IC-756PROⅢ中文操作说明

产品使用说明书安装、使用产品前，应阅读使用说明开始使用前，建议您通过如下途径了解本设备更详细信息及相关服务条款：•查阅包装盒内的产品使用说明书。

拨打客服热线：中国电信：10000400-800-5858（中国电信委托锐迪科负责整机售后工作）获取更多信息本内容仅供参考，不构成任何形式的承诺，设备（包括但不限于颜色、大小、屏幕显示等）请以实物为准。

1听筒4USB 接口2音量键53电源键6扬声器了解您的设备使用前请先熟悉设备的基本操作。

•开机：长按电源键，直至屏幕亮起。

•关机：长按电源键，点击。

•重启：长按电源键，点击。

•强制重启：若设备出现异常锁死，可长按电源键关机，继续长按重启设备。

•本机采用导航手势进行导航控制，点击设置>智能辅助> 导航手势，可以选择不同的导航手势。

卡槽•在开机状态下请勿插拔卡。

•插卡时请注意卡的缺口方向，确保缺口处先装入卡托。

•请使用标准的Nano-SIM 卡，插入非标准卡可能导致卡托（槽）损坏或设备无法识别卡片。

•如果您使用的SIM 卡与设备不匹配，请联系运营商处理。

•使用取卡顶针时，请注意安全，防止戳伤手指或损伤设备。

•请保管好您的取卡顶针，将其放置在儿童接触不到的地方，防止儿童无意中吞食或戳伤自己。

插卡说明隐私保护•为了解我们如何保护您的个人信息，请访问手机设置 > 关于手机 > 法律信息 > 隐私政策 （受中国电信委托，由锐迪科进行隐私政策的公示），阅读隐私政策。

•使用非授权第三方软件升级设备的固件和系统，可能存在设备无法使用或者泄漏您个人信息等安全隐患。

建议您使用在线升级或者下载与设备型号匹配的官方软件进行升级。

•设备升级后，您所有的个人信息可能会被移除，请在升级前备份个人信息。

型号核准代码的显示方式在出厂状态下，设备的型号核准代码以标贴的形式粘贴在包装盒上。

在使用和操作设备前，请查阅并遵循所有的安全信息。

若要了解更多安全信息，请查阅用户手册。

使用说明书请将本音响系统安装在通风良好、阴凉、干燥、干净的位置，远离直射阳光热源、振动、灰尘、 潮湿或寒冷。

只能使用本机指定的电压。

使用高于指定数值的电压很危险，而且可能导致火灾，损坏本机或造成人身伤害。

对于使用高于指定电压造成的任何损害，我司将不负任何责任。

不要试图自行改造或修理本机。

如果需要任何服务，请与销售或者我司客服人员联系。

不管有任何理由，都没有打开机壳的必要。

如果打算长时间不使用本机（比如度假时），请从墙壁交流电源插座上断开电源线的连接。

重要提示：本说明书所提到的产品规格和资讯仅供参考。

如有内容更新，恕不另行通知。

一、服务期限佛山双木三林科技有限公司承诺产品的良好品质，产品自售出之后7天内正常使用情况下出现故障，客户可以选择退货或者保修（不影响二次销售才可退货）。

正常使用一年内出现故障可以免费保修。

二、购买日期以销售商开出的购机发票或收据日期为准，网购可以交易截图为准。

三、有以下情况都不能享受“三包”服务1.一切人为因素损坏，包括非正常工作环境下使用或不按照说明书使用。

2.用户私自拆机、改装、维修。

3.使用非指定或许可的配件造成损坏的。

4.机身的QC或保修贴损毁。

5.不能出示有效购机凭证。

6.不属于本公司产品。

四、保修方式为送修此条款只适于中国大陆，其它地区请参考当地销售代理商的规定和国家法规。

支持MQA全解码;旗舰DAC芯片AK4499, 业界最高性能。

失真度低至惊人的0.000068%(-123dB)!在使用A计权测量时, 更是低至0.000058%(-124dB)!动态范围高达131dB!USB使用XMOS第二代16核处理器XU216, 支持到原生DSD和32位768kHz!时钟系统使用2颗美国ACCUSILICON超代相噪晶振。

使用ALTERA的高速CPLD对时钟进行处理,降低JITTER。

特别设计和强化的电源系统,提供超低噪声的电源，输出底噪低至1.5uVrms!最新蓝牙支持LDAC,APTX/HD,SBC,AAC和业界最高规格的24bit/192kHz的UAT格式!支持LVDS电平的I2S传输(使用HDMI接口),可以最低JITTER地传输数字音频!固件升级功能,用户可以自行升级系统和USB的固件。

困扰新入门业余无线电爱好者的一个主要问题是器材。

有两个途径解决这个问题，首先是自制，自制当然是最值得提倡、也是最符合火腿对技术的探求精神的。

除了本刊今年初刊登的十米活动器材文章外，网上类似这方面的资料多如牛毛，感兴趣的朋友可以看看。

例如www.try-net.or.jp/~ja6hic ，这是个日本火腿的网页，里面有许多机器的制作实例。

CRSA的会刊也有一些。

第二个途径就是选购成品机。

目前在世界火腿器材的生产基本被几家日本的公司如KENWOOD(建伍)，YAESU（八重洲），ICOM（井上）垄断，由于产量相对于家用电器的产量来说很小，而且其中的技术含量也远比一般的彩色电视机音响等家用电器要高得多，因此价格也比较贵，象ICOM IC-706MKIIG 这样的机型，价格将近一万元，有些高档机则更贵。

由于我国业余无线电活动的规模还处于起始阶段，市场还不足以引起国内市场通信机产业的兴趣，还没有到出现价廉物美的国产业余无线电设备的时间。

目前对于多数火腿而言，购买全新的进口设备还不太现实。

因此二手的火腿器材具有无可比拟的性价比，成为绝大多数火腿的选择。

这里我想重点谈谈二手机的选购。

（一）二手短波设备：如果您是个经济不太宽裕的刚入门的收听者，我建议你买如下的设备，这些都是国产退役专业接收机。

（1）退役专业接收机：是目前最容易搞到的。

a，晶体管接收机：139A/B：:频率范围1。

5-18MHz，三个波段，三连调谐，体积不大。

139B是139A的发展型，用了许多的硅管，效果比139A要好，有2个陶瓷滤波器/其中一个是窄带的，灵敏度也很好，噪声也很低。

建议把它的原配耳机换掉，用另一种带软胶皮耳罩且里面是黄色震动膜盖的军用耳机代换，音量音质都有很大的提高。

它的阻抗是600欧姆，内部结构类似于老式的舌簧喇叭，不可用一般的32欧姆的立体声耳机代用，否则易损坏机器。

这种耳机还可以代换其他的国产军用接收机的原配耳机，效果也不错，但不包括XSD-12(56)的，它的耳机阻抗是2200欧姆。

曾经对火腿器材很感兴趣，最后以买了一台7512结束，感觉火腿还是没有胆机玩起来过瘾。

下文摘自网上，供参考困扰新入门业余无线电爱好者的一个主要问题是器材。

有两个途径解决这个问题，首先是自制，自制当然是最值得提倡、也是最符合火腿对技术的探求精神的。

除了本刊今年初刊登的十米活动器材文章外，网上类似这方面的资料多如牛毛，感兴趣的朋友可以看看。

例如www.try-net.or.jp/~ja6hic，这是个日本火腿的网页，里面有许多机器的制作实例。

CRSA的会刊也有一些。

第二个途径就是选购成品机。

目前在世界火腿器材的生产基本被几家日本的公司如KENWOOD(建伍)，YAESU（八重洲），ICOM（井上）垄断，由于产量相对于家用电器的产量来说很小，而且其中的技术含量也远比一般的彩色电视机音响等家用电器要高得多，因此价格也比较贵，象ICOM IC-706MKIIG这样的机型，价格将近一万元，有些高档机则更贵。

由于我国业余无线电活动的规模还处于起始阶段，市场还不足以引起国内市场通信机产业的兴趣，还没有到出现价廉物美的国产业余无线电设备的时间。

目前对于多数火腿而言，购买全新的进口设备还不太现实。

因此二手的火腿器材具有无可比拟的性价比，成为绝大多数火腿的选择。

这里我想重点谈谈二手机的选购。

（一）二手短波设备：如果您是个经济不太宽裕的刚入门的收听者，我建议你买如下的设备，这些都是国产退役专业接收机。

（1）退役专业接收机：是目前最容易搞到的。

a，晶体管接收机：139A/B：:频率范围1。

5-18MHz，三个波段，三连调谐，体积不大。

139B是139A的发展型，用了许多的硅管，效果比139A要好，有2个陶瓷滤波器/其中一个是窄带的，灵敏度也很好，噪声也很低。

建议把它的原配耳机换掉，用另一种带软胶皮耳罩且里面是黄色震动膜盖的军用耳机代换，音量音质都有很大的提高。

它的阻抗是600欧姆，内部结构类似于老式的舌簧喇叭，不可用一般的32欧姆的立体声耳机代用，否则易损坏机器。

Icom CI-V Interface GuideFirst of all, thank you for purchasing my Icom CI-V interface cable. Hopefully, this guide will allow you to get your PC connected to your Icom Radio with the minimum of effort. Your Interface comes with a 30 Day No Questions Satisfaction Guarantee and full 12 Month warrantee against material failure.To use this cable you will need a PC with a standard RS-232 9-pin serial port and suitable control software. If your PC does not have an RS-232 port, the interface works well in conjunction with USB to RS-232 converters. I do not sell these but they are readily available from Computer outlets or Ebay.The interface connects directly between the 9-Pin RS-232 port of your PC and the 3.5mm CI-V jack of your radio. This unit is compatible with the following Icom EquipmentIC-275 ++IC-703IC-706 (all)++IC-707++IC-718++IC-725++IC-726++IC-728++IC-729 ++IC-735++IC-736++IC-737++IC-738++IC-7000IC-7400IC-746IC-746Pro IC-756++IC-756Pro IC-756ProIIIC-756ProIIIIC-761++IC-765++IC-775++IC-775 DSP++IC-78++IC-7800 IC-781++IC-820++IC-821++IC-910++IC-970++IC-R10IC-R20 *IC-R7000IC-R7100IC-R72IC-R75IC-R8500IC-R9000IC-375 ++ IC-575 ++*The interface will work with the IC-R20 if you change the 3.5mm mono jack to a 3.5mm stereo jack with the data wire to the ring rather than the tip.++ These Radios do not allow for PTT/CW control via the CI-V command set. You will need to add an additional PTT/CW cable to the interface to allow PTT function. (See Instructions later on how to do this)SoftwareThere is plenty of suitable software available on The Net, some being free and others paid for. The most popular software seems to be:•Ham Radio Deluxe Download from http://hrd.ham-radio.ch/•TRX-Manager Downloadfrom /•MixWDownloadfrom/•N1MMDownloadfrom/n1mm/Here is a simple guide to ensure you get your interface up and running 1st time.•Although the interface is designed to minimize any damage to your radio and PC and I have never had a reported problem, I suggest that you turn your PC and radio off when first connecting the PC to the CI-V port on your radio.•If your PC has an RS-232 port, ensure it has been turned on in the BIOS•You may run into connection problems if you have another application running that also needs to access your serial port. Ensure these applications are closed when using this interface.•Ensure the CI-V address of your radio is set to the default to begin with otherwise your chosen software will not communicate with your radio. Refer to your radio’s manual on how to do this.•The interface is designed to work at all baud rates supported by your radio. For best performance, I suggest you use the highest speed available.•When configuring your software of choice, ensure that the option to provide interface power via the “DTR”signal is selected.•Ensure your software of choice is set for the correct Com Port, Radio Manufacturer/Type and that the Baud Rate matches that pre-configured on your radio. (If you are having problems, some software allows you to“Auto Detect” the Com Port and Baud Rate settings and so it will do the searching for you)Adding a PTT Keying CableWhy do we need it?Some earlier Icom Radio’s do not allow for PTT Keying in the CI-V control command set. These radio’s require hardware keying and this is achieved by utilizing the “RTS” line on the RS-232 port as a PTT keying signal. Software such as Ham Radio Deluxe allows you to control the RTS line for this purpose. You have purchased a version of my interface without the PTT keying cable as standard, do not worry as the PCB is already populated with the components ready for you to add your own cable. PreparationYou will need a suitable length of single core screened cable (7mm diameter maximum), some soldering skills and the correct connector to plug into your Icom Radio. This may take the form of a standard Mic connector or the correct DIN Accessory connector for the back panel of your radio. Also, have your radio instruction manual handy as you may need to refer to pin numbers on the accessory sockets later. Connection to the CI-V PCB InterfaceTake your length of screened cable and remove about 30mm of the outer and make a short tail of the shield (no more than 5mm), and tin with solder. Then bare about 5mm of the inner and again tin with solder.Disconnect your CI-V interface from your PC/Radio and gently prize open the D Type cover by lifting the locking tab on the side of the cover. (Make a note of which way round the interface sat in the shell). Undo the 2 cable clamp screws and gently remove the interface from the shell and look at the reverse side of the PCB (the photo below shows a PCB without any cable connections).On your interface, you will see the shield of the existing data screened cable made off to the edge of the PCB on a ground track. You need to solder the 5mm shield tail of your new PTT cable next to the existing data cable onto the same ground track.It is a little tight so you may wish to reposition where the existing data cable earth tail connects to this track. Once the shield is made off, push the inner of your new PTT cable through the pre-drilled hole as indicated in the photo and then solder to the track on the opposite side of the PCB.You can now put the PCB back into the shell. Firstly, make sure that you have not shorted your new shield connection to adjacent tracks. (I told you to make it no more than 5mm for a reason!!) When you are happy that you have made off the connections neatly, put the PCB back into the shell ensuring it goes back in the same orientation as it came out. If you put it in upside down you will put undue strain on the cables when you do the cable clamp back up. You will now have an interface with 2 cable hanging out of the back. Connecting the new cable to your radioYour next decision is how to interface your new cable you the PTT line of your radio. The best way to do this is via the accessory socket on the back of your Icom Radio but you may choose to use the Microphone connector on the front of the radio. You will of course need to buy the correct plug to connect your new PTT cable to your radio and many Ham/Electronics outlets will stock these. Most Icom radio’s use a standard 8 pin Din connector but there are a few that use the 13 pin Din connector such as the IC-706, IC-718 and IC-78.Generally, you want to find the “Send” pin on the accessory socket. On Icom Radios, the radio will transmit when the “Send” pin is grounded (This is what the additional circuitry on the interface does via the RTS Signal).You will need to refer to your particular radio’s instruction manual for actual pin connections but a quick guide to some common radios is in the table below.Radio Connectoronradio Cable Inner Conductor to“Send” line on pin numberCable Shield Conductor connected to “Ground” on pinnumberIC-718 AccessorySocket 3 2IC-706 Accessory Socket 3 (HF/50MHZ), 7 (144 MHz) 2IC-756 Accessory 1 Socket 3 2IC-775 Accessory 1 Socket 3 2IC-781 Accessory 1 Socket 3 2As you can see, Icom has tried to keep to a common pin scheme on their accessory sockets but please refer to your own manual beforehand.Once you have decided which pin numbers are needed and which socket you are using, carefully make off the end of the PTT cable to the correct pins on the accessory plug you have purchased. Please double check that you have not shorted any pins out and that you have indeed wired to the correct pins.Now you have the PTT wired between the CI-V interface and your radio, all you need to do is configure your preferred Rig Control Software to activate the PTT line when you push the “On Screen” PTT button or the software keys the Radio for you. Here are a couple of examples of set-up on Ham Radio Deluxe and MixW.•For Ham Radio Deluxe, Hit F8 which will bring up the program options screen. From here you can select the “COM Port TX” tab. Select the RTS button in the “COM Port Pin” section and hitapply and OK out.•For MixW, under the Configuration Menu, select the TRCVR CAT/PTT Submenu. In here is a “PTT& CAT Interface” box with a “Details” button. When you hit the “Details” button, you canset “RTS” to control PTT in a drop down box.For any other software, just find the section in the configuration where it allows you to control PTT of your radio via the RTS line of the RS232 port.For more products, contact details or Help, please visit。

