The Usb A To B Printer Cable is a specific type of USB cable primarily used to connect a computer to a printer. Amazingprint.net is your comprehensive guide to understanding its function, selecting the right cable, and optimizing your printing setup for efficiency and quality. Discover the best options for your printing needs, with tips on cable selection, troubleshooting, and the latest advancements in printing technology.
1. What is a USB A to B Printer Cable?
A USB A to B printer cable is a standard cable used to connect a computer (or other host device) to a printer. The USB A connector plugs into your computer, while the USB B connector plugs into the printer. This cable facilitates data transmission, allowing the computer to send print jobs to the printer.
1.1. Understanding the USB A to B Connector
The USB A connector is the flat, rectangular connector commonly found on one end of most USB cables, designed to plug into computers, laptops, and other host devices. The USB B connector, on the other hand, is a more square-shaped connector specifically designed for printers and other peripherals. Recognizing the difference between these connectors is essential for ensuring proper connectivity.
1.2. Why is USB A to B Used for Printers?
USB A to B cables are used for printers due to their standardized design and reliable data transfer capabilities. The USB B connector provides a secure and stable connection to the printer, minimizing the risk of accidental disconnections during printing. Additionally, USB technology offers sufficient bandwidth for transmitting print jobs, making it a practical choice for printers.
1.3. Evolution of Printer Cables: From Parallel to USB
Before USB, printers commonly used parallel cables, which were bulky and offered slower data transfer speeds. The introduction of USB A to B cables marked a significant advancement, providing faster data transfer, easier connectivity, and a more compact design. This transition has made connecting and using printers more convenient for both home and office environments.
2. What are the Key Features of a Good USB A to B Printer Cable?
A good USB A to B printer cable should have several key features, including high-quality construction, reliable data transfer, appropriate length, and compliance with USB standards. These features ensure optimal performance and longevity.
2.1. Build Quality and Shielding
High-quality construction involves durable materials and robust connectors that can withstand frequent use. Effective shielding minimizes interference from external sources, ensuring stable and reliable data transfer. According to a study by the Electronics Engineering Journal in July 2024, cables with proper shielding reduce data loss by up to 30%.
2.2. Data Transfer Speed and USB Standards (2.0 vs. 3.0)
Data transfer speed is crucial for quickly sending print jobs to the printer. USB 2.0 offers sufficient speed for most printing tasks, while USB 3.0 provides significantly faster transfer rates, beneficial for large or high-resolution print jobs. Ensuring the cable complies with USB standards guarantees compatibility and optimal performance.
2.3. Cable Length and Signal Integrity
The length of the cable should be appropriate for your setup, avoiding excessive length that can lead to signal degradation. Signal integrity ensures that the data transmitted remains accurate and reliable over the entire length of the cable. Shorter cables generally provide better signal integrity.
3. What are the Different Types of USB A to B Printer Cables?
Different types of USB A to B printer cables vary in terms of data transfer speed, shielding, and construction. Understanding these differences helps you choose the right cable for your specific needs.
3.1. USB 2.0 vs. USB 3.0 A to B Cables
USB 2.0 cables are suitable for standard printing tasks and offer a data transfer speed of up to 480 Mbps. USB 3.0 cables, on the other hand, provide a much faster data transfer speed of up to 5 Gbps, making them ideal for high-resolution images and large documents. The choice between the two depends on the printer’s capabilities and the volume of data being transferred.
3.2. Shielded vs. Unshielded Cables
Shielded cables have an extra layer of protection to minimize electromagnetic interference (EMI), ensuring stable data transfer. Unshielded cables are more susceptible to interference, which can lead to data loss or corruption. Shielded cables are recommended for environments with potential sources of interference.
3.3. Cables with Ferrite Beads
Cables with ferrite beads are designed to reduce high-frequency noise, improving signal quality. Ferrite beads act as filters, preventing noise from traveling along the cable. These cables are particularly useful in environments with electronic devices that may generate interference.
4. How to Choose the Right USB A to B Printer Cable for Your Needs?
Choosing the right USB A to B printer cable involves considering several factors, including the printer type, usage environment, and specific requirements.
4.1. Consider Your Printer Type and Its Requirements
Different printers have different requirements in terms of data transfer speed and connectivity. High-resolution printers may benefit from USB 3.0 cables, while basic printers may work fine with USB 2.0 cables. Checking the printer’s specifications helps ensure compatibility and optimal performance.
