GM-003A 文件总览表

5G规模试验基本性能对比测试规范版本号：3.5目录目录 (II)1.范围 (8)2.规范性引用文件 (8)3.术语、定义和缩略语 (8)4.测试环境基本要求 (9)4.1网络结构与规模 (9)4.2测试区域与路线 (9)4.3测试网络基本配置 (10)4.4配合测试设备 (11)4.5加扰方式 (11)4.6测试结果格式 (12)4.7选点原则 (12)4.8Duplication (12)5.NSA室外覆盖性能 (12)5.1扫频 (12)5.2室外下行-孤站-法线 (13)5.3室外上行-孤站-法线 (13)5.4室外下行-空扰-法线 (13)5.5室外上行-空扰-法线 (13)5.6室外下行-空扰-60度 (13)5.7室外上行-空扰-60度 (14)5.8室外下行-加扰-法线 (14)5.9室外上行-加扰-法线 (14)5.10室外下行-加扰-60度 (14)5.11室外上行-加扰-60度 (14)6.NSA接入性能 (14)6.1PRACH-Format 0–孤站 (14)6.2PRACH-Format B4-孤站 (15)6.3PRACH-Format C2-孤站 (15)6.4PRACH-Format 0-空扰 (15)6.5PRACH-Format B4-空扰 (15)6.6PRACH-Format C2-空扰 (15)7.NSA室外覆盖室内性能 (16)7.1室外覆盖室内-下行-空扰 (16)7.2室外覆盖室内-上行-空扰 (16)8.NSA单用户速率 (16)8.1极好点-下行-空扰 (16)8.2极好点-上行-空扰 (17)8.3极好点-下行-加扰 (17)8.4极好点-上行-加扰 (17)8.5好点-下行-空扰 (17)8.7好点-下行-加扰 (17)8.8好点-上行-加扰 (17)8.9中点-下行-空扰 (17)8.10中点-上行-空扰 (18)8.11中点-下行-加扰 (18)8.12中点-上行-加扰 (18)8.13差点-下行-空扰 (18)8.14差点-上行-空扰 (18)8.15差点-下行-加扰 (18)8.16差点-上行-加扰 (18)9.NSA小区吞吐量 (18)9.1小区峰值吞吐量-下行-空扰 (18)9.2小区峰值吞吐量-上行-空扰 (19)9.3小区峰值吞吐量-下行-加扰 (19)9.4小区峰值吞吐量-上行-加扰 (19)9.5小区峰值吞吐量-并行-空扰 (19)9.6小区峰值吞吐量-并行-加扰 (19)9.7小区平均吞吐量-下行-孤站 (19)9.8小区平均吞吐量-下行-空扰 (20)9.9小区平均吞吐量-上行-空扰 (20)9.10小区平均吞吐量-下行-加扰 (20)9.11小区平均吞吐量-上行-加扰 (20)10.NSA干扰余量 (20)10.1下行干扰余量 (20)10.2上行干扰余量 (20)11.NSA移动性 (21)11.1全网遍历-空扰 (21)11.2全网遍历-50%加扰 (21)11.3全网遍历-100%加扰 (21)12.NSA控制面时延 (21)12.1好点 (21)12.2中点 (22)12.3差点 (22)13.NSA用户面时延 (22)13.1好点-32B-空扰 (22)13.2好点-32B-加扰 (23)13.3好点-2000B-空扰 (23)13.4好点-2000B-加扰 (23)13.5中点-32B-空扰 (23)13.6中点-32B-加扰 (23)13.7中点-2000B-空扰 (23)13.8中点-2000B-加扰 (23)13.9差点-32B-空扰 (23)13.11差点-2000B-空扰 (23)13.12差点-2000B-加扰 (24)14.NSA Duplication 性能 (24)14.1好点-空扰 (24)14.2好点-加扰 (24)15.SA室外覆盖性能 (24)15.1扫频 (24)15.2室外下行-孤站-法线 (24)15.3室外上行-孤站-法线 (25)15.4室外下行-空扰-法线 (25)15.5室外上行-空扰-法线 (25)15.6室外下行-空扰-60度 (25)15.7室外上行-空扰-60度 (25)15.8室外下行-加扰-法线 (25)15.9室外上行-加扰-法线 (25)15.10室外下行-加扰-60度 (25)15.11室外上行-加扰-60度 (25)16.SA接入性能 (26)16.1PRACH-Format 0–孤站 (26)16.2PRACH-Format B4-孤站 (26)16.3PRACH-Format C2-孤站 (26)16.4PRACH-Format 0-空扰 (26)16.5PRACH-Format B4-空扰 (26)16.6PRACH-Format C2-空扰 (26)17.SA室外覆盖室内性能 (26)17.1室外覆盖室内-下行-空扰 (26)17.2室外覆盖室内-上行-空扰 (26)18.SA单用户速率 (27)18.1极好点-下行-空扰 (27)18.2极好点-上行-空扰 (27)18.3极好点-下行-加扰 (27)18.4极好点-上行-加扰 (27)18.5好点-下行-空扰 (27)18.6好点-上行-空扰 (27)18.7好点-下行-加扰 (27)18.8好点-上行-加扰 (27)18.9中点-下行-空扰 (27)18.10中点-上行-空扰 (27)18.11中点-下行-加扰 (28)18.12中点-上行-加扰 (28)18.13差点-下行-空扰 (28)18.14差点-上行-空扰 (28)18.15差点-下行-加扰 (28)19.SA小区吞吐量 (28)19.1小区峰值吞吐量-下行-空扰 (28)19.2小区峰值吞吐量-上行-空扰 (28)19.3小区峰值吞吐量-下行-加扰 (28)19.4小区峰值吞吐量-上行-加扰 (29)19.5小区峰值吞吐量-并行-空扰 (29)19.6小区峰值吞吐量-并行-加扰 (29)19.7小区平均吞吐量-下行-孤站 (29)19.8小区平均吞吐量-下行-空扰 (29)19.9小区平均吞吐量-上行-空扰 (29)19.10小区平均吞吐量-下行-加扰 (29)19.11小区平均吞吐量-上行-加扰 (29)20.SA干扰余量 (29)20.1下行干扰余量 (29)20.2上行干扰余量 (29)21.SA移动性 (30)21.1全网遍历-空扰 (30)21.2全网遍历-50%加扰 (30)21.3全网遍历-100%加扰 (30)22.SA控制面时延 (30)22.1Idle态-好点 (30)22.2Idle态-中点 (30)22.3Idle态-差点 (30)22.4Inactive态-好点 (30)22.5Inactive态-中点 (30)22.6Inactive态-差点 (31)23.SA用户面时延 (31)23.1好点-32B-空扰 (31)23.2好点-32B-加扰 (31)23.3好点-2000B-空扰 (31)23.4好点-2000B-加扰 (31)23.5中点-32B-空扰 (31)23.6中点-32B-加扰 (31)23.7中点-2000B-空扰 (31)23.8中点-2000B-加扰 (31)23.9差点-32B-空扰 (31)23.10差点-32B-加扰 (32)23.11差点-2000B-空扰 (32)23.12差点-2000B-加扰 (32)24.SA Duplication性能 (32)24.1好点-空扰 (32)24.2好点-加扰 (32)25.NSA升级/改造过程记录 (32)26.编制历史 (32)前言本标准旨在规范5G大规模外场测试评估方法，及其所涉及的测试例及测试步骤，为开展5G外场测试性能评估制定基本参考规范。

