Canopen控制伺服驱动中文资料(使用者手册)
Canopen协议控制埃斯顿伺服驱动使用者中文版手册,可以帮助初学者理解canopenEsTUN埃斯自动化伺服使用于册目录第章概述1.1cAN主要相关文档1.2本手册使用的术语和缩语1.3 CANopen概述第章接线和连接第章通讯3.1cAN标识符分配表3.2服务数据对象SD03.3过程数据对象PD03.4SYNC报文3.5 Emer gency报文3.6 HEARTBEAT报文3.7网络管理(NMT)第章单位换算单元4.1单位换算相关参数4.2 Position factor4.3 Ve locity factor4. 4 Acceleration factor第章位置控制功能第章设备控制6.1控制状态机6.2设备控制相关参数6. 2. 1 Contro/word6.2.2 Statusword6. 2.3 Shutdown option code6.2.4 Disab/e operation option code6.2.5 Quick stop option code6.2. 6 Ha/t option code6.2.7 Fault reaction option code第章控制模式7.1控制模式相关参数7. 1.1 Modes of operation7. 1.2 Modes of operation disp/ay7.2回零模式( HOM I NG MODE)7.2.1回零模式的控制字7.2.2回零模式的状态字EsTUN埃斯自动化伺服使用于册7.2.3回岺模式相关参数7.2.4回零方法3速度控制模式(PROF| LE VEL0 CITY MODE)7.3.速度模式的控制字7.3.2速度模式的状态字7.3.3速度控制模式相关参数7.4位置控制模式(PR0FLEP0s|T0NM0DE)74.1位置模式的控制字7.4.2位置模式的状态字7.4.3位置控制相关参数7.4.4功能描述7.5位置插补控制模式( I NTERPLATION P0S| TION MODE)7.5.1位置插补馍式的控制字7.5.2位插补模式的状态字7.5.3位置插林控制关参数7.5.4功能描述第章通讯相关参数控制模式第章通讯例程9.1S00操作2PD0配置9.3位置控制例子( Profile positon mode)4位置插补控制( Interplate position Mode)9.5回零第章其他功能10.1总线输入10.2占位对象附录对象字典表EsTUN埃斯自动化伺服使用于册第章概述1CAN主要相关文档2本手册使用的术语和缩语控制器局域网在自动化国际用户和制造商协会中的通讯对象,在网络上的一个传输单元。数据在内部沿着整个网络传输。本身是消息帜的一部分。电子数据表,在配置网络时需要使用的一个节点专用格式文件。文件包含关于节点及其字典对象(参数)的常规信息。层管理,给定模型中的应用层服务元素之一。它用来配置给定模型中每层的参数网络管理给定模型中的应用层服务元素之一。它负责网络上的初始化、配置和故障处理。在本地存储某个设备所识别的所有通讯对象()。参数参数是驱动器的一个操作指令。可以使用驱动器操作面板或者诵过来读取和修改参数进程数据对象,一种用来传输时间关键数据,比如控制命令、给定值和实际值。表示只读访问。表示读写访问EsTUN埃斯自动化伺服使用于册服务数据对象,一种用来传输非时间关键数据,比如参数。3 CANopen概述是一个基于(控制局域网)串行总线系统和(应用层)的高层协议假定相连设备的硬件带有一个符合标准的收发器和一个控制器。通讯协议包括周期和事件驱动型通讯,不仅能够将总线负载减少到最低限度,而且还能确保极短的反应时间。它可以在较低的波特率下实现较高的通讯性能,从而减少了电磁兼容性问题,并降低了电缆成本设备协议定义了直接访问变频器参数机制以及时间关键进程数据通讯满足(自动化中的)标准(变频器和运动控制),只支持刮造商专用操作模式。所用的物理介质是符合标准,采用分驱动机制和公共反馈的双线总线。总线的最大长度取决于通讯速度,具体规定如下通讯波特率最大总线长度从理论上来说,最多可以有个节点。不过,在实际应用中,最大节点数量取决于所用收发器的性能。更多信息可参见自动化国际用户和制造商协会的文献(EsTUN埃斯自动化伺服使用于册第章接线和连接通讯用连接器的端子排列端子记号名称功能保留通讯用端子隔离地通讯用端子通讯用端子通讯用端子注:的、引脚不能短接在一起。通讯用连接器的端子排列端子记号名称功能保留通讯用端子隔离地通讯用端子通讯用端子通讯用端子呕动器总是作为通讯电缆输入端子,总是作为通讯电缆输出端子(如昊还需连接从站,电缆从该端子连接到下一从站设备;如果不需连接其他从站,可以在该端子加终端电阻)。多台驱动器连接时,严禁直连任意台驱动的举例,网络由三台驱动器组成,电缆接线如下驱动器的的→驱动器的,的驱动器的欧终端电阻总线线路必须用在和线之间每端连接的欧姆()电阻来终接,如下所示。CAN-SHIELDCAN-SHIELDICAN-SHIELDCAN-GNDCE CAN-GND XXCAN-GND120g2CAN-HCAN-HCAN-H1209总线电缆请选用有两对双绞线的带屏蔽层电缆:一对双绞线分别接和,另外一对双绞线直接接EsTUN埃斯自动化伺服使用于册第章通讯提供了所有的网络管理服务和报文传送协议,但并没有定义对象的内容或者正在通讯的对象的类型(它只定义了,没有定义),而这正是切入点。是在基础上开发的,使用了通讯和服务协议子集,提供了分布式控制系统的一种实现方案。在保证网络节点互用性的同时允许节点的功能随意扩:或简单或复杂。的核心概念是设备对象字典(),在其它现场总线)系统中也使用这种设备描述形式。通讯通过对象字典()能够访问驱动器的所有参数。注意对象字典不是的部分,而是在中实现的。通讯模型定义了如下几种报文(通讯对象)缩写详称说明用于非时间关键数据,比如参数用于传输时间关键进程数据(给定值、控制字、状态信息等)。用于同步节点。用于传输驱动器的报警事件。用于网络管理。用于监测所有节点的生命状态通过数据帧在主机(控制器〕和总线节点之间传输数据。下图说明了数据帧的结构。