PE-Chap.6_AC-AC Converter-wj(20121031)

P/N: 1802061500016 *1802061500016*NPort 6150/6250 Series Quick Installation GuideEdition 9.0, November 2016Technical Support Contact Information/supportMoxa Americas:Toll-free: 1-888-669-2872 Tel: 1-714-528-6777 Fax: 1-714-528-6778 Moxa China (Shanghai office): Toll-free: 800-820-5036 Tel: +86-21-5258-9955 Fax: +86-21-5258-5505 Moxa Europe:Tel: +49-89-3 70 03 99-0 Fax: +49-89-3 70 03 99-99 Moxa Asia-Pacific:Tel: +886-2-8919-1230 Fax: +886-2-8919-1231 Moxa India:Tel: +91-80-4172-9088 Fax: +91-80-4132-10452016 Moxa Inc. All rights reserved.OverviewThe NPort 6150/6250 series secure serial device servers provide reliable serial-to-Ethernet connectivity for a wide range of serial devices. The NPort 6150/6250 support TCP Server, TCP Client, UDP, andPair-Connection operation modes to ensure the compatibility of network software. In addition, the NPort 6150/6250 also support Secure TCP Server, Secure TCP Client, Secure Pair-Connection, and Secure Real COM modes for security critical applications such as banking, telecom, access control, and remote site management.Package ChecklistBefore installing a NPort 6150/6250 secure device server, verify that the package contains the following items:• 1 NPort 6150 or NPort 6250•Power adapter (does not apply to -T models)• 2 wallmount ears•Documentation and software CD•Quick installation guide (this guide)•Warranty cardOptional Accessories•DK-35A: DIN-rail mounting kit (35 mm)•DIN-rail power supply•CBL-RJ45M9-150: 8-pin RJ45 to male DB9 cable•CBL-RJ45M25-150: 8-pin RJ45 to male DB25 cableNOTE: Please notify your sales representative if any of the above items are missing or damaged.Hardware IntroductionNPort 6150NPort 6250Reset Button—Press the Reset Button continuously for 5 sec to load factory defaults. Use a pointed object, such as a straightened paper clip or toothpick, to press the reset button. This will cause the Ready LED to blink on and off. The factory defaults will be loaded once the Ready LED stops blinking (after about 5 seconds). At this point, you should release the reset button.LED IndicatorsAdjustable pull high/low resistor for RS-422/485 (150 K Ω or 1 K Ω)Jumpers are used to set the pull high/low resistors. The default is 150 kΩ. Short the jumpers to set this value to 1 kΩ. Do not use the 1 kΩ setting with RS -232 mode, since doing so will degrade the RS-232 signals and shorten the communication distance.Hardware Installation ProcedureSTEP 1: Connect the 12-48 VDC power adaptor to the NPort 6150 andthen plug the power adaptor into a DC outlet.STEP 2: For first-time configuration, use a cross-over Ethernet cable toconnect the NPort 6150 directly to your computer’s Ethernet cable. For connecting to a network, use a standardstraight-through Ethernet cable to connect to a hub or switch.STEP 3: Connect the NPort 6150’s serial port to a serial device.Placement OptionsThe NPort 6150/6250 can be placed flat on a desktop or other horizontal surface. In addition, you may use the DIN-rail or wallmount options, as illustrated below.WallmountDin RailSoftware Installation InformationThe Documentation and software CD contains the user’s manual, NPort Search Utility, and the PComm Lite Suite. Insert the CD into yourcomputer’s CD-ROM drive and follow the on-screen instructions. Please refer to the user’s manual for additional details on using the NPort Search Utility and PComm Lite.Pin Assignments and Cable WiringTwo serial cables for connecting the NPort 6150 to a serial device can be purchased separately. The wiring diagrams for the two cables are shown below.。

VMware Converter 使用图解这是一款能将物理电脑系统转化为一个虚拟机映像文件的工具，而且生成的映像可以在该公司的VMware虚拟机软件中使用。

新版本融合了之前两个独立的工具：VMware P2V Assistant和Virtual Machine Importer。

除了物理-虚拟转化功能外，Converter 3还可以将微软Virtual Server/Virtual PC以及赛门铁克Backup Exec System Recovery等第三方VM格式转化为VMware 兼容映像.而P2V有两种方式：Hot Cloning and Cold CloningHot Cloning：也称Live Cloning或Online Cloning，是把正在运转的机器克隆成一台虚拟机，不中断机器的运行。

这一项功能大多数使用了OS的Vlume Snapshot功能（在Windows中为Volume Shadow Copy Service）。

在Hot Cloning 中，被克隆的机器上将会被安装VMware Converter Agent，安装完毕这个Agent 会被自动删除。

Hot Cloning还有Local和Remote(远程)之分：克隆一个VMware Converter 所在的机器就叫做Local，克隆网络上的一台计算机则称为Remote。

当然，克隆网络上的另一台计算机，你必须知道其管理员帐户和密码。

Cold Cloning：如果你不想在被克隆的机器上留下任何痕迹，那么Cold Cloning，或称Offline Cloning则是最好的选择（遗憾的是，该功能只包含在Enterprise版中）。

Code Cloning是使用一张含有VMware Converter的启动光盘（实际上是一个WinPE平台）启动系统，然后对系统进行完整的克隆。

下面是一台Hot Cloning 在Local上转换一台DNS主服务器到ESX Server.1)VMware Converter 3.0.0 build 39557 企业版2)点击 Import Machine向导3)P2V简单的功能介绍4) Source（来源）选择,physical or Virtual Machine File 转换到ESX Server or Virtual Center上5)Physical computer分为 A remote machine or local machine6)physical machine 的硬盘信息,可以在这里灵活调整转换成virtual machine 硬盘的大小,如:不做改变,以最小数据,按MB调节硬盘大小,GB调节硬盘大小.Ignore page file and hibernation file,忽略页面文件和休眠文件,一般为选中.7)Source Data8)Destination为 ESX Server or Virtualcenter 还是 VMware workstation or VMware Server.9)输入IP,User name and Password10)输入VM NameNote:此名为Virtual machine name 和 storage 上建立存放VM File 文件夹的名字,与系统中的计算机名无关.11)Host12)选择存放在本地storage还是网络storage.（存储，备份）advanced 高级13)选择converter后NIC数量,连接在哪个 virtual switch,和power on时是否连接.14)启动系统后是否安装vmware tools和是否重新封装VM的信息15)Ready to CompleteNotice（注意，备注）:使用企业版时如果没有导入License时,无法使用remote machine到ESX server.以后我会把VMware Converter 转换时遇到的错误和解决办法整理出来。

Acme Packet 450010-gigabit NIU Installation Guide Formerly Net-Net 4500October 2013Copyright ©2013, 2012 Oracle and/or its affiliates. All rights reserved.This software and related documentation are provided under a license agreement containing restrictions on use and disclosure and are protected by intellectual property laws. Except as expressly permitted in your license agreement or allowed by law, you may not use, copy, reproduce, translate, broadcast, modify, license, transmit, distribute, exhibit, perform, publish, or display any part, in any form, or by any means. Reverse engineering, disassembly, or decompilation of this software, unless required by law for interoperability, is prohibited.The information contained herein is subject to change without notice and is not warranted to be error-free. If you find any errors, please report them to us in writing.If this is software or related documentation that is delivered to the U.S. Government or anyone licensing it on behalf of the U.S. Government, the following notice is applicable:U.S. GOVERNMENT END USERS: Oracle programs, including any operating system, integrated software, any programs installed on the hardware, and/or documentation, delivered to U.S. Government end users are "commercial computer software" pursuant to the applicable Federal Acquisition Regulation and agency-specific supplemental regulations. As such, use, duplication, disclosure, modification, and adaptation of the programs, including any operating system, integrated software, any programs installed on the hardware, and/or documentation, shall be subject to license terms and license restrictions applicable to the programs. No other rights are granted to the U.S. Government. This software or hardware is developed for general use in a variety of information management applications. It is not developed or intended for use in any inherently dangerous applications, including applications that may create a risk of personal injury. If you use this software or hardware in dangerous applications, then you shall be responsible to take all appropriate fail-safe, backup, redundancy, and other measures to ensure its safe use. Oracle Corporation and its affiliates disclaim any liability for any damages caused by use of this software or hardware in dangerous applications. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Other names may be trademarks of their respective owners.Intel and Intel Xeon are trademarks or registered trademarks of Intel Corporation. All SPARC trademarks are used under license and are trademarks or registered trademarks of SPARC International, Inc. AMD, Opteron, the AMD logo, and the AMD Opteron logo are trademarks or registered trademarks of Advanced Micro Devices. UNIX is a registered trademark of The Open Group.This software or hardware and documentation may provide access to or information on content, products, and services from third parties. Oracle Corporation and its affiliates are not responsible for and expressly disclaim all warranties of any kind with respect to third-party content, products, and services. Oracle Corporation and its affiliates will not be responsible for any loss, costs, or damages incurred due to your access to or use of third-party content, products, or services.About This GuideOverviewThe Acme Packet 4500 is a high performance, high capacity session border controllerthat optimally delivers interactive communications—voice, video, and multimediasessions—across wireline, wireless, and cable IP network borders.Audience This guide is written for network administrators, and telecommunicationsequipment installers and technicians. It provides information related to thehardware components, features, installation, start-up, operation, and maintenanceof the Acme Packet 4500. Only experienced and authorized personnel shouldperform installation, configuration, and maintenance tasks.Revision HistoryThis section contains a revision history for this document.Date RevisionNumberDescriptionSeptember 15 2012Revision 1.00•Initial Release September 15 2012Revision 1.2•minor updates10-gigabit NIU card Installation GuideIntroductionThis guide provides information about how to install a 10 Gigabit NIU card.The following is a list of the major steps required to install a 10 Gigabit NIU card.1.Follow preinstallation guidelines2.Ground yourself and follow proper ESD grounding procedures.3.Install the 10-gigabit NIU card into the Acme Packet 4500 or 3820.Shipped Parts10-gigabit NIU card order contains the following:•Acme Packet 10-gigabit NIU card.Installation Tools and Parts The following tools and parts are required to install a 10-gigabit NIU card. •#2 Phillips-head screwdriver.•ESD wrist strap.•ESD safe location.Preinstallation•This Installation should be performed during low-traffic periods or scheduledmaintenance windows.•When installing or removing a 10-gigabit NIU card, use ESD safe standardprocedures.Caution Before handling an 10-gigabit NIU card follow the proper ESDgrounding procedures. Failure to do so could damage the cardand its components.ESDWhen performing maintenance on Acme Packet 4500 components you must groundyourself with an ESD wrist strap. An ESD wrist strap is used to channel staticelectricity to ground. Proper grounding is essential for handling static-sensitiveequipment. Alternatively, you can ground yourself according to establishedgrounding guidelines of the location where the Acme Packet 4500 or 3820 resides.Note: An ESD wrist strap is not shipped with your Acme Packetproducts.10-gigabit NIU card Removal1.Front view of the Acme Packet 4500 chassis.2.Rear view of the Acme Packet 4500 chassis.3.Unscrew the two thumb screws located on each side of the 10-gigabit NIU cardwith a #2 Phillips screwdriver. The screws are spring-loaded and will be pushedforward, but will not fall out of the NIU card. .4.Pull the two ejector handles out and away from the chassis at the same time todisengage the 10-gigabit NIU card from the midplane and chassis.Note: Do not force the NIU card out of the chassis. If there is anyresistance. Check the alignment of the card and guide rails.5.Remove the NIU card from the Acme Packet 4500 chassis and move it to an ESDsafe location.6.The NIU card is removed from the chassis and moved to an ESD safe location.10-gigabit NIU card Identification1.10-gigabit NIU card.2.The 2 Media ports are identified in this image.3.The 3 Management ports are identified in this image.4.The console port is identified in this image.5.The Alarm port is identified in this image.10-gigabit NIU card Installation1.Acme Packet 4500 chassis with empty slot for the 10-gigabit NIU card.2.Insert the 10-gigabit NIU card into the chassis with both sides of the 10-gigabitNIU card inserted into the guide rails.Note: Do not force the 10-gigabit NIU card into the chassis If there isany resistance. Remove the 10-gigabit NIU card and check thealignment of the card and guide rails.3.Move the 10-gigabit NIU card forward until it engages with the midplane andchassis.4.Move the ejector handles from the extended position to the forward positionand into the chassis.5.With a #2 phillips head screw driver, screw in the two screws so the 10-gigabitNIU card is secured in the chassis.SFP+ Media Signaling InterfacesThis section describes the media signaling interfaces, small form factor pluggable+.The signaling and media interface, provide network connectivity for the signalingand media traffic. Each interface can connect to a network at 10 gigabit.SFP+ Information Only transceivers qualified by acme packet can be used in the SBC. Mixedtransceiver types are unsupported. Both transceiver locations must be populatedwith the same SFP+ type, based on compliance testing.10-gigabit SFP+ transceivers are inserted into the NIU card.850nm LASER PROD, Check the label on the back of the SFP for this information tomake sure you have the right mode transceiver. Black bale clasp latch-Multi Mode.1310nm LASER PROD Check the label on the back of the SFP for this informationto make sure you have the right mode transceiver. Blue bale clasp latch-Single Mode. SFP+ Identification The following image shows the 10 gigabit SFP+ Multi Mode transceiver used in theAcme Packet 4500 NIU cards. Black bale clasp latch -Multi Mode.The following image shows the 10 gigabit SFP+ Single Mode transceiver used in theAcme Packet 4500 NIU cards. Blue bale clasp latch-Single Mode.Media CablesThis section describes the media signaling interface, fiber optic cable, used in theNIU card that goes with the Net- Net 4500. The fiber optic cables only ship fromAcme Packet if you order them.Cable Information There is a 10 gigabit cable that is used with the NIU cards that are installed in theAcme Packet 4500.CableMulti Mode 10 gigabit fiber optic cable. The color is Aqua. 50/125 IdentificationSingle Mode 10 gigabit fiber optic cable. The color is Yellow. 9/125System StartupOnce you have completed installing the 10 gigabit NIU card, power on the system.The system will only alert you if there is an issue with the new 10 gigabit NIU card.。

