17S5200-17S5200D场强仪使用说明书

Protek 场强测试仪使用手册场强测试仪能够测试某一地点的某一频率的信号的功率和某一地点有多少个在用的频率和各自的功率，还可以做为频率计使用，测量某一信号的频率，但这个不经常使用。

场强测试仪的操作界面介绍：RUN（GHZ）键：开始按键，设计好开始测量后，按RUN键，停止的话，再次按RUN键。

也是设置频率时的单位GHz。

MODE（MHz）键：该键的作用是设置信号的调制方式，所设置的调制方式要与所测信号的调制方式一致。

支持四种调试方式，分别为W-FM(宽频调制)、N-FM(窄频调制)、AM（幅度调制）、SSB（单边带调制）没按一次按键在屏幕最上边的一行依以上次序顺序变化显示。

我们测试用W-FM 调制方式。

另外，该按键还用来输入单位MHz。

SWEEP（KHz）键：该按键是设置触发模式的，没按一次该案件在屏幕的第一行的第三个位置，会一次变化显示F、S、1这三个字母。

其中F代表Free RUN即自由触发模式，这种触发模式是始终在刷新触发频率，S代表Squel RUN即连续触发，1代表Single RUN即一次触发，在该模式时，按运行键，在频带范围内只触发一次。

另外，该按键还用来输入单位KHz。

MATKER(Del)键：该键的功能是对频率进行标记和选择测试，以记忆和选择在频谱范围内的不同的测试点。

按该按键会在屏幕的最上边一行的最后边依次显示NONE、M、Δ、S，他们的含义分别为：M为MATKER代表单一标记，这时在屏幕上出现一个1的标记点，Δ为DELTA MARKER 是两个标记，其中只有标记2可以活动，1作为基准，S是SQUEL MARKER，是噪声标记，通常指我们所说的噪声比，通常设置为-100。

同时，该按键还是在输入时的删除键。

0~9数字键：主要是在输入频率的时候使用；Shift键：按该键，屏幕最上边显示为shift时，屏幕下方显示STAR、STOP、STEP，分别代表起始频率，终止频率，和频率步梯，再次按该按键，当屏幕显示3201时，屏幕下方显示CENT、SPAN、STEP分别代表中心频率、频带宽度和频率步梯，其实两者的实际意义是一样的，只不过是显示的方式不一样而已，另外，对于我们所测的频谱带宽，需要与电脑相连进行设置，缺省模式下固定为20M。

场强仪工具使用方法场强仪是一种用于测量电场强度的仪器，被广泛应用于电力、通信、无线电、环境等领域。

场强仪的使用方法可以分为以下几个步骤：1.准备工作：a.确认仪器是否工作正常，检查电源、电池、传感器等部分的状态；b.确定测量区域，清理测量点附近的杂物，确保无干扰物；c.了解场强仪的测量范围和精度，根据需求选择合适的量程；d.可选的步骤是校准场强仪，特别是在首次使用或长时间未使用后。

2.打开仪器：a.按下仪器上的开关，确认仪器已开机；b.根据需要，选择合适的测量模式或功能。

3.设置参数：a.根据具体测量需求，设置相关参数，如量程、测量单位等；b.一些场强仪可能还有特殊的设置，如数据存储、报警功能等。

4.进行测量：a.将传感器或天线靠近待测区域，确保其正对待测物体或场强源；b.观察仪器显示屏上的数值和单位，记录测量结果；c.若需要连续测量，可根据要求将传感器移动到下一个测点，重复上述步骤。

5.数据处理和分析：a.根据需要，将测量结果记录下来，包括时间、位置、数据值等其他相关信息；b.可以使用计算机软件或专业数据处理工具，进一步分析和绘制图表。

6.仪器维护：a.使用完毕后，关闭仪器，保持存放在干燥、通风的环境中；b.定期检查仪器的传感器、电源、电池等部分，确保其正常工作；c.如果发现故障或异常，及时进行修理或更换配件。

需要注意的是，不同型号和品牌的场强仪可能存在一些差异，因此在具体使用时，还需要参考相关的使用说明书或接受相关培训。

此外，在使用场强仪测量强电场或高压区域时，还需要注意安全问题，采取必要的防护措施。

AD5010D频谱仪快速操作说明序号名称说明22 基准源输出50MHz/-40dBm 基准信号源输出23 耳机输出PHONE 3.5mm耳机插孔，阻抗大于16Ω的耳机或扬声器可以连接到这个输出插座。

24 探头电源输出PROBE POWER 输出+6VDC电压供AZ530近场探头使用。

此电源为它专用，其专供电用线随Az530提供。

25 频谱仪提手26 电源输入DC INPUT 随机专用适配器。

使用AD5010D频谱仪快速查找信号可按以下步骤完成:1、选择合理位置架设频谱仪为了能够更好的查找可疑信号，我们需要选择一个合理的位置架设频谱仪。

具体情况要根据考场的环境，选择楼层高、遮挡物少并且方便取电的教室，在靠近窗口的位置架设频谱仪，使频谱仪达到最好的接收效果。

2、接通电源和天线接通电源后，按下开电源关键○2，等待2秒钟后进入开机界面，频谱仪开启后进入频谱扫描状态。

将随机配套的天线接口插入信号输入端口○8，顺时针方向转动天线四分之一圈，当听到“啪”的声响时，表明天线已经安装固定好了。

反向操作可取下天线。

3、设置中心频率、步进、扫频带宽以及参考电平频谱仪开启后，按下FREQ键○16，屏幕左侧出现频率设置选项，选择Center Freq 对应的按钮，然后按数字输入区域○4输入中心频点，输入220.000MHz，分别按下对应的数字键（屏幕下方的白色区域会显示实时的输入数字），然后选择单位MHz完成输入，这时频谱图横坐标的中心位置即为中心频率。

