Relative Humidity and Temperature Probe HMP7
for high humidities
Vaisalahumicap®Humidity and Temperature Probe HMP7 is designed for applications which involve constant high humidity or rapid changes in humidity such as drying and test chambers, combustion air and other humidifiers and meteorological measurements where measurement performance and chemical tolerance are essential. The HMP7 is part of theIndigo product family并兼容Indigo500和Indigo200series transmitters and freeInsight PC Software.
Features
- RH准确性高达0.8%RH,温度精度高达0.1°C(0.18°F)
- 温度测量范围-70 ... +180°C(-94 ... +356°F)
- 蒸气和防压结构
- 探针和传感器变暖功能最小化探针的凝结
- Sensor purge provides superior chemical resistance
- Plug & play compatible with Indigo™ series of transmitters
- RS-485的Modbus RTU
- 可追溯校准证书:湿度6分,温度1分
Key benefits
经过证明的Vaisala humicap性能
Vaisala is the original innovator of the thin-film capacitive humidity measurement technology, which has now become the industry standard in humidity measurement.
No condensation at extreme humidity
Probe heating functionality heats up the whole probe head. When probe temperature is heated above dew point temperature, condensation on the probe can be avoided.
灵活的连通性
该探针与Vaisala Indigo系列发射机兼容,可以用作独立的数字Modbus RTU发射器,也可以连接到VAISALA Insight™PC软件。
产品资源
网络研讨会
Real-life use cases of humidity calculations
In this webinar, we will cover real-life use cases of humidity calculations and answer the most asked questions, such as how to interpret humidity calculator values? What to take into account when adjusting process?
Customer case
使用HMP7和TMP1探针使用Indigo500改进了麦芽过程
As one of the world’s leading suppliers of high quality malt products, Viking Malt has investigated the advantages of continuous humidity monitoring inside the malting process at its facility using Vaisala’s Indigo520 and HMP7 and TMP1 probes.
Customer case
优化的干燥过程有助于分离率削减能耗并提高终产质量
Iselava开始了一个项目,以优化项目工程师Peter Vaneyghen领导的干燥过程。第一步是在干衣机中安装湿度传感器,以便更好地了解干燥过程的动力学。仅食用天然气就减少了约20%,并且在所有十个干燥机中的每年节省总计数十万欧元。
博客
What is a smart measurement probe and what makes it special?
Environmental measurement devices are also becoming smart. Unlike in the past when measurement probes could not be used on their own, the new wave of smart measurement probes can operate independently without additional transmitters.