R3765网路分析仪操作手册R3765/67G网络分析仪操作手册一,前面板说明1.POWERSWITCH电源开关2.SOURCE信号源输出端子TESTPORT1.2.3.4四极测试端子3.A/BPORT测试输入端子4.DISPLAY显示板5.BACKLIGHT显示板背光开关6.FLOPPYDISKDRIVE软盘机(3.5吋)7.ACTIVECHANNELBLOCK量测通道的设定区CH1/CH2/CH3/CH48.RESPONSEBLOCK量测条件数据分析设定区9.STIMULUSBLOCK信号源的频率10.INSTRUMENTSTATEBLOCK本机系统接口设定区11.GP-IBBLOCK计算机控制设定区12.ENTRYBLOCK数值/标志移动设定区13.SOFTKEY软件功能键14.SOFTMANAUAL软件菜单可由软件功能键来选择设定二,背面板说明1.KEYBOARDCONNECT键盘连接端子,可输入抬头,储存名称,文字输入等2.VIDEOCONNECTVGA信号输出端子,可连接显示器3.PRINTERCONNECT打印机连接端子4.PARALLELI/OCONNECT并列I/O端子,作自动控制通信用5.RS-232CONNECT9PINRS-232端子,可接受计算机控制6.GP-IBCONNECTGP-IB接口端子,可与其它机器,计算机连接控制使用7.ACCONNECTAC电源输入端子,保险丝在上方8.TESTSETCONNECT测试设定端子9.PROBECONNECTDC±12V量测用电源10.10MHzOUT(OPT)CONNECT10MHz基准频率,输出端,预定端子11.EXTERNALSTDINCONNECT外部基准频率输入端12.TESTPORT1BLAS测试端1的偏压输入端(MAX±30V0.5ADC)13.FUSEHOLD测试端1的保险丝14.TESTPORT2BLAS测试端2的偏压输入端/MAX±30V0.5ADC)15.FUSEHOLD测试端2的保险丝16.FAN散热风扇三.画面表示说明1.RERALTIME日期,时间显示2.CHANNEL通道表示CH1/CH2/CH3/CH43.PRAMETERTEST测量参数表示S11/S12/S21/S224.FORMAT 测量模式表示5.SCALREFERANCE纵坐标参考位准表示6.SCAL/DIV纵坐标格数表示,每格10Db7.LOADMENUAL内部软盘机档案表示8.ACTIVATEMARKER量测标志值表示9.MARKERLIST量测标志列表表示10.SOFTMENUAL软件功能键11.ACTIVATEAERA功能键输入区12.STATEAREA本机状态表示区13.TRACEAREA时基线波形表示区BELWINDOW名称及档案文字表示15.START/CENTER信号源的起始/中心频率表示16.POWER/CW信号源的功率输出表示17.STOP/SPAN信号源的终止/频宽表示˙按键功能说明1.ACTIVECHANNELBLOCK量测通道选择区(1)〔CH1〕押CH1可选择CH3量测通道的设定(2)〔CH2〕押CH2可选择CH4量测通道的设定2.ENTRYBLOCK(1)数值输入区〔0〕~〔9〕数字键〔.〕小数点〔-〕负符号〔BS〕回复键〔ENTRYOFF〕数值输入删除键※以上输入数值后,要按单位键才算完成输入(2)单位键〔GHz〕(109)P(10-12)〔MHz〕(106)n(10-9)〔KHz〕(10³)μ(10-6)〔X1〕(100)〔X1〕(100)(3)STEPKEY〔↑〕〔↓〕数值上下调整键,不必再押单位键(4)DATAKNOB数值设定旋转钮,不必再押单位键3.STIMULUSBLOCK信号源设定区(1)[MENU〕信号源设定键{POWER}输入功率及输出端的设定{SWEEPTIME}扫描时间的设定,AUTO设定时,由量测SPAN来决定{SWEEPTYPE}扫描模式设定{TRIGGER}扫描触发模式设定(参照②){POINTS}扫描点数设定3,6,11,21,51,101,201,301,401,601,801,1201点数{COUPLEDCHON/OFF}CH1和CH2量测关系一致或不同设定开关{CWFREQ}POWER 扫描时的载波频率设定{RESTART}重新量测扫描键(2)[START〕启始扫描设定(启始频率)启始频率及启始POWER的设定,在时域ON时,时间轴的启始位置设定,(3)[STOP〕结束扫描的设定(结束频率)(4)[CENTER〕中心扫描点的设定(中心频率)(5)[SPAN〕扫描频宽设定※扫描范围是由〔START〕〔STOP〕和〔CENTER〕〔SPAN〕来设定①POWERMENU输出功率的设定{POWER}频率扫描时的输出功率设定调整{ATTENUATORPORT1}PORT1的衰减值设定(OPT10){ATTENUATORPORT2}PORT2的衰减值设定(OPT10){ATTENUATORPORT3}PORT3的衰减值设定(OPT10/11)②TRIGGERMENU 触发模式设定{CONTINUOUS}连续触发扫描{SINGLE}单一触发扫描{HOLD}暂停扫描{INTTRIG}依据信号源自动触发扫描开始{EXTTRIG}依据外部同步信号触发扫描,外部同步信号在背面板I/O端子的18PIN输入(PILSE1MS以上){TRIGGERDELAY}延迟触发信号的时间设定,扫描开始4.RESPONSEBLOCK量测区(1)〔MEAS〕量测方式设定{S11REFLFWD}输入端S11设定,量测反射顺向{S21TRANSFWD}输入端S21设定,量测传输顺向{S12TRANSREV}输入端S12设定,量测传输反向{S22REFLREV}输入端S22设定,量测反射逆向{S11S21FWD}输入端S11和S21量测设定{S22S12REV}输入端S22和S12量测设定{SUBMEASON/OFF}副量测窗口开启设定{CONVERSION〔〕}量测阻抗S参数变换设定(参照③)※R3765CG/R3767CG+OPT11时{S11(PORT1)}量测参数S11设定{S22(PORT2)}量测参数S22设定{S33(PORT3)}量测参数S33设定{S21(P2←P1)}量测参数S21设定{S21(P2→P1)}量测参数S12设定{S31(P1→P3)}量测参数S31设定{S13(P1←P3)}量测参数S13设定{S32(P2→P3)}量测参数S32设定{S23(P2←P3)}量测参数S23设定{TEST-PORTCONNECTION(P1-P2)}量测端P1和P2连续切换{TEST-PORTCONNECTION(P1-P3)}量测端P1和P3连续切换{TEST-PORTCONNECTION(P2-P3)}量测端P2和P3连续切换{TWINMEAS}选择双参数同时量测{S11S21(P2←P1)}S11,S21双量测设定{S22S12(P2→P1)}S22,S12双量测设定{S11S31(P1→P3)}S11,S31双量测设定{S33S13(P1←P3)}S33,S13双量测设定{S22S32(P2→P3)}S22,S32双量测设定{S33S23(P2←P3)}S33,S23双量测设定③参数变换设定{Z(REFL)}依组抗变换量测反射特性变换式=1+ρ/1-ρxZO{Z(TRANS)}依组抗变换量测传送特性变换式=2(1-T)/TxZO{Y(REFL)}依导纳变换量测反射特性变换式=1-ρ/1+ρxZO{Y(TRANS)}依导纳变换量测传送特性变换式=T/2(1-T)x1/ZO{1/S}反向S参数变换变换式=1/S{OFF}变换功能OFF(关闭){Z0VALUE}特性组抗(Z0)的设定在这里ρ:反射系数T:增益S:反射系数和增益Z0:特性阻抗(2)〔FORMAT〕表示量测值格式目录(参照A4)FORMATMENU(1/2)分两层目录(1/2)为第一层目录{LOGMAG}对数振幅表示设定{PHASE}相位表示设定±1800变换{DELAY}群延迟表示设定{SMITH(R+Jx)}史密斯图表示设定{SMITH(G+JB)}导纳图表示设定{POLAR}极坐标图表示设定{LINMAG}线性振幅表示设定FORMATMENU(2/2)第二层目录{SWR}驻波比表示设定{REAL}量测值的实数表示设定{IMAG}量测值的虚数表示设定{PHASE-∞,+∞}连续相位表示设定,每点值±1800{LOGMAGPHASE}对数振幅和相位同时表示设定{LOGMAGDELAY}对数振幅和群延迟同时表示设定{LINMAGPHASE}线性振幅和相位同时表示设定(3)〔SCALE〕坐标格数设定(参照A.4){AUTOSCALE}自动设定扫描线}的最适当量测位置,表示在坐标上{/DIV}纵坐标每格的读值设定※在史密斯图及极坐标图表示时不能设定{REFVALUE}表示坐标的基准位置值的设定{REFPOS}表示坐标的基准位置值的设定{MARKER→REFVALUE}量测标志的值移至基准位置※在史密斯的图及极坐标图表示时不能设定.{REFLINEON/OFF}基准位置图表示线开关设定※在史密斯的图及极坐标图表示时不能设定.{TRACE2nd/1st}双扫描线时使用可做选择※在史密斯的图及极坐标图表示时不能设定.{FULLSCALE}史密斯图及极坐标图表示时图形图放大设定(4)〔DISPLAY〕显示器目录(参照A.4)․DISPLAYMENU(1/2)上层目录{DUALCHON/OFF}二个信道同时显示(重迭表示)选择开关(注){SPLITCHON/OFF}上下分割画面表示开关(注){DISPLAY 〔〕}扫描线数据选择呼叫目录,内含量测数据和记忆数据{DEFINETRACE[]}扫描线数据计算呼叫目录,内含量测数据和记忆数据的四则运算{DATA→MEMORY}将量测数据丢进暂存内存,在二条扫描线时可选择扫描的量测数据和记忆数据{TRACE2nd/1st}来做比较分析{CONVERSION[]}将量测后的数据做阻抗及导纳的变换,呼叫参数目录(参照③){TRACE2nd/1st}二条扫描线时选择键(注)依副量测的选择及SPLITCH,DUALCHON/OFF设定MARKLIST 的表示状态,依画面表示而不同.․DISPLAYMENU(2/2)下层目录{GRATICULEON/OFF}坐标表示的选择开关※在史密斯的图及极坐标图表示时不能设定.{LABEL}抬头输入呼叫目录{COLOR}波形,标志}和信道等颜色设定{DEFAULTCOLOR}将颜色设定初始化{MENUOVERLATON/OFF}量测画面目录表示部分放大,ON时,线扫描线表示区放大,目录部分省略,可再使用ENTRYOFF键来打开目录{SCALEUPON/OFF}量测画面上下放大.ON时,抬头及时间区会看不到{ANNOTATIONON/OFF}量测画面的注解表示开关.OFF时,扫描表示区向上下的批注区扩张(5)〔AVG〕平均值目录(参照A.4){AVGSTATEON/OFF}平均值量测开关{AVGCOUNT}平均值量测次数设定{AVGRESTART}平均值重新量测{GROUPDELAYAPERTURE}在群延迟量测时,APERTURE的设定{SMOOTHINGON/OFF}平滑度选择开关{SMOOTHINGAPERTURE}平滑与APERTURE 设定{TRACE2nd/1st}二条扫描线时选择开关{IFRBW[]}解析频宽的设定,0输入时为AUTO5.[CAL]校正目录(参照A.4)在减少系统量测误差的校正,有下列7种方法:․NORMALIZE-------------------------------------------------①˙NORMALIZEISOL’NCAL-------------------------------------②․1-P ORTFULLCAL---------------------------------------------③․2-PORT FULLCAL---------------------------------------------④․3-PORTFUL LCAL---------------------------------------------⑤․4-PORTFULLCA L---------------------------------------------⑥․AVGING------------------------------------------------------⑦․SMOOTHING---------------------------------------------------⑧①②③④⑤⑥的校正是再现误差值校正,校正后得到一个标准值,再以校正的结果求得待测物的误差值.⑦⑧的校正是用时间平均,移动平均,统计变动来减少量测的误差注:①②③④⑤⑥项校正无法同时使用,⑦⑧是可以独立操作,所以可以同时使用.①NORMALIZE(传送)设定说明․将机器测试模式设定成传送测定․测定PORT(端)间连接THRU标准接头․押〔CAL〕键,叫出校正软键․押NORMALIZETHRU键:等待校正完成显示”NORMMEMORIZED”即告OK․连接待测物进行量测②NORMALIZE(反射)设定说明․将机器测试模式,设定成反射设定․测定PORT(端)连接OPEN标准接头与SORT标准接头․押〔CAL〕键,叫出校正软键․使用OPEN标准接头时,押NORMALIZE(THRU)键․使用SHORT 标准接头时,押NORMALIZE(SHORT)键,等待校正完成显示”NORMSHORTMEMORIZED”即告校正完成․连接待测物进行量测.③NORMALIZEISOLATIONCALIBRATION(传送)设定说明․将机器设定模式设定成传送测定․押{CAL}键叫出校正软键․押{CALMENUS}键叫出校正键․押{2PORTCALMENU}键叫出2PORTCAL校正键․押{MORMALIZEISOLATIONCALIBRATION}键,叫出MORMALIZEISOLATION校正键․用THRU标准接头,连接PORT1与PORT2间测试线端子,押{THRU}․用LOAD 标准接头,连接PORT1PORT2测试端,押{ISOLATION}․押{DONENORMISO}键,完成校正.․连接待测物,进行量测.④1-PORTFULLCALIBRATION设定说明․将机器测试模式,设定成反射测试․押〔CAL〕键,叫出校正软键․押〔CALMENUS〕键,叫出校正软键․押{1PORTFULLCAL}键,选择1PORTCAL(校正)․连接OPEN标准器到PORT1,押OPEN键․连接SHORT标准器到PORT1,押SHORT键․连接LOAD标准器到PORT1,押LOAD键․押{DONE1PORT}键,完成校正․连接待测物,进行量测.