IS210TRPGH1B机械备件,库存备件
具有EEPROM存储器。用户程序的ReadWriVerify过程对于闪存和EEPROM操作是相同的。可从程序实用程序功能菜单或Logicsr Micro编程软件的程序实用程序屏幕访问闪存操作读写或验证。安装和硬件八月Q CPU容量以下选项卡介绍了CPU型号的容量和操作功能。关于Sta Logic CPU,请参阅4月Sta Logic CPUs的系统规范。选项卡。按单词增量从单词配置。取决于可配置字存储器R AQ AI的分配值。为K字节。CPU和CPU具有基于硬件的浮点值。其他CPU具有基于固件的浮点值,用户内存地址引用程序中的数据由其内存地址引用。参考标记数据在中的存储方式。引用指定内存类型和该内存类型中的精确位置号。例如:我指定输入内存中的地址。R指定寄存器内存中的地址。内存地址和昵称的区别符号用于区分内存地址和别名。例如,I或I是一个内存地址。类似的rm I符号被视为昵称,可用于大多数内存地址。例如,如果你的植物感染了一个mor。你们工厂的人通常把它称为“我”,你可能希望用“我”作为线圈Q的别称,这个线圈Q开启了这个门。您可以这样做,因为您可以区分昵称I、内存地址Q的昵称和内存地址I。Q apr CPU用户内存参考类型以下选项卡中引用的用户参考在CPU指令集参考中进行了解释。选项卡CPU型号的用户参考范围和大小参考内存类型型号参考范围大小参考范围大小用户程序逻辑应用程序CPU:K bys CPU:K bys CPU:K by s CPU:K bys差异输入单词可配置。CPU:单词固定Alog输入AI AI单词可配置。CPU:单词固定Alog s AQAQ单词可配置。CPU:单词固定Sysm regisrs SR SR单词取决于用户定义的可配置内存值。只能用手持式编程器查看,请参见手持式编程仪;不能在逻辑程序中引用。应用程序兼容性在CPU上开发的程序将在CPU上使用时由编程软件自动转换。为CPU创建或转换的程序在与CPU一起使用时将自动转换;但是请注意,有些CPU支持其他CPU不支持的浮点或更大内存大小等功能。在这些情况下,支持一个或多个编程或配置功能的CPU t自动加载程序将导致错误。然而,在某些情况下,可以编辑程序和配置,使其与目标CPU匹配。CPU每日时钟精度每日时钟的精度是多少?在C的rad工作温度范围内,每天秒数。在任何固定温度下,精度都相对稳定。对于需要更高精度的应用,提供以下建议:对于CPU温度稳定的安装,测量一小时内的时间漂移量,然后在梯形图程序中编程校正因子,定期加减秒,以保持CPU时间精度。在这种情况下使用的指令是Service Request#angeRead TimeofDay Clock。在适当的时间,一个Q apr CPU
had EEPROM memory. The ReadWriVerify process for user programs is the same for Flash memory as it is for EEPROM operations. Flash memory operations Read Wri or Verify are accessed from the Program Utilities Function menu or from ather Program Utilities screen in the Logicsr Micro programming software. Installation and Hardware August Q CPU Capacities The following tab describes the capacities and operating features for the CPU models. For Sta Logic CPUs see Sysm Specifications for Sta Logic CPUs in apr . Tab . Configurab from words in word increments. Depends on assigned lues for configurab word memory R AQ AI. is K Bys. CPU and CPU have hardwarebased floating point th. Other CPUs have firmwarebased floating point th. User Memory Addresses References Data in the programs is referenced by its memory address. A reference indicas the way that data is sred in the . A reference specifies both a memory type and a precise location number within that memory type. For examp: I specifies address in input memory. R specifies address in regisr memory. Difference Between a Memory Address and a Nickme The symbol is used distinguish memory addresses from nickmes. For examp I or I is a memory address. The similar rm I it has sign is viewed by the as a nickme and could be used with most memory addresses. For examp if you had a mor in your plant cald Infeed . and it was monly referred as I by the peop in your plant you might wish use I as the nickme for the coil Q that turns on that mor. You are allowed do so because the can distinguish between the nickme I your nickme for memory address Q and memory address I. Q apr CPUs User Memory Reference Types The user references referred in the following tabs are explained in the CPU Instruction Set Reference .Tab . Range and Size of User References for CPU Models Reference Memory Type Model Model Reference Range Size Reference Range Size User program logic t applicab K bys t applicab CPU: K bys CPU: K bys CPU: K bys Discre inputs words configurab. CPU: words fixed Alog inputs AI AI words configurab. CPU: words fixed Alog s AQAQ words configurab. CPU: words fixed Sysm regisrs SR SR words Depends on userdefined lues of configurab memory. y be viewed only with a HandHeld Programmer see the HandHeld Programmer ; y t be referenced in a logic program. Application Program patibility Programs that have been developed on CPUs will autically be translad by the programming software when used on CPUs . Programs cread or translad for CPUs will autically be translad when used with CPUs ; however be aware that some CPUs support features su as floatingpoint th or larger memory sizes that are t suppord by other CPUs. In those cases atmpting load a program a CPU t supporting one or more of the programmed or configured features will result in an error. However in some cases it y be possib edit the program and configuration ke them patib with the targed CPU. CPU TimeofDay D Clock Accuracy The accuracy of the timeofday clock is ? seconds per day across the rad operating mperature range of C. The accuracy is relatively stab at any fixed mperature. For applications that require grear accuracy the following suggestions are furnished: For an installation where the mperature of the CPU is stab measure the amount of time drift for a hour period then program a correction facr in the ladder program add or subtract seconds periodically keep the CPU time accura. The instruction use in this case is Service Request # angeRead TimeofDay Clock. At the appropria time a Q apr CPUs