接着按下CF Step对应的按钮选择设置中心频率步进，设为0.25MHz。

按下SPAN 键○15自动进入带宽设定，选择10MHz，输入数字10按下单位MHz完成设定。

然后按下AMPTD键○14，选择Attenuator*选项，将衰减设定为20dB。

输入显示区域4、设置分辨率按下带宽设置键RBW/VBW键○10，屏幕左侧出现分辨率带宽Res BW和视频带宽Video BW选项。

HI3604场强仪操作手册担保书一年的销售数据可以表明：HOLADAY 工业有限公司生产的HI-3604超低频场强测量仪表模块没有任何材料和工艺上的缺陷。

此担保只适用于原购产品，不包括电池，不包括因错误使用，疏忽，事故，或使用未经许可的功能，以及非正常工作环境下损坏的产品或零部件。

如果发生担保范围内的设备故障，只要自购买之日起的一年时间内送回生产厂家，HOLADAY工业有限公司将免费为用户修理，校准设备。

如果经HOLADAY工业有限公司鉴定，产品确实存在缺陷，那公司将在维修点为用户更换新设备。

如果故障是由于错误使用，疏忽，事故，或使用未经许可的功能，以及非正常工作环境下所造成的，用户就需要支付一定的修理费用。

如用户对上述情况存在疑问，维修工作进行前可根据用户要求进行故障鉴定。

为更好地为用户服务，HOLADAY工业有限公司将为用户提供详细的故障说明和设备序列号。

用户将收到：服务条款，装运说明，设备送厂维修运费预付说明，维修后设备送达用户的运费说明等。

在设备运输过程中造成的设备丢失，损坏，HOLADAY工业有限公司不承担责任。

警告工作于高电压强电流环境下或高电压强电流设备周围要特别注意安全。

尤其是在运行电气设备内部，变电站或在十分接近供电电力线周围测量电磁场参数时，更应注意人身安全，因为高电压强电流环境下发生的事故会导致人员伤亡。

HOLADAY工业有限公司对使用该设备以外导致的损失和人员伤亡不承担责任。

1.0 产品描述HI-3604超低频场强测量仪是用来测量电磁场强度的一种仪器，用于50或60HZ电力系统传输线及其相关电力设备或仪器的电磁场强度测量与评估。

该设备可以直接通过数字显示读出场强，也可以通过光纤远程控制设备（HI-3616）间接读取数据。

HI-3604可以应用于科研或环境研究领域，比如了解某区域电网频率下的场强。

HI-3604为工程师，工业卫生研究员和保障人员的健康安全提供了一种观测电力系统频率下环境电磁参数的有力工具。

Acer投影机P5205/S5200系列用户指南版权所有© 2009。

Acer Incorporated。

保留所有权利。

Acer投影机P5205/S5200系列用户指南首次发布： 11/2009本出版物的内容将定期变动，恕不另行通知。

更改的内容将会补充到本出版物，且会在本手册发行新版本时予以付梓印刷。

本公司不做任何明示或默许担保，包括本手册内容的适售性或符合特定使用目的。

在下列预留的空白处，记录下型号、序列号、购买日期及购买地点。

型号及序列号可以在投影机的标签上找到。

与投影机相关的资料应包括序列号、型号及购买信息。

未经本公司书面同意，不得对本出版物的任何部分以任何方式（电子的、机械的、影印的、翻录的或其它的方式）进行复制、保存入检索系统或传播。

Acer投影机P5205/S5200系列型号：_____________________________________________序列号：___________________________________________购买日期：_________________________________________购买地点：_________________________________________Acer和Acer标志是Acer Incorporated的注册商标。

