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

Geoscan

Cambridge

Scanning Electron Microscopes

Electron Probe Micro Analyzers

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