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Understanding the Functionality and Applications of External Water Flow Sensors
External water flow sensors are innovative devices that have revolutionized the way we monitor and control the flow of water in various systems. These sensors are designed to measure the rate at which water flows through a pipe or conduit, providing accurate and real-time data that can be used to optimize water usage and prevent wastage. Understanding the functionality and applications of these sensors can provide valuable insights into their importance in various industries.
The functionality of an external water flow sensor is based on a simple yet effective principle. The sensor is typically clamped onto the exterior of a pipe, where it uses ultrasonic technology to measure the velocity of the water flowing inside. The sensor emits ultrasonic waves that travel through the pipe and the water. When these waves encounter moving water, their speed and frequency change. This change, known as the Doppler effect, is then measured by the sensor, which calculates the water flow rate based on these readings.
One of the key advantages of external water flow sensors is that they are non-invasive. Since they are mounted on the outside of the pipe, they do not come into contact with the water, eliminating the risk of contamination. This feature also means that the installation process is straightforward and does not require any significant modifications to the existing piping system.
Moreover, external water flow sensors are highly versatile and can be used in a wide range of applications. In the agricultural sector, for instance, these sensors are used to monitor irrigation systems, ensuring that crops receive the right amount of water. By providing accurate data on water usage, these sensors can help farmers optimize their irrigation strategies, leading to increased crop yields and reduced water wastage.
| Model | CCT-5300E series Conductivity/Resistivity/TDS Online Controller |
| Constant | 0.01cm-1, 0.1 cm-1, 1.0cm-1, 10.0 cm-1 |
| Conductivity | (0.5~20,000)uS/cm,(0.5~2,000)uS/cm, (0.5~200)uS/cm, (0.05~18.25)MQ·cm |
| TDS | (0.25~10,000)ppm, (0.25~1,000)ppm, (0.25~100)ppm |
| Medium Temp. | (0~50)℃(Temp.Compensation: NTC10K) |
| Accuracy | Conductivity: 1.5%(FS), Resistivity:2.0%(FS), TDS: 1.5%(FS), Temp.: +/-0.5℃ |
| Temp. compensation | (0-50)°C (with 25℃ as Standard) |
| Cable length | ≤20m(MAX) |
| mA output | Isolated, transportable (4~20)mA, Instrument / Transmitter for selection |
| Control Output | relay contact: ON/OFF, Load capacity: AC 230V/5A(Max) |
| Working Environment | Temp.(0~50)℃;Relative Humidity ≤85%RH (none condensation) |
| Storage Environment | Temp.(-20~60)℃;Relative Humidity ≤85%RH (none condensation) |
| Power Supply | CCT-5300E: DC 24V; CCT-5320E: AC 220V |
| Dimension | 96mmx96mmx105mm(HxWxD) |
| Hole Size | 91mmx91mm(HxW) |
| Installation | Panel mounted, fast installation |
In the residential sector, external water flow sensors are used in smart home systems to monitor water consumption. These sensors can provide homeowners with detailed information about their water usage, helping them identify leaks and reduce wastage. In addition, by integrating these sensors with smart home systems, homeowners can remotely monitor and control their water usage, leading to significant savings on water bills.
In conclusion, external water flow sensors are powerful tools that offer a host of benefits. Their non-invasive nature, ease of installation, and versatility make them an ideal solution for monitoring and controlling water flow in various settings. Whether it’s optimizing irrigation in agriculture, enhancing process control in industries, or promoting water conservation in homes, these sensors have a wide range of applications that underscore their importance in today’s world. As technology continues to advance, we can expect to see even more innovative uses for these sensors, further underscoring their value in our increasingly water-conscious society.
Innovations and Advancements in External Water Flow Sensor Technology
External water flow sensor technology has been making significant strides in recent years, with innovations and advancements that have revolutionized its application in various industries. These sensors, which are designed to measure the rate of water flow in a system, have become increasingly sophisticated, offering improved accuracy, reliability, and versatility.
