![]() ![]() While passive, our testing of the FLIRC shows it is much more capable than the small aluminum passive heatsinks we've been used to putting on the Raspberry Pi boards. The FLIRC meanwhile is a Raspberry Pi case for $13~15 USD that is made out of aluminum and act as a heatsink for the device to dissipate heat. It's quite simple and the 30mm fan delivers sufficient airflow over the SoC but does not employ any heatsink or allow any heatsink to be attached. This friction-fit header makes it very easy to install on the Raspberry Pi and if needing to remove later. The Fan SHIM is a ~$10 fan that connects to the GPIO pins on the Raspberry Pi for power and aligning it with the Broadcom SoC. The Raspberry Pi Foundation kindly sent over the Fan SHIM and FLIRC for our benchmarking at Phoronix. We've seen just how prone the Raspberry Pi 4 is to down-clocking and where as previous Raspberry Pi boards did fine with a small aluminum heatsink attached, for any serious work you will need a more capable cooler if you care about the performance. In this article we're looking at the Raspberry Pi 4 performance with a Fan SHIM as an active fan designed for running on the Raspberry Pi off the GPIO pins as well as the FLIRC as a metal case that passively cools the device. However, if you will be enduring the Raspberry Pi 4 with significant load for any measurable length of time, an active cooler is almost warranted or otherwise a very capable passive cooler. The design lets it sit neatly under a TV to power your media. It is completely silent (no fan), it looks great (aluminum on the sides and a flat rubberized surface on top), and it dissipates heat very wellalmost as well as the ICE Tower and its fan. The Flirc case is a little pricier than other cases, but is worth it. Myself I use the values above using a fan without getting any problems of. 5 - Flirc case (case-as-a-heatsink) Best for: Almost any use case. The maximum clock for the cpu without losing guaranty is 2147 (what still should be safe) and for gpu is 750. use the following command: 'vcgencmd measuretemp'. This beautiful-looking case is made with aluminium, and acts as a heatsink. The easiest way is to monitor the temperature when the PI is running at 100 and then adjust the values. With the Raspberry Pi 4, a passive heatsink is an absolute minimum for running this new ARM SBC unless you want to deal with potentially drastic performance limitations based upon your operating conditions. This sleek and simple case is the official case for Raspberry Pi, acting as a perfect enclosure at a low price. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |