PA Probe

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Phased Array Probes

Each element of phased array probes can be independently controlled by the electric signals. In connection with the PA equipment, it can transmit ultrasonic beams from different angles for dynamic focusing and real-time scanning.

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Each element of phased array probes can be independently controlled by the electric signals. In connection with the PA equipment, it can transmit ultrasonic beams from different angles for dynamic focusing and real-time scanning.

I Sample Showcase

1.4L16-1.0×10

Model: 4L16-1.0×10
Frequency:4MHz
Element Number:16
Pitch:1.0
Casing Model:C10

 

 

8th Element Test Sheet (Sample)

2.2.5L16-1.0×10

Probe Type: 2.5L32-1.0×10
Frequency:2.5MHz
Element Number:16
Pitch:1.0
Casing Model:C11
Purpose:for Macro-crystalline or Thick Objects

 

 

3.2.5L32-1.0×10

Probe Type: 2.5L16-1.0×10
Frequency:2.5MHz
Element Number:16
Pitch:1.0
Casing Model:C10
Purpose:Conventional

 

 

4.Phased Array Wheel Probe

Probe Type: Roller-styled
Element Number:64
Casing Model:Spcl. for Roller-styled

Freq:5MHz
Pitch:0.8
Purpose:for Composites and Larger C Scan

 

II Probe Wedge

For Different Models and Angles

Phased Array Probes Download

I Phased Array Probes

1.Linear Array Series

Model Freq.
(MHz)
E-Nos Pitch
(mm)
A.APTR
(mm)
Elev.
(mm)
Desc/PUPO/Obj
5L16-C1 5.0 16 0.31 5 5 S-Size, for spcl. Obj
7.5L8-C1 7.5 8 0.5 4 5 S-Size, for spcl. Obj
10L16-C1 10 16 0.31 5 5 S-Size, for spcl. Obj
2L8-C2 2.0 8 1.0 8 9 Conventional
4L16-C2 4.0 16 0.5 8 10 Conventional
5L16-C2 5.0 16 0.6 9.6 10 Conventional
7.5L16-C2 7.5 16 0.5 8 10 Conventional
10L32-C2 10 32 0.31 10 10 S-Size, for spcl. Obj
2.25L16-C3 2.25 16 1.0 16 10 Conventional
2.5L16-C3 2.5 16 1.0 16 10 Conventional
2.5L32-C3 2.5 32 0.5 16 10 Conventional
4L16-C3 4.0 16 1.0 16 10 Conventional
5L16-C3 5.0 16 1.0 16 10 Conventional
5L32-C3 5.0 32 0.5 16 10 Conventional
7.5L32-C3 7.5 32 0.5 16 10 Conventional
10L16-C3 10 16 1.0 16 10 Conventional
10L32-C3 10 32 0.5 16 10 Conventional
2.5L32-C4 2.5 32 1.0 32 10 Macro-CRY, Thick Obj
3.5L32-C4 3.5 32 1.0 32 10 Macro-CRY, Thick Obj
5L32-C4 5.0 32 1.0 32 10 Conventional,Thick Obj
5L64-C4 5.0 64 0.6 32 10 COMP, Larger Scan
7.5L32-C4 7.5 32 1.0 32 10 Conventional
10L32-C4 10 32 1.0 32 10 Conventional
10L64-C4 10 64 0.5 32 10 COMP, Larger Scan
2.25L64-C5 2.25 64 0.75 48 10 COMP, Larger Scan
3.5L64-C5 3.5 64 1.0 64 10 COMP, Larger Scan
3.5L128-C5 3.5 128 0.5 64 10 COMP, Larger Scan
5L64-C5 5.0 64 1.0 64 10 COMP, Larger Scan
7.5L64-C5 7.5 64 1.0 64 10 COMP, Larger Scan
10L128-C5 10 128 0.5 64 10 COMP, Larger Scan
2.25L128-C6 2.25 128 0.75 96 10 COMP, Larger Scan
5L128-C6 5.0 128 0.75 96 10 COMP, Larger Scan
3.5L128-C7 3.5 128 1.0 128 10 COMP, Larger Scan
2L16-C8 2.0 16 1.8 28.8 20 Macro-CRY, Thick Obj
2.25L16-C8 2.25 16 2.0 32 20 Macro-CRY, Thick Obj
2.25L32-C8 2.25 32 0.75 24 24 Conventional, Thick Obj
3.5L16-C8 3.5 16 1.6 25.6 16 Conventional
1.5L16-C9 1.5 16 2.8 44.8 26 Macro-CRY, Thick Obj

2. Camber Array Series

Model Freq.
(MHz)
E-Nos Pitch
(mm)
Elev.
(mm)
R
(mm)
ANGL.RNG
(°)
Desc/PUP
3.5C16-R1 3.5 16 1.0 5 10.2 90 For Pipes
5C16-R1 5 16 1.0 5 10.2 90 For Pipes
3.5C32-R2 3.5 32 1.32 6 25 90 For Pipes
5C32-R2 5 32 1.32 6 25 90 For Pipes
3.5C64-R2 3.5 64 1.65 6 50 121 For Pipes
5C64-R2 5 64 1.65 6 50 121 For Pipes

