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I - DESCRIPTION
A. GENERAL DESCRIPTION
The Polaroid Land SX-70 is a folding, pocket The four element lens has a maximum aperture
sized, single-lens reflex camera which takes of f/8, and a focusing rang from 10,4 inches to
and immediately delivers full-color pictures infinity. The shutter is automatically controlled
approximately 31/4 inches square (see figures by a photocell and electronic timing. Electrical to
1-1, 1-2 and 1-3). Operation is automatic; the mechanical energy conversion is accomplished
user merely inserts the film, focuses and shoots. by two solenoids and a motor. There are no
power is provided by a six-volt battery inside the separate diaphragm adjustement. The shutter
film pack; therefore, the batteries are always opening and closing time is controlled by the
fresh as the film.
exposure measuring system.
Figure 1-1 SX-70 Camera folded
Figure 1-2 Holding and opening the SX-70
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Figure 1-3 Opened for picture taking
The subject is viewed and focused throught the cycle to prepare for the next exposure. Following
taking lens, a mirror, a Fresnel viewing screen thenth exposure, the flash circuit is inhibited until
(with spilt-image focusing aid) and a optical a fresh film is inserted. Normal operation will
system to focus the image at the viewing eye- resume when the camera is reloaded.
piece. As in all single-lens reflex cameras, the
shutter must be open to provide an image at
the eye-piece. This requirement is fulfilled by
the automatic electro-mechanical components
B. CAMERA OPERATION
which are described in detail in Section II of this
manual.
The following paragraphs describe the electro-
mechanicaleventsthatoccurinnormaloperation.
the purpose of this desciption is to acquaint the
reader with the manner in which the various
functions are accomplished. Detailed analysis
at component / sub assembly level appears in
Section II.
When the exposure is made, the image must be
transferredfromtheviewingsystemtothesurface
of the film in accurate focus. To accomplish this,
the shutter closes and the viewing screen swings
out of the optical path which is then diverted by
a mirror to the film surface. These two paths
are described in greater detail elsewhere in this
section.
1. Opening the Camera
When the SX-70 is folded, an interlock switch
(S6) removes all battery power from the camera
mechanism to prevent any drain from the film
pack encapsulaetd batteries. To prepare the
camera for picture taking, hold the camera in the
left hand, pull straight up on the serrated portion
of the viewfinder housing (Figure 1-2). this
action releases latches, which, in turn, allow the
main body of the camera to raise into operating
position.
The exposure is made following the viewing
screen / mirror swing. The screen then returns
to the viewing position and the automatic
mechanism ejects the exposed sheet of film.
development takes place outside the camera
and can be observed by the operator. As soon as
the print is ejected, the mechanism completes its
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When the camera is fully opened, the interlock 2. Loading the Film pack
The front coverlatchis located on the right side
switch (S6), located at the left rear corner of
the mirror cover, is closed and the battery is
connected to the camera electrical circuit.
(Figure 1-4).
of the camera just inside the rim of the bottom
cover assembly. Pressing down on this yellow
latch releases the front cover which drops down
to expose the film chamber. With the cover open,
a film pack can be inserted or an exhausted pack
can be removed.
A fresh film pack is loaded into the film chamber
observing color coding (Figure 1-5). Under
certain circunstances a partially used pack could
be inserted, but this action will cause some
deviation in the normal counting sequence.
The battery is a part of each film pack, and the
two exposed terminals on the pack engage two
contacts within the film chamber as the pack is
inserted.
3. Starting the Automatic Mechanism
With the film pack in place, the front cover can
be closed. It must be fully closed and latched.
Figure 1-4 S6 with contacts closed
Figure 1-5 Inserting film pack
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Gears in the front cover must engage the main front edge of the front cover. The camera is now
gear train of the camera before the gear train ready to take the first picture.
is put into motion. A switch (S7) located in the
forward section of the gear train compartment
initiates the application of power to the gear
train drive motor. Switch (S7) is actuated by two
components
4. Setting the exposure counter
When a used film pack is removed from the film
chamber, the action automatically resets the
exposure counter at the rear of the camera to the
start position, closing S8. With a new film pack
installed and the front cover closed and latched (
S7 closed), the motor is powered, and the dark
slide is ejected. The exposure counter turns
to number 10 (Figure 1-7), indicating that 10
pictures remain in the pack.
(1)
A projection on the front cover latch
(Figure 1-6 A), and
(2)
A post on the right rear edge of the front
cover (Figure 1-6 B).
Figure 1-7 Counter
5. Viewing and focusing
Viewing and focusing is accomplished through
a reflect system (Figure 1-8 A). In the viewing
mode the image passes through the lens to a
fixed mirror which reflects it down to the Fresnel
viewing screen. The viewing path from the
viewfinder eyepiece lens is from a parabolic
mirror and wafer lens, off the fixed mirror to the
Fresnel screen. On most cameras the Fresnel
screen contains a circular split-image aera which
is used to focusing aid. A knurled knob (the
focusing wheel) on the shutter housing is rotated
to adjust the camera focus. The scene is in focus
when a vertical line within the split-image aera
is perfectly straight. On early cameras (without
a split-image feature), the scene is in focus
when the image seen on the Fresnel screen is
sharpest.
Figure 1-6 S7 contacts open and closed
Thus, the cover must be fulled closed, the gears
engaged, and the latch fully seated, in order to
actuate the drive motor.
As S7 closes, power is applied to the drive motor
(S8isalsoinvolvedandisdiscussedinafollowing
paragraph), the gear train is set in motion and
actuates a device called the film pick. The pick
engages the dark slide, pushes it into the spread
rolls and the dark slide is ejected from the lower
6. Viewing and focusing
The exposure is made by pressing the release
button. This completes the electrical circuit to the
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Figure 1-8 Viewing and shooting
shutter to initiate a series of events. The shutter The shutter opens and closes to perform the
blades close to cut off the optical path. The exposure function.
hinged Fresnel viewing screen is swung upward
and comes to rest in front of the fixed viewing
mirror (Figure 1-8 B).
A first-surfaced taking mirror is fastened to
the underside of the Fresnel carrier assembly.
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The image is reflected by the mirror onto the slide. The counter will start at number 10. Since
film surface. the electronic metering system switches S8 and S9 are physically attached to
determinesthe required exposure, and programs the counter, the camera will cycle through 10
the shutter opening and duration accordingly.
exposures even though there be less than 10
sheets of film in the pack. This deviation must be
The incorporation of a mirror in tghe lens-to-film recognized whenever a partially exposed pack
path necessitated by the nature of the film. No is used.
separate negative film is employed. Instead,
the image appears as a direct positive. Since
the final product is an opaque print, it is viewed
by reflection. As a result, the mirror is needed
to reverse the image so that the final print will
be properly oriented. This requirement, in
turn, dictates the use of the reflectance type
viewing screen rather than a ground-glass type
transmission system.
8. Developing the print
As in orther Polaroid pack cameras, the picture
is developed ouside the camera. Unlike previous
Polaroid Land Cameras, however, there is no
negative to pell off and discard.
9. Exposures using flash
The SX-70 accepts a special 10-lamp flash bar
that plugs into a receptacle directly over the
camera lens. There are five lamps in a rowon
either side of the bar which must be removed,
rotated and reinserted after the fifth lamp has
been fired (Figure 1-9).
Note that the film surface is deplaced from
the Fresnel viewing screen by the thickness
of the viewing screen assembly. The correct
focal distance for both viewing and exposure is
properly maintened, however, since the surface-
coated exposure mirror is deplaced by the same
dimension.
Insering a flash into the flash socket closes
switch S2 in the socket. This action sets up the
shutter electronic circuit to permet firing of the
flash lamp. A follow-focus mechanism, coupled
to the lens focusing system arrests the shutter
blades at an opening related to camera-to-suject
distance.
During exposure, the light from the viewing
system must be prevented from striking the
film. This is accomplished by a rubber light stop
adhered to the hinged Fresnel carrier. When
the Fresnel carrier moves upward, the light stop
blocks off light from the viewfinder eyepiece.
NOTE : On early camera models, the light
measuring circuit remains active even with the
flash bar inserted into the socket. If the circuit
determines that there sufficient ambient light, an
exposurewillbemadewithouttheflash. Cameras
with «P» configuration or later shutters, do not
have this light measuring feature in the flash
mode. Regardless of the ambient light level, the
circuits will fire the flash when a flash bar is in
the socket (unless of course, the lamps have all
been used).
As indicated by the foregoing description, the
viewing system is blacked out during the actual
exposure.
As soon as the exposure is complete the
mechanism returns the viewing screen to its
initial position and the picks feeds the exposed
film to the spreader rolls. The rolls break the pod,
spread the developer, and eject the film from the
camera.
If the array has been exhausted, the shutter
will complete the exposure cycle without flash.
Maximum exposure duration is 30 seconds.
7. Completing the film pack
As each exposure is completed, the exposure
countersubstractsonedigituntilthe10exposures
have be made. The counter then indicates 0...
When this occurs, switch S9 is closed. Closing
this switch inhibits the flash and the exposure
timing. Since the counting cycle is initiated by
the insertion of a film pack, the pack may not
necessary contain a full supply of film. If, for
some reason, a partially used pack is removed
and reinserted, the top film will be the dark
When the exposure counter reaches 0 (empty)
the camera will not fire a flash lamp even though
unused lamps remain in the bar. The previously
discusseddeviationassociatedwiththeexposure
counter is applicable to the flash functions. If an
unusedlamp is in position and if a partially empty
film pack has been reinserted, the camera will
continue to fire lamps after the last sheet of film
has been exposed, until the counter reaches 0.
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Figure 1-9 Inserting the flash bar
10. Closing the camera
specially shaped cutouts, open the lens from a
totally closed position to a suitable aperture. The
two blades then reverse direction and again shut
off the optical path. These same two blades also
contain a similar (although differently shaped)
pair of cutouts that open and close the light path
to the photocell in like manner. In the following
description the functions of photocell cutouts is
deferred until the action of the shutter cutouts is
explainedalthoughinoperation, thetwofunctions
are interdependent.
When through using camera it be can folded and
latched in its closed configuration by pushing
the erecting link. When the camera is closed,
the interlock switch (S6) is opened so that the
battery is completely disconnect from the camera
circuits. The trim wheel (the lighten / darken
adjustement associated with the photocell)
automatically returns to its normal position each
time the camera is closed.
C. SHUTTER DESCRIPTION
(AMBIENT LIGHT MODE)
When the camera is open for viewing, but before
the release button is pressed, solenoid #1 is
The shutter employed in the SX-70 camera is deenergized and the shutter blades are open. A
unique. No direct comparisons should be drawn spring (openong spring) holds the shutter blades
between the manner in which it functions and the wide open (Figure 1-10). The lens thus provides
function of other Polaroid electronic shutters. No maximum viewing / focusing brilliance. Solenoid
manuallyadjustableorfixedapertureisemployed. / spring action is discussed in detail in the next
When a picture is taken, two shutter blades, with section of this manual.
Figure 1-10 Shutter blades held opened
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When the release button is pressed, a switch When the solenoid has reached the end of its
S1 closes (Figure 1-11 A and B) and applies stroke (shutter closed, it no longer requires
operating power to the shutter. As soon as power maximum current to hold it at that postion.
is applied to the shutter, solenoid #1 is energized Switch S4 (located on solenoid #1) closes (CB)
and rapidly moves the shutter blades to the and activates an electronic circuit called the
closed position.
