The 74AVC16T245EV/G,51 IC has a total of 48 pins. The pin configuration is as follows:
| Pin Number | Pin Name | Description | |------------|----------|-------------| | 1 | VCCA | Power supply voltage for side A | | 2 | GND | Ground | | 3 | A1 | Channel A data input/output 1 | | 4 | A2 | Channel A data input/output 2 | | ... | ... | ... | | 45 | B15 | Channel B data input/output 15 | | 46 | B16 | Channel B data input/output 16 | | 47 | GND | Ground | | 48 | VCCB | Power supply voltage for side B |
Advantages: - Efficiently translates signals between different voltage levels - High-speed operation allows for fast data transfer - Low power consumption extends battery life in portable devices - Automatic direction control simplifies system design
Disadvantages: - Limited number of channels (16) may not be sufficient for complex systems requiring more connections - Requires careful consideration of voltage compatibility between input and output domains
The 74AVC16T245EV/G,51 is a bidirectional voltage level shifter and translator. It operates by receiving data from one voltage domain (side A) and translating it to the corresponding voltage level of another domain (side B). The automatic direction control feature ensures that the translation occurs seamlessly without the need for additional control signals.
The IC utilizes internal circuitry to detect the voltage levels on both sides and adjusts the translation accordingly. This enables communication between devices operating at different voltage levels, ensuring compatibility and reliable signal transmission.
The 74AVC16T245EV/G,51 is commonly used in various applications where voltage level translation is required. Some of the typical application fields include: - Communication systems - Industrial automation - Consumer electronics - Automotive electronics - Medical devices
In communication systems, this IC facilitates signal translation between different voltage domains, allowing seamless communication between devices with varying voltage requirements. In industrial automation, it enables interfacing between control systems operating at different voltage levels. In consumer electronics, it assists in connecting components with different voltage specifications. Automotive electronics and medical devices also benefit from its voltage level translation capabilities.
These alternative models provide similar functionality and can be used as replacements for the 74AVC16T245EV/G,51 based on specific requirements and availability.
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What is the maximum operating voltage of 74AVC16T245EV/G,51?
- The maximum operating voltage of 74AVC16T245EV/G,51 is 3.6V.
What is the typical input high threshold voltage for 74AVC16T245EV/G,51?
- The typical input high threshold voltage for 74AVC16T245EV/G,51 is 2.0V.
What is the maximum data rate supported by 74AVC16T245EV/G,51?
- 74AVC16T245EV/G,51 supports a maximum data rate of 400Mbps.
Can 74AVC16T245EV/G,51 be used in automotive applications?
- Yes, 74AVC16T245EV/G,51 is suitable for automotive applications.
What is the power supply range for 74AVC16T245EV/G,51?
- The power supply range for 74AVC16T245EV/G,51 is 1.2V to 3.6V.
Is 74AVC16T245EV/G,51 compatible with 5V systems?
- No, 74AVC16T245EV/G,51 is not compatible with 5V systems.
Does 74AVC16T245EV/G,51 support hot insertion?
- Yes, 74AVC16T245EV/G,51 supports hot insertion.
What is the maximum propagation delay of 74AVC16T245EV/G,51?
- The maximum propagation delay of 74AVC16T245EV/G,51 is 2.9ns.
Can 74AVC16T245EV/G,51 be used in industrial control systems?
- Yes, 74AVC16T245EV/G,51 is suitable for use in industrial control systems.
What is the package type of 74AVC16T245EV/G,51?
- 74AVC16T245EV/G,51 is available in a TSSOP48 package.