Overview
The P1014NSN5HFB is a member of the QorIQ P1010 and P1014 communications processor family, designed by NXP USA Inc. These processors are part of the value-performance tier, offering extensive integration and power efficiency for various applications. Based on 45 nm technology, the P1014NSN5HFB provides a single-core, low-power solution with a performance range of 533 to 1000 MHz. It is particularly suited for cost-sensitive networking, network attached storage, digital video surveillance, and industrial control segments.
Key Specifications
| Specification | Details |
|---|---|
| Core Architecture | High-performance 32-bit Book E-enhanced core based on Power Architecture technology |
| Physical Addressing | 36-bit physical addressing |
| Cache Memory | 32-Kbyte L1 instruction cache, 32-Kbyte L1 data cache, 256-Kbyte L2 cache with ECC |
| Core Clock Frequency | 400- to 1000-MHz |
| Memory Controller | DDR3/DDR3L SDRAM memory controller with ECC support |
| Ethernet Controllers | Two enhanced three-speed Ethernet controllers (eTSECs) with 10/100/1000 Mbps support, TCP/IP acceleration, and IEEE Std 1588 support |
| High-Speed Interfaces | Two PCI Express 1.1 interfaces, two SATA Revision 2.0 interfaces, five lanes of high-speed serial interfaces |
| USB Controller | High-speed USB controller (USB 2.0) with host and device support, on-chip USB 2.0 high-speed PHY |
| Security Engine | Integrated security engine (ULE CAAM) with protocol support for DES, AES, RNG, CRC, MDE, PKE, SHA, and MD5 |
| Package | 19 mm x 19 mm 425-ball wirebond TePBGA-1 package with 0.8 mm pitch |
| Operating Temperature | 0–105°C (standard), –40°C to 105°C (extended) |
Key Features
- High-performance 32-bit Book E-enhanced core with double-precision floating-point support
- Integrated security engine (ULE CAAM) with comprehensive cryptographic capabilities
- Two enhanced three-speed Ethernet controllers with TCP/IP acceleration and IEEE Std 1588 support
- High-speed interfaces including PCI Express, SATA, and SGMII
- High-speed USB controller (USB 2.0) with host and device support
- Enhanced secure digital host controller (SD/MMC) and serial peripheral interface (eSPI)
- Programmable interrupt controller (PIC) compliant with OpenPIC standard and 4-channel DMA controller
- Integrated Flash controller (IFC) and TDM support
- 16 general-purpose I/O signals and two I2C interfaces, four UART interfaces
Applications
- Wireless LAN access points (802.11ac/802.11n)
- SOHO/SMB routers
- Controller for Ethernet switches
- Network attached storage
- Digital video surveillance
- Factory automation and industrial control
Q & A
- What is the core architecture of the P1014NSN5HFB?
The P1014NSN5HFB is based on a high-performance 32-bit Book E-enhanced core using Power Architecture technology.
- What are the clock frequency ranges of the P1014NSN5HFB?
The core clock frequency ranges from 400 MHz to 1000 MHz.
- What types of Ethernet controllers does the P1014NSN5HFB support?
The P1014NSN5HFB supports two enhanced three-speed Ethernet controllers (eTSECs) with 10/100/1000 Mbps support.
- Does the P1014NSN5HFB have integrated security features?
- What high-speed interfaces are available on the P1014NSN5HFB?
The processor supports two PCI Express 1.1 interfaces, two SATA Revision 2.0 interfaces, and five lanes of high-speed serial interfaces.
- What is the operating temperature range of the P1014NSN5HFB?
The operating temperature range is 0–105°C (standard) and –40°C to 105°C (extended).
- What package type does the P1014NSN5HFB use?
The processor is packaged in a 19 mm x 19 mm 425-ball wirebond TePBGA-1 package with 0.8 mm pitch.
- Does the P1014NSN5HFB support USB and other peripheral interfaces?
- What are some typical applications of the P1014NSN5HFB?
Typical applications include wireless LAN access points, SOHO/SMB routers, Ethernet switches, network attached storage, digital video surveillance, and factory automation.
- Does the P1014NSN5HFB have any power management features?
The processor is designed for low-power implementation and includes various power management features to optimize power consumption.
