Service Manual Vector Service
Contents
1. C Sensitivity Adjustment 2 10 Vector Camera Assembly Ball Speed Adjustment Use the following steps to adjust how the ballspeed is calculated 1 For Vector desk systems select the Settings menu then the Pin settings menu item from the drop down menu For Vector Plus systems go to the Lane Status screen select the lane desired lane Vector Settings then Pin Camera Settings Refer to the figures titled Accessing Pin Camera Settings Sattngs Reger Rental Change View He Seu Lane settings Lane 2 Frame Game Total 1 Choose Pin settings 2 Choose Pin Camera Settings Accessing Pin Camera Settings 1 CHOOSE PIN SETTINGS 2 CHOOSE PIN CAMERA SETTINGS 2 On the pinsettings page verify that the desired lane is being shown on the pin camera page Change the lane number as needed Refer to figure titled Pin Camera Settings 3 Change the ball speed calculation the value using either of the following methods a Change the number in the Calibration Value box as needed To decrease the speed shown at the scorer enter a value lower than the number stored To increase the speed shown to the scorer enter a number greater than t2. 1 a SENSORS MUST BE MOUNTED SENSITIVITY WITH LED AND ADJUSTMENT ADJUSTMENT FACING UPWARD Vector Ball Detector 1 SENSORS MUST BE MOUNTED 2 LEDS 3 SENSITIVITY ADJUSTMENT WITH LED AND ADJUSTMENT FACING UPWARD 8 Vector Camera Assembly BALL DETECT LED OPERATION Green LED Power and Stability The green LED has a dual purpose During normal operation it is used to indicate power During calibration it indicates the signal stability The LED will turn off when the signal level light level is between 90 10 below and 110 10 above of the level needed for detection Refer to figure titled Vector Ball Detector LED Sensitivity Chart NOTE When adjusting the ball detector the green LED will turn Off when the light returning from the reflector is between 90 and 110 of trigger threshold This is normal operation Yellow LED Output The yellow LED indicates whether the Ball Detect output has been triggered When the detector is receiving sufficient light the LED will be On
3. 000 182009 9 Y0193130 YILLISNId LHOIY anavo viva 4 Bir Lus ddp 61 Sir HOLO3l3d 000 0S000S 2S Tiva 1431 9 vi 9 000 022008 29 HOLIMS s 31avo 10313a 11 6 81 YALNdWOS 338055 e1 99 NOI LRSIN LSIG 02 000 902008 29 18 2 YILLISNId xog 10919 91 YALLASNid 1531 1 25 Vector Camera Assembly 1 29 aasolo ATIVWHON 91 N3dO ATIVINHON SL WOO v HalndWoo EL 000 Lvp900 9 000 11Z00S 2S INOA LASAY 29 1 0628 000 7 8198 18 HOLIMS 09 J318VO HOLIMS 6 000 1009 9 318vo N04 19593 8 000 182008 24 dia vO Viva 2 000 0S000S 2S 318 VO 9 9 000 112008 248 q18vO HOLIMS ddaMSs v 000 022008 8 318 VO 19313 Tiva Y019313q Yg LH9IY 0 Y0193130 riva 1481 9 SUM 0629 HWY 000 212008 29 1 04 13688 000 198006 29 8 J18VO A 1NOA LASSY 000 7281 98 6 29 2 HolMS d33MS 000 182009 9 OL anayo viva 1 000 112008 29 MHOlIO313Gd HOLIMS d33MS Mrd 6 000 0S000S 2S 4 318v9 Holoal3
4. 31195 HOWA 599 1119 xosaldvavsadv 29 1 8 QNVIWINOO JOYNOS Haldvav Sav 29 3790 71949 1HOHS ANV1 1 0628 000 96 lt 005 5 LL X 318VO 319A9 1HOHS Bae 1X0828 E nana f E fe E 000 Lv900S 7S xog OL SL ANV1 1 0628 AWV 000 728198 26 HOLIMS EL J18VO 3 19AO LHOHS ANV1 LL 1 0628 AW 000 66008 8 01 NOILNGINLSIG 6 2 YOOS NVO 9 SISSVHO MSALLASNId 9 OLNIVHO ASIVG 318VO S8 HG Z LINN T1OHINOO YSDVNVW 1 214424 TXO6C 9 201 241814 OL GANNId 318V2 LHOIWYLS Nid 6 91 1 0628 3INV 1 0628 8 00 28 198 2 000 728198 6 H LIMS H LIMS 000 212008 28 d33MS 91 d33MS 69 LNO H4 1Y NOILISOd LNOwS SAOWSY a1avo 2 39VJH3 LNI NOW 39 Lind SISSVHO s HOOS NVO 9 SISSVHO H3ll3SN
5. to indicate that the output is not enabled OV When the beam is blocked the LED turns Off to indicate the output is enabled V OPERATION LEVEL X 1 1 OPERATION LEVEL OPERATION LEVEL X 0 9 TIME GREEN LED ON LED INDICATION YELLOW LED Vector Ball Detect LED Sensitivity Chart Vector Camera Assembly 9 BALL DETECT CALIBRATION INSTRUCTIONS 1 Turn the sensitivity adjustment fully CCW The yellow LED will be Off and the Green LED will be Refer to figure titled Sensitivity Adjustment 1 1 CLOCKWISE CW 2 COUNTER CLOCKWISE CCW 3 PHILLIPS SCREWDRIVER 11 696972 003 4 SENSITIVITY ADJUSTMENT Sensitivity Adjustment 1 1 CLOCKWISE CW 2 COUNTER CLOCKWISE 3 PHILLIPS SCREWDRIVER CCW 11 696972 003 4 SENSITIVITY ADJUSTMENT 5 GREEN LED 6 YELLOWLED 2 Turn the sensitivity adjustment CW very slowly until both LEDs turn Refer to figure titled Sensitivity Adjustment 1 m NOTE When adjusting the ball detector the green LED will turn Off the Yellow LED will turn then the Green LED will turn back On This is normal operation 3 Once both the green and yellow LEDs are turn the sensitivity adjustment an additional 1 8 turn Refer to figure titled Sensitivity Adjustment 2 1 1 8 TURN
