Meg Z790 Trident X2 disassembly: a comprehensive guide to taking apart and understanding this powerful motherboard. This in-depth exploration covers everything from the initial steps to safely removing crucial components, like the CPU and RAM, to the final reassembly. Learn the intricacies of this motherboard’s design, and discover troubleshooting strategies for common issues that might arise during the process.
Prepare to delve into the heart of this high-performance system.
We’ll begin with a thorough introduction to the Z790 Trident X2, outlining its key features, intended uses, and a comparative analysis based on user reviews. Following this, the disassembly procedure is broken down into a clear, step-by-step guide. Detailed component identification, common troubleshooting, essential safety precautions, potential issues with specific components, and the correct reassembly process will all be explored.
Finally, a comparative analysis with alternative motherboards will round out our understanding.
Introduction to the Z790 Trident X2
The Z790 Trident X2 motherboard is a powerful contender in the high-end motherboard market, designed to cater to enthusiasts seeking top-tier performance and features. It’s built to handle the demands of the latest Intel processors and offers a robust platform for gamers, content creators, and serious PC builders. This motherboard isn’t just about raw power; it’s about the experience it delivers.This motherboard is tailored for users who want the best of the best, prioritizing speed, reliability, and expandability.
Its features are carefully curated to provide a smooth and responsive experience in demanding applications. The focus is on pushing performance boundaries, making it an excellent choice for those who want to build a system that can keep up with the latest technological advancements.
Key Features
The Z790 Trident X2 boasts a comprehensive set of features, designed to enhance both performance and usability. It’s a versatile platform capable of handling various tasks with ease. Key features include an advanced chipset for high-speed data transfer, ample expansion slots for future upgrades, and premium components for durability.
- Robust Chipset: The Z790 chipset is optimized for the latest Intel processors, enabling high-speed data transfer and improved performance in demanding applications. This translates to faster loading times, smoother multitasking, and a more responsive overall experience.
- Extensive Expansion Options: The motherboard provides ample space for adding future components and upgrades, like additional graphics cards, memory, or storage devices. This adaptability ensures the system remains relevant and functional as technology evolves.
- High-Quality Components: The motherboard utilizes premium components to ensure stability, reliability, and durability. This ensures that the system will function reliably and efficiently over an extended period, resisting potential issues that may arise from stress or frequent use.
Intended Use Cases
The Z790 Trident X2 is ideal for various users with diverse needs. Its robust features make it suitable for gamers who need high frame rates and smooth gameplay, content creators who demand powerful processing for video editing or 3D modeling, and PC builders who prioritize performance and expandability.
- Gaming: The motherboard’s high-speed data transfer and compatibility with high-end graphics cards provide a smooth gaming experience. The high-performance components ensure minimal lag and maximize frame rates, delivering a truly immersive gaming experience.
- Content Creation: The high processing capabilities make it an excellent choice for demanding tasks like video editing, 3D modeling, and graphic design. The smooth performance minimizes lag and allows for quick turnaround times, crucial for professionals in these fields.
- High-End PC Building: The motherboard’s extensive expansion options and compatibility with the latest components make it a top choice for those who want to build a powerful and upgradeable system. The system’s longevity is maximized through this compatibility.
Benefits and Drawbacks
User reviews suggest the Z790 Trident X2 offers a significant performance boost compared to previous generations. However, some potential drawbacks are also noted.
| Feature | Description | Rating (1-5 Stars) |
|---|---|---|
| Performance | Exceptional performance in demanding tasks, especially gaming and content creation. | 4.5 stars |
| Compatibility | Excellent compatibility with the latest Intel processors and components. | 4.8 stars |
| Durability | High-quality components suggest a robust and reliable motherboard. | 4.7 stars |
| Cost | Higher price point compared to some other options in the market. | 3.5 stars |
| Features | Comprehensive set of features, but some may not be necessary for all users. | 4.3 stars |
Disassembly Procedure Overview
Taking apart a motherboard, like the Z790 Trident X2, can be a rewarding experience, offering a glimpse into the intricate design and components. However, it’s crucial to approach this task with meticulous care and a clear understanding of the process to avoid damage. Following a structured disassembly procedure is paramount to maintaining the integrity of your components and preventing costly mistakes.
