# Title: Gyro 4 Click Board™ ## Description: The L20G20IS IC supports SPI interface which allows the Gyro 4 Click Board™ to be interfaced with a wide range of different MCUs. The IC interface is manufactured using a CMOS process that allows a high level of integration to design a dedicated circuit which is trimmed to better match the characteristics of the sensing element. It's perfect solution for optical image stabilization applications. How Does The Gyro 4 Click Board™ Work? The Gyro 4 Click Board™ features L20G20IS two-axis MEMS gyroscope, from ST microelectronics. An angular rate gyroscope is a device that produces a positive-going digital output for counterclockwise rotation around the sensitive axis considered. Sensitivity describes the gain of the sensor and can be determined by applying a defined angular velocity to it. This value changes very little over temperature and time. The zero-rate level describes the actual output signal if there is no angular rate present. The zero-rate level of highly accurate MEMS sensors is, to some extent, a result of stress to the sensor and therefore the zero-rate level can slightly change after mounting the sensor on a printed circuit board or after exposing it to extensive mechanical stress. This value changes very little over temperature and time. The L20G20IS includes temperature sensor and data can be retrieved from the registers, as two's complement data in 12-bit format left-justified. The output of the temperature sensor is 0 at 25 °C. On the L20G20IS the angular rate data can be retrieved using a synchronous read. To perform a synchronous read, CTRL4_OIS (0Eh R/W) (DRDY_EN) has to be set to '1' in order to enable the data-ready interrupt on the INT pin. To properly perform a synchronous read, the angular rate data have to be read every time the DRDY pin goes high. The INT signal can be latched (default condition) or pulsed. When a latched condition is selected, the interrupt goes low when the high part of one of the output channels is read and returns high when new data is generated. When a pulsed condition is selected, the interrupt behavior is independent from the read operations and remains high for 75 µs every time new data is generated. The INT pin is set by default as push-pull output, but it can be configured as open-drain output. SPECIFICATIONS Type Gyroscope,Motion Applications The Gyro 4 Click Board™ can be used to develop optical image stabilization or some similar applications. On-board modules L20G20IS, is a two-axis MEMS gyroscope sensor IC, by STMicroelectronics Key Features Integrated low-pass filters with user-selectable bandwidth, ±100 dps / ±200 dps full-scale range,embedded self-test… Interface SPI Compatibility mikroBUS Click board size S (28.6 x 25.4 mm) Input Voltage 3.3V PINOUT DIAGRAM This table shows how the pinout of the Gyro 4 Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns). Notes Pin Pin Notes NC 1 AN PWM 16 NC NC 2 RST INT 15 INT INTERRUPT SPI Chip Select CS 3 CS RX 14 NC SPI Clock SCK 4 SCK TX 13 NC SPI Data OUT SDO 5 MISO SCL 12 NC SPI Data IN SDI 6 MOSI SDA 11 NC Power Supply 3.3V 7 3.3V 5V 10 NC Ground GND 8 GND GND 9 GND Ground ONBOARD SETTINGS AND INDICATORS Label Name Default Description LD1 PWR - Power LED Indicator ## Product type: Click Board ## Vendor: Mikroelektronika d.o.o. ## Tags: Click Board, Gyroscope, MikroE, Motion, Sensor ## Price range: 12.6 - 12.6 GBP ## Link: https://thedebugstore.com/products/mikroe-3661-mikroe-3661-gyro-4-click-board-uk ## Compare-at price range: 18.0 - 18.0 GBP ## Options - Title: Default Title ## Collections - [New Products](https://thedebugstore.com/a/llms/collections/new-products-debug-store) - [Mikroelektronika d.o.o. (MikroE)](https://thedebugstore.com/a/llms/collections/mikroelektronika-catalogue-uk) - [Sensor Click Boards™](https://thedebugstore.com/a/llms/collections/sensor-click-boards-catalogue) - [MikroE Click Boards™](https://thedebugstore.com/a/llms/collections/mikroe-click-boards-catalogue-uk) - [Motion Sensor Click Boards™](https://thedebugstore.com/a/llms/collections/motion-sensor-click-boards-catalogue) - [Click Boards™ Summer Sale](https://thedebugstore.com/a/llms/collections/inventory-sale) - [MikroE Sale](https://thedebugstore.com/a/llms/collections/mikroe-sale) - [MIKROE Stock](https://thedebugstore.com/a/llms/collections/mikroe-products-in-stock-sale) ## Variants - Default Title, SKU: MIKROE-3661, Available: yes, Inventory: 1 ## Metafields - full_description:

The L20G20IS IC supports SPI interface which allows the Gyro 4 Click Board™ to be interfaced with a wide range of different MCUs. The IC interface is manufactured using a CMOS process that allows a high level of integration to design a dedicated circuit which is trimmed to better match the characteristics of the sensing element. It's perfect solution for optical image stabilization applications.