6. 19 20 Camera Lens The camera used to take pictures of the pins Scorer Computer J6 Connection used to communicate to the scorer computer This connection also transfers the camera s video to the scorer computer Transmit LED D16 LED D16 flashes when the board is transmitting information to the scorer computer Receive LED D17 LED D17 flashes when the board is receiving information to the scorer computer Auxiliary Camera J7 J8 Connection to an additional camera for lane pairs that have a large distance between lanes Foul J3 Input for the signals from the foul units for both the left and right lanes Also refer to 9 Foul Jumper Foul Jumper JP1 Jumper used to configure the distribution so that is can properly handle the foul input signal When using Brunswick foul units or foul units that uses a relay type switch output install a jumper to short the pins If using a foul unit that supplies 12VDC as an output AMF remove the jumper Foul Signal LEDs 014 015 LED 1314 green turns ON when the board is receiving a foul signal for the left lane LED D15 red turns when the board is receiving a foul signal for the right lane Even Lane Pinsetter Control Connection to the even right lane pinsetter The distribution PCB turns the even lane pinsetter on off by energizing relay K1 and resets cycle the pinsetter by energizing relay K2 LED D19 turns when the
7. RIGHT lt 8 9 CYCLE AMF 8290XL Foul Reset Cable Part No 57 500212 000 1 TO J10 ON DISTRIBUTION 2 TOJ3ONDISTRIBUTION 3 TO J9 ON DISTRIBUTION BOARD BOARD BOARD 4 RIGHT 5 LEFT 6 POWER 7 POWER 8 CYCLE 9 CYCLE 10 TO 8290 Vector Camera Assembly 31 1 ELECTRICAL BOX 1 2 ELECTRICAL BOX RAKE SWITCH 2 TRIGGER CLIP RAKE SWITCH ET 3 TRIGGER CLIP Brunswick A Pinsetter Sweep Switch Cable Part No 57 500213 000 1 ELECTRICAL BOX 2 RAKE SWITCH 3 TRIGGER CLIP 5 12V DC 6 LEFT BALL DETECT DN DISTRIBUTION 7 GND 6 LEFT BALL DETECT 9 TO BALL DETECTS 5 12V DC WHITE 8 RIGHT BALL DETECT BLUE 57 500220 000 ON DISTRIBUTION 7 GND ORANGE Ball Detect Cable Part No 57 500220 000 1 TO J15 ON DISTRIBUTION BOARD 2 TO J16 ON DISTRIBUTION BOARD 3 RIGHT 4 LEFT 5 12 VOLTS DIRECT CURRENT 6 LEFT BALL DETECT 7 GROUND 8 RIGHT BALL DETECT 9 TO BALL DETECTS 12 1 46 DIST 1 4 DISTRIBUTION BOARD LANE SERVER CAMERA ASSEMBLY BLACK 6 RXD BLACK 2 BLACK WHITE 7 TXD BLACK WHITE RED 8 GND RED RED WHITE 9 12V RED WHITE 8 GND BROW
8. 43 1ST BALL LEDS m 7 71 NOT USED CAMERA 12 31 FI FOUL SIGNAL RIGHT LANE Ld LEDS SWEEP SWITCH 54 FOUL L 27 LED je c 5111 E 5 1 13 30 29 LAE us 55 ga LEVEN LANE LEFTLANE DATA LEDS 2 ME CONTROL SWEEP SWITCH USED 7 920 m Ben 8 LED D22 U10 IN E 2 28 j E LEFT LANE 1 5 sl 14 TAKE DATA LEDS PE S ow E 5114 ODD LANE NOT USED 27 CONTROL DIAGNOSTICS 1 e s 5 oap 2 26 LED 80 0 8D E NPS LEDS NOT USED E 25 Gels 15 AMF HAD BUMPER ML Def mma LEDS 24 1 017 2 20 NPS NOT USED Aue ODD 19 Men BALLDETECT EVEN Re BALL DETECT CONTROL 23 LEFT PINSPOTTER RIGHT PINSETTER 21 18 NPS USED AMF BALL DETECT SHORT CYCLE JUMPER JP6 Vector Camera Chassis Version 6 0 The function of the components in the Vector Camera Chassis version 5 0 are 1 sweep rake switch 2 sweep rake switch 3 4 Odd Lane Sweep J1 Signal from the odd lane pinsetter s Even Lane Sweep J2 Signal from the even lane pinsetter s Camera J4 Connection for the camera s power and video Video J5 Connection to Scorer Computer for the camera video Vector Camera Assembly 5 5 6 7 8 9 10 11 12 13 14 15 16 17 18
