Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A Documentation

Component Documentation

Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A

Overview

The Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A is a high-performance soldering iron designed for professional and hobbyist use. This component is ideal for a wide range of applications, including electronic assembly, repair, and rework. The soldering iron is built with high-quality materials and features advanced technology to ensure reliable and efficient performance.

Functionality

The primary function of the Soldron S1100A soldering iron is to melt and apply solder to electrical connections, joints, and components. The iron features a heat-resistant, durable construction that allows it to maintain a consistent temperature, ensuring precise control over the soldering process.

Key Features

Powerful 100 Watt Heating Element: The S1100A features a robust 100-watt heating element that rapidly heats up to the desired temperature, allowing for efficient soldering and reducing downtime.
230 Volts Operating Voltage: The soldering iron is designed to operate at 230 volts, making it compatible with standard household power outlets in most regions.
Temperature Control: The soldering iron features an adjustable temperature control, allowing users to set the optimal temperature for their specific soldering needs (150C to 450C).
Thermal Recovery: The S1100A features advanced thermal recovery, which ensures that the iron quickly recovers its temperature after each soldering operation, reducing waiting time and increasing productivity.
Durable Ceramic Heating Element: The ceramic heating element is resistant to thermal shock and provides a long lifespan, minimizing the need for replacement.
Ergonomic Design: The soldering iron features a comfortable, ergonomic design with a contoured grip and balanced weight distribution, reducing fatigue and improving control during extended use.
Integrated Stand: The S1100A comes with an integrated stand that allows for convenient storage and organization when not in use.
Replaceable Tips: The soldering iron features replaceable tips, allowing users to easily switch between different soldering tasks and prolong the life of the iron.
Safety Features: The iron is designed with safety in mind, featuring automatic shut-off, overheat protection, and a heat-resistant cord to prevent accidents and injuries.

Specifications

Dimensions

170mm (L) x 60mm (W) x 30mm (H) (approx.)

Application

The Soldron S1100A soldering iron is suitable for a wide range of applications, including

Electronic assembly and repair

PCB rework and prototyping

Jewelry making and metalworking

Hobbyist and DIY projects

Warranty and Support

The Soldron S1100A soldering iron comes with a manufacturer's warranty that covers defects in materials and workmanship for a specified period. Additionally, the manufacturer provides technical support and documentation to ensure optimal performance and troubleshooting.

Pin Configuration

Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A Pinout and Connection Guide
The Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A is a high-performance soldering iron designed for heavy-duty soldering applications. The device comes with a range of pins that enable connections to various components and peripherals. This documentation provides a detailed explanation of each pin, their functions, and how to connect them properly.
Pinout Structure:
The S1100A soldering iron has a total of 5 pins, each with a specific function. The pins are arranged in a single row, with the following structure:
| Pin Number | Pin Function | Description |
| --- | --- | --- |
| 1 | VCC (230V) | Power input (230V AC) |
| 2 | GND | Ground connection |
| 3 | HEATER | Heater element control |
| 4 | THERM | Thermocouple signal output |
| 5 | LED | LED indicator (optional) |
Pin-by-Pin Explanation and Connection Guide:
Pin 1: VCC (230V)
Function: Power input for the soldering iron
Description: This pin supplies 230V AC power to the soldering iron, which is used to heat the heating element.
Connection:
+ Connect the VCC pin to a 230V AC power source using a suitable power cord or cable.
+ Ensure the power source is rated for 100W or higher to provide sufficient power to the soldering iron.
Pin 2: GND
Function: Ground connection
Description: This pin provides a ground connection for the soldering iron, essential for safety and proper operation.
Connection:
+ Connect the GND pin to a suitable ground point, such as a metal chassis or a dedicated ground wire.
+ Ensure a secure and reliable ground connection to prevent electrical shock hazards.
Pin 3: HEATER
Function: Heater element control
Description: This pin controls the heating element in the soldering iron, allowing the user to regulate the temperature.
Connection:
+ Connect the HEATER pin to a temperature control circuit or a PWM (Pulse-Width Modulation) signal generator.
+ The HEATER pin typically requires a low-voltage DC signal (e.g., 0-5V) to control the heating element.
Pin 4: THERM
Function: Thermocouple signal output
Description: This pin provides a signal output from the thermocouple, which measures the temperature of the soldering iron tip.
Connection:
+ Connect the THERM pin to a thermocouple amplifier or a temperature measurement circuit.
+ The THERM pin typically outputs a small voltage signal (e.g., 0-10mV) proportional to the temperature of the soldering iron tip.
Pin 5: LED (Optional)
Function: LED indicator
Description: This pin is optional and can be used to connect an external LED indicator to display the soldering iron's status (e.g., power on, temperature reached).
Connection:
+ Connect the LED pin to an external LED and a suitable current-limiting resistor (e.g., 1 k).
+ The LED pin typically requires a low-voltage DC signal (e.g., 0-5V) to drive the LED.
Important Safety Considerations:
Always ensure proper insulation and isolation of the power connections to prevent electrical shock hazards.
Use suitable wiring and connectors rated for the high voltage and current requirements of the soldering iron.
Follow proper safety guidelines when working with electrical components and soldering irons.
By following this pinout and connection guide, users can safely and effectively connect the Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A to their desired peripherals and components.

