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LPH-101
Piezohannas
LPH-101
Customizable 10Mhz A -scan Ultrasound Probes for Ultrasonic A Scanner
Specification:
• Frequency : 10MHz +/- 10%
• Clinical Accuracy : +/- 0.1mm
• Theoretical Accuracy : +/-0.05mm
• Axial length : 15-40mm
• Gain range : 100dB
• Fixation light : Internal fixation LED
Working Principle:
The ultrasound A-scan works by projecting a sound wave through the eye and then measuring reflections. A reflection happens at the junction of two different densities, such as the interface between the posterior lens capsule and the vitreous. These echoes are shown as tall spikes of a high amplitude on the display, hence the name amplitude-scan, which is often abbreviated as A-scan.
A-scan ultrasound is used to take measurements for artificial lenses for cataract surgery. This quick and painless procedure can be performed in your doctor’s office.
Application Image:
Customizable 10Mhz A -scan Ultrasound Probes for Ultrasonic A Scanner
Specification:
• Frequency : 10MHz +/- 10%
• Clinical Accuracy : +/- 0.1mm
• Theoretical Accuracy : +/-0.05mm
• Axial length : 15-40mm
• Gain range : 100dB
• Fixation light : Internal fixation LED
Working Principle:
The ultrasound A-scan works by projecting a sound wave through the eye and then measuring reflections. A reflection happens at the junction of two different densities, such as the interface between the posterior lens capsule and the vitreous. These echoes are shown as tall spikes of a high amplitude on the display, hence the name amplitude-scan, which is often abbreviated as A-scan.
A-scan ultrasound is used to take measurements for artificial lenses for cataract surgery. This quick and painless procedure can be performed in your doctor’s office.
Application Image:
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