Objective changer; iSaCS
For technicians and
partly for sales managers!
These instructions describe the
procedures to install and adjust the focus unit and the objective changer for
the scanner part of the iSaCS. The focus unit and the objective changer are
assembled into a complex unit and these parts can not be separated in the
field. To help resolve problems with the objective changer or the focus unit a
hardware description of the implemented components and adjustment procedures
are added. To increase the manageability, the parts are discussed separately.
Software relevant settings are based
on the software version 1.19.
· The unit is derived from the Objective Changer Unit of
the scanner P250.
Contents
The described
focus unit is a component of the scanner part of the iSaCS and includes the following
main parts:
The
focus unit gives the possibility of
focusing the FOV (field of view,
seen by the scan camera) automatically during the scan process of the sample.
The objective changer unit is mounted onto the focus
unit and allows the consecutive use of two, preinstalled objectives. The
selection or exchange of the objective is initiated by software before a slide
scan session is started. The movement of the objective holder disc is executed
via a DC-motor and the position is sensed via Hall sensors. Each objective
position has a separate hall sensor, so the software knows always which
objective is actually in use. To guarantees the proper position of the
objective in the light path, the final objective position is fixed via a
form-fit mechanism.
The unit was developed for
the use of objectives of the following types:
Plan-APOCHROMAT
20x/0.8 and Plan-APOCHROMAT
40x/0.95
The objective type
“Plan-Apochromat” contains several, special chromatic and spherical corrections
and delivers so an image of very high color trueness with very small spherical
aberration.
If the mechanical dimensions
do not exceed the size of the Plan-APOCHROMAT 40x0.95 type objective, the
mechanical mounting is identical and the focus distance of the objective to the
tissue is not closer then 0.25mm, other kind of objectives can be used also but
it is strongly not recommended! Always check with 3DHISTECH first if a
different objective should be used!
The shutter mechanics covers the condenser and
this way the bright field illumination path is broken during fluoresce scan
sessions. The two commands, “condenser cover off” and “condenser cover on” are
identical with the physical lower and upper hardware limit of the focus unit.
Automatic scan
In the slide scan
table of the scan program “SlideScanner.exe” you can assign the objective with
which the slide should be scanned. In other words, the objective can be changed
any time between two slide scanning procedures. If the slide scan table does
not contain information about the objective, the scan procedure will be done
with the actual objective.
Remark
By default, the
brightfield scan procedure is always done by the use of the 20x objective;
during the fluorescent scan session can be done with the 20x or the 40x
objective likewise.
Since the software version 1.16 the BF scan session may be executed with
the 20x or the 40x objective likewise.
See also: “Upgrade to the
software version 1.16” and “What is new” “Brightfield
scan with the 40x objective”
Manual scan
The objective can be changed any time, before
the scan procedure is started.
The bus connector provides the
power supply and Data information for the objective changer as well as for the
turret unit via the cable DCJ-1; the
stepper motor cables of the focusing part are connected to the connectors “Z”
of the “X-Y-Z-ND and
Flash” controller.
The exchange of the focus unit with the
objective changer is possible:
Requirements
Attention: Do not mix the versions of SlideScanner.exe and
SlideScannerService.exe! Always use these programs with the same version
number. Otherwise the SlideScannerService.exe program could produce unwanted
results and SlideScanner.exe does not work correctly or even freeze!
The objective nut and the lock
nut of the objective mounting are handled by using the two wrenches shown
on the right; these are delivered with the scanner Pannoramic 250 until spring
of 2014.
Configure the objective changer unit
Since the software version 1.15 the units of the scanner are configured
in the file “MicroscopeConfiguration.ini”, section [Microscope].
The actual version of the objective changer unit in the scanner
Pannoramic 250 is “ObjectiveChangerType=OC_2Pos”.
· The
path of the file MicroscopeConfiguration.ini, in the software version with the
operating system Windows® 7 is:
C:\ProgramData\3DHISTECH\SlideScanner\MicroscopeConfiguration.ini
[Microscope]
SerialNumber=xxxxx
MicroscopeType=3DMic9
ScanCameraType=
PreviewCameraType=CVrmc_m8_pPro
BarcodeReaderType=PreviewCamera
LoaderType=SL_9Mag_25Slide_Sensor_Vertical
CameraChangerType=CC_3DH_2Pos
ReflectorTurretType=RT_3DH_10Pos_Belt
BrightfieldLightSourceType=FlashLight2010
ObjectiveChangerType=OC_2Pos
ObjectGuideXYZType=OGXYZ_FLASH3
FlashUnitType=FlashUnit_Type2
NDFilterType=NDType2
PreviewLightType=PreviewLightUnitType_Type2
PowerSwitchBoardType=PowerSwitchBoard_Type1
If a different value is used
for the objective changer unit, may be the unit is not recognized or is working
wrong!