⑤2-PORTFULLCALIBRATION使用(PORT1PORT2)设定说明․押〔CAL〕键,叫出校正软键․押{CALMENUS}键,叫出校正软键․押{2PORTFULLCAL}键,选择2PORTCAL(校正)软键․押{2PORTFULLCAL}键,选择2PORTCAL(校正)․押{REFLECT’N}键,叫出2PORTREFLECT’N软键․连接OPEN标准器到PORT1,押{S11(PORT1)FWD:OPEN}键․连接SHORT标准器到PORT1,押{S11(PORT1)FWD:SHORT}键․连接LOAD 标准器到PORT1,押{S11(PORT1)FWD:LOAD}键․连接OPEN标准器到PORT2,押{S22(PORT2)REV:OPEN}键․连接SHORT标准器到PORT2,押{S22(PORT2)REV:SHORT}键․连接LOAD标准器到PORT2,押{S22(PORT2)REV:LOAD}键․押{DONEREFLECT’N}键,完成反射校正.․押{TRANSMISSION}键,叫出2PORTTRANSMISSION软键․用THRU标准器连接PORT1和PORT2的测试线․押{GROUPTHRU}键,做GROUPTHRU校正,若选GROUPTHRUCAL则不须再做以下四项校正․押{FWD,TRANSTHRU}键․押{FWD,MATCHTHRU}键․押{REV,TRANSTHRU}键․押{REV,MATCHTHRU}键․{DONETRANS}键,完成传送校正.․押{ISOLATION}键,叫出2PORTISOLATION软键˙ISOLATION校正不做时,押{OMITISOLATION}→{DONEISOLATION}ISOLATION校正时a.连接LOAD标准器到PORT1,押{FWDISOL’N}键b.连接LOAD标准器到PORT2,押{REVISOL’N}键˙押{DONEIOSLATION}键,回到2PORTFULLCAL软键˙押{DONE2-PORT}键,完成2PORT校正⑥CALIBRATIONKIT的选择设定说明․押〔CAL〕,叫出校正软件․押{CALMENUS}键,选择FULLCALIBRATION叫出校正软键․{CALKIT}键,叫出CALKET软键․CALKIT软键{N(50Ω)}N型50Ω接头,叫出FEMAL(母)/MAL(公)选择键{N(75Ω)}N型75Ω接头,叫出FEMAL(母)/MAL(公)选择键{3.5mm}3.5mm接头,叫出FEMAL(母)/MAL(公)选择键{7mm}7mm接头,叫出FEMAL(母)/MAL(公)没有选择键{USERDEFINE}使用者指定OPEN容量和电器长作误差值补正,叫出各指定参数的软键,依据使用者在{DEFINESTANDARD}中自行设定{DON’TCARE}不考虑接头误差值补正时使用{DEFINESTANDARD}叫出使用者指定软键,依照使用者CALKET选择CALKIT的参数设定․FEMAL/MAL公头和母头的选择键{PORT1FEMAL/MAL}PORT1接头FEMAL(母)/MAL(公)的选择{PORT2FEMAL/MAL}PORT2接头FEMAL(母)/MAL(公)的选择{PORT3FEMAL/MAL}PORT3接头FEMAL(母)/MAL(公)的选择{PORT4FEMAL/MAL}PORT4接头FEMAL(母)/MAL(公)的选择⑦USIER指定CALKIT参数输入˙OPEN校正面到OPEN面的电器长和OPEN容量输入OPENCAPACITANCE=CO+C1f+C2f2+C3f3(f:frequency)˙SHORT校正面到SHORT面的电器长输入˙THRU电器长,损失,阻抗的输入a.电器长(OFFSETDELAY)[SEC]b.损失(OFFSETLOSS)[Ω/SEC]c.阻抗(OFFSETZ0)[Ω]d.OPEN容量(OPENC0)[10-15F](OPENC1)[10-27F/Hz](OPENC2)[10-36F/Hz2](OPENC3)[1 0-45F/Hz3]参数设定说明˙押[CAL],叫出校正软键˙押{CALMENU}键,叫出FULLCAL软键˙押{CALKIT}键,叫出CALKIT软键˙押{DEFINESTANDARD}键,叫出使用者指定软键˙使用者指定软键{PORT1REF.STD}输入OPEN.STD准参数至PORT1,叫出OPEN.STD输入软键{PORT2REF.STD}输入OPEN.STD准参数至PORT2,叫出OPEN.STD输入软键{PORT3REF.STD}输入OPEN.STD准参数至PORT3,叫出OPEN.STD输入软键{PORT4REF.STD}输入OPEN.STD准参数至PORT4,叫出OPEN.STD输入软键{P1~P2THRU.STD}用THRU参数输入键,在P1~P2间输入参数{P1~P3THRU.STD}用THRU参数输入键,在P1~P3间输入参数{P2~P3THRU.STD}用THRU参数输入键,在P2~P3间输入参数{P1~P4THRU.STD}用THRU参数输入键,在P1~P4间输入参数{P2~P4THRU.STD}用THRU参数输入键,在P2~P4间输入参数{P3~P4THRU.STD}用THRU参数输入键,在P3~P4间输入参数{SAVETOUSERDEFINE}储存CALKIT参数˙OPEN.STD 输入软键{OPENC0}OPEN容量C0输入{OPENC1}OPEN容量C1输入{OPENC2}OPEN容量C2输入{OPENC3}OPEN容量C3输入{OPENOFFSET}OPEN标准器的电器长输入˙OFFSET输入软键{OFFSETDELAY}OPEN/SHORT/THRU各种标准器的电器长输入{OFFSETLOSS}THRU标准器的损失输入{OFFSETZ0}THR标准器的阻抗输入˙SAVE确认软键{YES}CALKIT参数存入{NO}CALKIT参数不存入⑧量测基准面的延长补正校正完成后,TESTPORT连接延长测试线时,将校正面移动到测试线头端的机能设定说明˙押[CAL]键,叫出校正1/2软键˙押{MORE1/2}键,叫出校正2/2软键˙校正2/2软键{ELECDELAYON/OFF}电器长补正开关{ELECTRICALDELAY}电器长补正值时间设定{ECELTRICALLENGTH}电器长补正值距离设定{VELOCITYFACTOR}传送速度因素的设定(CABLE线材的质){PHASEOFFSETVALUE}相位补正值的设定{PHASESLOPE}相位斜率值的设定˙PORT延伸软键※在R3765BG/67BG,R3765CG/67CG时{EXTENSIONON/OFF}PORT延伸值设定开关ON/OFF选择{EXTENSIONINPUTA}A输入的PORTA延伸设定时间{EXTENSIONINPUTB}B输入的PORTB延伸设定时间{EXTENSIONPORT1}S参数测试PORT1延伸时间设定{EXTENSIONPORT2}S参数测试PORT2延伸时间设定※在R3765CG/67CG+OPT11时{EXTENSIONON/OFF}PORT延伸值的时间选择{EXTENSIONINPUTA}A输入的PORT延伸设定时间{EXTENSIONINPUTB}B输入的PORT延伸设定时间{EXTENSIONINPUTC}C输入的PORT延伸设定时间{EXTENSIONPORT1}S参数测试PORT1延伸时间设定{EXTENSIONPORT2}S参数测试PORT2延伸时间设定{EXTENSIONPORT3}S参数测试PORT3延伸时间设定※在R3765CG/67CG+OPT14时{EXTENSIONPORT1}S参数测试PORT1延伸时间设定{EXTENSIONPORT2}S参数测试PORT2延伸时间设定{EXTENSIONPORT3}S 参数测试PORT3延伸时间设定{EXTENSIONPORT4}S参数测试PORT4延伸时间设定⑨校正数据清除重新校正时,校正数据清除是必要的.a.NORMALIZE时,只要再押一次NORMALIZE即可b.NORMALIZEISOLATION,CALIBRATION,FULLCALIBRATION时,重新校正时,须做清除校正DATA的动作.设定说明˙押[CAL]键,叫出校正软键.˙押{CORRECTON/OFF}键,关闭校正值˙押{CALMENUS}键,叫出校正选择软键˙押{CLEARCALDATA}键,叫出清除确认软键˙押[YES],清除校正DATA˙选择1PORT/2PORT,FULLCALIBRATION重新校正※{CORRECTON/OFF},OFF时不会清除CALDATA.可以再ON,叫出CALDATA⑩3PORT.FULLCALIBRATIO3PORT待测物的方向性考虑R3765CG/67CG+OPT11(内藏3PORTTESTSET)3PORT校正用的标准器有四种˙OPEN标准器˙SHORT标准器˙LOAD标准器→在做ISOLATION 校正时要二个˙THRU标准器6.6.MARK功能标志功能键将表示的DATA用MARK将值读出[MKR]叫出MARK设定的软键[MKR→]叫出MARK分析位移的软键①MARK的设定说明在各画面上可使用10个MARK来量测˙押[MARK]键,叫出MARK软键˙押{ACTIVATE.MARKER[]},叫出ACTIVAMARK的软键˙ACTVATEMARKER软键1/2{MARKER1}MARK1的设定{MARKER2}MARK2的设定{MARKER3}MARK3的设定{MARKER4}MARK4的设定{MARKER5}MARK5的设定{ACTIVATEMARKMKROFF}关闭正在移动的MARKMARK的位置可用数字键直接输入频率(时间)来设定{MARKER6}MARK6的设定{MARKER7}MARK7的设定{MARKER8}MARK8的设定{MARKER9}MARK9的设定{MARKER10}MARK10的设定②CHANNEL间MARK的设定说明˙押[MKR]键,叫出MARK软键˙押{MARKERMODEMENU}键,叫出MARKMODE软键˙押{MKRCPL/UNCPL}键,选择CHANNEL间的MARK连动/不连动CPL:CHANNEL间连动UNCPL:CHANNEL间不连动③测定点的补赏设定说明˙押[MKR]键,叫出MARK软键˙押{MARKERMODEMENU}键,,叫出MARKMODE软键˙押{MKRCMP/UNCMP}键,测定点间的补赏选择CMP:补赏ONUNCMP:补赏OFF④MARK读值表示设定说明˙押[MARK]键,叫出MARK软键˙MARK软键{MKRLISTON/OFF}MARKLIST表示选择,可在每个CHANNEL中独立设定˙{SPLITLISTON/OFF}分割画面模式选择,可分割画面和MARKLIST⑤ΔMARK功能设定说明a.ΔMARKMODE:ACTIVATEMARK 与ΔMARK间求差值b.ACTMKRMODE:ACTIVATEMARK与其它MARK间求差值c.FIXEDMKRMODE:FIXEDMKE与ACTIVATEMARK间求差值{ΔREF=ΔMKR}ACTIVATEMARK①与ΔMARK③差值量测{ΔREF=ACTMKR}ACTIVATEMARK①与CO MPAREMARK②差值量测{ΔREF=FIXEDMKR}ACTIVATEMARK①与FIXEDMARK④差值量测˙押[MARK]键,叫出MARK软键˙押{ΔMODEMENU}叫出ΔMODE软键˙ΔMODE软键{ΔMODEOFF}ΔMODE关闭{ΔREF=ΔMKR}选择ΔMARKMODE{ΔREF=ACTMKR}选择ACTMKRMODE,叫出ACTMKR软键{ΔREF=FIXEDMKR}选择FIXEDMKRMODE{FIXEDMKRPOSITION}叫出FIXEDMKR软键˙ΔMKRMODE时,押{ΔREF=ΔMKR}键在ACTIVATEMARK位置会出现(*)标志,移动ACTIVATEMARK 可求ΔMKR与ACTMKR的差值˙ACTMRKMODE时,押{ΔREF=ACTMKR}键,叫出ACTIVATEMARK软键,可求出ACTIVATEMARK与MARK的差值ACTMKR软键1/2{COMPAREMARKER1}比较的MARK变更成MARK1{COMPAREMARKER5}比较的MARK变更成MARK5{ACTIVATRMARKER[]}叫出ACTIVATEMARK软键,可设定ACTIVATEMARKACTMKR软键2/2{COMPAREMARKER6}比较的MARK变更成MARK6{COMPAREMARKER10}比较的MARK变更成MARK10˙FIXEDMKRMODE时,押{ΔREF=FIXEDMKR}键,在画面会出现(◇)标志,FIXEDMKR(◇)位置的设定,押{FIXEDMKRPOSITION}键,叫出FIXEDMKR设定软键{FIXEDMKRSTIMULUS}FIXEDSTIMULUS值设定{FIXEDMKRVALUE}FIXEDVALUE值设定{FIXEDMKRAUXVALUE}FIXEDAUXVALUE值设定{FIXEDMKR→ACTIVATEMKR}在ACTIVATEMKR中设定FIXEDMKR﹡FIXEDMKRSTIMULUS的设定可由数字键来输入FIXEDMKRVALUE的设定可由数字键来输入FIXEDMKRAUXVALUE的设定可由数字键来输入⑥IMPEDANCE(阻抗)测定时的标志软键设定说明˙[MKR]押[MKR]叫出标志软键˙{MARKERMODEMENU}叫出MKRMODE软键˙MKRMODE软键{CONVERSIONMKRMENU[]}叫出CONVERSIONMKR软键{SMITHMKRMENU[]}叫出史密斯MKR软键{POLARMKRMENU[]}叫出极坐标MKR软键˙CONVERSIONMKRMENU{DEFAULT}DATA与FORMAT对应值表示{LINMKR}线性振幅和相位值表示{Re/ImMKR}复数值表示˙SMITHMKRMENU{LINMKR}线性振幅和相位值表示{LOGMKR}对数振幅和相位值表示{Re/ImMKR}复数值表示{R+JXMKR}复数值组抗表示{G+jBMKR}复数导纳值表示{Z0VALUE}特性组抗设定˙POLARMKRMENU{LINMKR}线性振幅和相位值表示{LOGMKR}对数振幅和相位值表示{Re/ImMKR}复数值表示{Z0VALUE}特性组抗设定⑦MARK解析功能˙最大值˙最小值˙相位0∘˙相位±180∘˙RESPONSE值(相位,振幅)˙FILTER解析(BW,Q,SAAPINGFACTOR)设定说明˙[MKR]打开MKRSEARCH 