4.2. Assess Your Usage Environment (Home, Office, Industrial)
The usage environment affects the type of cable needed. In an office or industrial setting with multiple electronic devices, shielded cables are recommended to minimize interference. In a home environment with fewer potential sources of interference, unshielded cables may suffice.
4.3. Determine the Necessary Cable Length
Determine the necessary cable length to avoid excessive cable length, which can lead to signal degradation. Measure the distance between your computer and printer to choose the appropriate length. Standard lengths range from 3 feet to 15 feet.
5. What are the Benefits of Using a High-Quality USB A to B Printer Cable?
Using a high-quality USB A to B printer cable offers several benefits, including reliable data transfer, faster printing speeds, and improved print quality.
5.1. Reliable Data Transfer and Reduced Errors
High-quality cables ensure stable and reliable data transfer, reducing the risk of errors or data loss during printing. This is particularly important for critical documents or high-resolution images.
5.2. Faster Printing Speeds
USB 3.0 cables can significantly reduce printing times, especially for large files. Faster data transfer speeds mean the printer receives the data more quickly, resulting in quicker printing.
5.3. Improved Print Quality
Stable data transfer contributes to improved print quality by ensuring that all data is accurately transmitted to the printer. This minimizes the risk of artifacts or imperfections in the printed output.
Alt text: USB A to B printer cable connecting a computer to a printer, ensuring reliable data transfer for high-quality printing.
6. How to Troubleshoot Common Issues with USB A to B Printer Cables?
Common issues with USB A to B printer cables include connectivity problems, slow printing speeds, and error messages. Troubleshooting these issues involves checking the cable connection, updating drivers, and testing with another cable.
6.1. Checking the Cable Connection and Ports
Ensure the cable is securely connected to both the computer and the printer. Try using different USB ports on your computer to rule out port-related issues. A loose or faulty connection can cause intermittent or complete loss of connectivity.
6.2. Updating Printer Drivers
Outdated or corrupt printer drivers can cause connectivity problems. Visit the printer manufacturer’s website to download and install the latest drivers for your operating system. Regularly updating drivers ensures compatibility and optimal performance.
6.3. Testing with Another Cable
If you suspect the cable is faulty, try using another USB A to B cable to see if the problem persists. This helps determine whether the issue is with the cable itself or with the computer or printer.
7. How Does USB A to B Printer Cables Impact Print Quality?
USB A to B printer cables can significantly impact print quality by ensuring stable and accurate data transfer. A high-quality cable minimizes the risk of data loss or corruption, resulting in clearer and more accurate prints.
7.1. Ensuring Stable Data Transmission
Stable data transmission is crucial for maintaining print quality. High-quality cables with proper shielding prevent interference and ensure that data is accurately transmitted to the printer.
7.2. Minimizing Data Loss and Corruption
Data loss or corruption during transmission can lead to imperfections in the printed output. High-quality cables minimize this risk, ensuring that all data is accurately transferred.
7.3. Reducing Print Artifacts and Imperfections
Print artifacts and imperfections, such as lines or missing data, can be caused by poor cable quality. Using a high-quality USB A to B cable helps reduce these issues, resulting in cleaner and more professional-looking prints.
8. Where Can You Buy Reliable USB A to B Printer Cables?
Reliable USB A to B printer cables can be purchased from various sources, including online retailers, electronics stores, and office supply stores.
8.1. Online Retailers (Amazon, Best Buy)
Online retailers like Amazon and Best Buy offer a wide selection of USB A to B printer cables from various brands. Reading customer reviews can help you make an informed decision.
8.2. Electronics Stores (e.g., Micro Center)
Electronics stores like Micro Center specialize in electronic components and accessories, offering a range of high-quality USB A to B printer cables. Knowledgeable staff can provide recommendations based on your specific needs.
8.3. Office Supply Stores (Staples, Office Depot)
Office supply stores like Staples and Office Depot carry a variety of USB A to B printer cables suitable for home and office use. These stores often offer cables from reputable brands at competitive prices.
9. How to Properly Maintain Your USB A to B Printer Cables?
Proper maintenance of USB A to B printer cables involves careful handling, avoiding extreme temperatures, and storing them correctly.
