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11.1V 2200mAh Orange Lithium polymer battery

11.1V 2200mAh Orange Lithium polymer battery 11.1V 2200mAh Orange Lithium polymer battery
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Component Name

11.1V 2200mAh Orange Lithium Polymer Battery

Overview

The 11.1V 2200mAh Orange Lithium Polymer Battery is a rechargeable power source designed for use in a wide range of Internet of Things (IoT) devices, robotics, and other portable electronic applications. This battery offers a high energy density, compact design, and reliable performance, making it an ideal choice for powering devices that require a stable and efficient power supply.

Functionality

The primary function of this lithium polymer battery is to store electrical energy, which can be released as needed to power devices such as IoT sensors, microcontrollers, wireless modules, and other low-power electronic components. The battery operates on a nominal voltage of 11.1V and has a capacity of 2200mAh, providing a reliable and consistent power supply.

Key Features

  • High Energy Density: The 11.1V 2200mAh Orange Lithium Polymer Battery has a high energy density, which means it packs a lot of power relative to its size and weight. This makes it an ideal choice for devices where space is limited.
  • Compact Design: The battery features a compact design, making it easy to integrate into a wide range of devices and applications.
  • Rechargeable: The lithium polymer battery is rechargeable, which reduces waste and minimizes the environmental impact of device operation.
  • Low Self-Discharge: The battery has a low self-discharge rate, which means it retains its charge even when not in use. This feature ensures that the device remains operational for a longer period between charges.
  • Protection Circuit: The battery is equipped with a built-in protection circuit that prevents overcharge, over-discharge, and short-circuiting, which enhances safety and extends the lifespan of the battery.
  • Orange Color: The battery has an orange color, which makes it easily distinguishable from other batteries and components.
  • Nominal Voltage: The battery operates at a nominal voltage of 11.1V, making it suitable for devices that require a stable and efficient power supply.
  • Capacity: The battery has a capacity of 2200mAh, providing a reliable and consistent power supply for devices.

Nominal Voltage

11.1V

Capacity

2200mAh

Energy Density

24.42 Wh/kg

Cycle Life

500 cycles

Operating Temperature

-20C to 45C

Storage Temperature

-20C to 35C

Dimensions

69.30mm x 36.50mm x 14.50mm

Weight

approximately 65g

Applications

The 11.1V 2200mAh Orange Lithium Polymer Battery is suitable for a wide range of applications, including

IoT devices

Robotics

Drones

Wireless sensor networks

Wearable devices

Portable electronics

Medical devices

Safety Precautions

Avoid short-circuiting the battery terminals.

Do not overcharge or over-discharge the battery.

Keep the battery away from high temperatures and open flames.

Handle the battery with care to avoid physical damage.

Warranty and Support

The 11.1V 2200mAh Orange Lithium Polymer Battery comes with a standard warranty and support package, which includes

1-year limited warranty

Dedicated technical support

Access to documentation and resources

By following proper safety precautions and handling guidelines, the 11.1V 2200mAh Orange Lithium Polymer Battery can provide reliable and efficient power supply for a wide range of devices and applications.