Functional overview of the focus unit
Physically, the focus
position is defined by the distance of the objective to the tissue. If the tissue
is in the focus of the objective, a sharp image is seen by the camera. Because
the tissues are different from each other in thickness, and the thickness can
change inside the same tissue also, the focus position must be checked and
corrected always, during the scan procedure.
Furthermore, if the slide as
well as the objective will be changed, the specimen holder must be moved away
from the objective to avoid collision.
If the shutter is changed
from shutter off to shutter on or vice versa, the specimen holder is moved to a
position where the focus pin is not in connection with the slide or the
specimen holder. This way, the distance between specimen holder (cover slip)
and objective is not affected if the ex-center crosses the upper peak of the
sine wave.
During all these actions,
except focusing, the objective must be protected against touching the cover
slip and the focus pin and 4:1 divider must be protected against overstraining.
This is realized by the focus unit, with the different positions of the focus
pin and the positions of the specimen holder.
As you can see,
the gaps between cover slip and objective are very small, especially if the
objective Plan-APOCHROMAT
40x/0.95 is used.
Because both objectives can
be used without adjustment of the objective position after exchange, the
previously developed focus unit (the focus unit for SCAN,
See also: “Optical path and
Field Of View”
On the scale of
the 40x objective, the nominal thickness of the cover slip should be selected.
In Pannoramic type
scanners the objective is mounted into the middle of the focus range, offered
by the movement limits of the focus pin during focusing.
The slide is hold in
the specimen holder (not shown; see the X-Y-Stage). To achieve a parallel
movement of the slide in relation to the objective, the specimen holding
mechanics contains a parallelogram. This guarantees the position of the tissue
to be always perpendicular to the optical axis during focusing. The specimen
holder has a mechanical preload, so the slide has always a connection to the
focus pin, except during a shutter on or off operation.
To avoid collision of the
objective with the slide during the “shutter on” command, the X-Y-stage is
moved to a place (X=27000 and Y=18000 steps) where the focus pin is not in
connection with the slide or the specimen holder; otherwise the 40x objective
would collide with the slide or specimen holder.
This principle is used also
if an objective exchange procedure is in progress with the objective changer.
The focus pin is moved by a
stepper motor via an ex-center and a 4:1 divider. The resolution of the stepper
motor with 6400 steps per revolution, the characteristics of the ex-center and
the 4:1 divider allows a very fine resolution of the focus steps and so tissue
focusing.
The focus position of the FOV
is found, if the camera sees a sharp image. To reach this, the scan camera
takes images in different positions of the entire focus range and the software
finds the best focus interval. When this interval is found the real focus
position is found by iteration of the interval.
In opposite to the DESK, MIDI
and SCAN, the focus motor of the iSaCS
The Home position of the
entire mechanics is situated inside the focus range. Because the number of
steps never exceeds the direction limit for Home1 (the number of steps is
always less then 3200 steps in each direction) the home position is always
found within Home1 only. The option Home2 will never be executed during normal
scan operations and is used during system integration only or before the ex-center fixing bolt will be tightened
(if mechanical adjustments are done on the ex-center). In this case, the
mounting of the ex-center starts after a Home1,2 execution. This solution is
important for protecting the 40x objective.
Shutter arms are in horizontal position
This is a special position
for adjusting the physical ex-center position on the motor axle. This
adjustment defines the focus range; the sine wave crosses the X-axis at 500
motor steps (see above).
Hardware
limits; shutter on and off
By the use of two
shutter arms, one for shutter on, the other for shutter off operation, the hardware
limits could be held inside the direction limit for Home1 (less then 3200 steps
in each direction). The hardware limits will be reached only during shutter on
(CondenserCoverOn = BF light path closed, fluoresce scan) or the shutter off
(CondenserCoverOff = BF light path opened, brightfield scan) procedure. To
prevent the touching of the 40x objective during the shutter on procedure, the
action is executed at a special specimen holder position, where the focus pin
is guaranteed between the specimen holder and the slide. This position is X=
27000 steps and Y=18000 steps. This way, the specimen holder practically does
not move, during the ex-center crosses the upper peak of the sine wave, because
there is no connection between focus pin and slide or specimen holder. Please take this into account if you are
working with the service program!!
