Difference between revisions of "Corvette"

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'''Systematic failure diagnosis<br>'''
 
'''Systematic failure diagnosis<br>'''
 
under construction...
 
under construction...
#Test each of the 74XX ICs via the diode test. If any gates test bad, even if not connected on the board, replace the IC.
+
#Test each of the 74XX ICs via the diode test. If any gates test bad, even if not used/connected on the board, replace the IC.
 
#Measure the output of the 7812 voltage regulator on the master board, regardless of the 12V indicating LED's state.
 
#Measure the output of the 7812 voltage regulator on the master board, regardless of the 12V indicating LED's state.
#Follow the analog signal provided by the hall effect sensor through the LM324 gates, starting with U1B pin 7 on the hall effect sensor board.
+
#Follow the analog signal provided by the hall effect sensor through the LM324 gates, starting with U1B pin 7 on the hall effect sensor board. Manually moving the engine assembly should cause DC voltage variations in the readings. If no variation is seen, the signal is being lost either at one of the LM324s or between them.
 
#Test the "disable" signal from the 74LS175 that shunts enables to the TIP-102s to ground.
 
#Test the "disable" signal from the 74LS175 that shunts enables to the TIP-102s to ground.
#Measure the analog signal output from the AD7524. During T.16, the output voltage should start at about 2.5VDC, increase to about 3.5VDC, decrease to 1.5VDC, then return to 2.5VDC.
+
#Measure the analog signal output from the AD7524. During T.16, the output voltage should start at about 2.5VDC, increase to about 3.5VDC, decrease to about 1.5VDC, then return to about 2.5VDC.
  
 
'''Additional Information'''<br>
 
'''Additional Information'''<br>
Cliffy and Martin Reynolds have compiled additional helpful information including adjusting the "non-adjustable" early version of the hardware. See: http://passionforpinball.com/lt5adjust.htm
+
Cliff "Cliffy" Rinear and Martin Reynolds have compiled additional helpful information including adjusting the "non-adjustable" early version of the hardware. See: http://passionforpinball.com/lt5adjust.htm
 
<BR><BR>
 
<BR><BR>
 
Return to [[Williams WPC]] page.
 
Return to [[Williams WPC]] page.

Revision as of 07:59, 2 October 2011

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Note: This page is a work in progress. Please help get it to a completed state by adding any useful information to it.


Manufacturer System Year Model Produced
Bally WPC-Security 1994 50036 5,001


1 Corvette Shop Guide

Please add info here...

2 Game-Specific Issues

2.1 LT-5 Engine Electronics issues

The LT-5 engine electronics, which cause the assembly to "shudder" when the engine revs, is a closed loop servo system. This system can be quite difficult to troubleshoot. The difficulty is partially due to the amount of remote circuit boards used, and the level of inaccessibility to troubleshoot these boards due to their rather awkward mounting locations. Documentation available for the electronics is sparse and sometimes incorrect. By combining the sparse information in the original release game manual with the information in manual amendment #16-9890 or the WMS 1996 service bulletin, a bit more sense can be made of the system.

Ultimately, a collection of 4 coils powered by 20VDC flash lamp power cause the assembly to move. This is accomplished via the following components.

  1. WPC-S MPU
  2. Ribbon cable from WPC-S MPU to the "Motor Drive Master Board A-18532 or A-19625"
  3. Motor Drive Master Board A-18532 or A-19625
  4. Especially long ribbon cable from the Motor Drive Master board to the "Slave Board A-18533"
  5. Slave Board A-18533
  6. Hall Offset Adjustment PCB A-19706 also under the LT-5 ramp (not present in early production games)
  7. Hall Effect Sensor
  8. Opto board under the LT-5 ramp

Note that there is an error in the schematics for the Master Board. U2 on the master board is not a 74LS374 as indicated. It is in fact a 74LS175 Quad D Flip Flop. The only function performed by U2 is to disable the coils by shunting the enable signals to the TIP-102 drive transistors to ground. The LED signals shown in the schematics aren't present nor are any LEDs other than the "power present" LEDs.

Also not shown on the master board schematics is the voltage regulation circuit that accepts 20VDC and regulates it down to 12VDC via a TO-220 case 7812T.

Power Train
As mentioned above, the 12VDC for the circuit is derived from 20VDC, and regulated by the master control board. The 5VDC used for the master control board (J2 pin 3) is the "typical" 5VDC used for the WPC-S boardset. However, the 12VDC originating on the master control board is transferred to the slave board via a ribbon cable. In addition to the 12VDC, a 7805T 5V voltage regulator is utilized on the slave board to generate 5VDC for the necessary components on the slave board and hall effect sensor board.

Logic ground for the circuit originates at J204 of the CPU board, and is transferred to the master control board via the ribbon cable at J1. Logic ground from the master control board (J3) is transferred to the slave board (J3) via the ribbon cable. Logic ground is transferred from the slave board (J1 pin 4) to the hall effect sensor board (J1 pin 4) via a single black wire.

The 20VDC and solenoid ground used to drive the four engine's coils is input into the slave board via J4, a .156" connector, and exits the board via J5, another .156" connector.

System Concept of Operations
The system creates a signal called "V/2 Ref" which accommodates 5VDC power circuit fluctuation. The Hall Effect sensor voltage and the V/2 Reference voltage are provided as inputs to an LM324 op-amp at U1. This provides the first voltage reference.

This second voltage is created by the MPU sending 8-bit digital values to the master board. The master board buffers and relays those signals to the slave board. Via J3 on the master board, the ribbon cable, and J3 on the slave board, the digital values are conveyed from master to slave. These signals pull the normally high 12VDC for each data line (D0-D7) on the slave board to ground, creating input to the AD7524 digital-to-analog (DAC) converter. The AD7524 outputs an analog voltage at pin 15.

The first and second voltage references are "mixed" via additional gates on U1 (U1B). That voltage acts as the drive voltage for additional gates on U1 as well as U3 (another LM324) which amplify or attenuate the signal relative to the V/2 reference and a "bias" voltage that is created similarly to V/2 reference. Eventually, voltages reach a level necessary to turn on/turn off the TIP-102 drive transistors.

Probable failure points
At least two instances of the 7812 voltage regulator failing have resulted in U1 (74LS374) and U2 (74LS175) on the master board failing as well as the AD7524 on the slave board. ULN2803s and LM324s have higher voltage tolerances, and do not appear to fail as frequently.

Systematic failure diagnosis
under construction...

  1. Test each of the 74XX ICs via the diode test. If any gates test bad, even if not used/connected on the board, replace the IC.
  2. Measure the output of the 7812 voltage regulator on the master board, regardless of the 12V indicating LED's state.
  3. Follow the analog signal provided by the hall effect sensor through the LM324 gates, starting with U1B pin 7 on the hall effect sensor board. Manually moving the engine assembly should cause DC voltage variations in the readings. If no variation is seen, the signal is being lost either at one of the LM324s or between them.
  4. Test the "disable" signal from the 74LS175 that shunts enables to the TIP-102s to ground.
  5. Measure the analog signal output from the AD7524. During T.16, the output voltage should start at about 2.5VDC, increase to about 3.5VDC, decrease to about 1.5VDC, then return to about 2.5VDC.

Additional Information
Cliff "Cliffy" Rinear and Martin Reynolds have compiled additional helpful information including adjusting the "non-adjustable" early version of the hardware. See: http://passionforpinball.com/lt5adjust.htm

Return to Williams WPC page.