仲裁域帧头控制域数据域校验域应答域帧尾(通讯对象标识符)(远程请求或位本驱动器暂不支持远程帧。其中(通讯对象标识符)分配:功能码(节点地址)STUN埃斯自动化伺服使用于册3.1CAN标识符分配表功能码相应通讯参数通讯对象(进制)进制在中的索引(发送)(接受)(发送)(接受)(发送)(接受)(发送)(接受)(发送)(接受)注意的发送接受是由()节点观察的。本驱动器的支持个发送个接受。EsTUN埃斯自动化伺服使用于册3.2服务数据对象SD0用来访问一个设备的对象字典。访问者被称作客户对象字典被访问且提供所请求服务的设备被称作服务器客户的报文和服务器的应答报文总是包含字节数据(尽管不是所有的数据字节都一定有意义)。一个客户的请求一定有来自服务器的应答。有种传送机制加速传送(最多传输字节数据分段传送(传输数据长蒉大于字节基本结构如下命令对象索引对象子索引报文对参数读写操作格式Read commandsWrite commandsLOW-Byte of main index(hex)High-Byte of main index(hex)UINT8/NT8Subindex(hex)Token for 8 bitCommand 40 IXO X1 su2FhIDⅨX1sUDoAnswer4Fn IXO IX1 SU DO60hIoⅨX1sUUINT16/INT16Token for 8 BitToken for 16 BitCommand40nX0Ⅸ1sU2BhⅨ0Ⅸ1 SU DO D1Answer4BnIX0Ⅸ1SUD0D160hl0Ⅸ1SUToken for 32 BitUINT32/NT32Token for 16 BitCommand 40Xo X1 SU23IoⅨX1 SU DO D1D2D3Answer43nⅨ0Ⅸ1SUD0D1D2D360hDXoⅨX1sUToken for 32 Bit举例
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88E1116R_Datasheet
88E1116R_Datasheet,marvell以太网phy芯片手册,全本88E1116RM A RV E LL. Alaska Gigabit Ethernet TransceiverOVERVIEWFEATURESThe Alaska 88E1116R Gigabit Ethernet Transceiver is10/100/1000BASE-TIEEE 802.3 complianta physical layer device containing a single GigabitSupports reduced pin count GMII(RGMID)interfaceEthernet transceiver. The transceiver implements theFour RGMii timing modesEthernet physical layer portion of the 1000BASE-T,100BASE-TX. and 10base-t standards. t is manufacIntegrated mdi interface termination resistors thateliminate twelve passive componentstured using standard digital CMOS process and con-tains all the active circuitry required to implement theEnergy Detect and Energy Detect+ low powerphysical layer functions to transmit and receive data onmodesstandard Cat 5 unshielded twisted pairThree loopback modes for diagnosticsThe 88E1116R device has two regulators to generateDownshift"mode for two-pair cable installationsall required voltages. The 88E1116R device can beFully integrated digital adaptive equalizers, echopowered by a single 1.8V, 2.5V, or 3. 3V supply Alternacancellers, and crosstalk cancellerstively, if the regulators are not used, then the 88E1116RAdvanced digital baseline wander correctiondevice can be powered by a 1. 8v and 1.2V supplyAutomatic MDi/MDIX crossover at all speeds ofThe 88E1116R device incorporates the Marvell@ VirtualoperationCable Tester (VCTTM)feature, which uses TimeAutomatic polarity correctionDomain Reflectometry(TDR)technology for the remotelEEE 802. 