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OS81110 MOST网络接口控制解决方案
文章来源: 更新时间:2015/3/6 9:37:00
Microchip公司的OS81110是新型车内多媒体网络接口控制器,支持150Mbps MOST数据传输,能从现有的MOST应用无缝升级到MOST150.器件采用SMSC的智能网络接口控制器(INIC)架构,和INIC25与INIC50兼容,支持低成本LED/POF光物理层,工作电压1.8 V/3.3 V.本文介绍了OS81110主要特性,框图, OS81110 cPHY评估板主要硬件特性和框图, 标准应用框图和扩展应用框图,以及评估板电路图和PCB元件布局图.
The OS81110 is a new Network Interface Controller that supports MOST data transport at 150 Mbits/s. The chip has been architected to enable a seamless migration of existing MOST applications and systems to MOST150. It uses SMSC’s familiar Intelligent Network Interface Controller (INIC) architecture, also used for MOST25 and MOST50 applications. It fully encapsulates the network interface functions and can also operate as a stand-alone solution. The OS81110 uses the same INIC API for the legacy features, which allows existing application software including the NetServices driver stack to be migrated to MOST150 with minimal required changes.
The chip supports a low-cost LED/POF-based optical fiber physical layer. Since existing optical wire harnesses and connectors can be used without modification, the migration to MOST150 is straight forward.OS81110 supports legacy control, synchronous, and packet channel data formats from MOST25 and MOST50.
The control channel can be used for real-time status exchange and control of devices. It runs independently from the other transport mechanisms and has its own data integrity methods. For bigger packets and data transmission with no real-time requirements, MOST provides a separate legacy embedded asynchronous packet channel.
It also has its own data integrity and flow control mechanisms. The synchronous channels are completely separated from the other transport mechanisms. Collisions or priority conflicts do not occur and therefore maximum Quality of Service (QoS) can be achieved. The necessary bandwidth is allocated via commands on the control channel. Once established, a synchronous channel is always available for the source of the data and one or more sinks. The signal itself can be streamed onto MOST without any need for packetizing or addressing. Unlike networks that originate in the IT world, MOST has been specifically designed to utilize bandwidth efficiently and
deliver high-QoS audio and video streaming, even in a demanding automotive environment.
The delay from node to node is very low and predictable.It has been reduced from that of MOST25 and is just 162 nanoseconds per timing slave node and 20.8 microseconds across the timing master device. These delays can usually be neglected but, if necessary, they can be compensated as they are predictable. Therefore, MOST150 is well-suited to help minimize echoes, wow and flutter effects in multi-room sound systems and surround sound as well as home theater systems with active speakers.In addition to supporting legacy MOST data formats, the OS81110 features two new types of data transport:
The new MOST Ethernet channel allows the transport of legacy Ethernet packets and supports MAC addressing.
From an application perspective, the MOST Ethernet channel behaves like Ethernet. MOST looks like Ethernet to applications that use Ethernet frames or IP, such as TCP/IP stacks. These Ethernet applications can be used on MOST without modification or an adapter layer since MOST150 is an automotive grade physical layer for Ethernet and IP communications.
The new isochronous channels and clocking capabilities of the chip close the gap between synchronous and packet transport. While they are managed like synchronous streams, they make it possible to transport streams that are not synchronized to MOST and its frame rate.
These streams range from PCM audio streams, which by nature are synchronous but might not have been synchronized to MOST, to bursty MPEG streams, to streams of packet data.
Allocation of bandwidth between the different channels can be managed dynamically in a highly flexible manner.
All MOST data types, including MOST150, are very efficient in managing bandwidth when compared to other, mostly packet-orient, networks.
MOST150 can flexibly transport data and data streams that can occur in a modern infotainment system. The OS81110 provides legacy serial interfaces for all kinds of control, audio, video and packet data to support many applications at a minimum system cost. In addition to using I2C for control, the OS81110 provides an SPI for high-speed packet communication. The OS81110 also provides two dedicated Transport Stream Interfaces that carry streaming data directly to or from video SoCs. Glue logic is typically not required, which allows for highly cost effective digital audio and video solutions. To support audio applications, the OS81110 features four highspeed streaming ports that can handle various formats including SPDIF or I2S, to allow that a 7.1 channel surround sound source or amplifier can be hooked up directly to the INIC. In addition to generic interfaces, MediaLB can be used as a single serial interface for all MOST data types. The OS81110 also provides a highspeed differential mode, called MediaLB 6-Pin that delivers a data throughput of up to approximately 300 Mbits/s between INICs and other MediaLB 6-Pin implementations.

