The Samsung KMRX1000BM-B614 is a 32GB eMCP (embedded MultiMediaCard) module that combines eMMC NAND flash memory and LPDDR3 mobile DRAM into a single package. It is designed for use in mobile devices such as smartphones, tablets, and wearable devices.
The KMRX1000BM-B614 is based on Samsung's advanced 10nm process technology, which allows it to achieve high performance and low power consumption. It has a read speed of up to 200MB/s and a write speed of up to 100MB/s. It also supports UHS-II mode for even faster data transfer.
The KMRX1000BM-B614 is also very energy efficient. It uses Samsung's proprietary power management technology to reduce power consumption by up to 50% compared to previous generation eMCP modules. This makes it ideal for use in battery-powered devices.
In addition to its performance and power efficiency advantages, the KMRX1000BM-B614 also offers a number of other features that make it a good choice for mobile devices. It is highly reliable and durable, with a lifespan of up to 10 years. It is also resistant to shock and vibration, making it ideal for use in harsh environments.
The KMRX1000BM-B614 is available in a 221-ball BGA package. It is also RoHS compliant, meaning that it is free of hazardous substances such as lead and mercury.
Features
32GB eMMC NAND flash memory
24GB LPDDR3 mobile DRAM
10nm process technology
Read speed up to 200MB/s
Write speed up to 100MB/s
Supports UHS-II mode
Up to 50% power reduction compared to previous generation eMCP modules
Highly reliable and durable
Resistant to shock and vibration
Available in a 221-ball BGA package
RoHS compliant
Benefits
High performance and low power consumption
Ideal for use in battery-powered devices
Highly reliable and durable
Resistant to shock and vibration
Easy to integrate into mobile devices
RoHS compliant
Applications
Smartphones
Tablets
Wearable devices
Other mobile devices
Conclusion
The Samsung KMRX1000BM-B614 is a high-performance and low-power eMCP module that is ideal for use in mobile devices such as smartphones, tablets, and wearable devices. It offers a number of advantages over previous generation eMCP modules, including higher performance, lower power consumption, and greater reliability.