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Benefits of Using a Digital pH Sensor in Your Lab
In the world of scientific research and laboratory testing, accuracy and precision are paramount. One crucial tool that helps researchers achieve these goals is the digital pH sensor. This advanced technology offers numerous benefits that make it an essential tool for any laboratory setting.
One of the primary advantages of using a digital pH sensor is its accuracy. Traditional PH Meters can be prone to human error, as readings are often subjective and can vary depending on the user. Digital pH Sensors, on the other hand, provide precise and consistent readings that are not influenced by human factors. This level of accuracy is essential for ensuring the reliability of research data and experimental results.
In addition to accuracy, digital pH sensors also offer convenience and ease of use. These sensors are typically equipped with user-friendly interfaces and intuitive controls, making them easy to operate even for those with limited experience. This simplicity allows researchers to focus on their experiments rather than struggling with complicated equipment, ultimately saving time and improving overall efficiency in the lab.
Product name | PH/ORP-6900 pH/ORP transmitter controller | ||
Measurement parameter | Measurement Range | Resolution ratio | Accuracy |
pH | 0.00\\uff5e14.00 | 0.01 | \\u00b10.1 |
ORP | \\uff08-1999\\uff5e+1999\\uff09mV | 1mV | \\u00b15mV(electric meter) |
Temperature | \\uff080.0\\uff5e100.0\\uff09\\u2103 | 0.1\\u2103 | \\u00b10.5\\u2103 |
Temperature range of Tested solution | \\uff080.0\\uff5e100.0\\uff09\\u2103 | ||
Temperature component | Pt1000 thermal element | ||
\\uff084~20\\uff09mA Current output | Channel No. | 2 Channels | |
Technical characteristics | Isolated, fully adjustable, reverse, configurable, instrument / transmitting dual mode | ||
Loop resistance | 400\\u03a9\\uff08Max\\uff09\\uff0cDC 24V | ||
Transmission accuracy | \\u00b10.1mA | ||
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\\uff08Max\\uff09AC/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\\u00b110% | ||
Overall power consumption | \\uff1c9W | ||
Working Environment | Temperature: (0~50) \\u2103 Relative humidity: \\u2264 85% (non condensing) | ||
Storage environment | Temperature: (-20~60) C Relative humidity: \\u2264 85% (non condensing) | ||
Protection level | IP65 | ||
Shape size | 220mm\\u00d7165mm\\u00d760mm (H\\u00d7W\\u00d7D) | ||
Fixed mode | Wall hanging type | ||
EMC | Level 3 |
Furthermore, digital pH sensors are often equipped with advanced features that enhance their functionality. For example, many sensors offer automatic temperature compensation, which adjusts pH readings based on changes in temperature to ensure accuracy. Some sensors also have built-in data logging capabilities, allowing researchers to track and analyze pH data over time. These features not only improve the quality of research but also streamline the data collection process.
Another significant benefit of using a digital pH sensor is its versatility. These sensors can be used in a wide range of applications, from environmental monitoring to Food And Beverage testing. Their ability to provide accurate and reliable pH measurements makes them indispensable tools for researchers in various fields. Whether studying the effects of pH on biological processes or monitoring water quality in a laboratory setting, digital pH sensors offer the flexibility needed to meet diverse research needs.
Moreover, digital pH sensors are often more durable and long-lasting than traditional pH meters. Many sensors are designed to withstand harsh laboratory conditions, such as exposure to Chemicals or extreme temperatures. This durability ensures that researchers can rely on their pH sensor for years to come, reducing the need for frequent replacements and saving money in the long run.
In conclusion, the benefits of using a digital pH sensor in the laboratory are clear. From improved accuracy and convenience to advanced features and versatility, these sensors offer a range of advantages that make them essential tools for researchers. By investing in a digital pH sensor, laboratories can enhance the quality of their research, streamline data collection processes, and ultimately achieve more reliable and reproducible results. With their precision and reliability, digital pH sensors are a valuable asset for any laboratory setting.