Turbidity sensor manufacturer and supplier by Rikasensor: Hunan Rika Electronic Tech Co.,Ltd, located in Changsha, is a privately held sensor manufacturer and solution provider of environmental & weather monitoring for 10+ years. Rikasensor is committed to developing and providing intelligent and cost-effective IOT environmental monitoring products and services, which including: wind measurement, solar radiation measurement, temperature and humidity measurement, hydro-meteorological measurement, soil moisture measurement , water quality measurement , data loggers and various weather stations and meteorological monitoring stations . The products are CE , ROHS certificated , and widely used in solar energy , smart agriculture , aquaculture , sewage treatment , air quality , wind power generation and relative fields of meteorological environment monitoring . The company have obtained certification in quality management system , such as ISO9001, TUV . Find extra details on https://www.rikasensor.com/rk500-07-ss-turbidity-sensor.html.
Rain gauge is a meteorological instrument for determining the depth of precipitation (usually in mm) that occurs over a unit area (usually 1m2) and thus measuring rainfall amount. One millimetre of measured precipitation is the equivalent of one litre of rainfall per metre squared. We offer tipping bucket rain gauges, radar rain gauges, rain sensor switches and evaporation sensors, all of which are used in hydrometeorological monitoring and agriculture. Rainfall monitoring is very important in wide range of fields like meteorology, hydrology, agriculture, forestry, field monitoring stations and other industries, which enable people to prepare in advance. So we can imagine the importance of rain gauge. There are various types of rain gauge such as wireless rain gauge, tipping bucket rain gauge, automatic rain gauge station, etc.
RK900-11 miniature automatic weather station is a civilian comprehensive weather station independently developed by our company that can measure various meteorological parameters. It can simultaneously measure six meteorological elements such as atmospheric temperature, atmospheric humidity, wind speed, wind direction, air pressure and rainfall. RK900-11 uses a low-power chip with a power consumption of only 1.7W, which is especially suitable for solar or battery-powered environments that require high power consumption. Due to the adoption of new technologies and processes, the structure is more compact. Solar radiation and solar illuminance detection modules can also be selected, which are very suitable for supporting agricultural meteorological systems. The shell is made of ABS engineering plastic, available in black and white.
Automatic weather station (AWS), also called automated weather station, is an automated version of the traditional weather station, either to save human labour or to enable measurements from remote areas. An automated weather station is an automatic version of a traditional weather station. It can automatically transmit or record observations obtained from measuring instruments. They can be single-site or part of a weather network.
A radar rainfall sensor is a sensor that uses radar wave technology to detect rainfall. It can distinguish the types and intensity of rain, snow, and hail. Compared with the traditional mechanical rain gauge, the detection is more sensitive and fast, and there is no need to worry about the influence of the cover of leaves and other objects on the surface of the detector for rainfall detection, and no need for a heating device to prevent icing. There are no moving parts inside the product, which are maintenance-free, small in size, and low in energy consumption.
Temperature sensors are components that directly translate physical temperature into digital information. Likewise, humidity sensors are able to measure atmospheric moisture levels and translate that into digital information. As such, temperature and humidity sensors are essential for environmental monitoring in and around sensitive electronic equipment.
Ambient instruments and equipment traditionally used for atmospheric environmental quality monitoring are generally large-scale analytical instruments. The equipment is cumbersome and expensive, which is not conducive to the wide deployment of monitoring points, thus restricting the effective monitoring and treatment of the atmospheric environment. The ambient sensor effectively solves the problems of existing analytical instruments. Atmospheric environmental monitoring sensors include air temperature, humidity, air pressure, dust, visibility, CO2, CO, SO2, O3, NH3 and other sensors, which are widely used in industrial and agricultural production and air quality monitoring. See more details on rikasensor.com. Strong design and R&D capability – total 10 R&D engineers from Central South University. Advanced calibration and inspection equipment.
What is an agricultural meteorological station? Agricultural meteorological station is a kind of equipment that can automatically observe and store meteorological observation data. Its main function is to monitor the data changes of wind, temperature, humidity, air pressure, grass temperature and other meteorological elements as well as soil water content in real time. The above is an overview of the application of agricultural research weather stations – agricultural weather stations in smart agriculture.
RikaSensor, a leading sensor technology company, has been at the forefront of providing innovative solutions for the agricultural sector. With its advanced sensor technology, RikaSensor has played a crucial role in enabling farmers to achieve efficient and sustainable agricultural production. This article aims to highlight the significant contributions made by RikaSensor in the agricultural field. RikaSensor’s sensors have revolutionized precision farming techniques by providing real-time and accurate data on various environmental parameters. These sensors can monitor soil moisture levels, temperature, humidity, and light intensity, enabling farmers to optimize irrigation and fertilization practices. By utilizing this data, farmers can make informed decisions regarding planting schedules, crop rotation, and resource allocation, leading to increased crop yields and resource efficiency.