软键MKRSEARCHMENU{MARKER→START}信号源开始扫描值变更为ACTMKR位置{MARKER→STOP}信号源停止扫描值变更为ACTMKR位置{MARKER→CENTER}信号源的中心扫描值变更为ACTMKR位置{ΔMARKER→SPAN}信号源的SPAN变更为ΔMARKER指定范围{MARKER→REFVALUE}将MARKER表示值移动到参考位准值{PARTSRCH[]}部分SRCHMENU叫出{MKRSEARCH[]}打开SRCHMENU˙SEARCHMENU{MKRSEARCHOFF}SRCH功能关闭{MAX}ACTMKR移到最大值{MIN}ACTMKR移到最小值{TARGET}指定值SRCH打开TARGETMENU{RIPPLE}打开RIPPLEMENU{FLTRANA}打开FILTER,解析MENU{TRACKINGON/OFF}在扫描时选择SRCH功能OFF:一次SRCHON:随着扫描来重复SRCH※再SMITH/POLAR使用时,MAX/MINSRCH时,因SMOOTHING(ON)所以SRCH位置会不一置˙TARGETMENU{TARGETVALUE}对指定值(RESPONSE值)SRCH(搜索){0∘}对相位0∘做SRCH{±180∘}对相位±180∘做SRCH{LEFTSEARCH}对现在MKR位置左侧指定值做SRCH{RIGHTSEARCH}对现在MARK位置右侧指定值做SRCH˙RIPPLEMENU{MAX∩}求出极大值的最大值{MIN∪}求出极小值的最小值{ΔMAX∩-MIN∪}求出最大的极大值及最小的极小值差{MAX-MIN}求出最大值及最小值的差{ΔX}RIPPLESRCH检出感度的设定,指定微分系数ΔX值横轴{ΔY}指定微分系数ΔY纵轴˙FILTER解析MENU{WIDTHVALUE}SRCH频宽指定(DOWN(XdB)){FILTERTYPEBAND/NOTC}FILTER:形式选择BAND带通滤波器解析NOTC:陷波滤波器解析{SEARCHFROM[]}SRCH基准MENU{DISPLYMODEABS/REL}频宽的表示法选择ABS:频宽表示用绝对值表示REL:频宽表示用中心频率的相对值表示{SEARCHIN/OUT}激发轴SRCH方向选择IN:由SRCH基准点向外SRCHOUT:由外侧向SRCH基准点SRCH{FILTERANALON/OFF}测定结果表示开关ON时,测定开始,测定结果表示如下:C.F:XdBdown频宽的中心频率L.F:绝对值表示时,频宽左侧频率,相对值表示时,频宽左侧频率到中心频率的差值R.F:绝对值表示时,频宽右侧频率,相对值表示时,频宽右侧频率到中心频率的差值B.W:频宽Q:Q值SF:波形因素˙SRCH基准MENUFILTER解析时的LEVEL基准点的选择{ACTIVEMARKER}以ACTMKR作为LEVEL基准点{MAX/MINVALUE}以最小损失作为LEVEL基准点{REFERENLINE}以REFLINE作为LEVEL基准点˙部分SRCHMENU在全测定范围内求最大最小值的解析,指定范围内,由MKR的ΔMLRMODE设定范围{ΔMODEMENU}打开ΔMKRMODEMENU{SETRANGE}ΔMKRMODE指定范围内部分SRCH范围的设定{STATISICSON/OFF}统计解析机能的设定,统计解析机能式部分SRCH被指定的范围内算出结果,部分SRCHOFF时,则计算全测定范围.{PARTSRCHON/OFF}部分SRCH的ON/OFF选择ON:部分SRCHOFF:全部范围SRCH7.TIMEDOWMENOPT70才有①时间领域变换机能复率叶转换功能在时间领域内,只有BPFLPFMODE会应用到主要将频率领域结果转为时间领域了解脉冲特性及瞬态特性②距离表示机能TIMEDOWMEN(时间领域)打开时,横轴为时间,可以变换成距离轴(m)横的表示(值和单位)可变,纵轴的波形数据不变③时间轴领域的放大时间更变波形可以放大表示,操作方法:˙押[FUNCTION],打开功能软键˙押{TRANSFORM}键,打开时间领域变换软键˙各CH间独立设定{TRANSFORMON/OFF}时间领域开启开关ON:时间领域表示OFF:频率领域表示{TRANSFORMMODE[]}打开时间领域模式{TRANSFORMSTIMMULUS[]}打开STIMMULUSMENU可设定距离表示{WINDOW}打开窗口功能{GATE[]}打开闸控功能8.CDMAIFFILTER解析功能˙CDMAIFFILTERGATEFILTER的DELAY时间内频率特性˙CDMAIFFILTER振幅解析功能˙中心频率˙带通频宽˙插入损失˙带通频宽内的涟波˙保证衰减量9.SWEEP扫描信号源的扫描模式有五种:˙线性扫描测定点间等间隔频率扫描˙对数扫描测定点间频率对数间隔扫描˙USER扫描测定点间由USER 自订最大可分成30等份˙程序扫描测定点间最大可分成30段设定˙POWER 扫描LEVEL特性测定时使用10.INSTRUMENTSTATEBLOCK系统控制功能˙[SYSTEM]押[SYSTEM]键,打开系统软键˙{SYSTEMDRIVE}打开系统驱动格式设定键˙{SETCLOCK}时间日期设定键˙{LIMITMENU}打开LIMITLINE服务设定键①SYSTEMDRIVEMENU{DEFAULTDRIVE}驱动位置设定回到出厂设定{FORMATTYPE}格式化的选择˙DEFAULTDRIVEMENU{A:}FD选择键(720K,1.2MB,1.44MB){B:}B驱动选择键,(2MB){C:}C驱动选择键,记忆卡(8MB){D:}D驱动选择键与C共享(8MB)˙FORMATTYPE MENU{1.44MB}FD2HD1.44MB选择键{720KB}FD2DD720KB 选择键②SETCLOCKMENU{YEAR}年设定键1999~2029范围可设定{MONTH}月设定键{DAY}日设定键{HOUR}时设定键{MINUTE}分设定键{SECOND}秒设定键③LIMITMENU{LIMITLINEON/OFF}LIMITLINEON/OFF设定键{LIMITTESTON/OFF}LIMITTESTON/OFF设定键{BEEP[]}LIMITTEST时,警告声的设定{LIMITMODEMENU}LIMITMODE设定键{EDITLIMITLINE}LIMITLINE编辑设定键{SELECTDATA1ST/2ND}两个波型选择比较设定键{LIMITLINEOFFSETS}LIMITLINE补赏调整设定键④SYSTEMCONFIGMENU{KEYBOARD101/106}KEYBOARD101型英文/106型日文选择键{COLORSCHEME}LCD颜色的选择键{CUSTOMTIRMWARE}客户用的软件选择键⑤SERVICEMENU{INTERNALTEST}自我诊断软键{SERVICEMODE}自我诊断模式软键{VERIFICATION}自我校正误差值的验证{FIRMWAREREVISION}轫体的版本确认11.GPIBBlock①[RUN]呼叫BASIC控制软键②Controllermenu控制软键{RUN}:开始执行测试程序{LOADMENU}:显示程序文件并下载测试程序{LIST}:列出程序文件{CLS}:清除屏幕上的文字{CONT}:重新执行测试程序{STOP}:停止执行测试程序③Loadmenu下载测试程序软键{LOAD}:由光标选择下载测试程序{CURSOR↑}:由光标向上选择测试程序{CURSOR↓}:由光标向下选择测试程序{DRIVFCHANGE}:更换驱动程序位置参考步骤④④{A:}:选择A:驱动(软盘机驱动){B:}:选择B:驱动(RAM模块驱动){C:}:选择C:驱动(FLASH模块驱动)8MB{D:}:选择D:驱动(FLASH模块驱动)依内部记忆体为背景①[LCL]呼叫GPIB操作软键②GPIBMenuGPIB操作软键{SYSTEMCONTROLLER}:设定由R3765/67CG做系统控制{TALKERLISTENER}:设定R3765/67CG至TALKER/LISTENER{SETADDRESSES}:呼叫GPIB地址设定软键③Addressmenu:GPIB地址设定软键{ADDRESSR3765/67CG}:设定R3765/67CGGPIB的地址{ADDRESSPLOTTER}:设定PLOTTER的GPIB地址{ADDRESSPRINTER}:设定PRINTER的GPIB地址12.Save/Recall储存呼叫功能键˙Savesregister:储存校正与测试数据至R3765/67CG记忆体˙Storefile:储存校正与测试数据至磁盘键1.SelectionofSaveType:选择储存型式①[SAVE]储存设定功能呼叫键②Savemenu储存设定功能键{SAVEREGISTER}:开启记忆设定地址{CLEARREGISTER}:清除记忆体{STOREFILE}:存盘(软盘片){PURGEFILE}:开启储存档案{FORMATDISK}:格化式ExecutingSaveRegister执行储存校正与测试数据至本机记忆体①[SAVE]呼叫储存设定功能键②{SAVEREGISTER}:储存校正与测试数据至R3765/67CG记忆体③Saveregistermenu:开启记忆设定地址{SAVEREG-1}:储存至记忆体位子1{SAVEREG-2}:储存至记忆体位子2⌇{SAVEREG20}:储存至记忆体位子20{RENAMEREG}:更改记忆体名称ExecutingStoreFile执行储存校正与测试数据至磁盘①[SAVE]呼叫储存设定功能键②{STOREFILE}存盘(软盘片)③Storefilemenu存盘设定功能键{ROLL↑}上移键{ROLL↓}下移键{DEFINESTORE}定义储存模式(看步骤④){EDITNAME}名称编辑{NAME↑}光标向上选择名称{NAME↓}光标向下选择名称{CANCEL}取消存档④Filedatamenu档案数据设定功能键{STATEON/OFF}设定条件储存键{RAWARRAYON/OFF}波形数据储存键{CORRCOEFON/OFF}校正数据储存键{DATAARRAYON/OFF}数据列储存键{MEMARRAYON/OFF}储存在记忆体列的数据储存键SettingRegisterName记忆体名称设定功能键①[SAVE]呼叫储存设定功能键②{SAVEREGISTER}开启储存设定功能键③{RENAMEREG}更改记忆体名称④Nameed itingmenu名称编辑设定功能键{EDITNAME}名称编辑(看步骤⑤){CURSOR↑}上移键{CURSOR↓}下移键⑤Charactereditingmenu特殊编辑设定功能键{DONE}完成编辑键{CURSOR→}游标向右位移{CURSOR←}游标向左位移{BACKSPACE}回复键{DELETECHAR}删除键{CLEARNAME}删除名称键{CANCEL}取消编辑Settingfilename文件名称设定功能键①[SAVE]呼叫储存设定功能键②{STOREFILE}存盘(软盘片)③{NAME↑},{NAME↓}文件名称选择光标上或下④{EDITNAME}名称编辑⑤Charactermenu特殊设定功能键{DONE}完成编辑键{CURSOR→}游标向右位移{CURSOR←}游标向左位移{BACKSPACE}回复键{DELETECHAR}删除键{CLEARNAME}删除名称键{CANCEL}取消编辑ClearingSavedRegister清除已储存的数据①[SAVE]呼叫储存设定功能键②{CLEARREGISTER}清除已储存的数据③Clearregistermenu清除已储存数据位置的选单˙Cl earregistermenu(1of4)选单共有四页20个位置{CLEARREG-1}清除位置1的数据{CLEARREG-2}清除位置2的数据⌇{CLEARREG-20}清除位置20的数据PurgingStoredFile开启档案①[SAVE]呼叫储存设定功能键②{PURGEFILE}开启档案(磁盘片)③Purgesfilesmenu 开启档案设定功能键{PURGE}开启档案{CURSOR↑}选择光标向上{CURSOR↓}选择光标向下ExecutingRecall执行呼叫档案①[RECALL]呼叫记忆体功能键②Recallmenu呼叫记忆体设定功能键˙Recallmenu(1of4)选单共有四页20个位置{RECALLREG-1}呼叫记忆体位置1{RECALLREG-2}呼叫记忆体位置2⌇{RECALLREG-20}呼叫记忆体位置20{RECALLPOWEROFF}呼叫关机前的画面{LOADFILE}下载档案③LoadFileMenu下载档案设定功能键{LOAD}下载{CURSOR↑}选择光标向上{CURSOR↓}选择光标向下{Return}回上页13.HARDCOPY快速拷贝①[COPY]拷贝②Copyme nu拷贝设定功能键{PRINT}打印{PLOT}绘图{SELECTQUADRANT}打印/绘图位置选择{DEFINEPLOT}绘图定义键{CONFIGUREPLOT}绘图连结设定键{PRINT/PLOTSETUP}打印/绘图设定键{BITMAPFILE}影像文件储存设定键PrintSetup打印设定键①[COPY]拷贝②{PRINT/PLOTSETUP}打印/绘图设定键③{Setupmenu}功能设定键{PRINTERSETUP}打印设定键{PRINTSPEEDFAST/SLOW}打印速度选择键④Print ersetupmenu打印设定功能键{DPI}打印分辨率{UPPERMARGIN}打印上限边缘设定键{LEFTMARGIN}打印左边边缘设定键{ZOOMSCALE}打印尺寸大小设定键(1,2,3){LANDSCAPEON/OFF}打印图形排列设定键{FORMFEEDON/OFF}打印合成图面设定键{PRINTER}打印设定键⑤Printermenu打印设定功能键{ESC/PJ84}支持打印机EPSONESC/PJ83/J84Seiko-Epson,s24点阵打印机{ESC/PV.2}支持打印机EPSONESC/PV.2Seiko-Epson,s24/48点阵打印机{PCL}支持打印机HPLaserJet句柄为PCL{PRINTCOLORON/OFF}彩色打印设定键BitmapFileSetup影像图形文件储存设定键①[COPY]拷贝②{BITMAPFILE}影像文件储存键③Bitmapfilemenu}影像文件储存设定键{SAVETODISK}影像图形储存至磁盘{COMPESSIONON/OFF}影像文件储存压缩键{TRUNCATEON/OFF}影像颉取设定键四,基本量测步骤①RETURNLOSSTEST反射损失.驻波比.史密司图(可作主阻抗分˙Initialize(初始值设定)押[PRESET]键˙[CENTERFREQ](中心频率设定)先押[CENTERFREQ]键再押数字键设定˙[SPAN](频宽设定)先押[SPAN]键再押数字键设定˙[CAL](校正设定)先押[CAL]键再押CALMENU键做1PORTFULLCAL押[OPEN].[SORT].[LOAD]必须接上CALKID最后再押DONE即完成校正工作˙测试接上待测物即可测试˙[MKR](标点读值)押[MKR]即可取得测试值②TRANSMISSIO NTEST插入损失.增益.相位.群延迟等测试分析˙Initialize(初始值设定)押[PRESET]键˙[START](起始频率设定)先押[START]键再押数字键设定˙[STOP](结束频率设定)先押[STOP]键再押数字键设定˙[CAL](校正设定)先押[CAL]键再押{CALMENU}键做2PORTFULLCAL在PORT1先押{REFLECT’N}装上OPENKID押{S11(PORT1)FWD:OPEN}装上SHORTKID押{S11(PORT1)FWD:SHORT}装上LOADKID押{S11(PORT1)FWD:LOAD}在PORT2装上OPENKID押{S22(PORT2)REV:OPEN}装上SHORTKID押{S22(PORT2)REV:SHORT}装上LOADKID押{S22(PORT2)REV:LOAD}再押{DONEREFLECT’N}再押。