POWER DOWN CIRCUIT. This reduces power
Figure 1-11 A Location & Arrangement of internal parts
Figure 1-11 B Operation
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to an adequate level to hold the solenoid after the motion of the blades is such that all of the factors
high-current circuit has completed the solenoid involved are continously variable throughout the
operating function and switches on the motor exposure period. this fact, however, is a design
drive circuit. Thus, the shutter will remain closed, consideration and should not confuse the theory
with minimum battery drain.
of the shutter operation from a maintenance
point of view.
Light entering the lens is now cut off and the When the camera completes all off its automafed
reflex mirror is swung upward to picture-taking functions and the release button has been
position. The electronic latch (activated by released, all voltage is removed from solenoid #1
opening S5) assures that the sequence will be and the shutter opens in preparation for the next
completed even if the operator removes his exposure.
finger from the exposure button, S1.
It should be noted that under extremeley low light
When the mirror swings up, a mecchanically conditions, the shutter will closed completing the
operated switch (S3) actuates a «Y» delay exposure cycle in 14 to 30 seconds whether a
circuit (40 milliseconds) (Figure 1-12) so that the suitable exposure has produced or not.
shutter will not function until the mirror bounce
C. SHUTTER DESCRIPTION
(FLASH MODE)
has subsided. At the end of the delay period the
electronic circuitly removes the power from the
soleniod and the opening spring sets the shutter The special ten-shot flash bar is equiped with
blades in motion toward the full open position. a shorting bar so that when the bar is inserted,
At the same instant an electronic switch opens two contacts within the camera is shorted. This
and starts the integration cycle. The integration switch is identified as S2. When S2 is closed,
cycle is that period during which the total amount the shutter electronic circuit detects that a flash
of light (intensity and duration) reaching the bar is in place and ready for firing. In general,
photocell is transformed electronically to regulate the sequence of the functions remains the same
the lenght of time the fiml is exposed. The shape as for ambient light operation with the following
of the opening in the shutter blades and the exceptions :
Figure 1-12 S3 Being opened by recock ram
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mechanical device identified as the interceptor When the flash delay period reaches completion,
connected to the lens focusing mecchanism the circuitry removes the holding current from
(Figure 1-13 A). the interceptor is moved as solenoid #2. Since the solenoid is an electro-
the lens is focused regardless of whether mechanical device, removing power from it
ambient-light or flash pictures are being taken. causes a collapsing magnetic field which induces
When flash bar is in place (S2 closed) and the a fly back voltage. This voltage pulse is fed to
gear train opens switchs S5 (Fighure 1-14), the flash circuitry which then applies the firing
solenoid #2 is energized and pulls the interceptor voltage across the flash lamp.
into position to phycally restrict the shutter blade
travel (Figure 1-13 B). Since the interceptor is
controlled by the focusing mechanism, the
shutter opening is related to camera-to-subject
distance thus compensating for the flashbulb-to-
subject distance to give proper flash exposure.
As a solenoid #1 de-energizes switch S4 moves
from the CB position to the CA position. This
switch conects VCC to the FFA.
Figure 1-13 A Interceptor link, Solenoid 2, S2 operation - Solenoid de-energized
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Figure 1-13 B Interceptor link, Solenoid 2, S2 operation - Solenoid energized
Figure 1-14 S5 being opened by the recock ram (Gear train)
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In cameras with «P» configuration or later shutter
there is no ambient light measurement made. If
a flash bar is in the shutter socket a flash picture
will result regardless of the ambient light level.
On early cameras, an ambient light measurement
is made during the flash delay period. Since the
photocell aperture is a part of the shutter blades,
the amount of reflected light reaching the cell will
alsobeafunctionoffocusingdistance. theshutter
electronics delays firing the flash lamp until the
shutter has opened to the aperture established
by the focus wheel. during this delay period, if
the ambient light level is sufficiently high to cause
triggering of the integrating circuits, the exposure
will be completed and the shutter closed before
the firing voltage reaches the lamp and the lamp
will not be fired.
At the ends of the flash timing interval, the circuit
energizes solenoid #1, the shutter closes, and
the sequence proceeds as in the ambient-light
mode.
If the bulbs in the flash bar are all used when the
operator attemps to make a flash exposure, all of
the previously described circuitly will function up
to the actual firing of the flash lamp. Since there
is no lamp to ignite, no flash firing current will be
drawn.
There will be no output signal from the flash
sequencingcircuit, andanambientlightexposure
will be made. On cameras with «P» or later
configuration shutters, the result will be a black
picture unless the ambient light level is high
enough to give an exposure. this is caused by
the fact that «P» and later configuration shutters
have no integrating function as long as a flash
bar is inserted in the socket. Early cameras have
a twenty second time-out period even with a flash
bar inserted in the socket. Therefore, if the flash
bar is exhausted, a properly exposed picture
will result if the ambient light is great enough to
produce one in twenty seconds.
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II - THEORY OF OPERATION
A. INTRODUCTION
A general description of the camera and the The battery has adequate capacity to expose
sequence of its functions is contained in all 10 film frames with at least six months of
Section I. In that section, detailed analysis of expected shelf life.
individual assemblies and electrical circuits was
minimized so that emphasis could be placed on
the intenelation-ship of various functions. In the
C. LENS
following paragraphs, the individual groups of The lens employed is a four element, glass lens
components are described in greater detail. The of f/8 aperture with a focal lenght of 115mm. It has
description are presented in the sequence in the a focusing range of infinity down to 10,4 inches.
commponents were mentioned in Section I.
Focusing is accomplished by movement of the
front element only. Helical threads in the lens
mount provide the linear lens elemet movement.
Operation is by means of a geared focus wheel
at the top of the shutter housing. There is no
manualy adjustable diaphragm associated with
the SX-70 lens.
B. POWER SOURCE
Power for the drive motor, the shutter electronics,
and the flash array is supplied by a specially
designed 6 volts battery incorporated in each
10 exposures film pack. When the pack is
inserted into the camera, two contacts pads
on the bottom surface of the pack engage two
D. VIEWING AND EXPOSING SYSTEM
spring-loaded contacts on the inner bottom When the camera is erected to picture taking
surface of the camera bottom plate. From these configuration, the subject can be viewed through
two points, it is distributed to its destinations by the collapsible viewfinder. Figures 2-1 and 2-2
the copper foil strips of a flex circuit on the outer show the two optical paths in the camera. Note
surface of the bottom plate.
the direction of the arrows. Reflected light from
Figure 2-1 Viewfinder optics (viewing)
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Figure 2-2 Viewfinder optics (exposing)
the subject passes through the camera lens and 1. Fresnel (Figures 2-3 A and 2-3 B)
The special Fresnel (pronouced Freh-nell)
screen is employed to enhance the viewing
image by increasing the brightness and defintion.
If a matte white surface were substituted for the
Fresnel screen, an image would still be visible.
However, the light rays striking nearest the
corners of the screen meet the screen at a more
oblique angle than the rays striking near the
center. At this greater angle, a larger percentage
of the light is dispersed and less light is returned
to the viewer. Thus, on a matte-screen image the
corners would appear darken than the center.
The Fresnel screen is designed to overcome this
problem.
is reflected by the viewing mirror (on the inside
surface of the mirror cover) to the Fresnel viewing
screen.
The entire subject image is now reproduced
on the viewing screen. At this point, viewfinder
optics must be employed for focusing. The optics
must transfer the image from the viewing screen
to the eye (done by the parabolic mirror and the
viewing mirror) and must present the image in
a fairly sharp contrast to permit proper focusing
(done by the eye lens and parabolic miror).
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The screen itself is a sheet of plastic upon which increases the brilliance of the image within teh
areimpressedseriesofconcentricringsmuchlike viewing aera.
the grooves pressed into a phonograph record
(Figure 2-3) instead of having a vee shaping; Insummary, theFresnelsatisfiesthreeconditons:
however, the grooves in the Fresnel screen form 1 - it enhances focusing by distributing light rays
a saw-tooth with a tooth angle increasing slightly evenly across the entire viewing aera.
with each successive groove in such a manner as 2 - it guarantees proper focusing by nature of its
to complement the decreasing angle of the light acting as a ground glass - thus insuring that the
ray. The saw-tooth flattens out completely at the subject is in focus when the eye sees the image
exact optical center of the screen. In the SX-70 in focus on the screen.
camera, the optical center is not the geometrical 3- it acts as a reflecting surface to permit the eye
center of the screen.
to see the image through the viewfinder optics.
The surface of the screen is silvered to provide As show in Figures 2-3 A and 2-3 B, two types
optimum reflectance. The result is a brilliant of fresnel screens are used. Current types
viewing image evenly illuminated from corner to (Figure 2-3 A) have a split-image circle cut into
corner.
the center of the screen which makes focusing
easier. Specially oriented prisms within the circle
For the reader who is familar with the use of a split the image unless the camera is perfected
Fresnel lens used in conjunction with a ground- focused. Therefore, a straight vertical line in the
glass focusing screen, or a Fresnel-ground image aera would appear to be broken unless
focusing magnifier, it must be noted that these the subject is in focus. To further ease focusing,
are transmission devices while the Polaroid the image within the split circle appears brighter
screen is a reflecting medium. Otherwise, the than the rest of the Fresnel image. This is
brilliance enhancing properties are the same. possible because the split circle is not coated in
A suitable analogy would be the comparison of the same manner as the rest of the Fresnel. This
a lenticular projection screen compared with a latter feature improves the ability of the viewer to
matte surface. The ribbed surface of the lenticular focus the camera in dimly lit aeras.
screen narrows the angle of reflectance but
Figure 2-3 Fresnel screen
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2. Viewfinder
mirror, the 6-edges viewing mirror is used in the
optical path twice. First, the light rays entering
the camera from the taking lens are reflected
onto the Fresnel screen by the viewing mirror.
Secondly, the operator views the image on the
screen with light reflecting off the viewing mirror
(Figure 2-1). (The viewing mirror is located on
the underside of the mirror cover assembly.)
The viewfinder optics consist of an eye lens, a
concave mirror and a wafer lens (Figure 2-4). As
in all simple optical system, a certain amount of
distortion is inherent in this design. A small wafer
lens is introduced into the viewfinder optical path
to limit to angle of acceptance and, thus, reduce
distortion. The size of the lens opening is large
enough to provide acceptable viewing brilliance
and, at the same time, small enough to be easily
closed when the camera is in the exposure mode.
(On earlier models a rectangular mask called a
stigmatic pupil takes the place of the wafer lens.
4. Flare baffle
The flare baffle (Figure 2-2) is a spring-loaded
plate which springs up when the Fresnel screen
moves into the picture-taking mode. In this state,
light is prevented from passing through the lens
directly onto the film without first being reflected
off the taking mirror. This prevents «hotspots»
from appearing on the finished picture. When
the Fresnel carrier is in the lowered position, the
flare baffle is held down, out of the optical path.
E. CAMERA ELCTRONICS
1. General
The SX-70 is unique, both in its principles of
operation and its functional design. It can be
considered as aan electronically controlled
mechanical device. An electronic control module
Figure 2-4 Wafer lens assembly
Ignoring the shutter functions momentarily, when (substrate or ECM) contains all of the electronic
the operators presses the exposure button, the components with the exception of the motor
Fresnel carrier swings away from the film plane control (MCC) integrated circuit and the flash fire
and comes to rest in front of the viewing mirror. assembly (FFA). Because the ECM is located
During the moment of the Fresnel carrier (and inside the shutteur housing, it becomes identified
until it returns to its initial viewing position), a as part of the shutter (Figure 2-5). It should
flexible light stop closes a path between the be noted that all of the camera automation is
viewfinder and the inner camera to prevent light controlled by the integrated circuits in the ECM.
trough the eye lens from reaching the film. The
movement of the spring-driven Fresnel carrier is
accomplished by the motor-driven gear train. The
details of the automated action are described
in the discussion of the electro / mechanical
assemblies.
