HIEE-450880-R1脈沖輸入卡件
兩組對(duì)應(yīng)值之間的線性關(guān)系。它們不一定是輸出的極限。PACSystems*RX3i系統(tǒng)手冊(cè)第12節(jié)GFK-2314T 2019年9月模擬輸出模塊479示例在本示例中,應(yīng)用程序應(yīng)將32000計(jì)數(shù)解釋為+10 Vdc,-32000計(jì)數(shù)解釋為-10 Vdc。以下信道配置將將±10 Vdc輸出信道縮放至±32000計(jì)數(shù)。信道值格式=16位整數(shù)高量程值(Eng單位)=32000.0低量程值(英制單位)=-3200.00高量程值,(A/D單位)=10.000低量程值,A/D單位)=10.000電壓-10000+10000-32000計(jì)數(shù)32000圖309:信道縮放示例PACSystems*RX3i系統(tǒng)手冊(cè)第12節(jié)GFK-2314T 2019年9月模擬輸出模塊480信道參數(shù)(續(xù))參數(shù)默認(rèn)說明高報(bào)警(工程單位)默認(rèn)值取決于配置的范圍。所有報(bào)警參數(shù)均以工程單位指定。當(dāng)達(dá)到或低于(高于)配置值時(shí),將觸發(fā)低(高)報(bào)警。低報(bào)警(工程單位)輸出啟用斜坡率(工程單位(Eng Units))0.0正常運(yùn)行期間輸出將發(fā)生變化的工程單位速率。默認(rèn)斜坡速率(工程單位)0.0如果發(fā)生故障或未啟用輸出,輸出將改變的工程單位速率。輸出鉗位啟用禁用啟用/禁用。請(qǐng)參閱以下說明。上限(英制單位)默認(rèn)值取決于配置的量程。上限必須大于下限。此參數(shù)可用于將輸出限制在比其配置的范圍類型更窄的范圍內(nèi)。例如,為-10 Vdc至+10 Vdc配置的信道可能被限制為-8V至+7.5V。下限限值(英制單位)默認(rèn)值(英制單元)0.0。如果禁用保持最后狀態(tài),則當(dāng)CPU未處于輸出啟用模式或在特定故障條件下時(shí),命令輸出進(jìn)入默認(rèn)值。用戶偏移(Eng Units)0.0可用于更改通道基礎(chǔ)的可配置值。該值在報(bào)警檢查之前添加到通道的縮放值。10.4.5.3下限、上限和警報(bào)警報(bào)可用于指示模塊何時(shí)被指令達(dá)到或超過每個(gè)通道的配置上限或下限。這些設(shè)置在六個(gè)可配置報(bào)警觸發(fā)點(diǎn):? 高報(bào)警和低報(bào)警? 上夾具和下夾具? 超量程和欠量程報(bào)警每個(gè)報(bào)警可按通道單獨(dú)配置,以生成診斷位狀態(tài)、故障報(bào)警或中斷報(bào)警。PACSystems*RX3i系統(tǒng)手冊(cè)第12節(jié)GFK-2314T 2019年9月模擬輸出模塊481如果命令信道高于上限值,則輸出設(shè)置為上限值,并指示上限條件。如果命令通道低于下限值,則輸出設(shè)置為下限值,并指示下限條件。在可能通過斜坡、箝位和故障條件進(jìn)行調(diào)整后,對(duì)工程單位輸出值執(zhí)行高報(bào)警和低報(bào)警檢查。PACSystems*RX3i系統(tǒng)手冊(cè)第12節(jié)GFK-2314T 2019年9月模擬輸出模塊482信道參數(shù)(續(xù))參數(shù)默認(rèn)說明診斷報(bào)告啟用如果啟用了診斷報(bào)告,下面列出的其他參數(shù)可用于啟用特定類型的報(bào)警。Disabled Diagnostic Reporting Enable(禁用診斷報(bào)告啟用)選項(xiàng)用于啟用將報(bào)警報(bào)告到Diagnostic reference(診斷參考)區(qū)域的參考內(nèi)存。故障報(bào)告啟用選項(xiàng)可將報(bào)警記錄到I/O故障表中。這些參數(shù)啟用或禁用通道的各個(gè)診斷功能。當(dāng)這些參數(shù)中的任何一個(gè)被啟用時(shí),模塊使用相關(guān)參數(shù)來(lái)執(zhí)行啟用的功能。例如,如果在Diagnostic Reporting Enable(診斷報(bào)告啟用)菜單中啟用了Over Range(超出范圍),則模塊將在通道的Diagnostic Reference(診斷參考)中設(shè)置Over Range位。如果這些參數(shù)中的任何一個(gè)被禁用,則模塊不會(huì)對(duì)相關(guān)報(bào)警條件做出反應(yīng)。
linear relationship between two sets of corresponding values. They do not have to be the limits of the output. PACSystems* RX3i System Manual Section 12 GFK-2314T Sept. 2019 Analog Output Modules 479 Example In this example, the application should interpret 32000 counts as +10 Vdc and –32000 counts as -10 Vdc. The following channel configuration will scale a ±10 Vdc output channel to ±32000 counts. Channel Value Format = 16-bit Integer High Scale Value (Eng Units) = 32000.0 Low Scale Value (Eng Units) = -32000.0 High Scale Value (A/D Units) = 10.000 Low Scale Value (A/D Units) = -10.000 Voltage -10,000 +10,000 -32,000 Counts 32,000 Figure 309: Channel Scaling Example PACSystems* RX3i System Manual Section 12 GFK-2314T Sept. 2019 Analog Output Modules 480 Channel Parameters (Continued) Parameter Default Description High Alarm (Eng Units) The defaults depend on the configured Range. All of the alarm parameters are specified in Engineering Units. When the configured value is reached or below (above), a Low (High) Alarm is triggered. Low