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Ultrasound probes
Ultrasound Probes are specialized medical devices that emit sound waves into a body region. The images created by ultrasound can show blood flow through veins or internal organ movement. They can even reveal the structure of a fetus. An ultrasound image can be created using a variety of different ultrasonic imaging techniques. These tools can be used to diagnose a range of conditions. They are also a convenient tool for doctors.
There are several different types of ultrasound probes. The 2D imaging convex probe uses a central frequency of 2.5MHz to 7.5MHz and a large footprint. This type of ultrasound probe can be used for examinations and diagnosis. A 3D imaging convex probe has a lower central frequency and a smaller footprint. The micro convex probe is used in neonatal care. The transducer has a swivel head to allow it to be placed in tiny areas.
A transducer is the main part of an ultrasound machine. This is what makes the sound waves and receives the echoes. These sound waves are produced by the piezoelectric effect, discovered by Pierre and Jacques Curie in 1880. The transducer contains piezoelectric crystals, which change shape when an electrical current is applied to them. This rapid shape change produces sound waves and electric currents. In this way, ultrasound probes can provide a better image of soft tissue than x-rays.
The GE HEXUS probe has a wide area and low-frequency ultrasound beams. It can see up to 30 centimeters deep inside the body, making it an excellent choice for imaging the liver, kidneys, and other abdominal structures. These ultrasound probes are also very accurate, and are highly useful for treating chronic diseases, like heart failure and tumors. So, if you want to perform an ultrasound test, make sure that you know which probe to choose.
A transducer contains a large array of crystals. These crystals create a series of image lines. This is a sonogram. A sonogram shows the internal structure of a patient. The probes are made from plastic and can be placed on any part of the body. They are very precise and have a wide range of applications. The different frequencies and shapes allow for different types of imaging. The frequency of the ultrasound machine used depends on the specific needs of the patient.
The first thing you should look for in an ultrasound probe is its field of view. The field of view of a linear ultrasound probe is the distance the image will cover when it is scanned from side to side. When the curved array is used, the fields of view are usually in degrees. The GE Vscan has color Doppler capability and costs less than a full-size ultrasound scanner. It is designed for emergency and remote locations and can be carried anywhere.