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参数资料
| 型号: | TDGL004 |
| 厂商: | Microchip Technology |
| 文件页数: | 6/19页 |
| 文件大小: | 0K |
| 描述: | BOARD CEREBOT 32MX7 PIC32MX795 |
| 设计资源: | Cerebot 32MX7 Schematics |
| 标准包装: | 1 |
| 系列: | PIC® 32MX |
| 类型: | MCU |
| 适用于相关产品: | PIC32MX795F512 |
| 所含物品: | 板 |
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�
�Cerebot� 32MX7� Reference� Manual�
�The� RJ45� connector� J11,� provides� the� physical�
�connection� to� an� Ethernet� network� using� a�
�standard� Ethernet� cable.�
�All� devices� on� an� Ethernet� network� must� have�
�a� unique� address.� This� address� is� used� to�
�direct� packets� on� the� network� to� a� specific�
�device� and� to� identify� the� device� that� originated�
�a� packet.� An� Ethernet� MAC� uses� a� 48-bit�
�address� value,� commonly� called� the� “MAC�
�Address”.� These� address� values� are� globally�
�unique� to� ensure� that� no� two� devices� on� a�
�network� can� have� conflicting� addresses.� MAC�
�addresses� are� assigned� by� the� IEEE.� The�
�address� to� use� with� the� Cerebot� 32MX7� is�
�printed� on� a� sticker� attached� to� the� bottom� of�
�the� board.� The� address� is� a� twelve� digit�
�hexadecimal� number� of� the� form:�
�00183Exxxxxx,� where� xxxxxx� represents� six�
�hexadecimal� digits.� This� value� is� used� to�
�initialize� the� Ethernet� Controller� MAC� Station�
�Address� registers� in� the� Ethernet� controller� of�
�the� PIC32MX795� microcontroller.�
�In� order� to� connect� to� and� operate� with� an�
�Ethernet� network,� the� PIC32� microcontroller�
�must� be� running� network� protocol� stack�
�firmware.� Normally,� the� TCP/IP� (Transmission�
�Control� Protocol/Internet� Protocol)� network�
�protocol� is� used� and� “TCP/IP� Stack”� software�
�must� be� used.� The� Microchip� Applications�
�Library,� available� for� download� from� the�
�Microchip� web� site� provides� full� protocol� stack�
�support� compatible� with� the� PIC32MX795� MAC�
�and� the� LAN8720� PHY.� Microchip� also�
�provides� numerous� example� programs�
�illustrating� the� use� of� their� network� protocol�
�the� alternate)� pins,� and� to� use� the� RMII� (not�
�the� MII)� interface� signaling� convention.� These�
�options� are� selected� using� the� configuration�
�variables� in� the� PIC32� microcontroller� and� are�
�specified� using� the� #pragma� config�
�statement.� To� enable� the� Ethernet� controller� in�
�the� correct� configuration,� the� following�
�statements� must� appear� in� the� main� program�
�module:�
�#pragma� config� FETHIO=ON�
�#pragma� config� FMIIEN=OFF�
�The� LAN8720� PHY� has� a� reset� signal,� labeled�
�NRST� in� the� schematic,� that� can� be� used� to�
�reset� the� PHY.� This� signal� is� connected� to� the�
�INT2/RE9� pin� on� the� PIC32� microcontroller.�
�The� NRST� signal� is� active� low.� Configure� the�
�microcontroller� pin� as� an� output� and� drive� it� low�
�to� reset� the� PHY,� or� drive� it� high� to� allow� the�
�PHY� to� come� out� of� reset� and� begin� operation.�
�The� NRST� signal� is� pulled� low� on� the� board,� so�
�that� the� PHY� is� held� in� reset� by� default.� To�
�allow� the� PHY� to� operate,� this� pin� must� be�
�driven� high.� This� reset� operation� is� not� part� of�
�the� Microchip� network� protocol� stack,� and� so�
�driving� NRST� high� must� be� done� before�
�initializing� the� Microchip� network� stack.�
�CAN� Interfaces�
�The� Controller� Area� Network� (CAN)� standard� is�
�a� control� networking� standard� originally�
�developed� for� use� in� automobile� systems,� but�
�has� since� become� a� standard� used� in� various�
�industrial� control� and� building� automation�
�networking� applications� as� well.�
�stack� for� various� applications.�
�The� PIC32MX795� microcontroller� contains� two�
�When� not� using� the� Microchip� network� protocol�
�stack,� refer� to� the� manufacturer� documentation�
�for� the� PIC32MX795� and� LAN8720,� plus�
�network� protocol� documentation,� for� operation�
�of� the� Ethernet� interface.�
�The� PIC32MX795� microcontroller� provides� two�
�alternate� sets� of� pins� that� can� be� used� to�
�connect� the� MAC� to� the� external� PHY.� It� also�
�provides� two� alternate� standard� MAC/PHY�
�interface� signaling� conventions.� The� Cerebot�
�32MX7� is� designed� to� use� the� standard� (not�
�www.digilentinc.com�
�independent� CAN� network� controllers.� These�
�CAN� controllers� in� combination� with� two�
�Microchip� MCP2551� CAN� transceivers� allow�
�the� Cerebot� 32MX7� board� to� operate� on� up� to�
�two� independent� CAN� networks.� Refer� to� the�
�PIC32MX7XX� data� sheet� and� the� PIC32�
�Family� Reference� Manual,� plus� CAN� network�
�documentation� for� information� on� operation� of�
�the� CAN� controllers� and� CAN� networking� in�
�general.�
�page� 6� of� 19�
�Copyright� Digilent,� Inc.� All� rights� reserved.� Other� product� and� company� names� mentioned� may� be� trademarks� of� their� respective� owners.�
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