1. Introduction (4)2. Installing the eLAN-RF-003, IP address (5)3. Logging in to the web interface eLAN-RF-003 (6)4. Settings (7)Description of functions (8)Adding RF actuators to the floorplan (15)RF control actuators (16)Starting up scenes (16)Before you beginThe instruction manual provides information on installing and operating the device. The instruction manual is always a part of the supply. Only perform installation after becoming thoroughly familiar with this User Guide and device functions. Problem-free function of the device also depends on the way it was shipped, stored and handled. If you notice any signs of damage, deformation, malfunction or a missing part, do not install this product and return it to the point of sale. At the end of its service life, the product and its parts must be treated as electronic waste. Before starting the installation, make sure that all wires and connected parts are not under voltage. When assembling and performing maintenance, you must uphold safety regulations, standards, directives and special provisions for working with electrical equipment.1.IntroductionCongratulations on purchasing the Smart RF box eLAN-RF-003 control unit, an element of the RF Control wireless system.• The smart RF box Enables you to control your electrical installation by smartphone,tablet, Samsung smart-watch Gear S2 or SMART TV.• It transmits and receives commands of up to 40 units, and it processes set programs for automatic control, (you can gradually expand installation from 1 unit iNELS RF Control).• Thanks to bi-directional communication, it visualizes the current status of individual units.• The smart RF box eLAN-RF-003 is connected by network cable LAN to the home network (router) and communicates with your smart phone.• The intuitive application environment offers central control from one place.• Function of application iHC-MAIRF / iHC-MIIRF / iHC-WTRF:- control of hot water or electric underfloor heating- measuring temperature by wireless sensors- switching appliances (garage door, blinds, fan, sprinklers, sockets, etc.)- dimming lights (LED, energy-saving, halogen or classic lamps)- time switching (delayed switching off of light when leaving room)- video camera integration- scenes (make multiple commands at once with a single press).• If you don‘t have a fixed IP address, the Smart RF box will obtain it from DHCP server automatically.• Power is supplied to the Smart RF box via adapter 10-27V DC (included in the supply) or PoE by power source (router) 24V DC.• By connecting two Smart RF boxes by LAN cable, you avoid the problem of lack of signal range.• Option of setting via web interface or directly in the application iHC-MAIRF (Android) / iHC-MIIRF (iPhone).• The package includes an internal antenna AN-I, in case the Smart RF box is located in a metal switchboard, you can use the external antenna AN-E for better signal reception.*• Range up to 100 m (in open s pace), if the signal is insufficient between the Smart RF box and unit, use the signal repeater RFRP-20.• Communication frequency with bidirectional protocol iNELS RF Control.* Max Tightening Torque for antenna connector is 0.56 Nm.Attention:The minimum distance between the controller (system unit) and the actuator must not be less than one centimeter.Setting options:• max. number of actuator - 40• max. number of temperature zones - 16• max. number of time schedules - 16• max. number of central sources - 10• max. number of heating and cooling devices in a heating zone - 10• max. number of intervals in a time schedule – 82.Installing the eLAN-RF-003, IP address∙Connect the eLAN-RF-003 to the power source, connect it to your local network via Ethernet cable.Your local network (router) assigns the eLAN-RF-003 its IP address.Dynamic IP address assignment (DHCP) is enabled by default.∙Install the application in your smartphone:for mobile telephone with OS Android: download the current version at Google Play (under the name iHC-MAIRF).https:///store/apps/details?id=cz.elkoep.ihc_marf_us&hl=enfor mobile telephones with IOS: download the current version under the name iHC-MIIRF in the app store.https:///cz/app/inels-home-control-rf-for-iphone/id1189384684?mt=8∙In the installed application, in the Settings menu, select eLAN Settings. Press the icon - search.Discovered eLAN-RF-003 units appear that are found in your network to which you are currently connected by phone (home network) as well as their IP addresses. Here you will find the IP address assigned to the given eLAN-RF-003.3.Logging in to the web interface eLAN-RF-003∙Run the web browser.∙In the Internet browser in the panel Address add the IP address of your eLAN-RF-003.∙After confirming the entered IP address, the web server's login page will come up.∙The factory settings for signing in as administrator are:Name: adminPassword: elkoepIt is possible to log into the eLAN-RF-003 web interface either as:administrator (admin) with full access to controls and settingsuser (user) has the option of controlling the device∙Both users log into the same dialog field (Login, Password), but each uses his/her own name and password∙Confirm the log in by pressing: Login.Note: Perform RESET of the eLAN-RF-003 unit by a long press of the button on the device front panel until the yellow LED starts flashing. Reset ends after the LED shuts off. The IP address and login data return to factory settings and obtaining an IP address automatically (DHCP) is selected.The factory setting of the password for logging in as admin and user is: elkoep4.SettingsAfter logging in your browser opens a window where you can see the devices associated to the room. If you set multiple rooms, you can switch between them by arrows, located in the upper right corner.Clicking on the Settings icon displays the menuDescription of functionsBy clicking on the Setting elan the basic menu settings are displayed.∙By pressing Log out, you will log out of the web interfaceeLAN-RF-003.∙By pressing the button Accounts, you will display a windowfor changing login data.∙By pressing the button Load settings, you can restore your stored settings, which you have already stored in your PC (the file has the extension .bin).∙By pressing the button Save settings, you can save the current settings of your eLAN-RF-003 including network settings.∙The button IP Settings is to configure network settings that you can change any time based on your network.In case you set the static IP address, you have to find it by using the application (see detailed manual for applications).Note: If you change the IP address (setup a static IP address), to log into the eLAN-RF-003 you must use the new IP address. If the new IP address that you entered is not in the same subnetwork, the connection will not work if settings are not changed in the connected device (PC, iMM Client) to the same subnetwork.∙The button Update firmware is used to update the firmware in your eLAN-RF-003.When updating the eLAN-RF-003, proceed according to the following instructions:1. Download the latest firmware version from the website /products/inels-rf-control-wireless-control/system-units/smart-rf-box-elan-rf-003-8488/2. Click on the button Update firmware, select the downloaded file (the update file must always include the extension *.bin), and click on it. After confirming by pressing OK, the update of your firmware in your eLAN-RF-003 automatically starts.Note: do not turn off device or use the Reset button when updating the firmware. the eLAN-RF-003 restarts after updating. After the firmware update, all settings will remain preserved. This means that the set IP, login data, visualization panel will remain the same as with the FW version prior to the update.∙The button RF mode is used to switch the mode of your eLAN-RF-003.RepeaterThe Repeater function is an independent function of eLAN-RF-003 and is used to increase range between RF controllers (system elements) and RF elements.Use: an eLAN-RF-003 device configured for a repeater can only be connected to the supply voltage, and it will then function just the same as the RFRP-20. This means if it receives a command from the RF controller or RF detector, it resends it to a designated RF element and vice-versa.∙Oasis compatibleEnables the repeater function to serve unidirectionally communicating units (RF Key, RFWB, RFIM, detectors, etc.).∙RF Touch compatibleEnables the repeater function to serve bidirectionally communicating units (RF Touch, etc.).∙List of addressesRepeated address settings - write into the list of addresses those elements with which you want the eLAN RF. If you set the eLANs to the Router mode, the same addresses must be set for both eLANs…After setting the function Repeater, eLAN restarts.RouterThe Router function is used to extend the distance and control of RF elements by connecting two eLANs into the LAN network.▪The first eLAN (so-called Master) must be set during configuration in the Router function, it receives all RF commands of controllers via an RF signal. It assess the limitations and permissions of addresses.▪The second eLAN (so-called Slave) assess all commands from the eLAN Master determined for sending by RF signal. It sends valid messages by RF signal to controlled elements. If a response comes from an element, it sends it to the eLAN Master.It is necessary to enter into the settings the LAN parameters of the second eLAN -Slave (IP address, login data).The second eLAN Slave can be configured in two ways.▪Active function Repeater – this receives commands via the Ethernet network and via the RF network.Example: eLAN Slave catches the RF signal of the RF controller, saves it asRepeater (signal repeater), and sends the RF signal further along.▪Active function Router– eLAN is in its basic setting. eLAN only receives commands from the Ethernet network, and ignores all RF signals.∙Oasis compatible - the sames as with the Repeater function.∙RF Touch compatible - the sames as with the Repeater function.∙ist of addresses - the sames as with the Repeater function. The same addresses must be set for both eLANs.After setting the function Router, eLAN restarts.∙Button Date & TimeHere the IP address of the NTP server is set by default, which determines for the eLAN the precise time via the Internet. You can also set the time zone in which the eLAN is located. By selecting Daylight Saving Time, you can manually set the daylight saving time.Time of eLAN-RF-003 is automatically set from NTP server.If your eLAN-RF-003 is not connected to internet network, then time is always set to 12:00 AM, the current day is set manually with button Manual.During power failure, time information is erased from eLAN memory.Button Reboot –to restart the device eLAN-RF-003.Button Devices is used for adding RF actuators to the eLAN-RF-003.Button (+) - add a new RF element:1. Product Type – select RF element2. Address – enter the address of the RF element that is listed right on the box of the addedRF element (six-character code).3. Label - any naming of the element, e.g. "Kitchen light".4. Type - select the type of icon (e.g. light), which will be displayed on the floorplan. Create you will store the RF actuator in the eLAN-RF-003.Button - remove all elements.Button Rooms displays created rooms.By pressing the button (+).If you click on the button (+), a table is displayed in which you fill in:1. Label gives an arbitrary name to the room (you can use diacritical marks, gaps and others...)2. Type– here you select the type of room or type of icon that you will then display after enteringthe floorplan on the desktop.3. Floorplan– here select the floorplan (image) that you added before in the tab Floorplans.By pressing you can remove all added rooms.Name of roomButtonl Scenes – Here any scenes are created based on user requirements. It is possible to create scenes only after you add rooms and actuators.Button (+) - add a new scene:1. Label - enter any name of the scene (you can use diacritical marks and spaces inbetween…).2. Actions - (+) – add an RF element.When adding an actuator, its function-action is set switching, dimming, etc.).If for an actuator, you select the function ON , you must still confirm this function by its precise status in the table Choose value, e.g. true – for switching on or false – switching off.After adding all actuators and their required functions, click on Create, thereby saving the entire scene.Button Floorplans here you can add floorplans (images, layouts….).Button (+) - add a new floorplan:1. Select the required image for the floorplan (stored in your PC).2. ID – enter the name of the floorplan. Confirm by pressing OK.The number of floorplans is limited by the memory size of the eLAN-RF-003.Memory Status, see the icon on the top toolbarAdding RF actuators to the floorplanClick on Rooms in the room panel, where you want to add the required RF components. On the desktop menu the room appears (there any correction can be made).Click the Continue button to display a list components associated with the eLAN. Click on individual elements to add to the room.- If a floor plan is assigned to a room, you can move the components in the room freely.- If a floor plan is not assigned to a room, the components are ranked next to each other and you cannot assign them to move over the area freely.Save by clicking on the Create button.Deleting components from the room is carried out using the Helpapplication.RF control actuators-Mobile phone help application-Clicking on the component icon (1) to start the function settings (switch-off delay ...).-Click on the name of the component (2) to display all its functions, where you can select which function is performed (delayed closing - including setup time, brightness adjustment ...). Thermal components can only be controlled by the application on your phone; on the web interface only the information about the measured / set temperature is displayed.Starting up scenes- Clicking on the icon Scenes (3) displays a list of pre-set scenes.- Click on the scene you want to start setting the scene (turn off all-delay ...).。

