IS200VCMIH2B处理器卡件
总模块负载电流环境温度45051()图7-19。IC693MDL733 7 7-22 Series 90-30 PLC I/O模块规格的负载电流与温度–2000 GFK-0898F 125伏直流正/负逻辑1安培-6点IC693MDL 734 Series 90-30可编程逻辑控制器的125伏直流正负逻辑1安培模块提供6个隔离点。每个模块都有一个独立的端子。该模块设计为具有正逻辑特性,即从用户或正电源总线向负载供电;或负逻辑特性,因为它将电流从负载吸收到用户或负电源总线。该特性与广泛的用户提供的负载设备兼容,例如:电机起动器、定子和指示器。操作现场设备的电源必须由用户提供。LED指示灯位于模块顶部,指示每个点的开/关状态。该LED块有两个水平行,每行有八个绿色LED。该模块使用顶行中的前六个LED,标记为A1至6(点1至6)以显示状态。铰链门的内外表面之间有一个插件。朝向模块内部的表面(当铰链门关闭时)具有接线信息,并且识别信息可以记录在外表面上。插件的左外边缘用红色编码,表示高压模块。建议采用外部熔断。两安培负载可以通过布线和并联驱动两个负载来驱动。该模块可安装在Series 90-30 PLC系统中5或10插槽基板的任何I/O插槽中。表7-11。IC693MDL734额定电压125伏直流电压范围+10.8至+150伏直流电压每个模块6(隔离)场侧和逻辑侧之间的隔离1500伏s电流1安培/点特性浪涌电流15.89 10毫秒电压降1伏关断状态漏电1开响应时间7毫秒关断响应时间5毫秒来自5伏总线的功耗90(全部打开有关产品标准和一般规范,请参阅附录B。离散模块7 GFK-0898F第7章-离散模块7-23 IC693MDL734模块现场接线信息下图提供了将用户提供的负载设备和电源连接到125伏直流正/负逻辑1安培模块的接线信息。逻辑图7-20。IC697MDL734模块现场接线6 4 2 10 20 30 40 50 60总模块负载电流环境温度5 3 1 6 a45240()图7-21。IC693MDL734 7 7-24 Series 90-30 PLC I/O模块规格的负载电流与温度–2000 GFK-0898F 12/24伏直流正逻辑-0.5安培,16点IC693MDL 740 Series 90-30可编程逻辑控制器的12/24伏DC正逻辑0.5安培模块提供两组8个16点,每组有一个电源端子。该模块设计为具有正逻辑特性,因为它从用户或正电源总线向负载提供电流。该设备连接在负电源总线和模块之间。该特性与广泛的用户提供的负载设备兼容,例如:电机起动器、定子和指示器。操作现场设备的电源必须由用户提供。
TOTAL MODULE LOAD CURRENT AMBIENT TEMPERATURE a45051 () Figure 7-19. Load Current vs. Temperature for IC693MDL733 7 7-22 Series 90-30 PLC I/O Module Specifications – 2000 GFK-0898F 125 Volt DC Positive/Negative Logic 1 Amp - 6 Point IC693MDL734 The 125 volt DC Positive/Negative Logic 1 Amp module for the Series 90-30 Programble Logic Controller provides 6 isolated points . Each has a separate termil associated with it. This module is designed to have either positive logic characteristics in that it sources current to the loads from the user or positive power bus; or negative logic characteristics in that it sinks current from the loads to the user or negative power bus. The characteristics are compatible with a wide range of user-supplied load devices, such as: motor starters, soleids, and indicators. Power to operate the field devices must be supplied by the user. LED indicators which provide the ON/OFF status of each point are located at the top of the module. This LED block has two horizontal rows with eight green LEDs in each row. This module uses the first six LEDs in the top row, labeled A1 through 6 (points 1 through 6) for status. An insert goes between the inside and outside surface of the hinged door. The surface towards the inside of the module (when the hinged door is closed) has wiring infortion, and identification infortion can be recorded on the outside surface. The outside left edge of the insert is color-coded red to indicate a high-voltage module. Exterl fusing is recommended. Two amp loads can be driven by wiring and driving two s in parallel. This module can be installed in any I/O slot of a 5 or 10-slot baseplate in a Series 90-30 PLC system. Table 7-11. Specifications for IC693MDL734 Rated Voltage 125 volts DC Voltage Range +10.8 to +150 volts DC s per Module 6 (isolated) Isolation 1500 volts between field side and logic side 500 volts between s Current 1 amp per point Characteristics Inrush Current 15.89 for 10 ms Voltage Drop 1 volt Off-state Leakage 1 On Response Time 7 ms Off Response Time 5 ms Power Consumption 90 (all s on) from 5 volt bus on backplane Refer to Appendix B for product standards and general specifications. Discrete Modules 7 GFK-0898F Chapter 7 – Discrete Modules 7-23 IC693MDL734 Module Field Wiring Infortion The following figure provides wiring infortion for connecting user supplied load devices and power source to the 125 volt DC positive/negative logic 1 amp module. LOGIC Figure 7-20. IC697MDL734 Module Field Wiring 6 4 2 10 20 30 40 50 60 TOTAL MODULE LOAD CURRENT AMBIENT TEMPERATURE 5 3 1 6 a45240 () Figure 7-21. Load Current vs. Temperature for IC693MDL734 7 7-24 Series 90-30 PLC I/O Module Specifications – 2000 GFK-0898F 12/24 Volt DC Positive Logic - 0.5 Amp, 16 Point IC693MDL740 The 12/24 volt DC Positive Logic 0.5 Amp module for the Series 90-30 Programble Logic Controller provides 16 points in two groups of eight with a power termil for each group. This module is designed to have positive logic characteristics in that it sources current to the loads from the user or positive power bus. The device is connected between the negative power bus and the module . The characteristics are compatible with a wide range of user-supplied load devices, such as: motor starters, soleids, and indicators. Power to operate the field devices must be supplied by the user.