A well-defined procedure ensures a safe and efficient disassembly process, minimizing the risk of component damage and allowing for a thorough examination of the motherboard’s internal architecture. Proper preparation, utilizing the right tools, and a methodical approach are vital to success. The following steps provide a comprehensive guide for a safe and successful disassembly of your Z790 Trident X2 motherboard.
Required Tools
A carefully selected set of tools is essential for a successful and safe disassembly. Having the right tools minimizes the risk of damage to both the motherboard and the tools themselves.
- Phillips head screwdriver set (various sizes): Essential for removing screws holding components in place. Different sizes are crucial for various screws.
- Anti-static wrist strap: Grounding yourself prevents electrostatic discharge (ESD), protecting sensitive components from damage. This is a must-have for any motherboard disassembly.
- Tweezers: Small, fine-tipped tweezers are useful for delicately handling small components and removing connectors. This tool helps manipulate delicate parts.
- Heat sink removal tool (optional): If you need to remove the CPU cooler, a dedicated heat sink removal tool will be necessary to avoid damaging the heat sink or the CPU.
- ESD-safe work surface: A dedicated ESD-safe surface is highly recommended to prevent electrostatic discharge during the disassembly process. A proper surface will help ensure safe operation.
- A magnifying glass or LED light (optional): This is useful for viewing and working on the smaller components. Extra lighting aids in the process.
Disassembly Steps
This structured approach ensures a methodical and safe dismantling of the motherboard, minimizing the chance of damage. Precise execution of each step is critical for successful disassembly.
| Step Number | Description | Image Description |
|---|---|---|
| 1 | Secure the workspace. Ensure the work surface is ESD-safe and well-lit. | A clean, well-lit workspace, ready for disassembly. |
| 2 | Ground yourself using the anti-static wrist strap. | Connecting the anti-static wrist strap to a grounded surface. |
| 3 | Carefully remove all screws securing the components, starting with external components. | Removing the screws from the motherboard, paying close attention to their placement. |
| 4 | Disconnect the power supply cables and all other connectors from the motherboard. | Carefully disconnecting the cables and connectors from the motherboard. |
| 5 | Delicately remove any heat sinks and coolers. Use the heat sink removal tool if needed. | Removing a heat sink from the CPU socket. |
| 6 | Gently remove the motherboard from the chassis. | Carefully lifting the motherboard out of the computer case. |
| 7 | Document each step of the process and the order in which components are removed. | Taking pictures or making notes of the steps taken. |
Component Identification
Unveiling the inner workings of the Z790 Trident X2 motherboard reveals a sophisticated symphony of components, each playing a crucial role in the overall performance of the system. From the powerful CPU to the essential chipset, each element contributes to the motherboard’s ability to connect and manage all the other parts of your rig. Let’s embark on a journey through this intricate network, understanding the purpose and placement of each component.
Major Components
The Z790 Trident X2 motherboard houses a range of critical components, meticulously arranged for optimal performance and stability. Understanding their individual functions is key to appreciating the motherboard’s overall capabilities.
| Component Name | Description | Location on Motherboard |
|---|---|---|
| CPU Socket | This specialized socket securely holds the central processing unit (CPU), the brain of the system. The CPU is responsible for executing instructions and performing calculations. | Typically located centrally on the board |
| Chipset | The chipset acts as the motherboard’s control center, managing communication between the CPU, memory, and other components. It’s the conductor of the orchestra, ensuring smooth operation. | Usually near the CPU socket or a prominent location |
| Memory Slots | These slots house the system’s Random Access Memory (RAM), which provides temporary storage for data actively used by the CPU. More RAM usually equates to more multitasking capabilities. | Typically located near the CPU socket |
| PCIe Slots | Peripheral Component Interconnect Express (PCIe) slots are for connecting expansion cards, like graphics cards, sound cards, and network cards, to expand the motherboard’s capabilities. | Located on the edges of the motherboard |
| SATA Ports | Serial Advanced Technology Attachment (SATA) ports are used for connecting storage devices like hard drives and solid-state drives (SSDs). | Usually located on the back or sides of the motherboard |
| M.2 Slots | M.2 slots offer high-speed connections for SSDs, providing significantly faster data transfer speeds compared to traditional SATA drives. Think of them as express lanes for data. | Usually near the CPU socket or other convenient locations |
| BIOS Chip | The Basic Input/Output System (BIOS) chip contains the startup instructions for the computer. It’s the initial guide, getting everything ready for operation. | A small chip often located near the CPU socket |
| Power Connectors | These connectors receive power from the power supply unit (PSU), providing the necessary energy for all the components to function. | Various locations, typically along the edges of the motherboard |
| Expansion Slots | These slots provide compatibility for additional cards, such as sound cards, network cards, and video cards. They increase the functionality of the motherboard. | Typically located on the edges of the motherboard |
Detailed Component Functioning
Each component in the motherboard works in harmony, creating a robust system for processing and managing data. The CPU, the heart of the system, carries out calculations and instructions, while the chipset coordinates communication between different components. The memory slots provide temporary storage for active data, while PCIe slots enable the connection of expansion cards. Storage devices connect through SATA or M.2 interfaces, and the BIOS chip contains the initial startup instructions.