管理体系审核检查表审核过程S3 设备工装管理过程责任部门生产部审核员张楠、邓见东审核日期 2020.5.22表单编号：ZW-18-003 A1第 1 页 共 2 页 序号 审核方法 过 程 内 容相关条款判 定 审核记录符合 不符合1客户财产管理程序/偶发事件应急响应计划/生产设备管理程序本过程的输入、输出、过程拥有者、责任部门、资源要求和目标以及方法有哪些？目标完成情况怎么样？针对分析结果是否进行持续改进和采取纠正和预防措施？ 8.2.3/4.4/6.2.2/5.1.2,5.1.1.3√输入：产品开发，输出：设备一览表、保养记录；目标指标一览表；过程识别及分析符合要求 2查设备的登记表和履历表、设备操作规程、设备预防性维护（如有查CMK ）、关键设备的备件库存。

7.5.1.4√有登记表和履历表；按说明书操作；2020年设备保养计划，CMK 未进行；安全库存一览表ZW-24-005A03 查工装登记表，工装维修记录，工装标识，工装储存要求，易损耗工装更换计划。

7.5.1.5√有登记表，无工装维修记录；建立标识；防锈；易损耗工装更换计划4组织是否确定、提供和维护为达到产品符合要求所需的基础设施？ 是否使用多方论证的方法，包括风险识别和风险缓解方法，来开发并改进工厂、设施和设备的计划。

制造可行性和产能的策划的评价是否作为管理评审的输入7.1.3√是；未发生；建立了基础设施管理程序并实施 5 组织是否确定，提供并维护过程运行所需的环境以获得合格的产品和服务7.1.4√过程运行环境符合要求6 组织是否保持生产现场处于与产品和制造过程需求相协调的有序的，清洁和维护的状态7.1.4.1√设备保养计划，过程运行环境符合要求7是否建立实施并保持一个形成文件的全面生产维护系统其中至少包含1.关键设备2.关键设备的备品备件3.机器，设备，和设施维护的资源的提供4.设备，工装和量具的包装和防护 5.使用的顾客特殊要求 6.形成文件的维护目标7.定期评审维护计划和目标以及形成文件的措施计划，以在未达到目标时采取纠正措施8.预防性维护方法的使用9.预见性维护的使用（如适用）10.周期性检修8.5.1.5 √设备登记表与履历表；TPM 符合要求管理体系审核检查表审核过程S3 设备工装管理过程责任部门生产部审核员张楠、邓见东审核日期 2020.5.22表单编号：ZW-18-003 A1第 2 页 共 2 页 8客户财产管理程序/偶发事件应急响应计划/生产设备管理程序组织是否建立了一个生产工装的管理方式，其中包括：a ） 维护、维修设施与人员； b ） 存储与修复； c ） 工装准备；d ） 易损工具的工具更换方案；e ） 工具设计修改的文件，包括产品的工程变更等级；f ） 工具的修改和文件的修订；g ） 工具标识，例如：序列号或资产编号；状态，如生产、修理或废弃；所有权；以及位 置。

飞机维护手册第一节维护手册的概述和结构3．1．1维护手册的概述飞机维护手册是外场维护中使用最频繁的一本手册，是飞机工作人员的工作指南，这本手册的内容丰富、充实、多样。

而且，在维修文件历史的传承中，出现了很多维护手册内容的分支,在不同时代出现了不同内容的维护手册，新旧不同版本的维护手册的内容也不尽相同。

最新版本(波音737—600/700/800/900飞机）的维护手册在工作的分类上，将通用性、原理性的信息另成一册称为系统描述部分（Systems Description Section， SDS），继承了原来(波音737—300/400/500飞机）在01—99页部分的概述内容，由于这部分内容不涉及工作内容，波音公司可以免责其中的错误。

而原有的第五章定时性检修的数据，都写在维修计划数据MPD中，这部分不再写在AMM中，现在第五章的内容只包含非定时性的维修检查。

而原来停场封存数据专门成册的出版物，现在写在AMM手册11章中。

本书的第二章第一节简要介绍了AMM手册，AMM手册实际上是工作程序的集合，针对航线可更换件LRU进行的维护步骤和程序的集合。

它是由飞机制造厂商发布的，依据各种组件、系统、APU、发动机的供货商提供的数据和制造厂商的技术数据综合编写而成，手册基本上都是严格按照ATAl00格式进行编排的，所以，掌握ATA100内容对手册的查阅是非常重要的。