本指南中使用的其它公司的产品名称或商标分别归相应的公司所有，在此仅用于识别目的。

“HDMI TM、HDMI标志和High-Definition Multimedia Interface是HDMI Licensing LLC的商标或注册商标。

”iii 关于您的安全和舒适的信息请仔细阅读这些说明。

妥善保管本文档，供以后参考。

务必遵守标示在产品上的警告标示与说明。

在清洁之前关闭产品电源在进行清洁工作之前，请将本产品的电源插头从墙上的电源插座上拔下。

切勿使用液体清洁剂或喷雾式清洁剂。

Dell EMC PowerSwitch S5200-ON Series BMC User GuideMarch 2021Copyright© 2018 - 2021 Dell Inc. or its subsidiaries. All rights reserved. Dell, EMC, and other trademarks are trademarks of Dell Inc. or its subsidiaries. Other trademarks may be trademarks of their respective owners.Chapter 1: About this guide (4)Information symbols (4)Document revision history (5)Chapter 2: Hardware and software support (6)Chapter 3: Configuration methods (7)Configurations (9)Date and time (10)SNMP and email alerts (11)Add and delete users (13)Firewall (17)Event log (28)Default configuration restore (29)Chapter 4: Host power control (31)Chapter 5: Firmware update (32)Chapter 6: Access system health sensors (33)Chapter 7: IPMI commands (35)Chapter 8: ipmiutil package (38)Chapter 9: Access FRU data (39)Chapter 10: Dell EMC support (41)Contents3About this guideThis guide provides information for using the Dell EMC baseboard management controller (BMC).To avoid electrostatic discharge (ESD) damage, wear grounding wrist straps when handling thisOnly trained and qualified personnel can install this equipment. Read this guide before you install and power on thisThis equipment contains optical transceivers, which comply with the limits of Class 1 laser radiation.When no cable is connected, visible and invisible laser radiation may be emitted from the aperture of the opticalLanguageThis guide may contain language that is not consistent with the current guidelines. Dell EMC plans to update the Topics:•Information symbols •Document revision historyInformation symbolsThe Noteicon signals important operational information.The Caution icon signals information about situations that could result in equipment damage or lossThe Warning icon signals information about hardware handling that could result in injury.The ESD Warning icon requires that you take electrostatic precautions when handling the device.14About this guideDocument revision historyTable 1. Revision historyRevision Date DescriptionA002018-09Initial releaseA012019-03Updated to include the S5224F-ON and S5212F-ON platforms.A022021-02Removed broken link. Updated document to current IDD standards. Added language note.Updated the Default configuration restore section. Added the ipmi commands section.A032021-03Fixed incorrect link.About this guide5Hardware and software supportFor the most current BMC update information, see the S5200-ON Series Release Notes.For more information about the intelligent platform management interface (IPMI), see the IPMI resources that is hosted by Intel at https:///content/www/us/en/servers/ipmi/ipmi-technical-resources.html.The BMC out-of-band (OOB) network or LAN is not enabled for Trade Agreement Act-qualified (TAA) switches.Required driversIn Linux, the baseboard management controller (BMC) uses the ipmitool open-source tool during testing. To configure or get data from the BMC, ipmitool sends ipmi commands to the BMC. You must have the IPMI driver installed to use ipmitool. To access ipmitools, go to https://, search for ipmitools, then select the See Project button.Although there are newer versions available, the ipmitool and driver versions used during testing the BMC are:●Linux version: 4.9.30●ipmitool version: 1.8.18●ipmi driver that the ipmitool uses is built with kernel 4.9.30.BMC accessAccess BMC through the network interface from a remote machine. Use ipmitool for host and remote access.●LAN interface—ipmitool is the standard tool to access BMC over the network. A dummy static IP address ispreprogrammed in the BMC. You can change this dummy static IP address of the network interface using ipmitool from the microprocessor console:○# ipmitool lan set 1 ipaddr <x.x.x.x>6Hardware and software supportConfiguration methods The diagnostic operating software (DIAG OS) running on the local processor has ipmitool installed by default. You can use the ipmitool both at the switch and remotely.Accessing BMC from the host does not require user name or password. The general syntax for using ipmitool is:-I and -H are optional.ipmitool [-c|-h|-v|-V] -I lanplus -H <hostname> [-p <port>][-U <username>][-L <privlvl>][-a|-E|-P|-f <password>][-o <oemtype>][-O <sel oem>][-C <ciphersuite>][-Y|[-K|-k <kg_key>][-y <hex_kg_key>][-e <esc_char>][-N <sec>][-R <count>]< command>For example, to list sensors from the host use the following command from the host:root@dellemc-diag-os:~# ipmitool sensorPT_Mid_temp | 31.000 | degrees C | ok | na | na | na | 78.000 | 80.000 | 85.000 NPU_Near_temp | 29.000 | degrees C | ok | na | na | na | na | na | na PT_Left_temp | 28.000 | degrees C | ok | na | na | na | na | na | na PT_Right_temp | 30.000 | degrees C | ok | na | na | na | na | na | na ILET_AF_temp | 26.000 | degrees C | ok | na | na | na | na | na | na PSU1_AF_temp | 24.000 | degrees C | ok | na | na | na | 61.000 | 64.000 | na PSU2_AF_temp | 25.000 | degrees C | ok | na | na | na | na | na | na PSU1_temp | 34.000 | degrees C | ok | na | na | na | na | na | na PSU2_temp | na | degrees C | na | na | na | na | na | na | na CPU_temp | 31.000 | degrees C | ok | na | na | na | 90.000 | 94.000 | na FAN1_Rear_rpm | 9120.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN2_Rear_rpm | 9000.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN3_Rear_rpm | 9000.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN4_Rear_rpm | 9120.