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11.1V 2200mAh 35C 3S1P Bonka Lipo Battery

11.1V 2200mAh 35C 3S1P Bonka Lipo Battery 11.1V 2200mAh 35C 3S1P Bonka Lipo Battery
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Nominal Voltage

11.1V

Capacity

2200mAh (milliampere-hours)

The nominal voltage of 11.1V is the standard voltage rating for this LiPo battery, while the capacity of 2200mAh represents the amount of electric charge it can hold.

Configuration

3S1P ConfigurationThe battery is configured with 3 cells in series (3S) and 1 group in parallel (1P). This configuration provides a higher voltage and increased capacity.

Discharge Rate

Discharge Rate

35C

The discharge rate of 35C indicates that the battery can supply a maximum current of 35 times its capacity (2200mAh) for a short duration. In this case, the maximum discharge current would be approximately 77A (2200mAh x 35C).

Physical Characteristics

Dimensions

(Please provide dimensions)

Weight

(Please provide weight)

Safety Features

Protection Circuit

The battery may include an integrated protection circuit to prevent overcharge, over-discharge, and short-circuit conditions.

Operating Conditions

Operating Temperature Range

(Please provide temperature range)

Storage Temperature Range

(Please provide temperature range)

Certifications and Compliance

Compliance with safety standards

(Please provide compliance information, e.g., UN38.3, CE, RoHS)

Applications

The 11.1V 2200mAh 35C 3S1P Bonka Lipo Battery is suitable for various applications, including

IoT devices

Robotics

Aerospace

Drones

RC models

Electric vehicles

Precautions and Handling

Handle the battery with care to avoid physical damage or electrical shock.

Store the battery in a cool, dry place, away from flammable materials.

Charge the battery using a compatible charger, following the manufacturer's guidelines.

Avoid overcharging or over-discharging the battery, as it may lead to reduced performance or safety hazards.

By following proper handling and usage guidelines, the 11.1V 2200mAh 35C 3S1P Bonka Lipo Battery can provide reliable power to your IoT devices and systems.

Pin Configuration

  • 11.1V 2200mAh 35C 3S1P Bonka Lipo Battery Documentation
  • Pinout Description
  • The 11.1V 2200mAh 35C 3S1P Bonka Lipo Battery has a standard JST-XH balance connector and a main discharge connector. Here's a detailed description of each pin:
  • JST-XH Balance Connector (6-pin)
  • Pin 1: B1- (Cell 1 Negative): This pin connects to the negative terminal of the first lithium-ion cell.
  • Pin 2: B1+ (Cell 1 Positive): This pin connects to the positive terminal of the first lithium-ion cell.
  • Pin 3: B2- (Cell 2 Negative): This pin connects to the negative terminal of the second lithium-ion cell.
  • Pin 4: B2+ (Cell 2 Positive): This pin connects to the positive terminal of the second lithium-ion cell.
  • Pin 5: B3- (Cell 3 Negative): This pin connects to the negative terminal of the third lithium-ion cell.
  • Pin 6: B3+ (Cell 3 Positive): This pin connects to the positive terminal of the third lithium-ion cell.
  • Main Discharge Connector (2-pin)
  • Pin 1: - (Negative): This pin connects to the negative terminal of the battery pack.
  • Pin 2: + (Positive): This pin connects to the positive terminal of the battery pack.
  • Connection Structure
  • To connect the battery to your device or a charger, follow this structure:
  • Balance Connection
  • 1. Connect the JST-XH balance connector to a compatible balance charger or a device with a balance connector.
  • 2. Ensure the polarity of the connections is correct:
  • B1- to Cell 1 Negative
  • B1+ to Cell 1 Positive
  • B2- to Cell 2 Negative
  • B2+ to Cell 2 Positive
  • B3- to Cell 3 Negative
  • B3+ to Cell 3 Positive
  • Main Discharge Connection
  • 1. Connect the main discharge connector to your device or a charger with a compatible connector (e.g., XT60, T-Connector, or Dean's connector).
  • 2. Ensure the polarity of the connections is correct:
  • - (Negative) to the negative terminal of your device or charger
  • + (Positive) to the positive terminal of your device or charger
  • Important Notes
  • Always double-check the polarity of the connections to prevent damage to the battery or your device.
  • Use a compatible balance charger to charge the battery, as it ensures each cell is charged correctly and reduces the risk of overcharging or undercharging.
  • Follow proper safety precautions when working with lithium-ion batteries, as they can be dangerous if mishandled.

Code Examples

Component Overview
The 11.1V 2200mAh 35C 3S1P Bonka Lipo Battery is a high-performance lithium-polymer battery designed for demanding applications, such as drones, robots, and other IoT devices. This battery features a 3S1P configuration (three cells in series, one parallel block), which provides a high discharge rate of 35C, making it suitable for high-power devices.
Key Specifications
Voltage: 11.1V (nominal)
 Capacity: 2200mAh
 Discharge Rate: 35C
 Configuration: 3S1P (three cells in series, one parallel block)
 Weight: approximately 170g
 Dimensions: 72mm x 36mm x 24mm
Connecting the Battery
To connect the battery to your IoT device, you'll need to use the XT60 connector. Make sure to connect the positive (red) wire to the positive terminal of your device and the negative (black) wire to the negative terminal.
Example 1: Using the Battery with an Arduino Board
In this example, we'll demonstrate how to connect the battery to an Arduino board and use it to power a simple LED circuit.
Hardware Requirements:
11.1V 2200mAh 35C 3S1P Bonka Lipo Battery
 Arduino Board (e.g., Arduino Uno)
 LED
 1k Resistor
 Jumper Wires
Code Example:
```c++
const int ledPin = 13;  // choose a pin for the LED
void setup() {
  pinMode(ledPin, OUTPUT);
}
void loop() {
  digitalWrite(ledPin, HIGH);  // turn the LED on
  delay(1000);
  digitalWrite(ledPin, LOW);  // turn the LED off
  delay(1000);
}
```
Connect the battery to the Arduino board using the XT60 connector. Connect the LED to digital pin 13 through a 1k resistor. Upload the code to the Arduino board and observe the LED blinking.
Example 2: Using the Battery with a Raspberry Pi
In this example, we'll demonstrate how to connect the battery to a Raspberry Pi and use it to power a simple Python script.
Hardware Requirements:
11.1V 2200mAh 35C 3S1P Bonka Lipo Battery
 Raspberry Pi (e.g., Raspberry Pi 4)
 Micro-USB cable
 Power adapter (optional)
Code Example:
```python
import time
import RPi.GPIO as GPIO
GPIO.setmode(GPIO.BCM)
GPIO.setup(17, GPIO.OUT)  # choose a pin for the LED
try:
    while True:
        GPIO.output(17, GPIO.HIGH)  # turn the LED on
        time.sleep(1)
        GPIO.output(17, GPIO.LOW)  # turn the LED off
        time.sleep(1)
except KeyboardInterrupt:
    GPIO.cleanup()
```
Connect the battery to the Raspberry Pi using the XT60 connector and a power adapter (if necessary). Connect an LED to GPIO pin 17. Run the Python script to observe the LED blinking.
Safety Precautions
When working with lithium-polymer batteries, it's essential to follow proper safety guidelines to avoid damage or injury:
Always handle the battery with care, avoiding short circuits or physical damage.
 Keep the battery away from heat sources, flames, or sparks.
 Monitor the battery's temperature and voltage during charging and discharging.
 Use a compatible charger and follow the manufacturer's charging instructions.
 Dispose of the battery responsibly, following local regulations and guidelines.