Tmpin6 127 градусов что это значит

Температуры за 100 градусов в программах мониторинга , Друзья помогите советом.

В июле купил компьютер, работает без малейших нареканий как часы.
Поставил сегодня программу для показа температуры датчиков компонентов компьютера.
И тут я если честно «слегка» испугался.
Программа CPUID HWMonitor показывает температуру материнской платы (mainboard) —
115 градусов по Цельсию!
Далее я не стал отчаиваться (программные сбои или что то еще) и поставил Speed Fan —
о боги! там стало все еще хуже, уже 4 неизвестных мне пункта полыхали огоньком и показывали больше 100 градусов. Вот тут я реально испугался.
И в заключении я решил довериться еще одной программе AIDA 64 Extreme —
о чудо! все гладенько чистенько температуры везде нормальные.

И я плавно подвел вас к вопросу этой темы. Чему верить и стоит ли начинать паниковать и бегать кругами вскинув руки к небу?

P.S. Прилагаю скриншот со всеми описанными программами.

Присоединённые эскизы

Вопрос по мониторингу температуры железа с помощью hwmonitor

Ситуация следующая . В hwmonitor TMPIN4 показывает 105 градусов ,перерыл весь интернет ..ни как не могу найти инфу по датчики TMPIN4 , TMPIN7,TMPIN6,TMPIN5,Package (что это, северный,южный мост). Люди,подскажите ,что показывают данные датчики(материна asus p8z77 v deluxe) ?
[doublepost=1508545072,1508537331][/doublepost]Скрин показателей

Breed

Заблокирован

• 21.10.2017

• #2

Это не текущая, чего переполошился! Это максимально допустимая, на скрине ясно видно.
Кроме того, в 99% они показывают фантомные (теоретически расчетные) значения, которые — увы — весьма далеки от реальных.
Вообще, если не ошибаюсь,
CPUTIN — индекс температуры процессора
AUXTIN — вспомогательный индекс температуры
SYSTIN — индекс температуры системы

CPUTIN отличается от CoreTemp. CoreTemp — это датчик на процессоре, а CPUTIN — системный температурный датчик CPU.
AUXTIN — это датчик температуры источника питания, если таковой имеется. Но SYSTIN относится к материнской плате.
TMPIN 0 — MOBO — SYS
TMPIN 1 — CPU
TMPIN 2 — MCH — северный мост
TMPIN 3 — датчик около GPU/VRM

thunder

• 22.10.2017

• #3

Это не текущая, чего переполошился! Это максимально допустимая, на скрине ясно видно.
Кроме того, в 99% они показывают фантомные (теоретически расчетные) значения, которые — увы — весьма далеки от реальных.
Вообще, если не ошибаюсь,
CPUTIN — индекс температуры процессора
AUXTIN — вспомогательный индекс температуры
SYSTIN — индекс температуры системы

CPUTIN отличается от CoreTemp. CoreTemp — это датчик на процессоре, а CPUTIN — системный температурный датчик CPU.
AUXTIN — это датчик температуры источника питания, если таковой имеется. Но SYSTIN относится к материнской плате.
TMPIN 0 — MOBO — SYS
TMPIN 1 — CPU
TMPIN 2 — MCH — северный мост
TMPIN 3 — датчик около GPU/VRM

Очень странно ведет себя датчик TMPIN4 (сначала его вообще нет в hwmonitor ,но через минут 40 он появляется с температурой 103,70). Что за х.

High temperatures on TMPIN6 and TMPIN8

The motherboard I?m using is a MSI A320M-A PRO and the CPU is Ryzen 3200G. No graphics card. The BIOS version is 1.3, Radeon software version is 19.12.2 and the operating system is Windows 10 64 bit.

My problem is that the CPUID HWMonitor software shows that the temperature of TMPIN6 and TMPIN8 is around 124? and 127?.

Are these temperature registers correct?
What parts of the motherboard are measuring TMPIN6 and TMPIN8?
What software do you recommend to measure the temperature of MSI boards?

Nichrome

Friday? Deploy to prod!

They are, 99% sure about it, unused sensor points hence showing odd temperatures. If that would be true, board would shut down immediately.

TMPIN6 Temperature is High

4,5,6 are all high. Ish. But thats also normal behavior for parts of the board under different conditions. Also you must take into account software. It’s not perfect. It was written years ago, and at the time was great for what it was. Since then, there have been multiple vendors, multiple mobo’s, multiple changes etc, all of which can easily add up to incorrect addressing. What is a sensor on one mobo, might very well be the Northbridge chipset on another board, according to address, so temps will be totally inaccurate. I can use that same software as you, my tmpin6 reads -125°C, tmpin4 reads 255°C, both of which are physically impossible on a mobo. SpeedFan does the same thing, as hwinfo64 or Hwmonitor. According to any software run other than the bios or native MSI software, my psu has a 12v output of either 8.2v or 10.2v. Neither is accurate, the 12v output under loads is 12.18v according to my Fluke meter. 12.2v in bios.