User ManualIS104GPS-2F6-port Gigabit managed PoE switchInstallation Manual Introduction<User Manual>mainly introduces the hardware features, installation methods,and precautions during the installation of IS104GPS-2F.This manual includes the following sections:Chapter1:Product introduction.Briefly describe the basic functions and features of the switch,detailed hardware and software specifications and appearance information.Chapter2:Hardware Connections.Guide the connection of switch with other devices and precautions.Chapter3:Product Installation.Guide the hardware installation method and precautions.Chapter4:Product Packaging and Use Recommendations.Chapter1Product Introduction1.1Product introductionThe IS104GPS-2F is a6-port Gigabit-managed industrial PoE switch that provides4Gigabit ports and2Gigabit SFP ports.Each PoE port can provide up to46W for IEEE802.3af/at compatible powered devices(PDs).It is especially suitable for applications where AC power is not easily available or high wiring costs.It support EMC industrial grade4protection;corrugated high-strength aluminum profile housing,IP40grade,low power design,seismic rail mounting,-40°C-75°C operating temperature, can work in harsh environments;IS104GPS-2F also supports Apollo cloud one-stop management platform for status checking and management monitoring,to make it become a reliable solution for Intelligent transportation,video surveillance and other harsh industrial environments.21.2FeaturesFull Gigabit Ethernet port4full Gigabit RJ45PoE network port,and2Gigabit SFP ports, breaking the traditional100M limitation,data transmission will not stuckBroadcom high performance industrial grade chip for more stable performanceBroadcom high-performance industrial-grade chips that dramatically increase network data processing ratesPowerful working environmentEMC industrial grade4protection;corrugated high-strength aluminum profile housing,IP40grade,low power design,seismic rail mounting,-40°C-75°C operating temperature,can work in harsh environments3Support Apollo cloud platform one-stop management Support cloud platform to visualize management of switches and attached power devices,making operation and maintenance management easier1.3Software and hardware specificationsHardware specificationChipBroadcom high performance chipFlash16MBRAM64MBDDRPort410/100/1000M RJ45Port21000M SFP PortPoE Power supply 410/100/1000MbpsRJ45Port support 802.3af/atPoE power supplyThe maximum power per port is46W4Indicator 6Link/Act indicator4POEindicatorALM Alarm indicatorP1、P2Power Indicator1SYS indicatorPerformance Forward mode:store and forward Backplane bandwidth:12Gbps Packet forwarding rate:8.9Mpps Support8K MAC address table depthStandard protocol IIEEE802.3:Ethernet Media Access Control (MAC)ProtocolIEEE802.3i:10BASE-T EthernetIEEE802.3u:100BASE-TX Fast EthernetIEEE802.3ab:1000BASE-T Gigabit Ethernet IEEE802.3z:1000BASE-X Gigabit Ethernet (optical fiber)5IEEE802.3ad:Standard method for performing link aggregationIEEE802.3x:Flow ControlIEEE802.1p:LAN Layer2Qos/Cos protocol for traffic prioritization(multicast filtering)IEEE802.1q:VLAN Bridge OperationIEEE802.1d:STP spanning treeIEEE802.1s:MSTP Spanning TreeIEEE802.1w:RSTP Spanning TreeIEEE802.3afIEEE802.3atIndustry Standard EMI:FCCCFR47Part15,EN55022/CISPR22, Class AEMS:IEC61000-4-2(ESD):±8kV(contact),±15kV6(air)IEC61000-4-3(RS):10V/m(80MHz-2GHz)IEC61000-4-4(EFT):Power Port:±4kV;Data Port:±2kVIEC61000-4-5(Surge):Power Port:±2kV/DM,±4kV/CM;Data Port:±6kVIEC61000-4-6(CS):3V(10kHz-150kHz);10V (150kHz-80MHz)IEC60068-2-6(Vibration)IEC60068-2-27(Shock)IEC60068-2-32(Free Fall)Operation environment Working temperature:-40~75°CStorage temperature:-40to75°CRelative humidity:5%to95%(no condensation)7Certification CE,FCC,RoHSMean timebetweenfailures(MTBF)100,000hrsWarranty3yearsLightningprotectionNetwork port:±6KV power port:±4KV ESD Contact:±8KV Air:±15KVPhysical specification Input:48-56VDCHousing:IP40grade protection,corrugated high strength metal housingInstallation:DIN rail mountingSize:163mm×46.5mm×110mm，Weight：1kg8Software specification101112131.4AppearanceIndicator StatusDescriptionP1、P2On The corresponding power supply working normally.Off The corresponding power supply is not connected or working abnormal.SYS Blink System is running normally14ingOff/ alwa ys brig ht System operation is abnormal/start unsuccessfulALM On Alarm start upOff Alarm not triggeredLink/ACT F1-F4BlinkingSFP port is working normalOff SFP port is working abnormally/port is not connected1516Chapter 2.Hardware Connection2.1Connect to RJ45portUse the network cable to connect the switch to the RJ45port of network device.Normally,the switch's downlink port has POE power supply enabled by default.It can support POE power supply to AP ,bridge,network camera and other PDs which comply with IEEE802.3af and IEEE802.3atstandards.2.2Connect to the SFP portThe SFP port of the IS104GPS-2F supports only Gigabit fiber modules.It is recommended to use standard SFP module products. The process of installing a fiber module on a switch is as follows:1.Grasp the fiber module from the side and insert it smoothly along the SFP port slot of the switch until the fiber module is in close contact with the switch;2.Confirm the Rx and Tx ports of the fiber module when connecting.Insert one end of the fiber into the Rx and Tx ports to ensure that the Tx and Rx ends of the interface are correctly connected,and the other end of the fiber is connected to another device.3.After power-on,check the status of the corresponding indicator.If the indicator is on,the link is up.If not,please check the line and confirm that the peer device is enabled.1718Attention:It is not allowed to excessively bend the fiber,and its radius of curvature should be no less than 10cm;Ensure the cleanliness of the fiber end face;Please do not look directly into the fiber optic connector with your eyes,as this may cause eye damage.2.3Check before power-onCheck that the power supply of the power outlet meets the switch specifications.Check that the power supply,switch,and rack are properly grounded.Check whether the switch is connected to other network devices.2.4Device initializationThe switch will automatically initialize after the power is turnedonand the power switch is turned on.The indicator light will appear as follows:After the power is turned on,the power indicator remains steady, the SYS light enters the blinking state,and the system runs normally.The indicator of each port indicates the connection status of each port,indicating that the switch has started to work normally.Chapter3,Product InstallationBefore installation,confirm the operating environment of the equipment:power supply voltage,installation space,installation method,etc.Please carefully confirm the following installation requirements:-Check for cables and connectors required for19installation♦-Check whether the cable is in place(not more than100m)according to reasonable configuration requirements.♦-The product does not provide mounting components,the user must prepare the components of the selected installation type:screws,nuts and tools to ensure reliable installationPower requirements：12-56V DC(12-48V nonsupportPoE，support date exchange only)Environmental requirements:Working temperature:-40~75°CStorage temperature:-40to75°CRelative humidity:5%to95%(no condensation) Power input20215pin 5.08mmterminalInput range：12-56VDCP1&P2dual redundant power supply,Support reverse connection protectionGround protectionGroundprotectionConnect to groundRail mountingChapter4,Packing list and use recommendations 4.1Product packagingItem Quantity Description Switch1set\Phoenix terminal1*5,1*2eachper one unit Connect to power and alarm switchWarranty card1piece For after-sales maintenance User Manual1copy Used to guide users to installswitches4.2Recommendations1.For safety reasons,non-professionals should not open the product casing;2.Pay attention to the danger of strong electricity and safe protection when the product is powered on;223.Do not use the switch in a humid environment to prevent water from entering the fuselage through the casing,resulting in damage to the machine;4.In the state of power-on of the product,please do not plug and unplug the cable if non special case;5.Please do not place heavy objects on the switch to avoid accidents;6.It is recommended to use the switch indoors.It is recommended to add a waterproof box when using it outdoors. Note:The pictures in the manual are for reference only,whichever is subject to the actual product.23。

SPECIFICATIONSNI USB-6003Low-Cost DAQ USB DeviceThe following specifications are typical at 25 °C, unless otherwise noted. For more information about the NI USB-6003, refer to the NI USB-6001/6002/6003 User Guide available at /manuals.Analog InputNumber of channelsDifferential4....................................................................Single-ended8....................................................................ADC resolution16-bit ............................................................................Maximum sample rate (aggregate)100 kS/s ............................................................................Converter type Successive approximation ............................................................................ ............................................................................AI FIFO2,047 samplesTrigger sources Software, PFI 0, PFI 1 ........................................................................................................................................................Input range±10 VWorking voltage±10 V ............................................................................Overvoltage protectionPowered-on±30 V....................................................................Powered-off±20 V....................................................................Input impedance>1 GΩ............................................................................Input bias current±200 pA ............................................................................Absolute accuracy....................................................................Typical at full scale 6 mV26 mVMaximum over temperature,....................................................................full scaleSystem noise0.4 mVrms.................................................................... ............................................................................DNL16-bit, no missing codesINL±1.8 LSB ............................................................................CMRR56 dB (DC to 5 kHz) ............................................................................Bandwidth300 kHz ............................................................................Analog OutputAnalog outputs2 ............................................................................DAC resolution16-bit ............................................................................Output range±10 V ............................................................................Maximum update rate 5 kS/s simultaneous per channel, hardware-............................................................................timedAO FIFO2,047 samples ............................................................................ ............................................................................Trigger sources Software, PFI 0, PFI 1Output current drive±5 mA ............................................................................Short circuit current±11 mA ............................................................................Slew rate 3 V/μs ............................................................................Output impedance0.2 Ω............................................................................2| | NI USB-6003 SpecificationsAbsolute accuracy (no load)Typical at full scale8.6 mV....................................................................Maximum over temperature, full scale32 mV....................................................................DNL16-bit, no missing codes ............................................................................INL±4 LSB ............................................................................Power-on state0 V ............................................................................ ............................................................................Startup glitch-7 V for 10 µsTimebaseNote The following specifications apply to the sampling accuracy for hardware-timed analog input and analog output.Timebase frequency80 MHz ............................................................................Timebase accuracy±100 ppm ............................................................................ ............................................................................Timing resolution12.5 nsDigital I/O13 digital lines....................................................................Port 08 linesPort 1 4 lines....................................................................Port 2 1 lines....................................................................FunctionP0.<0..7>Static digital input/output....................................................................P1.0Static digital input/output........................................................................................................................................P1.1/PFI 1Static digital input/output, counter source ordigital triggerNI USB-6003 Specifications| © National Instruments| 3....................................................................P1.<2..3>Static digital input/outputP2.0/PFI 0Static digital input/output, counter source or ....................................................................digital triggerDirection control Each channel individually programmable as ............................................................................input or outputOutput driver type Each channel individually programmable as ............................................................................open collector or active driveAbsolute maximum voltage range-0.3 V to 5. 5 V with respect to D GND ............................................................................Pull-down resistor47.5 kΩ to D GND ............................................................................Power-on state Input ............................................................................Digital InputInput voltage range (powered on)0 to 5 V ............................................................................ ............................................................................Input voltage range (powered off)0 to 3.3 VInput voltage protection±20 V on two lines per port (maximum of five ............................................................................lines for all ports) for up to 24 hours Caution Do not leave a voltage above 3.3 V connected on any DIO line forextended periods of time when the device is powered off. This may lead to long termreliability issues. ............................................................................Minimum V IH 2.3 VMaximum V IL0.8 V ............................................................................Maximum input leakage currentAt 3.3 V0.8 mA....................................................................At 5 V 4.5 mA....................................................................Digital Output (Active Drive)Maximum V OL (4 mA)0.7 V ............................................................................Maximum V OL (1 mA)0.2 V ............................................................................Minimum V OH (4 mA) 2.1 V ............................................................................Minimum V OH (1 mA) 2.8 V ............................................................................ ............................................................................Maximum V OH 3.6 VMaximum output current per line±4 mA ............................................................................4| | NI USB-6003 SpecificationsDigital Output (Open Collector) ............................................................................Maximum V OL (4 mA)0.8 VMaximum V OL (1 mA)0.2 V ............................................................................Note Minimum Vdependent on user-provided pull-up resistor and voltagesource. Recommended pull-up resistor is 1 kΩ.Using a 1 kΩ pull-up resistor and 5 V voltagesource:Minimum V OH 3.5 V....................................................................Typical V OH 4.5 V....................................................................Maximum output (sinking) current per line-4 mA ............................................................................ ............................................................................Maximum pull-up voltage 5 VMaximum leakage currentAt 3.3 V0.8 mA........................................................................................................................................At 5 V 4.5 mACounterNumber of counters1 ............................................................................Resolution32-bit ............................................................................Counter measurements Edge counting, rising or falling ............................................................................Counter direction Count up ............................................................................ ............................................................................Counter source PFI 0 or PFI 1Maximum input frequency 5 MHz ............................................................................Minimum high pulse width100 ns ............................................................................ ............................................................................Minimum low pulse width100 nsNI USB-6003 Specifications| © National Instruments| 5+5 V Power SourceOutput voltage+5 V, ±3% ............................................................................Maximum current150 mA ............................................................................Overcurrent protection200 mA ............................................................................Short circuit current50 mA ............................................................................Overvoltage protection±20 V ............................................................................Bus InterfaceUSB specification USB Full Speed ............................................................................ ............................................................................USB bus speed12 Mb/sPhysical CharacteristicsDimensionsWithout screw terminal connector plugs75.4 mm × 86.2 mm × 23.6 mm, (2.97 in. ×....................................................................3.40 in. × 0.93 in.)With screw terminal connector plugs93.2 mm × 86.2 mm × 23.6 mm, (3.67 in. ×....................................................................3.40 in. × 0.93 in.)6| | NI USB-6003 SpecificationsFigure 1. NI USB-6003 DimensionsWeightWithout screw terminal connector plugs83 g (2.93 oz)....................................................................With screw terminal connector plugs105 g (3.70 oz)....................................................................I/O connectors: USB Micro-B receptacle, (1)16-position screw terminal plugsScrew-terminal wiring 1.31 to 0.08 mm2 (16 to 28 AWG)....................................................................Torque for screw terminals0.22 - 0.25 N · m (2.0 - 2.2 lb. · in.)....................................................................If you need to clean the module, wipe it with a dry towel.EnvironmentalTemperature (IEC 60068-2-1 andIEC 60068-2-2)Operating0 to 45 °C....................................................................Storage-40 to 85 °C....................................................................Humidity (IEC 60068-2-56)Operating 5 to 95% RH, noncondensing....................................................................Storage 5 to 90% RH, noncondensing....................................................................NI USB-6003 Specifications| © National Instruments| 7Pollution Degree (IEC 60664)2 ............................................................................Maximum altitude2,000 m ............................................................................Indoor use only.SafetyThis product meets the requirements of the following standards of safety for electrical equipment for measurement, control, and laboratory use:•IEC 61010-1, EN 61010-1•UL 61010-1, CSA 61010-1Note For UL and other safety certifications, refer to the product label or the OnlineProduct Certification section.Electromagnetic CompatibilityThis product meets the requirements of the following EMC standards for sensitive electrical equipment for measurement, control, and laboratory use:•EN 61326-1 (IEC 61326-1): Class A emissions; Basic immunity•EN 55011 (CISPR 11): Group 1, Class A emissions•EN 55022 (CISPR 22): Class A emissions•EN 55024 (CISPR 24): Immunity•AS/NZS CISPR 11: Group 1, Class A emissions•AS/NZS CISPR 22: Class A emissions•FCC 47 CFR Part 15B: Class A emissions•ICES-001: Class A emissionsNote In the United States (per FCC 47 CFR), Class A equipment is intended foruse in commercial, light-industrial, and heavy-industrial locations. In Europe,Canada, Australia, and New Zealand (per CISPR 11) Class A equipment is intendedfor use only in heavy-industrial locations.Note Group 1 equipment (per CISPR 11) is any industrial, scientific, or medicalequipment that does not intentionally generate radio frequency energy for thetreatment of material or inspection/analysis purposes.Note For EMC declarations and certifications, and additional information, refer tothe Online Product Certification section.8| | NI USB-6003 SpecificationsCE ComplianceThis product meets the essential requirements of applicable European Directives, as follows:•2006/95/EC; Low-V oltage Directive (safety)•2004/108/EC; Electromagnetic Compatibility Directive (EMC)Online Product CertificationTo obtain product certifications and the DoC for this product, visit /certification, search by model number or product line, and click the appropriate link in the Certification column. Environmental ManagementNI is committed to designing and manufacturing products in an environmentally responsible manner. NI recognizes that eliminating certain hazardous substances from our products is beneficial to the environment and to NI customers.For additional environmental information, refer to the Minimize Our Environmental Impact web page at /environment. This page contains the environmental regulations and directives with which NI complies, as well as other environmental information not included in this document.Waste Electrical and Electronic Equipment (WEEE) EU Customers This symbol indicates that waste products should be disposed ofseparately from municipal household waste according toWEEE Directive 2002/96/EC of the European Parliament and the Council on wasteelectrical and electronic equipment (WEEE). All products at the end of their lifecycle must be sent to a WEEE collection and recycling center. Proper WEEEdisposal reduces environmental impact and the risk to human health due topotentially hazardous substances used in such equipment. Your cooperation inproper WEEE disposal will contribute to the effective usage of natural resources. Forinformation about the available collection and recycling scheme in a particularcountry, go to /environment/weee.电子信息产品污染控制管理办法（中国RoHS）中国客户National Instruments符合中国电子信息产品中限制使用某些有害物质指令(RoHS)。