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN1_Front_rpm | 10080.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN2_Front_rpm | 10080.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN3_Front_rpm | 9960.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN4_Front_rpm | 10080.000 | RPM | ok | na | 1080.000 | na | na | na | na PSU1_rpm | 9000.000 | RPM | ok | na | na | na | na | na | na PSU2_rpm | na | RPM | na | na | na | na | na | na | na PSU_Total_watt | 110.000 | Watts | ok | na | na | na | na | na | na PSU1_stat | 0x0 | discrete | 0x0180| na | na | na | na | na | na PSU2_stat | 0x0 | discrete | 0x0380| na | na | na | na | na | na PSU1_In_watt | 110.000 | Watts | ok | na | na | na | na | na | na PSU1_In_volt | 205.700 | Volts | ok | na | na | na | na | na | na PSU1_In_amp | 0.480 | Amps | ok | na | na | na | na | na | na PSU1_Out_watt | 90.000 | Watts | ok | na | na | na | na | na | na PSU1_Out_volt | 12.400 | Volts | ok | na | na | na | na | na | na PSU1_Out_amp | 7.500 | Amps | ok | na | na | na | na | na | na PSU2_In_watt | na | Watts | na | na | na | na | na | na | na PSU2_In_volt | na | Volts | na | na | na | na | na | na | na PSU2_In_amp | na | Amps | na | na | na | na | na | na | na PSU2_Out_watt | na | Watts | na | na | na | na | na | na | na PSU2_Out_volt | na | Volts | na | na | na | na | na | na | na PSU2_Out_amp | na | Amps | na | na | na | na | na | na | na ACPI_stat | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN1_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN2_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN3_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN4_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN1_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN2_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN3_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN4_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN1_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN2_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN3_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN4_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | naConfiguration methods7INTER_5.0V_volt | 4.900 | Volts | ok | 4.200 | 4.500 | 4.700 | 5.200 | 5.500 | 5.700 INTER_3.3V_volt | 3.300 | Volts | ok | 2.800 | 3.000 | 3.100 | 3.500 | 3.600 | 3.800 FPGA_1.0V_volt | 0.990 | Volts | ok | 0.850 | 0.900 | 0.950 | 1.050 | 1.100 | 1.150 FPGA_1.2V_volt | 1.190 | Volts | ok | 1.020 | 1.080 | 1.140 | 1.260 | 1.320 | 1.380 FPGA_1.8V_volt | 1.780 | Volts | ok | 1.530 | 1.620 | 1.710 | 1.890 | 1.980 | 2.070 FPGA_3.3V_volt | 3.200 | Volts | ok | 2.800 | 3.000 | 3.100 | 3.500 | 3.600 | 3.800 BMC_2.5V_volt | 2.400 | Volts | ok | 2.100 | 2.200 | 2.300 | 2.600 | 2.800 | 2.900 BMC_1.15V_volt | 1.150 | Volts | ok | 0.980 | 1.030 | 1.090 | 1.210 | 1.270 | 1.320 BMC_1.2V_volt | 1.210 | Volts | ok | 1.020 | 1.080 | 1.140 | 1.260 | 1.320 | 1.380 SWITCH_6.8V_volt| 7.000 | Volts | ok | 5.800 | 6.100 | 6.400 | 7.200 | 7.500 | 7.800 SWITCH_3.3V_volt| 3.300 | Volts | ok | 2.800 | 3.000 | 3.100 | 3.500 | 3.600 | 3.800 SWITCH_1.8V_volt| 1.790 | Volts | ok | 1.530 | 1.620 | 1.710 | 1.890 | 1.980 | 2.070 USB_5.0V_volt | 4.900 | Volts | ok | 4.200 | 4.500 | 4.700 | 5.200 | 5.500 | 5.700 NPU_1.2V_volt | 1.190 | Volts | ok | 1.020 | 1.080 | 1.140 | 1.260 | 1.320 | 1.380 NPU_VDDCORE_volt| 0.800 | Volts | ok | 0.700 | 0.720 | 0.740 | 0.910 | 0.930 | 0.950 NPU_VDDANLG_volt| 0.790 | Volts | ok | 0.680 | 0.720 | 0.760 | 0.840 | 0.880 | 0.920 BMC boot | 0x0 | discrete | 0x0180| na | na | na | na | na | na SEL_sensor | 0x0 | discrete | 0x1080| na | na | na | na | na | naThe command parameters change slightly when using ipmitool over LAN:root@dellemc-diag-os:~# ipmitool -U admin -P admin -I lanplus -H 10.11.227.105 sensorPT_Mid_temp | 32.000 | degrees C | ok | na | na | na | 78.000 | 80.000 | 85.000 NPU_Near_temp | 29.000 | degrees C | ok | na | na | na | na | na | na PT_Left_temp | 28.000 | degrees C | ok | na | na | na | na | na | na PT_Right_temp | 30.000 | degrees C | ok | na | na | na | na | na | na ILET_AF_temp | 26.000 | degrees C | ok | na | na | na | na | na | na PSU1_AF_temp | 24.000 | degrees C | ok | na | na | na | 61.000 | 64.000 | na PSU2_AF_temp | 25.000 | degrees C | ok | na | na | na | na | na | na PSU1_temp | 33.000 | degrees C | ok | na | na | na | na | na | na PSU2_temp | na | degrees C | na | na | na | na | na | na | na CPU_temp | 31.000 | degrees C | ok | na | na | na | 90.000 | 94.000 | na FAN1_Rear_rpm | 9120.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN2_Rear_rpm | 9000.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN3_Rear_rpm | 9000.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN4_Rear_rpm | 9000.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN1_Front_rpm | 10080.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN2_Front_rpm | 10080.