Anritsu 8820使用说明 - b

UTS1000B/T系列频谱分析仪用户手册REV12023.10尊敬的用户：您好！感谢您选购全新的优利德仪器，为了正确使用本仪器，请您在本仪器使用之前仔细阅读本使用手册全文，特别有关“安全注意事项”的部分。

如果您已经阅读完本使用手册全文，建议您将此使用手册进行妥善的保管，与仪器一同放置或者放在您随时可以查阅的地方，以便在将来的使用过程中进行查阅。

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BlackBerry8820中⽂说明书⼊门指南SWD-351971-0422042759-011 | RBG41GW内容欢迎使⽤ BlackBerry！ (3)设置您的设备 (5)插⼊ SIM 卡和电池 (5)电池充电 (6)完成设置向导 (8)了解基础 (11)在屏幕中移动 (12)打开菜单 (13)键⼊内容基础 (14)应⽤程序 (15)主屏幕状态指⽰符 (16)消息列表状态指⽰符 (17)电话状态指⽰符 (17)⽇历状态指⽰符 (17)⽆线⽹络覆盖指⽰符 (18)开始使⽤设备 (21)拨打电话 (21)发送电⼦邮件 (21)发送短信 (22)添加联系⼈ (22)访问⽹页 (23)安排约会 (23)与 Bluetooth 设备配对 (24)关于连接⾄ Wi-Fi ⽹络 (24)关于将设备与计算机配合使⽤ (25)关于切换设备 (27)使⽤ Roxio Media Manager 在设备和计算机间传输⽂件 (28)在设备和计算机之间同步数据 (28)插⼊媒体卡 (29)查找更多信息 (30)疑难解答 (31)我⽆法连接⾄⽆线⽹络 (31)我⽆法将设备与电⼦邮件地址绑定 (31)我⽆法收发消息 (32)我⽆法拨打或接听电话 (33)法律声明 (35)欢迎使⽤ BlackBerry！快来感受多功能移动解决⽅案带给您的⾃由和沟通乐趣。

BlackBerry? 设备的设置⾮常简单。

您只需要确定在设备上安装了 SIM 卡和电池，并在充电后完成设置向导即可。

在完成设置向导后，请花⼀些时间了解设备的各项功能。

为了让您能快速掌握基础知识，本指南提供了⼀些提⽰和说明。

34设置您的设备插⼊ SIM 卡和电池SIM 卡是⼀张长⽅形的⼩塑料卡，能够存储有关⽆线服务的重要信息。

您的BlackBerry? 设备中有可能已经安装 SIM 卡。

1.按电池盖开启钮。

2.滑下电池盖。

3.如果已经安装电池，请卸下电池。

4.如果已经插⼊ SIM 卡，请继续第 8 步。

MT8820A综测仪操作说明书一、面板按键说明Preset：开始初始化Remote：当8820A工作在微操作模式下时，灯亮Local：在微操作模式与局部模式之间切换Copy：拷贝当前屏幕Power：电源开关U1-----U7：功能键，一般用于选择在显示器左边出现的选项进行选择。

Memory card：存储卡Handset1/2：在电话1或者是2上听筒连接器用于语音连接测试，当电话测试软件安装完毕后进行。

F1-----F7：功能键。

执行功能菜单的选项和在屏幕右边显示的相关选项。

Nex：选择菜单下页。

:Functions：所有的功能键。

按此键用表列出Screen：选择一个屏幕Shift +Screen：当电话测试软件安装后，这个键可以在对电话1和对电话2的两个模式之间进行切换Focus：针对选择不同的窗口View：打开或者关闭一个窗口Scroll up：向上打开一个窗口Scroll down：向下打开一个窗口Single：以单一模式开始测试Continuous：以连续模式开始测试Stop：停止测试Channel：设置输入频道Input Freq：设置输入频率Shift + Input Freq：设置输出频率Output Level：设置输出水平Input Level：设置输入水平Start Call：从MT8820A发起一个呼叫给手机End Call：与电话释放连接Recall：开始读参数文件Shift + Recall：开始参数文件保存Std：开始修改系统Config：打开配置菜单∧∨< >：移动指针或者改变参数值Encoder：移动指针或者改变参数值，按此键可以输入一个参数值Set：输入一个确定的参数Cancel：取消输入或修改Shift：复合键BS：改变参数时，可以用来删除一个字符数字区：输入数字，A---F用来输入十六进制数值。