ICDPPCNEXUSMPC55xx / MPC56xx In-Circuit DebuggerQuick Start GuideCopyright 2009, P&E Microcomputer Systems, Inc. All rights reserved.Visit us on the web at Document Version HistoryVersion Date Notes1.0 21 Sep 2009 Initial versionCONTENTS1 Introduction (4)1.1 P&E Compatible Hardware (4)2 Getting Started (5)2.1 Connecting to your Target (5)2.2 Reset Script (6)2.3 Loading Data and Debug Information (7)2.4 CPU and Memory Windows (8)3 Debugging (10)3.1 GOTIL command (10)3.1 Stepping through C instructions (11)3.3 Setting and Reaching Breakpoints (12)3.4 Using Code Window Popup Debug Evaluation Hints (13)3.5 Using the Variables Window (15)3.6 Modifying a Variable (16)3.7 Using the Register Interpreter (17)3.8 Adding Register Field Descriptions to the Variables Window (20)1 IntroductionThis document is a step-by-step guide to using the P&E ICDPPCNEXUS in-circuit debugger software, which is compatible with Freescale MPC55xx / MPC56xx processors. This guide covers the most commonly used features of the debugger: loading binary & debug information, accessing CPU registers & memory, stepping code, setting breakpoints, and monitoring variables.1.1 P&E Compatible HardwareThe following lists the P&E hardware compatible with the ICDPPCNEXUS debugger software.P&E Part Number Interface to host PCCABPPCNEXUS Parallel (LPT) portUSB-ML-PPCNEXUS USB 2.0 (Backwards compatible with USB 1.1 ports) Cyclone MAX Serial (RS232) portUSB 1.1 (Upwards compatible with USB 2.0 ports)Ethernet2 Getting Started2.1 Connecting to your TargetUpon starting the debugger, the connection assistant dialog appears:•Use the “Interface” and “Port” drop-down menus to choose the P&E hardware interface connected between the PC and your target board.•The “Target CPU” setting can safely be left at the “Autodetect” setting for most users. If you experience problems connecting, you can try specifying the exact Freescale device that you are connecting to.• A BDM_SPEED parameter between 2 to 4 can typically be used.Processors running at slower clock speeds will require higher values.Click the Connect button, and ICDPPCNEXUS will attempt to contact the processor. Using the default debugger settings, ICDPPCNEXUS will establish communications and reset the processor.After establishing communications, the main debugger screen will appear, and a debugger reset script macro should automatically execute and complete.2.2 Reset ScriptThis section explains the initialization that the debugger, using a reset script macro file, performs on the processor. The user can view and modify all of the macro file's initialization tasks.The processor Boot Assist Module (BAM) would normally initialize the memory of the processor. However, when running the target application from the debugger, the BAM functionality is disabled. To account for this, the debugger must run a script file on reset. The script initializes the memory of the processor similar to the way in which the BAM would initialize the processor.If ICDPPCNEXUS is launched from the Freescale CodeWarrior IDE, the correct reset script file is automatically selected.If ICDPPCNEXUS is launched stand-alone, the reset script file may need to be configured. Several reset script macros are included with the ICDPPCNEXUS debugger and have a .mac extension. For detailed information, you can view each macro file using a simple text editor such as Notepad. The macro contents will contain useful comments, such as which devices are supported by that particular macro.To configure the debugger reset script macro, select the debugger Configuration menu, Automated Script Options dialog, shown here:2.3 Loading Data and Debug InformationIf ICDPPCNEXUS is launched from the Freescale CodeWarrior IDE, your code will automatically be downloaded to the processor.•RAM projects are loaded into the processor’s internal SRAM.•FLASH projects will invoke the CPROGPPCNEXUS Flash programming software to burn the code into the processor’s internal FLASH.The debug information is also automatically loaded from CodeWarrior, which will allow you to debug using your high level source code and variables.If ICDPPCNEXUS is launched stand-alone, you will need to manually download the code and debug information. Launch the Load Dialog by clicking on the High Level Load button on the debugger tool bar:This dialog allows you to specify the binary/debug file and whether to load into RAM or FLASH. Once you are satisfied with your settings, press the “Process Load Command” button to begin the download process. This step will also load the debug information.2.4 CPU and Memory WindowsThe CPU Window displays all CPU core registers, including the Program Counter (PC) and all general purpose registers.•To modify CPU register contents, double-click the register value. You will be prompted for a new value.The Memory Window displays data at any given memory address. It can be used to view RAM contents, FLASH contents, and values of peripheral registers.•To change the memory address, right-click inside the Memory Window and select “Set Base Address”. You will be prompted for a new address to begin displaying data.•To change the contents in memory, double-click the value in memory that you would like to change. You will be prompted for a new value.3 DebuggingThis section outlines the different debugging capabilities available in the ICDPPCNEXUS debugger once the debug information has been loaded.3.1 GOTIL commandAt this point, your source window will show the assembly language startup code generated by the compiler:If you do not need to debug this section and would like to run the processor until the beginning of your “main” function, you can use the “GOTIL” command.•Type “GOTIL main” in the Status window to tell the debugger to run code until it reaches the “main” function of your code.The “GOTIL” command works with any function in your code.3.1 Stepping through C instructionsStep through the initialization code, or any source code, using the high-level language source step command. Use this feature by typing “HSTEP” in the Status window or by clicking the high-level step button on the debugger tool bar:Each time the HSTEP command executes, the debugger will rapidly single step assembly instructions until it encounters the next source instruction, at which point target execution will cease. When the debugger reaches the next source instruction, all visible windows will be updated with data from the board. After reaching the main function, step through several C language instructions. Notice that some instructions will take longer to step through than others because each C instruction may consist of a greater or fewer number of underlying assembly instructions.3.3 Setting and Reaching BreakpointsIn the source code window, there will be a small red dot and a small blue arrow next to each source instruction that has underlying object code. If a large blue arrow appears on a source line, this indicates that the program counter (PC) currently points to this instruction. If a large red stop sign appears on the source line, this indicates that a breakpoint exists on this line.•Set a breakpoint at an instruction by double-clicking the tiny red dot.•To remove a breakpoint, double-click the large red stop sign.Execution will begin in real-time when you issue the HGO command or click the high-level language GO button on the debugger tool bar:If the debugger encounters a breakpoint, execution will stop on this source line. If it does not encounter a breakpoint, target execution will continue until you press a key or use the stop button on the debugger tool bar:•By double clicking the small blue arrow, you will be issuing a GOTIL command to the address of this source line.A GOTIL command will set a single breakpoint at the desired address, and the processor will begin executing code in real-time from the current program counter (PC). When the debugger encounters the GOTIL address, execution stops. If the debugger does not encounter this location, execution continues until you press akey or use the stop button on the debugger tool bar. Note that all user breakpoints are ignored when the GOTIL command is used.You may also double-click the red and blue symbols in the disassembly window. The disassembly window may display an additional symbol, a small, blue "S" enclosed in a box. This indicates that that a source code instruction begins on this disassembly instruction.3.4 Using Code Window Popup Debug Evaluation HintsWhen debugging source code, it is convenient to view the contents of a variable while viewing your source code. The in-circuit debugger has a feature, debug hints, which displays the value of a variable while the mouse cursor is held over the variable name. The hint may be displayed in any of three locations, as shown below.The three locations for the debug hints are the code window title bar, the status window caption bar, and a popup hint that appears over the variable in source code. You can configure the hints to display in any combination.•Set the locations of debug hints in the configuration menu of the debuggerThe information in the popup hint box is similar to the information displayed in the variables window.The information includes the variable name (i), value ($1), and type (signed long).3.5 Using the Variables WindowThe variables window displays the current value of application variables. The following window shows a display of variables from the example application.Variables that are pointer or reference types are displayed in red. Normal variables are displayed in black.•Add a variable by typing the VAR command, by right clicking the variables window and choosing “Add a variable”, or by hitting the "Add Variable"button in the variables window.When adding a variable using the pop-up menu, the debugger displays the following screen.In the variable field, type the address or name of the variable. Typically, set the type of the variable to “Default”, which means that the variable will be displayed as it is defined in the debugging information. When adding a variable, you may specify the numeric display base of the variable.3.6 Modifying a Variable•To modify the current value of a variable, right-click the variable name in the variables window and select “Modify Variable” to display a dialog.Check the “Modify value” checkbox, and type the variable’s new value. After you click the OK button, the debugger updates the variable value on the target, and the debugger refreshes the variable window to display the new value. Note that the debugger will not edit certain user-defined types, such as enumerated types.•You may also modify a variable’s display properties, such as the type or numeric display base using this dialog.3.7 Using the Register InterpreterThe register interpreter provides a descriptive display of bit fields within the processor’s peripheral registers. The register interpreter allows you easily to change the value of these registers. You may quickly check the current state of a peripheral and examine the configuration of the target device.When you use the register interpreter within the debugger, it reads the current value of the peripheral register, decodes it, and displays it.To launch the register interpreter in the debugger, either use the “R” command or click the view/edit register button on the tool bar:A window will appear that allows you to select a peripheral block to examine.Double clicking the module of choice will launch the register selection window.Double clicking a specific register will launch the edit/display window for that register.The window lists the keystrokes and mouse actions, allowing you to modify the values of each of the fields. After right clicking on a specific field, the register interpreter will display all options for that field.When you quit the register view/edit window by hitting the ESC key, you will be given the opportunity to write the new value into the register, as shown in the following window.3.8 Adding Register Field Descriptions to the Variables WindowAdd register bit fields to the variables window by using the “_TR” command in the debugger or by clicking the "Add Register" button in the variables window. After selecting the register field, the field appears in the debugger variables window, and the debugger will continually update its value.。

