Manufacturer Part Number
MSC8156SVT1000B
Manufacturer
NXP Semiconductors
Introduction
The MSC8156SVT1000B is a high-performance, embedded digital signal processor from NXP Semiconductors, designed under the StarCore series featuring the SC3850 six-core processor.
Product Features and Performance
SC3850 Six Core processor
Clock Rate of 1GHz ensuring rapid data processing
Interfaces include Ethernet, I2C, PCI, RGMII, Serial RapidIO, SGMII, SPI, UART/USART
Non-Volatile Memory: ROM (96kB)
On-Chip RAM: 576kB
Supports a wide Operating Temperature range of 0°C to 105°C
Product Advantages
Multi-core processing capability for intensive computational tasks
High-speed interfaces facilitating fast and diverse connectivity options
Efficient power usage with low core voltage of 1.00V
Robust temperature range support for varied operating environments
Key Technical Parameters
Type: SC3850 Six Core
Clock Rate: 1GHz
Non-Volatile Memory: ROM (96kB)
On-Chip RAM: 576kB
Voltage I/O: 2.50V
Voltage Core: 1.00V
Operating Temperature: 0°C ~ 105°C (TJ)
Mounting Type: Surface Mount
Package / Case: 783-BBGA, FCBGA
Quality and Safety Features
Meets stringent quality standards with advanced package design 783-FCPBGA (29x29)
Operates within a safe range of temperatures and voltages, reducing risks of overheating and power surges
Compatibility
Compatible with a range of interfaces including Ethernet, PCI, and Serial RapidIO which ensures its adaptability in various technology setups
Application Areas
Telecommunications
Signal processing
Networking infrastructure
Industrial control systems
Product Lifecycle
Obsolete: This model is no longer being manufactured
No direct replacements or upgrades specified.
Several Key Reasons to Choose This Product
Advanced multi-core architecture enhances processing capabilities
Broad connectivity with multiple interface support
Low operating voltages contribute to reduced overall power consumption
Durable and reliable with a robust temperature and voltage operating range
Obsolescence ensures exclusivity in procurement and deployment for specialized applications