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN3_Front_rpm | 10080.000 | RPM | ok | na | 1080.000 | na | na | na | na FAN4_Front_rpm | 10080.000 | RPM | ok | na | 1080.000 | na | na | na | na PSU1_rpm | 9120.000 | RPM | ok | na | na | na | na | na | na PSU2_rpm | na | RPM | na | na | na | na | na | na | na PSU_Total_watt | 110.000 | Watts | ok | na | na | na | na | na | na PSU1_stat | 0x0 | discrete | 0x0180| na | na | na | na | na | na PSU2_stat | 0x0 | discrete | 0x0380| na | na | na | na | na | na PSU1_In_watt | 110.000 | Watts | ok | na | na | na | na | na | na PSU1_In_volt | 205.700 | Volts | ok | na | na | na | na | na | na PSU1_In_amp | 0.480 | Amps | ok | na | na | na | na | na | na PSU1_Out_watt | 90.000 | Watts | ok | na | na | na | na | na | na PSU1_Out_volt | 12.400 | Volts | ok | na | na | na | na | na | na PSU1_Out_amp | 7.500 | Amps | ok | na | na | na | na | na | na PSU2_In_watt | na | Watts | na | na | na | na | na | na | na PSU2_In_volt | na | Volts | na | na | na | na | na | na | na PSU2_In_amp | na | Amps | na | na | na | na | na | na | na PSU2_Out_watt | na | Watts | na | na | na | na | na | na | na PSU2_Out_volt | na | Volts | na | na | na | na | na | na | na PSU2_Out_amp | na | Amps | na | na | na | na | na | na | na ACPI_stat | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN1_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN2_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN3_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN4_prsnt | 0x0 | discrete | 0x0180| na | na | na | na | na | na FAN1_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN2_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN3_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN4_Rear_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN1_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN2_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN3_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na FAN4_Front_stat | 0x0 | discrete | 0x0080| na | na | na | na | na | na INTER_5.0V_volt | 4.900 | Volts | ok | 4.200 | 4.500 | 4.700 | 5.200 | 5.500 | 5.700 INTER_3.3V_volt | 3.300 | Volts | ok | 2.800 | 3.000 | 3.100 | 3.500 | 3.600 | 3.800 FPGA_1.0V_volt | 0.990 | Volts | ok | 0.850 | 0.900 | 0.950 | 1.050 | 1.100 | 1.150 FPGA_1.2V_volt | 1.190 | Volts | ok | 1.020 | 1.080 | 1.140 | 1.260 | 1.320 | 1.380 FPGA_1.8V_volt | 1.780 | Volts | ok | 1.530 | 1.620 | 1.710 | 1.890 | 1.980 | 2.070 FPGA_3.3V_volt | 3.200 | Volts | ok | 2.800 | 3.000 | 3.100 | 3.500 | 3.600 | 3.800 BMC_2.5V_volt | 2.400 | Volts | ok | 2.100 | 2.200 | 2.300 | 2.600 | 2.800 | 2.900 BMC_1.15V_volt | 1.150 | Volts | ok | 0.980 | 1.030 | 1.090 | 1.210 | 1.270 | 1.320 BMC_1.2V_volt | 1.210 | Volts | ok | 1.020 | 1.080 | 1.140 | 1.260 | 1.320 | 1.380 SWITCH_6.8V_volt| 7.000 | Volts | ok | 5.800 | 6.100 | 6.400 | 7.200 | 7.500 | 7.800 SWITCH_3.3V_volt| 3.300 | Volts | ok | 2.800 | 3.000 | 3.100 | 3.500 | 3.600 | 3.800 SWITCH_1.8V_volt| 1.790 | Volts | ok | 1.530 | 1.620 | 1.710 | 1.890 | 1.980 | 2.070 USB_5.0V_volt | 4.900 | Volts | ok | 4.200 | 4.500 | 4.700 | 5.200 | 5.500 | 5.700 NPU_1.2V_volt | 1.190 | Volts | ok | 1.020 | 1.080 | 1.140 | 1.260 | 1.320 | 1.380 NPU_VDDCORE_volt| 0.800 | Volts | ok | 0.700 | 0.720 | 0.740 | 0.910 | 0.930 | 0.950 NPU_VDDANLG_volt| 0.790 | Volts | ok | 0.680 | 0.720 | 0.760 | 0.840 | 0.880 | 0.920 BMC boot | 0x0 | discrete | 0x0180| na | na | na | na | na | na SEL_sensor | 0x0 | discrete | 0x1080| na | na | na | na | na | na8Configuration methodsTo access BMC over a LAN, use the following ipmitool command:ipmitool [-c|-h|-v|-V] -I lanplus -H <hostname> [-p <port>][-U <username>][-L <privlvl>][-a|-E|-P|-f <password>][-o <oemtype>][-O <sel oem>][-C <ciphersuite>][-Y|[-K|- <kg_key>][-y <hex_kg_key>][-e <esc_char>][-N <sec>][-R <count>]<command>If needed, you can download ipmitool from the htps:/// projects/ipmitool website. The commands to install ipmitool on Ubuntu or Fedora versions are as follows:1.Install ipmitool on Ubuntu versions.# apt-get install ipmitool2.Install ipmitool on Fedora versions.# yum install ipmitoolRun standard IPMI commands from ipmitool. For the command format, see Intelligent Platform Management Interface Specification Second Generation v2.0.pdf. For more documentation, see https:///man/1/ipmitool.Throughout this user guide, Intelligent Platform Management Interface Specification Second Generation v2.0.pdf IPMI Specification v2.0. For more information about IPMI, see the IPMI resources that is hosted by Intel at.Topics:•Configurations•Date and time•SNMP and email alerts•Add and delete users•Firewall•Event log•Default configuration restoreConfigurationsLAN configurationsFor network settings, see the IPMI Specification v2.0 chapter 23.1 Set LAN Configuration Parameters Command and Table 23-4 LAN Configuration Parameters.In addition to setting IP addresses, use ipmitool to set the network mask, MAC address, default gateway IP and MAC addresses, and so forth.ipmitool commands:root@dellemc-diag-os:~# ipmitool lan set 1usage: lan set <channel> <command> <parameter>LAN set command/parameter options:ipaddr <x.x.x.x> Set channel IP addressnetmask <x.x.x.x> Set channel IP netmaskmacaddr <x:x:x:x:x:x> Set channel MAC addressdefgw ipaddr <x.x.x.x> Set default gateway IP addressdefgw macaddr <x:x:x:x:x:x> Set default gateway MAC address bakgwipaddr <x.x.x.x> Set backup gateway IP addressConfiguration methods9bakgw macaddr <x:x:x:x:x:x> Set backup gateway MAC addresspassword <password> Set session password for this channelsnmp <community string> Set SNMP public community stringuser Enable default user for this channelaccess <on|off> Enable or disable access to this channelalert <on|off> Enable or disable PEF alerting for this channelarp respond <on|off> Enable or disable BMC ARP respondingarp generate <on|off> Enable or disable BMC gratuitous ARP generationarp interval <seconds> Set gratuitous ARP generation intervalvlan id <off|<id>> Disable or enable VLAN and set ID (1-4094)vlan priority <priority> Set vlan priority (0-7)auth <level> <type,..