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| |Drive Mechanism=Micrometer Screw (Hand Operated) | | |Drive Mechanism=Micrometer Screw (Hand Operated) |
| }} | | }} |
| + | |
| + | = Electron Probe Micro Analyzers = |
| + | *[[Cambridge Geoscan|Geoscan]] |
| | | |
| [[Category:EM Templates]] | | [[Category:EM Templates]] |
Revision as of 18:50, 11 March 2022
The Cambridge Instrument Company located in Cambridge UK, was the first commercial manufacturer of Scanning Electron Microscopes.
Scanning Electron Microscopes
Cambridge SEM-1
|
|
General
|
Year
|
1953
|
Successor
|
Stereoscan MKI
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
|
Deflection Type
|
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan MKI
|
|
General
|
Year
|
1965
|
Successor
|
Stereoscan MKII
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
|
Deflection Type
|
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan MKII
|
|
General
|
Year
|
|
Successor
|
Stereoscan S4
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan S4
|
[[File:|200px|link=Stereoscan S4]]
|
General
|
Year
|
|
Successor
|
Stereoscan S4-10
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan S4-10
|
|
General
|
Year
|
|
Successor
|
Stereoscan model 180
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan model 180
|
|
General
|
Year
|
|
Successor
|
[[]]
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan Model 600
|
|
General
|
Year
|
|
Successor
|
[[]]
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan Model 100
|
|
General
|
Year
|
|
Successor
|
[[]]
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Stereoscan Model 250 MKII
|
|
General
|
Year
|
|
Successor
|
Stereoscan Model 250 MKIII
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
CamScan 3-30 ACV
|
|
General
|
Year
|
|
Successor
|
[[]]
|
Magnification Range
|
|
Magnification Gauge Type
|
|
Specemin Chamber Pressure
|
|
Power Consumption
|
|
System Weight
|
|
|
Electrion Source
|
Accelerator Type
|
Self Biased Triode Gun
|
Cathode Type
|
Tungsten Hairpin
|
Accelerating Voltage
|
|
Stability
|
|
Cathode Heating Methode
|
|
Alignment Methode
|
|
|
Condensor
|
Number of Condensor Lenses
|
|
Current Stability
|
|
Stigmator
|
|
Aperture
|
|
Condensor Alignment
|
|
Lens Type
|
|
|
Stage
|
Stage Type
|
Non Eucentric
|
Specimen Loading
|
|
Sample Holder Type
|
3.2 mm Stub
|
X, Y Travel Range
|
|
Z Travel Range
|
|
Tilt Range
|
|
Rotation Range
|
|
Drive Mechanism
|
Micrometer Screw (Hand Operated)
|
|
Objective Lens
|
Working Distance
|
|
Spherical Error
|
|
Current Stability
|
|
Stigmator
|
Octopol
|
Deflection Type
|
Double Deflection Electromagnetic
|
Point Resolution
|
|
Lens Type
|
Electromagnetic
|
|
Electron Probe Micro Analyzers