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300 RPM STRAIGHT SINGLE SHAFT

300 RPM STRAIGHT SINGLE SHAFT 300 RPM STRAIGHT SINGLE SHAFT
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Component Name

300 RPM Straight Single Shaft

Overview

The 300 RPM Straight Single Shaft is a high-performance motor component designed for various Internet of Things (IoT) applications, including robotics, automation, and industrial control systems. This motor shaft is engineered to provide reliable and efficient performance in a compact design, making it an ideal choice for applications where space is limited.

Functionality

The primary function of the 300 RPM Straight Single Shaft is to convert electrical energy into mechanical energy, enabling the rotation of attached components, such as gears, pulleys, or propellers. The shaft is designed to rotate at a constant speed of 300 revolutions per minute (RPM), providing a smooth and consistent output.

Key Features

### Mechanical Characteristics

Shaft Type

Straight single shaft

Rotation Speed

300 RPM (constant speed)

Shaft Material

High-strength stainless steel or aluminum alloy (dependent on application)

Shaft Diameter

3 mm, 4 mm, 5 mm, or 6 mm (dependent on application)

Length

10 mm, 20 mm, 30 mm, or 40 mm (dependent on application)

### Electrical Characteristics

Input Voltage

3V, 5V, 6V, or 12V (dependent on application)

Current Consumption

100 mA, 200 mA, 300 mA, or 500 mA (dependent on application)

Power Consumption

0.3 W, 1 W, 1.5 W, or 3 W (dependent on application)

### Performance Characteristics

Torque

0.05 Nm, 0.1 Nm, 0.2 Nm, or 0.5 Nm (dependent on application)

Efficiency

Up to 80% (dependent on application)

Noise Level

< 30 dB (dependent on application)

### Additional Features

Bearings

High-quality bearings with low friction and high precision, ensuring smooth operation and reducing wear and tear.

Mounting Options

Compatible with various mounting configurations, including PCB mount, screw mount, or adhesive mount.

Environmental Operating Range

-20C to 80C (-4F to 176F) operating temperature range, with humidity up to 80%.

Applications

The 300 RPM Straight Single Shaft is suitable for a wide range of IoT applications, including

Robotics and automation systems

Industrial control systems

Drone and UAV propulsion systems

Gantry and linear motion systems

Medical devices and equipment

Consumer electronics and appliances

Technical Specifications

Please refer to the component datasheet and technical documentation for detailed specifications, dimensions, and operating guidelines.

Pin Configuration

  • Component Documentation: 300 RPM STRAIGHT SINGLE SHAFT DC Motor
  • Overview
  • The 300 RPM STRAIGHT SINGLE SHAFT is a DC motor designed for various IoT applications requiring a compact, high-performance motor. This documentation provides a detailed explanation of the motor's pinout and connection guidelines.
  • Pinout
  • The motor has a total of 2 pins, which are:
  • Pin 1: VCC (Positive Power Supply)
  • Description: This pin is used to connect the positive terminal of the power supply to the motor.
  • Function: Provides power to the motor, allowing it to operate.
  • Voltage Rating: Typically 3V to 12V DC, depending on the specific motor version.
  • Connection: Connect to a suitable power source (e.g., a battery or a power adapter) using a wire or a connector.
  • Pin 2: GND (Ground/Negative Power Supply)
  • Description: This pin is used to connect the negative terminal of the power supply to the motor.
  • Function: Completes the circuit, allowing the motor to operate.
  • Voltage Rating: 0V (Ground).
  • Connection: Connect to a suitable ground connection (e.g., a battery negative terminal or a power adapter ground) using a wire or a connector.
  • Connection Guidelines
  • To connect the motor to a power source, follow these steps:
  • 1. Identify the power source: Determine the voltage and current rating of the power source (e.g., a battery or power adapter).
  • 2. Select suitable wires/connectors: Choose wires or connectors rated for the motor's voltage and current requirements.
  • 3. Connect Pin 1 (VCC): Connect one end of the wire/connector to Pin 1 (VCC) on the motor.
  • 4. Connect to power source: Connect the other end of the wire/connector to the positive terminal of the power source (e.g., battery positive terminal or power adapter output).
  • 5. Connect Pin 2 (GND): Connect one end of the wire/connector to Pin 2 (GND) on the motor.
  • 6. Connect to ground: Connect the other end of the wire/connector to a suitable ground connection (e.g., battery negative terminal or power adapter ground).
  • Important Safety Considerations
  • Ensure the power source voltage and current ratings match the motor's specifications to avoid damage or overheating.
  • Use suitable insulation and protection for the wires and connections to prevent electrical shock or short circuits.
  • Avoid connecting the motor to a power source with reverse polarity (e.g., positive to negative or vice versa), as this can damage the motor or cause a safety hazard.
  • By following these guidelines, you can safely and effectively connect the 300 RPM STRAIGHT SINGLE SHAFT DC motor to a power source and integrate it into your IoT project.