See also: “How
to define hardware limits”
In earlier
developed scanner systems (DESK,
Because the resolution of the
motor is increased by twice (1 revolution of the motor axle is done in 6400
steps), the focus range is now 1600 steps, in the P 250.
Because the focus range is
physically counted from -300 steps to +1300 steps, and negative numbers as
focus position are unusual, the entire focus range is shifted in the software
to the focus range from 1050 to 2650; add to the physical step number
1350.
In the Pannoramic 250: SW focus position = HW stepper motor
position + 1350.
Because the
specimen holder of the scanner can hold slides with a thickness of
See also: “Check /
adjust the objective position”
Components and mechanical construction
All stepper motor
relevant information, like step number and direction; go to Home1,2 or shutter on
and off and the state of the sensors Home1 and Home2 are transferred via the
stepper motor cables; these are connected to the “Z” connectors of the “X-Y-Z-ND-Flash”
controller unit.
In opposite to the DESK, MIDI
and SCAN, the focus motor of the iSaCS
On the ex-center mounting the
two shutter arms are situated for the shutter off and shutter on operation; so
the focus motor can not do a full revolution in any direction.
See also: „Stepper motor
The motor axle of the stepper
motor rotates the ex-center on which the focus plate is mounted and this moves
the 4:1 divider.
Attention
The mountings of the
focus plate should not be loosened; here the position of the focus plate and so
the position of the 4:1 divider and the position of the focus pin is adjusted!
Because the movement of the
focus pin is very small, the adjustment of the focus pin position is delicate; the focus plate mounting bolts position
must not be altered.
·
The
adjustment of the focus pin position can not be done in the field, it requires
special tools!
The connection between focus
plate and divider is realized with a ball-headed joining because the ex-center
does an up-down and additionally a left-right movement.
The connection spring ensures
a slippage-free connection between focus plate and 4:1 divider.
The connection spring ensures a
slippage free connection of the ball headed joining.
Attention
The mountings of the focus
plate should not be loosened; here
the positions of the focus plate, the position of the 4:1 divider and so the
position of the focus pin are adjusted!
Because the movement of the
focus pin is very small, the adjustment of the focus pin position is delicate; the focus plate mounting bolts position
must not be altered.
·
The
adjustment of the focus pin position can be done in the factory only!
The bearing of the 4:1
divider and the ball-headed pin of the focus plate eliminates the unwanted left
or right movement.
On the other end
of the 4:1 divider the focus pin is realized. The focusing of the tissue is
done by moving the focus pin toward or away from the objective; the mechanical
construction allows a focus pin movement of
The objective changer part of
the focus unit consists of:
Important
The drive unit can be
separated from the objective changer mechanics unhesitatingly, but do not remove the objective changer
mechanics from the focus part; see “Align
the objective into the optical axis” first!
Functional overview and
construction
The following chapters,
concerning the objective changer are true for the “
Drive
unit (from top)
The transport disc
is rotated by the DC motor; always in the mathematical positive direction, if
we are looking onto the objectives (during normal work).
The transport disc moves the transport
pins situated in the transport holes, by a half revolution.
Just before the working
position of the objective is reached, the DC motor will be switched off by the
appropriate sensor and the final movement, into the exact working position
(into the optical axis), is done by the form-fit mechanism.
The spacer in the
electronics cover keeps a distance between cover and PCB and avoids so a
shortcut in the electronics.
[Microscope]
.
.
.
ObjectiveChangerType=OC_2Pos
As mentioned above, on the top of the transport disc two permanent
magnets are situated; the distance to each other is exactly 180 degrees (not
shown correctly).
Just before the working
position of the objective is arrived and the dead point of the form-fit
mechanism is even crossed, the permanent magnet arrives over the sensor and
stops so the movement of the transport disc.
Adjustable permanent
magnet position
In scanners,
manufactured since June 2013, the position of the permanent magnet is
adjustable.
With this solution, and by adjusting
the magnet position, the dead point of the form-fit mechanism can be always
reached surely.
·
If one permanent magnet position is moved backward (or
forward) the permanent magnet in the opposite position should be moved also
backward (or forward) by the same distance!
·
To
reach a correct adjustment, the distance of the permanent magnets to each other
has to be always 180º!!
With this solution, and by adjusting
the magnet position, the dead point of the form-fit mechanism can be always
crossed surely.
See: “Adjust permanent magnet position”
Watch video: “P250_Objective change”
·
If one permanent magnet position is moved backward (or
forward), the permanent magnet in the opposite position should be moved also
backward (or forward) by the same distance!
