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11.1v 3300mAh 35C 3S1P Bonka Lipo Battery

11.1v 3300mAh 35C 3S1P Bonka Lipo Battery 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery
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Component Description

11.1v 3300mAh 35C 3S1P Bonka Lipo Battery

Overview

The 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery is a high-performance lithium-ion polymer (LiPo) battery designed for use in a wide range of applications, including robotics, drones, remote-controlled vehicles, and other IoT devices that require a reliable and efficient power source.

Functionality

The primary function of the 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery is to store electrical energy that can be used to power IoT devices. The battery provides a stable 11.1V output voltage and a capacity of 3300mAh, allowing it to deliver a considerable amount of power to connected devices.

Key Features

  • Nominal Voltage: 11.1V

The battery has a nominal voltage of 11.1V, which is typical for 3S (3-cell) LiPo batteries. This voltage is suitable for most IoT devices that require a stable and efficient power supply.

  • Capacity: 3300mAh

The battery has a capacity of 3300mAh, which represents the amount of electric charge it can store. A higher capacity means the battery can power devices for longer periods.

  • Configuration: 3S1P

The battery has a 3S1P configuration, which means it consists of three cells connected in series (3S) and one parallel group (1P). This configuration provides a balance between voltage, capacity, and discharge rate.

  • Discharge Rate: 35C

The battery has a discharge rate of 35C, which indicates its ability to supply a high current quickly. A higher discharge rate (C-rating) means the battery can handle rapid power demands from devices.

  • Lithium-Ion Polymer (LiPo) Chemistry

The battery uses lithium-ion polymer (LiPo) chemistry, which provides a high energy density, low self-discharge rate, and a long cycle life. LiPo batteries are widely used in IoT devices due to their reliability and efficiency.

  • Bonka Brand

The battery is manufactured by Bonka, a reputable brand known for producing high-quality LiPo batteries with excellent performance and reliability.

  • Protection Circuitry

The battery is equipped with built-in protection circuitry to prevent overcharge, over-discharge, and over-current conditions, ensuring safe and reliable operation.

  • Compact Design

The battery has a compact design, making it ideal for use in applications where space is limited.

Applications

The 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery is suitable for a wide range of IoT applications, including

Robotics

Drones

Remote-controlled vehicles

IoT sensors and devices

Wearable devices

Portable electronics

Specifications

| Parameter | Value |

| --- | --- |

| Nominal Voltage | 11.1V |

| Capacity | 3300mAh |

| Configuration | 3S1P |

| Discharge Rate | 35C |

| Chemistry | Lithium-Ion Polymer (LiPo) |

| Weight | [Insert weight] |

| Dimensions | [Insert dimensions] |

| Operating Temperature | [Insert operating temperature range] |

| Storage Temperature | [Insert storage temperature range] |

Safety Precautions

When using the 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery, it is essential to follow proper safety precautions to ensure safe and reliable operation. These precautions include

Avoid overcharging or over-discharging the battery.

Keep the battery away from high temperatures, flames, and sparks.

Use a compatible charger and follow the manufacturer's charging instructions.

Monitor the battery's state of charge and avoid deep discharging.

Store the battery in a cool, dry place away from metal objects.

By following these guidelines and taking necessary safety precautions, the 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery can provide reliable and efficient power to IoT devices in a variety of applications.

