MIKROE Gyro 3 Click

Item #: SEN-19820
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Price: $63.22 inc GST
    The product is in stock Availability: Discontinued
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    Gyro 3 Click is a three-axis gyroscope Click board™ that can sense motion over three perpendicular axes. It is equipped with the I3G4250, a three-axis digital gyroscope. This IC incorporates microelectromechanical sensing elements (MEMS), produced using a proprietary CMOS micromachining technology. This technology allows for excellent stability and linearity over temperature. The angular data is available in a 16-bit format, along with 8-bit temperature data. Gyro 3 Click can be used for angular speed up to 2000 degrees per second (dps), it features a FIFO buffer, two dedicated interrupt lines, and on-chip data processing for optimized firmware development.

    Gyro 3 Click is supported by a mikroSDK compliant library, which includes functions that simplify software development.

    The I3G4250 IC supports both I2C and SPI interfaces, which allows Gyro 3 Click to be interfaced with a wide range of different MCUs. Although it is very sensitive (down to 0.008 dps/LSB) it is very resistant to shock and has a non-linearity of only 0.2% of the full-scale value (FS). These features make Gyro 3 Click a perfect solution for the development and testing of a wide range of applications which rely on an accurate angular rate sensing. This includes gyro-stabilization for various types of robots, drones, UAVs and RC vehicles, game controllers, orientation sensing, gesture-based HMI applications, VR glasses, and similar types of applications.

    Gyro 3 Click is based on the I3G4250, a three-axis digital gyroscope sensor IC, by STMicroelectronics. This device is produced using a proprietary CMOS micromachining technology, which results in a high level of integration, allowing very good linearity over temperature, and increased output stability when no motion applied (referred to as a zero-rate level in the I3G4250 datasheet). It also makes it resistant to shocks, allowing it to be used for speeds up to 2000 dps. It supports signal conditioning including low and high-pass filtering, as well as the threshold detection on each axis.

    Typically, higher dps range results in lower sensitivity. Therefore, the I3G4250 allows to dynamically select the full-scale range (FSR) value in several discrete steps: ±245, ±500, and ±2000 dps. This allows optimized performance for a given usage scenario. For example, if used in applications with faster angle rates such as sports equipment monitoring (golf club or tennis racket), a higher FSR might be required, at a cost of lower sensitivity.

    The MEMS output voltage is sampled by a high-accuracy 16-bit A/D converter, allowing the output in 2’s complement format. As mentioned above, different FS ranges have different sensitivity per LSB. Therefore, raw output values of the sensor will have to be multiplied with the sensitivity to obtain the values in degrees per second (dps). These values can be obtained from the I3G4250 datasheet, for every FS range, respectively.

    There are two filters available on the I3G4250 sensor: an external low-pass (LP) filter, and a digital high-pass (HP) filter with user-selectable cutoff frequency. Both of these signals can be digitally selected and applied to an angular speed measurement, allowing the developer to reduce the noise or fine-tune the sensitivity within a desired bandwidth.

    The I3G4250 device features a FIFO buffer, which in combination with a dedicated interrupt line, allows firmware optimizations while reducing the power consumption of the application as a result. The FIFO buffer has 32 slots, each 16-bit wide, used to store output values. The I3G4250 device can be configured to use the FIFO buffer in three different modes: Bypass mode, FIFO mode, and Stream mode. While the first mode allows the developer to read the values directly from the output registers, two other modes allow the utilization of the buffer. The FIFO mode will collect the data and stop collecting until its read (or reset), while the Streaming mode will continuously fill the buffer, discarding the oldest value.

    One of the two interrupt lines is labeled as DRDY/INT2 on the schematic, and it is routed to the mikroBUS™ AN pin (labeled as DI2). This line is used to report one of the programmable FIFO events: watermark level is reached, FIFO buffer is empty, and there is an overrun event on the FIFO buffer (FIFO is full). The pin can also be used to report when there is a new data available at the output after the conversion period (data ready). To find out which event exactly has occurred, the host MCU should read the status of the respective flag bits from the STATUS register.

    The second interrupt line is used to report when the programmed threshold is reached. It is possible to detect events which are above or below a programmable threshold, and trigger an interrupt on the INT1 pin, routed to the mikroBUS™ INT pin. By directing the I3G4250 device to wait for a built-in timer to expire, a false triggering can be prevented. To detect an interrupt source, the MCU can should read the status of the respective flag bits from the INT1_SRC register.

    Gyro 3 Click offers two communication interfaces. It can be used with either I2C or SPI. The onboard SMD jumpers labeled as COMM SEL allow switching between the two interfaces. Note that all the jumpers have to be positioned either I2C or to SPI position. When I2C interface is selected, an additional SMD jumper labeled as ADDR SEL becomes available, determining the least significant bit of the I3G4250 peripheral I2C address. The Click board™ should be interfaced only with MCUs that use logic levels of 3.3V.


    • Interface: I2C, SPI
    • Compatibility: mikroBUS™
    • Dimensions: 42.9 x 25.4mm
    • Input Voltage: 3.3V