9. the interval is too short it may include pins just about to fall or the sweep board may block the camera from seeing the pins If the delay is too long the pinsetter deck or table may block the pins 3 NOTE 1500 3000 milliseconds is a typical setting for most pinsetters 5 6 7 8 9 Light Level Setting Low Light An alternative light level setting to the that can be used to determine the minimum light level needed to detect a pin as standing This is usually used to set a lower threshold for use during Cosmic or other low light situations Test Day Click this button to simulate how the camera will score when using the light level value entered in the Level box Test Night Click this button to simulate how the camera will score when using the light level value entered in the Level Night Bowling box Speed Calibration Value Enter a new value in this box to change the ball speed calculation Increasing the value cause an increase in the ball speed shown on the overhead Lower this value decreased the speed shown Speed Calibration Utility Button Click this button to run the ball speed calibration wizard Camera Calibration In order to calibrate the camera the pinsetter associated with the camera must be on with 10 pins standing on the pindeck Perform the following steps to calibrate the camera to the pins l 2 3 Select the lane to be calibrated Using the mouse drag the target for the P
10. CONTENTS General DescrIpLioti sues 3 Vector Camera Chassis version 6 0 2 oe 5 Detector oett ie e 8 Ball Detect LED E E 9 Ball Detect Calibration 8 0200 00 0 10 Ball Speed Adjustment Pinsetter Modifications 2 0 0 10000 13 e oet Fo EO nei ae 13 Sweep Rake Switch Wiring 13 Scoring Sequence of Event 2 e a 15 First Ball Second Ball itid E 15 E 17 oet eite 18 Pinsettngs 20 Camera Calibrations 23 Cable eden tette tue ia iet 25 Vector Camera Assembly 1 Intentionally Blank Page 2 Vector Camera Assembly GENERAL DESCRIPTION The Vector camera assembly is an electrical optical device used with non GS series pinsetters to count standing pins control on off and ma
11. CYCLE COM 13 TERMINAL B PINSETTER RESET 14 TO RAKE DOWN BYPASS SWITCH 57 500206 000 2 J1 LEFT LANE OR J2 RIGHT LANE A A 2 Reset Power Sweep Cable Part No 57 500206 000 1 J10 LEFT LANE OR J9 RIGHT LANE 2 J1 LEFT LANE OR J2 RIGHT LANE 3 TO DISTRIBUTION BOARD 4 POWER NO 5 POWER 6 CYCLE NO 7 CYCLE COM 8 SWEEP 9 GROUND 10 TERMINAL PINSETTER POWER 11 TERMINAL B PINSETTER POWER 12 TERMINAL A PINSETTER 13 TERMINAL B PINSETTER RESET RESET 2 LEFT FOUL 7 OR 12 DC 3 LEFT FOUL 4 RIGHT FOUL DISTRIBUTION BOARD J3 5 RIGHT FOUL 6 GND 57 500207 000 Foul Cable Part No 57 500207 000 1 TO DISTRIBUTION BOARD J3 2 LEFT FOUL 3 LEFT FOUL 4 RIGHT FOUL 5 RIGHT FOUL 6 GROUND 7 OR 12VDC 8 RIGHT 9 LEFT 10 TO FOUL UNIT 3 CLOCK 6 TO DISTRIBUTION BOARD J11 LEFT LANE OR 4 1 PINSETTER J12 RIGHT LANE 57 500209 000 AMF 8270MP Short Cycle Cable Part No 57 500209 000 1 PINSETTER 2 NO CONNECTION 3 CLOCK 4 COM 5 DATA 6 TO DISTRIBUTION BOARD J11 LEFT LANE OR J12 RIGHT LANE 30 Vector Camera Assembly 1 2 P
12. N WHITE 10 5V BROWN WHITE io 1 6 7 I 2 NC 11 2 NC CHASSIS 4 SHELL 3 DRAIN GND 3 DRAIN BROWN BROWN OOOOO DISTRIBUTION 57 500281 000 OOOO 9 Distributor to Scorer Computer Data Cable Part 57 500281 000 1 TO DIST 1 4 ON LANE SERVER 2 NO CONNECTION 3 DRAIN 4 SHELL 5 DISTRIBUTION 6 RXD 7 TXD 8 GROUND 9 12V 10 45V 1 CHASSIS GROUND 12 TO J6 ON DISTRIBUTION BOARD IN CAMERA ASSEMBLY 32 Vector Camera Assembly 1 2 5 PIN 3 PIN 2 PIN CANNON CANNON CANNON CONNECTOR CONNECTOR CONNECTOR 4 WIRE CLAMP 8 LOW VOLTAGE TERMINAL STRIP A 2 Pinsetter Wiring 1 5 CONNECTOR 2 3 CONNECTOR 3 2 4 WIRE CLAMP 5 NUT 6 TAP SPLICER 7 MOTOR START RELAY 8 LOW VOLTAGE TERMINAL STRIP Vector Camera Assembly 33 Intentionally Blank Page 34 Vector Camera Assembly
13. Nid H3llOdSNid 01 3Nv1N3 a3 12 8 v 8 12 NHO i E 18 000 28198 5 HOLIMS d33MS 21 2 m AL g 000 728198 6 HOLIMS d33MS 2 HOLIMS OL ug 000 0 2009 9 q318vo YAMOd LASAN 8 000 1 2009 9 318v9 HOLIMS d33Ms 9 6 2uL1M 0229 HWY 000 20Z00S 2S d18vo nod 000 182008 29 orn ef q3i8vo viva 1 MalndWoo Nasoos 1 H3 LLOdSNId OL 61 318vO9 9 9 2 9 000 022005 5 000 1 2008 29 d18vO HOLIMS d33MS v gav E wn Tiva 99 NOI LQSIN LSIG 000 01 2005 76 q318vo YAMOd LASAY 8 000 602008 29 410228 318v9 37949 LYOHS 6 22 3019313 Tivd LHOIY YyOLOALAG Tivd 1331 Vector Camera Assembly GANNId SISVONYHLLHSIVYLSANVNid 6 91 1X0628 318VO LHOHS ANV1 1 0628 000 96 00S ZS LNO H4 LV NOILISOd 1 3 SAOWSY 3 18VO ANV
