• Project 2: chipKIT™ Pro and Delays

#### Software Timing Delays

The purpose of this project is to investigate methods of creating software time delays to pace processor operations.

11.3K
• Project 3: Using chipKIT™ Pro with Stepper Motors

#### Software-Based Finite State Machine...

The purpose of this project is to investigate the application of software-based state machines to controlling the speed, direction of rotation, and operational mode of stepper motors.

10.8K
• Ohm's Law

#### Project 1: Resistors

Use the Analog Discovery™ and a digital multimeter to explore a fundamental equation used in electric circuit analysis and design: Ohm's Law.

6.40K
• Ohm's law and Voltage-Current Characteristics

#### Project 2: Resistors

Apply a time-varying voltage to a resistor using the Analog Discovery™ waveform generator. We will use the Analog Discovery oscilloscope to measure the resulting current, and plot the voltage as a function of current. T...

21.9K
• Series Resistances

#### Project 3: Resistors

When resistors are connected in series, the combination has an equivalent resistance that is the sum of the resistances of the individual resistors. This property can be useful in creating desired resistance values from...

2.99K
• Voltage Dividers

#### Project 4: Resistors

If the total voltage difference across a set of series resistors is known, the voltage differences across any individual resistor can be determined by the concept of voltage division.

6.33K
• Parallel Resistances

#### Project 5: Resistors

When resistors are connected in parallel, the combination has an equivalent conductance that is the sum of the conductance of the individual resistors. The user will create a 5 kΩ resistor from the resistors available in...

2.21K
• Current Dividers

#### Project 6: Resistors

Illustrates the overall process of current division between resistors.

3.92K
Project 2: chipKIT™ Pro and Delays

#### Software Timing Delays

The purpose of this project is to investigate methods of creating software time delays to pace processor operations.

11.3K
×
Project 3: Using chipKIT™ Pro with Stepper Motors

#### Software-Based Finite State Machines

The purpose of this project is to investigate the application of software-based state machines to controlling the speed, direction of rotation, and operational mode of stepper motors.

10.8K
×
Ohm's Law

#### Project 1: Resistors

Use the Analog Discovery™ and a digital multimeter to explore a fundamental equation used in electric circuit analysis and design: Ohm's Law.

6.40K
×
Ohm's law and Voltage-Current Characteristics

#### Project 2: Resistors

Apply a time-varying voltage to a resistor using the Analog Discovery™ waveform generator. We will use the Analog Discovery oscilloscope to measure the resulting current, and plot the voltage as a function of current. The resulting plot will show the resistor's voltage-current characteristic, or I-V curve.

21.9K
×
Series Resistances

#### Project 3: Resistors

When resistors are connected in series, the combination has an equivalent resistance that is the sum of the resistances of the individual resistors. This property can be useful in creating desired resistance values from a limited selection of fixed resistors. The user will create a 9 kΩ resistor from the resistors available in the Digilent's® Analog Parts Kit.

2.99K
×
Voltage Dividers

#### Project 4: Resistors

If the total voltage difference across a set of series resistors is known, the voltage differences across any individual resistor can be determined by the concept of voltage division.

6.33K
×
Parallel Resistances

#### Project 5: Resistors

When resistors are connected in parallel, the combination has an equivalent conductance that is the sum of the conductance of the individual resistors. The user will create a 5 kΩ resistor from the resistors available in Digilent's® Analog Parts Kit.

2.21K
×
Current Dividers

#### Project 6: Resistors

Illustrates the overall process of current division between resistors.

3.92K
×