HIEE400109R1模块控制器
模块没有模拟输入。通道输入输出通用HART设备24V-++-250欧姆图325:连接到模拟输出通道11.5 HART参考数据的HART输入变送器如果HART数据扫描控制配置为“仅动态数据”或“所有数据”,则CPU自动将下一页列出的HART数据扫描到为该模块配置的HART数据参考地址中。数据长度取决于选择的是“所有数据”还是“动态数据”。PACSystems*RX3i系统手册第12节GFK-2314T 2019年9月带HART通信的模拟模块538此数据包括与多个HART直通命令相关的响应数据。模块存储该数据,然后通过上述自动HART数据扫描或响应应用程序中的功能块将其传递给CPU。请注意,无效或未初始化的REAL(浮点)数据将设置为NaN(Not-A-Number)。11.5.1 HART状态数据除HART参考数据外,模块在其配置的HART状态参考地址中报告HART通信的状态。此数据的长度为4个字/64位:字1设备存在,每个通道一位。通道1位于最低位。对于8通道模块,不使用位9-16。Word 2设备设备。CMD#16,字节0-2BYTE*4 PACSystems*RX3i系统手册第12节GFK-2314T 2019年9月带HART通信的模拟模块540 0x008c 0x00a4 HART命令48返回的扩展状态。BYTE*25 0x00a5 HART设备信息=1。字8 1(0001)后面的响应参考区域数(不包括COMMREQ状态字)。始终为1。Word 9回复数据的内存类型。(第9-12条规定了回复的起始地址。)内存类型内存类型十进制代码%I离散输入表(字节模式)16%Q离散输出表(字节方式)18%W字内存196%R寄存器内存8%AI模拟输入表10%AQ模拟输出表12%T离散临时内存(字节)20%M离散内部内存(Byte)22字10 0(0000)位偏移量(对于所有请求必须为0)。字11基于0的偏移量(低位字)。响应将写入的起始地址。输入的值是从Word 9中指定的存储器类型的PLC存储器开始的从0开始的偏移量。此偏移量以字节或字为单位,具体取决于指定的内存类型。值的有效范围取决于主机PLC的内存范围。示例:如果单词9和11分别包含值8和250,则响应将写入%R251。字12基于0的偏移量(高位字)偏移量的高位字。对于大多数内存类型,值为0。仅当使用%W内存时,高位字才为非零。字13字:90(005A)字节:180(00B4)响应区域的最大大小。如果使用单词记忆类型,则必须为90;如果使用离散存储器类型,则为180。单词14范围1-16。通道编号后面的响应参考区域的数量(不包括COMMREQ状态字)。始终为1。Word 9回复数据的内存类型。(第9-12条规定了回复的起始地址。)内存类型内存类型十进制代码%I离散输入表(字节模式)16%Q离散输出表(字节方式)18%W字内存196%R寄存器内存8%AI模拟输入表10%AQ模拟输出表12%T离散临时内存(字节)20%M离散内部内存(Byte)22字10 0(0000)位偏移量(对于所有请求必须为0)。字11基于0的偏移量(低位字)。响应将写入的起始地址。输入的值是从Word 9中指定的存储器类型的PLC存储器开始的从0开始的偏移量。此偏移量以字节或字为单位,具体取决于指定的内存类型。值的有效范围取决于主机PLC的内存范围。
There is no analog input to the module. Channel I out Common HART Device 24V - + + - 250 Ohms Figure 325: HART Input Transmitter attached to Analog Output Channel 11.5 HART Reference Data If HART Data Scan Control is configured as “Dynamic Data Only” or “All Data”, the CPU automatically scans the HART data listed on the next page into the HART Data Reference Address configured for this module. The data length depends on whether All Data or Dynamic Data is selected. PACSystems* RX3i System Manual Section 12 GFK-2314T Sept. 2019 Analog Modules with HART Communications 538 This data includes response data associated with several HART Pass-Through Commands. The module stores this data, and then passes it to the CPU either in the automatic HART data scan described above, or in response to function blocks in the application program. Note that invalid or uninitialized REAL (floating-point) data will be set to NaN (Not-A-Number). 11.5.1 HART Status Data In addition to the HART Reference Data, the module reports the status of HART communications in its configured HART Status Reference Address. The length of this data is 4 words / 64 bits: Word 1 Device Present, one bit per channel. Channel 1 in lowest bit. For 8-channel module, bits 9-16 are not used. Word 2 Device device. CMD#16, Bytes 0-2 BYTE*4 PACSystems* RX3i System Manual Section 12 GFK-2314T Sept. 2019 Analog Modules with HART Communications 540 0x008c 0x00a4 The extended status returned by HART command 48. BYTE*25 0x00a5 HART Device Information = 1. Word 8 1 (0001) Number of Response Reference areas that follow (does not include COMMREQ status word). Always 1. Word 9 Memory type for the reply data. (Words 9—12 specify the starting address where the response will be written.) Memory Type Memory Type Decimal code %I Discrete input table (Byte mode) 16 %Q Discrete output table (Byte mode) 18 %W Word memory 196 %R Register memory 8 %AI Analog input table 10 %AQ Analog output table 12 %T Discrete temporary memory (Byte) 20 %M Discrete internal memory (Byte) 22 Word 10 0 (0000) Bit Offset (must be 0 for all requests). Word 11 0-based offset (low word). Starting address to which the response will be written. The value entered is the 0-based offset from the beginning of PLC memory for the memory type specified in Word 9. This offset is in bytes or words depending on the memory type specified. Valid ranges of values depend on the memory ranges of the host PLC. Example: If Words 9 and 11 contain values of 8 and 250 respectively, the response will be written to %R251. Word 12 0-based offset (high word) High word of offset. Value = 0 for most memory types. High word is non-zero only on if %W memory is used. Word 13 Words: 90 (005A) Bytes: 180 (00B4) Maximum size of response area. Must be 90 if word memory type is used; 180 if discrete memory type is used. Word 14 Range 1-16. Channel Number Number of Response Reference areas that follow (does not include COMMREQ status word). Always 1. Word 9 Memory type for the reply data. (Words 9—12 specify the starting address where the response will be written.) Memory Type Memory Type Decimal code %I Discrete input table (Byte mode) 16 %Q Discrete output table (Byte mode) 18 %W Word memory 196 %R Register memory 8 %AI Analog input table 10 %AQ Analog output table 12 %T Discrete temporary memory (Byte) 20 %M Discrete internal memory (Byte) 22 Word 10 0 (0000) Bit Offset (must be 0 for all requests). Word 11 0-based offset (low word). Starting address to which the response will be written. The value entered is the 0-based offset from the beginning of PLC memory for the memory type specified in Word 9. This offset is in bytes or words depending on the memory type specified. Valid ranges of values depend on the memory ranges of the host PLC.
