Freescale Semiconductor MPC860T user manual Comparison with the MPC860, Features

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Freescale Semiconductor, Inc...

Freescale Semiconductor, Inc.

The MPC860T integrates three separate processing blocks. The Þrst two, common with all MPC860 devices, are as follows:

¥A high-performance PowerPCª core that can be used as a general purpose processor for application programming

¥A RISC engine embedded in the communications processor module (CPM) designed to provide the communications protocol processing provided by the MPC860MH.

¥A 10/100 Fast Ethernet controller with integrated FIFOs and bursting DMA. Because the FEC block is implemented independently, the MPC860T provides high-performance Fast Ethernet connectivity without affecting the performance of the CPM. All of the performance and functionality of the MPC860MH is fully supported, including Ethernet.

Additionally, as the CPM of the MPC860T is based on the CPM of the MPC860MH, support for the QMC protocol is also provided. This enables the MPC860T to provide protocol processing (HDLC or transparent mode) for 64 time-division multiplexed channels at 50 MHz. This support for multichannel protocol processing and 10/100 Ethernet in one chip makes the MPC860T ideal for products such as high-performance, low-cost remote access routers.

Note that for existing parts, adding FEC functionality affects port D signal multiplexing.

1.3 Comparison with the MPC860

The MPC860T is pin compatible with the MPC860, so it may be used in similar applications with minimal modiÞcation. The electrical characteristics and mechanical data are nearly identical, with the exception of port D and the four no connect pins on the MPC860, which make up the media independent interface (MII). Most of the MII pins are multiplexed with the port D pins.

1.4 Features

The following sections summarize key FEC features.

¥10/100 base-T support

ÑFull compliance with the IEEE 802.3u standard for 10/100 base-T

ÑSupport for three different physical interfaces: 100-Mbps 802.3 media-independent interface (MII), 10-Mbps 802.3 MII, and 10-Mbps 7-wire interface