下面以波音737—300飞机为例介绍AMM手册。

学会查阅AMM的工作步骤，是机务维护人员的必修课程，是以维护手册为标准进行施工的必要前提。

3．1．2维护手册AMM的结构维护手册的结构图已经出现在第二章第三节的内容中，维修手册依据ATAl00的章节形式“＊＊——**--＊＊"进行划分。

除此之外维护手册根据自身的性质,按照工作的不同内容，将页码分成不同的区段。

从表3—1中不难看出，页码的第一位是功能位，代表该页码段的工作内容和性质。

而后面两位是顺序的页码，表明的是每页的排序，由于AMM手册的基本单位是页，因此页码对AMM手册的查询是一个关键点。

i s c l a i me r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t ef o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i ng s u i t a b i l i t y o r r e l i a b i l i t y o f th e s e p r o d u c t s f o r s p e ci f i c u s e r a p p l i c a t i o n sMainRange of productModicon TM3Product or component typeInput/Output analog module Range compatibility Modicon M251Modicon M221Modicon M241Analogue input number 2Analogue input type Current, analogue input range: 4...20 mACurrent, analogue input range: 0...20 mAVoltage, analogue input range: 0...10 VVoltage, analogue input range: - 10...10 VThermocouple, analogue input range: - 200...1000 °C with thermocouple JThermocouple, analogue input range: - 200...1300 °C with thermocouple KThermocouple, analogue input range: 0...1760 °C with thermocouple RThermocouple, analogue input range: 0...1760 °C with thermocouple SThermocouple, analogue input range: 0...1820 °C with thermocouple BThermocouple, analogue input range: - 200...400 °C with thermocouple TThermocouple, analogue input range: - 200...1300 °C with thermocouple NThermocouple, analogue input range: - 200...800 °C with thermocouple EThermocouple, analogue input range: 0...2315 °C with thermocouple CNi 100/Ni 1000 temperature probe, analogue input range: - 60...180 °CPt 100 temperature probe, analogue input range: - 200...850 °CPt 1000 temperature probe, analogue input range: - 200...600 °CAnalogue output number 1Analogue output type4...20 mA current0...20 mA current0...10 V voltage- 10...10 V voltage ComplementaryAnalogue input resolution15 bits + sign 16 bits Permissible continuous overload13 V voltage 40 mA current Input impedance<= 50 Ohm current3.91 µA, analogue output:4...20 mA current0.1 °C thermocoupleLoad type ResistiveLoad impedance ohmic 1 kOhm voltage300 Ohm currentStabilisation time 1 msConversion time100 ms + 100 ms per channel + 1 controller cycle time for analogue input thermocouple100 ms + 100 ms per channel + 1 controller cycle time for analogue input temperature probe10 ms + 10 ms per channel + 1 controller cycle time for analogue input voltage/currentSampling duration10 ms for analogue input voltage/current100 ms for analogue input voltage/current100 ms for analogue input thermocouple100 ms for analogue input temperature probeAbsolute accuracy error+/- 1 % of full scale+/- 0.1 % of full scale at 25 °C for analogue input voltage/current+/- 0.1 % of full scale for thermocouple C+/- 0.1 % of full scale for Pt 100/Pt 1000, Ni 100/ Ni 1000 temperature probe+/- 6 °C at 0...200 °C for thermocouple R+/- 6 °C at 0...200 °C for thermocouple S+/- 0.4 % of full scale at <= 0 °C for thermocouple K+/- 0.4 % of full scale at <= 0 °C for thermocouple J+/- 0.4 % of full scale at <= 0 °C for thermocouple E+/- 0.4 % of full scale at <= 0 °C for thermocouple T+/- 0.4 % of full scale at <= 0 °C for thermocouple N+/- 0.1 % of full scale at 25 °C for analogue output voltage/currentTemperature drift+/- 0.006 %FS/°CRepeat accuracy+/-0.5 %FS for input+/- 0.4 %FS for outputNon-linearity+/- 0.01 %FS analog output+/- 0.1 %FS analog inputOutput ripple20 mVCross talk<= 1 LSB[Us] rated supply voltage24 V DCSupply voltage limits20.4...28.8 VType of cable<= 30 m twisted shielded pairs cable for input/output circuitCurrent consumption55 mA at 24 V DC (no load) via external supply55 mA at 5 V DC (no load) via bus connector60 mA at 5 V DC (full load) via bus connector80 mA at 24 V DC (full load) via external supplyLocal signalling 1 LED green for PWRElectrical connection11 x 2.5 mm² removable screw terminal block with pitch 5.08 mm adjustment for inputs, outputs andsupplyInsulation500 V AC between output and internal logic500 V AC between input and internal logic1500 V AC between input and supply1500 V AC between output and supplyMarking CESurge withstand 1 kV for power supply with common mode protection conforming to EN/IEC 61000-4-50.5 kV for power supply with differential mode protection conforming to EN/IEC 61000-4-51 kV for I/O with common mode protection conforming to EN/IEC 61000-4-50.5 kV for I/O with differential mode protection conforming to EN/IEC 61000-4-5Mounting support Top hat type TH35-15 rail conforming to IEC 60715Top hat type TH35-7.5 rail conforming to IEC 60715Plate or panel with fixing kit8 kV in air conforming to EN/IEC 61000-4-2Resistance to electromagnetic fields 10 V/m at 80 MHz...1 GHz conforming to EN/IEC 61000-4-33 V/m at 1.4 GHz...2 GHz conforming to EN/IEC 61000-4-31 V/m at2 GHz...3 GHz conforming to EN/IEC 61000-4-3Resistance to magnetic fields 30 A/m at 50...60 Hz conforming to EN/IEC 61000-4-8Resistance to fast transients 1 kV I/O conforming to EN/IEC 61000-4-4Resistance to conducted disturbances,induced by radio frequency fields 10 V at 0.15...80 MHz conforming to EN/IEC 61000-4-63 V at spot frequency (2, 3, 4, 6.2, 8.2, 12.6, 16.5, 18.8, 22, 25 MHz) conforming to Marinespecification (LR, ABS, DNV, GL)Electromagnetic emission Radiated emissions, test level: 40 dBμV/m QP class A (10 m at 30...230 MHz) conforming to EN/IEC 55011Radiated emissions, test level: 47 dBμV/m QP class A (10 m at 230 MHz...1 GHz) conforming to EN/IEC 55011Immunity to microbreaks 10 ms Ambient air temperature for operation -10...55 °C (horizontal installation)-10...35 °C (vertical installation)Ambient air temperature for storage -25...70 °C Relative humidity 10...95 % without condensation in operation10...95 % without condensation in storage IP degree of protection IP20Pollution degree 2Operating altitude 0...2000 m Storage altitude 0...3000 m Vibration resistance 3.5 mm at 5...8.4 Hz with DIN rail mounting support3 gn at 8.4...150 Hz with DIN rail mounting support Shock resistance15 gn during 11 ms Offer Sustainability Sustainable offer statusGreen Premium product RoHS (date code: YYWW)Compliant - since 1415 - Schneider Electric declaration of conformity Schneider Electric declaration of conformity REAChReference not containing SVHC above the threshold Reference not containing SVHC above the threshold Product environmental profile Available Product environmental Product end of life instructionsAvailableEnd of life manual(*)8.5 mm/0.33 in when the clamp is pulled out.Incorrect Mounting(1)Install a mounting strip Mounting Hole LayoutWiring Diagram (Current/Voltage type)(*)Type T fuse (1)Current/Voltage analog output device (2)Current/Voltage analog input deviceWiring Diagram (Thermocouple input type)(*)Type T fuse (2)Current/Voltage analog input device (3)ThermocoupleWiring Diagram (Temperature probe input type)(*)Type T fuse (2)Current/Voltage analog input device。

