Radar Tank Sensors are the Ultimate in Tank Measurement
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STAR-tank is a radar based tank level sensor that mounts at the top of the tank.
- Operates directly through non-metalic tanks
- In metal tanks a hole is cut and an SAE 5 holt bolt pattern used (industry standard)
- Accurate to 1mm
- Operates in Black and Grey Water. It is not affected by foam or gasses
- This model is battery operated with a target 5 year life.
- Unit has "Long Range Bluetooth" that we have tested to 100m line of sight and 40m through metal layers in a typical van build.
- Bluetooth connects to Victron Cerbo and Ekrano GX
- Tank calibration is done in Victron GX Device List
- Alarms are set in VRM
- Set Cerbo to NMEA Out and Tanks will be visible on MFD when NMEA cable connected
STAR-Tank is $270 (export price Excl Tax)
compared to $1,200~$2,000
Wireless Bluetooth means ZERO middleware between STAR-Tank and Victron hub to Screen.
Radar based tank level sensor of Yester-year technology are Ridiculously Expensive
- Expensive chipsets date from the 1980's
- Legacy products that sell as buyer is unaware of new tech.
- Old School 4-20mA technology requires a transponder to convert signal for screen
Radar Tank Sensors Comparison to other Technologies
Resistance Slider | Pressure Level | Ultrasonic | Radar |
Passive measurement of resistance as a magnetic ring slides up and down a hollow shaft with resistors embedded internally. | Active measurement of pressure in a tank using a silicon wafer that “bends” under pressure and creates a signal. Resultant signal may be voltage, NMEA, CAN or or Bluetooth data. | Active measurement of distance from under a tank (or above tank for Some) to the air-water interface point. Resultant signal may be voltage, NMEA, CAN or or Bluetooth data. | Active measurement of distance from top of tank to air-liquid interface point. Resultant signal may be voltage, NMEA, CAN or or Bluetooth data. |
Above Tank with height access to remove the unit of similar height of tank. | Side of tank as close to bottom as possible. Needs a threaded boss on tank to screw into. | Below tank must use a couplant of grease or glue. Cant have intermediate layer. | Above tank for non-metal tanks can sit directly on top of tank (glue) and for metal tanks, needs hole with SAE 5 bolt pattern. |
20-30mm Accuracy | Varies with quality but typically 20mm | Varies with quality but generally average | High accuracy of 1mm is achievable. |
No active power. Just 2 wire to resistance sensor. | 3 wire of power and voltage value and ground. | 3 wire of power and voltage value and ground or battery Bluetooth. | Battery operate Bluetooth or CAN/NMEA powered 12/24V. |
N/A | N/a | 3-5 years battery life | 5 years Battery Life Enhanced by AI |
Stainless steel components | Stainless steel components | Plastic and embedded sensor | Billet machined Aluminium and embedded liquid proof radar sensor. |
Not Suitable for Black water and troublesome in grey water measurement | Not Suitable for Black water and troublesome in grey water measurement | Not Suitable for Black water and troublesome in grey water measurement | Perfect for black water, grey water even with foam on top. |
Disadvantage of Ultrasonic or Sonar Sensors
Non invasive tank level sensors have been limited to Ultrasonic up til now.
Ultrasonic sensors operate at around 100kHz. If under the tank, the signal may be blocked by solids or material in the water. If above the tank, they are susceptible to foam and general interference from reflection.
They are just not suitable for Black Water or Grey Water. and suffer from reflective errors. They have limited accuracy.
User Manual Has Embedded videos
Video Showing Phased Coherent Radar raw signal
and corresponding tank level
as sensor is moved above water.
This is the most advanced software development we have developed as there are 3 independent IC's. fresh libraries had to be created.
Radar technology is now Affordable
Phased Coherent radar operates at 60GHz and penetrates foam with great accuracy. Up until now, Radar has been an expensive choice and used in very high value applications. But the introduction of Phased Coherent Radar to EV's opened the door for inexpensive tank sensor applications.
In pulsed coherent radar, a series of short-duration radio frequency pulses are transmitted towards the water line from above. These pulses are reflected back and received by the radar system's antenna. The received signals are then processed and analyzed to determine the depth.
The term "coherent" refers to the radar system's ability to maintain a constant phase relationship between the transmitted and received signals. This coherence allows for more accurate measurements and improved signal processing techniques, such as coherent integration, which enhances the radar's sensitivity and range resolution.
Pulsed coherent radar systems are commonly used in various applications, including military surveillance, air traffic control, weather monitoring, and automotive radar systems. They offer advantages such as high accuracy, long-range capabilities, and the ability to distinguish multiple targets in close proximity.