9.1. Handling and Storage Tips
Avoid bending or twisting the cable excessively, as this can damage the internal wires. Store the cable in a cool, dry place away from direct sunlight.
9.2. Avoiding Damage from Bending and Twisting
Repeated bending and twisting can cause the cable to fail over time. Use cable ties or organizers to keep the cable neatly arranged and prevent unnecessary stress.
9.3. Cleaning and Protecting the Connectors
Keep the connectors clean and free from dust or debris. Use a dry cloth to gently wipe the connectors. Avoid using liquids or harsh chemicals, which can damage the connectors.
10. What are the Future Trends in Printer Cable Technology?
Future trends in printer cable technology include the adoption of USB-C connectors, wireless printing solutions, and advancements in data transfer speeds.
10.1. The Rise of USB-C in Printers
USB-C connectors are becoming increasingly popular due to their reversibility and faster data transfer speeds. Future printers may adopt USB-C ports, offering improved connectivity and performance.
10.2. Wireless Printing and Its Impact on Cable Usage
Wireless printing solutions, such as Wi-Fi and Bluetooth, are reducing the reliance on physical cables. While cables will still be necessary for some applications, wireless technology offers greater convenience and flexibility.
10.3. Advancements in Data Transfer Speeds
Future USB standards will offer even faster data transfer speeds, enabling quicker printing of large and complex documents. These advancements will improve the overall printing experience.
11. USB A to B Printer Cable Alternatives
While USB A to B cables are standard, alternatives include wireless connections and Ethernet cables, each offering unique advantages and disadvantages.
11.1. Wireless Connections (Wi-Fi, Bluetooth)
Wireless connections offer convenience by eliminating the need for physical cables. Wi-Fi provides a stable and fast connection, while Bluetooth is suitable for short-range printing. However, wireless connections may be susceptible to interference and security risks.
11.2. Ethernet Cables
Ethernet cables provide a wired network connection, offering reliable and fast data transfer. Ethernet connections are suitable for printers connected to a local network, ensuring stable performance.
11.3. Comparing the Pros and Cons of Each Alternative
Each alternative has its pros and cons. Wireless connections offer convenience but may be less reliable. Ethernet cables provide stable performance but require a wired network connection. USB A to B cables offer a balance of reliability and convenience, making them a practical choice for many users.
12. How to Extend the Life of Your USB A to B Printer Cable
To extend the life of your USB A to B printer cable, handle it with care, avoid extreme temperatures, and store it properly when not in use.
12.1. Proper Handling Techniques
Avoid pulling the cable forcefully from the ports, as this can damage the connectors. Gently disconnect the cable by holding the connector.
12.2. Avoiding Extreme Temperatures and Humidity
Extreme temperatures and humidity can degrade the cable’s materials and cause it to fail. Store the cable in a cool, dry place.
12.3. Storage Solutions for Longevity
Use cable ties or organizers to keep the cable neatly arranged and prevent tangling. Store the cable in a protective case or bag when not in use.
13. Can a USB A to B Printer Cable Affect Scanning Quality?
Yes, a USB A to B printer cable can affect scanning quality by ensuring stable and accurate data transfer. A high-quality cable minimizes the risk of data loss or corruption, resulting in clearer and more accurate scans.
13.1. Data Integrity in Scanning
Data integrity is crucial for maintaining scan quality. High-quality cables with proper shielding prevent interference and ensure that data is accurately transmitted to the computer.
13.2. Minimizing Interference During Scanning
Interference during scanning can lead to imperfections in the scanned output. Using a high-quality USB A to B cable helps reduce these issues, resulting in cleaner and more professional-looking scans.
13.3. Ensuring Accurate Image Reproduction
Stable data transfer contributes to accurate image reproduction by ensuring that all data is accurately transmitted to the computer. This minimizes the risk of artifacts or imperfections in the scanned output.
14. Are All USB A to B Printer Cables Created Equal?
No, not all USB A to B printer cables are created equal. Differences in build quality, shielding, and data transfer speed can significantly impact performance.
14.1. Variations in Build Quality
Variations in build quality affect the cable’s durability and longevity. High-quality cables use durable materials and robust connectors that can withstand frequent use.
14.2. Differences in Shielding Effectiveness
Differences in shielding effectiveness affect the cable’s ability to minimize interference. Cables with better shielding provide more stable data transfer.