许可证错误原因对照表FLEXnet Licensing Error Codes Error Code Descriptions-1 Cannot find license file.-2 Invalid license file syntax.-3 No license server system for this feature.-4 Licensed number of users already reached.-5 No such feature exists.-6 No TCP/IP port number in license file and FLEXnet Licensing service does not exist. (pre-v6 only-7 No socket connection to license server manager service.-8 Invalid (inconsistent license key or signature.The license key/signature and data for the feature do not match. Thisusually happens when a license file has been altered.-9 Invalid host.The hostid of this system does not match the hostid specified in thelicense file.-10 Feature has expired.-11 Invalid date format in license file.-12 Invalid returned data from license server system.-13 No SERVER lines in license file.-14 Cannot find SERVER host name in network database.The lookup for the host name on the SERVER line in the license filefailed. This often happens when NIS or DNS or the hosts file isincorrect. Workaround: Use IP address (e.g., 123.456.789.123 insteadof host name.-15 Cannot connect to license server system.The server (lmgrd has not been started yet, or the wrong[email=port@host]port@host[/email]or license file is being used, or the TCP/IP port or host name in thelicense file has been changed.-16 Cannot read data from license server system.-17 Cannot write data to license server system.-18 License server system does not support this feature.-19 Error in select system call.-21 License file does not support this version.-22 Feature checkin failure detected at license server system.-23 License server system temporarily busy (new server connecting .-24 Users are queued for this feature.-25 License server system does not support this version of this feature.-26 Request for more licenses than this feature supports.-29 Cannot find ethernet device.-30 Cannot read license file.-31 Feature start date is in the future.-32 No such attribute.-33 Bad encryption handshake with vendor daemon.-34 Clock difference too large between client and license server system. -35 In the queue for this feature.-36 Feature database corrupted in vendor daemon.-37 Duplicate selection mismatch for this feature. Obsolete with v8.0+ vendor daemon.-38 User/host on EXCLUDE list for feature.-39 User/host not on INCLUDE list for feature.-40 Cannot allocate dynamic memory.-41 Feature was never checked out.-42 Invalid parameter.-47 Clock setting check not available in vendor daemon.-52 Vendor daemon did not respond within timeout interval.-53 Checkout request rejected by vendor-defined checkout filter.-54 No FEATURESET line in license file.-55 Incorrect FEATURESET line in license file.-56 Cannot compute FEATURESET data from license file.-571 socket( call failed.-59 Message checksum failure.-60 License server system message checksum failure.-61 Cannot read license file data from license server system.-62 Network software (TCP/IP not available.-63 You are not a license administrator.-64 lmremove request before the minimum lmremove interval.-67 No licenses available to borrow.-68 License BORROW support not enabled.-69 FLOAT_OK can’t run standalone on license server system.-71 Invalid TZ environment variable.-73 Local checkout filter rejected request.-74 Attempt to read beyond end of license file path.-751 SYS$SETIMR call failed (VMS .-76 Internal FLEXnet Licensing error—please report to Macrovision Corporation.-77 Bad version number must be floating-point number with no letters.-82 Invalid PACKAGE line in license file.-83 FLEXnet Licensing version of client newer than server.-84 USER_BASED license has no specified users - see license server system log.-85 License server system d oesn’t support this request.-87 Checkout exceeds MAX specified in options file.-88 System clock has been set back.-89 This platform not authorized by license.-90 Future license file format or misspelling in license file.The file was issued for a later version of FLEXnet Licensing than thisprogram understands.-91 Encryption seeds are non-unique.-92 Feature removed during lmreread, or wrong SERVER line hostid.-93 This feature is available in a different license pool.This is a warning condition. The server has pooled one or moreINCREMENT lines into a single pool, and the request was made on an INCREMENT line that has been pooled.-94 Attempt to generate license with incompatible attributes.-95 Network connect to THIS_HOST failed.Change this_host on the SERVER line in the license file to theactual host name.-96 License server machine is down or not responding.See the system administrator about starting the server, or make sure thatyou’re referring to the right host (see LM_LICENSE_FILE environmen tvariable .-97 The desired vendor daemon is down.1 Check the lmgrd log file, or2 Try lmreread.-98 This FEATURE line can’t be converted to decimal format.-99 The decimal format license is typed incorrectly.-100 Cannot remove a linger license.-101 All licenses are reserved for others.The system administrator has reserved all the licenses for others. Reservations are made in the options file. The server must be restartedfor options file changes to take effect.-102 A FLEXid borrow error occurred.-103 Terminal Server remote client not allowed.-104 Cannot borrow that long.-106 License server system out of network connections.The vendor daemon can't handle any more users. See the debug log forfurther information.-110 Cannot read dongle: check dongle or driver.Either the dongle is unattached, or the necessary software driver for this dongle type is not installed.-112 Missing dongle driver.In order to read the FLEXid hostid, the correct driver must be installed. These drivers are available from your software vendor.-114 SIGN= keyword required, but missing from license certificate. You need to obtain a SIGN= version of this license from your vendor.-115 Error in Public Key package.-116 TRL not supported for this platform.-117 BORROW failed.-118 BORROW period expired.-119 lmdown and lmreread must be run on license server machine.-120 Cannot lmdown the server when licenses are borrowed.-121 FLOAT_OK requires exactly one FLEXid hostid.-122 Unable to delete local borrow info.-123 Returning a borrowed license early is not supported. Contact the vendor for further details.-124 Error returning borrowed license.-125 A PACKAGE component must be specified.-126 Composite hostid not initialized.-127 A item needed for the composite hostid is missing or invalid.-128 Error, borrowed license doesn't match any known server license.-135 Error enabling the event log.-136 Event logging is disabled.-137 Error writing to the event log.-139 Communications timeout.-140 Bad message command.-141 Error writing to socket. Peer has closed socket.-142 Error, cannot generate version specific license tied to a single hostid, which is composite.-143 Version-specific signatures are not supported for uncounted licenses.-144 License template contains redundant signature specifiers.-145 Bad V71_LK signature.-146 Bad V71_SIGN signature.-147 Bad V80_LK signature.-148 Bad V80_SIGN signature.-149 Bad V81_LK signature.-150 Bad V81_SIGN signature.-151 Bad V81_SIGN2 signature.-152 Bad V84_LK signature.-153 Bad V84_SIGN signature.-154 Bad V84_SIGN2 signature.-155 License key required but missing from the license certificate. The application requires a license key in the license certificate. You need toobtain a license key version of this certificate from your vendor.-156 Invalid signature specified with the AUTH= keyword.-500 Invalid server port number.-501 Invalid value in license where an integer was expected.-502 Invalid value supplied for count.-503 Invalid hostid supplied in license.-504 Invalid hostid type supplied.-505 Bad feature line syntax.-506 Internal FLEXnet Licensing error.-507 Bad date format in license file.-508 Bad SERVER line.-509 Bad license string.-510 Server's feature doesn't authenticate on client side.-511 No license checked out.-512 License already checked out.-513 Error list returned.-514 No certicom module available.-515 Wrong or incomplete certicom module.-516 SIGN or SIGN2 required in license certificate.-517 Feature object has no license sources.-518 An Identical license is already checked out on this license source.-519 This license has an asynchronously-queued checkout pending.-521 Library for native hostid couldn't be loaded-522 Already connected to another vendor daemon.-523 No such user, host, or display.-524 Shutdown of license server system failed.-525 Shutdown failed — already connected to license server system.-526 Invalid license source string.-527 Log file switch error.------------------------------------------------------------------------------------------------------译成中文(简体)FLEXnet许可错误代码错误代码说明-1找不到许可证文件。

Patch NotesPolycom® RealPresence® Collaboration ServerBuild ID: 8.8.1.3015Released File: OVA, ISO, BIN, QCOW2, Upgrade FileRelease Date: June 26, 2020PurposeThis patch includes fixes for the following issues when applied over the RealPresence Collaboration Server 8.8.1.3 release.EN-171810 Stability15 minutes in the call.EN-166867 Stability A user was unable to make ISDN calls to an RMX 2000 system.EN-159667 General An RMX 1800 system could not display the Global Address Book after aRealPresence Resource Manager failover. The issue resolved after a reboot.EN-178695 Stability An RMX 2000 system became unreachable by RMX Manger while upgrading itto an 8.8.1.x build.These Patch Notes document only the changes from the prerequisite generally available (GA) release. Refer to the Release Notes for that GA release for the complete release documentation.KVM DistributionThe RealPresence Collaboration Server now offers a Kernel-based Virtual Machine (KVM) option for virtual environments. KVM is built into Linux and allows users to turn Linux into a hypervisor that can run multiple virtual machines (VMs).Hardware configuration required for KVM deployment is the same as specified for VMware deployment (Please refer to the Polycom RealPresence Collaboration Server v8.8.1 Release Notes for more details).Prerequisites and Configuration ConsiderationsFor information on prerequisites and configuration considerations, please see the Polycom RealPresence Collaboration Server v8.8.1 Release Notes and the Polycom RealPresence Collaboration Server 8.8.1 Administrator Guide.Installation and Upgrade NotesThe procedure to deploy all of the software components is documented here.Deploying a KVM ImageTo deploy a new server instance on a KVM server:1Obtain the software component image files from your Poly support representative.2For each software component, create a new volume on your KVM server and import the image file.For more on this task, see Create a new volume on the KVM server.3Optionally, set the server to automatically startup.Create a new volume on the KVM serverYou can create a new volume on the KVM server using the Virtual Machine Manager or Virsh command line depending on the toolset available to you.Using Virtual Machine ManagerTo create a new volume on the KVM server using Virtual Machine Manager:1Go to Applications > System Tools > Virtual Machine Manager and click to create a new virtual machine.2Choose Import existing disk image and click Forward.3Enter or browse to the location of the software component image file.4Choose the OS type (Linux) and Version number (CentOS 6.9) and click Forward.5Enter the Memory (RAM) and CPUs required for the chosen software component image as identified in the Prerequisites and Configuration Considerations section and click Forward.6Enter a meaningful name for the VM instance.7Click Network selection and select the network on which the KVM host is defined.8Click Finish.Using Virsh command line toolThe commands in the following procedure can be run to remote KVM servers.When connecting to remote instances, the option --connect qemu://<hostname>/system can be used, where <hostname> is the hostname or IP address of the remote KVM server.Virsh is a command line tool for managing hypervisors and guests. The tool is built on the libvirt management API and can be used as an alternative to other tools like the graphical guest manager (virt-manager) and xm.To create a new volume on the KVM server using Virsh1Determine which storage pool you would like to use:virsh pool-list2Create a new volume on the server:NOTE: We recommend using a raw disk image as it offers increased performance over the qcow2 format.virsh vol-create-as <storage_pool> <volume> <size>GB --format rawWhere:<storage_pool> is the pool determined in step 1.<volume> is the name of the raw disk volume.3Upload the image to the volume:virsh vol-upload --pool <storage_pool> <volume> <path-to-image>4Get the path of the raw disk:virsh vol-path --pool <storage_pool> <volume>Upgrade Information for the RealPresence Collaboration ServerThe following sections provide important general information about upgrading RealPresence Collaboration Servers to this release.Upgrade Package ContentsThe RealPresence® Collaboration Server 8.8.1.4 software upgrade package includes:●The *.upg file for upgrading RealPresence Collaboration Server, Virtual Edition on KVM●The *.qcow2file for deploying RealPresence Collaboration Server, Virtual Edition on KVM. Supported Upgrade PathsUpgrade of RealPresence Collaboration Server from 8.7.4.360 to 8.8.1.4 and subsequent downgrade to 8.7.4.360 has been verified.Resource CapacitiesThe benchmarks for Conferencing and Resource Capacities with KVM deployment is the same as specified for VMware deployment. For information on Resource Capacities, please refer to the Polycom RealPresence Collaboration Server v8.8.1 Release Notes.。

虚拟机的迁移（Vmware vCenter Converter）长街遥叹qq：2542261656 2012/12/3写在前面前面走了很多弯路，有这个想法主要是我的workstation版本的2003虚拟机老是挂掉，修复好以后过段时间vmnet0再次挂掉，再者笔记本配置有限，不得以想到将笔记本上的虚拟机迁移到ESXI上。

利用的工具就Vmware vCenter Converter。

VMware vCenter Converter 分为两个版本，免费版的Standalone和收费的Enterprise。

免费的版本只能使用exe文件安装，而Enterprise版本的可以刻录到光盘上，像PE一样使用。

找到了一个版本比较老的iso文件，但是刻录到u盘后无法启动，只好暂时放弃。

软件应用场景还是比较多的，比如老旧机器报废之前将其迁移，原有workstation虚拟机的迁移，其他虚拟化产品的迁移，esxi虚拟机之间的迁移等等。

正题版本一定要下载最新的，现在最新的是VMware-converter-all-5.0.1-875114。

（我现在机器装的事win8的系统，开始安装的是5.0.0的版本，虽然能够安装上但是配置到目标系统后点击下一步软件则报错退出，后来又下载了一个版本更低的，还是在配置到目标系统点击下一步的时候，程序直接退出。

看日志也没发现什么有价值的信息）注意版权信息是1998-2012安装过程略，登陆本地系统，主要界面如下下面点击转换计算机，看到如下界面支持的源的类型有很多，如下图继续下一步，程序会检索源的配置信息等，然后出现目标系统配置页面，这里所连接的必须为vcenter。

然后下一步，修改名字，选择分组选择存储位置下面可以编辑一些虚拟机的配置正在提交作业任务作业成功创建大概半个小时以后迁移完毕，自动安装VMwaretools（这个是在前面的配置中选择的，也可以迁移完毕后手动安装）登陆vcenter可以看到2003vrv,打开控制台一切正常，特别说明的是迁移的虚拟机并不包含快照，迁移的只是虚拟机最后的状态。

