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CCD Scanner 81
Contents
General Description .......................................................................... 1
Data Processor Box .......................................................................... 3
Power Supply PCB ........................................................................ 4
Data Processing Module................................................................. 5
New Pins Solenoid and Cycle Link............................................... 17Cycle Link Operation............................................................. 19Adjustments........................................................................... 21
AMF Third Ball, Tenth Frame/No Tap Relay................................ 34AMF 82-30 Pinspotter ........................................................... 34AMF 82-70 and 82-70 SS Pinspotters ................................... 34
Brunswick A-2 Pinsetter Scoring Sequence of Events .................. 36
First Ball ...................................................................................... 36
Second Ball.................................................................................. 37
First Ball Foul............................................................................... 38
Third Ball, Tenth Frame................................................................ 39
No Tap Cycling............................................................................ 40
Brunswick GS-10/GS-92 PinsetterScoring Sequence of Events ............................................................ 41
First Ball ...................................................................................... 41
Second Ball.................................................................................. 42
First Ball Foul............................................................................... 43
AMF Pinspotter Scoring Sequence of Events ................................ 44
First Ball ...................................................................................... 44All Models ............................................................................. 44
Second Ball.................................................................................. 45All Models ............................................................................. 45
First Ball Foul............................................................................... 46All Models ............................................................................. 46
Third Ball, Tenth Frame................................................................ 47AMF 82-30, 82-70, and 82-70 SS Pinspotterwith Version 1.35 or Higher CCD Software............................ 47AMF 82-70 and 82-70 SS Pinspotterswith Version 1.31 and 1.32 CCD Software ............................. 48
No Tap ........................................................................................ 49AMF 82-30, 82-70, and 82-70 SS Pinspotterswith Version 1.35 or Higher CCD Software............................ 49
General DescriptionThe CCD (charged-coupled device) Scanner is an electrical/optical deviceused to count standing pins. The scanner uses a camera, a ball detect, adata processor box, and special pinsetter modifications to properly countpins. Refer to the figure titled CCD Scanner Camera and DataProcessor Box.
(3)DATA
PROCESSOR BOX
(2)BALL DETECT
CCD Scanner Camera and Data Processor Box
(1) CCD SCANNER CAMERA (2) BALL DETECT (3) DATA PROCESSOR BOX
The camera is mounted in the center of a lane pair over the ball return so thecamera lens is 156" from the center of the last row of pins. Refer to the figuretitled CCD Scanner Location. The camera uses a wide angled lens to take a“picture” of the pit area of both pinsetters. The picture is then analyzed by theData Processing Module. During the analysis, a portion of the picture isexamined for “bright spots.” Each “bright spot” found in this portion is furtheranalyzed to determine the height or size of the spot. Once the size of the spotis determined, the scanner refers to its stored calibration to decide which pincaused it. (The closer a pin is to the camera, the larger its “bright spot.” Eachpin will therefore have a uniquely sized “bright spot.”) This information is thensent through the Pinsetter Interface Box to the Lane Group Processor (LGP)where it is processed.
To provide the timing required, a ball detect is located by the scanner to ensurethat the scanner scores only after a ball has been thrown. In addition, add-onpinsetter switches are used to ensure that the picture is taken at the propertime during the pinsetter cycle.
Alignment of the scanner camera is accomplished by using a scanner testerconnected to the Data Processor Box.
2 CCD Scanner
CCD Scanner Location
(1) CAMERA LENS
The CCD Scanner consists of the following components:
1. Camera - The camera is responsible for taking a picture of the pit areaof both pinsetters with a wide angle lens and sending the information tothe Data Processor Box for evaluation.
2. Data Processor Box - The Data Processor Box contains two printedcircuit boards (PCBs): the Data Processing Module and the PowerSupply. The Data Processing Module receives information from thecamera and sends it to the Lane Group Processor (LGP). The scoringprocess begins when the module receives a signal from the ball detect.As the pinsetter cycles, switches on the machine are activated which tellthe Data Processing Module to count the number of standing pins asseen through the camera lens. It is at this time the module sends the pincount to the LGP.
3. Ball Detect - The ball detect is an infrared device that senses when aball has been thrown. The signal from the ball detect tells the DataProcessor to begin the scoring cycle.
4. Pinsetter Modifications - Switches added to the pinsetter to makesure the camera takes the picture at the proper time during the pinsettercycle. Also additional components may be added to allow specialpinsetter cycles for fouls, No Tap, and 3rd ball 10th frame situations.
5. Scanner Tester - A video display unit attached to the Data ProcessorBox via an external connector. The tester is used to check or align thecamera.
CCD Scanner 3
Data Processor BoxThe Data Processor Box is the “brain” of the scanner. It contains twoprinted circuit boards to accomplish all the functions of the scanner: aPower Supply PCB and a Data Processing Module. Refer to the figuretitled CCD Scanner PCBs.
CCD Scanner PCBs
(1) CCD DATA PROCESSOR BOX (2) POWER SUPPLY PRINTED CIRCUIT BOARD (3) DATA PROCESSING MODULE
4 CCD Scanner
Power Supply PCB
The Power Supply PCB is responsible for supplying the Data ProcessingModule with all the power necessary to operate the CCD Scanner. It containsa transformer to reduce incoming 28 VAC (volts alternating current) from thePinsetter Interface Box, as well as voltage regulators to regulate power to theData Processing Module. The incoming power is protected by a 4A (amp)fuse labeled “F1.” Refer to the figure titled CCD Scanner Power SupplyPCB.
CCD Scanner Power Supply PCB
(1) F1 INPUT POWER FUSE (2) J1 28 VOLTS ALTERNATING CURRENT INPUT (3) J2 DIRECT CURRENT OUTPUT(4) TX1 TRANSFORMER (5) VOLTAGE REGULATORS
The Power Supply PCB consists of the following components:
(1) Input Power Fuse (F1) - A 4 amp main power fuse.
(2) 28 VAC Input (J1) - Connector for input voltage from the SecondaryConsole's 28 VAC transformer. The 28 VAC is wired through thePinsetter Interface Box.
(3) DC Output (J2) - Output power to the Data Processing Module.
(4) Transformer (TX1) - Step-down transformer used to reduce incoming28 VAC to necessary voltage levels for use at the Data ProcessingModule.
(5) Voltage Regulators (VR1, VR2, and VR3) - These voltage regulatorssupply steady +15V, -15V, and +5V for the Data Processing Module.
CCD Scanner 5
Data Processing Module
The Data Processing Module is the brain of the CCD Scanner. It receivesinformation from the scanner camera and sends it to the scorer console. Referto the figure titled CCD Scanner Data Processing Module.
CCD Scanner Data Processing Module
(1) BALL DETECT INPUT (J5) (2) CAMERA POWER (J901) (3) CLOCK (J101)(4) DATA LOGGER (J502) (5) FOUL INPUT (J6) (6) GAMESETTER INPUT (J65)(7) LED BAR DISPLAY (U705) (8) LEFT PINSETTER INPUT/OUTPUT (J8) (9) POWER SUPPLY (DC INPUT) (J19)
(10) RIGHT PINSETTER INPUT/OUTPUT (J9) (11) TO SCORER PINSETTER INTERFACE (J67) (12) SETUP SWITCH (SW701)(13) TEST SET (SCANNER TESTER) (J501) (14) VIDEO IN (J201) (15) SWITCH SETUP FOR TEN PIN
BOWLING WITH BRUNSWICKA-2 PINSETTERS AND FRAMEWORX(REFERENCE TEXT FOR ADDITIONALSETUPS)
6 CCD Scanner
The scoring process begins when the module receives a signal from the balldetect. As the pinsetter cycles, switches on the machine are activated whichtell the Data Processing Module to count the number of standing pins as seenthrough the camera lens. It is at this time the module sends the pin count to theLGP via the Pinsetter Interface Box. In the event the module receives a foulsignal from the Tel-E-Foul unit, the module will send an "F" in place of the pincount.
There are no adjustments on the Data Processing Module. All adjustments aredone on the camera itself or through the Scanner Tester. The only setupnecessary on the Data Processing Module is the setting of switches on SW701.
The Data Processing Module consists of the following components:
(1) Ball Detect Input (J5) - Signals from both the left and right lane balldetects enter the PCB through these connections.
(2) Camera Power (J901) - Connector for DC power to the scannercamera.
(3) Clock (J101) - Connection for the clock signal sent between the DataProcessing Module and the scanner camera.
(4) Data Logger (J502) - Not used.
(5) Foul Input (J6) - Signals from the Tel-E-Foul unit enter the PCBthrough these connections.
(6) Gamesetter Input (J65) - Connection for the Brunswick GSPinsetters. (Not used with the Frameworx Scoring Systems.) Thisconnector is removed on most PCBs.
(7) LED Bar Display (U705) - A ten segment light-emitting diode (LED)bar display used for diagnostics and troubleshooting. In normaloperation, all LEDs should be off. If any LED is on, calibrate thescanner through the Scanner Tester and power down the scanner.Typically if LEDs 1, 2, or 3 remain on, recalibrating the scanner willcorrect the problem. When LEDs 4-10 (or any combination thatincludes any of these LEDs) remain on, the problem typically is causedby a bad data processor box, bad camera, or faulty cabling between thetwo.
(8) Left Pinsetter Input/Output (J8) - Connection for signals comingfrom the left (odd) pinsetter. Signals for the “take data” and 0° switches,second ball, and New Pins Solenoid control enter the PCB here.
(9) Power Supply (DC Input) (J19) - Input power from the Power SupplyPCB.
CCD Scanner 7
(10) Right Pinsetter Input/Output (J9) - Connection for signals comingfrom the right (even) pinsetter. Signals for the "take data" and zerodegree switches, second ball, and New Pins Solenoid control enter thePCB here.
(11) To Scorer (Pinsetter I/O) (J67) - Connection for all communicationsto and from the LGP (via the Pinsetter Interface Box).
(12) Setup Switch (SW701) - Used to determine the type of console, type ofpinsetter, and type of scoring system the scanner is connected to. Theswitch settings are determined by the software version installed.Reference the tables titled Software Version 1.30 and Prior, SoftwareVersion 1.3 and 1.32, and Software Version 1.34 and 1.35 for propersettings.
NOTE: Before changing any switch setup the power must be removedfrom the data processor box. Refer to J1 28 VAC Input on the PowerSupply PCB.
(13) Test Set (Scanner Tester) (J501) - Connection for an externalconnector to the Scanner Tester.
(14) Video (J201) - Connection for the video image coming from thecamera.
8 CCD Scanner
CCD Scanner Module DIP Switch Setup
Switch # Function Setting
#1 Host Type #1ONOFF
(Factory Use Only)Automatic Scorer
#2 Trigger Type #2ONOFF
All Installations(Factory Use Only)
#3,#4,#5 Pinsetter Type #3ONOFFONOFFONOFFONOFF
#4ONONOFFOFFONONOFFOFF
#5ONONONONOFFOFFOFFOFF
A-2, AGS-10/GS-92AMFA-2, Double DetectA (90° Overtravel)BowlerVision with A-2UndefinedUndefined
NOTE: Anytime the switch setup is changed, the scanner must becalibrated through the Scanner Tester. In addition, the scanner must bepowered down prior to changing the switch position.