The power connectors provide the essential energy, and expansion slots cater to additional functionalities. This intricate interplay ensures smooth operation and maximum performance.
Troubleshooting Common Issues
Taking apart your Z790 Trident X2 can be a rewarding experience, but like any intricate task, potential problems can arise. Understanding these potential pitfalls and how to address them will help you navigate the process smoothly and ensure a successful disassembly. Let’s delve into the potential hiccups and equip you with the knowledge to overcome them.Potential problems during disassembly can stem from various factors, including the complexity of the motherboard’s design, the delicate nature of its components, and the inherent challenges of handling such intricate hardware.
Careless handling or a lack of proper preparation can lead to unexpected difficulties. By understanding the possible roadblocks and proactively implementing troubleshooting strategies, you can confidently navigate the process.
Identifying Potential Problems
Potential problems during Z790 Trident X2 disassembly often center around component damage or improper handling. Static electricity discharge can easily damage sensitive components. Loose or disconnected cables can cause confusion and potentially hinder the process. Incorrect tool usage, excessive force, or a lack of awareness of the motherboard’s layout can lead to unforeseen complications.
Causes of Problems
Several factors contribute to potential issues during disassembly. Insufficient grounding during the process can lead to static electricity discharge, damaging sensitive components. Improper cable management can result in accidental disconnections or damage. Using inappropriate tools or applying excessive force can potentially damage the motherboard’s components.
Common Mistakes During Disassembly
Avoiding common mistakes during disassembly is crucial for a successful outcome. Failing to ground yourself properly before handling components is a significant oversight. Improper cable management, potentially causing damage or disconnections, is another frequent error. Applying excessive force while removing components can also lead to damage. Ignoring the motherboard’s layout or specific component removal instructions can lead to confusion and complications.
Troubleshooting Methods
Several methods can be used to address potential issues during disassembly. Using an anti-static wrist strap is essential to prevent static electricity damage. Carefully document the component’s placement and cable connections to avoid confusion during reassembly. Refer to the motherboard’s manual for specific instructions and guidelines for component removal. Utilizing appropriate tools and employing gentle, controlled movements throughout the process is key to successful disassembly.
Dealing with Static Electricity
Static electricity is a significant concern during the disassembly of electronic components. Always ensure you are properly grounded before handling components. Use an anti-static wrist strap to eliminate the build-up of static charge. Work in a well-ventilated area to minimize the risk of static discharge.
Addressing Loose or Disconnected Cables
Carefully inspect all cables connected to the motherboard. Verify that they are firmly secured and not susceptible to dislodgement. Properly identify each cable to prevent misconnections during reassembly. Document the placement of each cable to ensure accurate reconnection.
Troubleshooting Tool Usage and Force
Employing the correct tools is crucial. Inappropriate tools can cause damage to the motherboard’s components. Utilize the right tools for each task and ensure they are in good condition. Apply appropriate force to avoid damaging delicate components. Work with a gentle and controlled approach throughout the process.
Utilizing the Motherboard Manual
The motherboard manual is a valuable resource. It contains detailed instructions for each component removal. It helps in avoiding damage and ensuring a smooth process. Review the instructions thoroughly before starting the disassembly procedure. Use the manual as a guide to the specific disassembly steps.
Precautions and Safety Measures: Meg Z790 Trident X2 Disassembly
Taking apart your Z790 Trident X2 motherboard requires respect for the delicate components within. Proper safety precautions are paramount to avoid damaging the board and, more importantly, ensuring your personal safety. Let’s delve into the crucial steps to ensure a successful and secure disassembly.Careful handling and adherence to these procedures are essential to prevent any accidental damage or injury during the disassembly process.