3u compliant Auto-Negotiationidentification of potential cable malfunctions, thusSoftware programmable LEd modes including LEDreducing equipment returns and service calls. UsingtestingVCT, the alaska 88E1116R device detects and reportspotential cabling issues such as pair swaps, pair polar-Supports IEEE 1149.1 JTAGity and excessive pair skew. The device will also detectMDC/MDIO Management Interfacecable opens, shorts or any impedance mismatch in theCRC checker, packet countercable and reporting accurately within one meter the disPacket generationtance to the faultVirtual Cable Tester(VCT)The 88E1116R device integrates MDI interface terminaAuto-Calibration for MAc Interface outputstion resistors into the Phy. this resistor integrationComa Mode supportfacilitates board layout and reduces board cost byRequires a single 1.8v supplyreducing the number of extenal components. The new10 pads can be supplied with 1.8V, 2.5V, or 3. 3VMarvell calibrated resistor scheme will achieve andexceed the accuracy requirements of the IEEE 802.3Two regulators generate all required voltagesRegulator can be supplied with 1.8V,2.5V or 3.3Vreturn loss specificationsCommercial gradeThe 88E1116R device supports the reduced gmll64-Pin QFN package(RGMI)for direct connection to a MAC/Switch portThe 88E1116R device uses advanced mixed-signal processing to perform equalization, echo and crosstalkcancellation, data recovery, and error correction at agigabit per second data rate. The device achievesrobust performance in noisy environments with very lowpower dissipationThe 88E 1116R device is offered in a 64-pin QFn pack-The 88E1116R device is footprint compatible with the88E1116 device As the 88E 1116R device employs integrated MDi interface terminations, all external mDIinterface termination resistors and capacitors must beremoved when migrating from the 88E1116 to88E1116R. See 88E1116 to 88E1116R Migration Appli-cation note for more detailsCopyright o 2007 MarvellCONFIDENTIALDoC. No. MV-S104224-00. Rev.March 1. 2007. AdvanceDocument Classification: Proprietary InformationPage 388E1116RMARVELLo Alaska Gigabit Ethernet TransceiverMagnMedia Types10/1001000Mbps88E1116R|a盖10BASEEthernet macRJ-45Device100BASE-TX1000BASE-TMAC InterfaceRGMII88E1116R Device used in Copper ApplicationDoc. No. MV-S104224-00. Rev.CONFIDENTIALCopyright o 2007 MarvellPage 4Document Classification: Proprietary InformationMarch 1. 2007. AdvanceTable of contentsSECTION 1. SIGNAL DESCRIPTION1.1 Pin Description101.1.1 Pin Type Definitions1264 Pin QFN Pin Assignment List- Alphabetical by Signal Name.……,…,,…,161.3 O State at Various Test or reset modes .mmm.,17SECtION 2. FUNCTIONAL SPECIFICATIONS2.1 Copper Media Interface..国面画192.2 MAC Interface(RGMII)4192.2.1 10/100 Mbps Functionality2.2.2 TX ER and RX ER Codingaaaaaiiaia t23Lo。 pback……………,….