14. OWER J9 RIGHT LANE 3 POWER COM OR J10 LEFT LANE 4 CYCLE NO AMF PINSETTER 5 CYCLE COM DISTRIBUTION BOARD 57 500210 000 8230 8270 Power Reset Cable Part No 57 500210 000 1 TO J9 RIGHT LANE OR J10 2 POWER 3 POWER COM ON DISTRIBUTION BOARD 4 CYCLE NO 5 CYCLE COM 6 TOAMF PINSETTER 7 TO PINSETTER SWEEP SWITCH 3 SWEEP 5 NC OF SWEEP SWITCH 1 TO DISTRIBUTION BOARD 4 GND J1 LEFT LANE 6 COM OF SWEEP SWITCH OR J2 RIGHT LANE 57 500211 000 Sweep Switch Cable Part No 57 500211 000 1 TO DISTRIBUTION BOARD 2 NO CONNECTION 3 SWEEP J1 LEFT LANE OR J2 RIGHT LANE 4 GROUND 5 NORMALLY CLOSED OF 6 COMMON OF SWEEP SWITCH SWEEP 7 TO PINSETTER SWEEP SWITCH 6 POWER NO 1 10 7 POWER ON DISTRIBUTION BOARD 8 CYCLE NO 9 CYCLE RED BLACK GREEN 10 LEFT FOUL GREEN 2 WHITE 11 LEFT FOUL WHITE TO J3 12 10 ON DISTRIBUTION ORANGE MESRIGHT FOUL RON TO AMF 8290 BOARD YELLOW 13 RIGHT FOUL BLUE ORANGE NC YELLOW 57 500212 000 gt 6 POWER NO 3 TO J9 ON DISTRIBUTION BOARD 7 POWER COM
15. chine reset for a pair of pinsetters and interface the foul units to the scoring system The system uses a camera ball detect assemblies a distribution PCB and special pinsetter modifications to accomplish this Refer to figure titled Vector Components 2 3 CAMERA PINSETTER SWITCHES 1 BALL DETECT 5 BRUNSWICK SWITCH Vector Components 1 BALL DETECT 2 VECTOR CAMERA CHASSIS 3 PINSETTER SWITCHES 4 AMF SWITCH 5 BRUNSWICK SWITCH The Vector camera chassis is mounted on the ball return capping of a lane pair so that the front edge of the unit is approximately 150 3 81 m from the center of the last row of pins Refer to figure titled Camera Position The assembly uses a single camera to take a picture of the pit area of both pinsetters The picture is sent to the scoring computer where it is analyzed by the Video3 PCB During the analysis a portion of the picture is searched for bright reflections and shapes resembling pins This is compared to a stored calibration to determine if the reflection level for the pins is above a reference brightness level set by the user through the control desk Any reflection level that is above the set level is counted as a standing pin An infrared ball detect is mounted near the pinsetter and a switch is mounted on the pinsetter to monitor the rake sweep drop are used to ensure that the unit s
16. cores only after a ball has been thrown and the pinsetter has triggered A ball detect signal will not be accepted unless the switch is actuated Scoring occurs after a the rake sweep switch contacts have closed and a user determined time delay has passed In the event that the pinsetter does not cycle on its own the system will score then cycle the pinsetter using the machines reset circuit Vector Camera Assembly 3 1 FRONT EDGE OF CHASSIS e 150 3 81 3 3 e o VECTOR CAMERA 2 ASSEMBLY BALL RETURN e e CAPPING e e e e Vector Camera Position 1 FRONT EDGE OF CHASSIS 2 BALL RETURN CAPPING 3 VECTOR CAMERA ASSEMBLY The Vector camera consists of the following components Ball Detect The ball detect 1s an infrared device that senses when a ball has been thrown The signal from the ball detect tells the Vector system when to begin the scoring cycle for a lane Pinsetter Modifications A sweep rake switch is added to the pinsetter to make sure the camera takes the picture at the proper time during the pinsetter cycle Also connections into the pinsetters circuits allows auto triggering of the pinsetter special pinsetter cycles for No Tap or 3rd ball 10th frame situations and AMF short cycle Vector Camera Chassis The Vector Camera Chassis contains a camera and the Distribution PCB The Distribution board p
17. d 9 VH3INVO Tva 1331 9 9 0 1 0628 H31ndWOO9 H3HO2S 000 022005 5 LL Alavo a Tvg 000 28198 25 2 82d HOlIMS GO 000 112005 15 1 d33MS ANY 31aV9 HOLIMS d33MS 01 9 26 Vector Camera Assembly NOILNGINLSIG 29 000 20Z00S 2S 1nO4 81 WOO vL YALLOdSNid LZ 000 728198 5 HOLIMS d33MS ZL HalndWoosaHoos 61 000 602005 6 q18vO LHOHS 6 HOLIMS 37049 OL 02 ATIVWHON 91 YALLOdSNIid ANV1GGO OL 61 N3dO ATIVWYON SL YALLOdSNId OL 29 5 000 012009 9 YALLOdSNId 01 27 537189 8 000 18 008 9 Viva 1 000 050005 5 a18vO 9 9 000 112006 6 318VO HOLIMS 9 000 022005 5 1 2 193130 Tiva 1 Tiva LHOIY 2 HOloalaad riva 1431 1 MH3LLOdSNId 3NY1N3 3 OL 21 000 602006 6 9 1028 310A9 1HOHS HOLIMS 31949 OL 02 1 YaLLOdS