·
To
reach a correct adjustment, the distance of the permanent magnets to each other
has to be always 180º!!
Adjust permanent magnet position
With the service
program rotate the Transport Disc in forward direction.
If the motor is switched off,
the form-fit mechanics should act and the final objective position should be
reached surely.
Otherwise, a small gap should
also exist between transport hole and transport pin, if the objective stays in
the optical axis.
Check this behavior in both
objective positions several times with the service program!
Watch video: “P250_Objective change”
·
If one permanent magnet position is moved backward,
the permanent magnet in the opposite position should be moved also backward by
the same distance!
·
To
reach a correct adjustment, the distance of the permanent magnets to each other
has to be always 180º!!
The objective disc
realizes the exchange of the objective between two slide scanning sessions.
If the transport disc (not shown)
rotates by a half revolution, the objective disc will be rotated also as long
as the connection between transport hole and objective fitting pin exists. The
force of the form-fit mechanism is defined by its spring and this holds so the
objective (the ball bearing of the fitting pin) always in the proper position
until a new objective change command is executed.
·
The objective disc can be rotated manually in any
direction to reach the required objective position.
·
The form-fit mechanism should always fix the objective
position; otherwise, the optical axis will be incorrect!
The form-fit
mechanism acts in the transport disc’s
stop position; the final objective position (the real working position) will be
reached and the fitting pins will be disconnected from the transport holes.
The force of the spring as
well as the shape of the form-fit arm guaranties always the proper and constant
position of the objective in relation to the optical axis.
The disc is always
driven in direction from the spring to the mounting of the form-fit arm; the
reason for this is the shape of the form-fit arm.
The use of ball bearings on
essential, important mountings guarantees the proper position of the objective
in the image path.
If the ball bearing of the
fitting pin arrives to the form-fit arm, and the dead point of the form-fit mechanism
is even crossed, the transport wheel stops the movement and the ball bearing of
the fitting pin will be locked in the shape of the form-fit arm by the force of
the spring.
The transport hole of the
transport wheel moves the objective disc with the help of the objective fitting
pin until the appropriate
magnet arrives over its sensor. This position is so defined, that the dead
point of the form-fit mechanism is even crossed.
Objective mounting
The objective disc contains 2
drillings with M27 thread, so the objective can be mounted directly.
The distance of the objective
to the focus pin (the objective position) is adjusted by using fitting rings between
the objective mounting surface and the objective disc surface.
The nominal distance is
0.3mm.
By using and combining
fitting rings of different thicknesses, the objective position can be adjusted
individual (not recommended!).
If the objective was removed,
please insert the 20x objective into the mounting with the marker again, the
objective position was adjusted with this condition.
Set of objective fitting
rings
Name: SHIMS
SET FOR M27 OBJECTIVE
Article number: AC-OBJ-SHM-0100
Content: Nominal objective position is reached
if the thickness of the fitting ring is 0.3mm!
2x 0.3mm; already implemented
4x 0.1mm
2x 0.05mm
By using and combining
appropriate fitting ring thicknesses the distance of the objective to the tissue
can be adjusted in steps of 0.05mm.
·
Please use always the same distance of the objective
to the tissue on both objectives!
·
Because the Objective distance is already adjusted
(with the fitting rings of 0.3mm), the implemented fitting rings are not found
in the set, delivered with the scanner!
Mount the
objectives
Important
Principally, the objective
position is already adjusted during the system integration process and
modification of the objective position should be done only in exceptions; modification is strongly not
recommended!
·
If the objective(s) are dismounted, please leave the
fitting ring(s) on the objective (to avoid a mismatch)!
·
Always drive the 20x objective into the marketed
position, see above!
·
Always drive in the objective until it stops!
The focus position of both
objectives is found in the nominal focus position for the appropriate slide
thickness within a tolerance of ±50 focus steps!
If the option 40x
magnification is not used, the dummy objective is implemented in the objective
position 2.
This way, a weight
displacement of the objective disc will be avoid.
Mount the 20x objective
always into the position 1 and the 40x or dummy objective into the position 2.
Remark
Since the software version 1.16 the BF scan session may be executed with
the 20x or the 40x objective likewise.
See also: “Upgrade to the
software version 1.16” and “What is new” “Brightfield
scan with the 40x objective”
The software setup
of the objectives is done in the dialog “Microscope settings”, there will
be defined if the 40x objective is present or not.