How Does The Gyro 4 Click Board™ Work?

The Gyro 4 Click Board™ features L20G20IS two-axis MEMS gyroscope, from ST microelectronics. An angular rate gyroscope is a device that produces a positive-going digital output for counterclockwise rotation around the sensitive axis considered. Sensitivity describes the gain of the sensor and can be determined by applying a defined angular velocity to it. This value changes very little over temperature and time.

Click BoardsSensorsGyro 4 Click

The zero-rate level describes the actual output signal if there is no angular rate present. The zero-rate level of highly accurate MEMS sensors is, to some extent, a result of stress to the sensor and therefore the zero-rate level can slightly change after mounting the sensor on a printed circuit board or after exposing it to extensive mechanical stress. This value changes very little over temperature and time. The L20G20IS includes temperature sensor and data can be retrieved from the registers, as two's complement data in 12-bit format left-justified. The output of the temperature sensor is 0 at 25 °C.

On the L20G20IS the angular rate data can be retrieved using a synchronous read. To perform a synchronous read, CTRL4_OIS (0Eh R/W) (DRDY_EN) has to be set to '1' in order to enable the data-ready interrupt on the INT pin. To properly perform a synchronous read, the angular rate data have to be read every time the DRDY pin goes high. The INT signal can be latched (default condition) or pulsed.

When a latched condition is selected, the interrupt goes low when the high part of one of the output channels is read and returns high when new data is generated. When a pulsed condition is selected, the interrupt behavior is independent from the read operations and remains high for 75 µs every time new data is generated. The INT pin is set by default as push-pull output, but it can be configured as open-drain output.

SPECIFICATIONS

Type Gyroscope,Motion
Applications The Gyro 4 Click Board™ can be used to develop optical image stabilization or some similar applications.
On-board modules L20G20IS, is a two-axis MEMS gyroscope sensor IC, by STMicroelectronics
Key Features Integrated low-pass filters with user-selectable bandwidth, ±100 dps / ±200 dps full-scale range,embedded self-test…
Interface SPI
Compatibility mikroBUS
Click board size S (28.6 x 25.4 mm)
Input Voltage 3.3V

PINOUT DIAGRAM

This table shows how the pinout of the Gyro 4 Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns).

Notes Pin Mikrobus logo.png Pin Notes
NC 1 AN PWM 16 NC
NC 2 RST INT 15 INT INTERRUPT
SPI Chip Select CS 3 CS RX 14 NC
SPI Clock SCK 4 SCK TX 13 NC
SPI Data OUT SDO 5 MISO SCL 12 NC
SPI Data IN SDI 6 MOSI SDA 11 NC
Power Supply 3.3V 7 3.3V 5V 10 NC
Ground GND 8 GND GND 9 GND Ground

ONBOARD SETTINGS AND INDICATORS

Label Name Default Description
LD1 PWR - Power LED Indicator

 

- description_tag: The Gyro 4 Click Board™ is a two-axis MEMS gyroscope for optical image stabilization applications. It is equipped with the L20G20IS, that includes a sensing element and an IC interface capable of providing the measured angular rate to the application Available from Debug Store UK. - title_tag: MikroE Gyro 4 Click Board™ (MIKROE-3661) - manufacturer: Mikroelektronika d.o.o. - warranty: 12 months - amazon_enable: TRUE - amazon_title: Gyro 4 Click Board - amazon_product_type: computercomponent - amazon_block: FALSE - amazon_prime_enable: FALSE - amazon_search: MikroElektronika Microelectronica MIKROE-1100 - amazon_uk_price: 13.2 - amazon_uk_currency: GBP - amazon_de_currency: EUR - amazon_de_price: 14.916 - amazon_fr_currency: EUR - amazon_fr_price: 14.916 - amazon_es_currency: EUR - amazon_es_price: 14.916 - amazon_nl_currency: EUR - amazon_nl_price: 14.916 - amazon_it_currency: EUR - amazon_it_price: 14.916 - amazon_se_curency: SEK - amazon_se_price: 150.48 - amazon_product_id: 8606018716449 - amazon_product_id_type: EAN - amazon_update: Update - amazon_short_description: The Gyro 4 Click Board™ is a two-axis MEMS gyroscope for optical image stabilization applications. It is equipped with the L20G20IS, that includes a sensing element and an IC interface capable of providing the measured angular rate to the application through an SPI digital interface. The angular data is available in a 16-bit format, along with 12-bit device’s die temperature data. The IC interface is manufactured using a CMOS process that allows a high level of integration to design a dedicated circuit which is trimmed to better match the characteristics of the sensing element. - amazon_long_description:

Gyro 4 Click Board™

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- condition: new - custom_product: false - mpn: MIKROE-3661 - google_product_category: Electronics - custom_label_0: Click Board - examples:

We provide a library for the Gyro 4 Click Board™ on our LibStock page, as well as a demo application (example), developed using MikroElektronika compilers. The demo can run on all the main MikroElektronika development boards.