756PC/754N/754使用说明书本说明书详细阐述了仪器的使用方法、故障排除及维护与保养等内容。

请在使用前仔细阅读本说明，并请妥善保管以备日后查阅。

制造计量器具许可证编号: 沪制********号章节标题页码1 性能指标 (1)2.安装 (2)2.1电源需求 (2)2.1.1供电电压 (2)2.1.2供电频率 (2)2.1.3供电容量 (2)2.2安装条件 (2)2.2.1安装空间 (2)2.2.2安装平面 (2)2.2.3安装场所的环境要求 (2)2.3安装光盘 (2)2.4检查内容 (2)2.4.1检查包装 (2)2.4.2按照装箱单进行检查 (2)2.5电源线的连接 (2)2.6安装后检查 (3)2.7加电 (3)3部件功能 (3)3.1主机左前视图 (3)3.2主机后视图 (4)3.3操作面板 (5)4仪器操作 (6)4.1仪器功能结构图 (7)4.2 仪器启动和系统自检 (7)4.2.1 仪器启动 (7)4.2.2 系统自检 (7)4.2.3 进入系统主界面 (8)4.3 光度测量功能 (9)4.3.1进入光度测量主界面 (9)4.3.2设定测量模式 (9)4.3.3设定工作波长 (9)4.3.4校空白 (10)4.3.5数据记录测量 (10)4.3.6删除数据 (10)4.3.7打印数据 (10)4.4定量测量功能 (10)4.4.1 首先设定工作波长 (11)4.4.2进入定量测量界面 (11)4.4.3标准曲线法 (11)4.4.3.1 进入标准曲线法界面 (12)4.4.3.2 新建曲线 (12)4.4.3.3 输入标样个数 (12)4.4.3.4 输入标样浓度 (13)（续）4.4.3.5 显示曲线信息 (13)4.4.3.6 进入测量结果显示界面 (13)4.4.3.7 可以重新设定工作波长 (13)4.4.3.8 校空白 (14)4.4.3.9 数据记录测量 (14)4.4.3.10 删除数据 (14)4.4.3.11 打印数据 (14)4.4.4 打开曲线 (15)4.4.5 删除曲线 (15)4.4.6 系数法 (16)4.4.6.1 进入系数法 (16)4.4.6.2 进入设定曲线参数界面 (16)4.4.6.3 设定曲线参数K (17)4.4.6.4 设定曲线参数B (17)4.4.6.5 进入测量结果显示界面 (17)4.4.6.6 可以重新设定工作波长 (17)4.4.6.7 校空白 (18)4.4.6.8 数据记录测量 (18)4.4.6.9 删除数据 (18)4.4.6.10 打印数据 (18)4.4.7 选择浓度单位 (19)4.5 系统设定 (19)4.5.1 氘灯 (19)4.5.2 钨灯 (20)4.5.3 时间设置 (20)4.5.4 暗电流校正 (20)4.5.5 波长校正 (21)4.5.6 输入换灯波长 (21)4.5.7 恢复出厂设置 (21)4.5.8 版本信息 (21)5 周期检查和贮藏 (22)5.1 周期检查 (22)5.1.1 清扫样品室 (22)5.1.2 清扫聚焦镜 (22)5.2 贮藏 (22)5.2.1 完成测量以后 (22)5.2.2 长时间不使用 (22)1. 性能指标型号 756PC 754N / 754单色器 C-T 式单色器，1200线全息光栅 C-T 式单色器，1200线全息光栅 检测器 硅光二极管 硅光二极管显示器 128*64大屏幕液晶显示 128*64大屏幕液晶显示 光源 卤钨灯20W/12V （2000小时），氘灯（1000小时） 卤钨灯20W/12V （2000小时），氘灯（1000小时） 光源切换范围可在300nm-400nm 范围内设定光源切换点 可在300nm-400nm 范围设定光源切换点 波长范围 190~1100nm （步进间隔0.1nm ） 190~1100nm （步进间隔0.1nm ） 光谱带宽 2 nm 4 nm 波长准确度 ±1.0 nm （开机自动校准） ±1.0 nm （开机自动校准） 波长重复性 0.5 nm 0.5 nm 光度范围 -1.0 ~ 200.0%T -0.5 ~ 3.000Abs 0 ~ 9999 C 0 ~ 9999 F -1.0 ~ 200.0%T-0.5 ~ 3.000Abs 0 ~ 9999 C 0 ~ 9999 F透射比准确度±0.5 %T （0 – 100%T ） ±0.5 %T （0 – 100%T ） 透射比重复性±0.2 %T ±0.2 %T 杂散光 0.15 %T (在 220, 340 nm 处) 0.3 %T (在 220, 340 nm 处) 亮电流 / ±0.5 %T 暗电流 / ±0.2 %T 基线平直度 ±0.004A / 基线漂移 ±0.002A / 数据输出 USB 端口，LPT 并行打印口 USB 端口，LPT 并行打印口 软件支持 UV-Solution 工作站软件 UV-Solution 工作站软件（选配） 电源 220V ±±10% 50Hz 150VA 220V 10% 50Hz 150VA 标准样品架 四槽位标准样品架 四槽位标准样品架 仪器尺寸 465长 X 375宽 X 220高 毫米 456长 X 375宽 X 220高 毫米 仪器净重 14.0公斤 14.0公斤 包装尺寸 625长 X 520宽 X 348高 毫米 625长 X 520宽 X 348高 毫米 仪器毛重 17.5 公斤 17.5 公斤12. 安装2.1 电源需求2.1.1 供电电压供电电压(220V和110V)标记在供电电压选择开关的侧面（左面和右面）供电电压的波动范围在额定电压的±10%以内。