18. delay between the time that the rake or sweep is triggered and when the camera should take the picture for scoring This value should be set to allow the rake sweep to drop to the guard position before the picture is taken The delay should end before the rack table begins to move i NOTE 1500 3000 milliseconds is a typical setting for most pinsetters 7 When all camera settings have been made for this lane select the Save button or Send to Scorer as appropriate a NOTE The Vector program will automatically exit and restart when settings have been changed 24 Vector Camera Assembly CABLE DIAGRAMS YOLNAINLSIG 02 YALLASNid LHOIH 61 HOLIMS 81 1 9 21 91 xoa 199319 89 YALLASNid 1481 99 YALAdWOO 000 902008 4 318vO d33MS INOA 29 MAMOd LASAY YALLASNId LL 000 202008 24 a1avo 1nO4 01 6 aao 8 000 8 008 9 a1avO Viva 2 000 0S000S 2S 318 vO 9 9 000 90 008 9 318v9 d33MS MAMOd LASAY HallasNid p 000 022005 5 31a vo 193130 riva Y0193130 riva 2 YOLOSLAG riva 1457 1 401224 4919514 19535 21 91 000 902009 9 d33Ms d3MOd L3S3H YALLASNId 44 000 202008 29 HOLIMS 1NO4S 1 6 1009 01 NMOQ JAVY 81 xog 19919 81
19. ed to determine the minimum light level needed to detect a pin as standing during normal bowling conditions 4 good rule of thumb is to select a value midpoint between the level of light shown for the darkest pin and the level displayed when a target is positioned on the background Normally the preset level will be in the 80 to 100 range but if the lighting is dimmer or brighter than normal it may fall outside these values 22 Vector Camera Assembly 4 Level should be set to a substantially lower value than the light level for all pins particularly pins in the back rows where there is less lighting For example two camera pictures of the same lane taken immediately after each other can have different light levels For this reason it is a good idea to take several pictures in order to see how much the light can vary Also remember that during bowling the camera pictures are taken when the sweep is down This results in pictures that are somewhat darker than the pictures used during setup It is important to allow for this when setting the levels Scoring Delay The Delay time in milliseconds controls when the scoring picture is taken The time starts once the rake sweep has left the home position and the sweep switch has opened This value should be set to allow the rake sweep to drop to the guard position before the picture is taken The delay should end before the rack table can make contact with the top of the pins If
20. he one stored 1 NOTE A typical starting value is approximately 2700 b Run the speed calibration utility 4 Re boot the scoring computer to activate the changes Vector Camera Assembly 11 Scorer Cance Pin settings Pin Camera Settings 1 SPEED CALIBRATION UTILITY BUTTON 12 Vector Camera Assembly dd m 999999999 Spend clitwatinn sity 2 CALIBRATION VALUE 2 Calibration Value 1 Speed Calibration Utility Button 2 Calibration Value 1 Speed Calibration Utility Button PINSETTER MODIFICATIONS Sweep Rake Switch The sweep rake switch ensures that the camera takes the picture only after the pinsetter triggers Ifa ball detection has occurred the opening of sweep switch causes the camera to take a picture after a preset delay Additional ball detect signals will be ignored when the switch is opened The wiring of the switches is dependant on the EPROM version of the distribution PCB Refer to figures titled Switch Wiring Chart Brunswick Rake Switch and AMF Sweep Switch Sweep Rake Switch Wiring Brunswick Pinsetters with Distribution PCB V1 3 or later Common COM Normally Closed NC AMF Pinspotter Sweep Connections Common COM Normally Closed NC Switch Wiring Chart 1 2 ELECTRICAL BOX RAKE SWITCH 1 ELECTRICAL BOX 2 RAKE SWITCH 3 TRIGGER CLIP Brunswick Ra