1y y Secure in-band and out-of-bandnetwork remote management y y Streamline installation andconfiguration with Zero Touch Provisioning y y Access to remote andunreachable locations using automatic network failover to cellular (and failback) capability y y Eliminates adaptors forCyclades™ and Cisco® pin-out conversions y y Compliance with datacenter access and securitypolicies – customizable, multiple access levels y y Integrated powermanagement – support for MPH2™ Rack PDUs and third-party power support y y Compatible with next-generationnetwork standards – IPv6y y Centralized managementusing Avocent DSView management software y y Strong dial-up and securedial-back using optionalbuilt-in modem y y Automatic event tracking andnotification of fault conditions y y Regulatory compliance andeasy trouble shooting – online and off-line data logging with time stamps y y FIPS 140-2 compliance: Basedon the FIPS 140-2 validated cryptographic module(s) (Certificate #1747)High-Performance Design and Advanced FeaturesThe Avocent ACS 6000 advanced console server series offers upgraded and advanced features that deliver scalable and high performance solutions for IT administrators. The console server features a high-speed processor platform with dual gigabit-Ethernet ports for redundancy and optional built-in modem. In addition, they feature an internal temperature sensor for device-level monitoring and configurable pin-outs for serial ports. The Avocent ACS 6000 advanced console server also offers robust software features to meet the requirements of the most demanding data center management applications. Features include automated discovery tools to ease identification of servers, routers, switches and power devices connected to any serial port, saving time at initialconfiguration and installation. To comply with existing data center network access policy, the Avocent ACS 6000 advanced console server provides customizable, multiple access levels for secure management.The console servers provide a complete solution for secure, remote control withadvanced console server features such as enhanced security, data logging and event monitoring. In addition, the Avocent ACS 6000 advanced console server supports next-generation network standards such as Internet Protocol version 6 (IPv6). Available in 4-, 8-, 16-, 32- and 48-port models that fit in 1U of rack space with single and dual, AC and DC power options. With or without modem, the ACS 6000 console server helpsmaximize IT asset productivity while providing scalability and reducing operational costs.The Avocent® ACS 6000 advanced console server series integrates cutting edgetechnologies, adaptive services and secure enterprise communications in order to offer IT professionals and network operations center (NOC) personnel the ability to perform secure, remote data center management and out-of-band management of IT assets from anywhere in the world. Using a hardened Linux® operating system and DSView™ management software, the Avocent ACS 6000 provides optimal performance, security,reliability, and a complete out-of-band management solution.Avocent® ACS 6048 Advanced Console ServerApplicationsy y Secure console and power managementy y Server and network management y y Secure access to test and development lab environments y y Telco central office and remote facilities2AV-12315 (R11/16) | Vertiv Headquarters, 1050 Dearborn Drive, Columbus, OH, 43085, USA© 2016 Vertiv Co. All rights reserved. Vertiv and the Vertiv logo are trademarks or registered trademarks of Vertiv Co. All other names and logos referred to are trade names, trademarks or registered trademarks of their respective owners. While every precaution has been taken to ensure accuracy and completeness herein, Vertiv Co. assumes no responsibility, and disclaims all liability, for damages resulting from use of this information or for any errors or omissions. Specifications are subject to change without notice.Hardware SpecificationsCPU PPC440EPx @ 533 MHz (PowerPC with Security Acceleration Engine)Memory128 MB NAND flash (embedded ICs on motherboard); 256 MB DDR-2 memory (embedded ICs on motherboard)Interfaces2 Gigabit (10/100/1000BT) Ethernet interfaces on RJ45; 1 RS-232 serialconsole port on RJ45; 1 AUX RS232 port on RJ45 OR internal modem V.92 port on RJ45 (RJ11 compatible); RS232 ports on RJ45; 1 USB 2.0 Host on Type A connector PowerInternal 100–240 VAC, 50/60 Hz Optional –48 VDC power supply; optional dual entry, redundant AC and DC power supplies Power UsageNominal voltage 120VAC: Typical 0.17A, 20W; Maximum 0.25A, 30WNominal voltage 230VAC: Typical 0.1A, 23W; Maximum 0.15A, 35W Nominal voltage -48VDC (20% tolerance); Typical 0.5A Operating Temp.32° to 122°F (0° to 50°C)Storage Temp.–4° to 158°F (–20° to 70°C)Humidity 20% to 80% noncondensing Non-Operating Humidity 5% to 80% relative humidityDimen-sions (W x D x H) 17.250 x 9.5 D x 1.75 in. (43.82 x 24.13 x 4.45 cm)Weight 6.6 lbsCertifi-cationsEmissions and Immunity: FCC Class B; CE Class A (EU); ICES-003 (Canada); VCCI (Japan); C-Tick (Australia); Customs Union (CU)Safety: UL (USA); cUL (Canada); EN-60950 (EU); CB; Customs Union (CU)In addition, the following certifications forspecific models: KCC (Korea)** Only specific models are certified to theabove certificationsFeaturesOperating System y y Embedded LinuxAccessibilityy y Zero Touch Provisioning (ZTP)y y In-band (Ethernet) and out-of-band (dial-upmodem) supporty y Built-in modem connectivityy y Allows for alternative access interfaces, such asmodem (v.92) or 4G through USB device Availabilityy y Automatic Ethernet failover using second gigabitEthernet port as the secondary portACS6008SAC-G2ACS 6000 8-port unit single AC power supplyACS6008DAC-G2ACS 6000 8-port unit dual AC power supplyACS6008MDAC-G2ACS 6000 8-port unit dual AC power supply with built-in modem ACS6016SAC-G2ACS 6000 16-port unit single AC power supplyACS6016DAC-G2ACS 6000 16-port unit dual AC power supplyACS6016MDAC-G2ACS 6000 16-port unit dual AC power supply with built-in modem ACS6032SAC-G2ACS 6000 32-port unit single AC power supplyACS6032DAC-G2ACS 6000 32-port unit dual AC power supplyACS6032MDAC-G2ACS 6000 32-port unit dual AC power supply with built-in modem ACS6048SAC-G2ACS 6000 48-port unit single AC power supplyACS6048DAC-G2ACS 6000 48-port unit dual AC power supplyACS6048MDAC-G2ACS 6000 48-port unit dual AC power supply with built-in modemDC Power Supply ModelsACS6008SDC-G2ACS 6000 8-port unit single DC power supplyACS6008MSDC-G2ACS 6000 8-port unit single DC power supply with built-in modem ACS6032DDC-G2ACS 6000 32-port unit dual DC power supplyACS6032MDDC-G2ACS 6000 32-port unit dual DC power supply with built-in modem ACS6048DDC-G2ACS 6000 48-port unit dual DC power supplyACS6048MDDC-G2ACS 6000 48-port unit dual DC power supply with built-in modemy y Dual power supplyy y Internal modem supporty y USB port support for modems, fiber and storage Securityy y The FIPS mode of operation uses an embeddedFIPS 140-2 certified OpenSSL cryptographic module (Certificate #1051)y y Preset security profiles–secure, moderate and open y y Custom security profilesy y X.509 SSH certificate support y y SSHv1 and SSHv2y y Local, RADIUS, TACACS+, LDAP/AD, NIS andKerberos authenticationy y Two-factor authentication (RSA SecurID®)y y One-Time Password (OTP) authentication y y Local, backup-user authentication supporty y PAP/CHAP and Extensible Authentication Protocol(EAP) authentication (for dial-up lines)y y Group authorization:TACACS+, RADIUS and LDAP; Port access; Power access; Appliance privilege y y I P packet and security filtering y y User-access lists per port y y System event syslog y y I PSec with NAT traversal support y y IP forwarding support y y Secure factory defaults y y S trong password enforcement Console Managementy y Sun break-safe (Solaris Ready Certified)y y Break-over SSH supporty y Off-line data buffering – local and remote (NFS/Syslog/DSView software)y y Level-based syslog filters y y T ime stamp and rotations for data buffering y y U nlimited number of simultaneous sessions y y S imultaneous access on the same port (portsniffing) with ability to toggley y Configurable event notification (e-mail, pager,SNMP trap)y y C ustomizable, global time zone supporty y Multiple and customizable user levels of access Port Accessy y Directly by server name or device name y y CLI Commandy y Simultaneous Telnet and SSH access y y HTTP/HTTPSSystem Managementy y Configuration wizard in Web for first-time users y y Auto-discovery for automatic deployment y y Command line interface (CLI)y y Web Management Interface (HTTP/HTTPS)y y SNMPy y Internal temperature sensorCablingy y CAT-5 compatible adapters for simpler cabling†y y Configurable Cyclades and Cisco pin-outs for serialports Upgradesy y Upgrades available on FTP site, no charge y y TFTP support for network bootOrdering DetailsAC Power Supply ModelsACS6004SAC-G2ACS 6000 4-port unit single AC power supplyACS6004DAC-G2ACS 6000 4-port unit dual AC power supplyACS6004MDAC-G2ACS 6000 4-port unit dual AC power supply with built-in modem。

PRODUCT OVERVIEWThe E6000® Converged Edge Router (CER) is a next-generation Converged Cable Access Platform (CCAP ™) that provides cable operators unprecedented advances in channel density, power efficiency, and cost savings in a redundant, integratedarchitecture designed from the ground up for high availability. This powerful design allows operators to converge all services (video, high speed data, and voice), enabling additional savings in capital and operational expenditures along with increased operational efficiency. For Distributed Access Architecture (DAA) solutions, CommScope provides both the CCAP Core andRemote PHY (R-PHY) Device (RPD) defined in the CableLabs® Modular Headend Architecture (MHAv2). In this approach, the PHY layer is moved from the E6000 CER into a node or remote shelf, but the MAC processing, provisioning, and monitoring functions are performed by the E6000 CCAP Core.The Downstream CCAP Core Module (DCCM) has the same MAC processing capacity of the 2nd generation Downstream Cable Access Module (DCAM-2) but without the PHY-layer hardware and related components. The DCCM and DCAM-2 can be used interchangeably to provide downstream MAC processing for the E6000 CCAP Core. The DCCM offers power, weight, and cost savings over the DCAM-2 for Remote PHY applications. Without RF hardware, the DCCM cannot be used for I-CCAP applications. E6000 Release 7.0 and later support “hybrid” operation of Integrated CCAP (I-CCAP) and CCAP Core within the same chassis.Roadmap for future capabilities is subject to change.E6000® Converged Edge RouterDownstream CCAP Core ModuleThe Downstream CCAP Core Module (DCCM) isessentially a DCAM-2 without the RF circuitry. The DCCMis meant only for R-PHY operation for which it providesthe same functionality and capacity as the DCAM-2. TheDCCM and DCAM-2 are interchangeable for R-PHYoperation and can be mixed in the same E6000 chassis.The DCCM supports MAC processing for RPDs withdownstream RF bands up to 1.2 GHz. In addition, theDCCM can support multiple 192 MHz OFDM channelsper Service Group on capable RPDs. Operators receivesignificant benefits in terms of operational simplicity,power, and cost savings by deploying DCCM in R-PHYapplications. Use of DCCM requires the RSM-2 andeither UCAM-2 or UCCM upstream modules.Roadmap for future capabilities is subject to change.SUMMARY OF DCCM FEATURES AND CAPABILITIES (PARTIAL LIST)Downstream MAC Processing for Remote PHY Operation on the E6000 CER Acting as a CCAP CoreNo RF Output —R-PHY Operation OnlyFull Spectrum Capable (MAC processing for channels up to 1.2GHz)Interoperable with DCAM-2 in the Same E6000 ChassisMultiple DOCSIS 3.1 Downstream Channel Support (24 –192 MHz each) —Dependent on Software Release and RPD Capabilities DOCSIS 3.0 Downstream (Annex A and Annex B) Support —Channel Density Dependent on Software Release and RPD Capabilities Video SC-QAM Support for VOD and Broadcast Services —Channel Density Dependent on Software Release and RPD Capabilities Channel Density Scalability via Licensing or Software Upgrades (No Hardware Changes Required)E6000 CCAP Core Interoperable for Multi-Core R-PHY ArchitecturesDeploys with CCAP Core Rear Card (CCRC) –One Required on the Back of the E6000 Chassis for Each DCCMSPECIFICATIONSRemote PHY CapabilitiesFrequency Range (MHz)108 to 1218 (edge to edge)Modulation (QAM)All required by DOCSIS 3.0 and DOCSIS 3.1(Specific software support varies by release)Max OFDM Channel Width (MHz)192 (Multiple channels supported per RPD Service Group)Max SC-QAMs perDownstream Service Group128 (Sum total DOCSIS and IEQ)SC-QAM Data Rate (Mbps)(Max.)30.34 to 55.62 per channelMax Number of DS ServiceGroups per DCCM27SC-QAM RF Output Level(dBmV)Dependent on RPD PhysicalPower-48 VDCPower Consumption (W)135 (typical at 25 °C)Operating Temperature: Short Term °F (°C) Long Term °F (°C)+23 to +131 (-5 to +55) +41 to +104 (+5 to +40)Storage Temperature °F(°C)-40 to +158 (-40 to +70)Operating Humidity(Min.-Max.)5 to 85% (Non condensing)Dimensions(H x W x D) in. (cm)13.8 x 1.2 x 17. 8 (35.0 x 3.0 x 45.3) Weight lbs. (kg) Approx. 5 (2.3)SPECIFICATIONSInstallation Environment (System Level)Management Interfaces100/1000 Mbps Ethernet (RJ-45) plusConsole (serial port, RJ45)RF Connector Access NoneNSI Connector Access RSM-2 ports via front of chassis,RPIC-2Q ports via rear Management Access (System Level)In-band Management with Access Control Lists via any NSI portOut-of-Band Management via dedicated Ethernet port on RPIC-2Q Console (serial) port on RPIC-2QManaging the E6000® CER is typically done via SNMP and/or CLI. The E6000 CER has multiple options available for IPDR, a useful tool for measuring bandwidth usage. Physical maintenance of the E6000 CER is very simple. Air filters, one in the front and another in the rear of the chassis, should be inspected and/or replaced per recommendations in the E6000 CER User Guide.Roadmap for future capabilities is subject to change.Note:Specifications are subject to change without notice.Copyright Statement:©2021CommScope,Inc.All rights reserved.ARRIS,the ARRIS logo and E6000are trademarks of CommScope,Inc.and/or its affiliates.All other trademarks are the property of their respective owners.No part of this content may be reproduced in any form or by any means or used to make any derivative work (such as translation,transformation,or adaptation)without written permission from CommScope,Inc and/or its affiliates (“CommScope”).CommScope reserves the right to revise or change this content from time to time without obligation on the part of CommScope to provide notification of such revision or change.ORDERING CODES (PARTIAL LIST)Part NumberDescriptionPart NumberDescription1000536GEN-2 Duplex Chassis Kit -Two RSM-2s, No CAMs 1000325Router System Module 2 Kit -1 RSM-2 and RPIC-2Q 1000963CCRC -CCAP Core Rear Card (for DCCM and UCCM, active or spare)1001136SYSTEM-PRINCIPAL-CORE LICENSE1000961DCCM -DS CCAP Core Module (only for RPHYapplications; must purchase one of the Initial DS D3.0 MAC License Bundles with this item)1000962UCCM -US CCAP Core Module (only for RPHYapplications; must purchase one of the Initial Upstream D3.0 MAC License Bundles with this item)1000720E6000; 256 Initial DS D3.0 Annex A MAC License Bundle for DCAM-2 -For MAC Channels 1-256 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1000737E6000; 48 Initial Upstream D3.0 MAC License Bundle for UCAM-2 -For MAC Channels 1-48 (requires UCAM-2 HW purchase (PN 1000445) or UCCM HW purchase (PN 1000962))1000721E6000; 384 Initial DS D3.0 Annex A MAC License Bundle for DCAM-2 -For MAC Channels 1-384 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1001047E6000; 64 Initial Upstream D3.0 MAC License Bundle for UCAM-2 -For MAC Channels 1-64 (requires UCAM-2 HW purchase (PN 1000445) or UCCM HW purchase (PN 1000962))1001279E6000; 448 Initial DS D3.0 Annex A MAC License Bundle for DCAM-2 -For MAC Channels 1-448 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1000738E6000; 72 Initial Upstream D3.0 MAC License Bundle for UCAM-2 -For MAC Channels 1-72 (requires UCAM-2 HW purchase (PN 1000445) or UCCM HW purchase (PN 1000962))1000722E6000; 512 Initial DS D3.0 Annex A MAC License Bundle for DCAM-2 -For MAC Channels 1-512 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1000739E6000; 96 Initial Upstream D3.0 MAC License Bundle for UCAM-2 -For MAC Channels 1-96 (requires UCAM-2 HW purchase (PN 1000445) or UCCM HW purchase (PN 1000962))1000730E6000; 256 Initial DS D3.0 Annex B MAC License Bundle for DCAM-2 -For MAC Channels 1-256 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1000740E6000; 144 Initial Upstream D3.0 MAC License Bundle for UCAM-2 -For MAC Channels 1-144 (requires UCAM-2 HW purchase (PN 1000445) or UCCM HW purchase (PN 1000962))1000731E6000; 384 Initial DS D3.0 Annex B MAC License Bundle for DCAM-2 -For MAC Channels 1-384 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1000741E6000; 192 Initial Upstream D3.0 MAC License Bundle for UCAM-2 -For MAC Channels 1-192 (requires UCAM-2 HW purchase (PN 1000445) or UCCM HW purchase (PN 1000962))1001272E6000; 448 Initial DS D3.0 Annex B MAC License Bundle for DCAM-2 -For MAC Channels 1-448 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1000742E6000; 216 Initial Upstream D3.0 MAC License Bundle for UCAM-2 -For MAC Channels 1-216 (requires UCAM-2 HW purchase (PN 1000445) or UCCM HW purchase (PN 1000962))1000732E6000; 512 Initial DS D3.0 Annex B MAC License Bundle for DCAM-2 -For MAC Channels 1-512 (requires DCAM-2 HW purchase (PN 1000506) or DCCM HW purchase (PN 1000961))1000715E6000 D3.0 Downstream Annex A MAC Processing License (per 8 MHz D3.0 DS channel)1000736E6000 D3.0 Upstream MAC Processing License (per D3.0 US channel)1000716E6000 D3.0 Downstream Annex B MAC Processing License (per 6 MHz D3.0 DS channel)1000743E6000 D3.1 Downstream MAC Processing License (per 1 MHz channel)1000744E6000 D3.1 Upstream MAC Processing License (per 1 MHz channel)Full Price List available from CommScopeCUSTOMER CAREContact Customer Care for product information and sales:•United States: 866-36-ARRIS •International: +1-678-473-5656(rev 04-2021)E6000_CER_DCCM v1.0。

