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Connecting the Blocks
spi_ctrl Block Input: clk (System clock) Outputs: acc_mosi (sends commands to ...
Connecting the Blocks
Main block connections: I2C Communication: startAll.start → mpu6050.start → i2c.start ...
Connecting the Blocks
Below are the connection details between blocks for the project: clock_20_hz Input: ...
Connecting the Blocks
To assemble your project in the ChipInventor block diagram: 1. Drag each block (e.g., franken_ri...
Connecting the Blocks
The diagram below illustrates how the blocks can be connected (this example follows the organizat...
Connecting the Blocks
Left Motor Control Input: IO69 (left line sensor) connects to the select input of the...
Connecting the Blocks
The image shows the following configuration of blocks and connections: HC_SR04 Block Inputs...
How the Line Follower Robot Works
The basic operation follows this principle: When a line sensor detects the black line: ...
Creating the Project
In this tutorial, you will learn how to implement a line follower robot using an FPGA programmed ...
Creating Project
In this tutorial, you will learn how to implement a self-leveling platform system using inertial ...
Chapter 6 - Open Source EDA Semiconductor Tools
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Chapter 9 - Final Message
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Chapter 8 - Some ChipInventor Example Designs
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Chapter 7 - ChipInventor Cloud Digital Designer
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Chapter 5 - Digital Design Flow
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Chapter 4 - Design Flow
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Chapter 3 - RISC-V
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Chapter 2 - Basic Concepts
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Chapter 1 - Introduction
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Scenario B – macOS Does Not Recognize the Device
If no prompt appears and the board is not listed in /dev/cu.*, follow the steps below to manually...