See also the “Pannoramic_250_1.15_User's_Guide_EN_Rev1_FINAL.pdf”
Remark
In the dialog
“Microscope settings”, any objective (20x or 40x) can be set to any position
(objective position 1 or 2), but we recommend the use of the objective 20x in
the position 1 and the 40x or dummy objective in the position 2, because some
adjustments (e.g. the
preview calibration procedure) requires the existence of the 20x objective
in the position 1.
The objective
position can be modified according to the requirements of the used objective.
Adjustments of the objective changer unit
The mechanics of the objective changer unit does not need adjustments;
the positions of the Hall sensors are fixed as well as the positions of the
permanent magnets.
The adjustment is limited to
the following parts:
1.
With the service program set the Y-stage to Home1,2.
2.
Set the X-stage to Home1,2.
3.
In the tab “Objective changer”, select the sensor 1
and press the button “Forward”; the 20x objective should move into the working
position of the objective changer unit, in the specified movement direction and
the form-fit mechanics should snap in correctly.
Set the working position 1
1.
If the working position 1 is not correct after the
check, remove the entire focus unit with objective changer.
2.
Remove the objective changer drive unit (probably the
stepper motor cables must not be disconnected).
3.
Rotate the objective disc by a ½ revolution so,
that the 20x objective stays in the working position.
4.
Mount the objective changer drive unit.
5.
Mount the entire focus unit with objective changer.
Remove the objective changer drive unit
1.
Remove the
focus unit.
2.
Remove the mounting bolts of the objective changer
drive unit.
3.
Easily separate the drive unit from the objective
changer mechanics.
Mount the objective changer drive unit
1.
Connect the cable DOJ-1 to the bus connector.
2.
In the tab “Objective changer”, of the service program
select the sensor 1 and press the button “Forward”; see above.
3.
Rotate the objective disc manually so, that the 20x
objective is in the working position of the objective changer unit.
4.
Fit the objective changer drive unit onto the
objective changer mechanics and drive in the mounting bolts.
5.
Mount the
entire focus unit with objective changer.
6.
Check the
correctness of the objective changer and its mechanics manually and with the
service program also.
7.
If the form fit mechanism does not snap in during the
normal exchange operation, modify a little bit the drive unit mounting position
until the dead point of the form fit mechanism is crossed correctly.
Dismount
or mount the objective
1.
With the
program SlideScannerService.exe Set the X-Y-stage to the positions Y-Home1,2
and X-Home1,2.
2.
In the tab “Objective changer” move the objective
(position), to be dismounted or mounted into the working position.
3.
Select the option “Time out”, set a numerical value of
1300 ms and press the button Backward.
4.
Dismount or mount the objective. Hold the mounting nut
with the delivered wrench and loosen or tighten the objective by hand. Before
mounting a brand new objective, use a little bit grease on the mounting thread.
5.
If the objective nut position was previously not
adjusted, check the distance of the objective to the focus pin. If the focus
pin seems to touch the objective, correct the distance by rotating the
objective nut; the focus pin should never touch the objective!
6.
Adjust the distance of the objective to the plane of
the focus pin until a gap of approx.
7.
Select the appropriate sensor and press the button
forward; the actual dismounted position or the mounted objective should move
into the working position.
8.
Repeat the steps 2 to 7 with the other objective
(position), if required.
9.
If the 40x objective was mounted, check and set the
thickness of the cover slip; see also “The 40x objective”.
Check and adjust
the objective position
To adjust the focus position
you can use a slide with a thickness in the range from 0.95 to
10.
Start the program SlideScanner.exe with the service
password.
11.
Clean the cover
slip and the slide bottom, then insert the measured slide with the known
thickness.
12.
Check the correct holding of the slide in the specimen
holder!
13.
Select a FOV of the tissue inside the preview window
with the positioning tool.
14.
Select the focus tab and live view.
15.
Press auto focus.
16.
If the found focus position is equal with the
calculated focus position for that slide (a deviation of + - 25 steps is
possible) the objective position does not need adjustments; the check is
finished.
17.
If an adjustment
of the objective position is required, set the calculated number of focus steps
in the live view, loosen the lock nut of the objective mounting and drive the
objective mounting nut so, that the tissue becomes into focus (toward the cover
slip or away from it respectively).
18.
If the tissue becomes into focus, tighten the lock
nut; press the button “Auto focus” and repeat from step 15.
19.
Check the result again by pressing the button “Auto
focus” some times.
20.
If there are more then 25 steps difference to the
nominal (calculated) focus position, repeat the adjustment from step 15.
