177230-01-02-CN |5SHY5045L0020|振动变送器|
177230-01-02-CN 是 Bently Nevada 公司生产的一种振动变送器,它是一种简单、循环供电的设备,可以快速且容易地安装。这种变送器可以集成到与工厂资产状况监测解决方案相连的可编程逻辑控制器 (PLC) 或控制系统中。它的设计简单,有助于降低培训、维护和服务的成本。变送器通过提供准确和可重复的数据,帮助更好地管理停机时间、优化维护计划,并避免机械设备的不可预见的灾难性故障 。
该变送器采用行业标准的 4 到 20 mA 循环供电发射机,并且具有多种环境耐受性,包括工作温度范围从 -40°C 到 +85°C。它还具有电气隔离特性,隔离电阻大于 108 欧姆,隔离击穿电压为 600 Vrms 时漏电流小于 1 mA。此外,该变送器能够承受最大加速度为 9.81 m/s² 的冲击 。
技术参数包括:
电源电压:12 到 30 Vdc,电流限制在 40 mA 以内。
安装谐振频率:大于 12 kHz。
横向灵敏度:小于 5% 的灵敏度。
感测元件类型:陶瓷/剪切。
连接器接线规范:3 针 MIL-C-5015,316L 不锈钢。
重量:大约 131 g。
直径:25.4 mm。
高度:66.0 mm。
符合 FCC 规定,操作不受有害干扰影响,并且必须接受任何接收到的干扰
The 177230-01-02-CN is a vibration transmitter manufactured by Bently Nevada, Inc. It is a simple, cyclically powered device that can be installed quickly and easily. The transmitter can be integrated into a programmable logic controller (PLC) or control system connected to a plant asset condition monitoring solution. Its simple design helps to reduce the cost of training, maintenance and service. Transmitters help better manage downtime, optimize maintenance schedules, and avoid unforeseen catastrophic failures of machinery by providing accurate and repeatable data.
The transmitter uses industry standard 4 to 20 mA cyclically powered transmitters and has a variety of environmental tolerances, including operating temperatures ranging from -40°C to +85°C. It also has electrical isolation characteristics, isolation resistance greater than 108 ohms, isolation breakdown voltage of 600 Vrms leakage current less than 1 mA. In addition, the transmitter can withstand shocks with a maximum acceleration of 9.81 m/s².
Technical parameters include:
Power supply voltage: 12 to 30 Vdc, current limited to 40 mA.
Installation resonant frequency: greater than 12 kHz.
Lateral sensitivity: Sensitivity of less than 5%.
Sensing element type: Ceramic/shear.
Connector wiring specification: 3-pin MIL-C-5015, 316L stainless steel.
Weight: Approximately 131 g.
Diameter: 25.4mm.
Height: 66.0mm.
In compliance with FCC regulations, the operation is free from harmful interference and must accept any received interference