MGQ-M 执行器的位置。LED 指示选件 技术参数 - 固态传感器 --- 库存号 | 类型 | 负载电压 | 负载电流 | 电源 | 内部 压降 182-5888 | 3 线固态 NPN | 最大 28V 直流 | 最大 40mA | 4.5 - 28V 直流 | 最大 1.5V 182-5894 | 3 线固态 PNP | 最大 28V 直流 | 最大 80mA | 4.5 - 28V 直流 | 最大 0.8V 182-5917 | 2 线固态 | 最大 28V 直流 | 5-40mA | n/a | 最大 4V 技术参数 - 簧片开关传感器 --- 应用 | 继电器,PLC 电源 | 24V 直流(100V 交流) 负载电流 | 5 - 40mA 5 - 20mA 内部压降 | 环境温度 | \- 10 ° C?+60 ° C 保护等级 | IEC IP67 ### 注电磁位置传感器可与气动夹具(典型库存号为 366-3597 和 350-0581,有些市场提供)一起使用。### MGQ-M 紧凑型导轨 12-50mm 直径紧凑型,双作用导轨气缸,利用滑动轴承。 这些气缸保持超高非旋转准确度和侧向负载耐受性。 所有气缸均具有磁性感应和直接安装功能。
One type of proximity switch is an enclosed reed switch that is activated by a permanent magnet mounted to the piston. As the piston approaches, the magnetic field closes the switch, completing an electric circuit and producing an electric signal. Others prefer to use Hall-effect Solid-State sensors in combination with a piston-mounted magnet. The main difference between these two devices is that a reed switch is a mechanical device, while a Hall-effect Solid-State switch is electronic, with no moving parts to wear out. Reed switches have the advantage of operating on AC or DC current; Hall-effect Solid-State switches are limited to DC only. Also, reed switches are about half the price of their electronic counterpart, although the price differential is decreasing. On the other hand, Hall-effect Solid-State devices react much faster than reed switches, on the order of 100,000 versus 500 Hz. It is a waste of money to install microprocessor-based logic, and then be hampered by a slow switch. Overall, the trend seems to be towards these solid-state devices. Both switches have a repeatability of 0.005" or less. But often rod velocity, not switch accuracy, determines the overall repeatability of rod position. Because air is a compressible fluid, precise positioning of the cylinder rod -- especially in midstroke -- is difficult, regardless of the switch used. In many applications, even if the switch is very fast and accurate, getting the valves to react fast enough may be the real problem. In such cases, mounting fast-acting valves as close to the cylinder as possible is important. This eliminates excess compressible air in the lines between cylinder and flow control, giving more precise control.