频谱仪使用说明更新记录更新版本更新内容更新日期更新人郑晓锋1.仪表用途及主要接口仪表用途频谱仪，是频谱分析仪的一个简称。

它的作用是以图形的方式显示被测信号的频谱，幅度，频率。

我们通常使用频谱仪功能如下：看频段，测峰值或平均功率，RS信号功率，EVM，星座图。

1．主要安捷伦和R&S 罗德频谱仪安捷伦频谱仪R&S 罗德频谱仪接口及连线注意：衰减器输入和输出不要接反，IN 口接输入，out 接频谱仪使用注意事项1.)前端口必须要连接隔直头，防止直流冲击导致仪表损坏；2.)如果遇到突然停电。

必须立即拔下电源插头，防止突然来电时的不稳定电源，过大电流冲击导致仪表的电源模块出现损伤；3.)必须放置在一个稳定的平面上，严禁放置在椅子上测试。

测试时必须远离酒精，水杯，烙铁等危险物品；4.)端口严禁悬空连接重量超过250g 的部件（如衰减器），严禁串接；5.)按下仪表面板按键时，注意用力适中，切勿用力过猛而损坏按键或导致按键使用寿命缩短；6.)使用仪表面板旋钮时，注意转速适中，切勿转速过快过猛而损坏旋钮或导致旋钮使用寿命缩短；旋钮固定螺丝松脱时，请及时紧固，以免影响使用7.) 禁止私自接U 盘；衰减器测试设备射频口频谱仪RF INPUT隔直头O U TI N2.仪表常用按键功能介绍1. 频率设置（仪表对应按键—FREQ Channel）此按键在信号源中唯一的作用为设置输出信号频率，在频谱仪中，默认设置为中心频点，也可以单独设置起始频点和终止频点，那样的话，带宽<SPAN>为固定默认值。

2. 带宽设置（仪表对应按键—SPAN X Scale）此按键在频谱仪中的作用为，当你设置了中心频点后，用此键来设置你的总带宽，也就是屏幕上X轴显示的总带宽。

比如中心频点为，带宽为20M，那么，你的测试和显示频率应该是1990MHz~2010MHz。

3. 电平设置（仪表对应按键—AMPTD Y Scale）此按键在频谱仪中的作用为，当你设置了频率和带宽后，用此键来设置你的显示高度值，也就是屏幕上Y轴显示的最大信号强度值。

STSitronixST7565P65 x 132 Dot Matrix LCD Controller/DriverVer 1.3 1/71 2004/4/7F E A T U R E Sz Direct display of RAM data through the display data RAM.z RAM capacity : 65 x 132 = 8580 bits zDisplay duty selectable by select pin 1/65 duty : 65 common x 132 segment 1/49 duty : 49 common x 132 segment 1/33 duty : 33 common x 132 segment 1/55 duty : 55 common x 132 segment 1/53 duty : 53 common x 132 segmentzHigh-speed 8-bit MPU interface (The chip can be connected directly to the both the 80x86 series MPUs and the 68000 series MPUs) /Serial interfaces are supported. z Abundant command functionsDisplay data Read/Write, display ON/OFF, Normal/ Reverse display mode, page address set, display start line set, column address set, status read, display all points ON/OFF, LCD bias set, electronic volume, read/modify/write, segment driver direction selects, power saver, static indicator, common output status select, Vo voltage regulation internal resistor ratio set. z Static drive circuit equipped internally for indicators. (1 system, with variable flashing speed.)zLow-power liquid crystal display power supply circuit equipped internally.Booster circuit (with Boost ratios of 2X/3X/4X/5X/6X , where the step-up voltage reference power supply can be input externally).High-accuracy voltage adjustment circuit (Thermal gradient –0.01%/°C ) V 0voltage regulator resistors equipped internally, V 1to V SS voltage divider resistors equipped internally, electronic volume function equipped internally, voltage follower.z CR oscillator circuit equipped internally (external clock can also be input)zExtremely low power consumption Operating power when the built-in power supply is used (an example) 60uA (V DD – V SS = V DD2 – V SS =3.0 V, Quad voltage, V 0– V SS = 11.0 V).Conditions: When displays pattern OFF and the normal mode is selected.zPower supply operate on the low 1.8 voltage Logic power supplyV DD – V SS = 1.8V to 3.3 V (+10% Range)Boost reference voltage: V DD2 – V SS = 2.4V to 3.3V Booster maximum voltage limited V OUT = 16.0V (+10% Range)Liquid crystal drive power supply: V 0– V SS = 4.0V to 13.0 Vz Wide range of operating temperatures: –40 to 85°C z CMOS processz Shipping forms include bare chip and TCP.zThese chips not designed for resistance to light or resistance to radiation.G E N E R A L D E S C R I P T I O NThe ST7565P is a single-chip dot matrix LCD driver that can be connected directly to a microprocessor bus. 8-bit parallel or serial display data sent from the microprocessor is stored in the internal display data RAM and the chip generates a LCD drive signal independent of the microprocessor. Because the chips in the ST7565P contain 65x132 bits of display data RAM and there is a 1-to-1 correspondence between the LCD panel pixels and the internal RAM bits, these chips enable displays with a high degree of freedom. The ST7565P chips contain 65 common output circuits and 132 segment output circuits, so that a single chip can drive a 65x132 dot display (capable of displaying 8 columnsx4 rowsof a 16x16 dot kanji font).Moreover, the capacity of the display can be extended through the use of master/slave structures between chips. The chips are able to minimize power consumption because no external operating clock is necessary for the display data RAM read/write operation. Furthermore, because each chip is equipped internally with a low-power LCD driver power supply, resistors for LCD driver power voltage adjustment and a display clock CR oscillator circuit, the ST7565P can be used to create the lowest power display system with the fewest components for high-performance portable devices.PART NO. V RS temperature gradientV RS range ST7565P-0.01%/°C2.1V ̈́0.03V0 7Ra’ and Rb’ is set to 5 uA,The Reset CircuitWhen the /RES input comes to the “L” level, these LSIs return to the default state. Their default states are as follows:1. Display OFF2. Normal display3. ADC select: Normal (ADC command D0 = “L”)4. Power control register: (D2, D1, D0) = (0, 0, 0)5. Serial interface internal register data clear6. LCD power supply bias rate:1/65 DUTY = 1/9 bias1/49,1/55,1/53 DUTY = 1/8 bias1/33 DUTY = 1/6 bias7. All-indicator lamps-on OFF (All-indicator lamps ON/OFF command D0 = “L”)8. Power saving clear9. V0voltage regulator internal resistors Ra and Rbseparation10. Output conditions of SEG and COM terminalsSEG=VSS , COM=VSS11. Read modify write OFF12. Static indicator OFF Static indicator register : (D1, D2) =(0, 0)13. Display start line set to first line14. Column address set to Address 015. Page address set to Page 016. Common output status normal17. V0 voltage regulator internal resistor ratio set mode clear18. Electronic volume register set mode clear Electronicvolume register :(D5,D4,D3,D2,D1,D0)=(1,0.0,0,0,0) 19. Test mode clear On the other hand, when the reset command is used, the above default settings from 11 to 19 are only executed. When the power is turned on, the IC internal state becomes unstable, and it is necessary to initialize it using the /RES terminal. After the initialization, each input terminal should be controlled normally.Moreover, when the control signal from the MPU is in the high impedance, an over current may flow to the IC. After applying a current, it is necessary to take proper measures to prevent the input terminal from getting into the high impedance state.If the internal liquid crystal power supply circuit is not used on ST7565P,it is necessary that /RES is “H” when the external liquid crystal power supply is turned on. This IC has the function to discharge V0when /RES is “L,” and the external power supply short-circuits to V ss when /RES is “L.” While /RES is “L,” the oscillator and the display timing generator stop, and the CL, FR, FRS and /DOF terminals are fixed to “H.” The terminals D0 to D7 are not affected. The V SS level is output from the SEG and COM output terminals. This means that an internal resistor is connected between V SS and V0.When the internal liquid crystal power supply circuit is not used on other models of ST7565P series, it is necessary that /RES is “L” when the external liquid crystal power supply is turned on.While /RES is “L,” the oscillator works but the display timing generator stops, and the CL, FR, FRS and /DOF terminals are fixed to “H.” The terminals D0 to D7 are not affected.Ver 1.3 41/71 2004/4/7。

