The fastest and clearest
FSAM
FAST SCANNING ACOUSTIC MICROSCOPY
The fastest and clearest
FSAM
FAST SCANNING ACOUSTIC MICROSCOPY
Fast scanning
Scanner module equipped with 4 channels
Up to200MHz
High resolution video output
4CH&300MHz
Multi-channel and high bandwidth
Pulser Receiver
High-speed image
processing software
The fasted and clearest
in history
FSAM
Fast scanning
Scanner module equipped with 4 channels
Up to 200MHz
High resolution video output
4CH&300MHz
Multi-channel and high bandwidth Pulser Reciver
High-speed image processing software
The fastest and clearest
in history
FSAM
Designed for the speed
FSAM can reduce tact time by up to 20 times by incorporating a self-developed high-speed scanning module through kinematic design.
Designed for the speed
FSAM can reduce tact time by up to 20 times by incorporating
a self-developed high-speed scanning module through kinematic design.
High-speed scanning through self-developed modules
Four ultrasonic sensors are mounted on the high-speed scanning module to realized a short tact time compared to the area
High-speed scanning through
self-developed modules
Four ultrasonic sensors are mounted on the high-speed scanning
module to realized a short tact time compared to the area.
High-frequency ultrasonic sensor
for high-resolution images
80~200MHz ultrasonic sensor is developed and applied
to a high-speed ultrasonic microscopy system.
200MHz
high-resolution image output
LG Internal defect inspection detected through our product
at the request of LG Display.
LG Display OLED Panel’s Surface Image of Top view of the camera
LG Display OLED panel sample defect detection using
our own ultrasonic microscopy system
Internal defect inspection detected through our product at
the request of KCC.
Top view of the surface of KCC
Copper sample
Top view of the surface of KCC
Copper sample
(SAM) Defect detection image of KCC
Copper sample
(SAM) Defect detection image of KCC
Copper sample
200MHz
high-resolution image output
Internal defect inspection detected through our product at the request of LG Display.
LG Display OLED Panel’s Surface Image of Top view of the camera
LG Display OLED panel sample defect detection using
our own ultrasonic microscopy system
Internal defect inspection detected through our product at the request of KCC
Top view of the surface of
KCC Copper sample
Top view of the surface of
KCC Copper sample
(SAM) Defect detection image of KCC
Copper sample
(SAM) Defect detection image of KCC
Copper sample
4CH & 300MHz
Multi-channel, high bandwidth
Multi-channel high-bandwidth ultrasonic pulser & receiver
is developed and applied to high-speed ultrasonic microscopy systems.
4CH & 300MHz
Multi-Channel High Bandwidth
Multi-channel high-bandwidth ultrasonic pulser & receiver is developed and applied to high-speed ultrasonic microscopy systems.
FSAM Software
developed by Ohlabs Corp.
Real-time ultrasonic 2D and 3D image
output, defect measurement report
generation based on the defect location
(XYZ coordinates) and size, etc., can be
customized according to customer needs.
FSAM Software developed by Ohlabs Corp.
Real-time ultrasonic 2D and 3D image output, defect measurement report generation based on the defect location (XYZ coordinates) and size, etc., can be customized according to customer needs.
Software optimization
for high-speed image processing.
Stablish inspection algorithm using
GPU CUDA for quick defect detection
Software optimization
for high-speed image processing.
Stablish inspection algorithm using GPU CUDA for quick defect detection.
Fast Scanning Module (in the X direction)
Scan Envelope ( X-axis)
100
Fast travel ( X-axis )
26mm ( x 4 transducers )
Max. Frame Rate/ Step size
24 Fps/ 40, 60, 80, 100 µm
Max. Velocity/Trigger Freq.
1 m.s-¹ / 25, 17, 13, 10kHz
Motion specifications
Step Axis ( X-axis )
400mm
Focus Axis ( Z-axis )
50mm
Resolution
1 µm
Accuracy
±0.01mm/100mm
Repeatability
±0.02mm
Dimensions
Width
1200mm
Depth
1100mm
Height
2300mm
Transducers
Center Frequency
25MHz ( x 4 )
Element Diameter
6mm
Focal Length
13 mm
Lateral Resolution
111 µm
Focal Length
79 µm