21.
Check the focus position on different positions of the
tissue.
22.
Change to the other objective position (tab “Service”,
“Microscope control” select the other objective position and go back to the tab
“Focus”, adjust the exposure time) and check or adjust the focus position for
the other objective by repeating the previous adjustment from step 13.
23.
If the 40x objective was adjusted, check / select the
thickness of the cover slip; see also “The 40x objective”
24.
After finishing the objective position adjustment
check the tightness of each objective!!
25.
If the adjustment is done, please move the objective
changer to the opposite objective position and again into the actual position
(since the software version 1.16 it is possible in the scan program) and start
the option “Auto focus” again. Only this way you can be sure that the actual
objective is right aligned in the optical axis.
Remark
Because we handled the objective
manually with the wrenches, it is easily possible to misaligning the optical
axis!
In earlier versions of the
file “SlideScanner.exe” you should start the scan program with the service
password and then, in the tab “Service” and “Microscope control” you can
exchange the objective by software also. Then check the focus position again
with the function “Auto focus”.
·
To mount the condenser, put it into its holder and
drive the condenser in; toward the objective.
Condenser position
adjustment tool
·
The condenser position
adjustment tool is used to find the optimal condenser position.
·
The adjustment tool is put onto the collimator lens
housing during the condenser position adjustment and if the center drilling of
the adjustment tool is in focus, the condenser position is nearly found.
The adjustment of
the condenser is important for the bright, uniform and optimal illumination of
the FOV. This reduces so the exposure time of the camera and increases the
quality of the scanned tissue.
The position of the condenser affects
the following:
· If you can not see
the hole of the condenser position adjustment tool, calculate the exposure time
and move the adjustment tool on the optical axis until the image of the
drilling or a part of it can be seen in the live view.
Alternatively, if the focus position of the tissue is correct, you may
stick a slice of paper onto the collimator lens holder.
·
Rotate the condenser, until the fibers of the paper
are in focus.
General
The mechanical shutter is implemented as a part of the
focus unit and the shutter guide is situated between condenser and 4:1 divider.
During fluorescent
scanning the shutter must be closed and insures so a dark background. Other,
unwanted fluorescent materials (e.g. painting, optics) can not reflect the
fluorescent light or can not fluoresce and so they will not disturb the
fluorescent view.
During bright field illumination the
shutter must be fully open to ensure a bright and evenly illumination of the
FOV.
Principle of shutter mechanics
The shutter has
only two usable states, shutter on and shutter off. These positions are
identical with the hardware limits of the focus unit; in these positions the
bright field illumination should be fully opened or fully closed respectively.
All other possible positions of the shutter are not defined, therefore faulty
positions and not allowed during the scan process.
During rotation of
the stepper motor axle in direction to the negative limit of the focus unit,
the shutter wire will be touched by the shutter arm and is so moved to the
shutter off state (bright field illumination allowed). If the stepper motor
axle is rotated in direction to the positive limit, the other shutter arm will
touch the shutter wire and moves it so to the shutter on position (bright field
illumination disabled).
In practice it means, that
the shutter wire together with the shutter arms is the limiter of the focus
mechanics and with this limiter the shutter on / off option is realized.
A = Focus
pin
B = Shutter
guide
C = Shutter
wire
D = Condenser
E = Condenser
fixing
If the shutter
wire is touched by the shutter arm, the torsion is transmitted via the shutter
wire to the slider of the shutter guide. The slider brings so the shutter guide
into the proper position.
Adjustments of the focus part and shutter mechanics
This adjustment must
be done only if the ex-center was dismounted or the fixing bolt was loosened.
With this adjustment the focus position is set to be +500steps nominal.
Because in this position the
fixing bolt can not be loosened or tightened, we use the focus stepper motor
position of 2100 steps for this adjustment.
1.
Loosen the ex-center fixing bolt so, that the
ex-center can be moved on the motor axle.
2.
With the service program set the focus unit to
Home1,2.
3.
Go forward to the focus motor position 2100 steps.
4.
Bring the ex-center into the horizontal position (the
shutter arms shows to the left and to the right; use the slot of the ex-center
mounting to find the proper position. Before you are tighten the ex-center
fixing bolt please check the position of the shutter arm in relation to the
shutter wire also. The shutter arm should touch the shutter wire nearly in the
middle of the hook. To reach this, bring the ex-center in proper position on
the motor axle and tighten the fixing bolt.