OS81110主要特性:
􀂄 150 Mbits/s MOST network bandwidth
􀂄 Intelligent Network Interface Controller (INIC) architecture
􀂄 Complete network interface on a single chip
􀂄 Familiar INIC API
􀂄 Compatible with INIC25 and INIC50
􀂄 Seamless migration of applications to MOST150
􀂄 Supports a low cost LED/POF-based optical physical layer
􀂄 MOST25 optical wire harness and connectors can be used
􀂄 LVDS interfaces for FOTs
􀂄 Flexible dynamic management of available bandwidth
􀂄 Supports all legacy MOST data types:
􀂄 Control channel – double the bandwidth of MOST25
􀂄 Asynchronous packet channel – enhanced low-level flow control
􀂄 Synchronous channels – enhanced management
􀂄 New MOST Ethernet channel
􀂄 Transport of legacy Ethernet frames
􀂄 On-chip support of IEEE MAC addressing
􀂄 Ethernet applications such as TCP/IP stacks can be used without change
􀂄 New isochronous channels
􀂄 Similar to synchronous channels
􀂄 Transport of streams that are not synchronized to MOST such as: SPDIF Audio, MPEG video, Voice over IP
􀂄 Clock samplers and synthesizers for flexible application clock management and tunneling
􀂄 Versatile generic application connectivity
􀂄 No glue logic required for most applications
􀂄 I2C for control
􀂄 Four high-speed I2S/SPDIF streaming interfaces for audio
􀂄 Up to two serial Transport Stream Interfaces (TSI) for video
􀂄 Serial Peripheral Interface (SPI) for packet
􀂄 Powerful MediaLB? multiplex interface to transport all types of MOST data on a single medium
􀂄 Legacy single ended modes
􀂄 New high-speed (6-Pin) differential mode
􀂄 Operating voltages: 1.8 V/3.3 V
􀂄 48-pin QFN lead-free, RoHS-compliant package
􀂄 Temperature range: -40 ℃ to +105 ℃
图1. OS81110框图

图2. OS81110 cPHY评估板框图

OS81110 cPHY评估板
Microchip’s OS81110 cPHY Evaluation Board, also referenced within this document as the “Eval110 cPHY Board” (AIS14001 V1.0.0) is a complete MOST150 Network device, utilizing the OS81110 Intelligent Network Interface Controller (INIC) device [1] and the OS82150 MOST150 Coaxial Transceiver device [2]. An on-board PIC32MX795 External Host Controller (EHC) [3] is available for development of custom application code or use of application code provided by Microchip. An integrated OS85650 I/O Companion Chip (IOC) [4] provides I/O port expansion for additional application flexibility. The Eval110 cPHY Board also supports power management, controlled by the MPM85000 Automotive Power Management Device (PwrMgr) [5],a MOST Network-compliant power management device.
The INIC Streaming Port, in conjunction with an on-board ADC and DAC, supports 2 channel (e.g. stereo) audio exchange on the network. The stereo audio CODEC device is capable of driving headphones at the audio output jack with stereo audio data it sinks from the network. Additionally, a line-level input jack connected to the CODEC supports sourcing stereo audio data to the network.

OS81110 cPHY评估板主要硬件特性:
• Integrated Intelligent Network Interface Controller (INIC)
• Integrated MOST150 Coaxial Transceiver for Coaxial Physical Layer (cPHY) interface to a MOST150 Network
• Integrated I/O Companion Chip (IOC), including DTCP coprocessor
• Integrated External Host Controller (EHC), supporting:
- Dual-wire CAN interface in conjunction with on-board MCP2562 [24] CAN transceiver
- USB host functionality with connection to external device(s) using standard Type A receptacle
- UART connection to on-board MCP2200 [29] CommBridge (for USB debug print terminal output on PC)
• Feature set expansion via Daughter Board and Auxiliary connectors supporting additional application options (e.g. video sourcing/sinking and low frequency signal tunneling)
• Stereo audio capabilities (via INIC or IOC Streaming Port), supporting:
- sourcing stereo audio to the network from an on-board line-level input jack, and
- sinking stereo audio from the network and driving an on-board headphone jack
• MOST Network-compliant power management capabilities, including:
- Network activity detection
- Control of switched application power regulators (3.3 V and 1.8 V supplies)
- Continuous 3.3 V power supply
- EHC Reset generator based on 3.3 V switched power
- INIC and IOC reset generator, powered by 3.3V switched power, conditional on 1.8V switched power
- Support for Sleep Power State with very low quiescent current
- INIC power management, including voltage level reporting per levels defined in the MOST Specification 3.0 [7]
- Support for wakeup signaling and MOST System Test via MOST Electrical Control Line [8]
- Serial interface for configuration and status information

图3. OS81110 cPHY评估板AIS14001 V1.0.0外形图(正面)

图4. OS81110 cPHY评估板AIS14001 V1.0.0外形图(背面)

图5. OS81110 cPHY评估板硬件框图

图6. 标准应用框图

图7. 扩展应用框图

图8. OS81110 cPHY评估板电路图(1)

图9. OS81110 cPHY评估板电路图(2)

图10. OS81110 cPHY评估板电路图(3)

图11. OS81110 cPHY评估板电路图(4)

图12. OS81110 cPHY评估板电路图(5)

图13. OS81110 cPHY评估板电路图(6)

图14. OS81110 cPHY评估板电路图(7)

图15. OS81110 cPHY评估板电路图(8)

图16. OS81110 cPHY评估板电路图(9)

图17. OS81110 cPHY评估板电路图(10)

图18. OS81110 cPHY评估板电路图(11)

图19. OS81110 cPHY评估板电路图(12)

图20. OS81110 cPHY评估板电路图(13)

图21. OS81110 cPHY评估板电路图(14)

图22. OS81110 cPHY评估板电路图(15)

图23. OS81110 cPHY评估板电路图(16)

图24. OS81110 cPHY评估板电路图(17)

图25. OS81110 cPHY评估板电路图(18)

图26. OS81110 cPHY评估板电路图(19)

图27. OS81110 cPHY评估板电路图(20)

图28. OS81110 cPHY评估板电路图(21)

图29. OS81110 cPHY评估板电路图(22)

图30. OS81110 cPHY评估板电路图(23)

图31. OS81110 cPHY评估板电路图(24)

图32. OS81110 cPHY评估板电路图(25)


图33. OS81110 cPHY评估板PCB元件布局图(顶层)

图34. OS81110 cPHY评估板PCB元件布局图(底层)
 
 
 
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