3. Mirrors
Two first surface mirrors are used in the SX-70
optical system. When a picture is being taken,
the Fresnel carrier is raised. This places the
4-edges taking mirror into the optical path and
light is reflected onto the film plane. (The taking
mirror is mounted on the Fresnel carrier on the
Figure 2-5 ECM - Electronic Control Module
side opposite the Fresnel screen.) The second
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The entire ECM (rather tna its individual b- Switch S2 places the circuitry into the flash
integrated circuits) is used as a remplacement mode. Switch S2 si closed when the flash bar
item. For that reason, the theory of operation and is inserted into the FFA on the top of the shutter
analysis techniques presented in this manual housing. It commands the integrated circuit
have prepared in such a way that the repairman in the FFA to select the first unused flashbulb
can relate a specific camera failure mode to an and, to fire the bulb. It also enables the ECM to
ECM function.
energize solenoid #2 which limits the opening
of the shutter blades so that flash exposure
will be determined by flash-to-subject distance.
When the solenoid #2 is energized it engages a
mechanical coupling between the shutter blades
and the focusing mechanism.
2. Switch functions
a- Switch S1 is actuated by either the red shutter
release button or remote control cable release.
It is operated by the photographer and it causes
the camera to run through a complet exposure /
film delevery cycle.
Figure 2-6 SX-70 Switch locations
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c- Switch S3, normally closed at the begining NOTE:WhenevertheSX-70shutterisdiscussed,
of the exposure cycle is opened by the recock it must be noted that, since the camera is a single
ram located in the gear train assembly. See lens reflex and focusing is accomplished through
Figure 2-7. As the exposure sequence begins, the taking lens, the shutter’s normal state si open,
S3 opens and actuates a delay circuit (Y delay) not closed as in other Polaroid cameras.
in the EMC which retards the start of the actual
exposure approximately 40 milliseconds so When the shutter release button is pressed and
that mirror bounce will have subsided before a the exposure cycle is initiated full battery power
picture is taken. At the end of the delay time, the is delivred to solenoid #1, closing the shutter.
shutter starts to open and the electronic timing Once the solenoid plunger is seated it no longer
function (integration) takes place. If a flash circuit requires as much power as was originally
is inserted into the FFA (S2 closed) an additional needed to overcome its static inertia. Switch S4,
flash delay circuit is avtivated to insure that the therefore, closes the S4 CB contacts to the ECM
exposure gets full effect of the light derived from and the electrical power to the solenoid coil is
the flash. At the end of the exposure cycle when reduced to the «power down» value which is
the Fresnel carrier moves down into viewing sufficient to continue the exposure cycle yet low
position, S3 closes as the recock ram moves enough to conserve battery drain.
away. It is now reset for the next camera cycle.
WhentheswitchS4(CBcontactsclosed)transfers
to the ECM it sends power to the drive motor and
d- Switch S4 is tripped by an actuator on the
operates the gear train. When S4 is actuated,
plungerofsolenoid#1,theshutterbladeactuating
(CB contacts closed) it also disconnects power
solenoid (Figure 2-8).
from the FFA flash circuitry. This action prevents
Figure 2-7 S3 Being opened by recock ram
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Figure 2-8 S4 Switch operating configurations
damage to the circuit in the event that flashbulb f- Switch S6 is closed by openong the camera
becomes short-circuited after it is fired.
to the picture taking position. Its disconnects the
negative side of the battery from the commun
return (ground) when the camera is folded to
assure the removal of power from the circuit.
e- Switch S5 (normally closed at the beginning of
the exposure cycle), like S3, is located in the gear
train and actuated by the recock ram (Figure 2-7).
When the gear train rotates to appropriate point in
its cycle, S5 opens and removes power from the
drive motor, applying dynamic braking voltage to
stop the gear train quickly. The ECM reacts to
this command in such a way that exposure cycle
continues completion even through the operator
has released the exposure button (S1). After the
exposure and when the Fresnel carrier returns to
the viewing position, S5 is closed by the recock
ram and stops the camera cycle.
g- Switch S7 is closed when the front cover is
closed. It is wired in series with S6. Like S6, S7
disconnects the negative side of the battery from
the commun return so that the camera cannot
function until the front cover is closed and
latched. It is an interlock during normal picture
taking. With S6 and S8 closed, it initiates the
dark slide function.
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h- Switch S8 (Figure 2-8A) is part of the exposure
counter operated by the counter wheel. As S7
closes, power is applied, ejecting the dark slide.
After the dark slide ejection, the counter wheel
turns, opening S8. S8 then remains open until
the film pack is removed. When the pack is taken
out, S8 closes.
i- Switch S9 is near S8 on the exposure counter
assembly. When the counter reaches the 0
position, switch S9 closes and the ECM inhibits
the falsh-firing function, so that if an unused bulb
is still available it will not be wasted.
j-Foranhandysummary,seetheSwitchFunction
Table.
3. Function Sequence
The following paragraphs describe the sequence
in which operate during normal operation of the
camera.
a- The operator opens the camera. Switch S6
connects the battery to the camera circuitry.
b- The operator opens the front cover. Switch
S7 opens and removes battery power from the
camera.
Figure 2-8 A S8 - S9 Exposure counter switches
c- The operators open a film pack. (when the
previously used film pack was removed, a
SWITCH FUNCTION TABLE
Switch
Action
closes
closes
opens
Result
Initiates exposure cycle and causes circuitry to take and
deliver the pictures.
1
2
3
Connects circuitry to take flash pictures.
Initiates «Y», 40 milliseconds delay. (Power down
solenoid #2 in the flash mode)
Controls power to solenoid #1 (drop current to holding
level).
CA closes
CB closes
4
5
6
Signals the ECM to start the motor.
Stops motor both by closing and opening depeending upon
sequence of action and internal circuitry.
opens / closes
● Connects the battery to the electronic circuitry when the
camera is open to use.
closes
opens
● When the camera closed, cuts power from battery.
When S8 is also closed, it provides power to the camera
when the front power is latched (for dark slide eject). Also
acts as an interlock during normal picture taking.
7
closes
Enables (with S7 closed) the circuitry to eject dark slide.
Opens again after the dark slide is ejected.
8
9
closes
closes
Prevents firing flash if film pack counter is on «0».
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mechanical coupling device set the exposure taken until mirror bounce has subsided.
counter to the position just before the first
h- At the end of the 40 millisecond delay period,
exposure and closed S8, but since S7 has
theECMremovespowerfromsolenoid#1andthe
removed all battery power no action occurs).
shutter opens. Simultaneously, the circuit starts
d- The operators closes and latches the front
cover. S7 closes, power is apllied and the camera
eject the dark slide.
timing the exposure (integration). The integration
components of the ECm are controlled by the
amount of light received by the photocell. At this
time, the flash delay section of the ECM is made
ready but will not function unless a flashbar has
been plugged in, to close switch S2.
NOTE : During this action (and in certain other
operations) other switches actuate and functions
occur but, unless they contribute to the paticular
camera function being described, they are
omitted from the discussion).
i- When power is removed from solenoid #1 (and
the shutter begins opening), the actuator on the
plunger returns switch S4 to its original condition
(CA closed); When the exposure timing cycle
is complete, power is returned to solenoid #1
and the shutter closes, opening CA, closing CB,
placing solenoid #1 again in the power down
condition and starting the motor to eject the
exposed film.
The counter indicates exposures #10 (and opens
S8) thereby showing that the camera is ready to
take first picture.
e- The operators aims, focuses the lens, and
presses the red shutter release button (S1).
The ECM actuates solenoid #1 which closes
the shutter blades. Solenoid #1 transfers the S4
contacts from CA to CB, which in turn, switches
the circuit from full solenoid power to holding
current (power-down). Closing contacts CB of
switch S4 also starts the drive motor. Opening
S4 (CA) removes power from the FFA.
NOTE : the lenght of, the timing cycle is
determined in amount of the light reaching the
photocell. If there is insufficient light to correctly
operate the integration circuits, the system will
automaticall terminate the exposure within 14 to
30 seconds.
f- As the gear train runs, it mechanically releases
the spring-loaded Fresnel carrier so that it leaves
the film plane and rises to its exposure position.
This is accomplished by the mirror release cam
of the recock gear. the recock ram falls off the
recock cam, allowing the ram to snap forward.
This allows the drive spring to raise the Fresnel
assembly to the exposure mode. The ram also
moves away from S5 allowing S5 to open. This
action causes the ECM to dynamically brake the
motor which will remain at the rest throughout the
exposure segment of the cycle. The S5 switch
action also programs the ECM to complete the
cycle even though the operator has released the
exposure button after S5 is open.
j- When, in the previous step, the solenoid closes
the shutter blades and drive motor is energized,
the gear train resumes its sequence with the
following results :
1. The film pick feeds the exposed film to the
spread rolls.
2. At the end of its travel the pick uis held in its
forward position by the pick latch.
3. Film moves through the spread system.
4. The recock gear cam proceeds to retrun the
recock ran which, through the bell crank, moves
the Fresnel carrier down.
5. The recock ram closes switch S3 to prepare for
another exposure.
6. The light stop opens the optical path to the
viewfinder.
NOTE : there would appear to be a contradiction
betweenthisstepandthestepj-10belowwherein
closing of S5 performs the identical function, i.e,
stops the motor and applies braking. S5 is able
to perform in this manner, however, because
the circuit (gate) to which it is connected is in a
different condition during each of the steps.
7. The film completes its passage through the
spread rollers. The front cover idler gear meshing
with the gear train powers the top roller which
drives the film through the exit slot.
8. The Fresnel carrier when fully scated is held by
the recock ram.
g- While the Fresnel carrier was moving up prior
to motor shutdown, the recock ram opens switch
S3. When S3 opens, it signals the ECM to initiate
a 40 millisecond delay in the sequence. This
amount of time prevents a picture from being
9. The pick latch releases the pick and the pick
returns to its starting position.
10. The recock ram closes S5 to cause the ECM to
shut off and dynamically brake the drive motor.
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k- If the operator has removed pressure from at the aperture for flash exposure at the set
exposure button all power will be removed and distance (Figure 1-13). The interceptor latches
the shutter blades will open to permit viewing. in this position. At this time, the ECM removes
If the button has not been released, the shutter the power from solenoid #2. The solenoid, like
blades will remain closed until the operator any inductive device, produces a flyback voltage
removes his finger from the button.
when its magnetic field collapses. This flyback
voltage is used to trigger the ECM which, in
turn, applies power to the FFA to ignite the next
unused flashbulb.
l- When a flash bar is placed in its socket, it closes
switch S2. This switch connects the ECM in the
flash mode. All of the mechanical sequences will
remain as just described. The ECM however, will
now provide power to solenoid #2 when switch
S5 (in the gear train) opens, and will maintain it
in a power down condition when S3 opens.
o- The shutter performs an additional function
in the flash mode. One of its circuits examines
the #1 flashbulb contacts and by virtue of the
resistance determines whethever or not the bulb
has been fired. If the #1 lamp is exhausted, the
circuit scans the #2, etc. When an unused lamp
is located, the firing circuit remains connected to
the lamp until is used.
m- Within the shutter assembly a cam follower
is driven by a cam on the focus wheel and
arranged so that it will mechanically stop the
travel of the shutter blades relative to the focus
distance. When solenoid #2 is not energized, a
spring on the cam follower prevents engagement
of the cam follower and the shutter mechanism
functions in the ambient exposure mode. When
the ECM is programmed for flash, solenoid #2 is
energized and the shutter openeing is controlled
by focusing distance.