Quick Start User GuideCAN 1. IntroductionThis Quick Start User Guide introduces users how to implement the I-7565-CPM module to their applications quickly. It helps you to familiarize yourself with the I-7565-CPM hardware configuration and utility operation. Therefore, it is only provided with the basic instructions. For more detail, please refer to the I-7565-CPM user manual in the product CD. Also, users can download the manual from the ICPDAS web site.CD Path: open/master/I-7565-CPM/user_manualWeb site: /products/Remote_IO/can_bus/I-7565-CPM.htm2. Terminator resister/Pin assignment/ Indicators z 120ΩTerminal Resister Settingz Pin assignment(1) 9-pin D-Sub male connector(2)IndicatorsACT LEDIf the I-7565-CPM is running normally, the ACT LED will be turned on always. If this LED is off, please check the power supply or contact to your distributor.Tx/Rx LEDIt is applied to check the status of the transmission and reception of CAN messages. If I-7565-CPM is transmitting or receiving a CAN message, the Tx/Rx LED will blink. If I-7565-CPM’s loading is heavy, the Tx/Rx LED will be always turned on.ERR LEDThe ERR LED indicates the error status of the CAN physical layer. It also indicates the errors due to the software/hardware message buffer overflow.PWR LEDThe power consumption of I-7565-CPM is 3W. If the power is given normally, the PWR LED and ACT LED will be turned on always. If this LED is off, please check the power supply or contact to your distributor.3. Install I-7565-CPM UtilityWe provide the I-7565-CPM Utility. There are several functions supported by the utility. They are shown as follows.1.Configure NMT mode, SYNC COBID, SYNC transmission time,Guard time, Life time, EMCY COBID, PDO polling time and SDOpolling time.2.Install the PDO or SDO object so that users can use it by using theutility.3.Remove CANopen node, PDO object or SDO object.4.Support TxPDO, RxPDO, TxSDO, and RxSDO.5. Record EMCY messages.Step 1: Download the I_7565_CPM Utility setup file from the web site/download/can/index.htm or the CD in the productbox.The path is “/Napdos/iCAN/CANopen_MASTER/I-7565-CPM”.Step 2: Execute the I_7565_CPM SETUP.exe file to install the CANopen master utility on your PC.Step 3: After finishing the installation of the I-7565-CPM Utility, users can find the I-7565-CPM Utility, the NMT_ Demo, the PDO_Demo, theSDO_Demo, and the DO_DI_AO_AI_Demo, as follows.4.Driver installation of I-7565-CPMWhen finishing the I-7565-CPM utility installation. The USB driver of I-7565-CPM can be found at the C:\ICPDAS\CAN_Gateway\I_7565_CPM\USB Driver\i-756x driverinstaller.exe, that will be used in 98/NT/Me/2000/XP windows environments. Then the installation process will copy the related material to the indicated directory and register the driver on your computer. The driver target directory is below for the different systems.Windows NT/2000 – WINNT\SYSTEM32\DRIVERSWindows 98/Me/XP – WINDOWS\SYSTEM32\DRIVERSing I-7565-CPM Utility5.1 Example for the demo applicationThe I-7565-CPM utility provides some useful and easy-to-use functions. Before using it, users need to prepare a computer, an I-7565-CPM, a CAN-8123and an I-8077, as follows. (CAN-8123+I-8077 is a DI/DO CANopen slave)Afterwards, run the Utility, I-7565-CPM.exe. The application interface will be shown as follows. Click the “Select COM” item to select the computer COM port, CAN bus baud rate and “Add Node Timeout”. The “Add Node Timeout” is the time interval between each two commands in adding node procedure. Then click X button to close the dialog. Click the “Scan” button in the main window to scan the I-7565-CPM. If there is an I-7565-CPM connected with users’ computer, the CANopen slaves which are in the same CANopen network with I-7565-CPM will be scanned.Select the “I7565CPM” item in the list, right click it, and select “add all Nodes” to add all scanned nodes. Then, users can configure the parameters of these CANopen nodes on the tree view. All of the selectable items in the right-clicked dialog are described below.1. Getting all node NMT modeÆ show the NMT states of all nodes in thefiled “parameters” immediately.2. Change all node NMT modeÆ Change the NMT states of all nodes, such asStop mode, Pre-Operation mode, Reset Node mode and Reset Communication mode.3. Shutdown I7565CPMÆ Shutdown the I-7565-CPM and change the NMT states of all CANopen nodes to Pre-operation mode.4. Add All NodesÆ Add all scanned CANopen nodes into the management list of the I-7565-CPM. Afterwards, users can use these nodes in the tree view of the utility.5. Save Polling ParametersÆ User can set the polling parameters of the PDO and SDO, then use this function to save the PDO and SDO polling configuration into the EEPROM of the I-7565-CPM. Please refer to chapter 4 of the user manual for how to configure the polling parameters of the PDO and SDO.5. Load Polling ParametersÆ Load the PDO and SDO configuration from the EEPROM of the I-7565-CPM.If users just want to add some node, select the CANopen nodes in the tree view, right click it, and select the item “Add Node” in the pop-up dialog.In order to configure this node after finishing the adding procedure, users can use the following method in the right-clicked dialog.1. Add NodeÆ Add the specified CANopen nodes into the management list of the I-7565-CPM. Afterwards, users can use it in the tree view of the utility.2. Remove NodeÆ Remove the CANopen slave node from the management list and clear the relative information in the EEPROM of the I-7565-CPM.3. Change NMT modeÆ Change the NMT state of the specified node. The NMT state may be Stop mode, Pre-Operation mode, Reset Node mode or Reset Communication mode.5.2 NMT FunctionWhen user clicks the item “NMT_Mode_nx”, the parameter will be shown in the filed “Parameters” as follows.NMT_Mode_nx, (x Æ ID Number(1, 2, …or127)).5.3 TxPDO FunctionIf users want to add a new PDO, click the “PDO_Tx_nx” item (Note: x ÆID Number(1, 2, …or127))in the list, then right click to select “Install TxPDO” item. The “Install TxPDO” dialog will be shown. Users have to set the “New COB-ID”, the “Subindex of PDO mapping object”, the “Data type”, the “Mapping index” and “Mapping sub-index” in the “Install TxPDO” dialog. The “New COB-ID” is the COB-ID of the object 0x1800~0x19FF. The “Subindex of PDO mapping object”, “Data type”, “Mapping Index (hex)”, and “Mapping Subindex (hex)” is the parameters of the object 0x1A00~0x1BFF.After finishing the configuration of the TxPDO, users can see the parameters of the specified TxPDO on the “Parameters” field by selecting the specified TxPDO COB-ID in the tree view.Users can select the specified PDO COB-ID in the tree view, and right click to select “Setting” item to configure the PDO parameter, such as transmission type and polling time. All of the selectable items in the right-clicked dialog are described below.1. Remove TxPDOÆ Remove selected PDO form a CANopen node.2. Setting Æ Set PDO transmission type or polling time of a CANopen node.3. Remove PollingÆ Remove selected PDO polling time.。

I-7560U/7561U/7563U User ManualU U S S B B t t o o R R S S--223322//442222//448855C C o o n n v v e e r r t t e e r r s s V V e e r r..11..11,,M M a a r r..22001166T ABLE OF C ONTENTSChapter 1 Introduction (4)1.1 Overview (5)1.2 Features (7)1.3 Applications (7)Chapter 2 Hardware Information (9)2.1 Front and Back View (10)2.1.1 I-7560U (10)2.1.2 I-7561U and I-7563U (11)2.2 Specifications (13)2.2.1 I-7560U (13)2.2.2 I-7561U (14)2.2.3 I-7563U (15)2.3 JP3: Output Type Selection (I-7561U Only) (16)2.4 Pin Assignments (18)2.4.1 I-7560U (18)2.4.2 I-7561U (18)2.4.3 I-7563U (19)2.5 Wiring Notes (20)2.5.1 RS-232 (20)2.5.2 RS-422 (21)2.5.3 RS-485 (21)2.6 Internal I/O Structure (22)2.6.1 I-7560U (22)2.6.2 I-7561U (23)2.6.3 I-7563U (24)2.7 Dimensions (25)2.7.1 I-7560U (25)2.7.2 I-7561U and I-7563U (26)Chapter 3 Software Installation (27)3.1 Obtaining the Driver Installer Package (28)3.2 Installing the I-756xU Series Drivers (29)3.3 PnP Driver Installation (33)3.4 Verifying the Installation (35)3.4.1 How do I get into Windows Device Manager? (35)3.4.2 Check that the Configuration of the COM Port (37)3.5 Uninstalling the Device Driver (38)Chapter 4 Manual Testing (39)4.1 Self-Test Wiring (40)4.1.1 I-7560U (RS-232 Wiring) (40)4.1.2 I-7561U (RS-232 Wiring) (40)4.1.3 I-7563U (RS-485 Wiring) (41)4.2 Testing the I-756xU Series Modules (42)4.2.1 I-7560U and I-7561U (42)4.2.2 I-7563U (44)Chapter 1IntroductionThe following is a brief overview of theI-756xU series modules, including thefeatures and applications.1.1OverviewWhat is USB?The Universal Serial Bus (USB) is an industry standard connectivity specification developed by computer and telecommunication industry members and is used to attach external peripherals to computers. USB was designed to standardize the connection of peripherals and eliminate the need to open the computer case in order to install additional interfaces needed for certain devices. USB is designed to meet the Microsoft Plug and Play (PnP) specifications, meaning that users can install and hot-swap external devices without requiring lengthy installation procedures and reducing the need to reboot the computer.The I-756xU USB to RS-232, RS-485 or RS-422 converter is a smart and convenient accessory that allows RS-232/RS-422/485 serial devices to be connected to a USB-equipped Windows or Linux host computer. The I-756xU provides a bridge connection that includes a standard DB 9-pin male serial port connector at one end and a standard Type-A USB plug connector at the other. Simply attach the serial device to the serial port on the cable and insert the USB connector into the USB port on the PC. This provides a convenient method of adding serial connections to the PC without having to install an additional serial card or perform the necessary configuration associated with a traditional port connection.This USB to Serial adapter is ideal for connecting modems, cellular phones, PDAs, digital cameras, card readers and other serial devices to your computer. It provides serial connections up to 1 Mbps of data transfer rate. And since USB does not require any IRQ resource, more devices can be attached to the system without the previous hassles of device and resource conflicts.The I-756xU USB-to-Serial adapter is fully compliant with the USB specifications and therefore supports advanced power management, such as suspend and resume operations as well as remote wakeup. I-756xU USB-to-Serial products are designed to work on Linux, Windows 98/ME/2000 and 32 and 64-bit Windows XP/Vista/7/8 operating systems.I-7560UThe I-7560U adaptor provides a Windows serial COM port via its USB connection and is fully compatible with both current and legacy RS-232 devices. The I-7560U features a full set of RS-232 modem data and control signals (TxD, RxD, RTS, CTS, DSR, DTR, DCD, RI and GND) on its PC compatible DB-9 male connector. It also features a high-speed transmission rate of 921.6 kbps and is powered from the USB bus, meaning that no additional powersupply is required.I-7561U and I-7563UThe I-7561U/I-7563U module is a cost-effective solution for transferring serial data via USB allowing serial devices to be connected to systems that use a USB interface. By connecting the I-7561U/I-7563U module to a PC, a single RS-232 or RS-422/485 port can be accessed. Both modules contain a "Self-Tuner" chip that automatically tunes the Baud Rate and Data Format to the RS-485 network. The modules are powered from the USB bus, meaning that an additional power adaptor is not required.The I-7563U is a USB-to-single channel RS-485 converter with a 3-way RS-485Hub. Each channel contains discrete RS-485 driver IC, providing support for star-shaped wiring network topology.1.2Features⏹Fully Compliant with the USB 1.1, 2.0 and 3.0⏹No External Power Supply required⏹Driver Supports Linux, Windows 98/ME/2000 and 32-/64-bit Windows XP/Vista/7/8 ⏹Operating Temperatures, -25 °C to +75 °C⏹Made from fire-retardant materials (UL94-V0 Level)[I-7561U/I-7563U only]⏹2500 V DC Isolation Protection⏹ESD Protection⏹Automatic RS-485 Direction Control⏹DIN-Rail Mounting1.3ApplicationsU S B t o R S-232C o n v e r t e r★★Host PCI-7000 Remote I/O Module I-7000 Remote I/O ModuleI-7000 Remote I/O ModuleI-7000 Remote I/O Module Three Way Isolated RS-485 Active Star Wiring HubI/O Expansion UnitU S B t o I s o l a t e d A c t i v e S t a r W i r I-7000 Remote I/O Module Serial Embedded ControllerIsolated RS-232 to Host PC★U S B t o I s o l a t R S -232/422/Wireless Modem Module RS-232/RS-485 InterfaceChapter 2Hardware InformationThis chapter provides a detailed description ofthe front and back panel, the hardwarespecifications, the pin assignments, wiring notes,the internal I/O structure and the dimensions forthe I-756xU series modules.1 Robust insulated and fire retardant case 2Serial COM PortThe I-7560U adaptor is equipped with a male DB-9 connector that is used to connect to an RS-232 device. For more detailed information regarding the pin assignments, refer to Sec. 2.4 “Pin Assignments”.3USB JackThe I-7560U adaptor is equipped with a Type B USB jack that is used to connect to the USB port on the Host PC via a USB cable.The I-7560U adaptor will accept a power input of +5 V DC from the USB bus.2.1 Front and Back View2.1.1 I-7560U4LED IndicatorOnce power is supplied to the I-7560U, the LED indicator will be illuminated as follows:Front and Back ViewLED BehaviorFunctionON (Red)Indicates that the power is ONBlinking (Yellow)Indicates that the serial port is busy42.1.2 I-7561U and I-7563U4 LED Indicator Once power is supplied to the I-7561U/7563U, the LED indicator will beilluminated as follows:5 DIN-RailMountingI-7561U/7563U modules include simple rail clips on the bottom of thechassis that allow them to be reliably mounted on a DIN-Rail or a wall, orthey can be piggybacked to another module. For more detailed informationregarding DIN-Rail Mounting, refer to the illustration in figure below.The numbers of serial COM ports dependson the type of I-7561U/I7563U module. Formore detailed information regarding theI-7561U/I-7563U modules areequipped with a Type BUSB jackthat is used to connect to the USB port on aHost PC via a USB cable.The I-7561U/I7563U modules will accept apower input of +5 V DC from the USB bus.Name LED Behavior FunctionPWR ON (Red) Indicates that the power is ONDIN-Rail MountingMountable DIN-Rail ModelsDIN-Railmounts are available in three size, and enable a variety of ICP DAS devices to be mounted. Each is made of stainless steel and has a ground wire attached at one end.Part NumberMaximum Number of ModulesDimensions DRS-125 2 125 mm x 35 mm DRS-2403 240 mm x 35 mm DRS-360 5360 mm x 35 mmMounting on a DIN-Rail Dismounting from a DIN-Rail2312132.2Specifications 2.2.1I-7560U2.2.2I-7561U2.2.3I-7563U2.3 JP3: Output Type Selection (I-7561U Only)The I-7561U module supports four different output types: ⏹ Type 1: 1-channel RS-485 output ⏹ Type 2: 1-channel RS-422 output⏹ Type 3: 2-channel RS-485 output (This type supports star wiring network) ⏹ Type 4: 1-channel RS-232 outputThe JP3 jumper is used to select the different output types. To select theType 1 (1-channel RS-485) and Type 2 (1-channel RS-422), pins2 and 3 must be shorted (factory default settings). To select the Type 3 (2-channel RS-485), pins1 and 2 must be shorted. To adjust the output type follows the procedure illustrated below:Note: that the RS-232, RS-422 and RS-485 output types cannot be usedsimultaneously, meaning that only one output type can be selected at any one time.Step 1: Removing both screws from the casing. Step 2: Remove the top half of the shell casing.To use Types 1 and 2 (1-channel RS-422 and 1-channel RS-485), adjust the jumper to the position indicated (Pins 2 and 3 – Factory default settings). To use Type 3 (2-channel RS-485), adjust the jumper to the position indicated (Pins 1 and 2).Step 3: To adjust the JP3 jumper to the position indicated.2.4Pin Assignments 2.4.1I-7560U2.4.2I-7561U2.4.3 I-7563UNote: For detailed information regarding the output type settings, refer to Sec. 2.3 “JP3: Output Type Selection (I-7561U Only)2.5 Wiring Notes2.5.1 RS-2322.5.2 RS-4222.5.3 RS-4852.6Internal I/O Structure 2.6.1I-7560U2.6.2I-7561U2.6.3I-7563U2.7Dimensions2.7.1I-7560UUnit: mmTop View Bottom View2.7.2I-7561U and I-7563UUnit: mmTop View Right Side ViewChapter 3Software InstallationThis chapter provides a detailed description ofthe process for installing the I-756xU seriesdriver and how to verify whether the I-756xUwas properly installed.3.1 Obtaining the Driver Installer PackageI-7560U/7561U/7563U modules can be used on Linux and Windows 98/ME/2000 and 32-/64-bit Windows XP/Vista/7/8/10 based systems, and the drivers are fully Plug and Play (PnP) compliant for easy installation.The driver installer package for the ICP DAS I-756xU series can be found on the supplied CD-ROM, or can be obtained from the ICP DAS FTP web site. The location and addresses are indicated in the table below:CD:\\ NAPDOS\UsbConverter\I-756xU_series\ftp:///pub/cd/Usb_tM/NAPDOS/UsbConverter/I-756xU_series//pub/cd/usb_tm/napdos/usbconverter/i-756xu_series/Install the appropriate driver for your operating system, as follows:NameOS USB-2514_tM-7561_I-756xU_Driver_xxxx.exe For Microsoft Windows 98/ME/2000 and32/64-bit Windows XP/Vista/7/8/10.I-756x_Linux_Manual For detailed information regarding installation of theLinux driver, please refer toI-756x_Linux_Manual.pdf.3.2Installing the I-756xU Series DriversTo install the I-756xU series drivers, follow the procedure described below:Step 1:Double click the “USB-2514_tM-7561_I-756xU_Driver_xxxxx.exe”to execute the driver installer application.Step 2:Click the “Next>” button to start installation.Step 3:Select the destination folder. The default path isC:\ICPDAS\USB_2514_tM_7561_I_756xU. Verify that the destination path is correct and click the “Next>” button.Step 4:Click the “Next>” button.Step 5: A warning dialog box will be displayed asking you to confirm whether you want to installthe device software. The type of warning that is displayed will depend on which operating system is being used. Refer to the following figures for details.Step 6: Click the “Finish ” button to complete the installation.Note: The “Software Installation3.3PnP Driver InstallationTo install the PnP USB drivers follow the procedure described below:Step 1:Locate the USB port on yourcomputer and insert the USB cablefor the I-756xU series module.Step 2:Once connected, the operating system should detect the new hardware and then display the “Found New Hardware Wizard” to continue the PnP driver installation.Step 3:Select the “Install the software automatically [Recommended]” option and then click the “Next>”button.Step 4:Once the installation is complete, click the “Finish” button.3.4Verifying the InstallationPlease open the Device Manager to verify the installation.Below are the steps for entering the Device Manager in each of the major versions of Windows. Refer to appropriate for your OS, continue to complete the following steps:3.4.1 How do I get into Windows Device Manager?⏹Microsoft Windows 2000/XP usersStep 1:Select “Start→ Settings→ ControlPanel”and double-click the“System”icon.Step 2:Click the“Hardware”tab and thenclick the “Device Manager” button.⏹Microsoft Windows Vista/7 usersStep 1:Click on the “Start” button.Step 2:In the Start Search box type device manager and then press enters.Microsoft Windows 8 usersStep 1:To show the Start screen icon from thedesktop view, simply hover your cursor over thebottom-left corner of your screen. (Or usingkeyboard shortcuts, click[Windows Key] +[ X]toopen the Start Menu.)Step 2:Right-click on the Start screen iconthen click on “Device Manager”.Right-click3.4.2 Check that the Configuration of the COM PortStep 3: Expand the “Ports (COM & LPT)” section, and verify that the COM port for I-756xU USBserial converter are listed correctly.Note: COM port mapping is automatically applied depending on the PC.Installation successful3.5 Uninstalling the Device DriverThe ICP DAS I-756xU series device driver includes an uninstallation utility that allows you remove the software from your computer. To uninstall the software, follow the procedure described below:Step 1:Double click the unins000.exe uninstaller application,which can be found in the following folder:C:\ICPDAS\USB_2514_tM_7561_I_756xU\.Step 2: A dialog box will be displayed asking you to confirm that you want to remove the utilityprogram. Click the “Yes ” button to continue.Step 3: The “Remove Shared File?” dialog box willthen be displayed to confirm whether youwant to remove any shared files. Click the“Yes to All ” button to continue.Step 4: After the uninstallation process is complete, a dialog box will be displayed to you that thedriver was successfully removed. Click the “OK ” button to finish the uninstallation process.Chapter 4Manual TestingThis chapter provides detailed information aboutthe “Self-Tes t” process, which is used to confirmthat the I-756xU series module is operatingcorrectly. Before beginning the “Self-T est” process,the driver installation must be completed. Fordetailed information regarding driver installation,refer to Chapter 3.4.1 Self-Test Wiring4.1.1 I-7560U (RS-232 Wiring) To test the wiring for the I-7560U module, follow the procedure described below: Step 1: Locate the USB port on your computer and insert the USB cable for the I-7560U module. Step 2: Use the DN-09-2 daughterboard (optional) to connect to the I-7560U module. Step 3: Short the RxD and TxD pins (Pin 02 <-> Pin 03). For detailed information regarding RS-232wiring, refer to Sec. 2.5 “Wiring Notes ”.4.1.2 I-7561U (RS-232 Wiring) To test the wiring for the I-7561U module, follow the procedure described below: Step 1:Locate the USB port onyour computer and insertthe USB cable for theI-7561U module.Step 2:Short the RxD and TxD pins (Pin 07 <-> Pin 08). Fordetailed information regarding RS-232/422/485 wiring,refer to Sec. 2.5 “Wiring Notes”.4.1.3I-7563U (RS-485 Wiring)To test the wiring for the I-7563U module (use two pcs of I-7563U), follow the procedure described below:Step 1:Locate the USB port on your computer and insert the USB cable for the I-7563U module. Step 2:Data1+ of I-7563U #1 connect to Data1+ of I-7563U #2 (Pin 10 <-> Pin 10), and Data1- of I-7563U #1 connect to Data1- of I-7563U #2 (Pin 09 <-> Pin09 ). For detailed information regarding RS-485 wiring, refer to Sec. 2.5 “Wiring Notes”.4.2 Testing the I-756xU Series ModulesTo test the functions of the I-756xU module, follow the procedure described below:Step 1: Execute the Test2COM.exe utility, which can be downloaded from:ftp:///pub/cd/iocard/pci/napdos/multiport/utility//pub/cd/iocard/pci/napdos/multiport/utility/4.2.1 I-7560U and I-7561UStep 2: Set the appropriate COM Ports, Bard Rate and Data Format, as indicated in the diagrambelow: 1. COM Ports: Enter COM4 in both fields (see Sec. 3.4) 2. Data Bits: 83. Parity: None4. Stop Bits: 15. Baud Rates: Check all values from 300 to9216006. Loop: 17. Click the “Start Test ”button to begin the test.Note: COM port mapping is applied automatically depending on the PC. Confirm COM Port number for I-756xU series module in the Device Manager (see Sec. 3.4) and then use this value to test the COM Port in the Test2COM Utility.❹ ❷ ❸ ❻ ❼❺Step 3: Once the test is complete, verify the test results.Step 4: If the result indicates that the test was successful, the expanded COM port is ready-to-use.Test Result: “Failed Test: 0”4.2.2 I-7563UStep 2: Set the appropriate COM Ports, Bard Rate and Data Format, as indicated in the diagram below:Note: COM port mapping is applied automatically depending on the PC. Confirm COM Port number for I-756xU series module in the Device Manager (see Sec. 3.4) and then use this value to test the COM Port in the Test2COM Utility.4. COM Ports: Enter COM2/COM3 in both fields (see Sec. 3.4)5. Data Bits: 86. Parity: None7. Stop Bits: 1 1.Baud Rates: Check all values from 300 to 921600 2. Loop: 1 3. Click the “Start Test ” button to begin the test. ❼❸ ❷ ❹ ❺ ❻Step 3: Once the test is complete, verify the test results.Step 4: If the result indicates that the test was successful, the expanded COM port is ready-to-use.Test Result: “Failed Test: 0”。