ÑLarge on-chip transmit and receive FIFOs to support a variety of bus latencies

ÑRetransmission from the transmit FIFO after a collision

ÑAutomatic internal ßushing of the receive FIFO for runts and collisions

ÑExternal BD tables of user-deÞnable size allow nearly unlimited ßexibility in

1-2MPC860T (Rev. D) Fast Ethernet Controller Supplement MOTOROLA

PRELIMINARYÑSUBJECTFor ore nformationTO CHANGEOn ThisWITHOUTProduct,NOTICE

Go to: www.freescale.com

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Contents MPC860T Rev. D Fast Ethernet Controller Freescale Semiconductor, IncMotorola Literature Distribution Centers Contents Parallel I/O Ports Contents Paragraph Title Number Illustrations Title NumberViii MPC860T Rev. D Fast Ethernet Controller Supplement Tables Number Document Revision History OverviewLists signiÞcant changes between revisions of this document Document Revision HistoryFeatures Comparison with the MPC8601 MPC860TBlock Diagram Embedded PowerPC Processor Core System Interface Unit SIUFast Ethernet Controller Glueless System Design SIU Interrupt ConÞgurationInc Signal Descriptions FEC Signal DescriptionsName Pin Description L1RSYNCB MiimdcRXD3 MiitxerREJECT3 MIITXD2REJECT4 MIITXD1Freescale Semiconductor, Inc MII Signals Signal Description FEC Signal NameTransceiver Connection This chapter discusses the operation of the FECSerial Mode Connections to the External Transceiver FEC Frame TransmissionTXD0 RXD0FEC Frame Reception FEC Command Set CAM InterfaceEthernet Address Recognition Hash Table Algorithm Rcntrlprom =Inter-Packet Gap Time Collision HandlingEthernet Error-Handling Procedure Transmission ErrorsReception Errors Internal and External LoopbackReception Errors Chapter Parallel I/O Ports Port D Pin FunctionsEnabling MII Mode Signal FunctionPort D Registers Shows the port D pin assignmentsSdma Registers CLKDescribes Sdcr Þelds Sdcr Field DescriptionsFRZ Faid RAID BitsParameter RAM Brießy describes each enter in the FEC parameter RAMFEC Parameter RAM Memory Map Address Name Description SectionRAM Perfect Match Address Low Register Addrlow RAM Perfect Match Address High Addrhigh RAM Hash Table High HashtablehighDescribes the Addrlow Þelds Describes the Addrhigh ÞeldsRAM Hash Table Low Hashtablelow Describes Hashtablehigh ÞeldsHashtablehigh Field Descriptions HashhighBeginning of RxBD Ring Rdesstart Beginning of TxBD Ring XdesstartDescribes Hashtablelow Þelds Describes Rdesstart ÞeldsReceive Buffer Size Register Rbuffsize Describes Xdesstart ÞeldsXdesstart Field Descriptions Spare Fecpin Etheren Reset MUX Ethernet Control Register EcntrlDescribes Rbuffsize Þelds Rbuffsize Field DescriptionsInterrupt Event IEVENT/Interrupt Mask Register Imask Describes Ecntrl ÞeldsEcntrl Field Descriptions FecpinmuxEthernet Interrupt Vector Register Ivec Rfint to notify at the end of frame10. IEVENT/IMASK Field Descriptions HberrRxBD Active Register Rdesactive 11 describes Ivec Þelds11. Ivec Field Descriptions IlevelTxBD Active Register Xdesactive 12 describes Rdesactive Þelds12. Rdesactive Field Descriptions MII Management Frame Register Miidata 13 describes Xdesactive Þelds13. Xdesactive Field Descriptions 14 describes Miidata Þelds 14. Miidata Field DescriptionsMII Speed Control Register Miispeed 15 describes Miispeed Þelds15. Miispeed Field Descriptions Dispreamble MiispeedFifo Receive Bound Register Rbound 17 describes Rbound Þelds16. Programming Examples for Miispeed Register 17. Rbound Field DescriptionsFifo Receive Start Register Rfstart Transmit Watermark Register Xwmrk18 describes Rñfstart Þelds 18. Rfstart Field DescriptionsFifo Transmit Start Register Xfstart 19 bit Þeld descriptions for Xwmrk19. Xwmrk Field Descriptions DMA Function Code Register Funcode 20 describes Xfstart Þelds20. Xfstart Field Descriptions DATABO0 DATABO1 DESCBO0 DESCBO1 FC1 FC2 FC3Receive Control Register Rcntrl 21 describes Funcode Þelds21. Funcode Field Descriptions DescboReceive Hash Register Rhash 22 describes Rcntrl Þelds22. Rcntrl Field Descriptions BcrejTransmit Control Register Xcntrl 22 describes Rhash Þelds24 describes Xcntrl Þelds 23. Rhash Field DescriptionsUser Initialization before Setting Ecntrletheren Initialization SequenceHardware Initialization 25. Hardware Initialization27. User Initialization before Setting Ecntrletheren Descriptor Controller InitializationUser Initialization after Asserting Ecntrletheren Step Description27. User Initialization after Setting Ecntrletheren Buffer Descriptors BDsEthernet Receive Buffer Descriptor RxBD StepRxBD format is shown in Table 27. Receive Buffer Descriptor RxBD Field DescriptionRO1 RO2 Data Length RO1Ethernet Transmit Buffer Descriptor TxBD 29 describes TxBD Þelds29. Transmit Buffer Descriptor TxBD Field Descriptions TO1 TO2 DEF CSLXcntrlhbc = DataFreescale Semiconductor, Inc DC Electrical Characteristics AC Electrical CharacteristicsMII Receive Signal Timing RXD30, RXDV, RXER, Rxclk Electrical SpeciÞcationsMII Transmit Signal Timing TXD30, TXEN, TXER, Txclk MII Receive Signal TimingMII Transmit Signal Timing Num Characteristic Min Max UnitMII Async Inputs Signal Timing CRS, COL MII Async Inputs Signal TimingTxen Txer CRS, COLShows the MII serial management channel timing diagram MII Serial Management Channel TimingFollowing pins are marked as spare on MPC860T Pin AssignmentsFreescale Semiconductor, Inc Freescale Semiconductor, Inc For More Information On This Product
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