21. hen needed AMF Short Cycle Left Pinspotter J13 Connection to the AMF 8270MP pinspotter to allow the odd lane machine to perform a short cycle when needed Right Pinsetter NPS Not Used Left Pinsetter NPS Not Used AMF Short Cycle LEDs Leds D37 left lane and D38 right lane turn On when the short cycle signal sent AMF pinspotter NPS LEDs Not Used Diagnostics LED Led D30 flashes when the Distribution PCB is working properly Left Lane Take Data LEDs Not Used Left Lane Sweep Switch LED D26 On when the sweep switch for the left odd lane is actuated Right Lane Take Data LEDs Not Used Right Lane Sweep Switch LED 020 when the sweep switch for the left odd lane is actuated 1st Ball LEDs Not Used Vector Camera Assembly 7 BALL DETECTOR The Vector uses a ball detector that is an infrared sensing device The ball detector unit is made up of two infrared transmitters and receivers one for each lane Within each lane unit there are two lenses one to focus the transmitted infrared beam toward the reflector on the opposite side of the lane and one to focus the return light from the reflector onto the infrared receiver LEDs on the unit indicate power signal stability and level The provided adjustment allow the user to adjust the ball detection sensitivity Refer to figure titled Vector Ball Detector
22. id s YALLASNId HOV3 OL ASIYA 5 EI MAINE e LINN IOHLNOO unt A L 28 Vector Camera Assembly 1 RIGHT FOUL 2 RIGHT FOUL 3 RIGHT CYCLE COM 4 RIGHT CYCLE 5 LEFT FOUL 6 LEFT FOUL 7 LEFT CYCLE COM 8 LEFT CYCLE NO 57 300841 000 8290XL Foul Reset Cable Part No 57 300841 000 1 RIGHT FOUL 2 RIGHT FOUL 4 RIGHT CYCLE NO 5 LEFT FOUL 7 LEFT CYCLE 8 LEFT CYCLE NO 3 RIGHT CYCLE 6 LEFT FOUL 1 2 1 4 VIDEO LANE SERVER 3 SHIELD 57 500050 000 Camera Video Cable Part No 57 500050 000 1 TO CAMERA 1 4 ON LANE SERVER 2 VIDEO 4 TO CAMERA ON SCANNER 3 SHIELD Vector Camera Assembly 4 TO CAMERA ON SCANNER 29 3 TO DISTRIBUTION BOARD POWER NO 10 TERMINAL A PINSETTER POWER 4 RED POWER COM J10 LEFT LANE 11 TERMINAL PINSETTER POWER OR J9 RIGHT LANE GREEN CYCLE NO T 12 TERMINAL A PINSETTER RESET WHITE
23. in 1 from the column at the right side of the dialog box to the head of the pin 1 The number in the column on the right indicates the light level for that pin Repeat the previous step for all pins NOTE It is important to place the correct pin target on its corresponding pin if not incorrect scoring will occur Vector Camera Assembly 23 4 Set the initial Light Threshold Record the light value for all ten pins Knock all ten pins over and record the light value for each pin c Select the Level field and enter a value midway between the lowest light level value recorded in step a and the light highest level recorded in step b t NOTE The initial light level setting described is a good starting point for camera calibration The actual light level used may be varied from this setting to accommodate different lighting and pin conditions such as colored pins 5 Setthe initial Night Light Threshold a Setthe bowling center s lighting up as it would be used during night bowling events such as cosmic bowling black light bowling or other reduced lighting conditions Record the light value for all ten pins Knock all ten pins over and record the light value for each pin d Select the Level field and enter a value midway between the lowest light level value recorded in step b and the light highest level recorded in step 6 Set the Delay value a Select the delay field b Enter the amount of
24. ke Switch 1 ELECTRICAL BOX 2 RAKE SWITCH 3 TRIGGER CLIP Vector Camera Assembly 13 Sweep Switch 1 SWITCH ADJUSTMENTS 14 Vector Camera Assembly SCORING SEQUENCE OF EVENTS First Ball Second Ball The following describes the events necessary for the first and second ball scoring sequences 1 NOTE The scorer console must be turned bowler s name entered The bowler delivers the first ball The ball breaks the ball detect s light path and sends a signal to the distribution PCB The scoring process starts The pinsetter is triggered by the ball NOTE If the pinsetter does not trigger on its own the distribution board will automatically take a picture and trigger the machine after a time delay that is calculated based on the fast ball slow ball settings as set on the scorer settings screen and continues from step 6 The sweep falls downward causing the sweep switch to open sending signal to the Distribution PCB After the time delay entered on the pinsettings screen at the control desk the camera takes a picture and sends it to the Video3 PCB The Video3 PCB analyzes the picture Score is displayed The sweep switch closes to reset scoring cycle Vector Camera Assembly 15 E Ball Detect Begin Slow Ball Fast Ball Timer Did the Pinse