156ASRock Z75 Pro3 Motherboard1. 主板簡介謝謝你采用了華擎Z75 Pro3主板,本主板由華擎嚴格制造,質量可靠,穩定性好,能夠獲得卓越的性能。

本安裝指南介紹了安裝主板的步驟。

更加詳細的主板信息可參看驅動光盤的用戶手冊。

1.1 包裝盒內物品華擎Z75 Pro3主板 (ATX 規格: 12.0英吋 X 7.6英吋, 30.5厘米 X 19.3厘米)華擎Z75 Pro3快速安裝指南華擎Z75 Pro3支持光盤兩條Serial ATA(SATA)數據線(選配)一塊I/O擋板ASRock提醒您...為了在 Windows ®7 / 7 64-bit / Vista TM / Vista TM 64-bit 系統中取得更好的性能，建議您在BIOS中將Storage Configuration（存儲配置）選項設成AHCI模式。

關于BIOS設置程序，請參見支持光盤中的“User Manual”以了解相詳細信息。

簡體中文157ASRock Z75 Pro3 Motherboard簡體中文1.2 主板規格架构 - ATX 規格: 12.0英吋 X 7.6英吋, 30.5厘米 X 19.3厘米 - 全固態電容設計處理器 - 支持第三代和二代Intel ® Core TMi7 / i5 / i3處理器 (LGA1155針腳)- Digi 電源設計- 4 + 1電源相位設計- 支持Intel ®Turbo Boost 2.0技術 - 支持K-系列解鎖的CPU- 支持 Hyper-Threading 超線程技術（詳見警告1）- 支持Intel ® Ivy Bridge CPU 的Intel ®快速啟動技術和Intel ®智能連接技術芯片組 - Intel ®Z75系統內存 - 支持雙通道DDR3內存技術（見警告2） - 配備四個DDR3 DIMM 插槽- 支持DDR3 2800+(超頻)/2400(超頻)/2133(超頻)/1866 (超頻)/1600/1333/1066 non-ECC、un-buffered 內存 - 最高支持32GB 系統容量（見警告3）- 支持Intel ®Extreme Memory Profile(XMP)1.3/1.2擴展插槽 - 1 x PCI Express 3.0 x16插槽(PCIE2: x16模式)（見警告4）*使用Intel ®Ivy Bridge CPU 方可支持PCIE 3.0。

作成 审核批准管控章一、 目的及其适用范围建立贴片机作业规范，作为操作人员的作业依据，以达到作业质量一致，安全操作之目的。

适用本公司SMT 车间三星SM421操作 二、 操作方法2.1启动设备前的检查：检查设备周围的安全状况，设备内部有无杂物。

2.2打开主气源与电源2.3打开设备电源：顺时针方向拧设备前面的Main 开关，给设备供应电源。

2.4检查气压是否正常，气压：4.5-5.5kg/cm 2 2.5操作面板介绍。

（如下图）2.6待设备进入操作软件界面后点击操作面板上的F/R SELECT-LOCK 键，再点击Servo free 键，按键LED 灯亮时，表示伺服已解锁。

2.7设备原点复位:点击界面上的 应用 —暖机—输入暖机时间（10分钟）及使用设定的暖机时间项打勾—开 始。

2.8根据所生产的机型打开主界面左下方“打开”的文件夹，选择相应机型贴片程序文件名（文件格式OPT ）。

2.9调整轨道宽度及摆放顶针（生产双面板时顶针摆放不能顶到元件）。

2.10打开程序后点击：喂料器—只显示已设定的喂料器项打勾—按照程序排好的站位装送料器—核对料站— —填写换料记录。

2.11生产运行：进入主界面点击，生产—完成—PCB 板下载—开始—START 键。

2.12暂停生产：在设备运转中，单击红色STOP 键可以使设备停止运转，重新单击START 键则可重新开始 生产。

START ：开始键Servo free:伺服解锁键STOP ：暂停、停止键F/RSELECT-LOCK 前后面板切换键RESET 复位键FEEDERCHANG E:送料器切换键EMERGEN CY:紧急按键。