IBM 5160 PSU 240V: Difference between revisions
(→Disassembly Notes: Refined the disassembly procedure) |
|||
Line 27: | Line 27: | ||
== Disassembly Notes == | == Disassembly Notes == | ||
The | The external casing must be tilted up when pulled all the way forward to release. | ||
Watch out for the speaker on the left side when sliding the | Watch out for the speaker on the left side when sliding the casing. | ||
The | The centre screw tab may catch on the PSU and cable (lift rear of case when sliding avoid). | ||
PSU slides | PSU is held by four 1/4" hex screws to rear of PC case and two slides on bottom of PC case and needs to be slid toward front of PC to release. | ||
When connecting the PSU back to the system the mother board power connectors should have the black wires next to each other. | When connecting the PSU back to the system the mother board power connectors P8 and P9 should have the black wires next to each other. | ||
The PSU | The PSU case has two Torx T15H security screws in addition to the standard 1/4" hex screws. | ||
Once the PSU is opened, there are four screws that need to be | Once the PSU is opened, there are four 1/4" hex screws that need to be undone to fully remove the main board, in addition to an earth wire and connector from the AC input board. | ||
There are three sub-boards attached to the main PSU board that generally do not need to be removed to access all the caps | There are three sub-boards attached to the main PSU board that generally do not need to be removed to access all the electrolytic caps. | ||
== Original Parts == | == Original Parts == | ||
Line 48: | Line 48: | ||
File:IBM_PC_XT_5160_Power_Supply.jpg | File:IBM_PC_XT_5160_Power_Supply.jpg | ||
</gallery> | </gallery> | ||
Note: Protruding toward camera - | Note: Protruding toward camera - Voltage Limiter sub-board on left, Overcurrent sub-board in centre, Inrush Limiter sub-board on right, | ||
{| class="wikitable sortable" | {| class="wikitable sortable" | ||
|+Capacitor [[Capacitor Specifications|Specifications]] and [[Part Footprints|Footprint]] Information | |+Capacitor [[Capacitor Specifications|Specifications]] and [[Part Footprints|Footprint]] Information |
Revision as of 12:51, 13 May 2024
- For more information, see this article's corresponding Wikipedia page: IBM Personal Computer XT.
Released as the IBM Personal Computer XT, or PC/XT, the 5160 is based around Intel's 8088 processor featuring 8-bit ISA slots for expansion cards. It came with one 5.25" floppy drive, and one 5.25" full height HDD most commonly 10MB. The PC/XT used a 130W power supply.
Preliminary Information | |
---|---|
Leak Risk | Low |
Batteries | None |
Destructive Entry | No |
Known Issues
No Power
Causes
- Power supply will not turn on
Solutions
- Power supply must have a load on it to activate
- Recap
Disassembly Notes
The external casing must be tilted up when pulled all the way forward to release.
Watch out for the speaker on the left side when sliding the casing.
The centre screw tab may catch on the PSU and cable (lift rear of case when sliding avoid).
PSU is held by four 1/4" hex screws to rear of PC case and two slides on bottom of PC case and needs to be slid toward front of PC to release.
When connecting the PSU back to the system the mother board power connectors P8 and P9 should have the black wires next to each other.
The PSU case has two Torx T15H security screws in addition to the standard 1/4" hex screws.
Once the PSU is opened, there are four 1/4" hex screws that need to be undone to fully remove the main board, in addition to an earth wire and connector from the AC input board.
There are three sub-boards attached to the main PSU board that generally do not need to be removed to access all the electrolytic caps.
Original Parts
130W Power Supply Main Board
204-1071-03
Note: Protruding toward camera - Voltage Limiter sub-board on left, Overcurrent sub-board in centre, Inrush Limiter sub-board on right,
RefDes | Qty | Capacitance | Voltage | Mount | Diameter/Size | Height | Lead Spacing | Temp | Type | Brand | Series |
---|---|---|---|---|---|---|---|---|---|---|---|
C1 Inrush Limiter sub-board | 1 | 100 µF | 25V | Through hole (radial) | 7mm | 12mm | 3mm | 105C | Electrolytic | Macron | CE-US (4WC?) |
C2 Inrush Limiter sub-board | 1 | 3.3µF | 25V | Through hole (radial) | 5mm | 12mm | 2mm | 105C | Electrolytic | Nichicon | M |
C2, C3 Overcurrent sub-board | 2 | 1 µF | 50V | Through hole (radial) | 5mm | 12mm | 2mm | 105C | Electrolytic | KML | |
C3001 Voltage Limiter sub-board | 1 | 47 µF | 16V | Through hole (radial) | 6mm | 12mm | 3mm | 105C | Electrolytic | Nichicon | M |
C25 | 1 | 2.2 µF | 50V | Through hole (radial) | 5mm | 12mm | 2mm | 105C | Electrolytic | Macron | CE-US (3VC?) |
C10, C29 | 2 | 10 µF | 16V | Through hole (radial) | 5mm | 12mm | 2mm | 105C | Electrolytic | Nichicon | M |
C16, C17 | 2 | 10 µF | 25V | Through hole (radial) | 5mm | 12mm | 2mm | 105C | Electrolytic | Macron | CE-US (3XC?) |
C27 | 1 | 22 µF | 16V | Through hole (radial) | 5mm | 12mm | 2mm | 105C | Electrolytic | Macron | CE-US (3YC?) |
C5, C6 | 2 | 330 µF | 16V | Through hole (radial) | 10mm | 16mm | 5mm | 105C | Electrolytic | Macron | CL-US (4WB?) |
C21 | 1 | 470 µF | 25V | Through hole (radial) | 13mm | 20mm | 5mm | 105C | Electrolytic | Nichicon | M |
C14, C15 | 2 | 470 µF | 200V | Through hole (radial, snap) | 25mm | 40mm | 10mm | 85C | Electrolytic | Matsushita | CE |
C9 | 1 | 1000 µF | 25V | Through hole (radial) | 16mm | 25mm | 8mm | 105C | Electrolytic | KML | M(?) |
C7, C8 | 2 | 2200 µF | 10V | Through hole (radial) | 16mm | 25mm | 8mm | 105C | Electrolytic | Matsushita | CE GM |
C11 | 1 | 4700 µF | 16V | Through hole (radial) | 18mm | 35mm | 8mm | 105C | Electrolytic | Macron | CE-US (4PB?) |
Replacement Parts
Basic PCB Name
RefDes | Qty | Compatible Part Number | Order Links |
---|---|---|---|
Digikey |
If parts are not available or different selection is preferred, you can use the values in the Original Parts section to perform a parametric search.
Related Links
See https://minuszerodegrees.net/5160/psu/5160_psu.htm for additional information
See https://minuszerodegrees.net/5150_5160/MDC/minimum_diag_config.htm for how to confirm faulty PSU