A T A P C C A R D S8/16-bit Data Bus Flash ATA PC CardCo n n e cto rTy p eTwo- piece 68-pinDESCRIPTIONMitsubishi’s Flash ATA cards provide large memory capacities on a device approximatelythe size of a credit card(85.6mm ×54mm ×3.3mm). The cards use a 8/16bit data bus.Available in 7.5MB, 15MB, 30MB, 45MB,60MB, 75MB, 90MB and 105MB capacities,Mitsubishi’s Flash ATA cards conform to the JEIDA/PCMCIA standard.In default mode, the ATA card operates in P C Card compliant sockets. It conforms toPCMCIA2.1, JEIDA4.2 and PC Card Standard.When the OE# signal is asserted low level by the Host system in power on cycle, theMitsubishi’s Flash ATA cards can be selected in a IDE ATA interface. It uses the ATA command set so no software drivers are required.MF007M5-03ATxx MF0015M-03ATxx MF0030M-03ATxx MF0045M-03ATxx MF0060M-03ATxx MF0075M-03ATxx MF0090M-03ATxx MF0105M-03ATxxFEATURESSingle 5V or 3.3V SupplyCard density of up to 105MB maximum Nonvolatile, No Batteries Required functionAPPLICATION SPIN ASSIGNMENTPinPC CardMemory ModePC Card I/OModeIDE ATAInterface PinPC CardMemory ModePC Card I/OModeIDE ATAInterface Signal I/O Signal I/O Signal I/O Signal I/O Signal I/O Signal I/O1GND-GND-GND-35GND-GND-GND-2D3I/O D3I/O D3I/O36CD1#O CD1#O CD1#O 3D4I/O D4I/O D4I/O37D11I/O D11I/O D11I/O 4D5I/O D5I/O D5I/O38D12I/O D12I/O D12I/O 5D6I/O D6I/O D6I/O39D13I/O D13I/O D13I/O 6D7I/O D7I/O D7I/O40D14I/O D14I/O D14I/O 7CE1#I CE1#I CS0#I41D15I/O D15I/O D15I/O 8A10I A10I N.U-42CE2#I CE2#I CS1#I 9OE#I OE#I ATA SEL#I43VS1#O VS1#O VS1#O 10N.C-N.C-N.C-44N.U-IORD#I IORD#I 11A9I A9I N.U-45N.U-IOWR#I IOWR#I 12A8I A8I N.U-46N.C-N.C-N.C-13N.C-N.C-N.C-47N.C-N.C-N.C-14N.C-N.C-N.C-48N.C-N.C-N.C-15WE#I WE#I WE#I49N.C-N.C-N.C-16READY O IREQ#O INTRQ O50N.C-N.C-N.C-17Vcc-Vcc-Vcc-51Vcc-Vcc-Vcc-18N.C-N.C-N.C-52N.C-N.C-N.C-19N.C-N.C-N.C-53N.C-N.C-N.C-20N.C-N.C-N.C-54N.C-N.C-N.C-21N.C-N.C-N.C-55N.C-N.C-N.C-22A7I A7I N.U-56CSEL I CSEL I CSEL I 23A6I A6I N.U-57VS2#O VS2#O VS2#O 24A5I A5I N.U-58RESET I RESET I RESET#I 25A4I A4I N.U-59WAIT#O WAIT#O IORDY O 26A3I A3I N.U-60N.U-INPACK#O INPACK#O 27A2I A2I A2I61REG#I REG#I REG#I 28A1I A1I A1I62BVD2O SPKR#O DASP#I/O 29A0I A0I A0I63BVD1O STSCHG#O PDIAG#I/O 30D0I/O D0I/O D0I/O64D8I/O D8I/O D8I/O 31D1I/O D1I/O D1I/O65D9I/O D9I/O D9I/O 32D2I/O D2I/O D2I/O66D10I/O D10I/O D10I/O 33WP O IOIS16#O IOCS16#O67CD2#O CD2#O CD2#O 34GND-GND-GND-68GND-GND-GND-N.C = Not connected internally. N.U = Not used.Signal DescriptionSignal Name I/O Pin No.DescriptionAddress bus[A10-A0]I8, 11, 12, 22,23, 24, 25, 26,27, 28, 29Signals A10-A0 are address bus. A0 is invalid in word mode. A10 is the MSB and A0 is the LSB.Data bus[D15-D0]I/O41, 40, 39, 38,37, 66, 65, 64,6, 5, 4, 3,Signals D15-D0 are data bus. D0 is the LSB of the Even Byte of the Word. D8 is the LSB of the Odd Byte of the Word.2 ,32,31, 30Card Enable[CE1#, CE2#](PC Card Memory Mode)I7, 42CE1# and CE2# are low active card select signals.Card Enable[CE1#, CE2#](PC Card I/O Mode)Chip Select[CS0#, CS1#] (IDE ATA Interface)In IDE ATA Interface, CS0 is used to select the Command Block Registers. CS1 is used to select the Control Block Registers.Output Enable[OE#] (PC Card Memory Mode)I9OE# is used to gate Attribute and Common MemoryRead data from the ATA Card.Output Enable[OE#] (PC Card I/O Mode)OE# is used to gate Attribute Memory Read data from the ATA Card.ATA SEL#(IDE ATA Interface)To enable IDE ATA Interface, this input should be grounded by the host.Write Enable[WE#] (PC Card Memory Mode)I15WE# is used for strobing Attribute and CommonMemory Write data into the ATA Card.Write Enable[WE#] (PC Card I/O Mode)WE# is used for strobing Attribute Memory Write data into the ATA Card.Write Enable[WE#](IDE ATA Interface)This input should be connected Vcc by the host.I/O Read[IORD#] (PC Card I/O Mode)I44IORD# is used to read data from the Card’s I/Ospace.I/O Read[IORD#] (IDE ATA Interface)I/O Write[IOWR#] (PC Card I/O Mode)I45IOWR# is used to write data to the Card’s I/Ospace.I/O Write[IOWR#] (IDE ATA Interface)Ready[READY](PC Card Memory Mode)O16READY signal is set high when the ATA Card isready to accept a new data transfer operation.IREQ#(PC Card I/O Mode)This signal of low level is indicates that the card is requesting software service to host, and high level indicates that the card is not requesting.INTRQ(IDE ATA Interface)This signal is active high interrupt request to the host.Card Detection[CD1#, CD2#]O36, 67CD1# and CD2# provided for proper detection ofPC Card insertion.Write Protect[WP](PC Card Memory Mode)O33This signal is held low because this card does nothave a write protect switch.IOIS16#(PC Card I/O Mode)This output signal is asserted when the I/O port address is capable of 16-bit access.IOCS16#(IDE ATA Interface)Attribute Memory Select[REG#] (PC Card Memory Mode)I61When this signal is asserted, access is limited toAttribute Memory with OE#/WE# and I/O Space withAttribute Memory Select[REG#](PC Card I/O Mode)IORD#/IOWR#.Attribute Memory Select[REG#] (IDE ATA Interface)This input signal is not used for this mode and should be connected to Vcc by the host.Battery Voltage Detect[BVD2](PC Card Memory Mode)O62This output is driven to a high-level.Audio Digital Waveform[SPKR#] (PC Card I/O Mode)SPKR# is kept negated because this Card does not have digital audio output.DASP#(IDE ATA Interface)I/O This signal is the DISK Active/Slave Present signalin the Master/Slave handshake protocol.Card Reset[RESET] (PC Card Memory Mode)I58By assertion of this signal, all registers of this Cardare cleared. This signal should be kept to High-Z byCard Reset[RESET](PC Card I/O Mode)the host for at least 1ms after Vcc applied.Card Reset[RESET#] (IDE ATA Interface)This input pin is the active low hardware reset from the host.Wait[WAIT#](PC card Memory Mode)O59This signal is asserted to delay completion of thememory or I/O access cycle.Wait[WAIT#](PC card I/O Mode) IORDY(IDE ATA Interface)Input Port Acknowledge[INPACK#] (PC Card I/O Mode)O60This signal is asserted when the Card is selectedand can respond to an I/O Read cycle at theInput Port Acknowledge[INPACK#](IDE ATA Interface)address on the address bus.Battery Voltage Detect[BVD1](PC Card Memory Mode)O63This output is driven to a high-level.STSCHG#(PC Card I/O Mode)This signal is asserted low to alert the host to changes in the status of Configuration Status Register in the Attribute Memory Space.PDIAG#(IDE ATA Interface)I/O This signal is the Pass Diagnostic signal in theMaster/Slave handshake protocol.Voltage Sense[VS1, VS2]O43, 57VS1 is grounded so that the Card CIS can be readat 3.3V and VS2 is N.C.Cable Select[CSEL](PC card Memory Mode)-56This signal is not used for this mode.Cable Select[CSEL](PC card I/O Mode)-Cable Select[CSEL] (IDE ATA Interface)I This signal is used to configure this Card as aMaster or a Slave. When this signal is grounded,this Card is configured as a Master. When thissignal is Open, this Card is configure as a Slave.Vcc-17, 515V or 3.3V power. GND-1, 34, 35, 68Ground.BLOCK DIAGRAMFUNCTION TABLEFunction REG#CE2#CE1#A0OE#WE#IORD#IOWR#D15-D8D7-D0 Attribute Memory Read FunctionStandby X H H X X X X X High-Z High-Z Byte Access L H L L L H H H High-Z Even Byte L H L H L H H H High-Z Invalid Word Access L L L X L H H H Invalid Even Byte Odd Byte L L H X L H H H Invalid High-Z Attribute Memory Write FunctionStandby X H H X X X X X don’t care don’t care Byte Access L H L L H L H H don’t care Even Byte L H L H H L H H don’t care don’t care Word Access L L L X H L H H don’t care Even Byte Odd Byte L L H X H L H H don’t care don’t care Common Memory Read FunctionStandby X H H X X X X X High-Z High-Z Byte Access H H L L L H H H High-Z Even ByteH H L H L H H H High-Z Odd Byte Word Access H L L X L H H H Odd Byte Even Byte Odd Byte H L H X L H H H Odd Byte High-Z Common Memory Write FunctionStandby X H H X X X X X don’t care don’t care Byte Access H H L L H L H H don’t care Even ByteH H L H H L H H don’t care Odd Byte Word Access H L L X H L H H Odd Byte Even Byte Odd Byte H L H X H L H H Odd Byte don’t care I/O Read FunctionStandby X H H X X X X X High-Z High-Z Byte Access L H L L H H L H High-Z Even Byte L H L H H H L H High-Z Odd Byte Word Access L L L X H H L H Odd Byte Even Byte Odd Byte L L H X H H L H Odd Byte High-Z I/O Write FunctionStandby X H H X X X X X don’t care don’t care Byte Access L H L L H H H L don’t care Even Byte L H L H H H H L don’t care Odd Byte Word Access L L L X H H H L Odd Byte Even Byte Odd Byte L L H X H H H L Odd Byte don’t careMemory mapped mode(Index=0)REG#CE2#CE1#A10A9-A4A3A2A1A0RegisterOE#=”L”WE#=“L”1000x000x Data Register(D15-D0)Data Register(D15-D0) 1100x0000Data Register[Even, Odd](D7-D0)Data Register[Even, Odd](D7-D0) 1100x0001Error Register(D7-D0)Feature Register(D7-D0) 1010x000x Error Register(D15-D8)Feature Register(D15-D8)1000x001x Sector Count Register(D7-D0)Sector Number Register(D15-D8)Sector Count Register(D7-D0) Sector Number Register(D15-D8)1100x0010Sector Count Register(D7-D0)Sector Count Register(D7-D0) 1100x0011Sector Number