IS200VVIBH1C控制模块,机器人模块
Discre bition s F apr Discre bitions s Volt DC Input Relay Inputs ICMDR逻辑控制器的Volt DC InputRelay为输入点提供一个单电源输入,并在其中打开继电器。输入被设计为具有正或负的不对称性,因为它们从用户mon的输入设备吸收或提供电流,并且被布置为一组输入。继电器分为两组,每组四个。每个小组都有一种魔力。输入整流器适用于各种用户提供的设备,例如:推压限位开关和电子接近开关。通过输入的电流导致输入状态选项卡I中的逻辑。现场设备的电源必须由用户提供。rllyopen继电器用于控制用户提供的负载。ea的swing容量为。继电器可以控制各种用户提供的负载设备,如:多个星形信号和标记。内部继电器的电源由背板上的+伏直流总线提供。用户必须为现场设备提供交流或直流电源。这上面有保险丝。提供每个点关闭状态的D标记位于。D布置在两个水平行中,每行中有八个绿色D。p行通过输入点标记为A,底部行通过中继点标记为B。铰链门的内外表面之间有一个插件。当铰链门关闭时,其内侧的表面上有接线信息,外部表面上可以记录识别信息。插入件外ft边缘的p半部分是彩色编码的蓝色低电压s,外ft边缘底部的半部分是红色高电压s。这可以安装在系统的任何插槽或插槽中。规格F表。ICMDR输入规范Rad电压伏特DC输入电压范围+伏特DC输入每一组八个输入之间的隔离电压RMS和输入之间的逻辑侧电压RMS输入电流。通常在rad电压输入时,交流电压伏直流关断电压+直流关断电流最小关断电流。打开响应时间ms典型关闭响应时间ms通常s Rad电压C工作电压伏特DC伏特AC Hz s每两组四个ea之间的隔离电压RMS场和逻辑侧电压RMS组之间的负载每个月最小负载涌入打开响应时间毫秒关闭响应时间毫秒Inrl功耗全部来自+V背板总线所有来自继电器+V背板母线负载电流为取决于下表所示的工作电压。有关产品标准和一般规范,请参阅附录B。表。ICMDR负载类型的负载电流限制典型操作电压电阻灯或Soid操作次数电感负载差异时继电器触点寿命
Discrete bits F apr Discrete bits s Volt DC Input Relay Inputs The Volt DC InputRelay of the ICMDR logic controller provides a single power input to the input point where the relay is opened. The inputs are designed to have a positive or negative asymmetry because they absorb or supply current from the user mon's input device and are arranged as a set of inputs. The relay is divided into two groups of four. Each group has a magic power. Input rectifiers are suitable for various user supplied devices, such as push limit switches and electronic proximity switches. The current through the input causes the logic in the Input Status tab I. The power supply of field equipment must be provided by the user. The rllyopen relay is used to control the load provided by the user. The swing capacity of ea is. Relays can control various user supplied load devices, such as multiple star signals and markers. Power for the internal relays is provided by the+V DC bus on the backplane. The user must provide AC or DC power for the field equipment. There is a fuse on this. The D marker that provides the closing status of each point is located at. D is arranged in two horizontal rows with eight green Ds in each row. The p line is marked as A through the input point, and the bottom line is marked as B through the relay point. There is a plug-in between the inner and outer surfaces of the hinged door. When the hinged door is closed, there is wiring information on the inner surface and identification information can be recorded on the outer surface. The p half of the outer ft edge of the insert is a color coded blue low voltage s, and the red high voltage s is the bottom half of the outer ft edge. This can be installed in any slot or slot in the system. Specification F table. ICMDR input specification Rad voltage Volt DC input voltage range+Volt DC input Isolation voltage RMS between each group of eight inputs and logic side voltage RMS input current between inputs. Generally, when the rad voltage is input, the AC voltage V DC turn off voltage+DC turn off current minimum turn off current. Opening response time ms Typical closing response time ms Normally s Rad voltage C Working voltage V DC volt AC Hz s Isolation voltage between two groups of four eas RMS load between RMS field and logic side voltage RMS load inrush opening response time ms Closing response time ms Inrl power consumption is all from+V backplane bus All load currents from relays+V backplane bus depend on the operating voltage shown in the table below. Refer to Appendix B for product standards and general specifications. Table. Load current limit of ICMDR load type Typical operating voltage Resistance lamp or Soid operating times Inductive load difference Relay contact life