….….,.,…….…,…,….….……,…….……………212.3.1 MAC Interface Loopback212.3.2 Line Loopback.222.3.3 EXternal Loopback24 Synchronizing F|FQ….…,,…,…,,,,,,…,,,,,…,,,…,,,,…,……242.5 Copper Media Transmit and receive Function.man..m日a252.5.1 Transmit side Network Interface252.5.2 Encoder2.5.3 Receive Side Network Interface2.5. 4 Decoder2.6 Regulators and Power Supplies282.6.1 AVDD2.6.2 AVDDC282.6.3 AVDDR292.6.4 AVDDX2.6.5DVDD…292.6.6 VDDO26.7 VDDOR.292.7 Power Management302.7.1 Low Power Modes2.72 Low Power Operating Modes……2.7.3 RGMl Effect on Low Power modes3228Auto- Negotiation.........……33Copyright o 2007 MarvellCONFIDENTIALDoC. No. MV-S104224-00. Rev.March 1. 2007. AdvanceDocument Classification: Proprietary InformationPage 588E1116RMARVELL Alaska Gigabit Ethernet Transceiver2.9 Downshift Feature…352.10 Advanced virtual Cable Tester362.10.1 Maximum Pe2.10.2 First Peak372.10.3 Offsetp2. 10. 4 Sample Poin2.10.5 Pulse Amplitude and Pulse Width392. 10.6 Drop Link...392.10.7 VCTTM With Link Up392.11 Data Terminal Equipment (DTE)Detect........2.12 CRC Error Counter and frame Counter412.12. 1 Enabling the crc error counter and frame counter.412.13 Packet generator412.14 MDI/MDIX Crossover422.15P。 olarity Correction..…432.16LED,,,,,,,,,,,…,…,,442.16.1 LED Polarity452.16.2 Pulse Stretching and Blinking.462. 16.3 Bi-Color LED Mixing472.16.4 Modes of Operation482.17 EEE 1149.1 Controller522.17.1 BYPASS Instruction522.17.2 SAMPLE/PRELOAD Instruction.52217.3 EXTEST Instruction552,17.4 The clamP Instruction552,17.5 The high-z Instruction552.17.6 ID CODE Instruction552.18 Interrupt.552.19 Automatic and Manual Impedance Calibration.……,…,…,…,…,…,…,……562. 19. MAC Interface calibration circuit562.19.2 MAC Interface Calibration Register Definitions2. 19.3 Changing Auto Calibration Targets2. 19. 4 Manual Settings to The Calibration Registers“““582.20 Configuring the 88E1116R Device..2.20. 1 Hardware Configuration612.20.2 Software Configuration-Management Interface632.21 Temperature sensor64Doc. No. MV-S104224-00. Rev.CONFIDENTIALCopyright o 2007 MarvellDocument Classification: Proprietary InformationMarch 1. 2007. AdvanceSECTION 3 REGISTER DESCRIPTION65SECTION 4, ELECTRICAL SPECIFICATIONS1104.1. Absolute Maximum Ratings,…,…,…,…,,…,…,…,…,…,…,,…,…,……,1104.2. Recommended Operating Conditions..,,.,……,,……1114.3. Package Thermal Information.………….……….…………1124.3.1 Thermal Conditions for 64-pin QFn Package1124. 4. Current Consumption...........