14-03-2024
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2 Channel Logic Level Converter (I2C, UART, 5V-3.3V)
2 Channel Logic Level Converter (I2C, UART, 5V-3.3V)
Regular price
Rs. 20
Regular price
Rs. 24
Sale price
Rs. 20
Unit price
per
Incl. GST (No Hidden Charges)
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- This level converter also works with 2.8V and 1.8V devices
- A bi-directional logic level converter is a small device that safely steps down 5V signals to 3.3V AND steps up 3.3V to 5V at the same time
- Two inputs and two outputs are provided for each side.
- It can bidirectionally transfer with 2 channels between high logic voltage and low logic voltage
- This logic level converter is compatible with Arduino, Raspberry Pi and STM32.
2 Channel Logic Level Converter (I2C, UART, 5V-3.3V)
The 2 Channel Logic Level Converter is a small device that safely steps down 5V signals to 3.3V and steps up 3.3V to 5V. This level converter also works with 2.8V and 1.8V devices. Each level converter has the capability of converting 4 pins on the high side to 4 pins on the low side. Two inputs and two outputs are provided for each side. This logic level converter is compatible with Arduino, Raspberry Pi and STM32.
Each level converter has the capability of converting 4 pins on the high side to 4 pins on the low side with two inputs and two outputs provided for each side. The level converter is very easy to use. The board needs to be powered from the two voltages sources (high voltage and low voltage) that your system is using. High voltage (5V for example) to the HV' pin, low voltage (3.3V for example) to LV', and ground from the system to the GND' pin.
Application:
- TTL Logic Level Converter
- Bidirectional Logic Level Conversion
Package Includes:
- 1 x 2 Channel Logic Level Converter
Specifications:
| High Voltage | 5V |
| Low Voltage | 3.3V |
| No. of Channels | 2 |
| Dimensions | 15 x 15 x 2mm |
| Weight | 2g |
Shipping & Returns
Shipping & Returns
- All orders confirmed before 3 pm IST are shipped on the
same day, barring rare pickup delays on holidays or disturbances - Delivery time in Metro cities is 1-3 days, Others it is
3-7 days. It varies based on location, reliant on courier services - Return window: 7 days from receipt unless stated
otherwise. No refunds/replacements after - Returns only for non-working/damaged products are accepted
- Initiate return requests to our customer service team via Support ticket or contact us at +91-8123057137
- Refunds are processed within 3-4 working days post inspection and approval.
For more details, please check our Shipping and Return Policy
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1. What is the use of a logic level converter?
- A logic signal can be changed from one level to another using a 3.3 v to 5 v level shifter. Other voltages may be used if preferred; typically, this shift occurs between 5v and 3.3v. Use an external level shifter or logic level shifter when connecting a 2.5v, 1.8v, 3.3v, or i2c sensor to a 5v device like an Arduino that supports bi-directional communication. The logic level converter uses one Mosfet per bus line to support bidirectional level shifting and shields the low side from high-side spikes.
2. How do you create a logic level shifter?
- The level converter is extremely simple to use. If you've ever attempted to connect a 3.3v device to a 5v system, you know how challenging it can be. A bi-directional logic level shifter is a small device that safely reduces a 5v signal to 3.3v while simultaneously boosting 3.3v to 5v. This level converter is also compatible with devices rated at 2.8v and 1.8v. The level converter is extremely simple to use. The board must be powered by the two voltage sources in the system (high and low voltage). Connect the high voltage (for example, 5v) to the 'HV' pin, the low voltage (for example, 3.3v) to the 'lv' pin, and the system ground to the 'GND' pin.
3. How do you shift from 3.3v to 5v?
- To convert 3.3v to 5v (or 5v to 3.3v converter), apply 5v to the 'HV' side and 3.3v to the 'lv' input. Also, ensure that the remaining pins are grounded. The outer pins correspond to channel 1 and 2 inputs and outputs. Each channel is equipped with a voltage divider and a Mosfet shifter.