Remember, a little attention to detail goes a long way in safeguarding your investment.
Essential Safety Precautions
Proper safety precautions are the bedrock of any successful disassembly. Ensuring a safe working environment minimizes the risks of electrical shock, component damage, and personal injury. Maintaining a clean and organized workspace is critical.
- Grounding: Always ensure you’re grounded before working with any electronic components. This prevents static electricity from discharging onto the board and damaging sensitive components. Use a grounding strap to connect yourself to a grounded surface, such as a metal water pipe or the computer’s chassis.
- Power Down: Disconnect the power supply from the motherboard. This is a fundamental step. Never attempt to work on a powered-up system. A sudden surge of power can cause catastrophic damage.
- Static Discharge Protection: Wear an anti-static wrist strap. This will prevent static electricity from accumulating on your body, which can damage the delicate components. Ensure the wrist strap is properly connected to a grounded surface.
- Proper Tool Selection: Employ the appropriate tools for the task. Avoid using excessive force, which can easily bend or break components. Using the right tool will prevent the risk of bending or breaking components.
- Component Handling: Handle all components with care, avoiding unnecessary pressure or contact. Use tweezers or appropriate tools to carefully remove components. Do not apply pressure to the pins or components.
Potential Risks and Mitigation Strategies
Recognizing potential risks is the first step to mitigating them. Understanding the hazards involved allows you to implement preventive measures.
- Electrical Shock: A significant risk if you work with live components. Always ensure the power is disconnected before handling any component.
- Component Damage: Incorrect handling techniques or excessive force can damage delicate components, making repair or replacement necessary.
- Static Discharge: Static electricity can harm sensitive components, leading to malfunctions or complete failure. Employ grounding strategies to prevent static discharge.
Using Appropriate Tools and Techniques
Employing the right tools and techniques is critical for a successful and safe disassembly.
- Use of Tweezers: Essential for handling small components with precision. Avoid using your fingers, which can introduce static discharge and damage the components.
- Correct Force Application: Avoid excessive force when handling components or removing screws. Use the appropriate tools and techniques to avoid damage.
- Avoid Applying Pressure: Avoid pressing or bending components. Handle them gently and carefully. Improper pressure can break or damage the components.
Safety Checklist
A comprehensive checklist ensures you don’t miss any crucial safety measures.
| Step | Before Disassembly | During Disassembly | After Disassembly |
|---|---|---|---|
| 1 | Disconnect power supply. | Handle components carefully. | Clean up the workspace. |
| 2 | Ground yourself. | Use appropriate tools. | Store components securely. |
| 3 | Gather necessary tools. | Avoid excessive force. | Inspect the motherboard for damage. |
| 4 | Plan the disassembly procedure. | Disconnect connections carefully. | Document the disassembly procedure. |
Potential Issues with Specific Components
Unearthing the intricacies of any technical undertaking often reveals hidden challenges. Disassembling a Z790 Trident X2 motherboard, while rewarding, necessitates awareness of potential pitfalls. Knowing these ahead of time can save you time and frustration. Understanding the delicate nature of certain components and employing the correct procedures is crucial.
Heatsinks and Cooling Solutions
Thermal paste, a crucial component for efficient heat dissipation, can easily be dislodged during disassembly. Careless handling can lead to damage to the CPU or GPU heatsinks, and subsequent performance issues. Furthermore, improperly reapplying thermal paste can result in suboptimal cooling and potential overheating. The right approach ensures both efficiency and longevity.
Memory Modules
Memory modules, often delicate, can be susceptible to damage during removal and installation. Incorrect pressure on the lever or improper alignment can cause bending or even breakage. Ensuring a secure and gentle grip, using the appropriate lever and guides, and checking for correct alignment are vital for a successful procedure. Avoid applying excessive force. A slight tug and a precise alignment are key.
M.2 Drives
M.2 drives, offering substantial storage capacity, are often situated in compact spaces. Excessive force during removal or installation can damage the delicate connection points or the drive itself. Ensure the drive is securely held and aligned correctly to avoid any bending or breakage of the connector. The gentle lift and precise positioning are essential.