面量量…1134.4.1 Current Consumption AVDD..1134.4.2 Current Consumption AVDDC..1134.4.3 Current Consumption AVDDR1144.4.4 Current Consumption AVDDX1144.4.5 Current Consumption DVDD4.4.6 Current Consumption VDDo1154.4.7 Current Consumption VDDOR1154.4.8 Current Consumption Center Tap1154.5. DC Operating Conditions1164.5.1 Non-RGMlI Digital Pins1164.5.2 Internal resistor Description4.5.3 Stub-Series Transceiver LogIc (55/.21174.5 4 EEE DC Transceiver Parameters1194.6. AC Electrical Specifications1204.6.1 Reset Timing ..1204.6.2 XTAL IN/XTAL OUT Timing1214.6.3 LED to CONFIG Timing1214.7 RGMII Interface Timing……,,…1224.7.1 RGMl AC Characteristics4.7.2 RGMII Delay Timing for different RGMiI Modes1234.8. MDC/MDIO Timing…12549. JTAG Timing…,,…1264.10.EEE AC Transceiver parameters1274.11. Latency Timing........….…1284.11.1 RGMII to 1000BASE-T Transmit Latency Timingaa“aa1284.11.2 RGMII to 100BASE-TX Transmit Latency Timing1284.11.3 RGMiI to 10BASE-T Transmit Latency Timing4. 11. 4 1000BASE-T to RGMll Receive Latency Timing1304. 11.5 100BASE-TX to RGMII Receive Latency Timing.1304.11.610 BASE-T to RGMll Receive Latency Timing……….….…………,130SECTION 5. PACKAGE MECHANICAL DIMENSIONS1315.1 64-Pin QFN Package...131Copyright o 2007 MarvellCONFIDENTIALDoC. No. MV-S104224-00. Rev.March 1. 2007. AdvanceDocument Classification: Proprietary InformationPage 788E1116RMARVELL Alaska Gigabit Ethernet TransceiverSECTION 6. ORDER INFORMATION1336.1 Ordering Part Numbers and Package Markings1336.1.1 RoHS 5/6 Marking Example1346.1.2 RoHS 6/6 Marking Example135Doc. No. MV-S104224-00. Rev.CONFIDENTIALCopyright o 2007 MarvellPage 8Document Classification: Proprietary InformationMarch 1. 2007. AdvanceSignal DescriptionSection 1. Signal DescriptionThe 88E1116R device is a 10/100/1000BASE-T Gigabit Ethernet transceiverFigure 1: 88E1116R Device 64-Pin QFN Package(Top view)文gg9廿廿廿廿廿廿凵廿廿廿凵廿守令导好寸守哥导$85#將RX CTRL4932TSTPTRXDIO5031MDIPIORXD[51EPAD-VSS30d MDIN[O]VDDOR52290 AVDDRX CLK5328叫NCRXD[2]54AVDDRXD]5526MD|P[1VDDOR56VREF57MARVEL L③24E MDIP[2TXD0]□5823MDIN[2TXD[1]B5988E1116R22AVDDTX_CLK F6021AVDDTXD[2Top ViewMDIP[3TXD3]□62190 MDIN[3]TⅩCTRL6318□NCCONFIG[O]64CTRL18三s回口cc×O百口口艺艺安安Copyright o 2007 MarvellCONFIDENTIALDoc. No. MV-S104224-00 RevMarch1.2007. AdvanceDocument Classification: Proprietary InformationPage 988E1116RMARVELL. Alaska Gigabit Ethernet Transceiver1.1 Pin Description1.1.1 Pin Type DefinitionsPin Ty peDefinitionHInput with hysteresisVOInput and outputInput onlOutput onlPUIntemal pullPDInternal pull downOpen drain outputTri-state outputADC sink capabilityDoC. No. MV-S104224-00 RevCONFIDENTIALCopyright o 2007 MarvellPage 10Document Classification: Proprietary InformationMarch.2007. Advance
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