Attention
A small gap between motor mounting surface and
ex-center mounting should exist, otherwise, if the ex-center mounting rubs on
the motor mounting surface, the focus unit may lost rotor movements and so the
scanned tissue may be out of focus or blurry, even if the focus rotor direction
had changed.
5.
Go to the positions Home1,2.
6.
Go forward to the focus motor position +500 steps.
7.
In this position the shutter arms should showing
exactly up and down. A deviation of approx. 10 steps from the vertical
direction is allowed. If the deviation is too much, repeat the adjustment from
step 1.
Find the hardware limits for the focus unit
This procedure must be done
only if the ex-center was dismounted or its fixing bolt was loosened. Before the
following procedure is done, the previous adjustment “Adjust the ex-center
position” should be correct.
· The
path of the file MicroscopeConfiguration.ini, in the software version with the
operating system Windows® 7 is:
C:\ProgramData\3DHISTECH\SlideScanner\MicroscopeConfiguration.ini
See also: “How
to define the hardware limits”
Find the negative limit
8.
With the
service program set the focus unit to Home1,2.
9.
Go forward to the focus motor position -1750 steps.
10.
Go backward +1750
steps.
11.
Press Home1 (only). There should be not more then +-2
steps difference to Home1.
If there are more
steps lost, decrease the actual number of steps by 10 and repeat from step
12.
If there are not more then 2 steps difference to
Home1, increase the number of steps by 10 and repeat from step
13.
The negative limit is found correctly if the motor
movement has no steps lost and the actual number of steps, increased by 10
would produce lost steps.
The found negative
limit can differ by more ten steps from unit to unit. The reasons are the
tolerances of the components and the used position of the ex-center in relation
to the motor axle.
14.
Update the parameter value of the parameter
“FocusDeviceMin” with the found number of the actual steps in the file
“MicroscopeConfiguration.ini” section [HardwareLimits].
15.
Update the
parameter value of the parameter “CondenserCoverOff” with the found value in
the file “MicroscopeConfiguration.ini” section [Focus].
Find the positive limit
16.
With the service
program set the focus unit to Home1,2.
17.
Go forward to the focus motor position +2750 steps.
18.
Go backward 2750 steps.
19.
Press Home1 (only). There should be not more then +-2
steps difference to Home1.
If there are more
steps lost, decrease the actual number of steps by 10 and repeat from step
20.
If there are not more then 2 steps difference to
Home1, increase the number of steps by 10 and repeat from step
21.
The positive
limit is found correctly if the motor movement has no steps lost and the actual
number of steps, increased by 10 would produce lost steps.
The found positive
limit can differ by more ten steps from unit to unit. The reasons are the
tolerances of the components and the used position of the ex-center in relation
to the motor axle.
22.
Update the
parameter value of the parameter “FocusDeviceMax” with the found value in the
file “MicroscopeConfiguration.ini” section [HardwareLimits].
23.
Update the
parameter value of the parameter “CondenserCoverOn” with the found value in the
file “MicroscopeConfiguration.ini” section [Focus].
Dismount; mount the focus unit
The mounting of the focus
unit with objective changer and the mounting of the X-Y-stage is realized with dovetails;
these are hold by dovetail fixing clamps.
1.
With the service program go forward to the position
10,000 steps in +X direction (3 full turns of the motor axle).
2.
Disconnect the bus cables DOJ-1 of the objective
changer and FCJ-1 of the turret stepper motor.
3.
Disconnect the cables of the focus motor (optional).
4.
Loosen the fixing
bolt of the focus unit mounting; turn the screw driver clockwise!
5.
Remove the entire focus and objective changer unit by
pulling the unit backward.
Watch Video: Remove focus unit (SCAN)
6.
Insert the focus unit with objective changer into the dove
tail of the scanner plate until the physical limit is reached; take care on the
objectives.
7.
Tighten the fixing bolt of the focus unit mounting;
turn the screw driver counter clockwise!
8.
Connect the bus cables DOJ-1 of the objective changer
and FCJ-1 of the turret stepper motor.
9.
Connect the cables of the focus motor.
Watch Video: Mount focus unit (SCAN)
Setup and define the
implemented objectives
If the objective(s)
are implemented and the program “SlideScanner.exe” finished the start up
procedure, select the option “Microscope Settings” in the menu “Options”.
In the dialogue
“Base Settings” the implemented objectives are selected and parameterized.
By default
§
If there is only a 20x objective implemented into the
scanner, select “<none>” (3) in the objective position 2.