111.png⽤解压软件打开 wifislax64-1.1-final 64位 iso镜像⽂件，解压boot、wifislax64这两个⽂件夹到114.pngkernel /bootwifislax64/vmlinuz %udmboot% locale=en_US.utf8 kbd=us tz=US/Pacific rwinitrd /bootwifislax64/initrd.xztitle 【2】进⼊KDE桌⾯环境;保存对系统的更改于changes.datroot (hd0,0)find --set-root /bootwifislax64/vmlinuzkernel /bootwifislax64/vmlinuz changes=/wifislax/changes/changes.dat %udmboot% locale=en_US.utf8 kbd=us tz=US/Pacific rw initrd /bootwifislax64/initrd.xztitle 【3】不⾃动进⼊图形界⾯;⽤户名root,密码toor;输⼊startx进⼊KDE桌⾯环境root (hd0,0)find --set-root /bootwifislax64/vmlinuzkernel /bootwifislax64/vmlinuz init 3 %udmboot% locale=en_US.utf8 kbd=us tz=US/Pacific rwinitrd /bootwifislax64/initrd.xztitle 【4】将系统复制⾄内存以加快运⾏速度;需要⾄少3GB内存root (hd0,0)find --set-root /bootwifislax64/vmlinuzkernel /bootwifislax64/vmlinuz copy2ram %udmboot% locale=en_US.utf8 kbd=us tz=US/Pacific rwinitrd /bootwifislax64/initrd.xztitle 【5】仅当第⼀启动模式失败时尝试此模式root (hd0,0)find --set-root /bootwifislax64/vmlinuzkernel /bootwifislax64/vmlinuz nomodeset autoexec=grub-vesa %udmboot% locale=en_US.utf8 kbd=us tz=US/Pacific rwinitrd /bootwifislax64/initrd.xztitle 【6】仅当第⼀启动模式失败时尝试此模式root (hd0,0)find --set-root /bootwifislax64/vmlinuzkernel /bootwifislax64/vmlinuz acpi=off autoexec=grub-noacpi %udmboot% locale=en_US.utf8 kbd=us tz=US/Pacific rwinitrd /bootwifislax64/initrd.xz引导WifiSlax 51汉化版代码：title 【1】进⼊KDE桌⾯环境,不保存配置root (hd0,0)find --set-root /wifislax/vmlinuz2kernel /wifislax/vmlinuz2 %udmboot%initrd /wifislax/initrd.xztitle 【2】进⼊KDE桌⾯环境;保存对系统的更改于changes.datroot (hd0,0)find --set-root /wifislax/vmlinuz2kernel /wifislax/vmlinuz2 changes=/wifislax/changes/changes.dat %udmboot%initrd /wifislax/initrd.xztitle 【3】不⾃动进⼊图形界⾯;⽤户名root,密码toor;输⼊startx进⼊KDE桌⾯环境root (hd0,0)find --set-root /wifislax/vmlinuz2kernel /wifislax/vmlinuz2 init 3 %udmboot%initrd /wifislax/initrd.xztitle 【4】将系统复制⾄内存以加快运⾏速度;需要⾄少1.5GB内存root (hd0,0)find --set-root /wifislax/vmlinuz2kernel /wifislax/vmlinuz2 copy2ram %udmboot%initrd /wifislax/initrd.xztitle 【5】仅当第⼀启动模式失败时尝试此模式root (hd0,0)find --set-root /wifislax/vmlinuz2kernel /wifislax/vmlinuz2 nomodeset autoexec=grub-vesa %udmboot%initrd /wifislax/initrd.xztitle 【6】仅当第⼀启动模式失败时尝试此模式root (hd0,0)find --set-root /wifislax/vmlinuz2kernel /wifislax/vmlinuz2 acpi=off autoexec=grub-noacpi %udmboot%initrd /wifislax/initrd.xz整合⽼⽑桃PE + WifiSlax（64位+5.1汉化版）到此结束！。

Converter使用图解VMware vCenter Convert4是VMware公司的虚拟机迁移、转换工具，可以直接将（运行或不运行的）Windows、Linux的物理机、虚拟机迁移到VMware ESX Server虚拟机中，也可以在不同的VMware版本之间进行转换。

（1）运行VMware vCenter Convert 4，单击左上角的“Convert Machine”，如图1所示。

图1：转换虚拟机（2）在“Select source type”选择“powered-on machine”，选中“A remote machine”选项，并且键入所转主机主机的地址、用户名与密码以及类型。

如图2图（2）：浏览选择要转换的主机（3）在“选择目标属性”中选择“VMware Infrastructure Virtual Machine”，并且键入VMware ESX Server 4主机的地址、用户名与密码，如图3所示图3 输入ESX Server主机信息（4）设置虚拟机的名称、ESX Server存储位置、转换后的虚拟机版本，如图4所示。

图4：设置转换后目标虚拟机信息（5）编辑目标虚拟机的信息，这包括转换后是否安装VMware Tools（如图5所示）、目标虚拟机的虚拟磁盘接口、虚拟机内存（如图6所示）、虚拟机硬盘格式（如果要立刻分配空间，则选择FLAT，如果要“按需分配”，则选择THIN。