二、平面设置简介1．日期/时间这里主要显示日期和时间，或者是拥护输入的一些设置修改。

1of 49MT8820A-E-H-1-(2.00)MT8820C LTE 操作简介v2.0@胡浩2012.03减小当前激活屏幕切换激活的屏幕图形显示测试结果Single: 单次测试Continue: 连续测试输出功率期望输入功率2切换到WCDMA/GSM用于phone-1N port: input/output 用于phone-2插入CF卡，用于储存log和拷屏图片。

3GPIB分别用于phone1和phone2LAN可用于安装firmware452. rotary control 67Fundamental Measurement Result WindowParameter WindowUE Report Window Focus keyFocus keyFocus key8设置线损，注意设为on才生效91011按single键测量12按single键测量13插入Anritsu提供的USIM到UE，UE开机，到状态为connected 141516Power (Test Point2) 1718插入Anritsu提供的USIM到UE，UE开机，到状态为connected 插入Anritsu提供的USIM到UE，UE开机，到状态为connected 19插入Anritsu提供的USIM到UE，UE开机，到状态为connected 202122插入Anritsu提供的USIM到UE，UE开机，到状态为connected 23插入Anritsu提供的USIM到UE，UE开机，到状态为connected 24插入Anritsu提供的USIM到UE，UE开机，到状态为connected 25插入Anritsu提供的USIM到UE，UE开机，到状态为connected 26插入Anritsu提供的USIM到UE，UE开机，到状态为connected 27插入Anritsu提供的USIM到UE，UE开机，到状态为connected 282930插入Anritsu提供的USIM到UE，UE开机，到状态为connected 31插入Anritsu提供的USIM到UE，UE开机，到状态为connected 3233343536下面的设置会影响throughput: number of RB, MCS index 设置throughput测试项目为on37383940首先确定option中包含IP data transfer功能,请参考前面查看system information的描述414243444546插入Anritsu提供的USIM到UE，UE开机，当状态为connected 47484950。

AnritsuMS2711B手持式频谱分析仪用户指南用于测量，监视和分析信号环境的手持式频谱分析仪担保安立公司的产品从发货之日起，对于材料和制造工艺的缺陷承担一年的担保。

