Product Overview of MT41K128M16JT-107:K
MT41K128M16JT-107:K is a DDR3 SDRAM memory component designed for high speed volatile data storage in embedded systems, industrial electronics, networking equipment, and computing applications. It belongs to the DDR3 SDRAM family and supports efficient data transfer with low power consumption characteristics suitable for modern digital system designs.
This memory device is commonly integrated into applications requiring temporary data buffering, program execution support, and high bandwidth memory access. It is suitable for embedded processors, communication systems, industrial controllers, and multimedia platforms.
Key Features of MT41K128M16JT-107:K
- DDR3 SDRAM architecture
- High speed synchronous data transfer
- 16 bit data bus configuration
- Designed for embedded and industrial applications
- Supports reliable temporary data storage
- Optimized for low voltage operation
- Suitable for high bandwidth computing systems
- Industry standard memory interface compatibility
- Compact FBGA package design
- RoHS compliant package options depending on production version
MT41K128M16JT-107:K Applications
Industrial Embedded Systems
Used in industrial automation equipment, programmable controllers, monitoring systems, and embedded processing platforms requiring fast memory access.
Networking and Communication Equipment
Suitable for routers, communication modules, gateway devices, and networking hardware requiring stable high speed memory performance.
Consumer and Multimedia Electronics
Can be integrated into display systems, multimedia terminals, smart devices, and digital processing equipment.
Computing and Control Platforms
Applicable for embedded computing modules, control boards, and processor based system architectures requiring DDR3 memory support.
Technical Characteristics
| Parameter |
Description |
| Product Type |
DDR3 SDRAM |
| Memory Architecture |
Synchronous Dynamic Random Access Memory |
| Data Bus Width |
x16 |
| Interface |
DDR3 |
| Package Type |
FBGA |
| Operating Function |
Volatile Memory Storage |
| Application Areas |
Embedded Systems Industrial Electronics Networking |
Package Information
MT41K128M16JT-107:K is commonly supplied in a compact FBGA package suitable for high density PCB layouts and embedded hardware integration. The exact package dimensions and ball layout may vary depending on manufacturing revision and supplier documentation.
Integration Considerations
When designing systems with DDR3 SDRAM devices, engineers should consider:
- PCB signal integrity and trace length matching
- Power supply stability and decoupling layout
- Thermal management requirements
- Memory controller compatibility
- Timing parameter configuration
- Proper impedance control for high speed signals
Storage and Handling
To help maintain component reliability during storage and assembly:
- Store in moisture controlled environments
- Follow standard ESD protection procedures
- Observe recommended soldering profiles
- Use proper handling during SMT assembly
FAQ of MT41K128M16JT-107:K
What is the primary function of MT41K128M16JT-107:K
It functions as volatile DDR3 SDRAM memory used for temporary high speed data storage and processing support in electronic systems.
Is MT41K128M16JT-107:K non volatile memory
No. DDR3 SDRAM is volatile memory, meaning stored data is lost when system power is removed.
What types of systems commonly use DDR3 SDRAM devices
DDR3 SDRAM devices are commonly used in embedded systems, industrial controllers, networking hardware, multimedia platforms, and computing equipment.
Does MT41K128M16JT-107:K require a memory controller
Yes. DDR3 SDRAM devices typically operate together with compatible processors, chipsets, or dedicated memory controllers.
Why is PCB layout important for DDR3 memory integration
DDR3 operates at high speed frequencies, so signal routing, impedance control, and trace matching are important for stable system operation.
Can this device be used in industrial electronic equipment
Yes. DDR3 SDRAM devices are widely used in industrial electronics when system specifications support the required memory architecture and operating conditions.
What is the advantage of DDR3 SDRAM compared with older memory generations
DDR3 memory generally provides improved bandwidth efficiency and lower operating voltage compared with earlier DDR memory generations.
Is MT41K128M16JT-107:K suitable for long term embedded projects
It can be suitable for embedded applications when validated against the target system design, lifecycle requirements, and environmental conditions.
What should engineers verify before selecting this memory component
Engineers should confirm memory controller compatibility, package footprint, timing requirements, voltage support, and thermal considerations.
Does the package type affect system design
Yes. FBGA packages require precise PCB footprint design, controlled assembly processes, and proper soldering procedures.
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