Stop board compilation
Posted: Fri Jan 31, 2014 11:04 am
This information is from other post's from Ken Layton, and teqkng. I thought it would be better understood in one area.
If you have PERTINENT information to add to this post please do, otherwise please don't.
teqkng wrote:
Odd that stop board only has 4 relays... Mine has 5. I also noted that what I think is the Jackpot/Payout control on your example is 6 pin while mine is 8. Do we have 2 types of old stop boards and we never realized it?
I did not lay it out but the rows of 3 components pictured opposite the fuse seem to be tied to the individual reels and buttons and operate from one of the ICs I cannot find a path from what I believe controls the reels to the relays, I am now of the opinion that the relays control the Jackpot modes. I will need to experiment to find out.
Ken Layton, added:
On the AC1293aP2 Stop Boards:
I will explain the functions I see on this board judging by the pictures submitted.
Connectors CN1 & CN4, integrated circuits IC1 & IC2, and the circuitry on that side of the board all work together. CN1 is the input to IC1. IC1 feeds it's output to the input of IC2. IC2 then sends it's output to connector CN4.
Connectors CN2 and CN5 are straight pass-through only.
Connectors CN3 & CN6 and the relays are relay control portion of the board. CN3 is the input to the relay coils. CN6 is the output from the normally open side of the relay contacts. Here is the pinouts of CN3 and CN6:
CN3 (relay inputs):
Pin 1: Relay RLY1 coil input (anode side of the diode D4)
Pin 2: Relay RLY2 coil input (anode side of the diode D5)
Pin 3: Relay RLY3 coil input (anode side of the diode D6)
Pin 4: Relay RLY4 coil input (anode side of the diode D7)
Pin 5: No connection
Pin 6: Ground
CN6 (relay outputs):
Pin 1: From relay RLY1 normally open terminal
Pin 2: From relay RLY2 normally open terminal
Pin 3: From relay RLY3 normally open terminal
Pin 4: From relay RLY4 normally open terminal
Pin 5: No connection
Pin 6: Common to all relay common switches
Connector CN7 and the circuitry at the very far left are the power supply section for this board. Power input comes in on CN7. There is +12 volts for the relay coils generated on this board and regulated +5 volts for the integrated circuits.
Here is what I have found for the components on the "AC1293aP2" stop board.
C10, C12, C13: 1 uf @ 35 volt dipped tantalum capacitor, Radio Shack # 272-1434 (sells for $1.99 each)
IC2: M53207P = 7407 or NTE 7407 Hex Buffer/Driver with open collector HV outputs
IC1: UPC339C = LM339N or NTE 834 Quad Comparator, Radio Shack # 276-1712 (sells for $2.49 each)
C1, C2, C3: marked 104k is really .1 uf @ 100 volts mylar with radial leads
D4, D5, D6, D7, D8, D9: 1N4004 diode
REG: TA78L005AP = NTE 977 +5V regulator @ 100 ma
C9: 470 uf @ 35 volts with axial leads (main filter capacitor for this board), Radio Shack # 272-1018 (sells for $1.49)
From what I have found on the relays, Omron has changed their part numbering system a bit over the years. Here is what they come out to today.
Old Omron # G6E-134P-12VDC
New Omron # G6E-134P-ST-US-DC12
Mouser Electronics # 653-G6E-134P-DC12 (sells for $4.17 each)
Old Omron # G6E-134P-24VDC
New Omron # G6E-134P-ST-US-DC24
Mouser Electronics # 653-G6E-134P-DC24 (sells for $4.91 each)
The above relays are S.P.D.T. with contacts rated at 3 amps. The Omron "G6E" series do not cross reference to any replacements so you must use Omron brand relays.
On the AC1542aP3 board where capacitor C10 is a 1 uf @ 50 volt dipped tantalum, use this one from Mouser Electronics:
http://www.mouser.com/ProductDetail/Vis ... 050B1V1E3/ ?qs=sGAEpiMZZMtZ1n0r9vR22R37xUugJl7tvzGrUG2DPJ8%3d
For other instances where you need a 1 uf @ 35 volt dipped tantalum, use this one from Mouser Electronics:
http://www.mouser.com/ProductDetail/Vis ... 035A1V1/?q s=sGAEpiMZZMtZ1n0r9vR22VhK3copUdmcxS2rcy0keis%3d
If you have PERTINENT information to add to this post please do, otherwise please don't.
teqkng wrote:
Odd that stop board only has 4 relays... Mine has 5. I also noted that what I think is the Jackpot/Payout control on your example is 6 pin while mine is 8. Do we have 2 types of old stop boards and we never realized it?