Pin Configuration

  • 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery Documentation
  • Pinout Explanation:
  • The 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery has the following pins:
  • 1. Positive Terminal (+):
  • Description: The positive terminal is the power output pin of the battery, which supplies energy to the connected device.
  • Connection: Connect to the positive input of your device or electronic system.
  • 2. Negative Terminal (-):
  • Description: The negative terminal is the ground or return path pin of the battery, which completes the circuit.
  • Connection: Connect to the negative input of your device or electronic system.
  • 3. Balance Lead (JST-XH 3-pin connector):
  • Description: The balance lead is used to monitor and balance the individual cell voltages within the battery.
  • Pinout:
  • + Pin 1: Cell 1 (Closest to the positive terminal)
  • + Pin 2: Cell 2
  • + Pin 3: Cell 3 (Closest to the negative terminal)
  • Connection:
  • + Connect the balance lead to a balance charger or a battery management system (BMS) to ensure proper charging and cell balancing.
  • 4. State of Charge (SOC) Indicator (optional):
  • Description: Some Bonka Lipo Batteries may have an SOC indicator, which provides a visual representation of the battery's remaining capacity.
  • Connection: Typically connected to an LED indicator or a dedicated SOC display module.
  • Connecting the Pins:
  • When connecting the pins, ensure proper polarity and observe the following structure:
  • Positive Terminal (+) Device Positive Input
  • Negative Terminal (-) Device Negative Input
  • Balance Lead (JST-XH 3-pin connector) Balance Charger or BMS
  • SOC Indicator (if present) LED Indicator or SOC Display Module
  • Important Safety Notes:
  • Always handle LiPo batteries with care, as they can be prone to damage or explosion if not handled properly.
  • Ensure the battery is charged and discharged within the recommended specifications to prolong its lifespan.
  • Use a compatible balance charger and follow proper charging procedures to avoid overcharging or undercharging the battery.
  • Never short-circuit the battery or attempt to charge it with a non-compatible charger.
  • By following these guidelines and connecting the pins correctly, you can ensure safe and efficient operation of the 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery in your IoT project.

Code Examples

Component Documentation: 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery
Overview
The 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery is a high-performance lithium-polymer battery designed for use in various IoT applications, including drones, robotics, and other mobile devices. This battery features a high discharge rate of 35C, making it suitable for applications that require rapid power delivery.
Specifications
Nominal Voltage: 11.1V
 Capacity: 3300mAh
 Discharge Rate: 35C
 Configuration: 3S1P (3 cells in series, 1 parallel group)
 Weight: approximately 230g
 Dimensions: 74mm x 37mm x 34mm
Usage Guidelines
When using this battery, it is essential to follow proper safety precautions and charging guidelines to ensure safe and optimal operation.
Charging: Use a high-quality lithium-polymer battery charger specifically designed for 3S LiPo batteries. Charge the battery at a rate of 1C (3300mA) or lower to prevent damage.
 Discharging: Monitor the battery voltage and current during discharge to prevent over-discharge, which can cause damage to the cells.
 Storage: Store the battery in a cool, dry place away from flammable materials. Avoid storing the battery for extended periods at full charge or complete discharge.
Example Code:
### Example 1: Arduino-based Drone Control System
In this example, we will use the 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery to power an Arduino-based drone control system. We will monitor the battery voltage and current using the INA219 power monitor IC.
```c++
#include <Wire.h>
#include < INA219.h>
#define BATTERY_PIN A0 // Analog input pin for battery voltage monitoring
INA219 ina219;
void setup() {
  Serial.begin(9600);
  ina219.begin();
}
void loop() {
  int batteryVoltage = analogRead(BATTERY_PIN);
  float batteryVoltageFloat = batteryVoltage  0.011; // Convert analog reading to voltage
  float batteryCurrent = ina219.getCurrent_mA();
  
  Serial.print("Battery Voltage: ");
  Serial.print(batteryVoltageFloat);
  Serial.println(" V");
  Serial.print("Battery Current: ");
  Serial.print(batteryCurrent);
  Serial.println(" mA");
  
  delay(1000);
}
```
### Example 2: Python-based Robot Mobility System
In this example, we will use the 11.1v 3300mAh 35C 3S1P Bonka Lipo Battery to power a Python-based robot mobility system. We will use the `pySerial` library to communicate with a serial-enabled motor controller.
```python
import serial
import time
# Initialize serial connection to motor controller
ser = serial.Serial('COM3', 9600, timeout=1)
while True:
    # Read battery voltage from analog input pin
    battery_voltage = int(input("Enter battery voltage (0-1023): "))  0.011
    
    # Calculate motor speed based on battery voltage
    motor_speed = int((battery_voltage / 11.1)  255)
    
    # Send motor speed command to motor controller
    ser.write(b'motor_speed %d
' % motor_speed)
    
    time.sleep(0.1)
```
Note: These examples are for illustrative purposes only and may require modifications to suit your specific application. Ensure you follow proper safety precautions and testing procedures when working with LiPo batteries.