Remark
Of course, the dialogue
accepts any kind of magnification in any objective position, but in the
Pannoramic 250 the 20x objective should be always in the objective position 1
because this is the default objective and some adjustment procedures (e.g. the preview calibration
process) uses the 20x objective in the objective position 1!
Align the
objective into the optical axis
Attention
The alignment of the objective position to the optical
axis is already done and finished; this is not a usual adjustment.
The following calibration
should be done only, if the objective changer unit mounting was loosened,
altered or the objective changer unit was separated and reassembled to the
focus unit; so the optical axis will not be strait.
Remark
The aligning procedure is
advised and described for the 20x objective and the objective position 1.
If the 20x objective position
is equipped with an objective nut using Whitworth thread, you can use
unhesitatingly the 40x objective position to align the objective changer unit!
The alignment is done
mechanically; the objective pupil position (represented by the drilling of the
objective aligner) will be fit into the optical axis by the help of the
condenser aligner pin. During this fitting operation the objective changer unit
mounting is barely loosened (except you are checking the correctness of the
alignment). The unit mounting bolts will be tightened, if both adjustment tools
fitting easily and the form-fit mechanics fix the objective position correctly.
1.
With the service
program set the objective changer into the default position by pressing the
radio button “Sensor
2.
Disconnect the cables of the objective changer and the
stepper motor cables.
3.
Remove the
entire focus unit with the objective changer.
4.
Remove
the drive unit.
5.
Rotate the objective disc manually by about a ¼
revolution and remove the 20x objective; do not loosen the lock nut or the
objective mounting nut; otherwise the objective position has to be adjusted
again!
6.
Drive the objective aligner
into the objective mounting of the 20x objective until it stops.
7.
Mark the condenser position (e.g. with a pen), then remove the condenser.
8.
Make sure, the mechanical shutter is open.
9.
Insert the condenser aligner into
the condenser mounting.
10.
If the condenser aligner moves easily in / out in the
condenser mounting (if it would falling out by gravity) and the form-fit
mechanics fix the objective position correctly, the adjustment is correct.
11.
If the condenser aligner can not be inserted or moves
strong, the objective is misaligned; execute the aligning procedure.
12.
If the aligning result is acceptable, remove the
condenser aligner and mount
the condenser again (until the previously signaled position).
13.
Remove the
objective aligner and mount
the 20x objective again.
14.
Put the 20x objective into the working position
manually and mount the
drive unit.
15.
Mount the entire
focus unit with objective changer and connect the cables.
16.
With the service program check the functionality of
the focus unit and the objective changer unit as well, the 20x objective have
to be in the working position if ‘Sensor
17.
Check or
adjust the objective position.
18.
Check
the focus position
19.
Check or
adjust the condenser position.
1.
With the service
program set the objective changer into the default position by pressing the
radio button “Sensor
2.
Disconnect the cables of the objective changer and the
stepper motor cables.
3.
Remove the
entire focus unit with the objective changer.
4.
Dismount
the drive unit.
5.
Rotate the objective disc manually by about a ¼
revolution and remove the 20x objective; do not loosen the lock nut or the
objective mounting nut; otherwise the objective position has to be adjusted
again!
6.
Drive the objective aligner
into the objective mounting of the 20x objective until it stops.
7.
Mark the condenser position (e.g. with a pen), then remove the condenser.
8.
Loosen the unit mounting bolts of the entire objective
changer unit so, that the unit becomes barely moveable.
9.
Make sure, the mechanical shutter is open.
10.
Insert the condenser aligner into
the condenser mounting and adjust the entire objective changer unit position in
relation to the focus unit.
11.
If the condenser aligner moves easily in / out in the
condenser mounting (if it would falling out by gravity) and the form-fit
mechanics fix the objective position correctly, the unit mounting bolts should
be tightened.
12.
Check the easily movement of the condenser aligner in
the condenser mounting again; hereby the form-fit mechanics should fix the
objective position correctly also.
13.
If the condenser aligner moves strong, repeat this
procedure from step 8.
14.
If the aligning result is acceptable, remove the
condenser aligner and mount
the condenser again (until the previously signaled position).
15.
Remove the objective aligner and mount the 20x objective
again.
16.
Put the 20x objective into the working
position manually and mount the drive unit.
17.
Mount the entire focus unit with objective changer and
connect the cables.
18.
With the service program check the functionality of
the focus unit and the objective changer unit as well, the 20x objective have
to be in the working position if the radio button “Sensor
19.
Check /
adjust the objective position.
20.
Check
the focus position
21.
Check /
adjust the condenser position.