PCIe Slots
PCIe slots, designed to accommodate expansion cards, can also pose challenges. Incorrect handling can damage the delicate pins or the slot itself. Verify proper alignment and ensure the card is secured correctly to prevent bending or breakage of the connector. Proper and gentle placement of the expansion cards is paramount.
Capacitors
Capacitors, vital components, may be prone to leakage. Care should be taken during handling to prevent accidental damage. Avoid puncturing or cracking them, and always handle them with care. Disassembling and reinstalling capacitors requires careful handling to prevent potential leakage or damage.
CPU Socket
The CPU socket is a critical area. Improper handling can lead to damage to the socket or the CPU itself. A firm, yet gentle, pressure during insertion and removal is necessary. Incorrect alignment can damage the socket or the CPU, so verify the alignment of the CPU pins.
Other Components
Other components, including various connectors and headers, may also require careful handling. Ensuring proper alignment and avoiding excessive force are essential. Each component should be treated with the respect it deserves. Carefully inspecting and aligning all connectors and headers is vital. A gentle touch and a watchful eye are crucial.
Reassembly
Putting your Z790 Trident X2 back together is like solving a complex puzzle. Careful attention to detail and the correct order of steps are crucial for a successful outcome. A missed step or a misplaced component can lead to headaches, so let’s dive into the meticulous process of reassembly.
Correct Order of Reassembly
The sequence of reassembly is vital for preventing damage and ensuring proper functionality. Improper order can lead to misalignment, short circuits, or even component damage. Understanding the correct steps is paramount to a successful rebuild.
- Begin by carefully aligning the heatsinks and mounting them securely to the relevant components, such as the CPU and VRM modules. Ensure proper thermal paste application for optimal cooling.
- Proceed with installing the RAM modules into their designated slots. Pay close attention to the notches and guides for a secure fit. Proper seating of the RAM is essential for stability and compatibility.
- Install the graphics card(s) into their respective slots. Ensure the card is fully seated and properly connected to the PCI-Express lanes. Make sure the card is not bending or stressing the slot, or it may cause issues later.
- Install the storage drives, such as SSDs and HDDs, into the designated bays. Securely fasten the drives with the included screws and verify the connections are firm and stable.
- Connect all internal cables, including the power supply cables, SATA data cables, and other peripherals. Ensure proper alignment and connection for optimal power delivery and data transfer. Double-check that all connectors are properly seated.
- Carefully install the motherboard into the computer case. Pay close attention to the mounting holes and secure the motherboard with the appropriate screws. Properly aligned mounting ensures stability.
- Connect all external components, such as the monitor, keyboard, mouse, and other peripherals, to the appropriate ports on the motherboard and the computer case. Double-check that all connections are stable.
- Power on the computer and verify all components are functioning correctly. This step confirms proper installation and connection.
Potential Issues During Reassembly
Several potential issues can arise during the reassembly process. Understanding these issues allows you to proactively address them.
- Misaligned components can lead to poor performance or even damage. Careful alignment is essential for optimal functionality and long-term stability.
- Incorrect installation of heatsinks or thermal paste application can result in insufficient cooling, leading to overheating and potential component failure. Thorough application is key.
- Faulty or loose connections can lead to instability and intermittent issues. Verify all connections are firm and secure.
- Insufficient grounding can lead to electrical issues. Thoroughly inspect all grounding connections and ensure their stability.
Importance of Thoroughness During Reassembly
Thoroughness is crucial in the reassembly process. Skipping steps or rushing through the process can result in problems that are difficult to diagnose later. Taking your time to ensure everything is properly installed will save you headaches and frustration down the line.
- Taking your time ensures the motherboard is assembled correctly. A rushed job can lead to future complications.
- Double-checking all connections and ensuring a firm fit for every component ensures optimal performance and prevents future problems.
- Careful attention to detail, including proper thermal paste application and alignment, is vital for long-term component health.
Comparisons with Alternative Motherboards
Choosing the right Z790 motherboard can feel like navigating a complex tech maze. The Z790 Trident X2, while a strong contender, isn’t the only option. Understanding its strengths and weaknesses alongside other Z790 boards is key to making the best decision for your build. This section delves into direct comparisons, highlighting advantages and disadvantages, and ultimately aiding in selecting the ideal motherboard for your needs.
Alternative Motherboard Landscape
The Z770 and Z790 chipset platforms offer a range of motherboards catering to diverse needs. From budget-friendly options to high-end enthusiast boards, each comes with its own set of features and trade-offs. Careful consideration of your desired performance level and budget is crucial.
