(Based on Analog Devices AD7368 Datasheet)
| Parameter | Specification | Notes | | :--- | :--- | :--- | | Resolution | 14-Bit | No Missing Codes | | Relative Accuracy | ±1 LSB (max) | Integral Nonlinearity | | Output Voltage Range | ±10 V (Bipolar) | Configurable unipolar operation | | Settling Time | 10 µs (typ) | To ±0.003% of FSR | | Power Supply | ±12 V to ±15 V | Analog & Digital supplies | | Interface | Parallel | High-speed data throughput |
The SDK is… raw. The documentation is clearly written by the hardware engineer who designed the ARUs, not by a technical writer. You’ll need to think in parallel analog logic, which breaks most programmers’ brains for the first week.
Also, it only comes in a 0.4mm pitch. You can’t hand-solder this without a reflow oven and a microscope. adn368
The ADN368 isn’t for Arduino beginners. It’s for the weirdos building sensor networks that need to run for a decade, or for robots that need to remember where they were after a sudden battery swap.
It’s the most exciting chip I’ve seen since the ESP32. Keep an eye on this part number.
Grade: A- (knocked for documentation, but genius silicon) (Based on Analog Devices AD7368 Datasheet) | Parameter
Have you tried the ADN368 yet? Let me know in the comments.
If you meant something else by "adn368" (e.g., a username, a product code, a class name), just reply with the context and I’ll make a new post for you.
Below is a report based on the most likely technical match (assuming a high-precision DAC/ADC context similar to the ADx368 naming convention), followed by a template you can use if ADN368 is an internal or specific industry code. If you meant something else by "adn368" (e
(Provisional Report based on likely nomenclature)
Date: October 26, 2023 Subject: Technical Overview of High-Precision Analog Components (ADx368 Class)