14.3. Impact on Data Transfer Speed and Reliability
The quality of the cable directly impacts data transfer speed and reliability. High-quality cables provide faster and more reliable data transfer, resulting in improved performance.
15. What to Do If Your Printer Doesn’t Recognize the USB A to B Cable?
If your printer doesn’t recognize the USB A to B cable, troubleshoot by checking the connection, updating drivers, and testing with another cable.
15.1. Troubleshooting Steps for Connection Issues
Ensure the cable is securely connected to both the computer and the printer. Try using different USB ports on your computer to rule out port-related issues.
15.2. Driver Updates and Compatibility
Outdated or corrupt printer drivers can cause connectivity problems. Visit the printer manufacturer’s website to download and install the latest drivers for your operating system.
15.3. Testing the Cable on Another Device
If you suspect the cable is faulty, try using it on another device to see if the problem persists. This helps determine whether the issue is with the cable itself or with the computer or printer.
16. Can a Damaged USB A to B Printer Cable Affect Printing Speed?
Yes, a damaged USB A to B printer cable can affect printing speed by causing intermittent or complete loss of connectivity, leading to slower data transfer rates.
16.1. Impact of Physical Damage on Performance
Physical damage, such as bent connectors or frayed wires, can degrade the cable’s performance and reduce data transfer speeds.
16.2. Identifying Signs of a Damaged Cable
Signs of a damaged cable include intermittent connectivity, slow printing speeds, and visible damage to the connectors or cable itself.
16.3. When to Replace a Damaged Cable
Replace a damaged cable immediately to prevent further issues and ensure optimal printing performance. Using a damaged cable can lead to data loss or corruption.
17. How Does the USB A to B Printer Cable Compare to Other Printer Connection Types?
The USB A to B printer cable offers a balance of reliability and convenience compared to other printer connection types like parallel, Ethernet, and wireless.
17.1. USB vs. Parallel Connections
USB connections offer faster data transfer speeds and easier connectivity compared to older parallel connections. USB cables are also more compact and versatile.
17.2. USB vs. Ethernet Connections
Ethernet connections provide a wired network connection, offering reliable and fast data transfer. USB connections are more suitable for direct connections between a computer and printer.
17.3. USB vs. Wireless Connections
Wireless connections offer convenience by eliminating the need for physical cables. USB connections are more reliable and secure, making them a practical choice for critical printing tasks.
18. What are the Common Mistakes to Avoid When Using USB A to B Printer Cables?
Common mistakes to avoid when using USB A to B printer cables include using excessive force, neglecting cable maintenance, and ignoring cable specifications.
18.1. Using Excessive Force When Connecting or Disconnecting
Avoid using excessive force when connecting or disconnecting the cable, as this can damage the connectors. Gently insert and remove the cable by holding the connector.
18.2. Neglecting Cable Maintenance
Neglecting cable maintenance can lead to premature failure. Regularly clean the connectors and store the cable properly to extend its life.
18.3. Ignoring Cable Specifications
Ignoring cable specifications can result in compatibility issues and suboptimal performance. Ensure the cable meets the printer’s requirements in terms of data transfer speed and connectivity.
19. USB A to B Printer Cable: Length Limitations and Solutions
USB A to B printer cables have length limitations to ensure signal integrity. Exceeding these limitations can lead to signal degradation and connectivity issues.
19.1. Understanding Length Limitations
USB 2.0 cables have a maximum length of 5 meters (16 feet), while USB 3.0 cables have a maximum length of 3 meters (10 feet). Exceeding these lengths can cause signal degradation.
19.2. Using USB Extenders
USB extenders can be used to extend the length of USB cables without sacrificing signal integrity. These devices boost the signal, allowing for longer cable runs.
19.3. Alternative Connection Methods for Long Distances
For long distances, consider using alternative connection methods such as Ethernet or wireless connections. These methods can provide reliable connectivity over longer distances.
20. How Do Ferrite Beads Improve USB A to B Printer Cable Performance?
Ferrite beads improve USB A to B printer cable performance by reducing high-frequency noise, ensuring stable data transfer and improved print quality.
20.1. Reducing High-Frequency Noise
Ferrite beads act as filters, preventing high-frequency noise from traveling along the cable. This noise can interfere with data transfer, leading to errors or data loss.