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CCD Scanner 11
Back View of CCD Camera
(1) CLOCK (2) CAMERA POWER (3) VIDEO OUT
Camera Assembly
The CCD Camera takes a picture using a wide-angled lens. This information issent to the Data Processing Module through the video cable. A clock, locatedon the Processor PCB, ensures that the camera sends the information at theproper speed. The Processor PCB supplies the camera with power to operate.The figure titled Back View of CCD Camera shows the connections to thecamera.
Scanner Tester Connector
The CCD Scanner provides an external connector for the Scanner Tester.Two LEDs on the connector bracket indicate whether the scanner has powerand whether the scanner start-up tests that are performed at power-up passedwithout problems. Refer to the figure titled CCD Scanner Tester Connector.If the diagnostic LED remains “off” check the LED bar display located on theData Processor PCB to determine which LEDs are “on”.
CCD Scanner Tester Connector
(1) POWER LIGHT-EMITTING DIODE (2) DIAGNOSTICS LIGHT-EMITTING DIODE (3) CCD SCANNER EXTERNAL(SHOULD BE “ON”) (SHOULD BE “ON”) CONNECTOR FOR SCANNER TESTER
12 CCD Scanner
Ball DetectThe CCD Scanner uses a ball detect that is an infrared sensing device. Theball detect is made up of two infrared transmitters and receivers, one for eachlane. Within each lane unit there are two lenses, one to focus the transmittedinfrared beam toward the retroreflector on the opposite side of the lane, andone to focus the return light from the reflector onto the infrared receiver. Ared indicator LED turns on when the infrared beam is blocked. Refer to thefigure titled CCD Scanner Ball Detect and Lens.
The Ball Detect Assembly uses an infrared light which cannot be seen withoutan optical aid. Therefore, it has a red indicator light on the face of the unit thatwill light when insufficient infrared light is reflected back to it. Refer to thefigure titled CCD Scanner Ball Detect and Lens.
To center the infrared beam on the reflector, use the following steps:
1. With power on to the CCD Scanner, cover the reflector so the redindicator light on the ball detect unit comes on.
2. Using another reflector, start above the covered reflector and slowlymove the second reflector down toward the first while holding it squareto the ball detect unit. Continue to move it downward until the red lightgoes out. Note the position of the second reflector. Refer to the figuretitled Adjusting Reflector.
(2)MOVE REFLECTORDOWNWARD UNTIL
RED INDICATOR LED ONBALL DETECT GOES OUT(1)
COVER REFLECTORSO RED INDICATOR
LED ON BALL DETECTCOMES ON
Adjusting Reflector
(1) COVER REFLECTOR SO RED INDICATOR (2) MOVE REFLECTOR DOWNWARD UNTILLIGHT-EMITTING DIODE ON BALL DETECT RED INDICATOR LIGHT-EMITTING DIODECOMES ON ON BALL DETECT GOES OUT
3. Repeat the same procedure but start below the covered reflector (in theball gutter) and move up until the light goes off. Note that position.
4. Repeat the same procedure starting from the left of the coveredreflector and then from the right until you have located the relativeposition of the infrared beam.
5. If the beam is not centered on the covered reflector, it can be adjustedwith the three adjustment screws on the face of the unit. Reference thefigure titled CCD Scanner Ball Detect and Lens. The top screwmoves the beam up and down. A clockwise turn moves the beam down,while a counterclockwise turn will move it up. The side screws willmove the beam left to right.
6. After each adjustment, recheck the beam's location with the secondreflector and procedure detailed above.
14 CCD Scanner
Brunswick A-2 Pinsetter Modifications
Switch Cluster
The Switch Cluster is a metal plate containing switches and cams that aremounted on the detector and is engaged to the detector 1:1 gear. The nylongear that drives the cam shaft turns the cams which are timed to close theswitches at proper times during the pinsetter cycle. Refer to the figure titledBrunswick A-2 Pinsetter Switch Cluster.
44o/144o Switch (�Take Data�)1. This switch closes twice every pinsetter cycle. The first switch closing
will cause a “take data” signal when the deck is approximately 1" (44°)above the pins if the pinsetter is on first ball.
2. The second switch closing will cause a “take data” signal at 144° whenthe rake is approximately 10" from the no. 1 pin if the pinsetter is onsecond ball.
3. The switch is also used during special pinsetter cycles to energize theNew Pins Solenoid during the first ball foul or No Tap cycles so anystanding pin(s) will be swept away.
0o Switch1. The 0° switch closes once each pinsetter cycle. It is used to reset
memory on the Data Processor PCB and allows the Data Processor toaccept the ball detect signal.
2. Energize the New Pins Solenoid at the end of the first ball and third ballfouls, tenth frame cycles so that the bowler will have a second ball shot.
CCD Scanner 15
Adjustments
The Switch Cluster contains three switches. Two of these switches, the 0o andthe 44o/144o, monitor the pinsetter to provide timing information for properscoring. Correct adjustment of these switches is necessary and must bechecked after clutch adjustment, detector repair, or any other change to thetiming of the pinsetter. The third switch is used only for timing of the balldirector on the Systems 2000 Ball Rack and is no longer used.
0o SwitchThe lobe of the inside cam on the Switch Cluster must actuate the 0o switchwhen the pinsetter is at 0o. Refer to the figure titled 0° Switch Adjustment.
0o Switch Adjustment
(1) OLD CONFIGURATION (2) NEW CONFIGURATION (3) .025" OVERTRAVEL AT TOP OF LOBE(4) 0º SWITCH (5) ACTUATE HALFWAY UP LOBE (6) MARK ON LOBE
Adjusting the cam is done by removing the Switch Cluster Assembly from thedetector's 1:1 gear and repositioning the cam to actuate the 0o switch. (Thepinsetter must be at 0o.) To adjust the switch perform the following steps:
1. Remove the switch cluster from the detector.
2. Position the cam and switch so the switch is activated half way up thefront edge of the lobe. Reference the figure titled 0° SwitchAdjustment. An overtravel dimension of .025" is necessary at the top ofthe lobe to prevent damage to the switch. (On cams with a long lobeduration, the switch should be actuated at the scribe mark located nearthe middle of the lobe.)
3. Replace the cluster on the detector making sure that the cam does notchange position.
4. Verify the operation of the switch by monitoring the 0o indicator on theCCD Scanner Tester. The indicator should read “close” only when thepinsetter is at 0o.
16 CCD Scanner
44°/144° SwitchTo adjust the 44°/144° switch perform the following steps. Refer to the figuretitled 44°/144° Switch Adjustment.
1. Cycle the pinsetter to a full rack first ball.
2. Lower the pinsetter deck until it is approximately 16" ± 1/2 above the pin
deck (1" above the pins).
3. Loosen the lockscrew holding to outer cam to the shaft.
4. Loosen the 44°/144° switch mounting screws.
5. Rotate the outer cam clockwise until the roller of the switch lever ispositioned halfway up the front edge of the outer cam.
6. Adjust the switch so that it activates.
7. Tighten the cam lockscrew and the switch mounting screws.
8. Cycle the pinsetter so that the switch is at the top of the lobe.
9. Verify that there is approximately .025" gap between the switch and theswitch lever to prevent switch damage.
(2)SECOND LOBE
(5)44°/144° SWITCH
(4).025"
OVERTRAVELAT TOP OF
LOBE
(3)ACTUATE HALFWAY
UP FIRST LOBE
(1)LOCKSCREW
44o/144o Switch Adjustment
(1) LOCKSCREW (2) SECOND LOBE (3) ACTUATE HALFWAY UP FIRST LOBE(4) .025" OVERTRAVEL AT TOP OF LOBE (5) 44º/144º SWITCH
CCD Scanner 17
New Pins Solenoid and Cycle Link
The New Pins Solenoid is used to switch the pinsetter to second ball in theevent of a first ball foul, third ball, tenth frame or a No Tap strike to eliminatethe bowler's need to push the reset button. Refer to the figure titled New PinsSolenoid.
New Pins Solenoid
(1) OLD CONFIGURATION (2) NEW CONFIGURATION (3) BRACKET(4) SOLENOID LINK (5) TO PINSETTER (6) RELAY ASSEMBLY(7) SIGNAL LIGHT-EMITTING DIODE (8) RELAY PRINTED CIRCUIT BOARD (9) 120 VOLTS ALTERNATING CURRENT
SOLENOID
18 CCD Scanner
In order to make the New Pins Solenoid actuate on a foul, the following signalsmust occur:
1. First ball.2. Foul signal.3. Ball detect.
If the signals are present, the New Pins Solenoid will be energized two timesduring the pinsetter cycle. At 44° the New Pins Solenoid will energize causingthe pinsetter to switch to second ball and sweep all standing pins. It energizesagain at 0° causing the pinsetter to switch to second ball to give the bowler afull rack, second ball shot.
For third ball, tenth frame, the New Pins Solenoid will fire one time at 0o after atenth frame spare or a “double.” This will automatically put the pinsetter in asecond ball mode for the final ball of the game.
For No Tap situations the New Pins Solenoid energizes at 44° causing thepinsetter to switch to second ball, sweep all pins from the pin deck, and reset toa full rack first ball for the next bowler.
CCD Scanner 19
Cycle Link OperationThe New Pins Solenoid signal is received from the Data Processor Module fora foul third ball, tenth frame and No Tap cycles. When the New Pins Solenoidis energized, it pulls the standing pins selector clockwise, unblocking thestanding pins cam follower. The standing pins cam follower goes into the lowof the cam causing the “C” shaft to turn clockwise. The first and second ballswitch lever is attached to the “C” shaft, and as it turns clockwise, it switchesthe ball light to second ball. Refer to the figure titled New Pins SolenoidActivated - Cycle Link Raised.
The 90o overtravel hook selector is also attached to the "C" shaft, and as itturns clockwise, it forces the cycle link up. The upward motion of the cyclelink turns the cycle crank clockwise around the "E" shaft. A pin in the cyclecrank turns the strike selector in a counterclockwise direction unblocking thestrike cam follower. The strike cam follower goes into the low of the timingcam rotating the "D" shaft counterclockwise. The moving deck/scissorsselector rotates counterclockwise pulling the adjustable scissors link forward,rotating the moving deck/scissors latch counterclockwise to block the camfollower, and freeing the moving deck cam follower.
This prevents the deck from picking up any pins standing on the pin deck duringthe detection stroke. The rake sweeps all the pins and the deck will then setten new pins on the lane surface. The New Pins Solenoid will fire once moreat 360o to place the pinsetter in second ball. Refer to the figure titled New PinsSolenoid Activated - Strike Selected.
AdjustmentsThe New Pins Solenoid (NPS) is adjusted by moving the NPS box toward oraway from the pinsetter detector. This is made possible by two elongatedholes drilled into the mounting bracket to which the box is attached. Refer tothe figure titled New Pins Solenoid Mounting Bracket.
