Motor and Sensor Training Kit

Learn How to Control Motors, Sensors & Actuators with LabVIEW & NI myRIO.

The Robotics Sensor & Motor Training Kit from Studica Robotics is an affordable turnkey solution that allows you to teach your students how to control sensors and motors using LabVIEW and NI myRIO. It includes two project boards, one with different motors and the other board with most of the standard robotics sensors.

(NI myRIO, LabView and computer are not included).

MFR Part #: 72030

$999.00

Qty:

Specifications

The Studica Robotics Sensor & Motor Training Kit provides a comprehensive solution for the introduction of sensors, actuators and motor control using the NI myRIO and LabVIEW. The bundle includes a sensor training board, a motor training board, power adapter, connection cables and courseware. Each board includes the essential hardware needed to complete the courseware.

Requires myRIO-1900 with LabVIEW Full Development System, LabVIEW Realtime Module, LabVIEW myRIO Toolkit, and LabVIEW FPGA Module. This is included with Robotics Sensor & Motor Training Kit by Studica with NI myRIO (part number 72030M).
The NI myRIO University version does not include LabVIEW Realtime Module or MyRIO Toolkit. However, the LabVIEW Realtime Module or MyRIO Toolkit is available to universities with current Academic Site License.

This training bundle meets a variety of needs of students at all levels and is suitable as an introduction to sensor and motor control using LabVIEW.

Learning Objectives:

Students learn the concepts and characteristics of common sensors, actuators, and electrical components.
Students use LabVIEW software to observe the functionality of sensors, actuators, and other electrical components.

Sensor Training Board Features:

5V Relay
SMD LED Module
Capacitive Touch Sensor
Toggle Switch
Two-way Rocker with Button Function
Photoresistor
Thermistor
Infrared Ranging Sensor
Ultrasonic Distance Sensor
Three-color LED
Passive Buzzer
MAX3232 and MAX3485 Serial Chips
IMU: 3-axis gyro, 3-axis accelerometer, 3-axis magnetometer
TSL2561 Digital Light Intensity Sensor
7 Segment LED display
DHT11 Temperature and Humidity Sensor
Memory chip W25Q16
EC11 Rotary Switch

Motor Training Board Features:

Stepper Motor Drive Circuit;
NEMA 17 42 Hybrid Stepper Motor;
DC motor drive circuit;
DC speed reduction motor with orthogonal encoder;
PWM Controlled Analog Servo Motor;
Solenoid valve Electromagnet Drive circuit;
7 Segment LED Display Digital Tube

Sensor Board Exercises:

The Sensor Training Board guide includes the following exercises:

Application of common digital I/O port:
1. LED control experiment
2. Relay control experiment
3. TTP23 touch switch experiment
4. Toggle switch
5. Rocker button experiment
The application of AD port:
1. Photosensitive resistance experiment
2. Thermistor experiment
3. 2D rocker experiment
4. Infrared distance sensor experiment
The use of PWM port:
1. Three-color LED experiment
2. Passive buzzer experiment
The use of serial port:
1. RS232 serial communication experiment
2. RS485 serial communication experiment
The use of I2C bus:
1. 9-axis gyroscope using experiments
2. Digital light intensity sensor experiments
3. Display control button recognition experiment
The use of a single bus:
1. DHT11 temperature
2. Humidity sensor experiment
Clock use:
1. Ultrasonic sensor experiment
SPI bus use:
1. memory chip W25Q16 experiment
Orthogonal coding use:
1. EC11 rotary encoder using experiments

Motor Board Exercises:

The Motor Training Board guide includes the following exercises:

Stepper motor motion control:
1. Stepping motor forward and reverse experiment
2. Stepping motor rotation speed control experiment
3. Stepping motor rotation angle control experiment
4. Stepping motor acceleration and deceleration control experiment
Steering gear motion control:
1. Steering gear angle control experiment
DC motor motion control:
1. DC motor forward and reverse experiment
2. DC motor speed open loop control experiment
3. DC motor speed detection experiment,
4. DC motor speed closed loop control experiment,
5. DC motor position closed loop control experiment
Solenoid valve electromagnet control:
1. Solenoid valve electromagnet on-off I/O control experiment
  ?
Digital tube display control:
1. 7 Segment LED Display experiment

Requires myRIO-1900 with LabVIEW Full Development System, LabVIEW Realtime Module, LabVIEW myRIO Toolkit, and LabVIEW FPGA Module. This is included with Robotics Sensor & Motor Training Kit by Studica with NI myRIO (part number 72030M).
The NI myRIO University version does not include LabVIEW Realtime Module or MyRIO Toolkit. However, the LabVIEW Realtime Module or MyRIO Toolkit is available to universities with current Academic Site License.

This training bundle meets a variety of needs of students at all levels and is suitable as an introduction to sensor and motor control using LabVIEW.

Learning Objectives:

Students learn the concepts and characteristics of common sensors, actuators, and electrical components.
Students use LabVIEW software to observe the functionality of sensors, actuators, and other electrical components.

Sensor Training Board Features:

5V Relay
SMD LED Module
Capacitive Touch Sensor
Toggle Switch
Two-way Rocker with Button Function
Photoresistor
Thermistor
Infrared Ranging Sensor
Ultrasonic Distance Sensor
Three-color LED
Passive Buzzer
MAX3232 and MAX3485 Serial Chips
IMU: 3-axis gyro, 3-axis accelerometer, 3-axis magnetometer
TSL2561 Digital Light Intensity Sensor
7 Segment LED display
DHT11 Temperature and Humidity Sensor
Memory chip W25Q16
EC11 Rotary Switch

Motor Training Board Features:

Stepper Motor Drive Circuit;
NEMA 17 42 Hybrid Stepper Motor;
DC motor drive circuit;
DC speed reduction motor with orthogonal encoder;
PWM Controlled Analog Servo Motor;
Solenoid valve Electromagnet Drive circuit;
7 Segment LED Display Digital Tube

Sensor Board Exercises:

The Sensor Training Board guide includes the following exercises:

Application of common digital I/O port:
1. LED control experiment
2. Relay control experiment
3. TTP23 touch switch experiment
4. Toggle switch
5. Rocker button experiment
The application of AD port:
1. Photosensitive resistance experiment
2. Thermistor experiment
3. 2D rocker experiment
4. Infrared distance sensor experiment
The use of PWM port:
1. Three-color LED experiment
2. Passive buzzer experiment
The use of serial port:
1. RS232 serial communication experiment
2. RS485 serial communication experiment
The use of I2C bus:
1. 9-axis gyroscope using experiments
2. Digital light intensity sensor experiments
3. Display control button recognition experiment
The use of a single bus:
1. DHT11 temperature
2. Humidity sensor experiment
Clock use:
1. Ultrasonic sensor experiment
SPI bus use:
1. memory chip W25Q16 experiment
Orthogonal coding use:
1. EC11 rotary encoder using experiments

Motor Board Exercises:

The Motor Training Board guide includes the following exercises:

Stepper motor motion control:
1. Stepping motor forward and reverse experiment
2. Stepping motor rotation speed control experiment
3. Stepping motor rotation angle control experiment
4. Stepping motor acceleration and deceleration control experiment
Steering gear motion control:
1. Steering gear angle control experiment
DC motor motion control:
1. DC motor forward and reverse experiment
2. DC motor speed open loop control experiment
3. DC motor speed detection experiment,
4. DC motor speed closed loop control experiment,
5. DC motor position closed loop control experiment
Solenoid valve electromagnet control:
1. Solenoid valve electromagnet on-off I/O control experiment
  ?
Digital tube display control:
1. 7 Segment LED Display experiment

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