OMCL-TR400PB / OMCL-TR800PB / OMCL-RC800PB

Silicon Nitride Cantilevers

omcl_tr400pb_1

Both side Gold coating

Both side Gold coating

Both side Gold coating

OMCL-TR400PB-1
Cantilever
  A B C D
Lever types - -
Resonance Frequency
fres
[kHz] 32 10    
Spring Constant
kz
[N/m] 0.09 0.02    
Shape   Triangular
Length × Width × Thickness
L × W × T
[µm] 100×-×0.4 200×-×0.4    
Probe setbac*1
D
[µm] -4
Probe

Side

Side

Front (probe apex)

Front (probe apex)
Shape Pyramidal
Length [µm] 2.9
Effective probe length*2 [µm] -
Tip radius
R tip
[nm] 30
Material
Probe apex Silicon Nitride
Lever Silicon Nitride
Coating Metal
Probe side Gold
Reflex side Gold
chip
type Glass Chip
Length × Width × Thickness
Lchip × Wchip × Tchip
[mm] 3.7×1.6×0.51
Measurement mode
Contact mode
AC mode
Measurement environments
In air
In water
  • *1 Positive value of 'Probe setback' means the probe apex extends even further than the apex of the cantilever. Negative value means that the probe apex locates over the cantilever.
  • *2 Effective probe length (Effective tip height) is defined as a length of distal part from the cantilever of two stage structured probe to clarify the length of the actual probe which smoothly grow in diameter from the probe apex toward the bottom.
  • *3 Specifications are subject to change without any obligation on the part of the manufacturer.
OMCL-TR800PB-1
Cantilever
  A B C D
Lever types - -
Resonance Frequency
fres
[kHz] 68 22    
Spring Constant
kz
[N/m] 0.61 0.16    
Shape   Triangular
Length × Width × Thickness
L × W × T
[µm] 100×-×0.8 200×-×0.8    
Probe setbac*1
D
[µm] -4
Probe

Side

Side

Front (probe apex)

Front (probe apex)
Shape Pyramidal
Length [µm] 2.9
Effective probe length*2 [µm] -
Tip radius
R tip
[nm] 30
Material
Probe apex Silicon Nitride
Lever Silicon Nitride
Coating Metal
Probe side Gold
Reflex side Gold
chip
type Glass Chip
Length × Width × Thickness
Lchip × Wchip × Tchip
[mm] 3.7×1.6×0.51
Measurement mode
Contact mode
AC mode
Measurement environments
In air
In water
  • *1 Positive value of 'Probe setback' means the probe apex extends even further than the apex of the cantilever. Negative value means that the probe apex locates over the cantilever.
  • *2 Effective probe length (Effective tip height) is defined as a length of distal part from the cantilever of two stage structured probe to clarify the length of the actual probe which smoothly grow in diameter from the probe apex toward the bottom.
  • *3 Specifications are subject to change without any obligation on the part of the manufacturer.
OMCL-RC800PB-1
Cantilever
  A B C D
Lever types
Resonance Frequency
fres
[kHz] 64 17 66 17
Spring Constant
kz
[N/m] 0.42 0.06 0.82 0.11
Shape   Rectangular
Length × Width × Thickness
L × W × T
[µm] 100×20×0.8 200×20×0.8 100×40×0.8 200×40×0.8
Probe setbac*1
D
[µm] -4
Probe

Side

Side

Front (probe apex)

Front (probe apex)
Shape Pyramidal
Length [µm] 2.9
Effective probe length*2 [µm] -
Tip radius
R tip
[nm] 30
Material
Probe apex Silicon Nitride
Lever Silicon Nitride
Coating Metal
Probe side Gold
Reflex side Gold
chip
type Glass Chip
Length × Width × Thickness
Lchip × Wchip × Tchip
[mm] 3.7×1.6×0.51
Measurement mode
Contact mode
AC mode
Measurement environments
In air
In water
  • *1 Positive value of 'Probe setback' means the probe apex extends even further than the apex of the cantilever. Negative value means that the probe apex locates over the cantilever.
  • *2 Effective probe length (Effective tip height) is defined as a length of distal part from the cantilever of two stage structured probe to clarify the length of the actual probe which smoothly grow in diameter from the probe apex toward the bottom.
  • *3 Specifications are subject to change without any obligation on the part of the manufacturer.

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