New Pins Solenoid Mounting Bracket
(1) CYCLE LINK (2) SOLENOID PLUNGER (3) BRACKET(4) ADJUSTMENT SCREWS
1. Cycle the pinsetter to first ball.
2. Loosen the screws that mount the NPS box to the bracket.
3. Hold in the plunger solenoid and move the NPS box away from thepinsetter until the pinsetter switches to second ball.
4. Tighten the NPS box mounting screws.
5. Cycle the pinsetter back to first ball.
6. Verify the cycle link is free of any binds and has plenty of "play."
7. Verify the New Pins Solenoid operation by creating a first ball foul, thirdball, tenth frame or No Tap situation.
(1)CYCLE
LINK
(2)SOLENOIDPLUNGER
(3)BRACKET
(4)ADJUSTMENT
SCREWS
22 CCD Scanner
AMF Pinspotter Modification
Switch Overview
To time the CCD Scanner to the AMF Pinspotter so that the score is taken atthe proper time during the pinsetter cycle, various switches are mounted on thepinspotter. The switches required for scoring are dependent on the model ofpinspotter being used. In original 82-30 and all 82-70 installations, threeswitches are needed to provide the correct timing information. For recent 82-30 installations a single switch mounted on the timing cam is all that is required.
For 82-70 and original 82-30 installations the following switches are used toperform specific functions.
Sweep SwitchThe sweep switch is used to tell the scanner to score “take data” during asecond ball cycle. This switch is similar to the 144° switch used in BrunswickA and A-2 Pinsetters.
Sweep Up SwitchThe sweep up switch is used to tell the scanner when the pinspotter hasfinished it’s cycle. This signal causes the scanner to reset and prepare for thenext ball. It also allows the scanner to accept a ball detect signal. (When theswitch is open the scanner ignores all ball detect signals). The switch also isused by the scanner to determine when the reset button should be actuated inNo Tap and third ball, tenth frame situations.
Table SwitchThe table switch is used to tell the scanner when to score during a first ballcycle. This switch is similar to the 44° switch used in Brunswick A and A-2installations.
For recent 82-30 installations a single switch attached to the timing cam isused. This switch performs all timing functions needed by the scanner andeliminates the need for separate table, sweep, and sweep up switches.
CCD Scanner 23
AMF 82-30 Pinspotter Sweep Up Switch
(1) CABLE CLIP (2) 5/8” HEX NUT (3) EXISTING ALLEN CAP SCREW(4) SWEEP UP SWITCH (ZERO DEGREE) (5) SWITCH ACTUATOR (6) EXISTING HEX NUT
(1)CABLE CLIP
(2)5/8” HEX NUT
(3)EXISTING
ALLEN CAP SCREW
(4)SWEEP UP SWITCH
(ZERO DEGREE)
(5)SWITCH ACTUATOR
(6)EXISTINGHEX NUT
AMF 82-30 Model Pinspotter Switch Adjustments
Sweep Up Switch (0°)Adjust sweep up switch and switch actuator so the switch is actuated when thesweep is in the “up” position. Check 0° signal at Scanner Tester. Refer to thefigure titled AMF 82-30 Pinspotter Sweep Up Switch.
24 CCD Scanner
Table SwitchUsing the hand crank, lower the table until the lowest projection on the table is16" from the deck. Rotate the cam and collar assembly so the high of the camwill actuate the switch. Adjust the switch so the switch will be actuated onlyon the high of the cam. Check the 44o signal on the Scanner Tester. Refer tothe figure titled AMF 82-30 Pinspotter Table Switch.
AMF 82-30 Pinspotter Table Switch
(1) .025” OVERTRAVEL (2) CAM AND COLLAR ASSEMBLY
(1).025”
OVERTRAVEL
(2)CAM AND COLLAR
ASSEMBLY
CCD Scanner 25
Sweep SwitchUsing the hand crank, position the sweep 10" in front of the no. 1 pin spot.Position the cam and collar assembly to where it will actuate the switch at thispoint. Adjust switch so it will only make during the high of the cam. Check forproper indication on 144o on the Scanner Tester. Refer to the figure titledAMF 82-30 Pinspotter Sweep Switch.
(1)EVEN LANE
(2)ODD LANE
(3).025”
OVERTRAVEL
(4)CAM AND COLLAR
ASSEMBLY
AMF 82-30 Pinspotter Sweep Switch
(1) EVEN LANE (2) ODD LANE (3) .025” OVERTRAVEL(4) CAM AND COLLAR ASSEMBLY
26 CCD Scanner
Chassis Cam SwitchWith the pinspotter at 0°, adjust the position of the bracket using the slots so thenew switch is just activated by the cam. Check for 44°/144° signal ontheScanner Tester. Refer to the figure titled AMF 82-30 Pinspotter ChassisCam Switch.
(1)ADJUST BRACKET POSITION HERE
(2)SWITCH IS ACTIVATED
BY CAM
AMF 82-30 Pinspotter Chassis Cam Switch
(1) ADJUST BRACKET POSITION HERE (2) SWITCH IS ACTIVATED BY CAM
The sweep position switch assembly on the AMF 82-70, 82-70 SS, and 82-70MP Pinspotters contains three switches. Two switches, the sweep switch andthe B-2000 switch, are ganged together and must be checked whenadjustments are made. The third switch, the sweep up switch, is to be adjustedafter the sweep switch adjustment has been checked.
AMF 82-70 Model Pinspotter Switch Adjustments
The sweep position switch assembly on the AMF 82-70, 82-70 SS, and82-70 MP Pinspotters contains three switches. Two switches, the sweepswitch and the B-2000 switch are ganged together and must be checked whenadjustments are made. The third switch, the sweep up switch, is to be adjustedafter the sweep switch adjustment has been checked. An additional switchcalled the table switch is located on the table shaft. Refer to the figure titledAMF 82-70, 82-70 MP, 82-70 SS Pinspotter Scoring Switches.
(1) SWEEP MOTOR (2) TABLE MOTOR (3) AMF 82-70 PINSPOTTER(4) TABLE SWITCH (5) B-2000 SWITCH (NOT USED) (6) SWEEP SWITCH(7) SWEEP UP SWITCH
(6)SWEEPSWITCH
(7)SWEEP UP
SWITCH
(5)B-2000 SWITCH
(NOT USED)
(4)TABLE SWITCH
(3)AMF 82-70
PINSPOTTER
(2)TABLE MOTOR
(1)SWEEP MOTOR
28 CCD Scanner
Sweep Up Switch (0o)With the pinspotter at 0o, adjust the sweep up switch and the cam so the switchis actuated on the high of the cam.
NOTE: The cam for this switch rotates on the collar independently ofthe sweep cam. Refer to the figure titled AMF 82-70, 82-70 SS, and 82-70MP Pinspotters Sweep Switch.
Check the 0o signal on the Scanner Tester for proper operation of this switch.
AMF 82-70, 82-70 SS, and 82070 MP Pinspotters Sweep Switch
(1) CAM ROTATES ON COLLAR INDEPENDENTLY OF SWEEP CAM
Table SwitchPosition the table so the bottom of the table is 16" +1/16" from the pin deck.Adjust the table cam and collar and the switch so the switch is actuated on thehigh of the cam. Check the 44o indication on the Scanner Tester for properoperation of this switch. Refer to the figure titled AMF 82-70, 82-70 SS, and82-70 MP Pinspotters Table Switch.
(1)CAM ROTATES ON
COLLAR INDEPENDENTLYOF SWEEP CAM
CCD Scanner 29
AMF 82-70, 82-70 SS, and 82-70 MP Pinspotters Table Switch
(1) .025” OVERTRAVEL (2) ADJUST CAM AND COLLAR SO SWITCH IS ACTUATED ON HIGH OF CAM
(2)ADJUST CAM AND
COLLAR SO SWITCHIS ACTUATED ON
HIGH OF CAM
(1).025”
OVERTRAVEL
Sweep SwitchLower the sweep with the hand crank and position it 10" from the no. 1 pinspot. Adjust the cam and collar assembly so the switch is actuated on the highof the cam. Check the 144o signal at the Scanner Tester for proper operationof this switch. Refer to the figure titled AMF 82-70, 82-70 SS, and82-70 MP Pinspotters Sweep Switch.
AMF 82-70, 82-70 SS, and 82-70 MP Pinspotters Sweep Switch
(1) ADJUST CAM AND COLLAR ASSEMBLY SO SWITCH IS ACTUATED BY HIGH OF CAM
(1)ADJUST CAM AND
COLLAR ASSEMBLY SOSWITCH IS ACTUATED
BY HIGH OF CAM
30 CCD Scanner
AMF Interface PCBs
There are two versions of the AMF Interface PCB. One version containsjumper wires that allow for interfacing with the proper pinspotter. The otherversion contains a switch assembly to allow for proper interfacing. Refer tothe figures titled AMF 82-30 Pinspotter Interface PCB, AMF 82-70Pinspotter Interface PCB, AMF 82-70 SS Pinspotter Interface PCB, and A/P Relay PCB, (AMF Third, Ball Tenth Frame PCB.)
The purpose of the AMF Interface PCB is to adapt the AMF electrical signalsso that they can be used by the scanner. Although many signals are routedthrough the PCB, only the foul signal is actually altered.
CCD Scanner 31
AMF 82-30 Pinspotter Interface PCB
(1) GROUND AMF LANE 1 (2) POWER DIRECT CURRENT LANE 1 (3) POWER ALTERNATING CURRENT LANE 1(4) POWER LANE 1 (5) FOUL LANE 1 (6) GROUND SCORER LANE 1(7) SECOND LANE 1 (8) SWEEP UP LANE 1 (9) TABLE/SWEEP LANE 1
(10) TABLE/SWEEP LANE 2 (11) SWEEP UP LANE 2 (12) SECOND LANE 2(13) GROUND SCORER LANE 2 (14) FOUL LANE 2 (15) POWER LANE 2(16) POWER ALTERNATING CURRENT LANE 2 (17) POWER DIRECT CURRENT LANE 2 (18) GROUND AMF LANE 2(19) SWITCH POSITIONS FOR 82-30 (20) JUMPER WIRE (21) TO EVEN LANE PINSPOTTER(22) TO SCANNER (23) FACTORY INSTALLED JUMPER WIRES (24) TO ODD LANE PINSPOTTER(25) POSITION OF DIP SWITCH IF PRESENT (26) CHASSIS CAM SWITCH
1
1
9
2
2
8
3
3
7
BLK
BLK
P25
P25
ORN 10 VAC
ORN 10 VAC
P23
P23
RED 10 VAC
RED 10 VAC
D5-IN4003D2-IN4003
SWSW
SWSW
SWSW
SWSW1.5K1.5K
22
44
51 5 1
IN914IN914
IN914IN914 120 1 WATT120 1 WATT
3 3uf3 3uf
MCT-2MCT-2
BLK
BLK
BLK
BLK
BLK
BLK
RED
RED
AC
AC
115 VAC
115 VAC
POWERON
POWERON
P 13
P 13
P 15
P 15
P 14
P 14
P 12
P 12
RED 115 VAC
RED 115 VAC
FOUL
FOUL
REDBLK
YEL
RED
WHT
YEL
BLK2ND
2ND
N.O.COMM
N.C.