One of the most notable advancements in external water flow sensor technology is the development of non-invasive sensors. Unlike traditional flow sensors that require insertion into the water system, these innovative devices use ultrasonic waves to measure water flow rate from outside the pipe. This non-invasive approach eliminates the need for system shutdowns for installation or maintenance, significantly reducing downtime and associated costs. Moreover, it also mitigates the risk of contamination, making it an ideal solution for industries where hygiene is paramount, such as food and beverage or pharmaceutical manufacturing.
Another significant innovation in this field is the integration of smart technology. Modern external water flow sensors are now equipped with advanced communication capabilities, allowing them to connect to the Internet of Things (IoT). This means that they can transmit real-time data to a central system or device, enabling remote monitoring and control. This feature not only enhances operational efficiency but also allows for proactive maintenance, as potential issues can be identified and addressed before they escalate into major problems.
The accuracy of external water flow sensors has also seen considerable improvement. Thanks to advancements in sensor technology and data processing algorithms, these devices can now provide highly accurate measurements, even in challenging conditions. For instance, some of the latest models can effectively handle variations in water temperature and pressure, as well as the presence of impurities or air bubbles in the water. This high level of accuracy is crucial in applications where precise water flow control is required, such as in irrigation systems or chemical processing plants.
Furthermore, the durability and longevity of external water flow sensors have been significantly enhanced. Modern sensors are designed to withstand harsh environmental conditions, including high temperatures, corrosive substances, and heavy vibrations. They are also built to last, with some models boasting a lifespan of up to 10 years. This robustness and longevity translate into lower replacement costs and less frequent maintenance, contributing to overall cost efficiency.
Lastly, the miniaturization of external water flow sensors is another noteworthy trend. As technology continues to evolve, these devices are becoming smaller and more compact, without compromising their performance. This miniaturization allows for easier installation in tight spaces and makes the sensors suitable for use in portable devices.
In conclusion, the innovations and advancements in external water flow sensor technology have transformed the way water flow is measured and controlled. From non-invasive sensors and smart technology integration to improved accuracy and durability, these developments have significantly enhanced the efficiency, reliability, and versatility of these devices. As technology continues to progress, we can expect to see even more sophisticated external water flow sensors that will further revolutionize this field.
| Product name | PH/ORP-6900 pH/ORP transmitter controller | ||
| Measurement parameter | Measurement Range | Resolution ratio | Accuracy |
| pH | 0.00~14.00 | 0.01 | ±0.1 |
| ORP | (-1999~+1999)mV | 1mV | ±5mV(electric meter) |
| Temperature | (0.0~100.0)℃ | 0.1℃ | ±0.5℃ |
| Temperature range of Tested solution | (0.0~100.0)℃ | ||
| Temperature component | Pt1000 thermal element | ||
| (4~20)mA Current output | Channel No. | 2 Channels | |
| Technical characteristics | Isolated, fully adjustable, reverse, configurable, instrument / transmitting dual mode | ||
| Loop resistance | 400Ω(Max),DC 24V | ||
| Transmission accuracy | ±0.1mA | ||
| Control contact1 | Channel No | 2 Channels | |
| Electric contact | Semiconductor photoelectric switch | ||
| Programmable | Each channel can be programmed and point to (temperature, pH/ORP, time) | ||
| Technical characteristics | Presetting of normally open / normally closed state / pulse /PID regulation | ||
| Load capacity | 50mA(Max)AC/DC 30V | ||
| Control contact2 | Channel No. | 1 Channel | |
| Electric contact | Relay | ||
| Programmable | Each channel can be programmed and point to (temperature, pH/ORP) | ||
| Technical characteristics | Presetting of normally open / normally closed state / pulse /PID regulation | ||
| Load capacity | 3AAC277V / 3A DC30V | ||
| Data communication | RS485, MODBUS standard protocol | ||
| Working power supply | AC220V±10% | ||
| Overall power consumption | <9W | ||
| Working environment | Temperature: (0~50) ℃ Relative humidity: ≤ 85% (non condensing) | ||
| Storage environment | Temperature: (-20~60) C Relative humidity: ≤ 85% (non condensing) | ||
| Protection level | IP65 | ||
| Shape size | 220mm×165mm×60mm (H×W×D) | ||
| Fixed mode | Wall hanging type | ||
| EMC | Level 3 | ||