25. lly take a picture and trigger the machine after a time delay that is calculated based on the fast ball slow ball settings as set on the scorer settings screen and continues from step 6 4 The sweep falls downward causing the sweep switch to open sending signal to the Distribution PCB 5 After the time delay entered on the pinsettings screen at the control desk the camera takes a picture and sends it to the Video3 PCB 6 The Video3 PCB analyzes the picture and determines a strike has not occurred 7 score is displayed on CRT s 8 The sweep switch closes to reset scoring cycle 9 The Distribution PCB sends a reset signal to the machine causing it to cycle a second time 18 Vector Camera Assembly EX Ball Detect LA Start Slow Ball Fast Ball Timer Trigger Cycle Pinsetter Sweep Rake Switch Opens Additional Ball Detect Signals Are Ignored Did thes Pinsetter Cycle so that the Sweep Rake m Opened Before Time VA bz Stop SB FB Timer Additional Ball Detect Signals Are Ignored Score After Preset Time Delay As Set On The Pinsettings Screen Sweep Switch Closes Cycle Machine After Delay as Entered On The Scorer Settings Screen No Third Ball 10th Frame Scoring Sequence Vector Camera A
26. ontinues from step 6 The sweep falls downward causing the sweep switch to open sending signal to the Distribution PCB After the time delay entered on the pinsettings screen at the control desk the camera takes a picture and sends it to the Video3 PCB The Video3 PCB analyzes the picture N X is displayed CRT s The sweep switch closes to reset scoring cycle The Distribution PCB sends a reset signal to the machine causing it to cycle a second time Vector Camera Assembly 17 3rd Ball 10th Frame The following describes the events necessary for the third ball tenth frame scoring sequence This 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 not required to push the Reset button to get a full rack first ball 1 NOTE The scorer console must be turned on a bowler s name entered and the sequencing arrows on a bowler s name 1 The bowler delivers the first ball The ball breaks the ball detect s light path and sends a signal to the Distribution PCB 2 The scoring process starts 3 The pinsetter 1s triggered by the ball or if the pinsetter does not trigger on its own the a reset signal is sent from the Distribution PCB to trigger the machine d NOTE If the pinsetter does not trigger on its own the distribution board will automatica
27. owers the camera interfaces the foul unit and ball detectors controls the pinsetter on off and triggering and allows communication to the scorer computer 4 Vector Camera Assembly VECTOR CAMERA CHASSIS VERSION 6 0 The Vector Camera Chassis version 6 0 contains a camera and a Distribution PCB The distribution board in camera chassis supplies power to the camera and routes the camera video to the scorer computer turns the pinsetters on off cycles the pinsetters as needed controls AMF automated bumpers interfaces the ball detectors and foul unit to the scoring system and controls the AMF pinspotter for short cycle situations Version 6 0 also contains circuitry and connectors on the circuit board to expand functionality in the future Refer to figure titled Vector Camera Chassis 6 0 6 RIGHT PINSPOTTER 5 SCORER 2 3 visto CAMERA COMPUTER 7 9 EVEN LANE CAMERA OUT TRANSMIT __ 8 AUXILIARY SWEEP LED RECEIVE CAMERA LED U 0 h n 1 XH FOUL ODD LANE SWEEP 11 32 FOUL JUMPER
28. pinsetter power relay K1 energizes LED D23 turns on when the pinsetter reset relay K2 energizes Odd Lane Pinsetter Control Connection to the odd left lane pinsetter The distribution PCB turns the even lane pinsetter on off by energizing relay K3 and resets cycle the pinsetter by energizing relay K4 LED D27 turns when the pinsetter power relay K3 energizes LED D33 turns on when the pinsetter reset relay K4 energizes Bumper LEDs LED D39 turns On when a signal is sent to the AMF automated bumpers on the right lane LED D40 turns when a signal is sent to the AMF automated bumpers on the left lane AMF Bumper Control J17 Connection to AMF automated bumpers Ball Detect LEDs LEDs D31 left lane and D32 right lane turn when a ball detect signal occurs Ball Detect Jumper JP6 Jumper used to configure the distribution PCB to power the ball detectors with 5VDC or a 12VDC For Vector type ball detectors set the jumper to 12VDC Even Ball Detect J14 Connection for the signal and power for the even lane ball detector Odd Ball Detect J13 Connection for the signal and power for the odd lane ball detector 6 Vector Camera Assembly 21 22 23 24 25 26 27 28 29 30 31 32 AMF Short Cycle Right Pinspotter J14 Connection to the AMF 8270MP pinspotter to allow the even lane machine to perform a short cycle w
