MX5KP64CAE3
Product Overview
Category: Memory Module
Use: Storage and retrieval of data in electronic devices
Characteristics: High-speed, high-capacity, reliable
Package: Small form factor, compatible with various devices
Essence: Provides efficient data storage and retrieval capabilities
Packaging/Quantity: Typically sold individually or in small quantities
Specifications
- Capacity: 64GB
- Type: DDR4 SDRAM
- Speed: 3200 MHz
- Voltage: 1.2V
- Form Factor: SO-DIMM 260-pin
Detailed Pin Configuration
The MX5KP64CAE3 memory module has a standard 260-pin configuration, with specific pins allocated for data transfer, power supply, and addressing.
Functional Features
- High-Speed Data Transfer: Enables rapid access to stored data
- Reliability: Ensures consistent performance and data integrity
- Low Power Consumption: Efficient use of energy for prolonged device operation
Advantages and Disadvantages
Advantages: - High capacity for storing large amounts of data - Fast data transfer speeds - Low power consumption
Disadvantages: - May be relatively expensive compared to lower capacity alternatives - Compatibility may vary across different devices
Working Principles
The MX5KP64CAE3 operates by utilizing DDR4 SDRAM technology to store and retrieve data within electronic devices. It leverages high-speed data transfer and low power consumption to provide efficient performance.
Detailed Application Field Plans
The MX5KP64CAE3 is suitable for a wide range of applications, including: - Laptops - Mini PCs - Industrial computers - Gaming consoles - Embedded systems
Detailed and Complete Alternative Models
- MX4KP32CAE2: 32GB capacity, DDR4 SDRAM, 2666 MHz speed
- MX6KP128CAE4: 128GB capacity, DDR4 SDRAM, 3600 MHz speed
- MX8KP256CAE5: 256GB capacity, DDR4 SDRAM, 4000 MHz speed
This comprehensive range of alternative models provides options for varying capacity and performance requirements.
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技術ソリューションにおける MX5KP64CAE3 の適用に関連する 10 件の一般的な質問と回答をリストします。
What is MX5KP64CAE3?
- MX5KP64CAE3 is a high-performance, low-power 64Gb NAND flash memory chip commonly used in various technical solutions.
What are the key features of MX5KP64CAE3?
- The key features of MX5KP64CAE3 include high storage capacity, low power consumption, and high-speed data transfer rates.
In what technical solutions is MX5KP64CAE3 commonly used?
- MX5KP64CAE3 is commonly used in solid-state drives (SSDs), embedded systems, industrial applications, and other storage-intensive solutions.
What are the benefits of using MX5KP64CAE3 in technical solutions?
- Using MX5KP64CAE3 can lead to improved performance, reduced power consumption, and increased storage capacity in technical solutions.
Are there any compatibility considerations when integrating MX5KP64CAE3 into a technical solution?
- MX5KP64CAE3 is designed to be compatible with standard NAND flash interfaces, but it's important to ensure compatibility with the specific system requirements and interface protocols.
What is the expected lifespan of MX5KP64CAE3 in typical technical applications?
- MX5KP64CAE3 has a reliable lifespan and endurance suitable for long-term use in technical solutions, especially when managed with proper wear-leveling algorithms.
How does MX5KP64CAE3 contribute to overall system performance in technical solutions?
- MX5KP64CAE3 contributes to improved system responsiveness, faster data access, and efficient storage management in technical solutions.
What are the considerations for integrating MX5KP64CAE3 into a custom hardware design?
- When integrating MX5KP64CAE3 into a custom hardware design, factors such as signal integrity, power supply requirements, and thermal management should be carefully considered.
Can MX5KP64CAE3 be used in automotive or aerospace applications?
- MX5KP64CAE3 can be used in automotive and aerospace applications, provided that it meets the necessary environmental and reliability standards for these industries.
Are there any best practices for optimizing the performance of MX5KP64CAE3 in technical solutions?
- Best practices for optimizing MX5KP64CAE3 performance include implementing efficient error correction mechanisms, utilizing advanced flash management techniques, and ensuring proper system integration and testing.