LaserActive:PAC-S10 - Various Issues and Solutions

This page details several faults discovered while servicing various PAC-S10/S1 modules and their solutions.

Post-Recap Voltage Rail Check
After performing any capacitor replacement work, it is imperative to check the three voltage rails (+5, +8, -8) for short circuits. If there is a short circuit on any of these rails, it will damage the CLD-A100 player. Both the MAIN and SUB boards have fuses that are labeled with the voltages they protect on the back side of each board. Check that these are not shorted to Ground on BOTH boards. Also note that the SUB board has two grounds - one for digital and one for audio, which are joined together when connected to the MAIN board. The fused 5V rail is referenced to the digital ground and can be checked by measuring continuity to the ground on C506.

Further, after ensuring no shorts, verify that the fuses for the voltage rails still have continuity. If a replacement is needed, a size 0805 1.25A fuse is recommended for the +5V rail and size 0805 0.5A rated fuse for the +8V and -8V rails. These current ratings will ensure that, in the event of a short circuit, the surface mount fuse will blow before the ICP's in the Laseractive.

BIOS Freezes at Power On
This issue has more than one root cause.

Missing PCM Chip Select Line
Due to its proximity to C310, electrolytic fluid corrosion could have severed the PCM Chip select line to the SSUB connector, causing a bus collision, as the chip select line on the PCM ASIC has no pulldown/up to counteract a floating state. First, ensure the via to the left of C310 has continuity to IC28, pin 89. Then, check if it has continuity to pin 31 of the SSUB connector. If continuity is missing between either of these, restore it.

Data Line shorted or missing (5V/GND/adjacent pin)
The solder mask on the PAC is easily eaten away by electrolytic fluid. Ensure that the data lines for the PCM ASIC (refer to the [[Media:PAC-S10 and S1 SUB Board Schematic.pdf|schematic]]) are not shorted to 5V or GND, as the legs of leaded capacitors touching the traces can cause a short.

Additionally, data lines to Program RAM (IC's 24-27) or to the Sub CPU (IC13) may have been eaten by electrolytic fluid. verify all connections (refer to Mega CD 1 schematics).

Logos appear, spin, but BIOS unresponsive - Missing Signals from IC36
Electrolytic fluid from C311 can potentially damage the pads for IC36, pins 135-144. Some pins' traces are plainly visible on the top side of the board and should be checked for continuity to IC28. However, Pin 139 is the VSQ signal originating from the CLD-A100, and should connect to Pin D25 of the PAC connector. Pin 140 should have continuity to IC28, pin 30.

Blank Screen on Power Up - Cartridges and BIOS do not load - CSYNC still present
Assuming no short circuits were measured across any voltage rail on the PAC, one root cause for this issue is the "D15" signal (IC1, Pin 32) being severed. This trace runs directly under C302, which has likely corroded the trace after years of being exposed to electrolytic fluid.

Restore the signal by reconnecting Pin 32 to the plated via next to the "40" text, adjacent to the BIOS EEPROM.

No video output at startup (no CSYNC), Works without SSUB attached
The system reset IC (IC43) has been severed from the reset amplifier for MRES and SRES. Check that IC45, Pin 3 is connected to R66 (bottom side).

Missing/No Sound In Certain Games, Cannot boot Master System games
This is due to a missing data line from the Z80 CPU to the Sega 315-5660 ASIC. C129 is near the lines for D13-15 vias from the Z80 to the 5660 and C111 is near D5-7, increasing the probability of damage from extended exposure to leaked electrolytic fluid. First discover where the signal is lost and then jump the signal to the appropriate trace.

Horizontal Color Smearing
The PAC-S10/S1 employs separate voltage regulators to bias the emitter follower buffers for the RGB signals. The trace that provides voltage to the RED signal buffer is adjacent to C453, which is prone to heavy leakage and can sever the +5V regulated voltage line. This repair can be accomplished by using a thin gauge wire/component lead to jump the top side metal to the bottom side, or a wire can be used to directly jump the signal via the component pads as shown.