其中Thin也是VMware ESX Server 4新增加的功能，在以前版本的虚拟机中，虚拟硬盘只能是Flat格式（立刻分配）），如图7所示。

图5: 转换后安装VMware Tools图6：磁盘接口、内存大小图7 虚拟硬盘格式图8：选择网卡（6）确认之后，开始转换，如图9所示。

图9：向导完成，准备转换（7）之后，VMware vCenter Convert将在ESX Server中创建虚拟机，并开始转换。

P/N: 1802000062013 *1802000062013*VPort 06-2 Series Quick Installation GuideMoxa IP CameraVersion 2.2, January 2021Technical Support Contact Information/support2021 Moxa Inc. All rights reserved.OverviewThe VPort 06-2 series is a compact IP dome camera that supports FHD (1080P, 1920 x 1080) video image and H.264/MJPEG. It is designed for mobile video surveillance applications and features EN 50155 compliance, vandal-proofing (EN 62262 IK8), operating temperature of -25 to 55°C or -40 to 70°C (T model), rugged M12 Ethernet port, 1 audio input or built-in microphone, PoE or 24 VDC power inputs, IP66 rain and dust protection, dehumidifying membrane, and selectable lens models, for the versatility and ruggedness required to excel in many different installations and environments for mobile IP video surveillance applications. Ordering InformationThe following VPort 06-2 series models are available:ModelLens (mm) AudioTemperatureConformalCoatingPoE model 24 VDC model -25 to55°C-40 to70°CVPort P06-2L25M VPort 06-2L25M 2.5 Line-in – – VPort P06-2L36M VPort 06-2L36M 3.6 Line-in – – VPort P06-2L42M VPort 06-2L42M 4.2 Line-in – – VPort P06-2L60M VPort 06-2L60M 6 Line-in – – VPort P06-2L80M VPort 06-2L80M 8 Line-in – – VPort P06-2M25M VPort 06-2M25M 2.5 Mic-in – – VPort P06-2M36M VPort 06-2M36M 3.6 Mic-in – – VPort P06-2M42M VPort 06-2M42M 4.2 Mic-in – – VPort P06-2M60M VPort 06-2M60M 6 Mic-in – – VPort P06-2M80M VPort 06-2M80M 8 Mic-in – – VPort P06-2L25M-T VPort 06-2L25M-T 2.5 Line-in – – VPort P06-2L36M-T VPort 06-2L36M-T 3.6 Line-in – – VPort P06-2L42M-T VPort 06-2L42M-T 4.2 Line-in – – VPort P06-2L60M-T VPort 06-2L60M-T 6 Line-in – – VPort P06-2L80M-T VPort 06-2L80M-T 8 Line-in – – VPort P06-2M25M-T VPort 06-2M25M-T 2.5 Mic-in – – VPort P06-2M36M-T VPort 06-2M36M-T 3.6 Mic-in – – VPort P06-2M42M-T VPort 06-2M42M-T 4.2 Mic-in – – VPort P06-2M60M-T VPort 06-2M60M-T 6 Mic-in – – VPort P06-2M80M-T VPort 06-2M80M-T 8 Mic-in – – VPort P06-2L25M-CT VPort 06-2L25M-CT 2.5 Line-in – VPort P06-2L36M-CT VPort 06-2L36M-CT 3.6 Line-in – VPort P06-2L42M-CT VPort 06-2L42M-CT 4.2 Line-in – VPort P06-2L60M-CT VPort 06-2L60M-CT 6 Line-in – VPort P06-2L80M-CT VPort 06-2L80M-CT 8 Line-in – VPort P06-2M25M-CT VPort 06-2M25M-CT 2.5 Mic-in – VPort P06-2M36M-CT VPort 06-2M36M-CT 3.6 Mic-in – VPort P06-2M42M-CT VPort 06-2M42M-CT 4.2 Mic-in – VPort P06-2M60M-CT VPort 06-2M60M-CT 6 Mic-in – VPort P06-2M80M-CT VPort 06-2M80M-CT 8 Mic-in – VPort P06-2L25M-CT-T VPort 06-2L25M-CT-T 2.5 Line-in – VPort P06-2L36M-CT-T VPort 06-2L36M-CT-T 3.6 Line-in – VPort P06-2L42M-CT-T VPort 06-2L42M-CT-T 4.2 Line-in – VPort P06-2L60M-CT-T VPort 06-2L60M-CT-T 6 Line-in – VPort P06-2L80M-CT-T VPort 06-2L80M-CT-T 8 Line-in –ModelLens (mm) AudioTemperatureConformalCoatingPoE model 24 VDC model -25 to55°C-40 to70°CVPort P06-2M25M-CT-T VPort 06-2M25M-CT-T 2.5 Mic-in – VPort P06-2M36M-CT-T VPort 06-2M36M-CT-T 3.6 Mic-in – VPort P06-2M42M-CT-T VPort 06-2M42M-CT-T 4.2 Mic-in – VPort P06-2M60M-CT-T VPort 06-2M60M-CT-T 6 Mic-in – VPort P06-2M80M-CT-T VPort 06-2M80M-CT-T 8 Mic-in – Screw handle accessory packageTorx screwdriver for attaching/detaching the upper case. 4 sets of nut, gasket,and spring washer formounting the camera.4 indented hexagonalhead tapping screws formounting the cameraon the ceiling.Sticker for camera mounting positionsContents of the Package•Documentation and Software CD (includes User’s Manual, Quick Installation Guide, and VPort Utility)•Quick installation guide (printed)•Warranty cardNOTE Check the model name on the VPort’s side label to determine if it is the correct one for your order.NOTE This product must be installed in compliance with your local laws and regulations.Product DescriptionAppearance•4-pin D-code M12 Ethernet connector: Can be used for both the PoE power supply (PoE model) and Auto MDI/MDI-X Ethernet connectionNOTETo connect the VPort 06/P06-2MP series to a network, use an Ethernet cable with D-code M12 connector and an M12 PoEswitch or RJ45 PoE switchM12 D-code to M12 D-code cableM12 PoE switch (e.g., TN-5508-4PoE)M12 D-code and RJ45 cableRJ45 PoE switch (e.g., EDS-P510)NOTE The power input rating of the PoE model is 48 VDC, 0.2 A, with maximum power consumption of approximately 8.1 W.The power input rating of the DC models are 12 VDC, 0.86 A, with maximum power consumption of 10.2 W, and 24 VDC, 0.38 A with maximum power consumption of 9.0 W.NOTE The equipment is designed for indoor installation only and is not intended to be connected to exposed (outside the plant) networks.•DB9 connector (24 VDC model): Includes power input, digital input signal, and audio input (line-in model). PIN Con. 1 24 VDC +2 NA3 Audio +4 NA5 DI +6 24 VDC return7 NC 8 Audio - 9DI -•5-pin M12 connector (PoE model): Includes digital input signal, and audio input (line-in model). PINCon. 1 DI + 2 Line-in+ 3 DI - 4 Line-in - 5NA• Solid metal top cover: This top cover can be removed for adjusting the camera lens position.•Transparent dome cover: The VPort 06-2 series is designed with a transparent PC dome cover, which is vandal-proof and satisfies EN 62262 (IEC 62262) Class IK8 requirements.•2 Torx screws for top cover: These 2 torx screws are designed with anti-shedding to make installation more convenient. Use the L-type torx screwdriver to remove or attach the top cover.•Built-in microphone: VPort 06-2-MIC series products have a built-in microphone, and can simultaneously display or record live video and audio.NOTE The color of the form factor can be customized based on your installation environment. Please contact your Moxa sales representative for customization service.Inside the Camera•Mounting screw holes: There are 4 mounting screw holes for mounting the VPort 06/P06-2 series on the ceiling or the accessory. •Screw for fixing the lens’s position: To adjust the position of the lens, loosen the thumb screw, and then retighten it after you are done with adjusting the position of the lens.•Lens with fixed focal length: The VPort 06/P06-2 series includes models with 3 different focal lengths. Choose the appropriate focal length for your lens based on the viewing angle and object distance. •Hardware reset button: Use a pointed object to depress the reset button to reboot or restore factory defaults.Reboot: press the button one time.Factory default: press the button and hold for at least 5 sec. •Calibration for rotating lens (0 to 360°): Rotate the lens to get the optimal image. When done, mark the position of this calibration for future placement or mass installation.•Calibration for adjusting lens’s vertical position (0 to 90°): After adjusting the lens’s vertical position, mark the position of this calibration for future placement or mass installation. •Calibration for adjusting lens’s horizontal position (±15°): After adjusting the lens’s horizontal position, mark the position of this calibration for future placement or mass installation. Hardware InstallationStep 1: Open and remove the top cover.Use the torx screwdriver to loosenthe top cover screws and remove thedry pack that is in the camera.Step 2: Use the markings on the installation sticker to position the drill bit before drilling holes. There are 3 types of installation.a. Mounting with 4 mounting screwsTo mount the camera on theceiling, drill a hole through thegray portion of the sticker andthen mount the camera with the4 nut/gasket/spring-washer setsand the 4 indented hexagonalhead tapping screws.b. Mounting with the side-cable-out adapterUse the side-cable-out adapter (VP-SCO2) if your installation requires the cable–out on the side. Drill a hole through the blue portion of the sticker for mounting the adaptor on the surface with 3 nut/gasket/ spring-washer sets and indented hexagonal head tapping screws. Then, mount the VPort 06-2 on the adapter with 4 M4 screws, which are provided in theVP-SCO2’s package. VP-SCO2c. Mounting with the fixed plateIf you cannot use the nut/gasket/spring-washer set to mount the camera on your ceiling, use the VP-FP2 fixed plate. Drill holes through the green dotted-line and 4 camera mounting screw markings on the sticker, and then place theVP-FP2 inside the hole. Use the 2 countersunk screws to mount the VP-SP2. Finally, mount the VPort 06/P06-2 series on the fixed plate with the 4 indentedhexagonal head tapping screws.VP-FP2NOTE The screw hole for mounting the VP-FP2 fixed plate is a countersink hole with 5 mm diameter, and 90° 2 x 2 mmchamfer. Take this into consideration when drilling these 2 screw holes.Step 3: Connect the camera with the 4-pin M12 D-code Ethernet connector and DB9 / 5-pin M12 connector.NOTE Connectors used with the cameras should be IP66 compliant.Step 4: Loosen the screw for adjusting the horizontal, vertical, and rotating lens position. Once the lens position is correct, fix the screw.Step 5: Fix the top cover. The installation is now complete.NOTE 1.If required, two dry packs (VP-DP01) with stickers can be ordered separately to absorb moisture from the inside ofcamera. Stick the double-sided tapes onto two dry packs anduse the other side of the tapes to stick the dry packs on theinside of the top cover to absorb any moisture that has entered the camera housing during installation.2. The dry packs may become saturated if exposed to the air fortoo long; for this reason, reattach the top cover immediately after sticking the dry packs inside the top cover. If the cover is removed at any time in the future, be sure to replace the dry packs before reattaching the cover.3. Make sure the top cover is attached tightly (place the screwsin the holes such that they can stay unaided and tighten all of them. Retighten the screws in succession until they are all completely tightened.)4. For the model with a microphone, be careful not to damagethe metal spring on the small board mounted on the top cover.Software InstallationStep 1: Configure the VPort 06-2’s IP address.When the VPort 06-2 series is first powered on, the POST (Power On Self Test) will run for a few moments (about 30 seconds). The network environment determines how the IP address is assigned.Network Environment with DHCP ServerFor this network environment, the unit’s IP address will be assigned by the network’s DHCP server. Refer to the DHCP server’s IP address table to determine the unit’s assigned IP address. You may also use the Moxa VPort and EtherDevice Configurator Utility (edscfgui.exe), as described below:Using the Moxa VPort and EtherDevice Configurator Utility (edscfgui.exe)1.Run the edscfgui.exe program to search for the VPort. After theutility’s window opens, you may also click on the Search buttonto initiate a search.2.When the search has concluded, the Model Name, MAC address, IPaddress, serial port, and HTTP port of the VPort will be listed in the utility’s window.You can double click the selected VPort, or use the IE web browser to access the VPort’s web-based manager (web server).Non DHCP Server Network EnvironmentIf your VPort 06-2 series is connected to a network that does not have a DHCP server, then you will need to configure the IP address manually. The default IP address of the VPort 06-2 series is 192.168.127.100 and the default subnet mask is 255.255.255.0. Note that you may need to change your computer’s IP address and subnet mask so that the computer is on the same subnet as the VPort.To change the IP address of the VPort manually, access the VPort’s web server, and then navigate to the System Configuration→Network→General page to configure the IP address and other network settings. Select the Use fixed IP address option to ensure that the IP address you assign is not deleted each time the VPort is restarted.Step 2: Access the VPort 06-2 series’ web-based manager.Type the VPort 06-2 IP address in the web browser’s address field and press Enter.Step 3: Install the ActiveX Control Plug-in.A security warning message will appear the first time you access the VPort’s web-based manager. The message is related to installing the VPort ActiveX Control component on your PC or notebook. Click Yes to install this plug-in to enable the IE web browser for viewing video images.- 11 - NOTE For Windows XP SP2 or above operating systems, the ActiveX Control component will be blocked for system security reasons. In this case, the VPort’s security warning message window may not appear. You should unlock the ActiveX control blockedfunction or disable the security configuration to enable theinstallation of the VPort’s ActiveX Control component.Step 4: Access the homepage of VPort 06-2 series' web-based manager. After installing the ActiveX Control component, the homepage of the VPort 06-2 series’ web-based manager will appear. Check the following items to make sure the system was installed properly:1. Video Images2. Video InformationStep 5:Access the VPort’s system configuration.Click on System Configuration to access the overview of the system configuration to change the configuration. Model Name , Server Name , IP Address , MAC Address , and Firmware Version appear on the green bar near the top of the page. Use this information to check the system information and installation.For details of each configuration, check the user’s manual on the software CD.- 12 - Wiring RequirementsYou should also pay attention to the following:• Use separate paths to route wiring for power and devices. If powerwiring and device wiring paths must cross, make sure the wires are perpendicular at the intersection point.• You can use the type of signal transmitted through a wire todetermine which wires should be kept separate. The rule of thumb is that wiring that shares similar electrical characteristics can be bundled together.• Keep input wiring and output wiring separate.•We strongly advise labeling wiring to all devices in the system. Dimensions (mm)Front View Bottom ViewTop ViewCamera with SCO2 adaptor。

使用Converter出现“SSL Exception”解决方法
唐小清;次晓峰;王春海
【期刊名称】《网络安全和信息化》
【年(卷),期】2018(0)7
【摘要】使用VMware vCenter Converter 5.0（中文版本）迁移物理机到虚拟机的时候,如果出现＂出现了常规系统错误：SSL Exception：Unexpected EOF＂错误时,或者使用Converter 6.0（英文版）出现＂Unable to obtain hardware information for the selected machine.＂,可以通过分阶段实现从物理机到虚拟机的迁移。

【总页数】2页(P97-98)
【作者】唐小清;次晓峰;王春海
【作者单位】石家庄;石家庄;石家庄
【正文语种】中文
【中图分类】TP393.08
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因版权原因，仅展示原文概要，查看原文内容请购买。

