Artiukh, Technical Writer

Vladimir Artiukh is a technical writer for Hetman Software, as well as the voice and face of their English-speaking YouTube channel, Hetman Software: Data Recovery for Windows. He handles tutorials, how-tos, and detailed reviews on how the company’s tools work with all kinds of data storage devices.

Oleg Afonin

Editor: Oleg Afonin, Technical Writer

Oleg Afonin is an expert in mobile forensics, data recovery and computer systems. He often attends large data security conferences, and writes several blogs for such resources as xaker.ru, Elcomsoft and Habr. In addition to his online activities, Oleg’s articles are also published in professional magazines. Also, Oleg Afonin is the co-author of a well-known book, Mobile Forensics - Advanced Investigative Strategies.

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Questions and answers

  • What are the common file formats used for LCD displays?

    The common file formats used for LCD displays are:

    1. BMP (Bitmap): This is a standard image format that stores digital images pixel by pixel. It is widely supported and can be easily displayed on LCD screens.
    2. JPEG/JPG (Joint Photographic Experts Group): This is a compressed image format that is commonly used for photographs and complex images. It is widely supported and can be displayed on LCD screens.
    3. PNG (Portable Network Graphics): This is a lossless image format that supports transparency and is widely used for web graphics. It is commonly used for LCD displays as it provides good image quality.
    4. GIF (Graphics Interchange Format): This is a bitmap image format that supports animation and is commonly used for simple graphics and animations on LCD screens.
    5. MP4 (MPEG-4): This is a video file format that is commonly used for LCD displays to play videos. It supports high-quality video compression and is widely supported by LCD screens.
    6. AVI (Audio Video Interleave): This is a multimedia container format that can contain both audio and video data. It is commonly used for LCD displays to play videos.
    7. PDF (Portable Document Format): This is a file format that captures all the elements of a printed document as an electronic image. It is commonly used for LCD displays to display documents, brochures, and presentations.
    8. SVG (Scalable Vector Graphics): This is an XML-based vector image format that supports interactivity and animation. It is commonly used for LCD displays to display scalable graphics and icons.
    9. TXT (Plain Text): This is a simple text file format that contains unformatted text. It is commonly used for LCD displays to display simple messages or information.

    These are some of the common file formats used for LCD displays, but there are many other formats depending on the specific requirements and capabilities of the display device.

  • How do LCD formats differ from other display formats?

    LCD (Liquid Crystal Display) formats differ from other display formats in several ways:

    1. Technology: LCD displays use liquid crystals to control the passage of light through the display panel. This is different from other display formats like CRT (Cathode Ray Tube) or OLED (Organic Light Emitting Diode) which use different technologies to produce images.
    2. Thinness: LCD displays are typically much thinner and lighter compared to other display formats. This makes them suitable for applications where space and weight are important factors, such as in laptops, smartphones, and televisions.
    3. Power Consumption: LCD displays are generally more power-efficient compared to other display formats. They require less energy to operate, making them suitable for portable devices where battery life is crucial.
    4. Viewing Angles: LCD displays have limited viewing angles, meaning the image quality can degrade if viewed from extreme angles. This is in contrast to some other display formats like OLED, which offer wider viewing angles and better image quality from different perspectives.
    5. Image Quality: LCD displays can provide high-quality images with vibrant colors and sharp details. However, they may not offer the same deep blacks and infinite contrast ratios as some other display formats like OLED.
    6. Cost: LCD displays are often more affordable compared to other display formats. This is primarily due to the mature manufacturing processes and economies of scale associated with LCD technology.

    Overall, LCD formats have their advantages in terms of thinness, power efficiency, and affordability, but they may have limitations in terms of viewing angles and contrast ratios compared to other display formats.

  • Are there any specific considerations or limitations when working with LCD formats?

    Yes, there are several considerations and limitations when working with LCD (Liquid Crystal Display) formats. Some of them include:

    1. Resolution: LCD panels have a fixed resolution, and it is important to ensure that the content being displayed is compatible with the panel's resolution. If the content does not match the panel's resolution, it may appear distorted or pixelated.
    2. Viewing angles: LCD panels have limited viewing angles, meaning that the content may not be easily visible from all angles. It is important to consider the intended viewing angle and optimize the content accordingly.
    3. Color accuracy: LCD panels may have limitations in color accuracy and reproduction. It is important to calibrate the display to ensure accurate color representation, especially for applications such as graphic design or photo editing.
    4. Response time: LCD panels have a response time, which refers to how quickly the pixels can change from one color to another. Fast-moving content, such as videos or games, may exhibit motion blur or ghosting if the response time is slow.
    5. Backlighting: LCD panels require a backlight to illuminate the pixels. The backlight can affect the overall brightness, contrast, and power consumption of the display. It is important to consider the quality and efficiency of the backlighting system.
    6. Power consumption: LCD panels can consume significant power, especially when displaying bright or white content. This can be a limitation in battery-powered devices or applications where energy efficiency is crucial.
    7. Size and form factor: LCD panels come in various sizes and form factors, and it is important to select the appropriate panel size for the intended application. Additionally, the physical dimensions and weight of the LCD panel may also be a consideration in certain applications.
    8. Durability: LCD panels can be susceptible to damage from impacts, pressure, or extreme temperatures. It is important to consider the environment in which the LCD will be used and choose a panel with appropriate durability features if required.

    These considerations and limitations should be taken into account when designing, developing, or using LCD displays to ensure optimal performance and user experience.

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