20.2. Improving Signal Quality
By reducing noise, ferrite beads improve signal quality, ensuring that data is accurately transmitted to the printer. This results in clearer and more accurate prints.
20.3. Enhancing Data Transfer Stability
Stable data transfer is crucial for maintaining print quality. Ferrite beads help ensure stable data transfer by minimizing interference and noise.
21. USB A to B Printer Cable and Power Delivery: What You Need to Know
USB A to B printer cables primarily focus on data transfer, and power delivery is generally limited. Understanding these limitations is essential for avoiding potential issues.
21.1. Limited Power Delivery Capabilities
USB A to B printer cables are not designed for significant power delivery. They primarily transfer data, with limited power capabilities.
21.2. Avoiding Power-Related Issues
To avoid power-related issues, ensure that the printer has its own power source. Do not rely on the USB cable for powering the printer.
21.3. When to Use a Separate Power Source
Always use a separate power source for the printer to ensure stable and reliable operation. This prevents potential issues caused by insufficient power delivery.
22. The Role of USB A to B Printer Cables in 3D Printing
USB A to B printer cables play a crucial role in 3D printing by providing a stable and reliable connection between the computer and the 3D printer.
22.1. Ensuring Stable Connection for 3D Printers
Stable connection is crucial for 3D printing, as interruptions can lead to print failures. USB A to B cables provide a reliable connection, ensuring smooth and continuous printing.
22.2. Data Transfer for Complex 3D Models
Complex 3D models require significant data transfer. High-quality USB A to B cables ensure that data is accurately transmitted to the 3D printer, resulting in precise and detailed prints.
22.3. Minimizing Print Errors and Interruptions
By providing a stable and reliable connection, USB A to B cables minimize print errors and interruptions, ensuring successful 3D printing.
23. Environmental Considerations for USB A to B Printer Cables
Environmental considerations for USB A to B printer cables include choosing eco-friendly materials, recycling old cables, and reducing electronic waste.
23.1. Choosing Eco-Friendly Cables
Look for cables made from eco-friendly materials, such as recycled plastics or biodegradable materials. These cables reduce the environmental impact of electronic accessories.
23.2. Recycling Old Cables
Recycle old cables properly to prevent them from ending up in landfills. Many electronics stores and recycling centers offer cable recycling programs.
23.3. Reducing Electronic Waste
Reduce electronic waste by properly maintaining your cables and extending their lifespan. Avoid unnecessary replacements and dispose of old cables responsibly.
24. USB A to B Printer Cable Certifications and Standards
USB A to B printer cable certifications and standards ensure that the cables meet certain quality and safety requirements, providing reliable performance and protection.
24.1. Understanding USB Certifications
Look for USB certifications such as USB-IF (USB Implementers Forum) to ensure that the cable meets industry standards for performance and safety.
24.2. Compliance with Industry Standards
Compliance with industry standards guarantees that the cable has been tested and certified to meet certain quality and safety requirements.
24.3. Ensuring Safety and Performance
Choosing certified cables ensures safety and performance, providing reliable connectivity and protection for your devices.
25. How to Choose the Right USB A to B Printer Cable for Mac vs. PC
Choosing the right USB A to B printer cable for Mac vs. PC primarily involves ensuring compatibility with the operating system and printer.
25.1. Compatibility with Mac and PC
Most USB A to B printer cables are compatible with both Mac and PC operating systems. However, ensure that the drivers are properly installed for optimal performance.
25.2. Driver Considerations for Each Operating System
Driver considerations for each operating system involve downloading and installing the latest drivers from the printer manufacturer’s website.
25.3. Ensuring Optimal Performance on Both Platforms
To ensure optimal performance on both platforms, use high-quality cables and keep the drivers up to date. Regularly check for updates to maintain compatibility and performance.
26. USB A to B Printer Cable: Common Myths Debunked
Common myths about USB A to B printer cables include the belief that all cables are the same and that expensive cables always offer better performance.
26.1. Myth: All USB Cables are the Same
Not all USB cables are the same. Differences in build quality, shielding, and data transfer speed can significantly impact performance.
26.2. Myth: Expensive Cables Always Offer Better Performance
Expensive cables do not always offer better performance. While high-quality cables can provide improved performance, price is not always an indicator of quality.
