CLVC2G125IDCTRQ1

Product Overview

Category: Integrated Circuit (IC)
Use: Logic Level Converter
Characteristics:
- Bi-directional voltage level shifting
- Supports voltage translation between different logic levels
- Low power consumption
- High-speed operation
Package: DCT package (8-pin SOIC)
Essence: Voltage level conversion for digital signals
Packaging/Quantity: Tape and reel, 2500 units per reel

Specifications

Supply Voltage Range: 1.65V to 3.6V
Logic Input Voltage Range (VIL, VIH): 0V to VCC
Output Voltage Range (VO): 0V to VCC
Maximum Operating Frequency: 100 MHz
Propagation Delay: 5 ns (max)
Operating Temperature Range: -40°C to +85°C

Detailed Pin Configuration

The CLVC2G125IDCTRQ1 has the following pin configuration:

| Pin Number | Pin Name | Description | |------------|----------|-------------| | 1 | A1 | Logic level input/output A1 | | 2 | B1 | Logic level input/output B1 | | 3 | GND | Ground | | 4 | OE | Output enable | | 5 | VCCA | Supply voltage for side A | | 6 | VCCB | Supply voltage for side B | | 7 | B2 | Logic level input/output B2 | | 8 | A2 | Logic level input/output A2 |

Functional Features

Bi-directional voltage level shifting between two logic levels
Allows interfacing between devices operating at different voltage levels
Supports bidirectional communication between devices with different logic levels
Output enable (OE) pin for controlling the direction of data flow
Low power consumption and high-speed operation

Advantages and Disadvantages

Advantages

Enables seamless communication between devices operating at different voltage levels
Bi-directional capability simplifies circuit design
Low power consumption helps in energy-efficient applications
High-speed operation allows for fast data transmission

Disadvantages

Limited to voltage level translation and does not perform any other functions
May introduce slight signal degradation due to propagation delay
Requires careful consideration of input/output voltage compatibility

Working Principles

The CLVC2G125IDCTRQ1 is a voltage level converter that facilitates communication between devices operating at different logic levels. It utilizes a bidirectional architecture, allowing for seamless translation of digital signals between two voltage domains.

The device consists of two sections, each connected to a separate supply voltage (VCCA and VCCB). The A-side interfaces with devices operating at a lower voltage level, while the B-side interfaces with devices operating at a higher voltage level. The logic inputs/outputs on both sides are bidirectional, enabling data transmission in either direction.

The output enable (OE) pin controls the direction of data flow. When OE is low, data can be transmitted from the A-side to the B-side. Conversely, when OE is high, data can be transmitted from the B-side to the A-side. This feature allows for flexible bidirectional communication.

The CLVC2G125IDCTRQ1 operates with low power consumption and provides high-speed operation, making it suitable for various applications requiring voltage level translation.

Detailed Application Field Plans

The CLVC2G125IDCTRQ1 finds application in various fields where voltage level translation is required. Some of the potential application areas include:

Microcontrollers and Sensors: Facilitating communication between microcontrollers operating at different voltage levels and sensors with varying logic levels.
Communication Interfaces: Enabling data exchange between devices using different voltage standards, such as UART, I2C, SPI, etc.
Mixed Voltage Systems: Bridging the gap between components operating at different voltage levels in mixed voltage systems.
Battery-Powered Devices: Allowing efficient communication between low-power devices and higher voltage peripherals.
Industrial Automation: Supporting voltage level translation in industrial automation systems where different devices operate at distinct logic levels.

Detailed and Complete Alternative Models

SN74LVC2T45DCTR: Dual-bit bidirectional voltage level translator with automatic direction sensing.
PCA9306DCUR: Dual bidirectional I2C-bus and SMBus voltage level translator with adjustable VREF.
TXB0108PWR: 8-bit bidirectional voltage-level translator with automatic direction sensing.

These alternative models offer similar functionality to the CLVC2G125IDCTRQ1 and can be considered based on specific application requirements.

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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací CLVC2G125IDCTRQ1 v technických řešeních

Sure! Here are 10 common questions and answers related to the application of CLVC2G125IDCTRQ1 in technical solutions:

1. What is CLVC2G125IDCTRQ1? CLVC2G125IDCTRQ1 is a dual supply, dual buffer gate with 3-state outputs. It is commonly used in digital logic applications.

2. What is the operating voltage range of CLVC2G125IDCTRQ1? The operating voltage range of CLVC2G125IDCTRQ1 is from 1.65V to 3.6V.

3. What is the maximum output current of CLVC2G125IDCTRQ1? The maximum output current of CLVC2G125IDCTRQ1 is ±24mA.

4. Can CLVC2G125IDCTRQ1 be used as a level shifter? Yes, CLVC2G125IDCTRQ1 can be used as a level shifter to convert signals between different voltage levels.

5. Does CLVC2G125IDCTRQ1 support 3-state outputs? Yes, CLVC2G125IDCTRQ1 supports 3-state outputs, which allows multiple devices to share a bus without interfering with each other.

6. What is the propagation delay of CLVC2G125IDCTRQ1? The propagation delay of CLVC2G125IDCTRQ1 is typically around 0.7ns.

7. Can CLVC2G125IDCTRQ1 be used in automotive applications? Yes, CLVC2G125IDCTRQ1 is qualified for automotive applications and meets the AEC-Q100 standard.

8. Is CLVC2G125IDCTRQ1 compatible with other logic families? Yes, CLVC2G125IDCTRQ1 is compatible with a wide range of logic families, including TTL, CMOS, and LVCMOS.

9. What is the package type of CLVC2G125IDCTRQ1? CLVC2G125IDCTRQ1 is available in a small footprint 8-pin VSSOP package.

10. Can CLVC2G125IDCTRQ1 be used in high-speed applications? Yes, CLVC2G125IDCTRQ1 can be used in high-speed applications as it has a maximum toggle frequency of 500MHz.

Please note that these answers are general and may vary depending on specific application requirements. It is always recommended to refer to the datasheet and consult with the manufacturer for detailed information.