(26)CHASSIS CAM SWITCH
SWEEP UP
SWEEP
TABLE
RED
RED
+12 VAC
+12 VAC
4
4
6
5
5
5
6
6
4
7
7
3
8
8
2
9
9
1
(1)G
RO
UN
DA
MF
LAN
E1
129345678111213141516101718
(2)P
OW
ER
DC
LAN
E1
(3)P
OW
ER
AC
LAN
E1
(4)P
OW
ER
LAN
E1
(5)F
OU
LLA
NE
1(6)
GR
OU
ND
SC
OR
ER
LAN
E1
(7)S
EC
ON
DLA
NE
1(8)
SW
EE
PU
PLA
NE
1(9)
TAB
LE/S
WE
EP
LAN
E1
(10)TA
BLE
/SW
EE
PLA
NE
2(11)
SW
EE
PU
PLA
NE
2(12)
SE
CO
ND
LAN
E2
(13)G
RO
UN
DS
CO
RE
RLA
NE
2(14)
FO
UL
LAN
E2
(15)P
OW
ER
LAN
E2
(16)P
OW
ER
AC
LAN
E2
(17)P
OW
ER
DC
LAN
E2
(18)G
RO
UN
DA
MF
LAN
E2
(24)TO ODD LANEPINSPOTTER
(25)POSITION OF DIP SWITCH
IF PRESENT
(21)TO EVEN LANEPINSPOTTER
(20)JUMPER WIRE (20)
JUMPER WIRE
(20)JUMPER WIRE
(20)JUMPER WIRE
(23)FACTORY INSTALLED
JUMPER WIRES(22)
TO SCANNER
(19)SWITCH POSITIONS
FOR 8230
1ON
34
56
78
2
91
1
118
9
32 CCD Scanner
AMF 82-70 Pinspotter Interface PCB
(1) GROUND AMF LANE 1 (2) POWER DIRECT CURRENT LANE 1 (3) POWER ALTERNATING CURRENT LANE 1(4) POWER LANE 1 (5) FOUL LANE 1 (6) GROUND SCORER LANE 1(7) SECOND LANE 1 (8) SWEEP UP LANE 1 (9) TABLE/SWEEP LANE 1
(10) TABLE/SWEEP LANE 2 (11) SWEEP UP LANE 2 (12) SECOND LANE 2(13) GROUND SCORER LANE 2 (14) FOUL LANE 2 (15) POWER LANE 2(16) POWER ALTERNATING CURRENT LANE 2 (17) POWER DIRECT CURRENT LANE 2 (18) GROUND AMF LANE 2(19) TO EVEN LANE PINSPOTTER (20) JUMPER WIRES (21) TO SCANNER(22) FACTORY INSTALLED JUMPER WIRES (23) POSITION OF DIP SWITCH IF PRESENT (24) TO ODD LANE PINSPOTTER(25) SWITCH POSITIONS FOR 82-70
1
2
3
BLK
ORNP27
P24
P22
RED
D5-IN4003D2-IN4003
SWSW
SW
SWSW
SWSWSW1.5K1.5K
24
42
51 15
IN914IN914
IN914IN914 120 1 WATT120 1 WATT
3 3uf3 3uf
MCT-2MCT-2
BLK
BLK
YEL
RED
WHT2ND
SWEEP UP
SWEEP
TABLE
RED
12 VAC
115 VAC
BLK
10 VAC 115 VAC
POWERBRNTOPIN 9
TS-8
TS1-4
FOUL
12 VAC4
5
6
7
8
9
(1)G
RO
UN
DA
MF
LAN
E1
(2)P
OW
ER
DC
LAN
E1
(3)P
OW
ER
AC
LAN
E1
(4)P
OW
ER
LAN
E1
(5)F
OU
LLA
NE
1(6)
GR
OU
ND
SC
OR
ER
LAN
E1
(7)S
EC
ON
DLA
NE
1(8)
SW
EE
PU
PLA
NE
1(9)
TAB
LE/S
WE
EP
LAN
E1
(10)TA
BLE
/SW
EE
PLA
NE
2(11)
SW
EE
PU
PLA
NE
2(12)
SE
CO
ND
LAN
E2
(13)G
RO
UN
DS
CO
RE
RLA
NE
2(14)
FO
UL
LAN
E2
(15)P
OW
ER
LAN
E2
(16)P
OW
ER
AC
LAN
E2
(17)P
OW
ER
DC
LAN
E2
(18)G
RO
UN
DA
MF
LAN
E2
(24)TO ODD LANEPINSPOTTER(23)
POSITION OF DIP SWITCHIF PRESENT
(19)TO EVEN LANEPINSPOTTER
(20)JUMPER WIRES
(20)JUMPER WIRES
(22)FACTORY INSTALLED
JUMPER WIRES(21)
TO SCANNER
(25)SWITCH POSITIONS
FOR 8270
91
1
118
9
1ON
34
56
78
2
129345678111213141516101718
1
2
3
4
5
6
7
8
9
CCD Scanner 33
AMF 82-70 SS Pinspotter Interface PCB
(1) GROUND AMF LANE 1 (2) POWER DIRECT CURRENT LANE 1 (3) POWER ALTERNATING CURRENT LANE 1(4) POWER LANE 1 (5) FOUL LANE 1 (6) GROUND SCORER LANE 1(7) SECOND LANE 1 (8) SWEEP UP LANE 1 (9) TABLE/SWEEP LANE 1
(10) TABLE/SWEEP LANE 2 (11) SWEEP UP LANE 2 (12) SECOND LANE 2(13) GROUND SCORER LANE 2 (14) FOUL LANE 2 (15) POWER LANE 2(16) POWER ALTERNATING CURRENT LANE 2 (17) POWER DIRECT CURRENT LANE 2 (18) GROUND AMF LANE 2(19) JUMPER WIRE (20) TO EVEN LANE PINSPOTTER (21) TO SCANNER(22) FACTORY INSTALLED JUMPER WIRES (23) POSITION OF DIP SWITCH IF PRESENT (24) TO ODD LANE PINSPOTTER(25) SWITCH POSITION FOR 82-70 SS
(24)TO ODD LANEPINSPOTTER(23)
POSITION OF DIP SWITCHIF PRESENT
(20)TO EVEN LANEPINSPOTTER
(19)JUMPER WIRE (19)
JUMPER WIRE
(19)JUMPER WIRE
(19)JUMPER WIRE
(22)FACTORY INSTALLED
JUMPER WIRES(21)
TO SCANNER
(25)SWITCH POSITIONS
FOR 8270-SS
91
1
118
9
1ON
34
56
78
2
(1)G
RO
UN
DA
MF
LAN
E1
1
1
2
3
4
5
6
7
8
9 1
2
2
9
3
BLK
ORNP29
P27
P25
RED
D5-IN4003D2-IN4003
SWSW
SWSWSW
SWSW SW1.5K1.5K
24
42
51 15
IN914IN914
IN914IN914 120 1 WATT120 1 WATT
3 3uf3 3uf
MCT-2MCT-2
BLK
BLK
YEL
RED
WHT2ND
SWEEP UP
SWEEP
TABLE
RED
+12 VOCPOWER
+12 VOC
FOUL
+12 VOC
3
4
4
5
5
6
6
7
7
8
8
9
111213141516101718
(2)P
OW
ER
DC
LAN
E1
(3)P
OW
ER
AC
LAN
E1
(4)P
OW
ER
LAN
E1
(5)F
OU
LLA
NE
1(6)
GR
OU
ND
SC
OR
ER
LAN
E1
(7)S
EC
ON
DLA
NE
1(8)
SW
EE
PU
PLA
NE
1(9)
TAB
LE/S
WE
EP
LAN
E1
(10)TA
BLE
/SW
EE
PLA
NE
2(11)
SW
EE
PU
PLA
NE
2(12)
SE
CO
ND
LAN
E2
(13)G
RO
UN
DS
CO
RE
RLA
NE
2(14)
FO
UL
LAN
E2
(15)P
OW
ER
LAN
E2
(16)P
OW
ER
AC
LAN
E2
(17)P
OW
ER
DC
LAN
E2
(18)G
RO
UN
DA
MF
LAN
E2
34 CCD Scanner
AMF Third Ball, Tenth Frame/No Tap Relay
The AMF Third Ball, Tenth Frame/No Tap Kit which consists of an A/P RelayPCB, can be installed with new or existing AS-K, AS-90, AS-90C, orFrameworx Automatic Scorers with CCD Scanners (Version 1.34 or higher)and AMF 82-30, 82-70, 82-70 SS, or 82-70 MP Pinspotters. Refer to thefigure titled AMF Reset Kit Relay PCB.
AMF Reset Kit Relay PCB
(1) TO CCD PROCESSOR (2) TO PINSETTER (3) SIGNAL LIGHT-EMITTING DIODE
The kit eliminated the need for the bowler to press the Reset button after hethrows his “bonus” ball in the tenth frame and during No Tap scoring if no N
TX
occurs. The kit is controlled by the CCD Data Processor PCB.
AMF 82-30 PinspotterWhen installed on the AMF 82-30 Pinspotter, the kit is activated when abowler bowls his “bonus” ball and does not get a strike or he bowls a N
TX
during No Tap Scoring. The kit causes the pinspotter to cycle a second time sothat any standing pins are swept off the pin deck and the machines sets a fullrack, first ball for the next bowler.
AMF 82-70 and 82-70 SS PinspottersOn an AMF 82-70 Pinspotter with CCD Software Version 1.32 or 1.33, the kitactuates after the bowler throws his second ball in the tenth frame. At the endof a pinspotter cycle in which the bowler receives a spare or a double, the kitwill cause the pinspotter to switch to second ball. As a result, the bowler willshoot at a full rack, second ball for his “bonus” ball.
With CCD Software Version 1.35, the kit is rewired to the Reset button so thepinsetter cycles automatically for the next bowler. (Refer to AMF 82-30Pinspotter for description.)
CCD Scanner 35
The functions of the A/P Relay PCB components are:
(1) CCD Processor (J1) - Connection to the CCD Data Processor PCB.The signal to energize the relay on the A/P Relay PCB enters the PCBhere at a level of 5VDC.
(2) Pinsetter (T1, T2) - Connections to the following pinspotter switchesin the rear mechanic's switch box:
AMF 82-30 PBC Cycle Switch* AMF 82-70 PB2B Second Ball Switch* AMF 82-70SS PB2-1st First Ball Stepper
1. The bowler delivers the second ball. The ball breaks the ball detect'spath of light. Refer to the figure titled Second Ball Scoring Sequence -Brunswick A-2.