Library Description

Library contains function for getting INT pin state Library contains function for setting CS pin state Library contains function for getting register values Library contains function for setting register values Library contains function for device initialization Library contains function for getting temperature value Library contains function for getting axes values Library contains function for software reset Library contains functions for setting power mode and full scale range

Key Functions

Example Description

The application is composed of three sections :

Additional Functions :

The full application code, and ready to use projects can be found on our LibStock page.

Other mikroE Libraries used in the example:

Additional Notes and Information

Depending on the development board you are using, you may need USB UART click, USB UART 2 click or RS232 click to connect to your PC, for development systems with no UART to USB interface available on the board. The terminal available in all MikroElektronika compilers, or any other terminal application of your choice, can be used to read the message.

MIKROSDK

The Gyro 4 Click Board™ is supported with mikroSDK - MikroElektronika Software Development Kit. To ensure proper operation of mikroSDK compliant Click board™ demo applications, mikroSDK should be downloaded from the LibStock and installed for the compiler you are using.

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To perform a synchronous read, CTRL4_OIS (0Eh R/W) (DRDY_EN) has to be set to '1' in order to enable the data-ready interrupt on the INT pin. To properly perform a synchronous read, the angular rate data have to be read every time the DRDY pin goes high. The INT signal can be latched (default condition) or pulsed."}]},{"type":"paragraph","children":[{"type":"text","value":"When a latched condition is selected, the interrupt goes low when the high part of one of the output channels is read and returns high when new data is generated. When a pulsed condition is selected, the interrupt behavior is independent from the read operations and remains high for 75 µs every time new data is generated. The INT pin is set by default as push-pull output, but it can be configured as open-drain output."}]},{"type":"heading","level":3,"children":[{"type":"text","value":"SPECIFICATIONS"}]},{"type":"paragraph","children":[{"type":"text","value":"Type\nGyroscope,Motion\nApplications\nThe Gyro 4 Click Board™ can be used to develop optical image stabilization or some similar applications.\nOn-board modules\nL20G20IS, is a two-axis MEMS gyroscope sensor IC, by STMicroelectronics\nKey Features\nIntegrated low-pass filters with user-selectable bandwidth, ±100 dps / ±200 dps full-scale range,embedded self-test…\nInterface\nSPI\nCompatibility\nmikroBUS\nClick board size\nS (28.6 x 25.4 mm)\nInput Voltage\n3.3V"}]},{"type":"heading","level":3,"children":[{"type":"text","value":"PINOUT DIAGRAM"}]},{"type":"paragraph","children":[{"type":"text","value":"This table shows how the pinout of the "},{"type":"text","value":"Gyro 4 Click Board™","bold":true},{"type":"text","value":" corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns)."}]},{"type":"paragraph","children":[{"type":"text","value":"Notes\nPin\nPin\nNotes\nNC\n1\nAN\nPWM\n16\nNC\nNC\n2\nRST\nINT\n15\nINT\nINTERRUPT\nSPI Chip Select\nCS\n3\nCS\nRX\n14\nNC\nSPI Clock\nSCK\n4\nSCK\nTX\n13\nNC\nSPI Data OUT\nSDO\n5\nMISO\nSCL\n12\nNC\nSPI Data IN\nSDI\n6\nMOSI\nSDA\n11\nNC\nPower Supply\n3.3V\n7\n3.3V\n5V\n10\nNC\nGround\nGND\n8\nGND\nGND\n9\nGND\nGround"}]},{"type":"heading","level":3,"children":[{"type":"text","value":"ONBOARD SETTINGS AND INDICATORS"}]},{"type":"paragraph","children":[{"type":"text","value":"Label\nName\nDefault\nDescription\nLD1\nPWR\n-\nPower LED Indicator"}]},{"type":"heading","level":3,"children":[{"type":"text","value":" "}]}]} - summary:

The Gyro 4 Click Board™ is a two-axis MEMS gyroscope for optical image stabilization applications. It is equipped with the L20G20IS, that includes a sensing element and an IC interface capable of providing the measured angular rate to the application through an SPI digital interface. The angular data is available in a 16-bit format, along with 12-bit device’s die temperature data. The IC interface is manufactured using a CMOS process that allows a high level of integration to design a dedicated circuit which is trimmed to better match the characteristics of the sensing element.