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Stand-Alone Passive Wireless Temperature Monitoring System Surface Acoustic Wave Tech Saw

Price Negotiable
Min Order 1 Piece
Availability In Stock
Shipping From Guangdong, China
Popularity 490 people viewed
Model NO.:
SAW
Type:
Temperature
Structure:
Fixed Board
Certification:
ISO9001:2000
Form:
All- packaged Type
Operation Voltage:
Low Voltage
Size:
1 Uint
Application Range:
Chemical
Shell Material:
Stainless Steel
Shell Protection Grade:
IP23
Brand:
Sanhe
Non-Battery:
Non-Battery, Passive
Wireless:
Wireless, Cordless
Transport Package:
Carton
Origin:
Shenzhen China
HS Code:
9031809090
Product Description
Feature:

Wireless transmission temperature information
No battery and power take-off device
No IC circuit
Small size, light weight, easy installation
Not affected by high temperature, high voltage, strong electromagnetic field environment, high reliability
Real-time online, high precision temperature measurement
Wide operating temperature range
Working life up to 20 years
Almost maintenance free after installation








 
ItemsSpecifications
Communication frequency bandWith wireless temperature display device matching 420-466 MHZ
 or 2.4 G
Sensor lifespan>20 years 
Max.Distance between antenna and collectorabout 2meter
Measuring rangeminus 25ºC~150ºC
Temperature measurement accuracy±2ºC
Temperature measuring resolution1ºC
Temperature measurement cycleT<10s
Power supplyDC5V power supply or 
Get power from monitor output ,back clip fixture
Suitable for current specifications630A/1250A/1600A/2000A/3150A and so on.

installation site 






 

 

Surface-acoustic waves (SAWs) are sound waves that travel parallel to the surface of an elastic material, with their displacement amplitude decaying into the material so that they are confined to within roughly one wavelength of the surface.

In a piezoelectric material such as gallium arsenide or quartz, the mechanical deformation associated with the SAW produces electric fields. To a good approximation, the electric fields do not affect the propagation of the mechanical wave, so the result is a variation in electrostatic potential that travels along with the SAW. Any thin layers of surface metal or conductive regions in the material affect the electrostatic potential variation around them, but the mechanical SAW propagates largely unaffected.



 

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