Alarm (Eng Units) Outputs Enabled Ramp Rate (Eng Units) 0.0 The rate in Engineering Units at which the output will change during normal operation. Default Ramp Rate (Eng Units) 0.0 The rate in Engineering Units at which the output will change if a fault condition occurs or if outputs are not enabled. Output Clamping Enabled Disabled Enabled / Disabled. Refer to description below. Upper Clamp Limit (Eng Units) The defaults depend on the configured Range. The Upper Clamp Limit must be greater than the Lower Clamp Limit. This parameter can be used to restrict the output to a range that is narrower than its configured Range Type. For example, a channel configured for –10 Vdc to +10 Vdc could be restricted to -8V to +7.5V. Lower Clamp Limit (Eng Units) Default Value (Eng Units) 0.0 If Hold Last State is disabled, the output is commanded to go to the Default Vale when the CPU is not in Outputs Enabled mode or under certain fault conditions. User Offset (Eng Units) 0.0 A configurable value that can be used to change the base of the channel. This value is added to the scaled value of the channel before alarm-checking. 10.4.5.3 Lower, Upper Clamp and Alarms Alarms can be used to indicate when the module has been commanded to meet or exceed the configured high or low limits for each channel. These are set at six configurable alarm trigger points: ? High Alarm and Low Alarm ? Upper Clamp and Lower Clamp ? Over-range and Under-range Alarm Each alarm is individually configurable per channel to generate diagnostics bit status, fault alarms, or interrupt alarms. PACSystems* RX3i System Manual Section 12 GFK-2314T Sept. 2019 Analog Output Modules 481 If a channel is commanded higher than the Upper Clamp value, the output is set to the Upper Clamp value and an Upper Clamp condition is indicated. If a channel is commanded lower than the Lower Clamp value, the output is set to the Lower Clamp value and a Lower Clamp condition is indicated. The High and Low Alarm checks are performed on the engineering units output value after possibly being adjusted by ramping, clamping, and fault conditions. PACSystems* RX3i System Manual Section 12 GFK-2314T Sept. 2019 Analog Output Modules 482 Channel Parameters (Continued) Parameter Default Description Diagnostic Reporting Enable If Diagnostic Reporting is enabled, the additional parameters listed below can be used to enable specific types of alarms. Disabled Diagnostic Reporting Enable options are used to enable reference memory reporting of alarms into the Diagnostic Reference area. Fault Reporting Enable options enable fault logging of alarms into the I/O Fault Table. These parameters enable or disable the individual diagnostics features of a channel. When any of these parameters is enabled, the module uses associated parameters to perform the enabled feature. For example, if Over Range is enabled in the Diagnostic Reporting Enable menu, the module will set the Over Range bit in the Diagnostic Reference for the channel. If any of these parameters is disabled, the module does not react to the associated alarm conditions.