Register(D7-D0)Sector Number Register(D7-D0) 1010x001x Sector Number Register(D15-D8)Sector Number Register(D15-D8)1000x010x Cylinder Low Register(D7-D0)Cylinder High Register(D15-D8)Cylinder Low Register(D7-D0) Cylinder High Register(D15-D8)1100x0100Cylinder Low Register(D7-D0)Cylinder Low Register(D7-D0) 1100x0101Cylinder High Register(D7-D0)Cylinder High Register(D7-D0) 1010x010x Cylinder High Register(D15-D8)Cylinder High Register(D15-D8)1000x011x Drive Head Register(D7-D0)Status Register(D15-D8)Drive Head Register(D7-D0) Command Register(D15-D8)1100x0110Drive Head Register(D7-D0)Drive Head Register(D7-D0) 1100x0111Status Register(D7-D0)Command Register(D7-D0) 1010x011x Status Register(D15-D8)Command Register(D15-D8) 1000x100x Data Register(D15-D0)Data Register(D15-D0) 1100x1000Data Register[Even, Odd](D7-D0)Data Register[Even, Odd](D7-D0) 1100x1001Data Register[Odd](D7-D0)Data Register[Odd](D7-D0) 1010x100x Data Register[Odd](D15-D8)Data Register[Odd](D15-D8)1000x110x invalid(D7-D0)Error Register(D15-D8)invalid(D7-D0) Feature Register(D15-D8)1100x1100invalid invalid1100x1101Error Register(D7-D0)Feature Register(D7-D0) 1010x110x Error Register(D15-D8)Feature Register(D15-D8)1000x111x Alt. Status Register(D7-D0)Drive Address Register(D15-D8)Device Control Register(D7-D0)invalid1100x1110Alt. Status Register(D7-D0)Device Control Register(D7-D0) 1100x1111Drive Address Register(D7-D0)invalid1010x111x Drive Address Register(D15-D8)invalid1001x x x x x Data Register(D15-D0)Data Register(D15-D0) 1101x x x x0Data Register[Even, Odd](D7-D0)Data Register[Even, Odd](D7-D0) 1101x x x x1Data Register[Odd](D7-D0)Data Register[Odd](D7-D0) 1011x x x x x Data Register[Odd](D15-D8)Data Register[Odd](D15-D8)Contiguous I/O Map(Index=1)REG#CE2#CE1#A9-A4A3A2A1A0RegisterIORD#=”L”IOWR#=“L”000x000x Data Register(D15-D0)Data Register(D15-D0) 010x0000Data Register[Even, Odd](D7-D0)Data Register[Even, Odd](D7-D0) 010x0001Error Register(D7-D0)Feature Register(D7-D0) 001x000x Error Register(D15-D8)Feature Register(D15-D8)000x0010Sector Count Register(D7-D0)Sector Number Register(D15-D8)Sector Count Register(D7-D0) Sector Number Register(D15-D8)010x0010Sector Count Register(D7-D0)Sector Count Register(D7-D0) 010x0011Sector Number Register(D7-D0)Sector Number Register(D7-D0) 001x001x Sector Number Register(D15-D8)Sector Number Register(D15-D8)000x0100Cylinder Low Register(D7-D0)Cylinder High Register(D15-D8)Cylinder Low Register(D7-D0) Cylinder High Register(D15-D8)010x0100Cylinder Low Register(D7-D0)Cylinder Low Register(D7-D0) 010x0101Cylinder High Register(D7-D0)Cylinder High Register(D7-D0) 001x010x Cylinder High Register(D15-D8)Cylinder High Register(D15-D8)000x0110Drive Head Register(D7-D0)Status Register(D15-D8)Drive Head Register(D7-D0) Command Register(D15-D8)010x0110Drive Head Register(D7-D0)Drive Head Register(D7-D0) 010x0111Status Register(D7-D0)Command Register(D7-D0) 001x011x Status Register(D15-D8)Command Register(D15-D8) 000x100x Data Register(D15-D0)Data Register(D15-D0)010x1000Data Register[Even, Odd](D7-D0)Data Register[Even, Odd](D7-D0) 010x1001Data Register[Odd](D7-D0)Data Register[Odd](D7-D0) 001x100x Data Register[Odd](D15-D8)Data Register[Odd](D15-D8)000x1100invalid(D7-D0)Error Register(D15-D8)invalid(D7-D0) Feature Register(D15-D8)010x1100invalid invalid010x1101Error Register(D7-D0)Feature Register(D7-D0) 001x110x Error Register(D15-D8)Feature Register(D15-D8)000x1110Alt. Status Register(D7-D0)Drive Address Register(D15-D8)Device Control Register(D7-D0)invalid010x1110Alt. Status Register(D7-D0)Device Control Register(D7-D0) 010x1111Drive Address Register(D7-D0)invalid001x111x Drive Address Register(D15-D8)invalidPrimary(Secondary) I/O(Index=2, 3)REG#CE2#CE1#A9-A4A3A2A1A0RegisterIORD#=”L”IOWR#=“L”0001Fh(17h)000x Data Register(D15-D0)Data Register(D15-D0) 0101Fh(17h)0000Data Register[Even, Odd](D7-D0)Data Register[Even, Odd](D7-D0) 0101Fh(17h)0001Error Register(D7-D0)Feature Register(D7-D0) 0011Fh(17h)000x Error Register(D15-D8)Feature Register(D15-D8)0001Fh(17h)0010Sector Count Register(D7-D0)Sector Number Register(D15-D8)Sector Count Register(D7-D0) Sector Number Register(D15-D8)0101Fh(17h)0010Sector Count Register(D7-D0)Sector Count Register(D7-D0) 0101Fh(17h)0011Sector Number Register(D7-D0)Sector Number Register(D7-D0) 0011Fh(17h)001x Sector Number Register(D15-D8)Sector Number Register(D15-D8)0001Fh(17h)0100Cylinder Low Register(D7-D0)Cylinder High Register(D15-D8)Cylinder Low Register(D7-D0) Cylinder High Register(D15-D8)0101Fh(17h)0100Cylinder Low Register(D7-D0)Cylinder Low Register(D7-D0) 0101Fh(17h)0101Cylinder High Register(D7-D0)Cylinder High Register(D7-D0) 0011Fh(17h)010x Cylinder High Register(D15-D8)Cylinder High Register(D15-D8)0001Fh(17h)0110Drive Head Register(D7-D0)Status Register(D15-D8)Drive Head Register(D7-D0) Command Register(D15-D8)0101Fh(17h)0110Drive Head Register(D7-D0)Drive Head Register(D7-D0) 0101Fh(17h)0111Status Register(D7-D0)Command Register(D7-D0) 0011Fh(17h)011x Status Register(D15-D8)Command Register(D15-D8)0003Fh(37h)1110Alt. Status Register(D7-D0)Drive Address Register(D15-D8)Device Control Register(D7-D0)invalid0103Fh(37h)1110Alt. Status Register(D7-D0)Device Control Register(D7-D0) 0103Fh(37h)1111Drive Address Register(D7-D0)invalid0013Fh(37h)111x Drive Address Register(D15-D8)invalidIDE ATA InterfaceCS1#CS0#A2-A0RegisterIORD#=”L”IOWR#=“L”100h Data Register(D15-D0)Data Register(D15-D0)101h Error Register(D7-D0)Feature Register(D7-D0)102h Sector Count Register(D7-D0)Sector Count Register(D7-D0)103h Sector Number Register(D7-D0)Sector Number Register(D7-D0)104h Cylinder Low Register(D7-D0)Cylinder Low Register(D7-D0)105h Cylinder High Register(D7-D0)Cylinder High Register(D7-D0)106h Drive Head Register(D7-D0)Drive Head Register(D7-D0)107h Status Register(D7-D0)Command Register(D7-D0)016h Alt. Status Register(D7-D0)Device Control Register(D7-D0)017h Drive Address Register(D7-D0)invalidConfiguration Register Specifications Configuration Option RegisterThis register is used for the configuration of the card configuration status and for the issuing soft reset to the card.D7D6D5D4D3D2D1D0 SRESET LevIREQ IndexName R/W DescriptionSRESET R/W Setting this bit to “1”, places the card in the resetstate. When the host returns this bit to “0”, thefunction shall enter the same unconfigured,reset state as the card does following a power-up and hardware reset.LevIREQ R/W If this bit is set to “0”, card generates pulsemode interrupt. If this bit is set to “1”, cardgenerates level mode interrupts.Index R/W This bits is used for select operation mode of thecard as follows.When Power on, Card Hard Reset and Softreset, this data is “000000” for the purpose ofMemory card interface recognition.Index: 0 -> Memory mapped1 -> Contiguous I/O mapped2 -> Primary I/O mapped3 -> Secondary I/O mapped Configuration and Status RegisterThis register is used for observing the card state.D7D6D5D4D3D2D1D0 Changed SigChg Iois800PwrDwn Intr0Name R/W DescriptionChanged R/O This bit indicates that CREADY bit on the PinReplacement register is set to “1”. WhenChanged bit is set to “1”, STSCHG# pin is held“L” if the SigChg bit is “1” and the card isconfigured for the I/O interface.SigChg R/W This bit is set or reset by the host for enablingand disabling the status changesignal(STSCHG# pin). When the card isconfigured I/O card interface and this bit is setto “1”, STSCHG# pin is controlled by Changedbit. If this bit is set to “0”, STSCHG# pin is kept“H”.Iois8R/W This card is always configured for both 8-bitand 16-bit I/O, so this bit is ignored.PwrDwn R/W When this bit is set to “1”, the card entersPower Down mode. When this bit is reset to“0”, the host is requesting the card to enter theactive mode. RREADY bit on Pin ReplacementRegister becomes BUSY when this bit ischanged. RREADY will not become Ready untilthe power state requested has been entered.This card automatically powers down when it isidle, and powers back up when it receives acommand.Intr R/W This bit represents the internal state of theinterrupt request. This bit state is availablewhether I/O card interface has been configuredor not. This signal remains true until thecondition which caused the interrupt requesthas been serviced. If interrupts are disabled bythe nIEN bit in the Device Control Register, thisbit is a zero.Pin Replacement RegisterThis register is used for providing the signal state of READY signal when the card configured I/O card interface.D7D6D5D4D3D2D1D0 00CREADY011RREADY0Name R/W DescriptionCREADY R/W This bit is set to “1” when the RREADY bitchanges state. This bit may also be written bythe host.RREADY R/W When read, this bit indicates READY pinstates. When written, this bit acts as a maskfor writing the CREADY bit.Socket and Copy RegisterThis register is used for identification of the card from the other cards. Host can read and write this register. This register should be set by host before this card’s Configuration Option register set.D7D6D5D4D3D2D1D0 0Copy Number Socket NumberName