Allicdata Part #: | 296-37047-ND |
Manufacturer Part#: |
DRV2605EVM-CT |
Price: | $ 71.96 |
Product Category: | Development Boards, Kits, Programmers |
Manufacturer: | Texas Instruments |
Short Description: | DEMO/EVAL PLATFORM FOR DRV2605 |
More Detail: | DRV2605 Motor Controller/Driver, Haptic/Vibration ... |
DataSheet: | DRV2605EVM-CT Datasheet/PDF |
Quantity: | 1000 |
1 +: | $ 64.76400 |
Series: | -- |
Part Status: | Active |
Type: | Power Management |
Function: | Motor Controller/Driver, Haptic/Vibration |
Embedded: | Yes, MCU, 16-Bit |
Utilized IC / Part: | DRV2605 |
Primary Attributes: | -- |
Supplied Contents: | Board(s), Cable(s) |
Secondary Attributes: | On-Board LEDs |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
The DRV2605EVM-CT provides a quick and easy prototype experience for vibrating haptics for a wide range of applications. It is an evaluation and demonstration board, allowing users to easily evaluate and demonstrate haptic feedback through the use of brushless motor drives. In this article, we’ll explore how the DRV2605EVM-CT applies to a variety of applications and discuss its working principle.
The DRV2605EVM-CT contains two brushless motors, a host controller, a bridge driver board, a user interface board, and various cables and adapters. By installing the appropriately processed firmware into the host controller, users can easily change the pattern generator that controls the two brushless motors. The output pulse type of the pattern generator is determined by the firmware configuration, and the driver attached to the brushless motors is connected to the DRV2605EVM-CT with standard connections. This allows for quick and easy adaptation of the system to a wide range of applications.
One popular application for the DRV2605EVM-CT is in industrial robots. Its brushless motors provide significantly higher acceleration and torque compared to brushed motors, which can greatly improve the operation speed and reduce the time necessary for certain tasks. Additionally, the two motors can be used in tandem to precisely control the robot’s movements. With the appropriate firmware, two motors on the same axis can be synchronized, allowing for precise positioning even in the most demanding industrial applications.
The DRV2605EVM-CT can also be used to create immersive virtual reality experiences. By using the brushless motors, developers can generate realistic tactile feedback for users of virtual reality headsets. This leads to a more immersive experience, and provides users with more accurate feedback than what can be achieved using traditional headset vibration. Additionally, the haptic system can be configured to create realistic force feedback for applications such as simulating tools or weapons.
The DRV2605EVM-CT can be used to create wearables that have tactile feedback to users. For example, it is being used in smart watches to alert users to incoming notifications using brief vibrations. By properly configuring the host controller and firmware, developers can easily add haptics to their design, allowing them to offer a more immersive user experience. Additionally, because the DRV2605EVM-CT drives motors through a bridge driver, it is possible to use it to drive applications such as vibration motors or tactile switches.
The working principle of the DRV2605EVM-CT is based on its processing of the input signals. When an input signal is received, the host controller identifies the type of signal and then processes it. Next, the host controller, in conjunction with the appropriate firmware, determines the output pulse type of the desired pattern generator. Based on this type of pattern generator, the bridge driver is then enabled and sends the control signals to the brushless motors. Finally, the brushless motors are supplying the user witha haptic feedback.
In summary, the DRV2605EVM-CT is anevaluation and demonstration board that is used to quickly prototype haptic feedback for a wide range of applications. It uses two brushless motors and connects to a host controller that is configured with the appropriate firmware. This allows the system to be quickly adapted to the required application and to produce realistic tactile feedback. The DRV2605EVM-CT can be used to control robots, create immersive virtual reality experiences, and create wearables with haptic feedback. The working principle of the system is based on the input signals, which are processed by the host controller, and then the appropriate drivers are supplied to the brushless motors. This allows for a realistic haptic experience for users.
The specific data is subject to PDF, and the above content is for reference
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