在担保期内，对于确证有缺陷的产品，安立公司将予以修理或更换，买方预付设备返回安立公司的运输费用。

此担保只限于直接买方，对于间接损坏安立公司不承担责任。

担保限制上述担保不包括由于正常磨损损坏的连接器，以及买方不适当或不应该的维修和未经许可的调整及超出产品技术条件的操作所造成的损坏。

商标认证MS-DOS，Windows，Windows for Workgroups，Windows95/98/NT4/2000/ME/XP是微软公司的注册商标。

Anritsu是安立公司的注册商标。

注意这本手册供安立公司人员和用户使用，用于安立公司的设备、计算机程序的正确安装、操作和维护。

其中的图表、技术指标和信息属于安立公司所有，禁止任何未经授权的使用或盗用；更新如果需要更新本手册，请从下载。

目录第1章概述前言………………………………………………………………………………………………………. 1-1 说明………………………………………………………………………………………………………. 1-1 标准附件…………………………………………………………………………………………………..1-1 选件………………………………………………………………………………………………………..1-2 打印机……………………………………………………………………………………………………..1-2 可选附件…………………………………………………………………………………………………..1-3 性能说明…………………………………………………………………………………………………..1-5 预防性维修………………………………………………………………………………………………..1-8 校准………………………………………………………………………………………………………..1-8 周检………………………………………………………………………………………………………..1-8 ESD警告…………………………………………………………………………………………………..1-8 安立公司服务中心………………………………………………………………………………………...1-9第2章快速入门指南前言………………………………………………………………………………………………………. 2-1 第一次打开MS2711B…………………………………………………………………………………….2-1 前面板介绍………………………………………………………………………………………………..2-2 显示介绍…………………………………………………………………………………………………..2-3 测试面板连接器…………………………………………………………………………………………..2-8 用频谱分析仪测量………………………………………………………………………………………..2-9 做基本测量………………………………………………………………………………………………..2-15 例子：测量一个900MHz的信号………………………………………………………………………..2-15 打印………………………………………………………………………………………………………..2-20 电池信息…………………………………………………………………………………………………..2-22 新电池充电………………………………………………………………………………………………..2-22 在HHSA中充电…………………………………………………………………………………………..2-22 在可选充电器中充电……………………………………………………………………………………..2-22 确定剩余电池的寿命……………………………………………………………………………………..2-23 符号………………………………………………………………………………………………………..2-26 自检………………………………………………………………………………………………………..2-27 错误信息…………………………………………………………………………………………………..2-27 便携式仪器箱的使用……………………………………………………………………………………..2-29第3章键盘功能前言………………………………………………………………………………………………………. 3-1 硬按键……………………………………………………………………………………………………..3-1 软按键……………………………………………………………………………………………………..3-4前言………………………………………………………………………………………………………. 4-1基本测量…………………………………………………………………………………………………..4-1第5章电场测量前言………………………………………………………………………………………………………. .5-1占有的带宽…………………………………………………………………………………………………5-1 通道功率测量………………………………………………………………………………………………5-3 CDMA通道功率测量………………………………………………………………………………………5-3 GSM通道功率测量…………………………………………………………………………………………5-5 AMPS通道功率测量……………………………………………………………………………….……....5-7 相邻通道功率比…………………………………………………………………………………………….5-9 相邻通道功率测量……………………………………………………………………………….…………5-9 GSM相邻通道功率测量…………………………………………………………………………………...5-11 AMPS（TDMA）相邻通道功率测量……………………………………………………………………..5-13 带外谐波发射……………………………………………………………………………………………….5-14 带外谐波发射测量………………………………………………………………………………………….5-14 带内/通道外测量……………………………………………………………………………………………5-16 带内谐波测量……………………………………………………………………………………………….5-16 电场强度…………………………………………………………………………………………………….5-18 用功率监视器测量功率（选件5）………………………………………………………………………..5-20 动态衰减控制………………………………………………………………………………………………..5-22第6章预放前言…………………………………………………………………………………………………………. 6-1 预放的操作…………………………………………………………………………………………………..6-1 使用预放测量的实例………………………………………………………………………………………..6-2第7章跟踪信号发生器前言…………………………………………………………………………………………………………. 7-1 跟踪信号发生器……………………………………………………………………………………………. 7-1第8章软件工具前言…………………………………………………………………………………………………………. 8-1 性能………………………………………………………………………………………………………. …8-1 系统需要……………………………………………………………………………………………………..8-1 安装…………………………………………………………………………………………………………..8-1 软件工具的使用……………………………………………………………………………………………..8-3 下载线迹……………………………………………………………………………………………………..8-3索引第1章概述前言这一章主要介绍安立公司手持式频谱仪MS2711B（频率范围从100KHz到3000MHz）的性能、技术条件、选件、维修和所需的校准。