26.3. Fact: Quality Matters More Than Price
Quality matters more than price when choosing a USB A to B printer cable. Look for cables with good build quality, shielding, and compliance with USB standards.
27. Setting Up Your Printer with a USB A to B Cable: A Step-by-Step Guide
Setting up your printer with a USB A to B cable involves connecting the cable, installing drivers, and configuring printer settings.
27.1. Connecting the Cable to Your Computer and Printer
Connect the USB A connector to your computer and the USB B connector to your printer. Ensure that the connections are secure.
27.2. Installing Printer Drivers
Install the printer drivers from the manufacturer’s website or the installation CD. Follow the on-screen instructions to complete the installation.
27.3. Configuring Printer Settings
Configure the printer settings in your operating system to ensure optimal performance. Adjust settings such as print quality, paper size, and orientation.
28. The Impact of USB A to B Printer Cables on Color Accuracy
USB A to B printer cables can impact color accuracy by ensuring stable and accurate data transfer, minimizing the risk of data loss or corruption.
28.1. Ensuring Accurate Color Reproduction
Accurate color reproduction is crucial for professional printing. High-quality USB A to B cables ensure that color data is accurately transmitted to the printer.
28.2. Minimizing Color Distortion
Color distortion can occur if data is lost or corrupted during transmission. Using a high-quality cable helps minimize color distortion, resulting in more accurate prints.
28.3. Achieving Consistent Print Results
Stable data transfer contributes to consistent print results by ensuring that all data is accurately transmitted to the printer. This minimizes variations in color and quality.
29. USB A to B Printer Cables and Multi-Function Printers
USB A to B printer cables are essential for multi-function printers, providing connectivity for printing, scanning, and faxing.
29.1. Supporting All Functions of a Multi-Function Printer
USB A to B cables support all functions of a multi-function printer, including printing, scanning, and faxing.
29.2. Ensuring Seamless Integration
Seamless integration between the printer and computer is crucial for efficient operation. High-quality cables ensure stable and reliable connectivity.
29.3. Maximizing Productivity
By providing a reliable connection, USB A to B cables maximize productivity, allowing you to perform all tasks efficiently.
30. Where to Find the Best Deals on USB A to B Printer Cables
Finding the best deals on USB A to B printer cables involves comparing prices from various retailers and taking advantage of sales and discounts.
30.1. Comparing Prices from Different Retailers
Compare prices from different retailers, such as Amazon, Best Buy, and Staples, to find the best deals.
30.2. Taking Advantage of Sales and Discounts
Take advantage of sales and discounts, such as Black Friday and Cyber Monday, to save money on USB A to B printer cables.
30.3. Checking for Coupons and Promotions
Check for coupons and promotions online to save even more money on your purchase. Many retailers offer discounts to new customers.
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FAQ: USB A to B Printer Cables
1. What is the primary use of a USB A to B printer cable?
A USB A to B printer cable primarily connects a computer to a printer, enabling data transmission for print jobs.
2. How does a USB A to B cable impact print quality?
A high-quality USB A to B cable ensures stable data transfer, minimizing errors and improving print quality.
3. Can I use a USB 2.0 cable with a USB 3.0 printer?
Yes, you can, but you won’t achieve the faster data transfer speeds that a USB 3.0 cable provides.
4. What is the maximum length for a USB A to B printer cable?
The maximum length for a USB 2.0 cable is 5 meters (16 feet), while USB 3.0 cables have a maximum length of 3 meters (10 feet).
5. How can I troubleshoot if my printer doesn’t recognize the USB A to B cable?
Check the cable connection, update printer drivers, and test with another cable to troubleshoot connectivity issues.
6. Are all USB A to B printer cables shielded?
No, some cables are shielded to minimize interference, while others are unshielded. Shielded cables are recommended for environments with electronic interference.
7. What are ferrite beads on a USB A to B cable for?
Ferrite beads reduce high-frequency noise, improving signal quality and data transfer stability.
8. Can a damaged USB A to B cable affect printing speed?
Yes, a damaged cable can cause intermittent connectivity and slower data transfer rates, affecting printing speed.
9. What are the alternatives to using a USB A to B printer cable?
Alternatives include wireless connections (Wi-Fi, Bluetooth) and Ethernet cables.
10. How do I extend the life of my USB A to B printer cable?
Handle the cable with care, avoid extreme temperatures, and store it properly when not in use to extend its life.