Pin Configuration

  • 11.1V 2200mAh Orange Lithium Polymer Battery Documentation
  • Pinout Description
  • The 11.1V 2200mAh Orange Lithium Polymer Battery has the following pins:
  • Pin 1: Positive Terminal (+)
  • Function: Provides the positive voltage output of the battery.
  • Voltage: 11.1V (nominal voltage)
  • Current: Up to 2.2A (dependent on application and load)
  • Connection: Connect to the positive input of your device or circuit.
  • Pin 2: Negative Terminal (-)
  • Function: Provides the negative voltage output of the battery.
  • Voltage: 0V (ground)
  • Current: Up to 2.2A (dependent on application and load)
  • Connection: Connect to the negative input of your device or circuit.
  • Pin 3: Protection Circuit (PCB) Pin
  • Function: Connects to the internal protection circuitry of the battery, which prevents overcharge, over-discharge, and short-circuit protection.
  • Connection: Not applicable (internal connection only)
  • Note: Do not connect anything to this pin, as it is for internal use only.
  • Pin 4: Thermistor Pin
  • Function: Connects to a thermistor (temperature sensor) that monitors the battery's temperature.
  • Connection: Connect to a thermistor or a temperature monitoring device (optional)
  • Note: If not used, leave this pin disconnected.
  • Connection Structure:
  • To connect the pins of the 11.1V 2200mAh Orange Lithium Polymer Battery:
  • 1. Positive Terminal (+):
  • Connect the positive wire of your device or circuit to the positive terminal (+) of the battery.
  • 2. Negative Terminal (-):
  • Connect the negative wire of your device or circuit to the negative terminal (-) of the battery.
  • 3. Optional Thermistor Connection:
  • If using a thermistor, connect one end of the thermistor to the thermistor pin (Pin 4) on the battery.
  • Connect the other end of the thermistor to the temperature monitoring device or circuit.
  • Important Safety Notes:
  • Always handle lithium polymer batteries with care, as they can be damaged by improper handling or installation.
  • Ensure proper polarity when connecting the battery to your device or circuit.
  • Avoid short-circuiting the battery, as it can cause damage or even start a fire.
  • Follow proper charging and discharging procedures to prolong the battery's lifespan.
  • Additional Resources:
  • For more information on proper battery handling, charging, and discharging, please refer to the manufacturer's documentation or relevant industry standards.

Code Examples

Component Documentation: 11.1V 2200mAh Orange Lithium Polymer Battery
Overview
The 11.1V 2200mAh Orange Lithium Polymer Battery is a high-capacity rechargeable battery designed for use in various IoT projects and applications. This battery packs a punch with its high energy density, low self-discharge rate, and compact size, making it an ideal choice for powering devices that require reliable and long-lasting power.
Specifications
Voltage: 11.1V
 Capacity: 2200mAh
 Type: Lithium Polymer (LiPo)
 Dimensions: 55.5mm x 34.5mm x 23.5mm
 Weight: 85g
 Cycle Life: 300+
 Charge/Discharge Cycles: 0.5C/1C
Connecting the Battery
To connect the battery to your IoT device, you'll need to attach the positive (red) wire to the device's positive terminal and the negative (black) wire to the device's negative terminal.
Code Examples
### Example 1: Basic Powering of an ESP32 Board
In this example, we'll use the 11.1V 2200mAh Orange Lithium Polymer Battery to power an ESP32 board. We'll assume the ESP32 board has a built-in voltage regulator that can handle the 11.1V input.
```c
// No code is required, as the battery is connected directly to the ESP32 board
```
Connect the positive wire to the ESP32 board's VIN pin and the negative wire to the GND pin. The ESP32 board will regulate the voltage down to 3.3V for its internal components.
### Example 2: Using a Voltage Regulator to Power an Arduino Board
In this example, we'll use a voltage regulator (e.g., L4931V5Reg) to step down the 11.1V from the battery to 5V for an Arduino board. This is necessary because the Arduino board's onboard voltage regulator can only handle up to 12V input.
```c
// No code is required, as the voltage regulator takes care of the voltage conversion
```
Connect the positive wire to the voltage regulator's VIN pin, the negative wire to the voltage regulator's GND pin, and the output voltage (5V) to the Arduino board's VIN pin.
### Example 3: Monitoring the Battery State using an Arduino Board
In this example, we'll use an Arduino board to monitor the battery's state of charge (SOC) using a voltage divider circuit.
```c
const int batteryPin = A0;  // Analog input pin for battery voltage measurement
const float resistor1 = 10e3;  // R1 in Ohms
const float resistor2 = 4.7e3;  // R2 in Ohms
void setup() {
  Serial.begin(9600);
}
void loop() {
  int batteryReading = analogRead(batteryPin);
  float batteryVoltage = (batteryReading  5.0) / 1023.0;
  float soc = (batteryVoltage - 9.0) / 2.1  100.0;  // Assuming 9V empty and 11.1V full
Serial.print("Battery SOC: ");
  Serial.print(soc);
  Serial.println("%");
delay(1000);
}
```
Note: The above code assumes a voltage divider circuit is set up to measure the battery voltage. The resistor values (R1 and R2) should be chosen according to the measurement range of your Arduino board's analog input pins.
Always follow proper safety precautions when working with lithium-ion batteries, including using protective circuits and following charging/discharging guidelines to prevent damage or injury.