TXS0104EPWR Review: Features, Specification, and Applications

TXS0104EPWR

Product Overview

Part Number: TXS0104EPWR 

Manufacturer: Texas Instruments

Description: 2.3V~5.5V 1 4 1.65V~3.6V 24Mbps TSSOP-14 Translators / Level Shifters ROHS

Lead Time: Can Ship Immediately

Datasheet: Datasheet PDF

Category: Logic ICs/Translators / Level Shifters

Number of Pins: 14

Short Description

Inactive 8 weeks week one (Unlimited), Volume Translators and Level Shifters 14-TSSOP (0.173, 4.40mm Width), Surface Mounted. There are two independent, programmable power lines in this four-bit non-inverting translator. The A port is used to track VCCA. VCCA accepts any supply

 

It consists of two separate, programmable power lines that operate on four bits. The A port should track VCCA. A variety of supplies are accepted by VCCA. The voltage ranges from 1.65 to 3.6 volts. There must be a difference between VCCB and VCCA. Tracking for VCCB is designed for the B port. VCCB accepts voltages between 2.3 V and 5.5 V. In other words, the voltage nodes of 1.8, 2.5, 3.3, and 5 volts are capable of translating low-voltage data in both directions. As long as the output-enable (OE) input is low, the outputs are all in the high-impedance condition.

 

It is best to short the leads together or to place the device in conductive foam to prevent electrostatic damage to the MOS gates when storing and handling it.

TXS0104EPWR Design

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Product Specification

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Features of TXS0104EPWR 

The quadruple voltage-level translator TXS0104EPWR can operate between 1.2V and 3.6V on the A side and 1.65V to 5.5V on the B side. These are some of the key features of the TXS0104EPWR:

Bidirectional Voltage Translation:

With the TXS0104EPWR, devices with different voltage levels can communicate seamlessly with one another.

 

Quad Channel Translator:

Four independent voltage-level translation channels are provided in a single package by this quadruple channel voltage-level translator.

 

Wide Voltage Range on A Side:

It is suitable for applications requiring a low voltage range between 1.2 V and 3.6 V on the A side.

 

Wide Voltage Range on B Side:

In addition to its 1.65 V to 5.5 V voltage range, the translator also supports other higher voltage applications on its B side.

 

Integrated Direction Control:

Users can control data flow direction between A and B using integrated direction-control circuitry in the device.

 

Automatic Direction Sensing:

It eliminates the need for external direction-control signals with automatic direction sensing in the TXS0104EPWR.

 

High Data Rate:

A high data rate translator allows devices to communicate fast and efficiently.

 

Latch-Up Performance:

In challenging conditions, this device features robust latch-up performance.

 

Low Standby Current:

During idle periods, the TXS0104EPWR consumes less energy due to a low standby current.

 

ESD Protection:

Translators and connected devices are usually protected against electrostatic discharge (ESD) with electrostatic discharge protection.

 

I2C and SMBus Compatible:

In applications where I2C and SMBus communication protocols are used, the TXS0104EPWR is ideal.

 

Small Package:

As a result, electronic systems can be designed with more space efficiency using the device.

 

Open-Drain and Push-Pull Level Translation:

In addition to open-drain and push-pull configurations, the translator supports level translation. This further enhances the translator's versatility.

 

Voltage-Level Shifting:

In the case of voltage-level shifting, components that operate at different voltage levels can communicate seamlessly.

 

Wide Range of Applications:

For I/O expansion modules and sensor interfaces that require voltage translation, the TXS0104EPWR is an excellent choice.

Application of TXS0104EPWR 

Sensor Interface:

To ensure proper communication between sensors and the main processor unit, the TXS0104EPWR can be used in applications with different voltage levels.

 

Microcontroller communication:

There is often a need to exchange data between microcontrollers that have different voltage requirements. TXS0104EPWR supports microcontrollers with varying voltage levels with its bidirectional voltage translator.

 

Mixed-Voltage Logic Circuits:

By allowing bidirectional voltage-level translation, the TXS0104EPWR facilitates the seamless integration of mixed-voltage logic circuits.

 

GPIO Expansion Modules:

In order to ensure compatibility between devices with different voltage levels, the TXS0104EPWR may be used to design GPIO expansion modules or interface circuits for microcontrollers.

 

I/O Expansion for FPGAs:

The voltage levels at which FPGAs operate are often different from the voltage levels at which other components operate. FPGAs and other components in a system can be communicated with using the TXS0104EPWR.

 

Mixed-Voltage Prototyping:

It is possible to experiment with different components with the TXS0104EPWR, since electronic components require varying voltages during prototyping.

 

Battery-Powered Devices:

It increases overall power efficiency by integrating components with different voltage levels, which are commonly used in batteries or portable devices.

 

Signal Conditioning Circuits:

During signal transfer between voltage levels, the translator maintains signal integrity.

 

Smart Home Applications:

Interoperability can be achieved using the TXS0104EPWR in smart home systems that include sensors, actuators, and controllers that operate at different voltage levels.

 

Automotive Electronics:

Regardless of the voltage required by electronic components, the TXS0104EPWR must be capable of communicating with them.

 

Mixed-Voltage Systems on PCBs:

Translators ensure compatibility and smooth communication between mixed-voltage printed circuit boards (PCBs).

Similar Specs Components

Faqs

Question 1: What is the number of channels on the TXS0104EPWR?

Answer: An independent voltage-level translator with four channels in one package, the TXS0104EPWR provides four independent channels for translation.

 

Question 2: Is the TXS0104EPWR suitable for industrial applications?

Answer: This makes the TXS0104EPWR great for industrial applications since it can withstand extended industrial temperatures.

 

Question 3: What communication protocols is the TXS0104EPWR compatible with?

Answer: With TXS0104EPWR, you can use I2C and SMBus interfaces with your applications.

Final Thoughts

The TXS0104EPWR offers seamless communication between devices operating at different voltage levels through its versatile and efficient bidirectional voltage-level translation. The TXS0104EPWR addresses the challenges associated with mixed-voltage environments in electronic systems thanks to its four channels, automatic direction sensing, and compatibility with I2C and SMBus communication protocols.

 

Whether in sensor interfaces, microcontroller communication or mixed-voltage prototyping, the TXS0104EPWR is an essential component for achieving interoperability and compatibility. In different environments, including industrial settings, the translator is reliable because of its ESD protection and latch-up performance.