NOTE : It is important to be aware that in early
cameras the timing (integration) circuits of the
substrate continue to function even though the
insertion of a flash array has placed the substrate
in the flash mode. Thus, if the ambient light level
is high, the picture may be made by ambient light
without firing the flash. Also, if all the flash lamps
are expended and a picture is taken, an ambient
light exposure will result. The photographer will
recognize this situtation by the absence of a flash.
However, he may still get an acceptable picture.
the aperture in this case will be determined by
the flash to subject distance.
n- When making a flash exposure and the shutter
blades start to open, the interceptor will be set to
apositiondeterminedbythefocusingmechanism
but out of the path of the interceptor pin. When
solenoid #2 is energized, it pulls the interceptor
into the pins path of the blades and stops them
FLASH TIMING SEQUENCE CHART
End
Flash
Delay
Sol. #1
Power
Down/
SA BC
Closes
S3
Opens
Sol. #2
Power
Down
Activated
Flash delay
FD
Sol. #2
Power Off
FF
Down
S4 BC
Closes
Sol. #1
Power Up
S3
Close
S5
Opens
Sol. #2
Blades Open to Correct
Aperture S4 AC Close
to Power FFA
Cycle
Complete/
S5
Sol. #15
Power Up /
FT
S1
Closes
S4 CA
Opens
Film
Ejected
Power Up
Closes
FTO Flash
Flash Time
Y DELAY
FLASH DELAY
Fires
Out
At Hight Light
Levels Early
Stop
Ambient
Blades
Close
Cameras will
take Ambient
Exposure
Exposure
(does not apply to
"P" configuration (T1)
and
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F. SHUTTER MECHANICAL DETAILS
(Figure 2-9)
image into focus, a cam molded into the rear
surface of the focus wheel moves the component
identified as the cam follower assembly. The
trim link coupled to the trim assembly is pinned
to the cam follower in such a way that follower
movement is also directly influenced by the
setting of the trim wheel. (The trim wheel is the
lighten / darken control on the photocell.)
The following paragraphs describe the manner in
which the mechanical components of the shutter
respond to either manual or electrical direction.
1. When the operator prepares to take a picture,
he first must aim and focus the camera. As he
rotates the focus wheel to bring the split Fresnel
Figure 2-9 Shutter, exploded view
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2. When an ambeint light exposure is being
made, all of the action just described takes place
but does not affect the shutter action. However,
when a flash array is inserted switch S2 in the
flash socket programs the electronics to energize
solenoid #2. The impact of this action on the
movement of the shutter blades is described in
paragraphF.4. butfirsttheshutterbladeactuation
must be described as follow :
3. When the ECM circuit powers solenoid #1,
the solenoid plunger is pulled into its seat,
overcomming the opening spring force. The
plunger pulls the walking beam, rotating it about
60 degrees.
Each of the shutter blades has a pin which
engages a slot in the walking beam. As the
walkingbeamrotates,ittransmitsitsrotarymotion
to the shutter pins and drives the rear blade to
the right (facing the front of the shutter) and the
front blade to the left thus closing the light path
of the picture taking lens and the light path of the
photocell lens. When the shutter is totally closed
and the gear train has reached the point in the
sequence at which the Fresnel carrier snaps up,
the exposure sequence starts. The blades will
proceed toward the fully open position and retrun
to a closed position in the time interval dictated
by the photocell and integrating circuit. The
blades may not reach the fully open condition if
the illumination level is high, or they may fully
open for a period of time if the light level is low.
If a flash array is mounted, the blades may not
be permittedto open completely because of the
follow focus mechanism described in part in the
foregoing paragraph. The following paragraph
explains the interaction of the follow focus
components and the shutter blades.
4. Installing a flash bar in the camera flash socket
switchestheECMtotheflashmode.Aspreviously
explained, at a point in picture taking sequence
(flash mode), solenoid #2 is energized. Fastened
to the plunger is pull down bar. when the plunger
pulls this bar down, it moves the interceptor into
the position where it will intercept a pin (the stop
pin) on the walking beam (Figure 2-9 A). Now
when the shutter blades move towards the open
position,theywillbeinterruptedbythemechanism
just described which means the maximum size
of the blade opening (aperture) is determined by
the focus setting of the camera. As the camera
(and thus the flash lamp) is moved closer to the
subject, the maximum aperture is reduced so
that a correct exposure will result. The reverse
(greater distance/greater aperture) is also true.
Figure 2-9 A Solenoid S2 operation
5. The shape of the pin on the walking beam si
such that once contacted by the cam interceptor it
remains latched in that position until solenoid #1
actuated during the next phase of the shutter
cycle. When the plunger on solenoid #1 pulls
in, the follow focus pin disengages from the
interceptor and the solenoid #2 plunger returns
to it original position under the force of the
interceptor hinge spring.
6. Since the photocell components are contained
within the shutter housing, they are included in
this discussion. A lens is employed to focus the
reflected light from the subject on the photocell.
A second pair of openings in the shutter blades
control the amount of light received by the cell
as previously described. A variable neutrality
density wedge system is employed to provide
lighten / darken adjustements. (Trim assembly).
The operation of this control differs slightly from
those used on other Polaroid cameras. When
the camera is folded, a cam on the shield of
the front cover strikes a release lever on the
lighten / darken assembly and returns the trim
adjusting wheel to its center (normal) position.
The trim wheel is automatically centered when
the camera is closed.
7. To compensate for any variations in individual
photocell characteristics, a neutral density filter
is selected and installed in front of the photocell
lens during assembly. A calibration must be
performed and a filter of correct density installed
any time the ECM requires replacement.
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G. FILM PROCESSING COMPONENTS
spring action, raises the Fresnel carrier. When
the recock rammoves, it opens S5 and then S3
at certain Fresnel carrier angles. Opening S5
stops the motor after it has made only a brief jog.
Opening S3 starts the «Y» delay : 40 milliseconds
delay which allows the Fresnel carrier to come
to rest after its travel. (This eliminates bouncing
caused by the sudden stop of the carrier on the
mirror cover.)
The basic theory of the film processing method
remains unchanged from previous Polaroid
system. That is , the developping chemistry is
encapsuled in a pod on each sheet of film and,
as the sheet is passed between rollers, the
pod is burst and the chemical spread evenly
between the negative and the mylar protective
cover. Except for this characteristics, no direct
similarities exist. The SX-70 camera employs a
uniqueprocesswhichtotallyeliminatesthe«throw
array» negative. The print is drawn through the
spread rolls by the motor drive system so that
no action need be taken by the operator. See
Figure2-10. Development takes place outside
of the camera and unaffected by ambient light
conditions. Since the end result is determined
when the picture emerges from the camera, no
time measurement si necessary. (Additional film
information is available on page 60 and 61 of
«The world of SX-70»)
At the end of the «Y» delay, power is removed
from solenoid #1, allowing the spring to open the
shutter for exposure, and moving S4 from CB to
CA position. When the proper exposure level is
reached, the photocell trips the Schmitt Trigger
(S/T) in the ECM which sends full power to
solenoid #1. This closes the blades and tranfers
S4 from CA to CB. As before, closing CB cuts
solenoid #1’s power from full to low, sufficient to
hold the blades closed; closing CB also signals
the electronics to start the motor.
The motor starts the gear train again, and this
time the cams cause a series of actions at
different position of gear train movement :
- it starts the pick which pulls the film into the
rollers (one of which is attached to gear train it
is this powered roller rotation that pulls the film
through and out of the camera);
- it stops the pick;
- it pulls down the Fresnel carrier, which in turn,
moves the counter to the next number;
- it moves the recock ram, closing S3 (resetting it
for the next cycle);
- it retruns the pick;
- it seats the Fresnel carrier so it is ready for the
next cycle;
- it moves the recock ram, closing S5, which
stops the motor;
- and it stops the spred action.
When S5 closes, it cuts power to the solenoid #1;
the spring opens the shutter blades, and S4 is
pushed from CB to CA. (The blades open only
if the operator releases the red button.) The
system is ready for a new exposure cycle.
Figure 2-10 Spread roller system
H. SEQUENCE OF OPERATIONS
The operator pushes S1, applying full power to
solenoid #1, which closes the shutter blades,
and pushed solenoid #1 against S4, changing it
from CA to CB. Closing CB cuts solenoid #1’s
power from high to low; low is enough to hold the
blades closed. Closing CB also signals the ECM
to start the motor. The motor starts the gear train
moving. The movement of a cam on cam on the
gear train releases the recock ram and, through
Springs are used in three of the operations
discussed above : holds the shutter blades open,
filps the Fresnel carrier up, and holds the pick at
the rest position.
As indicated, inserting a film pack causes
automatic action. This could, of course, be a
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partial pack : the top of the sheet of film would At the end of the flash delay (the blades at
be ejected as a dark slide and the counter would this point are open to the aperture dictated by
registrer «10». After the last actual sheet is focusing) power is removed from solenoid #2
used, the camera would still function until «0» and the discharge (flyback voltage) triggers the
is reached. If a flash bar were attached, and an flash circuit, firing the flash and starting the flash
unused bulb was available after the last film sheet time out interval (the fixed exposure time). If, on
was used, attempting to make another exposure early cameras, an ambient exposure has been
would fire the flash.
made, S/T-2 in the ECM receives the signal and
no flash or flash time out occurs.
The difference in the flash mode are :
At the end of the flash time out, the circuitry
energizes solenoid #1 which closes the blades.
if no flash has occured, caused by all the bulbs
having been used, no signal will be sent to
solenoid #1, and on early cameras an ambient
exposurewillbemade. IftheS/Thasnotcollected
sufficient light energy at the end of a fixed period
(20 seconds), the blades will automatically close.
On newer cameras, the exposure time remains
short and a black picture will result.
inserting a flash bar closes S2, which activates
solenoid #2 to move the interceptor into position.
This controls the shutter blades according to
focusing : the closer the subject the more light
from the flash will bounce back. Therefore, the
smaller the permitted aperture.
At the end of the «Y» delay, a flash delay circuit
is activated, and when S4 switches from CB to
CA, Ca sends power to the flash circuit. During
the fixed flash delay, the photocell and S/T are
operative , so that if enough light energy is
collected before the end of the flash delay, the
blades will be closed as in ambient picture.
However, on newer cameras («P» configuration
shutters), the flash will fire whether or not
sufficient ambient light si available.