OPERATION AND MAINTENANCE MANUAL FOR SWR AUTOTESTERS AND BRIDGES1.INTRODUCTIONThis manual provides product descriptions and specifications for ANRITSU Series 59, 63, and 97SWR Autotesters and Series 58, 60, 62, and 87 SWR Bridges. It also includes procedures for measuring the directivity of these components.2.GENERAL DESCRIPTIONThe SWR Autotesters and bridges (Figure 1) are broadband microwave measurement instruments.They are used with other test instruments for mak-ing fixed- and swept-frequency return loss (SWR)measurements over a wide range of radio frequen-cies. Return loss measurements are made to check the performance of systems, subsystems, and micro-wave components such as amplifiers, directional couplers, attenuators, filters, splitters, and termina-tions.The ANRITSU SWR Autotesters and bridges are precision-balanced Wheatstone bridges. Except for the two 4-port comparison-type instruments (Models 59A50 and 58A50) that use an offset termination in the reference arm, every model has an internal pre-cision reference termination included in one arm of its bridge. The major difference between the SWR Autotester and the SWR bridge is that the SWR Autotester contains a built-in RF detector. 3.PERFORMANCE SPECIFICATIONSPerformance specifications for SWR Autotesters are listed in Table 1; specifications for SWR bridges are listed in Table 2.490 JARVIS DRIVE q MORGAN HILL, CA 95037-2809P/N: 10100-00008REVISION : NPRINTED: OCTOBER 1997COPYRIGHT 1983 ANRITSU CO.NOTE: ANRITSU Company was formerly known as WILTRON Company.Figure 1.Typical ANRITSU SWR Autotester and SWR Bridge1981ModelsDirectivity(dB)AccuracyInput Z (ohms)Test Port ConnectorPhysical59 Series Comparison SWR Autotester , 10 MHz to 18 GHz59A50360.01–8 GHz: 0.016 ±0.06ρ28–18 GHz: 0.016 ±0.1ρ250GPC–7Dimensions:7.6 x 5.1 x 2.8 cm (3 x 2 x 1 1⁄8 in.) plus connectorsWeight: 340 g (12 oz)63 Series SWR Autotesters, 10 MHz to 4 GHz63A50400.01 ±0.06ρ250GPC7Dimensions:6.7 x 5.1 x 2.54 cm (2 5⁄8 x 2 x 1 in.) plus connectorsWeight: 340 g (12 oz)63N50Type N Male 63NF50Type N Female97 Series SWR Autotesters , 10 MHz to 18GHz0.01–8 GHz 8–18 GHz50GPC–797A50360.016 ±0.06ρ2 0.016 ±0.1ρ2Dimensions:7.6 x 5.1 x 2.8 cm (3 x 2 x 1 1⁄8 in.) plus connectorsWeight: 340 g (12 oz)97A50-1400.01 ±0.06ρ20.01±0.1ρ297S50350.018 ±0.08ρ20.018±0.12ρ2WSMA Male97SF50WSMA Female 97S50-1380.013 ±0.08ρ20.013±0.12ρ2WSMA Male 97SF50-1WSMA Female 97N50350.018 ±0.08ρ20.018±0.12ρ2Type N Male 97NF50Type N Female 97N50-1380.013 ±0.08ρ20.013±0.12ρ2Type N Male 97NF50-1Type N FemaleAll ModelsInsertion Loss (from input to test port): 6.5 dB nominal Detector Output Polarity: Negative Output Time Constant: 2 µsMaximum Power Input: 0.5 watts (+27 dBm)Input Connector: Type N FemaleDetector Output Connector: BNC FemaleWhere ρ is the reflection coefficient being measured. Accuracy includes the effects of test port reflections and directivity.When used with 28A50-1 Precision Termination. The effective directivity of the SWR Autotester can be increased to 60 dB by using the Ripple Extraction return loss measurement technique with the 18A50 Air Line and 29A50-20 Offset Termination. See paragraph 4 for explanation of accuracy and other terms.46 dB directivity available as Option 1. Option 1 accuracy: 0.005 ±0.06ρ2.Table 1.SWR Autotester Performance Specifications2SWR OMMModels Directivity(dB)AccuracyInput Z(ohms)Test PortConnectorPhysical58 Series Comparison SWR Bridge, 2 to 18 GHz58A50352–3 GHz: 0.018 ±0.32ρ23–4 GHz: 0.018 ±0.2ρ24–18 GHz: 0.018 ±0.13ρ250GPC–7Dimensions:6.7 x 5.1 x 2.2 cm(2 5⁄8 x 2 x 7⁄8 in.) plus connectorsWeight:340 g (12 Oz)60 Series SWR Bridges, 5 MHz to 2 GHz60A5040 0.01 ±0.09ρ250GPC–7Dimensions:6.7 x 5.1 x 2.54 cm(2 5⁄8 x 2 x 1 in.) plus connectorsWeight:340 g (12 oz)60N50Type N Male 60NF50Type N Female62 Series SWR Bridges, 10 MHz to 1GHz62N75400.01 ±0.12ρ2 75Type N Male Dimensions:6.7 x 5.1 x 2.54 cm(2 5⁄8 x 2 x 1 in.) plus connectorsWeight:170 g (6 Oz)62NF7575Type N Female 62B7575BNC Male 62BF7575BNC Female87 Series SWR Bridges,2 to 18 GHz87A50352–3 GHz: 0.018 ±0.32ρ23–4 GHz: 0.018 ±0.2ρ24–18 GHz: 0.018 ±0.13ρ250GPC–7Dimensions:7.3 x 5.1 x 2.86 cm(2 5⁄8 x 2 x 1 1⁄8 in.) plus connectorsWeight:340 g (12 Oz)87A50-1382–3 GHz: 0.013 ±0.32ρ2 3–4 GHz: 0.013 ±0.2ρ2 4–18 GHz: 0.013 ±0.13ρ2All ModelsInsertion Loss (from input to test port): 6.5 dB nominalMaximum Power Input: 0.5 watts (+27 dBm)Input Connector: Type N Female, stainless steel, except 67B and 67F Series that have BNC FemaleWhere ρ is the reflection coefficient being measured. Accuracy includes the effects of test port reflections and directivity.When used with 28A50-1 Precision Termination. The effective directivity of the bridge can be increased to 60 dB by using the Ripple Extraction return loss measurement technique with the 18A50 Air Line and 29A50-20 Offset Termination.See paragraph 4 for explanation of accuracy and other terms.46 dB directivity available as Option 1. Option 1 accuracy: 0.005 ±0.09ρ2 .75Ω Type N Female connectors will withstand occasional mating with 50Ω connectors without damage.Table 2.SWR Bridge Performance SpecificationsSWR OMM34.EXPLANATION OF SWRAUTOTESTER AND BRIDGESPECIFICATIONSCertain key specification terms are explained below.a.Accuracy. This three-element term definesthe accuracy with which an SWR Autotester or bridge can make a reflected signal measure-ment. The three elements (0.01 ±0.06 ρ2) are described below.1st Element: (0.01) is the directivity of the SWR Autotester or bridge expressed as a reflection coefficient (40 dB for this example, see Table 6).2nd and 3rd Elements:±0.06ρ2 is the deprecia-tion in accuracy due to test port mismatch (im-pedance discontinuity). Element 2 (0.06) is the inherent test port mismatch expressed as a re-flection coefficient. The 3rd element, rho (ρ), is the reflection coefficient of the device under test (DUT). The entire expression describes the measurement uncertainty caused by the re-flected signal being re-reflected by the test port mismatch.b.Directivity. A figure of merit expressed in dB.This figure represents the ratio of the power levels as seen at the output port when (1) the test port signal is fully reflected, and (2) the test port is perfectly terminated.c.Frequency Sensitivity. The maximum varia-tion in output power/voltage that can be ex-pected due to a change in frequency over the specified range when the input power is held constantd.Output Time Constant.The amount of timerequired for the selected output pulse to either rise from the 10% to the 90% point or fall from the 90% to the 10% point on the waveform.5.PRECAUTIONSThe SWR Autotesters and bridges are high-quality, precision laboratory instruments and should receive the same care and respect afforded such instru-ments. Complying with the following precautions will guarantee longer component life and less equip-ment downtime due to connector failure. Also, such compliance will ensure that SWR Autotester or bridge failures are not due to misuse or abuse—two failure modes not covered under the ANRITSU war-ranty. a.Beware of Destructive Pin Depth on MatingConnectors. Before mating, measure the pin depth (Figure 2) of the device that will mate with the SWR Autotester or bridge, using a ANRITSU Pin Depth Gauge (Figure 3) or equivalent. Based on SWR Autotesters and bridges returned for repair, destructive pin depth of mating connec-tors is the major cause of failure in the field. (A destructive pin depth has a center pin that is too long in respect to the connector’s reference plane.) When the SWR Autotester or bridge is mated with a connector having a destructive pin depth, damage will likely occur to the SWR Autotester or bridge.The center pin of SWR Autotester or bridge con-nectors has a precision tolerance measured in mils (1/1000 inch). Connectors on test devices that mate with SWR Autotesters and bridges may not be precision types and may not have the proper depth. They must be measured before mating to ensure suitability. When gauging pin depth, if the SWR Autotester or bridge connector measures out of tolerance (Table 3) in the “+”Figure 2.N Connector Pin Depth DefinitionFigure 3.Pin Depth