3. Probe-wedge Integration Series

Model Freq.
(MHz)
E-Nos Pitch
(mm)
Elev.
(mm)
R
(mm)
ANGL.RNG Desc/PUP
2L8-A1 2 8 1.0 8 9 58°SW Conventional
4L8-A1 4 16 0.5 8 9 58°SW Conventional
2.25L16-A1 2.25 16 0.75 12 12 45°SW Conventional
2.25L16-A1 2.25 16 0.75 12 12 45°LW Conventional
5L16-A1 5 16 0.6 9.6 10 45°SW Conventional
5L16-A1 5 16 0.6 9.6 10 45°LW Conventional

4. Matrix Series

 

Model Freq.(MHz) E-Nos Pitch(mm) A.APTR(X mm) A.APTR(Y mm) Desc/PUP
5M4X4-1.0X1.0-C1 5 16 1.0 4 4 3D Scan
5M8X4-1.0X1.0-C2 5 32 1.0 8 4 3D Scan
10M4X4-1.0X1.0-C1 10 16 1.0 4 4 3D Scan
10M8X4-1.0X1.0-C2 10 32 1.0 8 4 3D Scan

5. Wheel Probe

Model Freq.
(MHz)
E-Nos Pitch
(mm)
A.APTR
(mm)
Elev.
(mm)
Desc/PUP
5L64-G1 5 64 1.0 64 10 Larger C Scan

II Wedges

1. Linear Array Series

Model Casing Mo. Stl.Rfr-Angl Rmd Scan Rng. Ptd. Angl.
SC1-N0L C1 0°LW -30°~30°
SC1-N45L C1 45°LW 30°~60° 16°
SC1-N60L C1 60°LW 45°~70° 20°
SC1-N70L C1 70°LW 50°~80° 22°
SC1-N45S C1 45°SW 30°~60° 31°
SC1-N55S C1 55°SW 30°~70° 36°
SC1-N60S C1 60°SW 45°~70° 39°
SC1-N70S C1 70°SW 50°~80° 43°
SC2-N0L C2 0°LW -30°~30°
SC2-N45L C2 45°LW 30°~60° 16°
SC2-N60L C2 60°LW 45°~70° 20°
SC2-N70L C2 70°LW 50°~80° 22°
SC2-N45S C2 45°SW 30°~60° 31°
SC2-N55S C2 55°SW 30°~70° 36°
SC2-N60S C2 60°SW 45°~70° 39°
SC2-N70S C2 70°SW 50°~80° 43°
SC3-N0L C3 0°LW -30°~30°
SC3-N45L C3 45°LW 30°~60° 16°
SC3-N60L C3 60°LW 45°~70° 20°
SC3-N70L C3 70°LW 50°~80° 22°
SC3-N45S C3 45°SW 30°~60° 31°
SC3-N55S C3 55°SW 30°~70° 36°
SC3-N60S C3 60°SW 45°~70° 39°
SC3-N70S C3 70°SW 50°~80° 43°
SC4-N0L C4 0°LW -30°~30°
SC4-N45L C4 45°LW 30°~60° 16°
SC4-N60L C4 60°LW 45°~70° 20°
SC4-N70L C4 70°LW 50°~80° 22°
SC4-N45S C4 45°SW 30°~60° 31°
SC4-N55S C4 55°SW 30°~70° 36°
SC4-N60S C4 60°SW 45°~70° 39°
SC4-N70S C4 70°SW 50°~80°

43°

SC5-N0L C5 0°LW -30°~30°
SC6-N0L C6 0°LW -30°~30°
SC7-N0L C7 0°LW -30°~30°
SC8-N0L C8 0°LW -30°~30°
SC8-N45L C8 45°LW 30°~60° 16°
SC8-N60L C8 60°LW 45°~70° 20°
SC8-N70L C8 70°LW 50°~80° 22°
SC8-N45S C8 45°SW 30°~60° 31°
SC8-N55S C8 55°SW 30°~70° 36°
SC8-N60S C8 60°SW 45°~70° 39°
SC8-N70S C8 70°SW 50°~80° 43°
SC9-N0L C9 0°LW -30°~30°
SC9-N45L C9 45°LW 30°~60° 16°>
SC9-N60L C9 60°LW 45°~70° 20°
SC9-N70L C9 70°LW> 50°~80° 22°
SC9-N45S C9 45°SW 30°~60° 31°
SC9-N55S C9 55°SW 30°~70° 36°
SC9-N60S C9 60°SW 45°~70° 39°
SC9-N70S C9 70°SW 50°~80° 43°

2. Matrix Series

Model Casing Mo. Stl.Rfr-Angl Rmd Scan Rng. Ptd. Angl.
SC1-N0L C1 0°LW -30°~30°
SC2-N0L C2 0°LW -30°~30°