HIMA F3236 Z7116 工控模塊機器人備件
RX3i系統手冊第10節GFK-2314T 2019年9月模擬輸入模塊393 9.8.1.2模塊狀態數據:ALG232 9.8.2信道輸入數據:ALM232模塊以其配置的輸入字報告其信道輸入數據,從其分配的信道值參考地址開始。每個信道占用2個字(無論是否使用信道):根據其配置的信道值格式,每個啟用的信道向CPU報告32位浮點或16位整數值。在16位整數模式中,32位通道數據區的低位字包含16位整數通道值。32位值的高位字(高位16位)設置為16位整數的符號擴展。此符號擴展的高位字允許在邏輯中將16位整數讀取為32位整數類型,而不丟失整數的符號。如果16位整數結果為負,則32位通道數據中的高位字具有值0xFFFF。如果16位整數結果為正,則高位字為0x0000。16位分辨率模塊模擬輸入數據以16位2的補碼格式存儲在CPU中,如下圖所示。此功能的MSB LSB 15 14 13是可選的。每個通道的診斷數據占用兩個字(無論是否使用該通道):PACSystems*RX3i系統手冊第10節GFK-2314T 2019年9月模擬輸入模塊394 16通道單端模式的接地連接如圖278所示,8通道差分模式如圖279所示。單端模式是模塊的默認操作模式。必須通過配置選擇差分模式。16個單端信道8個差分信道圖278:現場接線單端ALG232圖279:現場接線差分ALG232 PACSystems*RX3i系統手冊第10節GFK-2314T 2019年9月模擬輸入模塊396 9.9模擬輸入模塊高級診斷16信道電流:IC694ALG233模塊0K用戶電源IC694ALGA233 I1 I2 I3 I4 I5 16 I7 18 19 I10 I11 I12 I13 I14 I15圖280:IC694ALG233 PACSystems RX3i 16通道模擬電流輸入模塊IC694ALGA233提供16個單端輸入通道。可以使用配置軟件為三個輸入范圍中的任何一個配置每個輸入:? 4至20毫安? 0至20毫安? 4至20 mA增強型高和低報警限值適用于所有范圍。在4至20 mA增強型范圍內,可設置低報警限值以檢測4 mA至0 mA的輸入電流,從而在4至20mA增強型應用中提供開路故障檢測。模塊還使用其分配的程序參考地址向CPU報告模塊狀態和外部電源狀態。此模塊可以安裝在RX3i系統中具有串行連接器的任何I/O插槽中。9.9.1模塊電源此模塊從RX3i背板上的5Vdc總線消耗120 mA。它還需要來自用戶提供的+24V直流電源的65 mA,該電源還必須為所采用的每個電流回路提供電流。9.9.2特點? 完全軟件可配置,無需設置模塊跳線? 開路檢測
RX3i System Manual Section 10 GFK-2314T Sept. 2019 Analog Input Modules 393 9.8.1.2 Module Status Data: ALG232 9.8.2 Channel Input Data: ALG232 The module reports its channel input data in its configured input words, beginning at its assigned Channel Value Reference Address. Each channel occupies 2 words (whether the channel is used or not): Depending on its configured Channel Value Format, each enabled channel reports a 32-bit floating-point or 16-bit integer value to the CPU. In the 16-bit integer mode, the low word of the 32-bit channel data area contains the 16-bit integer channel value. The high word (upper 16-bits) of the 32-bit 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. The 16-bit resolution module analog input data is stored in the CPU in 16-bit 2’s complement format as displayed in the following figure. MSB LSB 15 14 13 of this feature is optional. The diagnostics data for each channel occupies two words (whether the channel is used or not): PACSystems* RX3i System Manual Section 10 GFK-2314T Sept. 2019 Analog Input Modules 394 Ground Connections for 16-channel single-ended mode are displayed in Figure 278 and for 8-channel differential mode in Figure 279. Single-ended mode is the default operating mode for the module. Differential mode must be selected by configuration. 16 Single-ended Channels 8 Differential Channels Figure 278: Field Wiring Single-Ended ALG232 Figure 279: Field Wiring Differential ALG232 PACSystems* RX3i System Manual Section 10 GFK-2314T Sept. 2019 Analog Input Modules 396 9.9 Analog Input Module Advanced Diagnostics 16-Channel Current: IC694ALG233 MODULE 0K USER SUPPLY IC694ALG233 I1 I2 I3 I4 I5 16 I7 18 19 I10 I11 I12 I13 I14 I15 I16 Figure 280: IC694ALG233 The PACSystems RX3i 16-Channel Analog Current Input module, IC694ALG233, provides sixteen single-ended input channels. Each input can be configured using the configuration software for any of three input ranges: ? 4 to 20 mA ? 0 to 20 mA ? 4 to 20 mA Enhanced High and Low alarm limits are available on all ranges. In the 4 to 20 mA Enhanced range, a low alarm limit can be set up to detect input current from 4 mA to 0 mA, providing open-wire fault detection in 4 to 20 mA Enhanced applications. The module also reports module status and external power supply status to the CPU using its assigned program reference addresses. This module can be installed in any I/O slot that has a serial connector in an RX3i system. 9.9.1 Module Power This module consumes 120 mA from the 5Vdc bus on the RX3i backplane. It also requires 65 mA from a user-supplied +24Vdc supply, which must also supply current for each current loop employed. 9.9.2 Features ? Completely software-configurable, no module jumpers to set ? Open-circuit detection