- Product Details
- {{item.text}}
Quick Details
-
Brand Name:
-
REDPLUM
-
Model Number:
-
TUF-2000SW
-
Nominal Diameter:
-
15mm
-
Flow range:
-
0.4-40m³/h
-
Medium:
-
Liquid
-
Display:
-
Backlight graph LCD
-
Connection:
-
Outside Clamp
-
Flow rate:
-
1:100
-
Temperature:
-
-20℃-200℃
-
Protection Class:
-
IP68(optional)
-
Output signal:
-
4-20mA/ Pulse/RS232/ RS485/ Hart
-
Power supply:
-
220VAC/ 24VDC
Quick Details
-
Type:
-
Ultrasonic flowmeter
-
Warranty:
-
1 years
-
Place of Origin:
-
Jiangsu, China
-
Brand Name:
-
REDPLUM
-
Model Number:
-
TUF-2000SW
-
Nominal Diameter:
-
15mm
-
Flow range:
-
0.4-40m³/h
-
Medium:
-
Liquid
-
Display:
-
Backlight graph LCD
-
Connection:
-
Outside Clamp
-
Flow rate:
-
1:100
-
Temperature:
-
-20℃-200℃
-
Protection Class:
-
IP68(optional)
-
Output signal:
-
4-20mA/ Pulse/RS232/ RS485/ Hart
-
Power supply:
-
220VAC/ 24VDC
Principle
Ultrasonic flowmeters use sound waves to determine the velocity of a fluid flowing in a pipe. At no flow conditions, the
frequencies of an ultrasonic wave transmitted into a pipe and its reflections from the fluid are the same. Under flowing
conditions, the frequency of the reflected wave is different due to the Doppler effect. When the fluid moves faster, the frequency shift increases linearly. The transmitter processes signals from the transmitted wave and its reflections to determine the flow rate.
Transit time ultrasonic flowmeters send and receive ultrasonic waves between transducers in both the upstream and downstream directions in the pipe. At no flow conditions, it takes the same time to travel upstream and downstream between the transducers.
Under flowing conditions, the upstream wave will travel slower and take more time than the (faster) downstream wave. When the fluid moves faster, the difference between the upstream and downstream times increases. The transmitter processes upstream and downstream times to determine the flow rate.
frequencies of an ultrasonic wave transmitted into a pipe and its reflections from the fluid are the same. Under flowing
conditions, the frequency of the reflected wave is different due to the Doppler effect. When the fluid moves faster, the frequency shift increases linearly. The transmitter processes signals from the transmitted wave and its reflections to determine the flow rate.
Transit time ultrasonic flowmeters send and receive ultrasonic waves between transducers in both the upstream and downstream directions in the pipe. At no flow conditions, it takes the same time to travel upstream and downstream between the transducers.
Under flowing conditions, the upstream wave will travel slower and take more time than the (faster) downstream wave. When the fluid moves faster, the difference between the upstream and downstream times increases. The transmitter processes upstream and downstream times to determine the flow rate.
Features
Product Display
Application
Product details
Flow meter Calibration
Manufactruring
Hot Searches