2. The scanner starts the scoring process.
3. The pinsetter triggers.
4. At 144o, the switch signal enables the Scanner Data Processor PCB toaccept the pinfall data.
5. With the successful “take data,” the scanner sends the score to theLGP.
6. A score is displayed for the bowler.
7. The 0o switch sends a signal to reset the scoring cycle and enableanother ball detect.
Second Ball Scoring Sequence - Brunswick A-2
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) 44° PULSE (NO ACTION) (5) 144° PULSE (6) TAKE DATA(7) SCORE (8) RESETS SCORING CYCLE (9) 0° PULSE/360°
(10) SECOND BALL
38 CCD Scanner
First Ball Foul
On a first ball foul, the New Pins Solenoid switches the detector to second ball.On a first ball foul, when the New Pins Solenoid switches the detector to thesecond ball, the cycle link and crank generates a strike in the detector. It thenblocks the scissors and prevents the pinsetter from picking up the standing pins.
1. Bowler delivers his first ball and fouls.
2. The ball breaks the ball detect's light path and triggers the pinsetter.Refer to the figure titled First Ball Foul - Brunswick A-2.
3. The New Pins Solenoid switches the pinsetter to the second ball at 44o,selecting a strike cycle.
4. The scorer displays an "F" and scores a "0."
5. 144° switch closes, but no action is taken.
6. The pinsetter sweeps the pins and sets a new rack of pins.
7. The New Pins Solenoid switches the pinsetter to second ball when the0° switch closes.
8. The 0° signal resets the scoring cycle to accept another ball detect.
7. The 0° signal resets the scoring cycle to accept another ball detect.
STRIKE(7) SWITCHES TO FIRST BALL AND (8) SETS A NEW RACK OF PINS (9) NEW PINS SOLENOID SWITCHES
SWEEPS STANDING PINS PINSETTER BACK TO SECOND BALL(10) RESETS SCORING CYCLE (11) 0° PULSE/360° (12) 44° PULSE(13) 144° PULSE (NO ACTION) (14) FIRST BALL FOUL
CCD Scanner 39
Third Ball, Tenth Frame
When a bowler scores either a spare or double in the tenth frame, the LGPsends a signal to the Scanner Data Processor PCB to place the pinsetter insecond ball. This eliminates the need for the bowler to press reset afterbowling the third ball (if standing pins are left.)
1. The scoring sequence for a spare or first ball (double) occurs normally.
2. 44º Pulse (scores double).
3. 144º Pulse (scores spare).
4. 0° switch closes causing the new pins solenoid to switch the pinsetter to2nd ball.
In addition to scoring functions, the 0° signal at 360° causes the NewPins Solenoid to place the pinsetter in second ball.
5. 0° resets the scoring cycle to accept another ball detect.
When a bowler bowls a No Tap strike, the scorer console sends a signal to theCCD Data Processor PCB. In turn, the Processor energizes the New PinsSolenoid at 44° so the standing pins are swept away.
1. Bowler delivers his first ball and the ball breaks the ball detect's lightpath.
2. The ball causes the pinsetter to trigger. Refer to the figure titled No Tap- Brunswick A-2.
3. The 44° switch closes causing the new pin solenoid to switch thepinsetter to the second ball.
4. The scorer displays an "NTX."
5. 144° switch closes, but no action is taken.
6. The pinsetter sweeps the pins and sets a new rack of pins.
7. The 0° signal resets the scoring cycle to accept another ball detect.
No Tap - Brunswick A-2
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) NEW PINS SOLENOID SELECTS STRIKE (5) SCORER DISPLAYS NT AND X SCORED (6) SCISSORS BLOCKED(7) SWITCHES TO FIRST BALL AND SWEEPS (8) SETS A NEW RACK OF PINS (9) RESETS SCORING CYCLE
STANDING PINS(10) 0° PULSE/360° (11) 44° PULSE (12) NO TAP(13) 144° PULSE (NO ACTION)
CCD Scanner 41
Brunswick GS-10/GS-92 Pinsetter Scoring Sequence of Events
First Ball
The following describes the events necessary for the first ball scoringsequence.
NOTE: The scorer console must be turned on, the bowler's name entered,and the Bowl key pressed with the sequencing arrows on the bowler'sname.
1. The bowler delivers the first ball. The ball breaks the ball detect's lightpath and sends a signal to the Scanner Data Processor PCB.
2. The scanner starts sweeping both lanes. Refer to the figure titled FirstBall Scoring Sequence - Brunswick GS-10/GS-92 Pinsetter.
3. The pinsetter is triggered by the ball.
4. When the table is 16" (406 mm) above the pin deck, the table switchsignal enables the Scanner Data Processor PCB to accept the pinfallinformation.
5. The scanner stops when the table switch is actuated with a successful“take data.”
6. Score is displayed on CRTs.
7. The sweep up switch resets the scoring cycle to accept another balldetect.
First Ball Scoring Sequence - Brunswick GS-10/GS-92 Pinsetter.
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) TAKE DATA (5) SCORE (6) RESETS SCORING CYCLE(7) TABLE PULSE (8) SECOND TABLE PULSE (NO ACTION) (9) SWEEP PULSE (NO ACTION)
(10) 0° PULSE (SWEEP UP)/360° (11) FIRST BALL
42 CCD Scanner
Second Ball
1. The bowler delivers their second ball. The ball breaks the ball detect'slight path and sends a signal to the Scanner Data Processor PCB.
2. The scanner starts sweeping both lanes. Refer to the figure titledSecond Ball Scoring Sequence - Brunswick GS-10/GS-92 Pinsetter.
3. The pinsetter is triggered by the ball.
4. When the sweep switch is enabled, the Scanner Data Processor PCBaccepts the pinfall information.
5. The scanner stops with a successful “take data.”
6. Score is displayed on CRTs.
7. The sweep up switch resets the scoring cycle to accept another balldetect.
Second Ball Scoring Sequence - Brunswick GS-10/GS-92 Pinsetter
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) TAKE DATA (5) SCORE (6) RESETS SCORING CYCLE(7) TABLE PULSE (NO ACTION) (8) 0° PULSE (SWEEP UP)/360° (9) SECOND BALL
(10) SWEEP PULSE
CCD Scanner 43
First Ball Foul
On first ball foul, the data is transmitted to the Scanner's Data Processor. At“take data” (44o), the scorer displays an “F” and scores a “0.” The normalfoul cycle of the pinspotter sets a new full set of pins for the second ball cycle.
1. The bowler delivers the first ball and fouls.
2. The ball breaks the ball detect's light path. Refer to the figure titledFirst Ball Foul Scoring Sequence - Brunswick GS-10/GS-92Pinsetter.
3. Scorer displays an “F” and scores a “0” at “take data.”
4. Pinspotter cycles, sweeps pins, and returns to 0o.
NOTE: A new rack of pins will be set only on GS-10/GS-92 Pinsettersequipped with a foul cycle function. The scorer console does not controlthe pinsetter.
First Ball Foul Scoring Sequence - Brunswick GS-10/GS-92 Pinsetter
All ModelsThe following describes the events necessary for the first ball scoringsequence.
NOTE: The scorer console must be turned on, the bowler's name entered,and the “Bowl” key pressed with the sequencing arrows on the bowler'sname.
1. The bowler delivers the first ball. The ball breaks the ball detect's lightpath and sends a signal to the Scanner Data Processor PCB.
2. The scanner starts the scoring process. Refer to the figure titled FirstBall Scoring Sequence - AMF (All Models).
3. The pinsetter is triggered by the ball.
4. When the table is 16" (406 mm) above the pin deck, the cam switch ortable switch signal enables the Scanner Data Processor PCB to acceptthe pinfall information.
5. With a successful “take data,” the scanner sends the score to the LGP.
6. Score is displayed on CRTs.
7. The sweep switch and table switch close, but no action is taken.
8. The sweep up switch resets the scoring cycle to accept another ball detect.
First Ball Scoring Sequence - AMF (All Models)
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) TAKE DATA (5) SCORE (6) RESET SCORING CYCLE(7) TABLE PULSE (8) SECOND TABLE PULSE (NO ACTION) (9) SWEEP PULSE (NO ACTION)
(10) 0° PULSE (SWEEP UP)/360° (11) FIRST BALL
CCD Scanner 45
Second Ball
All Models1. The bowler delivers their second ball. The ball breaks the ball detect's
light path and sends a signal to the Data Processor PCB.
2. The scanner starts the scoring process. Refer to the figure titledSecond Ball Scoring Sequence - AMF (All Models).
3. The pinsetter is triggered by the ball.
4. When the cam switch or sweep switch is enabled, the Data ProcessorPCB accepts the pinfall information.
5. With a successful “take data,” the scanner sends a score to the LGP.
6. Score is displayed on CRTs.
7. The table switch closes, but no action is taken.
8. The sweep up switch resets the scoring cycle to accept another balldetect.
Second Ball Scoring Sequence - AMF (All Models)
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) TAKE DATA (5) SCORE (6) RESETS SCORING CYCLE(7) TABLE PULSE (NO ACTION) (8) 0° PULSE (SWEEP UP) 360° (9) SECOND BALL
46 CCD Scanner
First Ball Foul
All ModelsOn first ball foul, the data is transmitted to the Scanner Data Processor PCB.At “take data” (44o), the scorer displays an “F” and scores a “0.” The normalfoul cycle of the pinspotter sets a new full set of pins for the second ball cycle.
1. The bowler delivers the first ball and fouls.
2. The ball breaks the ball detect's light path. Refer to the figure titledFirst Ball Foul Scoring Sequence - AMF (All Models).
3. Scorer displays an "F" and scores a "0" at “take data.”
4. Pinspotter cycles, sweeps pins, and returns to 0o. A new rack of pinswill be set.
NOTE: Step 4 will occur only on AMF Pinspotters equipped with afoul cycle function. The scorer console does not control the pinspotter.
First Ball Foul Scoring Sequence - AMF (All Models)
AMF 82-30, 82-70, and 82-70 SS Pinspotters with Version 1.35 orHigher CCD SoftwareThis cycle occurs at the end of the tenth frame for a bowler that received a“bonus” ball after a spare or a double. If the bowler does not strike on the“bonus” ball, the pinspotter will cycle a second time so the next bowler is notrequired to push the Reset button to get a full rack, first ball.
1. The bowler delivers the last ball. The ball breaks the ball detect's lightpath and sends a signal to the Scanner Data Processor PCB.
2. The scanner begins the scoring cycle. Refer to the figure titled ThirdBall, Tenth Frame Sequence - AMF 82-30, 82-70 and 82-70 SSPinspotters (Version 1.35 or Higher CCD Software).
3. The pinsetter is triggered by the ball.
4. When the table is approximately 16" (406 mm) above the pin deck, thecam switch or table switch signal enables the Scanner Data ProcessorPCB to accept the pinfall information.
5. Score is displayed on CRTs.
6. Sweep and table switches close, but no action is taken.
7. The sweep up switch resets the scoring cycle to accept another balldetect and causes the A/P Relay PCB to energize, causing the pinspotterto cycle again.