Gauge4SWR OMMregion of the gauge (Figure 3), the center pin istoo long. Mating under this condition will likely damage the SWR Autotester or bridge connector.On the other hand, if the test device connector measures out of tolerance in the “–” region, the center pin is too short. While this will not cause any damage, it will result in a poor connection and a consequent degradation in performance.b.Avoid Over Torquing Connectors. Overtorquing connectors is destructive; it may dam-age the connector center pin. Finger-tight is usu-ally sufficient, especially on Type N connectors.Should it be necessary to use a wrench to tighten SMA or WSMA connectors, use a torque wrench that breaks at 5 inch-pounds. As a general rule, never use pliers to tighten connectors.c.Do Not Disturb Teflon Tuning Washers OnConnector Center Pins. The center conduc-tor on many SWR Autotester or bridge connec-tors contains a small teflon tuning washer lo-cated near the point of mating (interface) (Figure4). This washer compensates for minor imped-ance discontinuities at the interface. The washer’s location is critical to the SWR Autotester or bridge’s performance. Do not dis-turb it.Table 3. Pin-Depth Tolerance, SWR Autotesters and BridgesThe teflon washer is shown on a GPC-7 connec-tor. A similar washer may be installed on anyANRITSU precision connectors.Figure 4.Tuning Washer on GPC-7 ConnectorSWR OMM5d.Avoid Mechanical Shock. SWR Autotestersand bridges are designed to withstand years of normal bench handling. However, do not drop or otherwise treat them roughly. They are labora-tory-quality devices, and like other such devices, they require careful handling.e.Keep SWR Autotester or Bridge ConnectorsClean. The precise geometry that makes the SWR Autotester’s or bridge’s high performance possible can be disturbed by dirt and other con-taminants adhering to connector interfaces.When not in use, keep the SWR Autotester or bridge connectors covered. Refer to paragraph 8 for cleaning instructions.6.PERFORMANCE VERIFICATION Performance verification consists of measuring the directivity of the SWR Autotester or bridge and measuring connector pin depth.7.DIRECTIVITY MEASUREMENTS. Directivity measurements are frequency limited. For frequencies 2 GHz and above an air line technique is used to obtain a precise measurement; below 2 GHz where an air line is not effective, a go-no go test must be used.Table 4 lists recommended test equipment for per-forming these measurements. Measurement proce-dures are given below.Measuring the directivity of 97S50 and 97SF50 SWR Autotesters at 2 GHz and above requires use of a 19SF50 or 19S50 Air Line. The WSMA connectors on these components are designed to mate with SMA connectors. When mating two WSMA connectors, compensation washers are required. The only excep-tions are the WSMA Open/Short and the sweep gen-erator RF OUTPUT connector, which have been op-timized for use with WSMA. An envelope containing six or more of these washers is packaged with each air line. Figure 9, beginning on page 12, provides a procedure for installing these washers.Instrument Required Characteristics Recommended Model and ManfacturerScalar Network Analyzer System Sweep GeneratorLeveled Output: ±1.0 dBFrequency Range: 2 – 18 GHzScalar Network AnalyzerVertical Sensitivity: 0.5 dB/Div.Variable Offset Control ANRITSU 562 SNA and 68147B Synthesized Sweep Generator, with 560-10BX CableORANRITSU 5447A Scalar Measurement SystemAir Line SWR: 1.002 (GPC-7 Connector)SWR: 1.006 (Type N/NFConnector)SWR: 1.006 (WSMA Connector)ANRITSU 18 Series ANRITSU 19 SeriesTermination20 dB Offset ANRITSU 29 SeriesPrecision Termination50 ±0.5 OhmsGPC-7 Test Port ConnectorType N Test Port ConnectorWSMA Female Test PortConnectorWSMA Male Test Port Connector75 ±0.5 OhmsType N Test Port ConnectorBNC Test Port Connector ANRITSU: 28A50-1 26N5028S5028SF50 ANRITSU: 26N7526B75Table 4.Recommended Test Equipment6SWR OMMa.Measuring Directivity At 2 GHz and Above.1.Connect test setup as shown in Figure 5.2.Press LINE key on signal source to OPERATE.3.Press POWER key on network analyzer to ON.4.Press SYSTEM key on signal source, then se-lect the Reset softkey, from the displayedmenu.5.Set signal source for frequency range of de-vice-under-test (DUT) and for maximum pos-sible power, as described below.