During the semiconductor shortage our IMU v2.5 became unavailable for some time. Due to unavailability of the main microcontroller I was forced to redesign the board. The new IMUs will be smaller featuring size of only 11.7mm x 17mm. Functionality will be the same as the v2.5 ones. New stock should arrive in a few weeks timeframe.
You can find the product page here: Here
Hello world, I will be going out on summer holiday from 2019-08-02 till 08-20. New orders will be delayed during this time.
I’ve created a new product: Directional Moxon style antenna that the customer can customize during ordering for specific frequency and tube length one needs.
I’ve been working on new NT motor board design. I’ve reduced the size, made it more streamlined and added a regulator which will allow the board to work directly from 12V input. I also included a selectable voltage output by using a solder jumper, which will allow to pass the power to the next motor module or to pass 3.3V to the IMU module. This will save wires running through the gimbal.
I will fix some minor bugs and will run the board to production and will make preorders available in the shop.
Board dimensions 25mm x 27mm
Hello, and happy new year everyone!
I would like to announce that ENSYS is going on holiday from 2017.01.09 to 2017.01.17 so orders made at that time will be delayed.
STorM32 WiFi NT logger is the go-to tool to debug STorM32 based gimbals. It records and sends full-speed raw data which is communicated on NT bus over WiFi. Data is collected with ENSYS Host tool. The host tool records data in .log file format which OlliW’s NTLoggerTool can load for analysis. Later versions of NTLoggerTool by OlliW will support real-time streaming from the ENSYS NT logger.
The updated design IMU modules now available. It’s now possible to customize the modules further – Choosing the connector type, calibration, including an additional wire.
The LED battery monitor uses STorM32 controller’s UART port to retrieve battery voltage and display the state of charge using LEDs. This device accounts for voltage-charge non-linearity of lithium-ion/polymer batteries. It also displays the state of STorM32 controller. When the STorM32 is in SETTLE and LEVEL states the LEDs perform nice animations to indicate that the gimbal is calibrating.