Third Ball, Tenth Frame Sequence - AMF 82-30, 82-70 and 82-70 SS (Version 1.35 or Higher CCD Software)
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) TAKE DATA (5) SCORE (6) PINSPOTTER CYCLES AGAIN(7) RESETS SCORING CYCLE (8) SECOND TABLE PULSE (NO ACTION) (9) SWEEP PULSE (NO ACTION)
AMF 82-70 and 82-70 SS Pinspotters with Version 1.31 and 1.32 CCD SoftwareWhen a bowler scores either a spare or double in the tenth frame, the LGPsends a signal to the Scanner Data Processor PCB to place the pinspotter insecond ball. This eliminates the need for the bowler to press reset afterbowling the third ball (if standing pins are left.)
1. The scoring sequence for a spare or first ball (double) occurs normally.
Table pulse (scores double).
Sweep pulse (scores spare).
2. Sweep up pulse causes the scoring cycle to reset and causes the A/PRelay PCB to place the pinspotter in second ball.
Third Ball, Tenth Frame - AMF 82-70 and 82-70 SS (Version 1.31 and 1.32 CCD Software)
(4) NEW PINS SOLENOID SWITCHES PINSETTER (5) SWEEP UP PULSE 360° (6) TABLE PULSE (DOUBLE SCORES)TO SECOND BALL
(7) SWEEP PULSE (SPARE SCORES) (8) THIRD BALL TENTH FRAME
CCD Scanner 49
No Tap
AMF 82-30, 82-70, and 82-70 SS Pinspotters with Version 1.35 orHigher CCD SoftwareThis cycle occurs when a bowler throws a no tap strike and the LGP is set toNo Tap scoring. At the end of the regular cycle, the pinspotter willautomatically cycle a second time so the next bowler does not have to pressthe Reset button to get a full rack of pins.
1. The bowler delivers the first ball. The ball breaks the ball detect's lightpath and sends a signal to the Scanner Data Processor PCB.
2. The scanner begins the scoring cycle. Refer to the figure titled No TapSequence - AMF 82-30, 82-70 and 82-70 SS Pinspotters (Version1.35 or Higher CCD Software).
3. The pinsetter is triggered by the ball.
4. When the table is approximately 16" above the pin deck, the cam switchor table switch signal enables the Scanner Data Processor PCB toaccept the pinfall information.
5. Score of NTX is displayed on CRT's.
6. Sweep and table switches close, but no action is taken.
7. The sweep up switch closes, reseting the scoring cycle to accept anotherball detect and causing the A/P Relay PCB to energize, which in turncauses the pinspotter to cycle again.
No Tap Sequence - AMF 82-30, 82-70 and 82-70 SS (Version 1.35 or Higher CCD Software)
(1) BALL DETECT (2) SCANNER STARTS SCORING PROCESS (3) PINSETTER TRIGGERS(4) TAKE DATA (5) SCORE N, X (6) PINSPOTTER CYCLES AGAIN(7) RESETS SCORING CYCLE (8) SECOND TABLE PULSE (NO ACTION) (9) SWEEP PULSE (NO ACTION)
1. The bowler delivers the ball which breaks the ball detect beam.
2. The CCD Processor starts the three second time delay for “take data.”During these three seconds, the Reset Switch Relay located in thesplitter box energizes, disabling the set and reset switches on the ballreturn.
3. After the three seconds have elapsed, the processor “takes data.”
4. The score is sent to the console where it is displayed on the monitor.
5. The bowler then presses the appropriate button, Set or Reset, as needed.
CCD Scanner 51
Scanner Tester
Overview
The CCD Scanner Tester is a live video display unit using an LCD Screen.Controls include display intensity, mode select, and two switches whosefunctions change from one mode to the next. Refer to the figure titled CCDScanner Tester.
CCD Scanner Tester
(1) LIQUID CRYSTAL DISPLAY (2) INTENSITY ADJUSTMENT (3) MODE SELECT FUNCTION SWITCH(4) FUNCTION SWITCHES
Displays
The CCD Scanner Tester consists of four selectable display modes.
1. Normal (Information Screen)2. Align L. Side3. Align R. Side4. Cal Pins (Allows check and storage of setup)
52 CCD Scanner
Normal DisplayThe "Normal" display mode provides the following information on both lanes(Refer to the figure titled Normal Display):
(1) Ball - first or second.(2) Count - number of pins standing.(3) Split - yes or no.(4) Fouled - yes or no.(5) Pins Standing Graphic.(6) Foul Detect - open or closed.(7) Ball Detect - open or closed.(8) 0o - open or closed.(9) 44o/144o - open or closed.
(10) Video Image at time of Ball Detect.(11) Video Image at time of “take data.”(12) Current Software Revisions.(13) Prompts for Mode Change.(14) Current Display Mode.(15) Switch Functions Description.(16) Pinsetter Type.(17) Pin Type.(18) Scorer
Normal Display
CCD Scanner 53
�Align L. Side� DisplayThe “Align L. Side” display mode is used to position the image of the pins fromthe left lane in the center of the display and to align the horizontal and verticaltilt of the CCD Scanner.
The display has live video images of the ten pins on the left lane, prompts forthe alignment procedure, and switch function descriptions.
“Align L. Side” Display
(1) LIVE VIDEO (2) PROMPT: ADJUST ALIGNMENT SCREWS SO (3) MODE: ALIGN L. SIDETHAT HORIZONTAL LINE IS ON TOP OF LEFTPIN #1 AND RIGHT OF PIN #1. PUSH “MOVELEFT” OR “MOVE RIGHT” SWITCH TO CENTERLEFT LANE PINS. PUSH “MODE SELECT”SWITCH WHEN FINISHED.
(4) (5) MODE SELECT (6) MODE LEFT(7) MODE RIGHT
54 CCD Scanner
�Align R. Side� DisplayThe “Align R. Side” display mode is used to position the image of the ten pinsfrom the right lane in the center of the display. Prompts and switch functionsare similar to the “Align L. Side” mode except that all references are to theright lane.
“Align R. Side” Display
(1) LIVE VIDEO (2) PROMPT: ADJUST ALIGNMENT SCREW SO (3) MODE: ALIGN R. SIDETHAT HORIZONTAL LINE IS ON TOP OF LEFTPIN #1 AND RIGHT OF PIN #1. PUSH “MOVELEFT” OR “MOVE RIGHT” SWITCH TO CENTERRIGHT LANE PINS. PUSH “MODE SELECT”SWITCH WHEN FINISHED.
(4) (5) MODE SELECT (6) MODE LEFT(7) MODE RIGHT
CCD Scanner 55
�Cal Pins� DisplayThe “Cal Pins” display shows the previous calibration information for each lanestored in memory as well as new information when “Trigger New Cal” isactivated.
Prompts include instructions on how to calibrate, current mode, and currentswitch functions.
“Cal Pins” Display
(1) OLD PIN CAL: (2) NEW PIN CAL: (3) STORE NEW CAL(4) MODE: CAL PINS (5) (6) MODE SELECT(7) TRIGGER NEW CAL (8) PROMPT: ALL PINS MUST BE UP ON
BOTH LANES. PUSH “TRIGGER NEWCAL” SWITCH TO TRIGGER NEW PINCAL DATA. PUSH “STORE NEW CAL”SWITCH TO STORE NEW PIN CALDATA IF DESIRED. PUSH “MODESELECT” SWITCH WHEN FINISHED.
56 CCD Scanner
Camera Adjustments1. Cycle both pinsetters to set ten pins on each lane. Turn on both pin deck
lights.
2. Plug in the CCD Scanner Tester to the jack on the side bracket of thescanner assembly.
3. Adjust the tester intensity control to provide a readable display.
4. Push the “Mode Select” switch to get the “Align L. Side” display.
(1)HORIZONTAL (CENTERING)
ADJUSTMENT SCREW(LOCATED ON REAR OF CAMERA)
(1)HORIZONTAL (CENTERING)
ADJUSTMENT SCREW(LOCATED ON REAR OF CAMERA)
(2)HEIGHT
ADJUSTMENT SCREW
(3)LEVELING
ADJUSTMENT SCREW
CCD Adjustment
(1) HORIZONTAL (CENTERING) ADJUSTMENT (2) HEIGHT ADJUSTMENT SCREW (3) LEVELING ADJUSTMENTSCREW (LOCATED ON REAR OF CAMERA SCREW
5. Using the height and leveling adjustment screws on the scannerassembly, position the video image of the pins in the display so thehorizontal line in the display is on top of the left lane pin #1 and the rightlane pin #1. Refer to the figure titled CCD Adjustment.
6. Push either the “Move Left” or “Move Right” switch to center theimage of the left lane pins in the display. Take particular note of thespace between the sides of the display and the images of the #7 and #10pins. Each switch actuation will move the image one pixel.
7. Push the “Mode Select” switch to step to the “Align R. Side” display.Reference the figure titled “Cal Pins” Display.
8. Check the scanner level and height again and readjust as necessary.
9. Repeat Step 6 for the right lane.
CCD Scanner 57
10. When both lanes have been aligned, press the “Mode Select” switch andstep to the “Cal Pins” display. Reference the figure titled “Cal Pins”Display.
11. Press the “Trigger New Cal” function switch. If calibration issuccessful for both lanes, it will be shown in a prompt on the display.Press the “Store New Cal” function switch to store the calibrated datainto memory.
NOTE: Press the “Trigger New Cal” switch several times to ensure thatthe calibration is accurate. The screen should remain “successful” foreach trigger.
12. If either lane fails to calibrate, press the “Mode Select” function switchand step to the corresponding “Align” display and repeat the alignmentprocedure for that lane. (Reference “Scanner Tester Messages” formore information.)
13. After both lanes are calibrated, store the calibration by pushing the“Store Cal” switch.
14. Push the “Mode Select” switch to display the “Normal” screen.
15. Disconnect the Scanner Tester.
16. Reset the Data Processor Module by unplugging J1 of the power supplyPCB and plugging it back in.
NOTE: Steps 17 and 18 are required only if you have software version1.34 or later.
17. Cycle the left pinsetter to a full rack, first ball.
18. Throw one frame of two gutter balls on the left lane. Check LEDs 2and 3 of U705 on the Data Processor PCB. (They should not be lit).Repeat steps 16 through 18 until neither are lit.)
19. Bowl several frames on each lane to confirm proper scoring.
58 CCD Scanner
Scanner Tester Messages
The CCD Scanner Tester can display nine messages on the “Cal Pins” screenthat can be used to identify the reason the camera calibration was notsuccessful. Each message can usually be verified by looking at the picturetaken during calibration. The messages that can appear on the scanner test“Cal Pins” screen are:
Missing Pin(s) - There should be ten pins standing during thecalibration process. If the camera cannot recognize all ten pins themessage will appear. The number(s) that appear after the messageindicate which pins are not found. If all pins are present, the messageusually indicates a lighting problem or bad pin condition.
Pin 1 Too Low - The head of pin 1 is too far below the horizontalcalibration line. This message may be caused by the camera heightbeing too low or the top of pin 1 being too dark because of damage tothe pin.
Pin 1 Too High - The head of pin 1 is too far above the horizontalcalibration line. This message is caused by the camera height being toohigh.
Pin 1 Too Far Left - The head of pin 1 is too far left in the picture.This message usually indicates the pins are not centered properly.
Pin 1 Too Far Right - The head of pin 1 is too far right in the picture.This message usually indicates the pins are not centered properly.
