I am using the ICUE software to monitor this. The CPU usually hits about 45c before the fans start. While idling on the desktop with no background programs running, the GPU and CPU (more so the CPU) temperatures will slowly rise, resulting in the main top fan starting and staying at around 100-200 rpm. I just received my Corsair One i165 on the 14th, and had some questions/concerns regarding the liquid cooling of my unit. I have a dual rad at the front of my 1000d so id like to monitor those as well as the rear /top exhust as well - so its the best place to put them I'm looking for.Hello everyone, hope you're all doing well. Possibly the first of several questions - but how/where do you physically attach the sensors for intake/exhaust (a picture may save several hundred words). It's quiet and I'm fully confident that at a low workload, the fans can run at minimum levels and the system will do its job efficiently. I have a 1.6C delta from the intake to the coolant and the exhaust is actually a touch warmer than the coolant at 33.1C. However, I can see that things are working pretty well. My fans are spinning at 464 RPM (ML Pull) and 731 RPM (LL Push) respectively. There are also cases where this can be used to control fan speeds.Įxample: Right now (as I'm typing this), my Rad Intake is at 31.0C, my coolant is at 32.3C and my Rad Exhaust is at 33.1C. In my case, I really don't need it (as I have a reading on the coolant temperature) but I do like to have it as it's a double-check that the radiator is actually exhausting heat. If you don't, however, it's an excellent proxy to give you an idea of the coolant temperature. The exhaust doesn't have too much value if you have a reading on the coolant temperature. coolant temps have a good deal more meaning when they are compared to the intake temperature. This is actually something that we walk people through pretty frequently here on the forum. and that's something that I'd need to investigate and could be do to a coolant flow issue. Likewise, if the intake temperature is 30C, I now have an 8C delta. well, that's telling me that the radiator is actually working (2C delta) but I have an issue with airflow. But if I saw that and the radiator intake temperature was 36C. It can also be an indicator of flow problemsįor example, if I saw a 38C coolant temperature, I'd normally freak out. Comparing the delta between the intake and the coolant temperature gives you an idea of the efficiency of the cooler and how well your cooling is working. This is the baseline for the coolant temperature - the coolant cannot be cooler than the air going through the radiator. Well, air intake shows you what temperature the air is going through the radiator. As for sticking them, I use high temperature electrical tape, but there certainly are other solutions. Sticking them in obscure corners that do not get much temp change makes it less useful for control purposes. For most people, somewhere above the GPU or at the rear exhaust is a good spot. Not sure what hardware you want to keep an eye on. The difference between that reading and my other temp sensors (like motherboard) let me know how hard the board is running. It is also down stream of my VRM and RAM. My third is in a corner of the case, one I refer to as my "hot corner" where the CPU and GPU 280mm radiators meet. This lets me know when it is running and how hot, again by exhaust temp. I cannot access temp data for my passive run power unit. This gives me coolant temperature that I otherwise would not have and a basis for fan control (iCUE does not need to be running to control fans based on the temp probes). One is tucked on the exhaust side of my GPU radiator in a custom loop.
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