Liquid Level Controller monitors the liquid level of tanks and sends out control signals. Upgraded liquid level switch. Upper and lower level alarm. Tank temperature display or monitor whether there is liquid in the pipeline.
Liquid Level Controller is an ideal ultrasonic Non-contact Liquid Level switch. The sensor is attached to the tank body. No need to open holes in the tank. Liquid Level Controller is suitable for liquid level process control in the pharmaceutical, petroleum, chemical, electric power and other industries. For the monitoring of toxic, highly corrosive and dangerous liquids.
Sino-Inst offers a variety of Liquid Level Controllers for level measurement. If you have any questions, please contact our sales engineers.
Features of Ultrasonic Non-contact Liquid Level Controller
- Advanced signal processing methods. Can overcome the influence of temperature drift.
- Stronger anti-interference
- Brand new installation method. Adsorption type + adhesive type. Can improve the stability of the probe.
- Built-in temperature sensor. Monitor temperature changes for 24 hours. Temperature compensation is also possible.
- Adopt a new single probe mode. Installation is more convenient. Avoid repeated verification.
- A new handheld operator can be used to debug the instrument. The probe status can be detected to ensure reliable installation of the probe. It can support on-site upgrade of digital probe software. The historical data of the secondary meter can be read wirelessly.
Specifications of HS-ULC-Pro Liquid Level Controller
|project||Ordinary explosion-proof type;|
Two-point monitoring explosion-proof type;
Intrinsically safe type with two monitoring points
|Measurable wall thickness||Max 70mm|
|output signal||Liquid level alarm 485 signal Fault alarm MODBUS 4-20mA|
PROFIBUS HART signal FoundationFieldBus
|Relay capacity||DC 30V 6A/AC 250V 6A|
|power supply||DC 24V|
|Electrical interface specifications||According to the actual selection configuration|
|Threading hole diameter||Φ8mm (adaptation cable diameter Φ6～8mm)|
|Explosion-proof mark||Exd II CT6 Gb;|
Ex ia II CT6 Ga
|shell material||Cast aluminum|
|Applicable place||Explosive gas environment except coal mine|
|Applicable ambient temperature of the host||-50℃～+60℃|
|Host applicable environmental humidity||15%～100%RH|
|Working temperature of ultrasonic probe||Normal type: -50℃～+80℃ High temperature type: up to 250℃|
|Handheld meter communication distance||3 meters|
|Intrinsic safety parameters||Ui:28VDC li:93Ma Pi:0.65W Ci:44Nf Li:11uH|
Liquid Level Controller can also be used with paperless recorder.
Liquid Level Controller Working Principle
The sensor of the High-Pro type liquid level controller couples the generated high-frequency ultrasonic pulse to the vessel wall through a couplant.
The pulse propagates in the wall of the container and in the liquid. It will also be reflected by the inner surface of the container. By detecting and calculating the characteristics of the reflected signal.
The measured data is transmitted to the on-site secondary meter through the 485 serial port in real time. It can be judged whether the liquid level reaches the position where the controller is installed.
Extended Reading: Procurement Guide for Ultrasonic liquid level sensors
Of course, the above is the working principle of this product HS-ULC-Pro Ultrasonic Non-contact liquid level controller.
There are other types of liquid level controllers on the market. The liquid level switch controller is a pressure sensor that measures liquid level. It is divided into contact type and non-contact type. We make a simple introduction to the measurement principle:
Liquid level control system for oil and gas
Through node sensors such as wireless temperature sensor + thermometer, wireless pressure sensor + pressure gauge and wireless liquid level sensor + liquid level gauge, the temperature, liquid level, pressure and other parameters of the storage tank are collected.
Upload to the wireless data collection gateway via 2.4G, 433MHZ wireless.
The gateway processes the data received from the wireless sensor node.
Provide data to the XL.VIEW server through the RS485 serial port, so as to monitor the production status of the storage tank and handle the limit alarm.
When the temperature, pressure, and liquid level of the storage tank are abnormal, the intelligent measurement and control device automatically drives the sound and light alarm to remind the staff.
Solution for real-time remote monitoring of liquid level, pressure and temperature of natural gas and oil storage tanks:
- Wireless temperature sensor
- Wireless pressure sensor
- Wireless liquid level sensor
- Wireless data collection gateway
- Intelligent measurement and control terminal
Ultrasonic technology is not only used to measure level, but also can be used to measure depth. Get more.
The storage tank remote monitoring system is suitable for real-time monitoring of the safety of the storage tanks of various chemicals such as gasoline, solvent oil, isooctane, mixed aromatics, isobutane, liquefied petroleum gas, natural gas, etc.
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Liquid level controller price
Sino-Inst offers over 10 Ultrasonic Liquid Level Controllers for level measurement. About 50% of these are fuel level meters, 40% is the tank level sensor.
A wide variety of Ultrasonic Liquid Level Controllers for level measurement options are available to you, such as free samples, paid samples.
HS-ULC-Pro Ultrasonic Non-contact Liquid Level Controller reference price: USD 1500.00. The exact price depends on your measurement parameters.
Extended reading: Ultrasonic liquid level sensors
Sino-Inst is a globally recognized supplier and manufacturer of Ultrasonic Tank Level measurement instrumentation, located in China.
Wu Peng, born in 1980, is a highly respected and accomplished male engineer with extensive experience in the field of automation. With over 20 years of industry experience, Wu has made significant contributions to both academia and engineering projects.
Throughout his career, Wu Peng has participated in numerous national and international engineering projects. Some of his most notable projects include the development of an intelligent control system for oil refineries, the design of a cutting-edge distributed control system for petrochemical plants, and the optimization of control algorithms for natural gas pipelines.