R/W DescriptionCopy Number R/W This bit indicates the drive number of thecard for twin card configuration.And the host can select and drive one cardby comparing the number in this field withthe drive number of Drive Head Register.In the way, the host can perform the card’smaster/slave organization.SocketNumberR/W This field indicates to the card that it islocated in the n’th socket.CIS InformationCIS informatoins are defined as follows.Offset Data76543210Description0000h01h CISTPL_DEVICE Common Memory device information 0002h03h TPL_LINK Link to next tupleDevice Type=Dh : Function specific 0004h D9h Device Type WPS Device Speed WPS=1 : No WPSDevice Speed=1 : 250ns0006h01h1x2K2kBytes of address space0008h FFh Marks end of Device Info fields000Ah1Ch CISTPL_DEVICE_OC Other Conditions Device information 000Ch05h TPL_LINK Link to next tuple000Eh02h EXT Reserved Vcc MWAIT EXT=0, Vcc=5.0V, Wait is not used.Device Type=Dh : Function specific 0010h DFh Device Type WPS Device Speed WPS=1 : No WPSDevice Speed=250ns0012h01h1x2K2kbytes of address space0014h FFh Marks end of Other Conditions Device Info0016h1Ch CISTPL_DEVICE_OC Other Conditions Device information 0018h04h TPL_LINK Link to next tuple001Ah02h EXT Reserved Vcc MWAIT EXT=0, Vcc=3.3V, Wait is not used.Device Type=Dh : Function specific 001Ch D9h Device Type WPS Device Speed WPS=1 : No WPSDevice Speed=250ns001Eh01h1x2K2kbytes of address space0020h FFh Marks end of Other Conditions Device Info0022h18h CISTPL_JEDEC_C JEDEC Identifier Tuples0024h02h TPL_LINK Link to next tuple0026h DFh JEDEC identifier for first device info entry.PC Card ATA0028h01h JEDEC identifiers for remaining device info entries.with no Vpp require for any operation 002Ah20h CISTPL_MANFID Manufacturer Identification Tuple 002Ch04h TPL_LINK Link to next tuple002Eh1Ch PC Card manufacturer code001Ch0030h00h0032h01h manufacturer information0001h0034h00h0036h15h CISTPL_VERS_1Level 1 Version / Product Information 0038h26h TPL_LINK Link to next tuple003Ah04h TPLLV1_MAJOR PCMCIA2.0 / JEIDA4.1003Ch01h TPLLV1_MINOR PCMCIA2.0 / JEIDA4.1003Eh4Dh TPLLV1_INFO M0040h49h I0042h54h T0044h53h S0046h55h U0048h42h B004Ah49h I004Ch53h S004Eh48h H0050h49h I0052h20h0054h41h A0056h54h T0058h41h A005Ah20h005Ch43h C005Eh41h A0060h52h R0062h44h D0064h00h0066h4Dh M0068h46h F006Ah30h0006Ch78h x006Eh78h x0070h78h x0072h78h x0074h2Dh-0076h30h00078h33h3007Ah41h A007Ch54h T007Eh58h x0080h78h x0082h000084h FFh Marks end of chain.0086h21h CISTPL_FUNCID Function Identification Tuple0088h02h TPL_LINK Link to next tuple008Ah04h Card Function Code PC Card ATA(Fixed Disk)008Ch01h Reserved ROM POST ROM=0 : No BIOS ROMPOST=1: Configure card at power on 008Eh22h CISTPL_FUNCE Function Extension Tuple0090h02h TPL_LINK Link to next tuple0092h01h Disk Function Extension Tuple Type Disk Interface Type0094h01h Disk Interface Type PC Card ATA Interface0096h22h CISTPL_FUNCE Function Extension Tuple0098h03h TPL_LINK Link to next tuple009Ah02h Disk Function Extension Tuple Type Basic PC Card ATA Interface tuple 009Ch04h RFU D U S V V=0 : No Vpp RequiredS=1 : SiliconU=0 : ID Drive Mfg/SN not UniqueD=0 : Single Drive on Card009Eh0Fh RFU I E N P3P2P1P0P0=1 : Sleep Mode SupportedP1=1 : Standby Mode SupportedP2=1 : Idle Mode SupportedP3=1 : Drive Auto Power ControlN=0 : No Configs exclude I/O port3F7H/377HE=0 : Index bit is not emulatedI=0 : IOIS16# use is Unspecified onTwin Card Configurations00A0h1Ah CISTPL_CONF Configuration Tuple00A2h05h TPL_LINK Link to next tuple00A4h01h RFS RMS RAS RFS=0 : No Reserved FieldRMS=0 : 1 Byte Register MaskRAS=1 : 2 Byte Config Base Address 00A6h03h TPCC_LAST Last Index = 300A8h00h TPCC_RADR (lsb)Configuration Registers are located 00AAh02h TPCC_RADR (msb)at 200H in Reg Space00ACh0Fh RFU RFU RFU E S P C I First 4 Configuration Registers present 00AEh1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple00B0h08h TPL_LINK Link to next tuple00B2h C0h I D Configuration Index Interface Byte Follows, Default Entry,Configuration Index = 000B4h40h W R P B Interface Type Mem Interface; Bvd's and wProt notused; Ready active and Wait not usedfor memory cycles.00B6h A1h M MS IR IO T P Has Vcc, Mem Space and Misc Info 00B8h01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows00BAh55h X Mantissa Exponent Vcc Nominal is 5 Volts00BCh08h Length in 256 bytes pages (lsb)Length of Mem Space is 2 KB00BEh00h Length in 256 bytes pages (msb)Starts at 0 on card00C0h21h X RFU P RO A T Power Down, Twin Card supported. 00C2h1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple00C4h05h TPL_LINK Link to next tuple00C6h00h I D Configuration Index No Interface Byte, Non Default Entry,Configuration Index = 000C8h01h M MS IR IO T P Has Vcc Info00CAh01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows00CCh B5h X Mantissa Exponent Vcc Nominal is 3.3 Volts00CEh1Eh Extension00D0h1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple00D2h0Ah TPL_LINK Link to next tuple00D4h C1h I D Configuration Index Interface Byte Follows, Default Entry,Configuration Index = 100D6h41h W R P B Interface Type I/O Interface; Bvd's and wProt notused; Ready active and Wait not usedfor memory cycles.00D8h99h M MS IR IO T P Has Vcc, I/O, IRQ and Misc Info00DAh01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows00DCh55h X Mantissa Exponent Vcc Nominal is 5 Volts00DEh64h R S E IO AddrLines I/O : Range=0, Bus16=1, Bus8=1,IO AddrLines=400E0h F0h S P L M Level or Mask Share=1, Pulse=1, Level=1, Mask=1 00E2h FFh IRQ7IRQ6IRQ5IRQ4IRQ3IRQ2IRQ1IRQ0IRQ Level to be routed 0 - 1500E4h FFh IRQ15IRQ14IRQ13IRQ12IRQ11IRQ10IRQ9IRQ8recommended.00E6h21h X RFU P RO A T Power Down, Twin Card supported. 00E8h1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple00EAh05h TPL_LINK Link to next tuple00ECh01h I D Configuration Index No Interface Byte, Non Default Entry,Configuration Index = 100EEh01h M MS IR IO T P Has Vcc Info00F0h01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows00F2h B5h X Mantissa Exponent Vcc Nominal is 3.3 Volts00F4h1Eh Extension00F6h1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple00F8h0Fh TPL_LINK Link to next tuple00FAh C2h I D Configuration Index Interface Byte Follows, Default Entry,Configuration Index = 200FCh41h W R P B Interface Type I/O Interface; Bvd's and wProt notused; Ready active and Wait not usedfor memory cycles.00FEh99h M MS IR IO T P Has Vcc, I/O, IRQ and Misc Info 0100h01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows0102h55h X Mantissa Exponent Vcc Nominal is 5 Volts0104h EAh R S E IO AddrLines I/O : Range=1, Bus16=1, Bus8=1,IO AddrLines=100106h61h LS AS N Ranges Number of Address Ranges = 2Address Size = 2Length Size = 10108h F0h First I/O Base Address (LSB)First I/O Base Address = 1F0h010Ah01h First I/O Base Address (MSB)010Ch07h First I/O Length minus 1First I/O Range is 8 Byte Length010Eh F6h Second I/O Base Address (LSB)Second I/O Base Address = 3F6h 0110h03h Second I/O Base Address (MSB)0112h01h Second I/O Length minus 1Second I/O Range is 2 Byte Length 0114h EEh S P L M IRQ Level Share=1, Pulse=1, Level=1, Mask=0,IRQ14 is recommended.0116h21h X RFU P RO A T Power Down, Twin Card supported. 0118h1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple011Ah05h TPL_LINK Link to next tuple011Ch02h I D Configuration Index No Interface Byte, Non Default Entry,Configuration Index = 2011Eh01h M MS IR IO T P Has Vcc Info0120h01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows0122h B5h X Mantissa Exponent Vcc Nominal is 3.3 Volts0124h1Eh Extension0126h1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple0128h0Fh TPL_LINK Link to next tuple012Ah C3h I D Configuration Index Interface Byte Follows, Default Entry,Configuration Index = 3012Ch41h W R P B Interface Type I/O Interface; Bvd's and wProt notused; Ready active and Wait not usedfor memory cycles.012Eh99h M MS IR IO T P Has Vcc, I/O, IRQ and Misc Info 0130h01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows0132h55h X Mantissa Exponent Vcc Nominal is 5 Volts0134h EAh R S E IO AddrLines I/O : Range=1, Bus16=1, Bus8=1,IO AddrLines=100136h61h LS AS N Ranges Number of Address Ranges = 2Address Size = 2Length Size = 10138h70h First I/O Base Address (LSB)First I/O Base Address = 170h013Ah01h First I/O Base Address (MSB)013Ch07h First I/O Length minus 1First I/O Range is 8 Byte Length013Eh76h Second I/O Base Address (LSB)Second I/O Base Address = 376h 0140h03h Second I/O Base Address (MSB)0142h01h Second I/O Length minus 1Second I/O Range is 2 Byte Length 0144h EEh S P L M IRQ Level Share=1, Pulse=1, Level=1, Mask=0,IRQ14 is recommended.0146h21h X RFU P RO A T Power Down, Twin Card supported. 0148h1Bh CISTPL_CFTABLE_ENTRY Configuration Table Entry Tuple014Ah05h TPL_LINK Link to next tuple014Ch03h I D Configuration Index No Interface Byte, Non Default Entry,Configuration Index = 3014Eh01h M MS IR IO T P Has Vcc Info0150h01h R DI PI AI SI HV LV NV Nominal Voltage Only Follows0152h B5h X Mantissa Exponent Vcc Nominal is 3.3 Volts0154h1Eh Extension0156h FFh CISTPL_END End of List Tuple。

