The Ultrasonic Energy Meters (0 to 500 kHz) are precise instruments for measuring ultrasonic and cavitation energy density, as well as the ultrasonic frequency. The systems measure energy density at a given point in time and space in a single fixed direction in the tank.
The ultrasonic meters are simple and easy to use yet contains sophisticated electronics for data storage, retrieval and analysis. Readings are processed 1.5 times per second for fast accurate display on the front panel LCD.
In "auto mode" the unit will gather statistical parameters including average, standard deviation, minimum and maximum readings.
This allows you to establish several strategies to characterize a tank. Data collection strategies include:
• Measuring energy variations at a given point in the tank as a function of time.
• Mapping a tank by ‘walking’ the probe at a fixed depth under the surface of the tank. Click HERE to see an example figure.
• Comparing average energy from tank to tank, over the life of a tank, or unloaded versus loaded with parts to be cleaned.
Download Operations Manual
Specifications
Energy Range
0 to 255 w/in2 (w/gal*)
Energy Accuracy
±0.2% w/in2 (w/gal)
Energy Display Resolution
1.0 w/in2 (w/gal)
Frequency Range
0 to 500 kHz
Frequency Accuracy
±1.0 kHz
Freq. Display Resolution
0.1 kHz
Display
Custom LCD
Memory
100 sets: loc., date, time, avg., max,min, DT, freq.
Output
Computer or Serial printer interface (9600, 8,1, n, p)
Input
Standard 7.2-volt battery charger, Probe
Case Materials
Aluminum with polyurethane baked enamel paint
Probe Materials
See Probe page. Click HERE to see the ProbeMaterial Chemical Table.
Operating Temperatures
1° to 100° C (33° to 392° F)
Power
One 7.2-volt sealed Ni-MH rechargeable battery
Weight
2 lb. Complete
Case Dimension
4" W x 8" L x 2" H
Note: The term w/gal (watts per gallon) is used by tank manufacturers to define the average energy in their tanks. The meter can therefor be calibrated by the user to read the required w/gal for the average energy in the tank. An alternative method of measuring is to for the user to define there own baseline, and comparing the measured energy to that baseline. The displayed readings can be scaled by the user.