Code Examples

300 RPM STRAIGHT SINGLE SHAFT Component Documentation
Overview
The 300 RPM Straight Single Shaft is a high-precision rotary component designed for applications requiring precise and reliable rotation. This component is ideal for various IoT projects, including robotics, automation, and industrial control systems.
Technical Specifications
Rotation Speed: 300 RPM (10%)
 Shaft Type: Straight Single Shaft
 Material: High-carbon steel
 Bearing Type: High-quality ball bearings
 Operating Voltage: 12V DC
 Power Consumption: 100mA (max)
 Dimensions: 30mm (length) x 10mm (diameter)
Interface and Pinout
The 300 RPM Straight Single Shaft has a standard 3-pin interface:
Pin 1: VCC (12V DC)
 Pin 2: GND
 Pin 3: Signal ( rotation control)
Code Examples
### Example 1: Arduino Control
The following Arduino code demonstrates how to control the 300 RPM Straight Single Shaft using an Arduino Uno board:
```c
const int shaftSignalPin = 3;  // Signal pin connected to Pin 3
void setup() {
  pinMode(shaftSignalPin, OUTPUT);
}
void loop() {
  // Set the shaft rotation speed (0-255)
  analogWrite(shaftSignalPin, 128);  // 50% duty cycle, approx. 150 RPM
  delay(1000);
  
  // Change the rotation direction
  digitalWrite(shaftSignalPin, HIGH);
  delay(1000);
  digitalWrite(shaftSignalPin, LOW);
  delay(1000);
}
```
### Example 2: Python Library for Raspberry Pi
The following Python code demonstrates how to control the 300 RPM Straight Single Shaft using the RPi.GPIO library on a Raspberry Pi:
```python
import RPi.GPIO as GPIO
import time
# Set up GPIO mode
GPIO.setmode(GPIO.BCM)
# Define the shaft signal pin
shaft_signal_pin = 17
# Set up the shaft signal pin as an output
GPIO.setup(shaft_signal_pin, GPIO.OUT)
try:
    while True:
        # Set the shaft rotation speed (0-100%)
        GPIO.PWM(shaft_signal_pin, 50)  # 50% duty cycle, approx. 150 RPM
        time.sleep(1)
        
        # Change the rotation direction
        GPIO.output(shaft_signal_pin, GPIO.HIGH)
        time.sleep(1)
        GPIO.output(shaft_signal_pin, GPIO.LOW)
        time.sleep(1)
except KeyboardInterrupt:
    GPIO.cleanup()
```
Note: Make sure to adjust the pin numbers and voltage levels according to your specific setup and requirements.
Safety Precautions
Handle the component with care to avoid damage or injury.
 Ensure proper electrical connections and insulation to prevent electrical shock or short circuits.
 Operate the component within the specified voltage and power consumption ratings.
Warranty and Support
The 300 RPM Straight Single Shaft component is backed by a 1-year limited warranty. For technical support, please refer to the manufacturer's documentation or contact our support team.