Cambridge

From Electronen Mikroskopie Museum Nürnberg
Revision as of 17:33, 22 January 2024 by Lbochtler (talk | contribs) (Updated some info)
Jump to navigation Jump to search

The Cambridge Instrument Company located in Cambridge UK, was the first commercial manufacturer of Scanning Electron Microscopes.

Scanning Electron Microscopes

Cambridge SEM-1
Cambridge-SEM1-taken-in-1953-38-p52.png
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
Cambridge Stereoscan MK1.jpg
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
Cambridge-Stereoscan-mk2-redrawn.jpg
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
Cambridge - Stereoscan S4-10.jpg
General
Year 1972 - 1974
Successor Stereoscan S250 MK I
Magnification Range 40x to 100Kx
Magnification Gauge Type Needle type & Range Switch
Specemin Chamber Pressure {{{Specemin Chamber Pressure}}}
Power Consumption 4KW
System Weight
Electrion Source
Accelerator Type Self Biased Triode Gun
Cathode Type Tungsten Hairpin / LaB6
Accelerating Voltage 0 - 30 KV
Stability
Cathode Heating Methode DC
Alignment Methode Mechanical & Magnetic
Condensor
Number of Condensor Lenses 2
Current Stability
Stigmator none
Aperture
Condensor Alignment none
Lens Type Electromagnetic, Polpiece and Capsule
Stage
Stage Type Non Eucentric / Eucentric
Specimen Loading
Sample Holder Type 3.2 mm Stub
X, Y Travel Range Stage Dependent 25mm
Z Travel Range Stage Dependent 15mm
Tilt Range Stage Dependent 90°
Rotation Range 360°
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
Cambridge - Steroscan 180.jpg
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
Cambridge - Stereoscan 600.jpg
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
Cambridge model 100.jpg
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
Cambridge - Stereoscan 250 MK2 - overview.jpg
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
Cambridge - CamScan 3-30 ACV - Overview.jpg
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