HIMA F3108 17039通用電氣卡件
值設置為16位整數(shù)的符號擴展。此符號擴展的高位字允許在邏輯中將16位整數(shù)讀取為32位整數(shù)類型,而不丟失整數(shù)的符號。如果16位整數(shù)結(jié)果為負,則32位通道數(shù)據(jù)中的高位字具有值0xFFFF。如果16位整數(shù)結(jié)果為正,則高位字為0x0000。PACSystems*RX3i系統(tǒng)手冊第10節(jié)GFK-2314T 2019年9月模擬輸入模塊421 9.11.2.1分辨率和范圍類型:ALG608和ALG616每個輸入的實際分辨率取決于為該信道配置的范圍類型和A/D濾波器頻率。在較高的濾波器頻率下,輸入分辨率降低。下表顯示了每個濾波器頻率和范圍類型的近似分辨率(以位為單位)。分辨率(位)濾波器頻率范圍類型±10 Vdc 0至10 Vdc、±5 Vdc、±20 Vdc 0至5 Vdc、1至5 Vdc,0至20mA、4至20mA 8 Hz 18 17 16 12 Hz 17 16 16 16 Hz 17 16 15 40 Hz 16 15 14 200 Hz 15 14 13 500 Hz 14 13 12 9.11.2.2信道掃描:ALG608和ALG616這些模塊使用4個A/D轉(zhuǎn)換器實現(xiàn)最快的信道掃描時間。該模塊最多有四個采集周期手冊第10節(jié)GFK-2314T 2019年9月模擬輸入模塊422 9.11.2.3信道診斷數(shù)據(jù):ALG608和ALG616除了來自現(xiàn)場設備的輸入數(shù)據(jù)外,該模塊還可以配置為向CPU報告信道診斷狀態(tài)數(shù)據(jù)。CPU將此數(shù)據(jù)存儲在為模塊配置的診斷參考地址中。此功能的使用是可選的。每個通道的診斷數(shù)據(jù)占用兩個通道:報警或故障條件不存在或該通道的配置中未啟用檢測。對于每個通道,此數(shù)據(jù)的格式為:PACSystems*RX3i系統(tǒng)手冊第10節(jié)GFK-2314T 2019年9月模擬輸入模塊423 PACSystems*RX3i系統(tǒng)說明書第10節(jié)GFK-2314T2019年9月份模擬輸入模塊424 9.11.2.4模塊狀態(tài)數(shù)據(jù):ALG608和ALG616模塊也可選擇配置為向CPU返回兩位模塊狀態(tài)數(shù)據(jù)。CPU將此數(shù)據(jù)存儲在為模塊配置的32位模塊狀態(tài)數(shù)據(jù)參考區(qū)域中。9.11.2.4.1接線板檢測模塊自動檢查是否存在接線板。TB LED指示模塊接線板的狀態(tài)。當接線板存在時,它是綠色的,如果沒有,它是紅色的。當從系統(tǒng)中配置的模塊插入或移除接線板時,故障會自動記錄在CPU I/O故障表中。故障類型為Field fault(現(xiàn)場故障),故障描述表明故障是“接線板丟失”還是“接線板增加”。如果在存儲配置時不存在接線板,則會記錄“接線板丟失”故障。模塊狀態(tài)參考的第1位指示接線板的狀態(tài)。要啟用模塊狀態(tài)報告,必須配置模塊狀態(tài)參考。運行期間,PLC必須處于I/O啟用模式,以便在參考存儲器中掃描和更新當前模塊狀態(tài)。9.11.3現(xiàn)場接線:ALG608和ALG616,單端模式下表列出了單端模式中非隔離模擬輸入模塊的接線連接。單端模式是配置的默認操作模式。端子IC695ALG608
value is set with the sign extension of the 16-bit integer. This sign-extended upper word allows the 16-bit integer to be read as a 32-bit integer type in logic without losing the sign of the integer. If the 16-bit integer result is negative, the upper word in the 32-bit channel data has the value 0xFFFF. If the 16-bit integer result is positive, the upper word is 0x0000. PACSystems* RX3i System Manual Section 10 GFK-2314T Sept. 2019 Analog Input Modules 421 9.11.2.1 Resolution and Range Types: ALG608 & ALG616 The actual resolution for each input depends on the Range Type and A/D Filter Frequency configured for that channel. At higher Filter Frequencies, input resolution decreases. The approximate resolution in bits for each Filter Frequency and Range Type are displayed in the following table. Resolution (in bits) Filter Frequency Range Type ±10 Vdc 0 to 10 Vdc, ±5Vdc, ±20 Vdc 0 to 5Vdc, 1 to 5Vdc, 0 to 20mA, 4 to 20mA 8 Hz 18 17 16 12 Hz 17 16 15 16 Hz 17 16 15 40 Hz 16 15 14 200 Hz 15 14 13 500 Hz 14 13 12 9.11.2.2 Channel Scanning: ALG608 & ALG616 These modules use 4 A/D converters to achieve the fastest possible channel scan times. The module has up to four acquisition cycles Manual Section 10 GFK-2314T Sept. 2019 Analog Input Modules 422 9.11.2.3 Channel Diagnostic Data: ALG608 and ALG616 In addition to the input data from field devices, the module can be configured to report channel diagnostics status data to the CPU. The CPU stores this data at the Diagnostic Reference Address configured for the module. Use of this feature is optional. The diagnostics data for each channel occupies two the alarm or fault condition is either not present or detection is not enabled in the configuration for that channel. For each channel, the format of this data is: PACSystems* RX3i System Manual Section 10 GFK-2314T Sept. 2019 Analog Input Modules 423 PACSystems* RX3i System Manual Section 10 GFK-2314T Sept. 2019 Analog Input Modules 424 9.11.2.4 Module Status Data: ALG608 & ALG616 The module can also optionally be configured to return two bits of module status data to the CPU. The CPU stores this data in the 32-bit Module Status Data reference area configured for the module. 9.11.2.4.1 Terminal Block Detection The module automatically checks for the presence of a Terminal Block. The TB LED indicates the state of the terminal block of the module. It is green when the Terminal Block is present or red if it is not. Faults are automatically logged in the CPU I/O Fault table when the terminal block is inserted or removed from a configured module in the system. The fault type is Field Fault and the fault description indicates whether the fault is a "Loss of terminal block" or an "Addition of terminal block". If a Terminal Block is not present while a configuration is being stored, a "Loss of terminal block" fault is logged. Bit 1 of the Module Status Reference indicates the status of the terminal block. To enable Module Status reporting, the Module Status Reference must be configured. During operation, the PLC must be in an I/O Enabled mode for the current Module Status to be scanned and updated in reference memory. 9.11.3 Field Wiring: ALG608 & ALG616, Single-Ended Mode The following table lists wiring connections for Non-Isolated Analog Input Modules in Single-ended mode. Single-ended mode is the configured default operating mode. Terminal IC695ALG608