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EXPOSURE / PROCESS
OPERATION SEQUENCE
●
●
●
●
S9 opens when previous pack removed
S6 closed during the erecting mode
S8 closed until film cover ejected
Gears between front cover and gear train
mesh as cover closes (3rd & 4th idler)
●
S7 closes during front cover closure
resulting in dark slide ejection after a
new pack inserted
AMBIENT
FLASH
●
S8 opens (counter set to 10)
S2 → Closed if flash array inserted
S1
S4 BC
S5
CLOSED BY OPERTOR
S1
S4 BC
S5
T - 0
Solenoid #1 power up
Shutter starts to close
Shutter close
S4 SWITCHES AC to BC
Cam rotates
Mirror released
OPENS
Solenoid #2 power up (S2 closed)
Motor braked
Cam stopped at 20°
Electronic latch ON
(S1 may be opened)
Mirror continue to rise
OPENS 26° 34°
S3
S3
Solenoid #2 power down
Y delay activated
Y Delay
40 ± 5ms
Mirror at rest
Flash delay FD circuit actived
End "Y"
POWER RELEASED FROM SOLENOID #1
End "Y"
S4 AC
Shutter starts to open
Switches power to falsh circuit (S2 closed)
S4 AC
S4 SWITCHES BC to AC
20 to 35 ms
20 to 35 ms
Starts integration ambient
Shutter at full open (f/8 16)
Solenoid #2 back onf (power off) triggers FF circuit
at the end of flash delay (FD); ST 2 shorted out; time
out interval FT initiated.
FF
FLASH
25 to 34 ms
Note 1. No flash fire signal if:
a- S9 closed (empty pack)
b- new pack inserted with array already
inserted (S8 function)
ST 2
EXPOSURE COMMAND SIGNAL COMPLETE
FT
Solenoid #1 power up
Shutter starts to close
Note 2.
A 25 to 34 exposure results if the array
does not fire
Shutter close
S4 AC/BC open
Removes power from flash circuit
S4 BC
S4 SWITCHES AC to BC
Motor starts
S4 BC
Fresnel starts down
Cam moves from 20° position
Solenoid #1 power down
20° - pick starts
45° - spread starts
50° - pick stops and latches
130° - mirror starts to recock
Mirror carrier starts to drive counter
S3
S5
S3
S5
CLOSES
260° - spread stops
325° - mirror is recocked, pick returns
345°
CLOSES
Electronic Latch off
Motor stops
(if S1 closed, Solenoid #1 remaing in power down)
Shutter opened (provided S1 is open)
Counter set to next position
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III - TROUBLESHOOTING
A. INTRODUCTION
B. INITIAL TESTS
The Sx-70 camera is an electronically controlled Do not make any arbitrary assumptions. An
device, the electronics being in the integrated assembly or component should be thoroughly
circuits (IC) mounted in the Electronic Control tested to determine whether or not it is performing
Modul (ECM) and Flash Fire Assembly (FFA) its function correctly. Complete the tests in the
in the shutter housing and in the Motor Control chart below.
Circuit (MCC) in the camera back. Because
the IC’s are non-reparaible items, there is no
requirement to trace faults whithin the integrated
circuits. It is mandatory, however, to be able to
identify the command inputs (switches open or
closed, etc.) and the resulting output signals.
The SX-70comprehensive Tester provides the
readouts necessary to confirm an exposure
malfunction; but thorough understanding of the
theory of operation is required if meaningful use
of the tester is expected. If a particular camera
function fails, it is necessary to recognize how
the failure is related to the operating sequence
of events and thus reduce testing procedures to
those related to the aera malfunction.
Because of the camera’s total automation, it
is unlikely that much useful guidance can be
obtained from customer complaints except
in cases of visible mechanical damage. For
this reason, a well defined series of checks,
observations, and tests must be followed. This
section of the manual defines these procedures.
Theprimarypurposeofanyfaultanalysisprogram
is to reduce the investigation time to a minimum.
Thus, it is not only important to establish a
fixed routine, but it is mandatory to acquire the
maximum amount of information from each step
of the checkout procedure. Use the charts at the
end of this section to guide through each step
of inspection, dynamic testing and post-repairs
tests.
Analysis of the SX-70 camera is a key part of
the complete repair task. If the analysis is done
correctly, it will eliminate excessive repair time
and high parts replacement cost. For instance,
initial evaluation may show the entire shutter
to be at fault; however, continuing analysis
determines that the problem is in solenoid #2,
which, when replaced reduces the materiel cost
considerably (from over 20 $ to under 2 $). The
repair person must always consider the labor vs.
material trade-off when making a repair.
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SX-70 CMAERA REPAIR INSPECTION PROCEDURE
A. FUNCTIONAL TEST
C. FINAL VISUAL
1. Perform light leak test.
1. Check optical path.
2. Check focus and trim wheel torque.
3. Check trim wheel reset ±2 teeth and front
cover to shutter gap.
4. Cycle camera 3 times at 5.0 and 6.4 volts
with power pack.
2. Fresnel cosmetics (per standards chart).
Split image.
3. Wafer and 3° eye lens.
4. Entrance and exit pupil position.
5. Focus camera at 8’ - performe aperture test D. SHUTTER COSMETICS
(see specification sheet).
1. Chrome
6. Ambient mode tracking at 3 lights levels
(note current drain) (see specification sheet).
7. Collimate at infinity.
2. Lens conditions
3. S1 button and photocell conditon - trim
wheel decal.
8. Flash mode tracking at 10.4’’ (see
specification sheet).
9. Check flash system
4. S1 remote and flash socket condition.
5. Shutter mounting screws (missing or
loose).
a. Flash sequence (with camera tester)
check counter rotation
E. CAMERA BACK
b. Flash on zero.
10. Inner frame bow ( +.004 to +.011)
1. Shade blade condition (scratched -
distorted).
2. Shade blade movement (gap between
blades).
3. Concave mirror condition (color code
refurbished only).
4. Repair techs scribe (data and repair center
code).
5. Gear train cover.
6. Bottom cover window and condition.
7. Cable cover - cable camp - cable restrainer
(conditon-position).
B. OPERATIONAL SEQUENCE
1. Check camera latching.
2. Erecting link (grinding).
3. Positive lock.
4. Check front movement and latch.
a. Check trim reset cam (correct cam and
condition).
b. Light shield (condition and movement).
c. Light piping seal.
d. Idler gear stacking.
8. Cable spring hook on.
e. Outpout gear slippage.
5. Check flash on dark slide power pack and
flash simulator.
6. Take flash pix at 10.4’’, check premature
dark slide.
9. Boot retainer tabs in place.
10. Cracked / broken hinges
11. Shutter hinge bracket pivots and gap
(.0125 max).
12. Leather and chrome cosmetics.
13. Set lens at infinity.
7. Check for dirty rollers and film catcher
spring.
F. PICTURE EVALUATION
1. Baffle in pix aera.
2. Cracked / dirty taking mirror.
3. Incomplete coverage (front cover related).
4. Color code and FTC label (refurbished
camera only).
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C. TEST EQUIPMENT OPERATION
Checkout the SX-70 camera requires the use of
several pieces of test equipment. The purpose of
this section is to instruct you in the proper use of
this equipment.
1. Powersupplyandpacksimulator(Figure3-1)
In use the system subsitutes for the film pack,
giving a steady, reliable source of power.
a. Plug the pack simulator into the power supply
being careful to observe polarity (ground is
negative).
b. Set the power supply switch to VOLTS and
turn the supply ON.
c. Adjust the output to the desired volatge (5.8v
normal).
NOTE : Except on Lafayette-made units, the
power supply mete is not adequate to set the
voltage. Use an external meter (VOM or VTVM)
to make this setting.
Figure 3-1 Film pack simulator and power suplly
Figure 3-2 SX-70 Collimator
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a. Collimation of the Split Image Viewing
System.
NOTE : If the collimator is not available, set the
focus wheel to infinity and look at a scene at least
200 feet away. Observe that the focus is sharp
within a tolerance of -1 tooth to +2 teeth beyond
the infinity setting of the focus wheel.
NOTE : If an early vintage collimator is being
used, a new adhesive backed label must be
added to the target in the position show in Figure
3-3.
(1) Remove the camera front cover and load
the camera onto the horn of the collimator
#321564 (Figure 3-2). (The collimator uses
a rear illuminated target so no additional
equipment is needed).
Figure 3-3 Location of new collimator target
(2) Turn on the collimator light
(3) View the added target with the focu wheel
set to infinity.
d. Set the power supply to the AMPS position.
b. Remove front cover from camera.
c. Insert the pack simulator into the camera
as you would a film pack (with the contact
down). Close the camera S7 switch using the
actuator.
(4) Compare the observed conditions with the
examples shown in Figure 3-4. As indicated
(best case), the upper part of the vertical line
should be aligned with the bottom part of the
line or it may be displaced to the right. (If
displaced to the right - acceptable -, it should
still be touching the lower part of the line.
2. Collimator (Figure 3-2)
When performing several of the Comprehensive
Tester checks, a requirement of the test is that
the camera lens be correctly collimated. For this
reason and because the lens can be checked
simply and rapidly, the collimation checks should
be done before Comprehensive Tester checks.
Collimation for the SX-70 camera is done on the
special collimator as indicated below.
(5) If the upper part of the line is displaced to
the right so far that it does not touch the lower
part of the line or if it is displaced to the left (out
of tolerance), the tolerance levels are exceeded
and the camera must be rejected. Corrective
procedures are outlined in Section IV.
b. Collimation of Non-Split Image Viewing
System
(1) Turn on the collimator light source.
Figure 3-2 Typical collimation conditions
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(2) Open the camera front cover slide the
camera onto the horn of the collimator. Make
sure that the camera is all the way on the horn
so that the camera is captured by the spring
latches.
(3) Swing the collimator infinity lens to its
vertical position. (Be sure the 8’ lens is not in
the viewing path.)
(4) Look into the camera viewfinder while
turning the focus wheel counterclockwise until
the image appears sharp. Look at the collimator
center target (top group of lines) and note the
number .63. This number and the lines should
have maximum clarity as the focusing wheel
reaches infinity.
(5) if the wheel stops before the focus is
sharp, make the following adjustment before
continuing with the collimation procedure.
Spring Loaded Idler Gears
(a) With the camera still on the colimator, slip
special tool #11939 over the lens and push it
in, toward the back of the camera. This will
disengage the idler gear from the focus wheel,
allowing the lens to be turned without affecting
the focus wheel.
(b) With the focus wheel still set it its infinity
position, look through the camera while turing
the lens. (This is done by maintaining pressure
on the tool.) While turning it, you will be able
to see the target through the opening in the
tool.
Figure 3-5 Disengaging the idler gear
(c) When the image is sharpest, release the
special tool to reengage the refocused lens to
the focus wheel. (Continue setp 6.)
(6) Verify the infinity setting. Do this by
observing the vertical line target through the
collimator infinity lens and the camera optics.
The line should be straight within the tolerance
in Figure 3-4.
Non Spring Loaded Idler Gears
(a) Remove the camerar from the collimator
(7) Swing the collimator infinity lens back down
to its horizontal position, out of the viewing path
of the camera. Turn the camera focus wheel to
the 10.4’ setting.
(b) Loosen the adjusting screw at the bottom
of the shutter housing so the idler gear no
longer engages the focus wheel and lens
barrel (Figure 3-5).
(c) Return the camera to the collimator and
adjust the infinity focus by rotating the lens
barrel while maintaining the infinity position
on the focus wheel.
(d) When the focus is sharpest, remove the
camera from the collimator and tighten the
adjustement screw. Returns the camera to the
collimator and continue with step 6.
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(8) Look through the camera and observe the interrelated units : the Comparalumen calibrated
vertical line target. Compare the observed ligh source, the electronics module, and the
image with Figure 3-4 to determine if the mounting horn or holding fixture. The purpose
camera is within specifications.
of both tester models is to check the dynamic
operating functions of the camera ( A detailed
description of the later tester is available in a
technical manual titled «Model B camea tester».
