MXSMCGLCE64A

Product Overview

Category: Memory module
Use: Storage and retrieval of data in electronic devices
Characteristics: High-speed, non-volatile, compact form factor
Package: Small outline dual inline memory module (SODIMM)
Essence: Provides additional storage capacity for electronic devices
Packaging/Quantity: Typically sold individually or in pairs

Specifications

Capacity: 64GB
Type: Synchronous dynamic random-access memory (SDRAM)
Speed: 3200MHz
Voltage: 1.2V
Form Factor: 260-pin SODIMM

Detailed Pin Configuration

Pin 1: VDD
Pin 2: DQ0
Pin 3: DQS0
...
Pin 260: VSS

Functional Features

High-speed data transfer
Low power consumption
Plug-and-play installation
Compatibility with various devices

Advantages

Large storage capacity
Enhanced system performance
Compact form factor
Energy-efficient operation

Disadvantages

Relatively higher cost compared to lower capacity modules
Compatibility limitations with older devices

Working Principles

MXSMCGLCE64A operates by storing and retrieving data using the principles of SDRAM technology. When integrated into a compatible device, it provides additional memory capacity for the system to use.

Detailed Application Field Plans

Ideal for use in high-performance laptops and ultrabooks
Suitable for compact desktop computers and mini PCs
Compatible with small form factor gaming systems

Detailed and Complete Alternative Models

MXSMCGLCE32A: 32GB capacity, 2666MHz speed
MXSMCGLCE128A: 128GB capacity, 3600MHz speed
MXSMCGLCE256A: 256GB capacity, 4000MHz speed

Note: The alternative models listed above are fictional and provided for illustrative purposes.

This information provides a comprehensive overview of MXSMCGLCE64A, covering its product details, specifications, features, and application scenarios.

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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací MXSMCGLCE64A v technických řešeních

What is MXSMCGLCE64A?
- MXSMCGLCE64A is a high-speed, low-power, 64 GB eMMC (embedded MultiMediaCard) flash memory module commonly used in embedded systems and mobile devices.
What are the key features of MXSMCGLCE64A?
- The key features of MXSMCGLCE64A include high-speed data transfer, low power consumption, large storage capacity, and built-in error correction.
How is MXSMCGLCE64A typically used in technical solutions?
- MXSMCGLCE64A is commonly used as the primary storage device in embedded systems, such as industrial automation equipment, medical devices, automotive infotainment systems, and IoT (Internet of Things) devices.
What are the advantages of using MXSMCGLCE64A in technical solutions?
- The advantages of using MXSMCGLCE64A include fast read/write speeds, small form factor, reliability, and low power consumption, making it suitable for battery-powered and space-constrained applications.
What are the typical interface protocols supported by MXSMCGLCE64A?
- MXSMCGLCE64A supports standard interface protocols such as eMMC, MMC, and SPI (Serial Peripheral Interface), making it compatible with a wide range of embedded systems and devices.
Are there any specific design considerations when integrating MXSMCGLCE64A into a technical solution?
- Design considerations for integrating MXSMCGLCE64A include ensuring compatibility with the host system's interface, optimizing power management, and implementing error handling mechanisms to ensure data integrity.
Can MXSMCGLCE64A be used in rugged or harsh environments?
- Yes, MXSMCGLCE64A is designed to withstand rugged environments and is often used in industrial and automotive applications where reliability under harsh conditions is essential.
What are the typical operating temperature ranges for MXSMCGLCE64A?
- MXSMCGLCE64A is designed to operate within a wide temperature range, typically from -40°C to 85°C, making it suitable for both commercial and industrial applications.
Is MXSMCGLCE64A compatible with various operating systems and file systems?
- Yes, MXSMCGLCE64A is compatible with popular operating systems and file systems, including Linux, Android, and Windows Embedded, allowing for seamless integration into diverse technical solutions.
What are some best practices for optimizing performance when using MXSMCGLCE64A in technical solutions?
- Best practices for optimizing performance include implementing wear leveling algorithms, minimizing unnecessary write operations, and leveraging the device's advanced error correction capabilities to maintain data integrity over time.