Technical Marketing Engineering Wireless Technology3Com AP 7760FIT Software ConversionTechnical Configuration GuideRevision v1October 16, 20093Com Corporation, 350 Campus Drive, Marlborough MA 01752-3064 Copyright © 2008, 3Com Corporation. All rights reserved. No part of this documentation may be reproduced in any form or by any means or used to make any derivative work (such astranslation, transformation, or adaptation) without written permission from 3Com Corporation.3Com Corporation reserves the right to revise this documentation and to make changes in content from time to time without obligation on the part of 3Com Corporation to provide notification of such revision or change.3Com Corporation provides this documentation without warranty, term, or condition of any kind, either implied or expressed, including, but not limited to, the implied warranties, terms, or conditions of merchantability, satisfactory quality, and fitness for a particular purpose. 3Com may make improvements or changes in the product(s) and/or the program(s) described in this documentation at any time.3Com and the 3Com logo are registered trademarks of 3Com Corporation. VCX is a registered trademark of 3Com Corporation.All other company and product names may be trademarks of therespective companies with which they are associated.3Com AP 7760 Conversion to H3C/3Com FIT Code (4)Background Information (4)Requirements (4)Hardware Requirements (4)Software Requirements (4)Network Diagram (5)Configure (5)Reset AP 7760 to factory defaults (5)AP 7760 Web access for conversion to H3C/3Com FIT (6)Verify (11)Access Point Configuration – What you will see on the console during theconversion process (11)Access Controller Configuration – What you will see on console if AP is configuredon the Access Controller (16)3Com AP 7760 Conversion to H3C/3Com FIT CodeThis Technical Configuration Guide (TCG) describes how to upgrade the3Com AP 7760 to the H3C/3Com FIT AP code.Background InformationThis section provides some background information related to this TCG. RequirementsReaders of this document should be familiar with features and configuration of the 3Com AP 7760 and AC products.Hardware Requirements•3Com AP 7760•H3C & 3Com Access Controller WX30XX, WX50XX, or S7500E Blade •PoE Power Source•Ethernet cables, power cables, console cable, and USB to DB-9 M serial adapter•LaptopSoftware Requirements•TFTP Server Software•Terminal Software•Conversion AP Firmware - 7760.img•Access Controller AP File - wa2100.bin•WX30XX - WX3000-CMW520-R3106P10.bin•WX5002 - WX5002-CMW520-R1108P10.bin•WX5004 - WX5004-CMW520-R2102P05.bin•S7500E Blade - S7500E-WX6103-CMW520-R2109P12.binNetwork DiagramConfigureFollow these steps to convert the AP 7760 to H3C/3Com FIT code:Reset AP 7760 to factory defaultsManually reset the AP 7760 to factory default settings by inserting a pointed object (such as the end of a straightened paper clip) into the reset hole on the back of the Access Point, and hold for twenty seconds.Console Cable169.254.2.2 169.254.2.19600-N-8-1AP 7760 Web access for conversion to H3C/3Com FITEnter the Access Point’s default IP address (169.254.2.2) into the computer’s web browser. Note: Ensure there are no DHCP services running on your upgrade network.You can configure the Access Point with the following login information: Login name: adminPassword: passwordSelect a country and ApplyMain PageSelect Management – Firmware Upgrade Page Select Image Type – ManagedSelect Browse to locate the firmware file – Browse Select access point software image file (7760.img) Select UpgradeUpdating firmware status pageFirmware Updates Successfully Page. Note: Do not reboot at this time.Select System Configuration – System Properties Page Select Operation Mode – Access PointSelect Start-up Mode – ManagedSelect ApplyWarning Message select OKManagement – Reboot PageAllow Access Point to rebootConversion CompleteNote: Configure AP on the appropriate H3C/3Com access controller before plugging AP back in to the production network.NoteOn the Wireless Controller you will need to enter the following commands: wlan apdb 7760_2750 Ver.A V100R001B58D019SP01NoteThe AP 7760 will require the file wa2100.bin to be loaded on the Wireless Controller if not already present. You can verify the presence of that file by using the DIR command.VerifyTo verify the configuration is correct compare configuration files.Access Point Configuration – What you will see on the console during the conversion process******************************************************************* ************ All rights reserved (2004-2009) ** Without the owner's prior written consent, ** no decompiling or reverse-engineering shall be allowed. ******************************************************************** ***********User interface con0 is available.Please press ENTER.Do long reset...boot-shim startup...Set facdefault...Checksum good, no need copy data.Write boot-shim configuration data finish.ar531x rev 0x00005850firmware-DEF startup...SDRAM TEST...PASSEDAtheros AR5001AP default version 1.1.0auto-booting...Attaching to TFFS... done.Loading /fl/APIMG1 (1672208)Starting at 0x80484c20...resetting to factory config.Using factory default settings.Attaching interface lo0...doneDHCP Client is asking a lease ...wlan1 ReadyReady3Com Access Point 7760 login: adminPassword: ********Access Point Rev 1.6.343Com Access Point 7760 wlan[1, 0](Country code not set, Type 'SET COUNTRYCODE' for detail) ->3Com Access Point 7760 wlan[1, 0](Country code not set, Type 'SET COUNTRYCODE' for detail) -> LEASE Renewal Failed, Restarting DHCP negotiationUpgrading FIT load, length=4194560#################################################### ############Upgrade FIT load finish.FIT load upgrade ok.wireless access point starting...Auto Channel Scan selected 2452 MHz, channel 9WDS Bridge is not Enabled...LEASE Renewal Failed, Restarting DHCP negotiationws_reboot calledRebooting AP...boot-shim startup...normal resetSystem is starting...Booting Normal Extend BootWare......The Extend BootWare is self-decompressing...............Done!******************************************************************* ********** ** 3COM 7760_2750 BootWare, Version 2.09 ** ******************************************************************** *********Copyright (c) 2004-2009 3Com Corp. and its licensors. All rights reserved.Compiled Date : Mar 13 2009CPU Type : ATHEROS AR2313CPU L1 Cache : 16KBCPU Clock Speed : 180MHzMemory Type : SDRAMMemory Size : 32MBMemory Speed : 90MHzFlash Size : 8MBPCB Version : Ver.ABootWare Validating...Press Ctrl+B to enter extended boot menu...Starting to get the main application file--flash:/wlcfit.bin!............... .............................The main application file is self-decompressing............................. .................................................................................................................................................................................................................................... ..................................................................Done!System application is starting...Update board info at first run time, device will rebootboot-shim startup...normal resetSystem is starting...Booting Normal Extend BootWare......The Extend BootWare is self-decompressing...............Done!******************************************************************* ********** ** 3COM 7760_2750 BootWare, Version 2.09 ** ******************************************************************** *********Copyright (c) 2004-2009 3Com Corp. and its licensors. All rights reserved.Compiled Date : Mar 13 2009CPU Type : ATHEROS AR2313CPU L1 Cache : 16KBCPU Clock Speed : 180MHzMemory Type : SDRAMMemory Size : 32MBMemory Speed : 90MHzFlash Size : 8MBPCB Version : Ver.ABootWare Validating...Press Ctrl+B to enter extended boot menu...Starting to get the main application file--flash:/wlcfit.bin!............... .............................The main application file is self-decompressing............................. ............................................................................ ............................................................................ ............................................................................ ..................................................................Done!System application is starting...Startup configuration file does not exist.User interface con0 is available.Press ENTER to get started.boot-shim startup...normal resetSystem is starting...Booting Normal Extend BootWare......The Extend BootWare is self-decompressing...............Done!******************************************************************* ********** ** 3COM 7760_2750 BootWare, Version 2.09 ** ******************************************************************** *********Copyright (c) 2004-2009 3Com Corp. and its licensors. All rights reserved. Compiled Date : Mar 13 2009CPU Type : ATHEROS AR2313CPU L1 Cache : 16KBCPU Clock Speed : 180MHzMemory Type : SDRAMMemory Size : 32MBMemory Speed : 90MHzFlash Size : 8MBPCB Version : Ver.ABootWare Validating...Press Ctrl+B to enter extended boot menu...Starting to get the main application file--flash:/wlcfit.bin!............... .............................The main application file is self-decompressing............................. ............................................................................ ............................................................................ ............................................................................ ..................................................................Done!Extend BootWare Version is not equal,updating? [Y/N]Updating Extend BootWare........Done!Basic BootWare Version is not equal,updating? [Y/N]Updating Basic BootWare.......Done!BootWare updated,System is rebooting now.boot-shim startup...normal resetSystem is starting...Booting Normal Extend BootWare......The Extend BootWare is self-decompressing...................Done!******************************************************************* ********** ** 3COM 7760_2750 BootWare, Version 2.10 ** ******************************************************************** *********Copyright (c) 2004-2009 3Com Corp. and its licensors. All rights reserved. Compiled Date : May 11 2009CPU Type : ATHEROS AR2313CPU L1 Cache : 16KBCPU Clock Speed : 180MHzMemory Type : SDRAMMemory Size : 32MBMemory Speed : 90MHzFlash Size : 8MBPCB Version : Ver.ABootWare Validating...Press Ctrl+B to enter extended boot menu...Starting to get the main application file--flash:/wlcfit.bin!............... .............................The main application file is self-decompressing............................. ............................................................................ ............................................................................ ............................................................................ ..................................................................Done!System application is starting...Startup configuration file does not exist.User interface con0 is available.Press ENTER to get started.<7760_2750>%Apr 26 12:00:12:608 2000 7760_2750 SHELL/4/LOGIN: Console login from con0 <7760_2750><7760_2750>display wlan apDisplay AP Profile-------------------------------------------------------------------------------Model Number : 7760_2750Serial-ID : 9TZ497L965240AP Address : 10.10.10.71H/W Version : Ver.AS/W Version : V100R001B58D017(271485056)Boot Version : 2.10Mode : Split Mac ModeDevice State : Not in zero configuration stateMaster AC:Description : Not ConfiguredAC Address : 10.10.10.127State : RunTransmitted control packets : 4Received control packets : 4Transmitted data packets : 0Received data packets : 0Latest AC IP address : 10.10.10.127Tunnel Down Reason : -NA--------------------------------------------------------------------------------Unicast static AC IPv4 address: Not ConfiguredUnicast static AC IPv6 address: Not Configured-------------------------------------------------------------------------------<7760_2750>display wlan apDisplay AP Profile-------------------------------------------------------------------------------Model Number : 7760_2750Serial-ID : 9TZ497L965240AP Address : 10.10.10.71H/W Version : Ver.AS/W Version : V100R001B58D017(271485056)Boot Version : 2.10Mode : Split Mac ModeDevice State : Not in zero configuration stateMaster AC:Description : Not ConfiguredAC Address : 10.10.10.127State : RunTransmitted control packets : 29Received control packets : 29Transmitted data packets : 0Received data packets : 0Latest AC IP address : 10.10.10.127Tunnel Down Reason : -NA--------------------------------------------------------------------------------Unicast static AC IPv4 address: Not ConfiguredUnicast static AC IPv6 address: Not Configured-------------------------------------------------------------------------------<7760_2750>Access Controller Configuration – What you will see on console if AP is configured on the Access Controller<WX3024>display wlan ap name ap7760_wx3024AP Profile-------------------------------------------------------------------------------AP Name APID State Model Serial-ID------------------------------------------------------------------------------- ap7760_wx3024 3 Run/M 7760_2750 9TZ497L965240------------------------------------------------------------------------------- <WX3024><WX3024>display wlan ap name ap7760_wx3024 verboseAP Profile: ap7760_wx3024------------------------------------------------------------------------------- APID : 3AP System Name : Not ConfiguredMap Configuration : Not ConfiguredState : RunUp Time(hh:mm:ss) : 00:09:25Model : 7760_2750Serial-ID : 9TZ497L965240IP Address : 10.10.10.71H/W Version : Ver.AS/W Version : V100R001B58D017Boot-Rom Version : 2.10Description : Not ConfiguredConnection Type : MasterPeer AC MAC Address : -NA-Priority Level : 4Echo Interval(s) : 10Statistics report Interval(s) : 50Cir(Kbps) : -NA-Cbs(Bytes) : -NA-Jumboframe Threshold : DisableTransmitted control packets : 160Received control packets : 160Transmitted data packets : 0Received data packets : 0Configuration Failure Count : -NA-Last Failure Reason : -NA-Last Reboot Reason : Tunnel InitiatedLatest Join IP Address : 10.10.10.71Tunnel Down Reason : No Reason------------------------------------------------------------------------------- AP Mode : SplitAP operation mode : NormalPortal Service : DisableDevice Detection : DisableMaximum Number of Radios : 1Current Number of Radios : 1Client Keep-alive Interval : DisableClient Idle Interval(s) : 3600Broadcast-probe Reply Status : EnableRadio 1:Basic BSSID : 001c-c596-5240Current BSS Count : 1Running Clients Count:11g : 011b : 0Wireless Mode : 11gConfigured Channel : auto(11)Configured Power (dBm) : 14Interference (%) : 2Channel Load (%) : 2Utilization (%) : 0Co-channel Neighbor Count : 0Channel Health : GoodPreamble Type : shortRadio Policy : 1025Service Template : 1SSID : wx3024_clearPort : WLAN-DBSS0:11Mesh Policy : default_mp_plcyANI Support : Enable11g Protection : DisableAdmin State : UPPhysical State : UPOperational Rates (Mbps):1 : mandatory2 : mandatory5.5 : mandatory6 : supported9 : supported11 : mandatory12 : supported18 : supported24 : supported36 : supported48 : supported54 : supportedRadar detected Channels : None------------------------------------------------------------------------------- < WX3024>< WX3024>display current-configuration#version 5.20, Release 3106P08, Release 3106P08#sysname WX3024#domain default enable system#telnet server enable#port-security enable#portal server web ip 10.10.10.127 key portal url http://10.10.10.127/portal portal local-server http#oap management-ip 10.10.10.128 slot 0#wlan country-code US#wlan apdb 9550 Ver.A V100R001B71D002SP01wlan apdb 7760_2750 Ver.A V100R001B58D019SP01#vlan 1#domain systemauthentication portal localauthorization portal localaccounting portal localaccess-limit disablestate activeidle-cut disableself-service-url disable#user-group system#local-user adminpassword simple adminauthorization-attribute level 3service-type ssh telnetlocal-user portalpassword simple portalauthorization-attribute vlan 1service-type portal#wlan rrmdot11a mandatory-rate 6 12 24dot11a supported-rate 9 18 36 48 54dot11b mandatory-rate 1 2dot11b supported-rate 5.5 11dot11g mandatory-rate 1 2 5.5 11dot11g supported-rate 6 9 12 18 24 36 48 54#wlan radio-policy 257#wlan radio-policy 258#wlan radio-policy 513#wlan radio-policy 514#wlan radio-policy 769#wlan radio-policy 770#wlan radio-policy 1025#wlan radio-policy 1026#wlan radio-policy 1281#wlan radio-policy 1282#wlan service-template 1 clearssid wx3024_clearbind WLAN-ESS 0service-template enable#interface NULL0#interface Vlan-interface1ip address 10.10.10.127 255.255.255.0portal server web method direct#interface GigabitEthernet1/0/1port link-type trunkport trunk permit vlan all#interface WLAN-ESS0port link-type hybridport hybrid vlan 1 untagged#wlan ap ap7760_wx3024 model 7760_2750serial-id 9TZ497L965240radio 1channel automax-power 14radio-policy 1025service-template 1radio enable#ip route-static 0.0.0.0 0.0.0.0 10.10.10.1#snmp-agentsnmp-agent local-engineid 8000002B03000FE207F2E0Wireless Technology AP7760 - H3C/3Com FIT Software Conversion 3Com Technical Marketing Engineering Page 21 snmp-agent community read publicsnmp-agent community write privatesnmp-agent sys-info version all#ssh server enable#load xml-configuration#user-interface aux 0user-interface vty 0 4authentication-mode schemeuser privilege level 3#return<WX3024>。

Converter Standalone 5.0 版本中包含以下已知问题：•安装•常规•Windows 源•Linux 源•第三方格式•本地化•用户指南和帮助安装在重新安装 Converter Standalone 之前，必须重新启动运行 64 位 Windows Vista 或更高版本的计算机如果从 64 位 Windows Vista、Windows Server 2008 或 Windows 7 计算机上卸载Converter Standalone 后没有重新启动计算机，则后续的 Converter Standalone 安装可能会失败，并会显示以下错误消息：错误 29144。

无法安装服务 Vstor2 MntApi 1.0 Driver（共享）。

请重新引导并尝试再次安装 (Error 29144. Could not install service Vstor2 MntApi 1.0 Driver (shared). Please reboot and try to install again)。

解决办法：重新启动 Windows Vista、Windows Server 2008 或 Windows 7 计算机，然后尝试重新安装 Converter Standalone。

Converter Standalone 安装程序未发出任何通知即移除 Workstation 6.5.x 远程代理使用 Workstation 6.5.x 热克隆 Windows 源计算机时，Workstation 会在源上部署一个远程 Workstation 代理。

如果选择保留该源上的远程代理，然后将 Converter Standalone 安装在同一计算机上，则 Converter Standalone 安装程序将卸载该代理且不发送任何警告消息。

成功转换之后，运行 64 位 Windows Vista 或更高版本的远程源计算机的后续 P2V 转换可能会失败如果成功转换某一运行 64 位 Windows Vista、Windows Server 2008 或 Windows 7 操作系统的远程源计算机后尝试再次转换，则转换将失败，并且会显示错误消息：Converter Standalone Agent 在 x.x.x.x 上安装失败，错误代码: 1603 (Converter Standalone Agent installation failed on x.x.x.x Error code: 1603)1603，其中 x.x.x.x 是源计算机的 IP 地址。

VMware vCenter Converter Standalone 5.5 P2V Unable to obtain hardware information for the selected machine 昨天遇到使用VM Converter抓取物理机遇到如下问题，经过网上搜索之后，最终解决了。

由于网上解决方法比较分散，所以趁抓取还需要点时间，我整理了下经验分享出来供朋友借鉴。

问题描述准备升级Exchange2003到Exchange2010，考虑在用的exc03邮件服务已经用了快5年了，有500个邮件用户，154G邮箱数据。

所以先用VM Converter抓取物理机模拟升级试下。

办公电脑上（Windows10 64位操作系统，已经安装了VMware Workstation 12 PRO，）安装VMware vCenter Converter Standalone en 6.0 （客户端-服务端）在设置要抓取的源系统时，提示：unable to obtain hardware information for the selected machine。

而无法继续设置，界面如下所示：处理过程：一、确认本机上的相关服务：网上搜索了相关的内容之后，说需要确认以下6点。

（除了重启，其他5点都确认过了。

其中做的操作是这2个服务启动：Microsoft Software Shadow Copy Provider；Virtual Disk Service。

）1.重新启动物理机（如果可以）。

2.在物理机上禁用简单文件共享3.关闭物理机上的防火墙和防病毒。

4.确保在物理机上启动卷影复制服务(VSS)。

5.确保以具有管理员特权的用户身份登录到vCenter Converter Standalone，或在启动vCenter Converter Standalone 时选择以管理员身份运行。

6.在“vCenter Converter Standalone 转换”向导中，选择远程计算机而不是此本地计算机，并提供物理机的IP 地址或使用环回IP 地址127.0.0.1。