Editing Thermal sensors

Jump to navigation Jump to search
Warning: You are not logged in. Your IP address will be publicly visible if you make any edits. If you log in or create an account, your edits will be attributed to your username, along with other benefits.

The edit can be undone. Please check the comparison below to verify that this is what you want to do, and then publish the changes below to finish undoing the edit.

Latest revision Your text
Line 2: Line 2:
The PS2 has a thermal sensor IC in proximity to the EE (or EE+GS, depending on the revision).
The PS2 has a thermal sensor IC in proximity to the EE (or EE+GS, depending on the revision).


On consoles with a Dragon [[MechaCon]] (SCPH-500XX and later), the thermal sensor is connected to the MechaCon and the temperature can be read from software. On earlier consoles, the thermal sensor is connected to the [[SysCon]] and the temperature can (currently) not be read from software. GH-001 and GH-003 use a simple thermostat instead of a temperature sensor.
On consoles with a Dragon [[MechaCon]] (SCPH-5XXXX and later), the thermal sensor is connected to the MechaCon and the temperature can be read from software. On earlier consoles, the thermal sensor is connected to the [[SysCon]] and the temperature can (currently) not be read from software.


== Texas Instruments LM56 ==
== LM56 ==
Thermostat, 2 digital outputs for 2 configurable temperature thresholds. Threshold temperatures are set to 83.2°C (Output 1) and 87°C (Output 2, connected directly to SysCon pin 36) via resistors, with a 5°C hysteresis when cooling down. Additionally, there is an analog temperature output, which is used in conjunction with a NJM062V op-amp.
Used on GH-001 and GH-003. (What about GH-008?)


Used on GH-001 and GH-003.
== LM74 ==
Used on GH-004, GH-005, GH-006, GH-007, GH-010, GH-012, GH-013, GH-014
(What about GH-008?)


== Texas Instruments LM74 ==
== LM70 ==
SPI/Microwire temperature sensor, 13 bit, 8-pin SOIC-8
Used on GH-015, GH-016, GH-017, GH-019, GH-022


Used on GH-004, GH-005, GH-006, GH-007, GH-008, GH-010, GH-012, GH-013, GH-014
== LM71 ==
Used on GH-023, GH-026, GH-029, GH-035


== Texas Instruments LM70 ==
SPI/Microwire temperature sensor, 11 bit, 8-pin VSSOP-8. Threshold temperatures are set to 70.6°C and 76.7°C in SysCon-Firmware.
Used on GH-015, GH-016, GH-017, GH-018, GH-019, GH-022.
== Texas Instruments LM71 ==
SPI/Microwire temperature sensor, 14 bit, 5-pin SOT-23, SMD-code: T16C. Some boards that use the LM71 also have alternate solder pads and wiring for a LM20.
Used on GH-023, GH-026, GH-029, GH-032, GH-035, GH-036, GH-037, GH-040, GH-041
== Texas Instruments LM20 ==
Analog output temperature sensor, 5-pin SOT-323/SC-70, SMD-code: T2B. Analog output connected to Dragon-[[MechaCon]], which probably has an internal ADC for this. Some boards that use the LM20 also have alternate solder pads and wiring for a LM71.
Used on GH-051, GH-052, GH-061, GH-062 (also likely on GH-070, GH-071, GH-072, but unconfirmed)
== Seiko S-58LM20A ==
Analog output temperature sensor, 4-pin SC-82AB, SMD-code: DRE. Analog output connected to Dragon-[[MechaCon]], which probably has an internal ADC for this. Drop-in replacement for Texas Instruments LM20 that can be mounted on the same footprint with 1 pin less (which is NC on Texas Instruments LM20).
Used on GH-072 (also likely on GH-070, GH-071, but unconfirmed)


== PS2 hardware in PS3 ==
== PS2 hardware in PS3 ==
[https://www.psdevwiki.com/ps3/COK-00x COK-001] has unpopulated pads for a thermal sensor next to EE+GS. COK-002 doesn't have any temperature monitoring capabilities next to GS.
[https://www.psdevwiki.com/ps3/COK-00x COK-001] has unpopulated pads for a thermal sensor next to EE+GS. COK-002 doesn't have any temperature monitoring capabilities next to GS.
Please note that all contributions to PS2 Developer wiki are considered to be released under the GNU Free Documentation License 1.2 (see PS2 Developer wiki:Copyrights for details). If you do not want your writing to be edited mercilessly and redistributed at will, then do not submit it here.
You are also promising us that you wrote this yourself, or copied it from a public domain or similar free resource. Do not submit copyrighted work without permission!

To protect the wiki against automated edit spam, we kindly ask you to solve the following hCaptcha:

Cancel Editing help (opens in new window)