TXS0108ERGYR: Features, Specs & More
In the realm of electronics, efficient communication between devices operating at different voltage levels is crucial. In this comprehensive article, we'll delve into the intricacies of the TXS0108ERGYR, uncovering its definition, key features, specifications, applications, and a closer look at its manufacturer.
Catalog
TXS0108ERGYR's Overview
The TI TXS0108ERGYR stands tall as a voltage level translator par excellence. In simple terms, it's a crucial component that facilitates seamless communication between devices operating at different voltage levels. Picture this: you have a system where one part operates at 1.8V, while another component functions at 3.3V. Enter the TXS0108ERGYR, bridging the gap between these disparate voltage domains with finesse.
Key Features
Let's delve into the standout features that make the TXS0108ERGYR a standout in the world of electronics:
· With 8 bidirectional channels, this translator offers versatility and efficiency in managing voltage levels bidirectionally.
· Despite its complex functionality, the TXS0108ERGYR boasts impressively low propagation delay times, ensuring swift signal transmission.
· From 1.4V to 5.5V, this translator accommodates a broad spectrum of voltage requirements, making it adaptable to various system configurations.
· Packaged in a sturdy VQFN EP format, this component is designed for reliability and longevity, even in demanding environments.
· With a quiescent current as low as 0.003mA, the TXS0108ERGYR minimizes power consumption, ideal for energy-efficient designs.
Specifications
Now, let's take a closer look at the technical specifications that define the capabilities of the TXS0108ERGYR:
Type | Parameter |
Logic Family | TXS |
Logic Function | Voltage Level Translator |
Channel Type | Bidirectional |
Number of Channels | 8 |
Maximum Propagation Delay Time @ Maximum CL (ns) | 745@1.5V@1.8V |
Absolute Propagation Delay Time (ns) | 745 |
Minimum High Level Input Voltage (V) | 1 |
Minimum Latch-Up Current (mA) | 100 |
Output Type | Open Drain|Push-Pull |
Maximum Low Level Output Current (mA) | 0.62 |
Maximum High Level Output Current (mA) | -0.02 |
Minimum Operating Supply Voltage (V) | 1.4/1.65 |
Typical Operating Supply Voltage (V) | 1.8|1.8/2.5|1.8/3.3|1.8/5|2.5|2.5/3.3|2.5/5|3.3|3.3/5 |
Maximum Operating Supply Voltage (V) | 3.6/5.5 |
Maximum Quiescent Current (mA) | 0.003(Typ) |
Minimum Operating Temperature (°C) | -40 |
Maximum Operating Temperature (°C) | 85 |
Packaging | Tape and Reel |
Mounting | Surface Mount |
Package Height | 0.95(Max) |
Package Width | 3.65(Max) |
Package Length | 4.65(Max) |
PCB changed | 20 |
Standard Package Name | QFN |
Supplier Package | VQFN EP |
Pin Count | 20 |
Lead Shape | No Lead |
Applications
The TXS0108ERGYR finds applications in various electronic systems where voltage level translation is essential. Some common uses include:
· Mixed Voltage Systems: Bridging communication between components with different voltage requirements.
· IoT Devices: Facilitating communication between sensors, microcontrollers, and other peripherals.
· Industrial Automation: Enabling data exchange between sensors, PLCs, and control systems.
· Consumer Electronics: Supporting connectivity in devices like smartphones, tablets, and wearables.
TXS0108ERGYR's Manufacturer
Texas Instruments (TI), established in 1930, is a global leader in semiconductor and technology solutions, known for its pioneering contributions to the electronics industry. Specializing in the design and manufacture of analog and digital circuits, microcontrollers, and processors, TI has played a pivotal role in shaping technological advancements across diverse sectors, including industrial, automotive, consumer electronics, and communication.
Conclusion
In conclusion, the TXS0108ERGYR stands as a reliable solution for voltage level translation challenges in diverse electronic applications. Its robust design, high performance, and wide compatibility make it a go-to choice for engineers seeking seamless integration and reliable communication in their designs.