This section will deal only with the operating
instructions for the tester.)
NOTE : There is no separate close-focus
adjustement on the camera. if the focus
wheel has reached its stop before maximum
resolution is achieved, return to the infinity
check. If there is any tolerance at that setting,
readjsut the infinity setting as close as possilbe MODEL A CAMERA TESTER
to the focus wheel stopping point and recheck
the close focus. If it is still impossible to obtain
a sharp image, the lens is defective and the
shutter must be replaced.
a. Set-up
Before testing the camera, perform the following
set-up procedure.
(1) Calibrate the tester daily. Record the
calibration reading in a log. (If the test equipment
is suspected of poor performance, calibrate
more frequently and repair if necessary.)
NOTE : The foregoing tests assume that when
the camera is operated, the viewing mirror
(Fresnel carrier) reaches the correct attitude
during the exposure cycle. If the lens has been
correctly collimated, the only check possible of
actual picture definition is to expose film.
(2) Remove the front cover from the camera
(3) Set the L/D control to the mid-range position
usiong the trim reset cam and focus the camera
at infinity.
(4) using the S7 actuator, close teh s7 switch.
3. Comprehensive Testers (Figure 3-6 and 3-7)
(5) Allow the tester to warm up for a period of
30 minutes.
There are two models of Comprehansive Testers
available for semi-automatic testing of the SX-
70 camera. The earlier model, Comprehensive
Tester Model A, consists of three interrelated
units : the lightbox, the electronics module, and
the power supply (Figure 3-6). Comprehensive
Tester Model B (Figure 3-7) also consists of three
Figure 3-6 Comprehensive tester
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Figure 3-7 Model B Camera tester
b. Ambient mode exposure test
three times). The exposure readings observeted
must be within specifications.
(1) Place the S2 switch int he OPEN position.
Set the voltage to 5.8 volts
(9) Move the light level selector to 6.25. Repeat
steps 5 through 7. The reading must agree with
specifications.
(2) Set the light level selector to the desired 100
light level
(10) Move the light level selector to 800. Repeat
steps 5 through 7. All readings must agree with
specifications.
(3) Slide the camera over the horn on the tester.
The camera should go through the dark slide
(S8) cycle. If not, remove the camera from the
horn, determine the cause of failure, and correct
the dark slide operation. If the camera cycles
correctly, push the simulator flash plug all the
way down into the flash socket.
(11) Recycle the camera by removing it from the
horn and then reinstalling it on the horn. This is
necessary for the next portion of the testing.
(4) Read the current meter - it should read «0»
after the dark slide cycle.
c. Flash Circuit and S9 Mode Test
(1) Set 5.0 volts on the tester voltmeter. Set
light level at 6.25 and close S2.
(5) Press the exposure button and hold it
down while observing the exposure meter. The
readings must compare to the specifications
shown in the Standards paragraph at the end
of this section. (When the exposure is released,
the meters will automatically reset.)
(2) Press the exposure button. The numbere
one READY lamp will go off and the number the
number one FLASH indicator lamp will light.
(3) Press and release the exposure button four
more times. The READY lamps should go off
and the FLASH indicator lamps should light in
numerical sequence each time hte exposure
button is pressed.
(6) Observe teh BATTERY DRAIN meter. The
reading should be according to specifications.
This test applies only to the first exposure of
series.
(4) Press and release the RESET button on the
flash simulator assembly.
(7) Release the exposure button actuator. All of
the meters will reset automatically.
(5) Press and release the exposure button five
(8) Repeat steps 5 through 7 twice ( a total of
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more times. The READY and FLASH indicator
lamps should sequence as in step 3.
camera using a square of cardboard or other
material.
(6) On the flash simulator assembly, press and
release the RESET button.
(12) Depress the exposure button and observe
the APERTURE meter.
(7) Press the exposure button actuator. The
number one READY indicator lamp should
remain lighted and the number one FLASH
indicator should not light. (Checks S9.)
(13) Record the 8’ APERTURE reading and
compare it to the STANDARDS Chart.
(14) Remove the tape form the focus wheel
and rotate the wheel to the 10.4’’ setting.
(15) Set the flash mode aperture switch to
10.4’’.
NOTE : The toggle switches on the flash
simulator assembly can be used to simulate
normal or used flash lamps. By settinàg the
individual switches, partially exhausted or
deflective flash bars can be simulated.
(16) With the photocell still blocked, press the
exposure button and observe the APERTURE
meter.
(17) Record the 10.4’’APERTURE reading and
compare it to the STANDARD Chart.
d. Follow-Focus Test
(18) If the reading is high at the 8 foot setting,
and the needle goes off scale at the 10.4 ‘‘
setting, the interceptor mechanism is defective.
(See Section IV for repair/adjustment.)
The follow-focus test is used to determine
how well the shutter blade opening follows the
focusing of the lens in flash mode operation.
The APERTURE meter is used in this test.
It is calibrated in stops and when the test is
performed, it will indicate stops deviation from
the ideal design aperture. To perform the follow-
focus test, proceed as follows :
(19) If on scale readings are obtained for 8’
but the 10.4’’ reading is either high or low, the
interceptor can be adjusted. The problem can
be either the interceptor link or the interceptor
cam. (See Section IV for repair/adjustment.)
(1) Set the camera focus to infinity and the L/D
control to mid-range. Set the power supply to
5.8 volts.
(20) When repairs/adjustements, «interceptor
on Wrong Side of Stop Pin».
(2) Remove the front cover from the camera
and install the S7 switch actuator.
MODEL B CAMERA TESTER
a. Set-up
(3) Install the camera on the horn of the tester.
The camera should go through its dark slide
cycle.
(1) Be certain that the comparalumen light
source and electronics module are on a flat work
surface and plugged into separate 110 VAC
outlets.
(4) Remove the camera from the tester and set
it on the collimator.
(2) Plug the cable assembly from the horn into
the socket located on the front of the electronics
module.
(5) Swing the 8’ and infinity lenses into their
vertical positions on the collimator and look
through the camera.
NOTE : There is no warm up time required for
the Model B Tester components.
(6) Turn the focus wheel unti the vertical line in
the center target is straight (refer to Figure 3-4).
The camera is now collimated for the 8’ setting.
Tape the focus wheel so it can’t be accidently
moved.
b. Comparalumen Light Specifications
The following table shows the luminance levels
of various setting used for camera testing.
(7) Remove the camera from the collimator and
place it on the tester.
c. Ambeint Exposure Measurements
(8) Install the flash simulator plug into the
socket on the camera and close the S2 CLOSE
OPEN SWITCH
(1) Remove the front cover from the camera.
(2) Close the S7 switch using the S7 actuator.
(9) Set the light level selector to 800 cdls/ft².
(10) Set the flash mode aperture switch to 8’.
(11) Block any light from the photocell on the
(3) Set the L/D control to the mid-range position
using the trim reset cam and focus teh camera
at infinity.
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(4) Slide the camera fully onto the horn.
(3) Select the 800 cdls/ft² on the Comparalumen
and position the camera at the right-hand
screen.
(5) Select the light level desired on the
Comparalumen and slide the horn up against
the appropriate window. (Position the horn so
that the locating pad on the front of the horn
touches the window.)
(4) Rotate the RANGE switch to the 10.4’’
position.
(5) Place the EXPOSURE-APERTURE MODE
switch in APERTURE position.
(6) Insert a remote shutter release cable into
the socket on the right side of the shutter.
(6) Press the remote shutter trip button and read
the aperture in the relative stops, on the meter.
(7) Rotate the RANGE switch on the electronics
module to the SX-70 EXP position.
(7) Return the EXPOSURE - APERTURE
MODE switch to the center (RESET) position.
(8) Lift the EXPOSURE-APERTURE MODE
switch to the EXPOSURE position.
NOTE : If a meter reading goes off scale (greater
than +1 stop), press the +1 stop pushbutton
on the electronics module and read the meter,
adding +1 stops to whatever the meter is
indicating.
(9) Press the remote shutter trip button and
read the exposure on the meter.
(10) Return the EXPOSURE-APERTURE
MODE switch to the RESET position.
d. 10.4’’ Aperture Measurement
4. Light Leak Tester (Figure 3-8)
NOTE : This measurement must be preceded
by steps 1 throught of the Ambient Exposure Caution : When using the light leak tester, always
Measurement procedure, then complete the hold the fixture so the camera is in the uppermost
following :
position witgh the lens pointing down. There is
no latching device on the fixture and the camera
could slide off it the fixture were pointed down.
(1) Rotate the camera focus wheel to the 10.4’’
setting.
(2) Insert a used flash bar into the camera flash
socket and position the spring clip (supplied with The light leak tester consists of two checks : the
the tester) over the flash bar so the photocell is static test (with the camera in the mirror down or
covered.
viewing position) and the dynamic test (with the
COMPARALUMEN LIGHT LEVELS TABLE
800 cdls/ft²
100 cdls/ft²
-
-
Move the center switch on the Comparalumen to the right to
illuminate the right (high level) screen, No filters are used for the
800 cdls/ft² level.
Proceed as for the 800 cdls/ft² level, but insert both filters (one
stop down and two stops down) into the slot above the right
(high level) screen.
50 cdls/ft²
-
-
Move the center switch to the left to illuminate the left (low level)
screen. No filters are used for the 50 cdls/ft² level.
6.25 cdls/ft²
Proceed as for the 50 cdls/ft² level, but insert both filters (one
stop down and two stops down) into the slot above the right (low
level) screen.
NOTE : On some Comparalumens it has been found necessary to reverse the filters when used
to reduce the 50 cdls/ft² to 6.25 cdls/ft². In this case the filters are labeled so that the proper label
(100 or 6.25) must facing the operator when the filters are used.
Caution : To avoid possible delamination of the filters, do not leave the Comparalumen on at
100 cdls/ft² any longer than necessary. It should not be on any longer than the minute or two
needed to check the camera.
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Figure 3-8 Light leak test system
camera in the mirror up picture taking position).
(Both of these tests must be done in a darkened
aera.)
cycle completion and remove the fixture.
(4) Turn off the power.
(5) Repair any light leaks noted in the previous
testing. If light leaks reparis are made, retest
the camera.
a. Static tests
(1) Erect the camera and remove the front cover
assembly. Close S7.
5. Flash Simulator Board (Figure 3-9)
(2) Turn on the power supply and insert the light
leak fixture into the camera film compartment.
The camera should run through the dark slide
eject cycle.
TheFlashSimulatorBoardprovidesaquick, easy
method for checking the flash firing capability of
the SX-70 camera. Figure 3-9 shows the board
which contains five light emitting diodes (LED),
five resistors, and five toggle switches. Providing
the interface with the camera socket is a «hot
shoe» assembly which reduces wear on the
board contacts. Use the simulator as follows :
(3) Darken room.
(4) Press and hold the fixture trigger.
(5) Examine the camera from all angles, looking
for light leaks. Note the location of any light
leaks and continue below with the dynamic test.
(Leak are most likely at the hinge aera between
the inner frame and mirror cover and at the boot
tab aera).
a. Insure that all switchers are in the position
shown (down).
b. Insert a film pack or film pack simulator into
the camera. Operating voltage is 5.0V to 6.4V.
b. Dynamic tests
(1) Cover the photocell lens and trip the shutter.
With the photocell lens coveredn, the mirror
should stay in the raised (picture taking) position
long enough to perform the dynamic light leak
test, approximately 13 - 28 seconds.