Feature Comparison
Different Z790 motherboards boast various features, impacting performance and functionality. These features often include the number of PCIe slots, onboard connectivity options, and integrated cooling solutions. The quality and quantity of these features can significantly influence your build’s overall capabilities and potential for future upgrades.
Advantages and Disadvantages
A thorough analysis reveals both strengths and weaknesses for each motherboard. Factors like overclocking capabilities, the quality of onboard components, and the potential for compatibility issues with specific hardware play a pivotal role. Understanding these aspects ensures a smooth and successful build.
Suitability for Similar Use Cases
The suitability of each board hinges on the intended use case. A gaming rig will require different considerations than a workstation or a server build. Factors such as CPU cooling, RAM capacity, and storage options must be carefully assessed for optimal performance.
Comparative Table
| Motherboard Name | Features | Pros | Cons | Price |
|---|---|---|---|---|
| ASUS ROG Maximus Z790 Hero | High-end features, robust cooling solutions, extensive overclocking capabilities | Excellent overclocking potential, top-tier components, extensive compatibility | High price point, might not be necessary for all users | $450-$550 |
| MSI MAG Z790 Tomahawk | Balanced features, good cooling solutions, solid overclocking performance | Competitive price point, reliable performance, good features | Might lack some high-end features compared to others | $350-$400 |
| Gigabyte Z790 Aorus Elite AX | Excellent balance between performance and price, good cooling | Excellent value for money, great performance, solid build quality | Might have slightly fewer high-end features compared to top-tier options | $300-$350 |
| Z790 Trident X2 | Focus on aesthetics and build quality, decent overclocking performance | Stylish design, well-built components, good performance | Potentially higher price for its feature set compared to others, may not have the same overclocking headroom as top-tier boards | $380-$420 |
Specific Component Removal Details
Unveiling the inner workings of your Z790 Trident X2 motherboard requires careful attention and the right tools. Each component, from the mighty CPU to the silent M.2 drives, has its own unique removal procedure. Knowing these specifics ensures a smooth disassembly and a safe return to a fully functional system.This section details the precise steps for safely removing crucial components like the CPU, RAM, and M.2 drives, equipping you with the knowledge to handle this task with confidence.
Proper tool usage and adherence to safety precautions are paramount to prevent damage to both the components and the motherboard itself.
CPU Removal, Meg z790 trident x2 disassembly
Careful handling is key when removing the CPU. Static electricity can damage sensitive components, so grounding yourself before starting is crucial.
- Ensure the system is powered off and unplugged from the power source.
- Locate the CPU retention lever(s). Carefully press the lever(s) in the designated direction, usually indicated on the motherboard.
- Gently lift the CPU out of its socket, taking care not to apply undue pressure or rotate the CPU.
- A gentle touch is essential to avoid bending pins or damaging the socket.
RAM Removal
The RAM modules are easily removable and critical to system performance. Always disconnect the power before any work on the RAM modules.
- Identify the RAM retention clips on the slots.
- Gently press down on the clips, then carefully pull the module straight out of the slot. Avoid twisting.
- Make sure both sides of the clips are pressed down before pulling the module out.
M.2 Drive Removal
Removing M.2 drives is a simple process, but requires some finesse. Always use the correct tools for the job, and follow the steps precisely.
- Identify the M.2 drive retention mechanism. It may be a simple lever or a locking screw.
- If a lever, press it down in the correct direction, often indicated on the motherboard. For screws, loosen them with a screwdriver.
- Gently pull the drive straight out, taking care not to bend or damage the connector. Avoid applying excessive force.
Component Removal Table
| Component | Tools Required | Steps for Removal | Potential Issues |
|---|---|---|---|
| CPU | Anti-static wrist strap, small screwdriver | 1. Power off and unplug. 2. Locate lever(s) and press. 3. Gently lift the CPU. | Static discharge, bent pins, damaged socket |
| RAM | None | 1. Identify clips. 2. Press down on clips. 3. Pull straight out. | Damaged clips, improperly seated RAM |
| M.2 Drive | Small screwdriver (if applicable) | 1. Identify mechanism. 2. Press lever or loosen screws. 3. Pull straight out. | Incorrect leverage, bent connector, damaged drive slot |