(a)Press CW/SWEEP SELECT key.(b)Select the Analog softkey from the dis-played menu.(c)Select the Edit F1 softkey from the dis-played menu.(d)Using the Cursor Control Key or RotaryData Knob, edit the F1 parameter toequal the low-end frequency of the SWRAutotester or Bridge under test.(e)Select the Edit F2 softkey and repeat step(d) for the high-end frequency.(f)Select the Edit L1 softkey, and repeatstep (d) to display the source’s maximumpower level value.6.Press SYSTEM FUNCTION MENU key on net-work analyzer.ing MENU up-down keys: Highlight RE-SET, then press SELECT key.8.Press CHANNEL 2 key to OFF.9.Press GRATICULE ON/OFF key to ON.10.Press CHANNEL 1 MENU key.ing MENU up-down keys: Highlight RE-TURN LOSS, then press SELECT key.12.Press CALIBRATION key.ing MENU up-down keys: Highlight STARTCAL then press SELECT key.14.Connect SWR Autotester to INPUT A, if youhave not done so yet.15.Connect beadless end of air line to test port onSWR Autotester, paying careful attention to making a good connection. The displays shown in Figure 6 indicate good and bad con-nections.16.Connect OPEN to air line and press SELECTkey.17.Connect SHORT to air line and press SELECTkey.18.Connect 20 dB Offset to air line and pressSELECT key.19.Press CHANNEL 1 MENU key.ing MENU up-down keys: Highlight REFLINE, then press SELECT key.ing DATA ENTRY knob, set reference lineto 4th graticule line from top (Figure 7).22.Press CHANNEL 1 AUTOSCALE key.23.Press CHANNEL 1 OFFSET/RESOLUTIONkey.Figure 7.Reference Line PositionFigure 6.Examples of Good and Bad Air Line Connections8SWR OMMing MENU up-down keys: HighlightOFFSET dB, then press SELECT key.ing DATA ENTRY/CURSOR knob, align theChannel 1 signal with the reference line (Fig-ure 8).ing MENU up-down keys: Highlight RESO-LUTION dB/DIV, then press SELECT key. 27.Read OFFSET value from top of display.This is the value of the 20 dB Offset.28.Observing the displayed ripple pattern, selectthe ripple with the greatest amplitude and position its average point (see NOTE) on the reference line.NOTEThe average point is approximatelyhalfway between the peak andtrough values for ripples 3 dB orless. For ripples greater than 3 dB,refer to Table 6.29.Measure the peak-to-peak value of the se-lected ripple.30.In the “REF ±X, Peak to Peak Ripple, dB”column of Table 6, find the value nearest tothe peak-to-peak signal value measured instep 29.31.Read the coordinate value from the “X dBBelow Reference” column.32.Add the dB value from step 30 to the valueread in step 31. The sum is the worst-casedirectivity of the SWR Autotester or bridge. Itshould equal or exceed the specification inTable 1 or 2.b.Directivity Measurements Below 2 GHz.1.Set up equipment as shown in Figure 5.2.Perform steps 2 thru 13 of subparagraph a.3.Connect termination to test port of SWRAutotester or bridge being measured*.4.Press CHANNEL 1 MENU key.ing MENU up-down keys: Highlight REFLINE, then press SELECT key.ing DATA ENTRY knob, set reference lineto midscale.7.Press CHANNEL 1 OFFSET/RESOLUTIONkey.ing MENU up-down keys: Highlight OFF-SET dB, then press SELECT key.ing DATA ENTRY knob, set OFFSET dB forthe directivity value of the SWR Autotester orbridge being measured.ing MENU up-down keys: Highlight RESO-LUTION dB/DIV, then press SELECT key. ing DATA ENTRY knob, set RESOLUTIONdB/DIV for a convenient value.12.Observe analyzer display. If measured direc-tivity signal is below the reference line, thenthe directivity is within the specified value.Figure 8.Signal Aligned With the Reference Line*The return loss of the termination must be higher than thedirectivity of the SWR Autotester or bridge being measured.The ANRITSU terminations recommended in Table 4 meetthis requirement.SWR OMM9c.Pin Depth Measurements.Gauging sets for measuring terminations are avail-able from ANRITSU. Table 5 provides a listing that correlates