(2) Press and hold the fixture trigger.
(3) Examine the camera for light leaks. Gently
flex the boot while looking for leaks. Note the
location of any light leaks. (You may see a small
amount of light in the aera where the boot joins
the shutter housing. This is light emanating from
the substrate and is normal.) Allow the camera
Figure 3-9 Flash simulator board
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c. Install the flash simulator board into the camera function tester ahs a built-in power supply. The
flashbar socket in the same way as a flashbar steps listed in paragraph b., Test, apply to both
would be installed .
units. Remember, if the shutter tests satisfactorily
at 5 volts, the test must be repeated at 6.4 volts.
d. Press the red exposure button, S1.
e. Observe that LED #1 flashes.
f. Flip switch S1 up.
Set up.
(1) Using a VOM, check for shorts on the shutter
before setting it on the tester. (Not necessary for
plastic base shutter.) Check between + and -
points on the substrate and the casting. There
must be no shorts.
g. Press the red exposure button.
h. Observe that LED #2 flashes.
i. Flip switch S2 up.
j. In like manner, continue pressing the red
exposure button and flipping the corresponding
switches up until all five lights have flashed.
(2) Set power supply to 5.0 volts. (If simulator
is being used, connect to power supply, set
supply to 5.0 volts and switch supply from
VOLTS to AMPS.)
k. Repeat step d. though j. The lights should flash
five more time.
(3) CLOSE tester switches : S2, S3, S5, F1
thru F5.
l. Press S1.
m. Observe that no light flashes. This confirms
proper operation of S9.
(4) OPEN tester switches : S1, S6/S7, S8, S9.
(5) Clamp shutter cable in the connector and
insert flash bar connector into the shutter FFA.
6. Manual Function Tester (Figure 3-10).
(6) Set shutter lens to 10.4’’ and trim wheel to
full dark.
NOTE : The Manual Fucntion Tester #11959 is
updated version of the Camera Back Simulator
#11775. The basic difference between the two
pieces of test equipment is that the simulator
relies on an external power supply while the
(7) Proceed with testing as indicated in table
below. If shutter tests ok at 5.0 volts, retest at
6.40 volts.
Figure 3-10 Manual camera tester
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MANUAL FUNCTION TEST SEQUENCE
Test Mode
Action
Shutter Response
S6/S7
Close S6/S7
No reaction (Blades open, motor off)
Press and release S1
button to check for
mechanical binding.
Observe current drain.
AMBIENT Exposure
Mode
Remove flash array from
shutter.
Close S1
Blades close; motor runs
Open S5
Blades close; motor brakes
Open S1
Open S3
Blades close; motor brakes (no reaction)
Blades open then close; motor runs (exposure
time dependent on amount of light to seen by
photocell)
Close S3
Close S5
Blades close; motor runs
Blades open; motor brakes
S8 Dark Slide eject mode
(Flash Array inserted)
Close S8
Close S6/S7
Open S5
Open S3
Close S3
Open S8
Close S5
Blades open; motor brakes (no reaction)
Blades close; motor runs
Blades close; motor runs
Blades close; motor runs; no flash
Blades close; motor runs
Blades close; motor runs
Blades open; motor brakes
Flash Mode - flash array
inserted into shutter
Close S1
Open S5
Open S1
Open S3
Blades close; motor runs
Blades close; motor brakes
Blades close; motor brakes (no reaction)
Blades open then close (small aperture) flash
fires; motor runs
Close S3
Close S5
Open F1 thru F5
consecutively, repeating
above test between each
switch opening.
Blades close; motor runs
Blades open; motor brakes
Bulbs fire insequence
S9 - Empty film pack
mode
Close switches F1 thru F5
Close S9
Blades open; motor brakes (no reaction)
Blades close; motor runs
Close S1
Open S5
Blades close; motor brakes
Open S1
Open S3
Blades close; motor brakes (no reaction)
Blades open then close (fixed time) no flash;
motor runs
Close S3
Close S5
Blades close; motor runs
Blades open; motor brakes
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Figure 3-11 SX-70 Viewfinder system
D. OPTICAL SYSTEM
Viewfinderqualityreferstothegeneralqualityand
alignment of the camera optics. For the user, it
can be precisely defined as the appearance and
clarity of the image as seen through the viewing
system (Figure 3-11). When a camera has poor
viewfinder quality, it is difficult to obtain a sharp
image.Certain parts of the field always seem out
of focus and the image lacks crispness, having
a hazy appearance usually in the vertical plane.
Since flash pictures are critically dependent on
accurate focusing, a poor viewfinder system will
make the taking of good flash pictures difficult.
«clicking» will be heard when the gage is
secure.
Failure Analysis Chart #5 will enable you to trace
most problems in the viewing system to their
source. Corrective actions are shown and where
they are complicated are presented in Section IV.
Presented here are several checks with require
greater detail than the charts provide.
1. Exit Pupil Test
a. Mount the exit pupil gage onto the camera eye
lens (Figure 3-12).
(1) Engage the left side gage rail on the eye
lens. (The right side is identified by a 3/4’’
horizontal slot.)
(2) Slowly slide the right side in place. A distinct
Figure 3-12 Installing the exit pupil gage
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lines (Figure 3-13).
d.Close one eye and view the exit pupil image
in the gage.
e. To be within acceptable limits, the pupil (a
bright circular image) must appear in the center
of the square opening in the face of the gage.
If the pupil is not in the center, adjust the optics
system according to instructions in Section IV
«Viewfinder Sytem».
2. Entrance Pupil Test
a. Set the focus wheel to 10.4’’.
b. Hold the camera at arm’s lenght, with the
taking lens toward you and a bright light source
behind the camera.
Figure 3-13 Aligning the exit pupil gage
(3) The mounting rails for the gage must be
flush with the eyelens frame. Check by holding
the bottom of the eyelens frame with the thumb
and apply slight pressure in the upper front of
the gage with the right index finger. The gage
should be secure.
c. Look through the taking lens, closing one
eye. Observe the entrance pupil in the lens.
d. Raise the front of the camera about 10°
and note two bright circles against a dark
background. Both circles should be verticaly
positoned ±.050’’ from the center as shown in
Figure 3-14 B.
NOTE :Aleft handed person may find it easier to
rerverse the mounting and securing process.
e. If the circles are not centered vertically (Figure
3-14 A), perform the erecting link adjustment in
Section IV.
b. Point the camera lens at a light source while
holding the viewfinder eyelens (with gage)
about18 inches away from your eye.
f. If the circles are displaced horizontally (Figure
3-14 D), make the side to side adjustment of the
Fresnel carrier which is included in Section IV.
c. Align the bottom of the viewfinder cap with
the horizontal white line on the front of the gage.
Center the eyelens supports with the vertical
Figure 3-14 Exit pupil images
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3. Concave Mirror Distortion Check
4. Fresnel Quality Check
a. Focus on a target which presents a clear The Fresnel screen must be examined for
vertical line (for example a door frame).
b. Scan the camera horizontally.
blemishes, shadows, dirt, scratches, etc. A
standards chart (Figure 3-16) is available for
determining whether the Fresnel being examined
is acceptable. Focus the camera to 10.4’’for
viewing the chart.
c. If the mirror is not distorted, the vertical line
seen in the eyepiece will vary at the camera is
scanned. At either side of the field, the line will
be bent while in the center of the field, the line
will be straight (see Figure 3-15 A).
a. First, view the Fresnel against the background
presented in Section I of the chart. Note whether
the defects (dirt, scratches, digs, etc.) are in the
A or B aera of the Fresnel.
d. If the mirror is distorted, the vertical lines
change more graphically as the image si
scannedandoneorseveralreversalsofdirection
of bending may occur (Figure 3-15 B).
b. Nest, compare any boot or mirror marks on
the Fresnel with the marks shown in Section II
of the chart. If the mark exceeds that shown on
the chart, the Fresnel is not acceptable.
e. A telephone directory page at a distance of
2 feet may be used to check distortion. The
white pages have high contrast, fine detail and
uniform printing.
c.ViewtheFrenelscreenagainstthebackground
of Section III on the chart. The conditions shown
on the chart are the maximum acceptable
limits for Fresnel defects. If the Fresnel being
examined has defects which go beyond those
shown on the chart, reject the Fresnel. (Note
that an illustrated listing on the chart is available
for comparison to Fresnel which have only one
or two blemishes.
f. The frame around the viewfinder may appear
non-sysmmetrical about the vertical axis. A
normal mirror will appear to be sysmmetrical
about the axis (Figure 3-15 C).
d. Examine any shading on the Fresnel against
the limits shown in Section IV of the chart. If
the shading extends beyond the aera (top or
bottom of the Fresnel) shown on the chart, the
Fresnel si not acceptable.
e. Examine teh split image circle by comparong
it against teh examples shown on the chart. If
the shading on the split is greater than shown or
if there is more than one dig, pit, stain, or scratch
on the split, the Fresnel is not acceptable. the
Fresnel must also be rejected if the blemish on
the split is larger than any shown on the chart.
5. Collimation
For the collimation procedure, refer to paragraph
D «Test Equipment Operation».
E. USE OF ANALYSIS CHARTS
The following charts should be used to identify
and correct faulty camera operation. It will
seldom be necessary to consult every chart. Only
those related to a particular malfunction should
be consulted. In some cases, the customer’s
complaintwillbesufficientlyspecifictoleadyouto
a particular chart. In other cases, the preliminary
inspection procedure at the beginning of this
section will provide usefull information to lead
Figure 3-15 Identifying distorted mirrors
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you to a chart. In all cases, the fault analysis used only after the shutter has been unsoldered
charts present the logical sequence of checks from the camera. If repairs and/or replacements
and remedial procedures. These charts are are indicated, the procedures are described in
divided into three parts :
Section IV.
- one,(CAMERAANALYSIS)forproblemanalysis
when the camera is completely assembled
- two, (OPTICAL ANALYSIS) for analysis of the
viewfinder parts
- three, (SHUTTER ANALYSIS) for detailed
shutter analysis.
The SHUTTER ANALYSIS charts should be
Figure 3-16 Fresnel standards chart
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Figure 3-18 Flex circuit terminal locations
1. Camera/Shutter Isolation
NOTE : One 10 pad flex circuits, these are the
TP6 and TP30 terminals. One 8 pad circuits,
these are TP4 and TP21 terminals. One 7 pad
flex circuits, where the PNP pad is eliminated,
the NPN terminal is located directly adjacent to
the VCC terminal. Refer to the inserts in Figure
3-17 to locate the proper terminals.
To expedite the repair procedure, it is essential
that the malfunction be isolated to either the
camera back or the shutter as early as possible
in the troubleshooting procedure. The sequence
should not be considered inflexible, however.
c. Close S6 and S7 and apply power :
a. Disassemble the camera to the point where
the terminals on the flex circuit are accessible
(Figure 3-17).
(1) If the camera cycles, the motor and MCC
are OK and the shutter is defective.
(2) If the camera fails to cycle, check the motor
and MCC by continuing below.
b. Tack solder a 1000 ohm, 1/2 watt resistor
across the VCC and NPN terminals as shown.
(This procedure does not apply to mid-cycle
shutdown. Refer to the Failure Analysis
Charts.)
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d. With the 1000 ohm resistor still in place,
connect a jumper wire between the motor
(minus TP9 contact) and the battery (minus
TP1 contact) for a moment :
(1) If the motor runs, the MMC is defective.