Code Examples

Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A Documentation

Overview

The Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A is a high-performance soldering iron designed for heavy-duty soldering applications. This component is ideal for industrial, commercial, and DIY projects that require precise temperature control and high power output.

Technical Specifications

Power: 100W
 Voltage: 230V
 Temperature range: 200C to 450C
 Heating element: High-quality copper winding
 Insulation: Fiberglass and KAPTON
 Tip type: Copper-plated iron

Connecting the Soldering Iron

The S1100A soldering iron can be connected to a power source using a standard IEC 60320 C13 connector. Ensure the power source provides a stable 230V output to operate the soldering iron safely and efficiently.

Example 1: Using the Soldering Iron with an Arduino Board

In this example, we will demonstrate how to control the temperature of the soldering iron using an Arduino Board. We will use the Arduino's analog output to regulate the power supply to the soldering iron.

Hardware Requirements

Arduino Board (e.g., Arduino Uno)
 Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A
 Power source (230V)
 Breadboard and jumper wires

Code Example
```c++
const int tempPin = A0;  // Analog input pin for temperature sensor
const int pwmPin = 9;  // PWM output pin for soldering iron control

void setup() {
  pinMode(tempPin, INPUT);
  pinMode(pwmPin, OUTPUT);
}

void loop() {
  int tempReading = analogRead(tempPin);
  int temperature = map(tempReading, 0, 1023, 200, 450); // Map temperature range to 200C to 450C
  int pwmValue = map(temperature, 200, 450, 0, 255); // Map temperature to PWM value

analogWrite(pwmPin, pwmValue); // Control soldering iron temperature
  delay(50); // Adjust temperature every 50ms
}
```
Example 2: Using the Soldering Iron with a Raspberry Pi

In this example, we will demonstrate how to control the soldering iron using a Raspberry Pi's GPIO pins and Python scripting.

Hardware Requirements

Raspberry Pi (e.g., Raspberry Pi 4)
 Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A
 Power source (230V)
 Breadboard and jumper wires

Code Example
```python
import RPi.GPIO as GPIO
import time

GPIO.setmode(GPIO.BCM)
GPIO.setup(17, GPIO.OUT)  # Set GPIO 17 as output for soldering iron control

while True:
    temperature = 350  # Desired temperature in C
    pwmValue = int((temperature - 200) / 250  255)  # Calculate PWM value
    GPIO.PWM(17, 500).start(pwmValue)  # Set PWM frequency to 500 Hz and duty cycle
    time.sleep(0.5)  # Adjust temperature every 0.5 seconds
```
Safety Precautions

When working with the Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A, ensure you follow proper safety guidelines to avoid injuries and damage to the component:

Always handle the soldering iron with care, as it can reach extremely high temperatures.
 Use protective gear, such as gloves and safety glasses, when operating the soldering iron.
 Ensure the power source provides a stable 230V output to avoid overheating or underheating the soldering iron.
 Keep the soldering iron away from flammable materials and avoid using it in areas with poor ventilation.

Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A

Component Documentation

Power

Operating Voltage

Temperature Range

Temperature Control

Thermal Recovery

Heating Element

Weight

Dimensions

Pin Configuration

Code Examples

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Soldron High Quality 100 Watt 230 Volts Soldering Iron S1100A

Component Documentation

Power

Operating Voltage

Temperature Range

Temperature Control

Thermal Recovery

Heating Element

Weight

Dimensions

Pin Configuration

Code Examples