The screenshots below show the full feature set of the AMPINEL. There is live monitoring of currents, voltages and temperatures. The display pages are freely customizable. The RGB lighting reliably signals the alarm status and basic limits can be set and firmware managed via the system settings. The data logger also enables detailed long-term analyses and the data sources can be flexibly combined with values from external software. This transforms the AMPINEL from a simple monitor for the 12V plug into a versatile measurement and control center that can be programmed down to the last detail. But first things first.
AMPINEL” overview
On the main page you can see the live monitoring. On the left, the six cable cores are displayed with current, voltage and power per line. In the center is the balancing display, which shows in milliohms how strongly the AMPINEL distributes the currents. On the right is the GPU summary with total power, total current and voltage. Below this are temperature displays for input, device, output and optionally an external sensor. The power loss display of the AMPINEL itself and the current alarm level are also visible. At the bottom is a time diagram with the current flow per line, which immediately shows whether unbalanced loads are occurring.
Display settings
The up to ten display pages of the AMPINEL OLED can be configured here. Thumbnails of the individual pages can be seen at the top; each page can be freely assigned. Values such as power, current, temperatures or even user-defined icons can be displayed. Text and symbols can be edited. The global display options can be found in the lower area: Brightness, behavior during inactivity, automatic or manual switching between pages. It is also possible to rotate the display by 180°, invert it or have it inverted automatically to prevent OLED burn-in. This allows you to design your own information pages for the device display, from simple numbers to logos.
RGBpx settings
This menu is used to configure the lighting. The brightness can be adjusted continuously. Effects can be freely edited, but they do not take priority in the event of an alarm: in this case, the LEDs always flash red, regardless of the selected setting. This means that the alarm status is immediately visually apparent. In this menu, you can divide the 8 integrated LEDs into up to two controllers (essentially LED groups) and apply effects to them.
System settings
The system menu provides the central settings. Device information such as serial number and firmware version are visible. The device can be reset to factory settings or all settings can be exported and imported. Particularly important is the power limitation via the sense lines, which allows the graphics card to be limited to 600, 450 or (depending on the model) 300 W. Time and date options are also available, including daylight saving time switching and date format. A firmware update can be started directly from the aquasuite.
Data logger
The data logger allows individual data records to be created, freely named and recorded at intervals of one second or more. Values can be deleted automatically after certain periods of time. Each data source can be added individually, such as current on individual lines, total current, maximum currents, voltage or temperature values such as hotspot or electronics. These sources appear as selectable tiles in the logger. Exports are possible at any time so that subsequent analysis or graphical evaluation is possible. This allows exact load profiles and fault patterns to be documented in the long term. Here you can see that the display pages can be freely combined. For example, current power consumption, currents or temperatures.
Each page can be assigned different templates, including texts, symbols and decimal places. You select the sources for logs in the menu. In addition to the AMPINEL sensors (current, voltage, temperature), data from the Aqua-Computer service or from third-party software such as HWiNFO or AIDA64 can also be included. In this way, system values can be linked to the AMPINEL measurements. This enables a comprehensive correlation: GPU temperatures from HWiNFO with currents of individual lines or VRM data with load distribution.
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