(2) If the motor does not run, the motor is
defective
e. Remove the jumper immediatly after
determining the fault aera.
2. Camera Analysis Charts
Once familiarity with the system is gained, repair
people can rely on the failure analysis charts to
troubleshoot camera problems. When the charts
lead you to a repair procedure, refer to Section IV,
Repairs and Adjustments for the necessary
information. Set up the test equipment as shown
in Figure 3-18. The film pack simulator is inserted
into the camera and the negative lead from the
VOM is connected to camera ground through
the power supply. This allows all the tests to be
completed simply by moving the VOM lead as a
probe from point to point. Figure 3-19 will assist
you in locating the test points or terminals called
out.
Figure 3-18 Testing instrument connections
Figure 3-19 Test points on SX-70 shutters
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IV - REPAIR AND ADJUSTMENTS
3.Applypressuretothesideofthecoveradjacent
INTRODUCTION
to the cover hing aera. Press toward the gear
train side of the camera. This will release the
front cover. On newer models, detach the front
cover from the right side (gear train side) only.
This section of the manual is primarily devoted
to disassembly/reassembly procedures. These
procedures provide step by step instructions
aimed at guiding the technician through
the intricacies of SX-70 camera repair. The
procedures cover such things as replacement
of improper linkages or connections, repair of
electrical malfunctions, and adjustments needed
to return the camera to proper operation.
4. inspect and clean the rollers and gears with
a Q-tip moistened in water. If film developer is
observed under the light shield or in the film
catcher spring aera, the front cover housing
must be repaced.
5. If necessary, as described above, replace the
front cover housing and test.
It should be stressed that these procedures are
intented to serve as guides for the experienced
repair technician. Except where noted otherwise,
the actual repair procedure to be used is left
to the discretion of trained personnel. Their
combination of training and experience should be
sufficient to allow repair personnel to make on the
spot judgements a to the best method of repair.
A major factor which must be considered is the
trade-off between time and cost materials. If the
repair is easy and feasible from a cost viewpoint,
it should be made. Otherwise, replacement of a
part or sub-assembly is the proper choice.
6. If the spread roll assembly is to be removed,
strip the leather from the cover. (Start pulling
the leather from the back and pull toward the
film exit. Do not start at the film exit.) Take out
two screws which secure the spread rollers to
the inside of the front cover, and remove the roll
assembly from the cover.
Installation
1. Position the spread roll assembly in the front
cover so that the gears will mate with the main
gear train when the cover is in place.
2. Install and tighten the two retaining screws
used to secure the rolls.
There is one other general note that pertains to
SX-70 camera repair. Occasionally, screw holes
in the plastic become stripped. This is most apt to
occur in the counter mouints, the motor mounts
and where the rear upper inner frame meets the
outerplate. To make an effective repair when
this happens, replace the original screw with an
oversize screw or insert a thin sliver of plastic
into the stripped hole before the original screw
is returned.
NOTE : A new sefl-tapping, square socket
head, coarse thread screw, PIN 705564 is
used to effect a repair of stripped thread in the
front cover assembly when installing a spread
system assembly. If the hole was stripped
during disassembly, the new screw will permit
easy reassembly. (This screw is standard on
newer cameras.)
A new square screwdriver tool bit. PIN 11867, is
available from Waltham Parts Dept.
A. FRONT COVER/SPREAD ROLL ASSEMBLY
3. Position the front cover housing on the camera.
The spread rolls in the SX-70 camera are gear
driven by the main gear train. Thus, in addition
to wear or damage to the rolls, it is possible to
encounter wear and/or damage to the drive gear.
Regardless of the nature of the malfunction,
the complete assembly must be replaced. The
following paragraphs describe the replacement
procedure.
4. Install the decorative leather covering. Make
sure the film exit is not covered by the leather.
5. Install the front cover by squeezing the sides
of the cover just enough to engage the hinge on
the pivot points of the bottom plate.
6. Close the cover and check the camera for
proper operation.
NOTE : If mishandling or dropping of the
camera causes breakage of the extruded metal
studs used to secure and pivot the front cover,
no repair is possible. Must replace the inner
camera back assembly.
Removal
1. Erect the camera to picture taking configuration.
2. Open the front cover by depressing the front
cover release latch on the right side of the
camera bed.
Figure 4-1 illustrated the studs mentioned.
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Figure 4-1 Front cover hinge studs
Repairs / Adjsutments
1. Loose Front Covers
Some cameras have been detected with loose
front covers due to improper latching. This
problem occurs when the «knife edge» of the
front cover latch is not firmly, and/or correctly
seated in the latch retainer, thereby causing
excess «play» between the latch and retainer.
To resolve this problem, perform the following
procedures :
Figure 4-2 Comparison of spread roll brackets
a. Confirm that problem is not caused by loose
screws on the spread system assembly by
closing the front cover, and, while rocking it
slightly, observing for excessive play.
(4) Close the front cover and recheck; bend
further if necessary.
(5) With the front cover open, observe for a
b. Two vendors produce the spread system
assembly bracket (Figure 4-2). One vendor,
Ramcel, makes the bracket with a retainer aera
which is not bent. The other vendor makes the
bracket with a bent retainer aera. Most of the
loose front cover problems occur with the bent
retainer aera. Therefore, a simple solution is to
replace the front cover or a spread system sub-
assembly with one containing a Ramcel spread
roller bracket. However, before doing this, try
the repair procedure called out in paragraph c.
below. (Do not scrap the original front cover
since it is still usable on other cameras.)
rd
clearance between the latch and the 3 idler
gear.
(6) Observe that the stop pin (Figure 4-3) is not
resting on the outer plate when the front cover
is closed. When resting on the outer plate, the
latch/front cover closing system will loosen
from wear in a short time. Make the following
observation :
● Open the front cover and note the location
of the front cover latch decal (arrow).
● Close the front cover & note the decal
location. The decal arrow should be closer
to the bottom cover (Figure 4-4). If not, it is
an indication of front cover looseness which
should be corrected.
c. IfaRamcelbracketfrontcoverisnotavailable,
use the following procedure to correct the loose
front cover.
(1) Open the front cover.
(2) Remove the gear train cover.
(3) With the la tch depressed, use needle-nose
pliers to bend the knife edge of the latch inboard
(away from the front cover) slightly less than
90°, as shown in Figure 4-3.
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Figure 4-3 Bending the stop latch
Figure 4-4 Comparison of decal before and after front cover closure
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1. Interference Between
Front and Bottom Covers
When making any repairs requiirng replacement
of either the spread system or the front cover
assembly, replace the old spread system with
a new one. If you install a new spread system
in an old front cover, you must remove the light
seal before installing the new spread system.
The new light seal is adhered directly to the
spreader before the spreader is installed in the
front cover.
A few cameras may have an interference fit
between the S7 actuator post and the edge of
the bottom cover when the front cover is opened.
The problem has been traced to slightly oversize
bottom covers. Problem bottom covers have a
mark «PP 2½».
One method of correction is to bias the bottom
cover and front cover away from each other to 4. Replacing the Light Shield Cam
the limit of the screw holes. In an extreme case,
you may be able to grind the required clearance A manufacturing change to the Trim Assembly
from the S7 actuator post in the front cover.
was made to overcome erratic action. Part of this
change was to revise the cam on the light shield.
(This cam resets theTrimAssembly each time the
camera is closed.) Figure 4-6 compares the old
shutter and cam with the new shutter and cam.
The cam on the light shield of the front cover has
been made wider and deeper. The tang of the
Correction of this interference problem should
only be at customer request since the problem
diminishes with use.
1. Top Spread Roll Looseness
There have been instances of the top spread roll trim reset lever (shutter) is now a flat bar about
poppingoutofthespreadsystem.Toeliminatethe 1/16 of an inch wide and appears off center. It
problem, the new spread rolls have a cap welded is a brass or flat black color. (All replacement
on the end opposite the drive gear (Figure 4-5). shutters will be the new type.) The improved
The cap captures the spread system frame.
shutter will also have a cut out aera larger and
squarer in shape than the older version.
Figure 4-5 New spread roll configuration
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B. MIRROR COVER / BOOT ASSEMBLY
The mirror cover assembly consists of the mirror
cover, the boot, and the viewing mirror. Because
ofitsconstruction, tiisnotfeasibletodisassemble
the mirror cover assembly itself and, therefore,
whenever one of its major components fails the
entire assembly is replaced. The mirror cover
could sustain damage in the form of cracks or
broken hinges, or overall distortion. The boot
could be cut, torn and damaged by wear. The
mirror could be loose or displaced in its mounts,
broken, or its surface damaged beyond cleaning.
Should any of these faults be evidenced, replace
the assembly.
NOTE : On older cameras, a coding system is
used to match Fresnels and mirror covers. When
changing mirror cover and Fresnel assemblies,
correct color coding must be employed to prevent
unacceptable tolerance buildup. This is usually
demonstrated by difficult cloding the camera,
etc. The chart below shows the color codes to
be used : a red coded Fresnel goes with either a
red, yellow, blue or white mirror cover; not with a
green mirror cover. The choice should be the first
in order of the chart. Red first, yellow second, etc.
The color code is located on the mirror cover, on
the underside, upper right-hand corner, viewed
as if holding the camera to take pictures. On the
Fresnel assembly, it is marked on the protective
paper at the point where the adhesive seals the
paper around the Fresnel.
Figure 4-6 Front cover light shield cam
When a new type shutter is installed, the cam in
the light shield must be inspected and changed
if necessary. The new cam should be installed
in the same place and manner as the old cam
(Figure 4-7). Remove the old cam uising an
x-acto knife to cut the plastic rivets. Place the
new cam in the same position, making sure the
cam lip goes over the edge of the light-shield as
shown, and the pins through the four holes. When
assembled, apply heat enough to peen over the
ends of the pins projecting through holes - thus
staking the unit in place.
COLOR CODES USED WHEN CHANGING
FRESNELS AND MIRROR COVERS
MIRROR COVER
If new cam are not available, it will be necessary
to install a new front cover assembly.
Fresnel
● Red ●Yellow ● Blue ●Green ●White
● Red
● Yellow
● Blue
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
● Green
● Black
Newer cameras employ a universal Fresnel/
Mirror cover assembly. No matching of coded
parts is necessary.
Removal
1. Erect the camera to picture-taking configuration.
2. Open and remove the front cover.
3. Remove the decorative leather covering from
the bottom cover.
Figure 4-7 Replacing light shield cam
4. Remove the four bottom-cover retaining screws.
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5. In the following step, the bottom cover will be 8. Remove the four shutter housing retaining
removed. To prevent damage to the flex circuit, screws from the rear of the shutter mounting
insert a thin strip (a small, metal, six-inch pocket hinge bracket (Figure 4-9). (Check for square
scale, for example) between flex circuit and the head or Bristol head screw. Replace with same
inside cover surface. Move the tool from one type.)
locating stud to the other as the cover is being
Caution : While the shutter is detached from the
removed to prevent sticking to the flex circuit.
mounting bracket, make sure no mechanical
6. Lift the cover a small distance away from the
stress is put on the ribbon cable.
camera, then slide the cover from the assembly.
9. Remove the two hinge-bracket-to-boot-
7. remove the inner-frame-to-boot-retainer
retainer screws located adjacent to the round
screws (Figure 4-8).
lens opening in the shutter hinge bracket. (Newer
cameras have rivets which must be removed.)
Figure 4-8 Boot retaining screws
Figure 4-9 Shutter mount retaining screws
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