> Set channel authentication typeslevel = CALLBACK, USER, OPERATOR, ADMINtype = NONE, MD2, MD5, PASSWORD, OEMipsrc <source> Set IP Address sourcenone = unspecified sourcestatic = address manually configured to be staticdhcp = address obtained by BMC running DHCPbios = address loaded by BIOS or system softwarecipher_privs XXXXXXXXXXXXXXX Set RMCP+ cipher suite privilege levelsX = Cipher Suite Unusedc = CALLBACKu = USERo = OPERATORa = ADMINO = OEM bad_pass_thresh <thresh_num> <1|0> <reset_interval> <lockout_interval>Set bad password thresholdDell Technologies recommends setting LAN parameters from the host microprocessor. You can run all other options from a remote machine after the BMC has the correct IP address and LAN settings. When runningfrom a remote machine, the command prefix is ipmitool -H <ip address of BMC> -I lanplus -U.The <channel> number is the LAN channel, which is 1 in this BMC implementation.Dell Technologies recommends using the LAN settings command from a system-side machine rather than from a remote machine. To set a dynamic host configuration protocol (DHCP) IP address, use the following command:# ipmitool lan set 1 ipsrc dhcpTo set a static IP address:# ipmitool lan set 1 ipsrc static# ipmitool lan set 1 ipaddr <x.x.x.x>You can also add the BMC IP address from the BIOS. For more information, see the BIOS manual at /support.DNS configurationUse these commands to set and get domain name server (DNS)-related settings, for example hostname, domain setting, and DNS server settings. BMC supports only three DNS server IP addresses. These IP addresses can be either IPv4 or IPv6.To set DNS configuration details, use the DNS configuration command. The DNS configuration is buffered and applies only after you set a DNS Restart—parameter #7.Date and timeBIOS sets the date and time during boot up. Use the iseltime tool that is part of the ipmiutil package. Use theipmiutil command only on the local processor. For more information about the ipmiutil command, see ipmiutil package. Install the ipmiutil package and use the iseltime command.10Configuration methodsTo override the date and time that is used in the system event log (SEL) log, use the following command:root@dellemc-diag-os:~# ipmitool sel time get08/01/2018 15:10:46root@dellemc-diag-os:~# ipmitool sel time setusage: sel time set "mm/dd/yyyy hh:mm:ss"root@dellemc-diag-os:~#For ipmiutil/iseltime, download and install the binaries and documentation from https://. Also, various Linux distributions have binary packages prebuilt and available for download.SNMP and email alertsEvent filtersTo set the platform event filters, use the raw command format. To configure an entry in the filter table:root@dellemc-diag-os:~# ipmitool raw 0x04 0x12 0x6 0x2 0xc0 0x1 0x2 0x2 0xff 0xff 0xff 0xff 0xff 0x01 0x0 0x0 0x0 0x0 0x0 0x0 0x0 0x0 0x0 0x0Byte 3 (0x60) – event filter table cmdByte 4(0x2) – filter numberByte 5(0xc0) – filter config(enable)Byte 6(0x1) – action(alert)Byte 7(0x2) – policy numberByte 8(0x2) - event severity(information)Byte 9(0xff) – slave addressByte 10 (0xff) – channel number(any)Byte 11(0xff) - sensor number(any)Byte 12(0x01) – event trigger(threshold)The entry 2 is changed after the command, as shown:root@dellemc-diag-os:~#root@dellemc-diag-os:~# ipmitool pef filter list1 | disabled, configurable2 | enabled, pre-configured | Any | Any | Information | OEM | Any | Alert | 23 | disabled, configurable4 | disabled, configurable5 | disabled, configurable6 | disabled, configurable7 | disabled, configurable8 | disabled, configurable9 | disabled, configurable10 | disabled, configurable11 | disabled, configurable12 | disabled, configurable13 | disabled, configurable14 | disabled, configurable15 | disabled, configurable16 | disabled, configurable17 | disabled, configurable18 | disabled, configurable19 | disabled, configurable20 | disabled, configurable21 | disabled, configurable22 | disabled, configurable23 | disabled, configurable24 | disabled, configurable25 | disabled, configurable26 | disabled, configurable27 | disabled, configurable28 | disabled, configurable29 | disabled, configurable30 | disabled, configurable31 | disabled, configurable32 | disabled, configurable33 | disabled, configurable34 | disabled, configurable35 | disabled, configurable36 | disabled, configurable37 | disabled, configurable38 | disabled, configurable39 | disabled, configurable40 | disabled, configurableFor more information, see the IPMI Specification v2.0 chapter 17.7 Event Filter Table and chapter 30.3 Set PEF Configuration Parameters Command.Alert policies and destinationsFor more information, see the IPMI Specification v2.0 chapter 17.11 Alert Policy Table and chapter 30.3 Set PEF Configuration Parameters Command (parameter 9).LAN destinationsBMC supports SNMP alert destinations. These are SNMP traps. When you set a LAN destination for alerts, the BMC sends an SNMP trap to the set a destination whenever BMC detects alert conditions. You can setup the SNMP management application on the destination to receive these SNMP traps; however, setting up the SNMP management station is beyond the scope of this document.To view alert destinations, use the ipmitool lan alert print command.root@dellemc-diag-os:~# ipmitool lan alert printAlert Destination : 0Alert Acknowledge : UnacknowledgedDestination Type : PET TrapRetry Interval : 0Number of Retries : 0Alert Gateway : DefaultAlert IP Address : 0.0.0.0Alert MAC Address : 00:00:00:00:00:00Alert Destination : 1Alert Acknowledge : UnacknowledgedDestination Type : PET TrapRetry Interval : 0Number of Retries : 0Alert Gateway : DefaultAlert IP Address : 0.0.0.0Alert MAC Address : 00:00:00:00:00:00Alert Destination : 2Alert Acknowledge : UnacknowledgedDestination Type : PET TrapRetry Interval : 0Number of Retries : 0Alert Gateway : DefaultAlert IP Address : 0.0.0.0Alert MAC Address : 00:00:00:00:00:00...Alert Destination : 15Alert Acknowledge : UnacknowledgedDestination Type : PET TrapRetry Interval : 0Number of Retries : 0Alert Gateway : DefaultAlert IP Address : 0.0.0.0Alert MAC Address : 00:00:00:00:00:00You can configure up to 15 destinations. To configure destination 1 to send an alert to a machine with IP address 10.11.227.180:root@dellemc-diag-os:~# ipmitool lan alert set 1 1 ipaddr 10.11.227.105Setting LAN Alert 1 IP Address to 10.11.227.105The following output using the ipmitool lan alert print command shows the configuration was successful:root@dellemc-diag-os:~# ipmitool lan alert print 1 1Alert Destination : 1Alert Acknowledge : UnacknowledgedDestination Type : PET TrapRetry Interval : 0Number of Retries : 0Alert Gateway : DefaultAlert IP Address : 10.11.227.105Alert MAC Address : 00:00:00:00:00:00Alert policy setupTo setup the alert policy, you must use the ipmitool raw command.To view the current policy table, use the ipmitool pef policy list command.root@dellemc-diag-os:~# ipmitool pef policy list1 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 02 | 2 | enabled | Match-always | 1 | 802.3 LAN | PET | AMI | 0 | 0 | 10.11.227.105 | 00:00:00:00:00:003 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 04 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 05 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 06 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 07 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 08 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 09 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 010 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 0...57 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 058 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 059 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 060 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 0There are 60 entries available for a policy table. The following example shows setting a policy entry. For a detailed description of the table entries, see the IPMI Specification v2.0Alert policy table entry.root@dellemc-diag-os:~# ipmitool raw 0x4 0x12 0x9 0x2 0x28 0x11 0x00root@dellemc-diag-os:~# ipmitool pef policy list1 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 02 | 2 | enabled | Match-always | 1 | 802.3 LAN | PET | AMI | 0 | 0 | 10.11.227.105 | 00:00:00:00:00:003 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 04 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 05 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 06 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 07 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 08 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 09 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 010 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 0...57 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 058 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 059 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 060 | 0 | disabled | Match-always | 0 | IPMB (I2C) | 0Add and delete usersThe following describes adding and deleting users:There are 10 entries for a user list.1.Add a new user by modifying one of the empty entries in the user list using the following:$ ./ipmitool -H xx.xx.xxx.xx -I lanplus -U admin -P admin user set name 3 <name>$ ./ipmitool -H xx.xx.xxx.xx -I lanplus -U admin -P admin user set password 3Password for user 3:Password for user 3:Set User Password command successful (user 3)Step 1 creates a user with no access.2.Set the privilege level for the user in Step 1 using the following:$ ./ipmitool -H xx.xx.xxx.xx -I lanplus -U admin -P admin user priv 3User Commands:summary [<channel number>]list [<channel number>]set name <user id> <username>set password <user id> [<password> <16|20>]disable <user id>enable <user id>priv <user id> <privilege level> [<channel number>]Privilege levels:* 0x1 - Callback* 0x2 - User* 0x3 - Operator* 0x4 - Administrator* 0x5 - OEM Proprietary* 0xF - No Accesstest <user id> <16|20> [<password]>$ ./ipmitool -H xx.xx.xxx.xx -I lanplus -U admin -P admin user priv 3 2Set Privilege Level command successful (user 3)$ ./ipmitool -H xx.xx.xxx.xx -I lanplus -U admin -P admin user listID Name Callin Link Auth IPMI Msg Channel Priv Limit1 false false true ADMINISTRATOR2 admin true true true ADMINISTRATOR3 <name> true true true USER4 true false false NO ACCESS5 true false false NO ACCESS6 true false false NO ACCESS7 true false false NO ACCESS8 true false false NO ACCESS9 true false false NO ACCESS10 true false false NO ACCESSYou can individually enable channels for a certain privilege level access. For example, to place the LAN channel accessible for "USER" level access, use the following:$ ./ipmitool -H xx.xx.xxx.xxx -I lanplus -U admin -P admin channel setaccess 1 3 callin=off link=off ipmi=on privilege=1Set User Access (channel 1 id 3) successful.$ ./ipmitool -H xx.xx.xxx.xxx -I lanplus -L USER -U <name> -P <name> fruGet Device ID command failed: 0xd4 Insufficient privilege levelFRU Device Description : Builtin FRU Device (ID 0)Get Device ID command failed: Insufficient privilege level$ ./ipmitool -H xx.xx.xxx.xxx -I lanplus -U admin -P admin channel setaccess 1 3 callin=off link=off ipmi=on privilege=2Set User Access (channel 1 id 3) successful.$ ./ipmitool -H xx.xx.xxx.xx -I lanplus -L USER -U <name> -P <name> fruFRU Device Description : Builtin FRU Device (ID 0)Board Mfg Date : Mon Feb 12 08:00:00 2018Board Mfg : DellBoard Product : <platform>Board Serial : CNCES0082C0002Board Part Number : 0G1T60X01Product Manufacturer : DellProduct Name : <platform>Product Version : 00Product Serial : X1。

DS2100系列说明书DS2100系列DVB误码率场强仪使用说明书Ver 1.0天津市德力电子仪器有限公司天津市德力电子仪器有限公司制造地址：中国天津市南开区宜宾道40号(300113) 服务电话：(022)27631088 27631288传真：(022)27645002电子邮件：deviser@公司主页：这台仪器售出后保修18个月，生产商或代理商负责必要的调校或检验工作，仪器经校准检验合格后才装箱，发还给用户。

用户的职责是：按照说明书来使用这台仪器，假如要维修，就把它送往本公司或指定代理维修站。

一般说来于保修期内，一切非人为使用不当的故障，当由德力公司免费维修。

用户需支付将产品退回至维修部门的运费和保险费，而将维修好的产品交付给用户的费用则由德力公司或指定代理维修站支付。

本公司为本产品设计的软件和硬件正确安装到仪器上后，仪器将执行它的编程指令。

但本公司不保证仪器的各种操作不间断或不出现错误信息。

保修只限于仪器，并不涉及使用不当而导致其它设备、人命及财产的损失。

- 1 -对于不正确的使用或不充分的维护（包括用户附加的软件或接口），及用户自行拆机，本公司将不予保修。

在18个月保修期内，校验、维修服务、咨询是免费的，18个月后将收取适当的材料及维修服务费。

下列各项不属保修范围：①随机赠送的电池及充电器。

②由于机械外力（撞击、跌落等）造成面板、开关、装置及机壳的变形损坏并涉及到内部器件的故障。

③擅自拆开仪器试图修理的。

④装运时的损毁（在仪器包装发运给用户时，已由发货人购买了运输保险）。

用户提货时，应当场查验，如遇仪器损毁,请向货运公司或部门交涉。

只有收货人（接收仪器的个人与单位）才有权就运输损毁向承运者提出赔偿要求。

- 2 -请小心开箱，并注意将全部附件放在一个地方，以防遗失。

我们建议最好保存原包装箱和包装材料，以备将来搬运时使用。

注意只有经过维修培训的人员才能维护本仪器。

为了避免损坏，未经过培训人员不应进行仪器的维护修理。