GM03-3DA模块使用说明书概述GM03-3DA模块是针对工业现场需要多路模拟量输出的场合而开发的一种模拟量输出模块，可以配合仪表/PLC/工控电脑使用，具有多种输出方式。

显示键盘GM03-3DA模块显示键盘布局如下图所示：当输出方式改变之后，4-20Ma固定输出4Ma，其他模式固定输出0，如果输出方式改为None，则输出禁止，参数设置参数分布：轮流：上电仪表上电后，模块的三路输出按F1设置项中的数值输出。

同事显示器全亮1s后，每隔1s轮流显示三路的输出形式后进入正常显示模式。

显示/键盘操作在正常显示模式下，按下键，显示器显示“CAL”，此时重复按下键，显示在“CAL”、“F1”、“F2”、“F3”、“F4”之间进行切换。

在相应参数项中按下进入相应设置项选择，按下回到正常显示界面。

具体操作参考GM8802仪表。

标定注：模块标定在出厂时已经标定完成，一般情况下不需要标定。

在正常显示模式下，按下键，至显示器显示“CAL”，按下，如果有密码则要求输入密码，如果未设置密码则直接进入通道选择。

通过按键使屏幕显示“CH A”、“CH B”、“CH C”之间切换，选定相应通道后按下对其进行标定。

以标定0~24mA为例：标定共设有5个标定点分别为零码，6mA，12mA，18mA和满码输出标定点。

（由于16位D/A最大输出为65535，所以固定最高位显示为设置点显示）6MA输出校准：仪表显示“一16384”、用万用表检测模拟量输出的大小，若为6MA，则按下键切换到12MA输出校准，或按下键，退出校准界面；若非6MA，则通过按键来修改副显示值至模拟量输出为6MA，修改方法：（1）按下键，则采用为按位修改；（2）按下键，则为微调，键+1，键-1。

12MA输出校准：仪表显示“二32768”，用万用表检测模拟量输出的大小，若为12MA，则按下键切换到18MA输出校准，或按下键，退出校准界面；若非12MA，则通过按键来修改副显示值至模拟量输出为12MA，修改方法：（1）按下键，则采用为按位修改；（2）按下键，则为微调，键+1，键-1。