That said, with 3 temps all running high, and you finding 1 spot that reports similar, and knowing there’s no way to determine exactly what tmpin4, tmpin5 and tmpin6 are actually addressed to on your specific mobo, it’s entirely possible, even probable, that those numbers are not accurate to that specific spot. A mobo as such only has a few sensors, very few actual components have built in sensors (like the cpu, gpu etc)

More than likely, that hot-spot next to the Sata port is part of the voltage regulatory circuitry to the Sata ports, of which your drives are running from. It’s going to get warm with usage, the more the demand for voltage, the warmer it’ll get.

Take the results with a grain of salt. I’d keep an eye on it, especially if you duplicate the conditions under which it was tested, or exceed them, but if you test again, when the pc is idle for a few minutes, and the temps are much lower, then chalk it up to normal usage.

ragnar-gd

Reputable

Karadjgne

Titan

4,5,6 are all high. Ish. But thats also normal behavior for parts of the board under different conditions. Also you must take into account software. It’s not perfect. It was written years ago, and at the time was great for what it was. Since then, there have been multiple vendors, multiple mobo’s, multiple changes etc, all of which can easily add up to incorrect addressing. What is a sensor on one mobo, might very well be the Northbridge chipset on another board, according to address, so temps will be totally inaccurate. I can use that same software as you, my tmpin6 reads -125°C, tmpin4 reads 255°C, both of which are physically impossible on a mobo. SpeedFan does the same thing, as hwinfo64 or Hwmonitor. According to any software run other than the bios or native MSI software, my psu has a 12v output of either 8.2v or 10.2v. Neither is accurate, the 12v output under loads is 12.18v according to my Fluke meter. 12.2v in bios.

That said, with 3 temps all running high, and you finding 1 spot that reports similar, and knowing there’s no way to determine exactly what tmpin4, tmpin5 and tmpin6 are actually addressed to on your specific mobo, it’s entirely possible, even probable, that those numbers are not accurate to that specific spot. A mobo as such only has a few sensors, very few actual components have built in sensors (like the cpu, gpu etc)

More than likely, that hot-spot next to the Sata port is part of the voltage regulatory circuitry to the Sata ports, of which your drives are running from. It’s going to get warm with usage, the more the demand for voltage, the warmer it’ll get.

Take the results with a grain of salt. I’d keep an eye on it, especially if you duplicate the conditions under which it was tested, or exceed them, but if you test again, when the pc is idle for a few minutes, and the temps are much lower, then chalk it up to normal usage.

vandamsy

thank you for the answers
this temperature is idle temperatures
i am sharing actual picture of the hot spot in my MB with infrared camera and normal camera. the red circle on the regular camera is the culprit spot

Karadjgne

Titan

ASmedia chipset in that picture. Those chipsets are all about usb and Sata control, it’s what ASmedia does.

If you do not have ASmedia motherboard drivers loaded, but are using windows generic drivers, this can be a slight issue as the chipset will work, but struggle, causing it to work harder. The ASmedia drivers will streamline the process.

But either way, as your 67°C shot shows at idle, when you use the drives associated with that chipset, it gets hotter. Totally normal. If it bothers you, you can move the Sata drive. Your drives should be in 0/1 anyways which are Intel Sata3 6Gb, the other Sata ports being the ASmedia.

Seriously doubtful your sata/usb controller chipsets have thermistors capable of reporting temps.

vandamsy

gpbarth

Distinguished

4,5,6 are all high. Ish. But thats also normal behavior for parts of the board under different conditions. Also you must take into account software. It’s not perfect. It was written years ago, and at the time was great for what it was. Since then, there have been multiple vendors, multiple mobo’s, multiple changes etc, all of which can easily add up to incorrect addressing. What is a sensor on one mobo, might very well be the Northbridge chipset on another board, according to address, so temps will be totally inaccurate. I can use that same software as you, my tmpin6 reads -125°C, tmpin4 reads 255°C, both of which are physically impossible on a mobo. SpeedFan does the same thing, as hwinfo64 or Hwmonitor. According to any software run other than the bios or native MSI software, my psu has a 12v output of either 8.2v or 10.2v. Neither is accurate, the 12v output under loads is 12.18v according to my Fluke meter. 12.2v in bios.

That said, with 3 temps all running high, and you finding 1 spot that reports similar, and knowing there’s no way to determine exactly what tmpin4, tmpin5 and tmpin6 are actually addressed to on your specific mobo, it’s entirely possible, even probable, that those numbers are not accurate to that specific spot. A mobo as such only has a few sensors, very few actual components have built in sensors (like the cpu, gpu etc)

More than likely, that hot-spot next to the Sata port is part of the voltage regulatory circuitry to the Sata ports, of which your drives are running from. It’s going to get warm with usage, the more the demand for voltage, the warmer it’ll get.

Take the results with a grain of salt. I’d keep an eye on it, especially if you duplicate the conditions under which it was tested, or exceed them, but if you test again, when the pc is idle for a few minutes, and the temps are much lower, then chalk it up to normal usage.

What I’d like to know is where these programs are taking these temps. I’m running HWMonitor, and TMPIN5 and TMPIN6 are both reading over 110ºC in idle state (the other 4 are normal, whatever that is). I’m okay with ignoring the data, but how is the program recovering these temps? Are there thermistors all over the new MOBOs?