each SWR Autotester and bridge type with its appropriate gauging set. Instructions for gauging air line connectors are provided with gaug-ing set.8.MAINTENANCEANRITSU recommends that no maintenance other than cleaning be attempted by customer. The SWR Autotester or bridge should be returned to AN-RITSU for repair and/or service when needed. Clean connector interfaces with clean cotton swab dampened with alcohol.CAUTIONExcessive pressure when cleaning can damage the center conductor support bead in the SWR Autotester or Bridge. Ensure that the cotton swab is small enough to fit into the connector with-out applying pressure to the center conductor. When cleaning, limit the pressure so as to lightly contact the connector. To obtain cotton swabs that are smaller than the standard type available in most retail outlets, try contacting a medical-lab-type supply center.CAUTIONIf installed, do not disturb the teflonwasher on the center conductor (refer toparagraph 5c).Model Connector TypeGauging SetModel60A50, 58A50,87A50, 87A50-163A50, 59A50,97A50, 97A50-1GPC–701-16160N50, 62N75,63N50, 97N50,97N50-1N Male01-163 60NF50, 62NF75,63NF50, 97NF50,97NF50-1N Female97S50, 97S50-1WSMA Male01-162 97SF50, 97SF50-1WSMA FemaleTable 5.Available Gauging Sets10SWR OMMTable 6.Microwave MeasurementStep1.Separate a single WSMA connectorcompensation washer and trimaway the interconnecting tabs.Step 2.Connect the 560-98SF50 SWRAutotester input port to the signalsource RF output port, and looselytighten connector. Orient theWSMA female connector (test port)up.Step 3.Insert the compensation washerinto the opening of the WSMA fe-male connector, as shown.Step 4.Connect beaded end of the air lineper application. Tilt the air linehorizontally. At unbeaded end, cen-ter the inner conductor with the cen-ter of the connector opening.Figure 9.Example for Using Compensation Washer with WSMA Connectors (1 of 2)Step 5.Loosen the SWR Autotester inputport connector and rotate unit hori-zontally, as shown at left. Align un-beaded end of Air Line with testport connector and carefully mateconnectors. Tighten all connectorscarefully.NOTEFor a 560-98S50 SWR Autotester (maleWSMA test port) in combination with a19SF50 Air Line, insert the compensationwasher into the female WSMA connector ofthe air line (beaded end).Figure 9.Example for Using Compensation Washer with WSMA Connectors (2 of 2)WARRANTYThe ANRITSU product(s) listed on the title page is (are) warranted against defects in materials and workmanship for one year from the date of shipment.ANRITSU’s obligation covers repairing or replacing products which prove to be defective during the warranty period. Buyers shall prepay transportation charges for equipment returned to ANRITSU for warranty repairs. Obligation is limited to the original purchaser. ANRITSU is not liable for consequential damages.LIMITATION OF WARRANTYThe foregoing warranty does not apply to ANRITSU connectors that have failed due to normal wear. Also, the warranty does not apply to defects resulting from improper or inadequate maintenance by the Buyer, unauthorized modification or misuse, or operation outside of the environmental specifications of the product. No other warranty is expressed or implied, and the remedies provided herein are the Buyer’s sole and exclusive remedies.TRADEMARK ACKNOWLEDGEMENTSV Connector and K Connector are registered trademarks of ANRITSU Company.GPC-7 is a registered trademark of Amphenol Corporation.NOTICEANRITSU Company has prepared this manual for use by ANRITSU Company personnel and customers as a guide for the proper installation, operation and maintenance of AN-RITSU Company equipment and computer programs. The drawings, specifications, and information contained herein are the property of ANRITSU Company, and any unauthor-ized use or disclosure of these drawings, specifications, and information is prohibited; they shall not be reproduced, copied, or used in whole or in part as the basis for manufacture or sale of the equipment or software programs without the prior written consent of ANRITSU Company.。