Testing and Measuring Equipment



Level Transmitter


Level Transmitter

Level transmitters provide an electrical output proportional to the level of a liquid or bulk solid in a confined space. They may provide an output upon reaching a specified value (point level) or repeatedly after each measurement (continuous level). Leveltransmittersmeasuremedia such as water, fuels, and viscous fluids, or dry media like powdersand bulk solids.

Level transmitters are used in a wide variety of applications requiring level measurement within tanks or containers. Thechemical, food and beverage, water treatment, material handling, and power industries often employ level transmitters.

There are six main types of level transmitters. Each of these transmitters work in different ways, making them useful for a number of different types of processes. Ariafarin provide a range of different types of level transmitters including radar, ultrasonic and guided microwave.

Radar Fill Level Transmitter

Radar fill level transmitters, use radio wave emissions just like radars. Usually, these devices are mounted at or near the top of a tank filled with a liquid. The transmitter itself sends out a radar signal into the liquid in the tank and receives a reflection of that signal. The transmitters will then accurately calculate the current fill level of the tank based on how long it takes the transmitted signal to return.

Ultrasonic Level Transmitter

Ultrasonic level transmitter, which acts in a manner similar to the non-contact radar fill level transmitters. With this transmitter, an ultrasonic transducer mounted to or near the top of the container sends out an ultrasonic pulse. When the pulse hits the surface of the liquid, it is reflected, and the sensor calculates fill level based on the time between the pulse and the return signal.

Guided Microwave Level Transmitters

Guided Microwave Level Transmitters, this type of level transmitter works by sending a microwave or electromagnetic pulse through a sensor rod/cable. When the signal hits the surface of the liquid, it travels back up the sensor rod and back to the transmitter housing. The electronics are integrated into the transmitter housing, which determine the filling level from the time taken for the signal to travel down the sensor rod and back up again. The value is then shown in the display of the transmitter. This type of level transmitter is suitable for liquids, and is used in industrial applications in all areas of process technology.

Magnetic Level Transmitters

Magnetic Level Transmitters, use a small, magnetic object suspended in a buoyant float. This is normally inside a narrow auxiliary column, in order to restrict any lateral movement of the float. While the float sits on top of the liquid, a different magnetic device measures the movement of the float. This allows an accurate, consistent fill level to be transmitted. This method is useful for continuous measurement, due to the float’s tendency to rise or sink in harmony with the level of liquid.

Capacitance Level Transmitters

Capacitance Level Transmitters, take their name from capacitors. In other words, the electrical circuit element that temporarily stores energy for a circuit to use. Capacitors store energy between two insulated electrodes. A non-conductive medium is placed between the two electrodes to help store electrical charge. The more dielectric the medium, the more energy can be stored. So capacitance level transmitters therefore use the liquid in a tank as a dielectric medium between two or more electrodes.

Hydrostatic Level Transmitters

Hydrostatic Level Transmitters, also known as pressure level transmitters, essentially determine a container’s fluid contents by measuring the pressure of the resting body of fluid within it. The bigger the force of the liquid, the bigger the volume of fluid inside the container. This is one of the most common types of fill level detection devices. It is crucial that the liquid’s density remains constant to ensure accurate measurement. As the liquid’s gravity increases, the pressure per cubic inch exerted on the transmitter also rises.