Pin Location Error - The pins indicated after the message arepositioned incorrectly in the picture. This message usually indicates thepin(s) were spotted improperly by the pinsetter, the pin is damaged in away that keeps the camera from seeing all of the pin, or improperlighting keeps the camera from seeing the pin properly.
The Camera is Skewed - The head pins on the two lanes are not thesame height. This message usually indicates the camera is not level. Adamaged or dirty head pin can also cause this message.
“Cal Box” Outside of “Cal Zone” - The rectangle box that is drawnaround the pin necks (“cal boxes”) are not located in the horizontal boxdrawn to indicate where to look for pins (“cal zone”). This messageusually indicates the pins are dirty or damaged or there is a problem withlighting.
“Cal Box” not Tall Enough - The rectangle box that is drawn aroundthe pin necks (“cal boxes”) are too short. This message usuallyindicates a lighting problem or a minor adjustment problem such as thehead pins being too low.
CCD Scanner 59
Cable Diagrams
CCD Scanner - AMF Pinspotter Installation
(1) TEST SET (2) TESTER LEAD (57-215172-000) (3) RIGHT PINSPOTTER(4) LEFT PINSPOTTER (5) POWER (57-215379-000 AND (6) AMF INTERFACE BOX
57-215169-000)(7) PINSETTER ASSEMBLY (8) PINSETTER ASSEMBLY (9) CAMERA
AMF 82-30 TIMING MOTOR (57-214591-000) AMF 82-30 TIMING MOTOR (57-214592-000)AMF 82-30 (57-214296-000) AMF 82-30 (57-214297-000)AMF 82-70 (57-214301-000) AMF 82-70 (57-214302-000)AMF 82-70 SS (57-214286-000) AMF 82-70 SS (57-214287-000)
(10) VIDEO (57-215167-000) (11) DATA PROCESSOR (12) SCANNER TO LANES(PART NO. 57-214927-000)
(13) BALL DETECT (14) CLOCK (57-215168-000 AND (15) SCANNER TO PINSETTER INTERFACE57-215377-000) (57-300147-000)
(16) TEL-E-FOUL (17) PINSETTER INTERFACE (18) PRIMARY CONSOLE OR LANE GROUPPROCESSOR INPUT/OUTPUT PRINTEDCIRCUIT BOARD
(4) GROUND AMF LANE 2 (TO CHASSIS GROUND) (5) POWER LANE 2 (TO WIRE 29) (6) FOUL LANE 2 (TO WIRE 27)(7) SECOND BALL LANE 2 (TO WIRE 25) (8) GROUND SCORER LANE 2 (9) TO COMMON OF SWITCHES
(10) SWEEP UP LANE 2 (TO “NORMALLY OPEN” (11) SWEEP LANE 2 (TO “NORMALLY OPEN” (12) GROUND SCORER LANE 2SWEEP UP SWITCH SWEEP SWITCH (TO COMMON TABLE SWITCH)
(4) TABLE LANE 1 (TO "NORMALLY OPEN" (5) GROUND SCORER LANE 1 (6) SWEEP LANE 1 (TO "NORMALLY OPEN"OF TABLE SWITCH) (TO COMMON OF TABLE SWITCH) OF SWEEP SWITCH)
(7) GROUND SCORER LANE 1 (TO COMMON (8) SWEEP UP LANE 1 (TO "NORMALLY OPEN" (9) GROUND SCORER LANE 1 (TOOF SWEEP SWITCH) SWEEP UP SWITCH) COMMON OF SWEEP UP SWITCH)
(10) SECOND BALL LANE 1 (TO P23) (11) FOUL LANE 1 (TO FOUL TRANSFORMER) (12) POWER LANE 1 (TO POWER ON(13) GROUND AMF LANE 1 (TO P25) TRANSFORMER)
64 CCD Scanner
RED
RED
YEL
BLKBLK
BLK
RED
RED
ORN
BLK
1
2
3
4
5
6
7
8
9
(1)P5
TO AMFINTERFACE
BOARD
(2)CONNECTOR
(11-680257-000)TERMINAL
(11-680303-000)
(3)CONNECTOR
(11-612253-000)
(11) GND SCORER LANE 2 (TO COMMON OF TABLE SW.)
(9) GND SCORER LANE 2 (TO COMMON OF SWEEP SW.)
(7) GND SCORER LANE 2 (TO COMMON OF SWEEP UP SW.)
(5) POWER LANE 2 (TO POWER ON TRANS.)
(4) GND AMF LANE 2 (TO P25)
(10) SWEEP LANE 2 (TO N.O. OF SWEEP SW.)
(8) SWEEP UP LANE 2 (TO N.O. SWEEP UP SW.)
(12) TABLE LANE 2 (TO N.O. OF TABLE SW.)
(13) 2nd BALL LANE 2 (TO P23)
(6) FOUL LANE 2 (TO FOUL TRANS.)
Pinsetter CableAMF Interface Printed Circuit Board to AMF Control BoxAMF 82-30 Pinspotter, Lane 2 (Part No. 57-214297-000)
(4) GROUND AMF LANE 2 (TO P25) (5) POWER LANE 2 (TO POWER ON (6) FOUL LANE 2 (TO FOULTRANSFORMER) TRANSFORMER)
(7) GROUND SCORER LANE 2 (8) SWEEP UP LANE 2 (TO “NORMALLY OPEN” (9) GROUND SCORER LANE 2 (TO(TO COMMON OF SWEEP UP SWITCH) SWEEP UP SWITCH) COMMON OF SWEEP SWITCH)
(10) SWEEP LANE 2 (TO “NORMALLY OPEN” OF (11) GROUND SCORER LANE 2 (TO COMMON OF (12) TABLE LANE 2 (TO “NORMALLY OPEN”SWEEP SWITCH) TABLE SWITCH) OF TABLE SWITCH)
(13) SECOND BALL LANE 2 (TO P23)
CCD Scanner 65
Pinsetter CableAMF Interface Printed Circuit Board to AMF Control BoxAMF 82-70 Pinspotter, Lane 1 (Part No. 57-214301-000)
(1) P4 TO AMF INTERFACE BOARD (2) CONNECTOR (11-680257-000) (3) TO PIN 9 OF P3TERMINAL (11-680257-000)
(4) CONNECTOR (11-612253-000) (5) SWEEP LANE 1 (TO “NORMALLY OPEN” (6) SWEEP UP LANE 1 (TO “NORMALLYSWEEP SWITCH) OPEN” SWEEP UP SWITCH)
(7) GROUND SCORER LANE 1 (8) TABLE LANE 1 (TO “NORMALLY OPEN” (9) GROUND SCORER LANE 1 (TO(TO COMMON OF SWEEP SWITCH) OF TABLE SWITCH) COMMON OF TABLE SWITCH)
(10) SECOND BALL LANE 1 (TO WIRE 22) (11) FOUL LANE 1 (TO WIRE 24) (12) FOUL POWER (TO WIRE 27)(13) TO POWER ON TRANSFORMER (14) GROUND AMF LANE 1 (TO CHASSIS GROUND) (15) POWER ON LANE 1 (TO POWER ON
TRANSFORMER)(16) CONNECTOR (11-612021-000) (17) GROUND SCORER LANE 1 (TO COMMON OF
SWEEP UP SWITCH)
RED
WHT
RED
YEL
BLK
BLK
BLK
BLK
RED
ORN
BLK
1
2
3
4
5
6
7
8
9
BRN
(1)P4
TO AMFINTERFACE
BOARD
(2)CONNECTOR
(11-680257-000)TERMINAL
(11-680257-000)
(3)TO PIN 9
OF P3
(4)CONNECTOR
(11-612253-000)
(7) GND SCORER LANE 1(TO COMMON OF SWEEP SW.)
(17) GND SCORER LANE 1(TO COMMON OF SWEEP UP SW.)
(9) GND SCORER LANE 1 (TO COMMON OF TABLE SW.)
(12) FOUL POWER (TO WIRE 27)
(13) TO POWER ON TRANS.
(16)CONNECTOR
(11-612021-000)
(14) GND AMF LANE 1(TO CHASSIS GND)
(15) POWER ON LANE 1 (TO POWER ON TRANS.)
(5) SWEEP LANE 1 (TO N.O. SWEEP SW.)
(6) SWEEP UP LANE 1 (TO N.O. SWEEP UP SW.)
(8) TABLE LANE 1 (TO N.O. OF TABLE SW.)
(10) 2nd BALL LANE 1 (TO WIRE 22)
(11) FOUL LANE 1 (TO WIRE 24)
66 CCD Scanner
Pinsetter CableAMF Interface Printed Circuit Board to AMF Control BoxAMF 82-70 Pinspotter, Lane 2 (Part No. 57-214302-000)
(4) POWER ON LANE 2 (TO POWER ON (5) TO POWER ON TRANSFORMER (6) POWER LANE 2 (TO 27FF)TRANSFORMER)
(7) FOUL LANE 2 (TO 24T) (8) SECOND BALL LANE 2 (TO 22J) (9) GROUND AMF LANE 2 (TO CHASSISGROUND)
(10) CONNECTOR (11-612253-000) (11) GROUND SCORER LANE 2 (12) SWEEP UP LANE 2 (TO “NORMALLY(TO COMMON OF SWITCHES) OPEN” SWEEP UP SWITCH)
(13) SWEEP LANE 2 (TO “NORMALLY OPEN” (14) GROUND SCORER LANE 2 (TO COMMON OF (15) TABLE LANE 2 (TO “NORMALLY OPEN”SWEEP SWITCH) TABLE SWITCH) OF TABLE SWITCH)
RED
WHT
RED
YEL
BLK
BLK
BLK
BLK
RED
ORN
BLK1
2
3
4
5
6
7
8
9
BRN
(1)P5
TO AMFINTERFACE BOARD
(2)CONNECTOR
(11-680257-000)TERMINAL
(11-680303-000)
(10)CONNECTOR
(11-612253-000)
(11) GND SCORER LANE 2(TO COMMON OF SWS.)
(14) GND SCORER LANE 2 (TO COMMON OF TABLE SW.)
(6) POWER LANE 2 (TO 27FF)
(5) TO POWER ON TRANS.
(3)CONNECTOR
(11-612021-000)
(9) GND AMF LANE 2(TO CHASSIS GND)
(4) POWER ON LANE 2 (TO POWER ON TRANS.)
(13) SWEEP LANE 2 (TO N.O. SWEEP SW.)
(12) SWEEP UP LANE 2 (TO N.O. SWEEP UP SW.)
(15) TABLE LANE 2 (TO N.O. OF TABLE SW.)
