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Summary of Contents for CHA-P

Page 1: ...OLYMPUS POLARIZING MICROSCOPE IINSTRUCTION MANUAL I MODEL I I OLYMPUS...

Page 2: ...wo coarse adjustment knobs in the opposite directions simultane ously which might cause damage 4 Ascertain that the line voltage selector switch on the baseplate i sset to c o n f o r m with the local...

Page 3: ...RATION 1 Adiustment of Minimum Line Voltage 2 lnterpupillary Distance and Diopter Adjustments 3 Polarirer Alignment 8 4 Centering the Stage g 5 Centering the Objectives 6 Use of Apenure Irk Diaphragm...

Page 4: ...retardation W n y r AH TP530 Polarizingmonoculartube 45 CH PMO Polarizingbinoculartube 30 BH PSI Swing outpolarizing condenser BH PUC H a i m lamp socket CLSH B Halogen bulbs BVIOWHAL CHA Pal 1 I I 1...

Page 5: ...ENCLATURE Photo Model CHA P 651 Model CHA P 051 is also available by modification of som components axmatior tube Revolvingnosepiece Intermediate pojwiaing a t m h m t Objective Microscopestand Conden...

Page 6: ...keep all glass surfaces ctean and avoid watching the surfaces Insert tha obbctb 10X into Eyepiece the fixed apertureo f tha nos P Clamping screw Quarter wave plete Sensitive tint plate with the lettE...

Page 7: ...ng screw P Main switch Rh m a t trimmer screw After swltchlno on M n m r y r te this wrew wlth a coin until tb bulb 18 dimly Ilt w i t h the sliding cmtrol lrmrr at mlntmum 0mltIon Groundingterminal L...

Page 8: ...er Aperture iris diaphragm ring Numerial aperture sale grrd Swinwut knob fortop lam Codewer M A Is0 9 when top lmsswln s out N A k 0 251 Filmmount A m w e 45rnmdlm fllters Bulb mount Lamp house clampi...

Page 9: ...Swing in the desired objective Set the condenser analyzer and Bertrand lens mrrectly according to your microscopic purpose page 10and 11 Adjust light intensity Fine focus Adjust aperture Iris diaphrag...

Page 10: ...itioned closest to you low voltage and then activate the main switch Q If the bulb Is dimly lit the secondary voltage is correct If it is not lit at all rotate the rheostat trimmer screw gradually wit...

Page 11: ...ok at the image through the right eyepiece with your right eye and focus on the specimen with the coarse and fine adjustment knobs 7 Look at the image rough the left eyepiece with your lefteye and rot...

Page 12: ...entering wrench into each centering swew of the nosapiece Fig 8 C 2 By means of the twocenteringwrenches coincidethe center of the GTW hairs to the rotationcenter ofthe specimen I 3 After all objectiv...

Page 13: ...e stage is lowered and then raised again Fig 81 8 Orthaseodc Observation Fig 8 1 Swing out the top lens of the condenser In princfple polarized light enters the light path paraitel to the optical axis...

Page 14: ...f the wndenser and illuminate the mcirnen with no nmd to irnmerm betwen the condenser and specimen slide 2 Bring the specimen inlo foeus rotate the Bertrand lens turret ring into the IN position 3 Foc...

Page 15: ...ich could be compared to the relative aperture f number of a camera lens M A values can t used for dimtly comparing the m l v i n g powers of all types of objectives The larger N A the higher the reso...

Page 16: ...t path the condenser top lens stays in the light path or stops midway c1 Dust or dirt is visible in Dust or dirt on the glass surface at the field of view the light exit on the base Dust on condenser...

Page 17: ...tion for optimum extinc tion Adjust with the tube length adjust ment rings on the observation tube The condenser is lowered exces sively Raise the condenser 1 The observation tube and mndens er are n...

Page 18: ...t o raise the stage I over the upper focusing limit imposed by the engaged pre focus ing lever 1 a C o a r adjustment is too 1Tension adjustment ring is tighten Loosen the tension adjustment ring I ti...

Page 19: ...ment is incomplete Right and left eyepieces are not matched The user is unaccus omed to binocular observation 5 Stage Clamp the stage securely Adjust the specimen position a1 The image easily goes out...

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