I did not lay it out but the rows of 3 components pictured opposite the fuse seem to be tied to the individual reels and buttons and operate from one of the ICs I cannot find a path from what I believe controls the reels to the relays, I am now of the opinion that the relays control the Jackpot modes. I will need to experiment to find out.
Ken Layton, added:
On the AC1293aP2 Stop Boards:
I will explain the functions I see on this board judging by the pictures submitted.
Connectors CN1 & CN4, integrated circuits IC1 & IC2, and the circuitry on that side of the board all work together. CN1 is the input to IC1. IC1 feeds it's output to the input of IC2. IC2 then sends it's output to connector CN4.
Connectors CN2 and CN5 are straight pass-through only.
Connectors CN3 & CN6 and the relays are relay control portion of the board. CN3 is the input to the relay coils. CN6 is the output from the normally open side of the relay contacts. Here is the pinouts of CN3 and CN6:
CN3 (relay inputs):
Pin 1: Relay RLY1 coil input (anode side of the diode D4)
Pin 2: Relay RLY2 coil input (anode side of the diode D5)
Pin 3: Relay RLY3 coil input (anode side of the diode D6)
Pin 4: Relay RLY4 coil input (anode side of the diode D7)
Pin 5: No connection
Pin 6: Ground
CN6 (relay outputs):
Pin 1: From relay RLY1 normally open terminal
Pin 2: From relay RLY2 normally open terminal
Pin 3: From relay RLY3 normally open terminal
Pin 4: From relay RLY4 normally open terminal
Pin 5: No connection
Pin 6: Common to all relay common switches
Connector CN7 and the circuitry at the very far left are the power supply section for this board. Power input comes in on CN7. There is +12 volts for the relay coils generated on this board and regulated +5 volts for the integrated circuits.
Here is what I have found for the components on the "AC1293aP2" stop board.
C10, C12, C13: 1 uf @ 35 volt dipped tantalum capacitor, Radio Shack # 272-1434 (sells for $1.99 each)
IC2: M53207P = 7407 or NTE 7407 Hex Buffer/Driver with open collector HV outputs
IC1: UPC339C = LM339N or NTE 834 Quad Comparator, Radio Shack # 276-1712 (sells for $2.49 each)
C1, C2, C3: marked 104k is really .1 uf @ 100 volts mylar with radial leads
D4, D5, D6, D7, D8, D9: 1N4004 diode
REG: TA78L005AP = NTE 977 +5V regulator @ 100 ma
C9: 470 uf @ 35 volts with axial leads (main filter capacitor for this board), Radio Shack # 272-1018 (sells for $1.49)
From what I have found on the relays, Omron has changed their part numbering system a bit over the years. Here is what they come out to today.
Old Omron # G6E-134P-12VDC
New Omron # G6E-134P-ST-US-DC12
Mouser Electronics # 653-G6E-134P-DC12 (sells for $4.17 each)
Old Omron # G6E-134P-24VDC
New Omron # G6E-134P-ST-US-DC24
Mouser Electronics # 653-G6E-134P-DC24 (sells for $4.91 each)
The above relays are S.P.D.T. with contacts rated at 3 amps. The Omron "G6E" series do not cross reference to any replacements so you must use Omron brand relays.
On the AC1542aP3 board where capacitor C10 is a 1 uf @ 50 volt dipped tantalum, use this one from Mouser Electronics:
http://www.mouser.com/ProductDetail/Vis ... 050B1V1E3/ ?qs=sGAEpiMZZMtZ1n0r9vR22R37xUugJl7tvzGrUG2DPJ8%3d
For other instances where you need a 1 uf @ 35 volt dipped tantalum, use this one from Mouser Electronics:
http://www.mouser.com/ProductDetail/Vis ... 035A1V1/?q s=sGAEpiMZZMtZ1n0r9vR22VhK3copUdmcxS2rcy0keis%3d