(8) 2nd BALL LANE 2 (TO 22J)
(7) FOUL LANE 2 (TO 24T)
CCD Scanner 67
(1)TDM
57 54 53 68 55
56
Y2
60
61
52
61
(2)RECYCLE REAR
(3)RECYCLE
BALL RACK
(11)NC
(12)NO
(5) TRIGGER SWITCH
(10)COMM
GRN
BLK
RE
D
(6)A/P
ELECTRICALBOX
(7)NEW PINSSOLENOIDASSEMBLY
(8)TO SWITCHCLUSTER
TS2-12
(4)RELAY
5
9
8
(9) GROUND
44º/144º
0º
WHT
RED
BLK
RE
D
BLK
13 14 15 16 17 18
"Take Data" Relay with Time Delay Module (Part No. 57-214407-000)
ELECTRICAL BOX(7) NEW PINS SOLENOID ASSEMBLY (8) TO SWITCH CLUSTER (9) GROUND
(10) COMMON (11) NORMALLY CLOSED (12) NORMALLY OPEN
(2)NC
RE
D
BLK
RED
(4)44º/144ºSWITCH
(3)6.8 ufd35 VGRN
BLK(1)A/P LOWVOLTAGE
STRIP
Take Data Relay (Modified) without Time Delay Module (Part No. 57-214407-000)
(1) AUTOMATIC PINSETTER LOW VOLTAGE STRIP (2) NO CONNECTION (3) 6.8 ufd, 35 VOLTS(4) 44º/144º SWITCH
68 CCD Scanner
Pinsetter CableAMF Interface Printed Circuit Board to AMF Control BoxAMF 82-30 Pinspotter, Lane 1, with Timing Motor (Part No. 57-214591-000)
(1) P4 TO AMF INTERFACE BOARD (2) CAM SWITCH (3) SWEEP UP LANE 1(4) SWITCH COMMON (5) SECOND BALL LANE 1 (P23) (6) FOUL LANE 1(7) POWER LANE 1 (8) GROUND AMF LANE 1 (P25)
(1)P4
TO AMFINTERFACE BOARD
BLK
ORN
RED
BLK
YEL
WHT
RED1
2
3
4
5
6
7
8
9
(2) CAM SWITCH
(3) SWEEP UP LANE 1
(4) SWITCH COMMON
(5) 2nd BALL LANE 1 (P23)
(6) FOUL LANE 1
(7) POWER LANE 1
(8) GND AMF LANE 1 (P25)
CCD Scanner 69
Pinsetter CableAMF Interface Printed Circuit Board to AMF Control BoxAMF 82-30 Pinspotter, Lane 2, with Timing Motor (Part No. 57-214592-000)
(1) P5 TO AMF INTERFACE BOARD (2) GROUND LANE 2 (P25) (3) POWER LANE 2(4) FOUL LANE 2 (5) SECOND BALL LANE 2 (P23) (6) SWITCH COMMON(7) SWEEP UP SWITCH (8) CAM SWITCH
Foul Pickup Cable (Part No. 57-214894-000 [55’] or Part No. 57-215395-000 [91’])
(1) TO FOUL PICKUP (2) NOT USED (3) TO J6 ON PROCESSORPRINTED CIRCUIT BOARD
(1) TO AMF INTERFACE PRINTED CIRCUIT (2) TO CABLE (57-214895-000) (3) TO J6 ON SCANNER PRINTED CIRCUITBOARD (57-214198-000) BOARD
(4) TO J8 ON SCANNER PRINTED CIRCUIT BOARD (5) TO J9 ON SCANNER PRINTED CIRCUIT BOARD (6) POWER DIRECT CURRENT LANE 1(7) GROUND AMF LANE 1 (8) POWER DIRECT CURRENT LANE 2 (9) GROUND AMF LANE 2
(10) FOUL LANE 1 (11) FOUL LANE 2 (12) SWEEP UP LANE 1(13) TABLE SWEEP LANE 1 (14) POWER LANE 1 (15) SECOND LANE 1(16) GROUND SCORER LANE 1 (17) SWEEP UP LANE 2 (18) TABLE SWEEP LANE 2(19) POWER LANE 2 (20) SECOND LANE 2 (21) GROUND SCORER LANE 2(22) NO CONNECTION
(1) TO PIN 7 ON CABLE 57-214927-000 (2) TO PIN 3 ON AUTOMATIC PINSETTER (3) TO J1 ON RELAY PRINTED CIRCUIT(J7 ON DATA PROCESSOR PRINTED CONNECTOR (J8 ON DATA PROCESSOR BOARDCIRCUIT BOARD) PRINTED CIRCUIT BOARD)
(4) POWER (5) NEW PINS SOLENOID (6) NO CONNECTION
Signal Cable (Part No. 57-215578-000)
(1) TO RELAY PRINTED CIRCUIT BOARD (2) TO AUTOMATIC PINSETTER STATE OR CYCLE SWITCH(57-215580-000) (FOR MORE INFORMATION, REFERENCE INSTRUCTION GUIDE [57-900277-000])
REDT1
T2
(1)TO RELAY PCB(57-215580-000)
(2)TO A/P STATE ORCYCLE SWITCH
(FOR MORE INFORMATION,REFERENCE INSTRUCTION GUIDE
[57-900277-000])BLK
CCD Scanner 73
Relay Jumper Cable (Part No. 57-215766-000)
(1) TO T2 ON RESET SWITCH RELAY (2) CONNECTOR (11-612252-000) (3) 18 AMERICAN WIRE GAUGE(57-215253-000) STRANDED CABLE (27-619006-000)
(4) CONNECTOR (11-612021-000) (5) TO SPLITTER BOX TERMINAL STRIP“PLAYERS PUSH BUTTON”A = EVEN AUTOMATIC PINSETTERD = ODD AUTOMATIC PINSETTER
(3)18 AWG STRANDED
CABLE(27-619006-000)
(4)CONNECTOR
(11-612021-000)
(2)CONNECTOR
(11-612252-000)(1)
TO T2 ONRESET SWITCH RELAY
(57-215253-000)
(5)TO SPLITTER BOXTERMINAL STRIP
"PLAYERS PUSH BUTTON"A = EVEN A/PD = ODD A/P
0º Switch Cable (Part No. 57-215767-000)
(1) TO RESET SWITCH RELAY CABLE, J8 OR J9 (2) TERMINAL (11-680326-000) (3) 2-CONDUCTOR CABLE(27-609867-000)
(4) CONNECTOR (11-612252-000)
(1)TO RESET SWITCH
RELAY CABLEJ8 OR J9
(3)2-CONDUCTOR CABLE
(27-609867-000)
(2)TERMINAL
(11-680326-000)
(4)CONNECTOR
(11-612252-000)
74 CCD Scanner
Reset Switch Relay Cable (Part No. 57-215768-000)
(1) TO J1 ON RESET SWITCH RELAY (2) CONNECTOR (11-697237-000) (3) 2-CONDUCTOR CABLE(57-215523-000) TERMINAL (11-680326-000) (27-609867-000)
(4) CONNECTOR (11-697611-000) (5) TO CCD PROCESSOR (6) NO CONNECTIONTERMINAL (11-680326-000)
(1)TO J1 ON
RESET SWITCHRELAY
(57-215523-000)
(5)TO CCD
PROCESSOR
(3)2-CONDUCTOR CABLE
(27-609867-000)RED
BLK(6) NC
BLK
RED
(4)CONNECTOR
(11-697611-000)TERMINAL
(11-680326-000)
(2)CONNECTOR
(11-697237-000)TERMINAL
(11-680326-000)
1
2
3
4
5
WHT
BLK
WHT
BRN
(3) DRAIN
(1)TO J4 ON
PINSETTERINTERFACE PCB
(2)TO J2 ONPRIMARYCONSOLE
I/O PCB
(4) LAN A
(5) LAN B
(6) +12 VDC
(7) GROUND
WHT
BLK
WHT
BRN
(3) DRAIN
1
2
3
4
5
Primary Console to Pinsetter Interface Local Local Area Network (Part No. 57-300022-000)
(1) TO J4 ON PINSETTER INTERFACE (2) TO J2 ON PRIMARY CONSOLE (3) DRAINPRINTED CIRCUIT BOARD INPUT/OUTPUT PRINTED CIRCUIT BOARD
(4) LOCAL AREA NETWORK A (5) LOCAL AREA NETWORK B (6) +12 VOLTS DIRECT CURRENT(7) GROUND
CCD Scanner 75
1
2
1
2
WHT(3)28 VAC FROM
SECONDARY CONSOLETRANSFORMER
(4)TO J2 ON
PINSETTER INTERFACEPCB
WHT(1) 28 VAC (1) 28 VAC
(2) 28 VAC RETURN (2) 28 VAC RETURNBLK BLK
Secondary Console to Pinsetter Interface 28 VAC (Part No. 57-3000023-000)
(1) 28 VOLTS ALTERNATING CURRENT (2) 28 VOLTS ALTERNATING CURRENT RETURN (3) 28 VOLTS ALTERNATING CURRENTFROM SECONDARY CONSOLE
TRANSFORMER
(4) TO J2 ON PINSETTER INTERFACEPRINTED CIRCUIT BOARD
A-2 Pinsetter “Y” Power and Cycle (Part No. 57-300036-000)
(1) TO CCD SCANNER NEW PINS (2) TO J10 ON PINSETTER INTERFACE (3) TO J9 ON PINSETTER INTERFACESOLENOID CABLE
(4) CYCLE COUNT (5) PINSETTER POWER (6) COMMON(7) NO CONNECTION
(7) NC
(7) NC(7) NC(7) NC
(7) NC
(7) NC
(7) NC
123456
12345678
12345678
(1)TO
CCD SCANNERNPS CABLE
(3)TO J9 ON
PINSETTERINTERFACE
(2)TO J10 ONPINSETTERINTERFACE
BLK
RED
ORN
(4) CYCLE COUNT (4) CYCLE COUNT
(4) CYCLE COUNT
RED
GRN
BLU
(5) PINSETTER POWER
GRN
(7) NC
(6) COMMON
(6) COMMON
(6) COMMON
(6) COMMON
(6) COMMON
WHT (4) CYCLE COUNT
ORN
BLK
WHT
(5) PINSETTER POWER
(5) PINSETTER POWER
(5) PINSETTER POWER
BLU
GRN
BLU
(6) COMMON
76 CCD Scanner
(1)TO J1 ON
PINSETTERINTERFACE
PCB
(2)TO J67 ON
CCD SCANNER
(3)TO J1 ON
CCD SCANNER
1
2
3
4
5
6
7
8
9
10 1
2
3
4
1
2
3
4
5
ORN (5) TX (5) TX ORN
RED
WHT/ORN (6) RX (6) RX WHT/ORN
WHT/RED
BRN (7) SCAN CLK (7) SCAN CLK BRN
BLK
WHT/BRN (8) GND (8) GND WHT/BRN
WHT/BLK
RED (9) 28 VAC (9) 28 VAC (4) DRAIN
WHT/RED (9) 28 VAC (9) 28 VAC
BLK (10) 28 VAC RETURN (10) 28 VAC RETURN
WHT/BLK (10) 28 VAC RETURN (10) 28 VAC RETURN
(4) DRAIN (11) SHIELD (11) SHIELD
(12) NC
Pinsetter Interface to CCD Scanner (Part No. 57-300147-000)
(1) TO J1 ON PINSETTER INTERFACE (2) TO J67 ON CCD SCANNER (3) TO J1 ON CCD SCANNERPRINTED CIRCUIT BOARD