29. ssembly 19 Pinsettings The Pinsetting Vector and Pin Camera Setting Vector Plus functions are used to control the operation of the Pinfall Camera The Pinfall Camera takes a picture of the standing pins that is used to calculate the score The camera settings are very important for proper operation of the scoring system The score for each ball is determined by comparing the light level within a target with a threshold value Ifthe light level inside the target 1s higher than the threshold value the scorer will determine the pin is standing Ifthe light level inside the target 1s lower than the threshold value the scorer will determine the pin has fallen and score it as pinfall The system has two light thresholds One that 1 set up for normal operation and one that is set up for operation in low light conditions such as black lights or times when lights over the bowling lanes are turned off Refer to the figures titled Accessing Pin Camera Settings Pin Setting Window Vector Control Desk and Pin Camera Settings Window Vector Plus Control Desk Use the following sequence to access the pin camera settings screen Vector Control Desk 1 Select the Settings menu 2 Select the Pin settings menu item 3 Enter a password if required 4 Make desired changes 5 Select the OK button Vector Plus 1 Select the Vector Settings button while on the lane status screen 2 Select Pin Camera Settings Se
30. tter Cycle so that the Sweep Rake Switch Opened Before Time Expired Stop Slow Ball Fast Ball Timer Trigger Machine Additional Ball Detect Signals Are Ignored Sweep Rake Switch Opens After Preset Time Delay Score As Set Pinsettings Screen Additional Ball Detect Signals Are Ignored Sweep Switch Closes First Ball Second Ball Scoring Sequence 16 Vector Camera Assembly The following describes the events for the no tap scoring sequence This cycle occurs when a bowler throws a no tap strike and the scorer is set to No Tap scoring At the end of the regular cycle the pinsetter will automatically cycle a second time so the next bowler does not have to press the reset button to get a full rack of pins 1 The bowler delivers the first ball The ball breaks the ball detect s light path and sends signal to the distribution PCB The scoring process starts The pinsetter is triggered by the ball or if the pinsetter does not trigger on its own the a reset signal is sent from the Distribution PCB to trigger the machine NOTE If the pinsetter does not trigger on its own the distribution board will automatically take a picture and trigger the machine after a time delay that is calculated based on the fast ball slow ball settings as set on the scorer settings screen and c
31. tup Chris Lane settings Ctrl I Pin settings Language Console Settings 1 Choose Pin Settings Choose Pin Camera Settings Accessing Pin Camera Settings 1 CHOOSE PIN SETTINGS 2 CHOOSE PINCAMERA SETTINGS 20 Vector Camera Assembly 1 2 LANE SELECT PIN TARGETS 29099999299 SPEED CALIBRATION 6 7 SPEED CALIBRATION UTILITY BUTTON 4 TEST DAY TEST NIGHT 3 VALUE SCORING DELAY LIGHT SETTING 5 SETTING NORMAL LIGHT LIGHT LEVEL SETTING LOW LIGHT Pin Setting Window Vector Control Desk Vector Camera Assembly 21 RNS Im au SETTING NORMAL LIGHT 5 LIGHT LEVEL SETTING night bowling LOWLIGHT 4 SCORING DELAY SETTING 9 8 Calibration value SPEED SPEED Speed calibration d CALIBRATION VALUE UTILITY BUTTON Pin Camera Settings Window Vector Plus Control Desk 1 Lane Select Drop down box used to select the lane for calibration 2 Pin Targets The spots where the camera is looking to determine whether or not that pin is standing The target are set by dragging them from the target area at the left and placing them over the proper pins in the display Once in position the light level 0 255 coming from the pin will appear to the left of the target 3 Light Level Setting Normal Light Setting us
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