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IDT5V9950PFGI
Product Overview
Category
The IDT5V9950PFGI belongs to the category of integrated circuits (ICs).
Use
This product is primarily used for voltage level translation in various electronic devices and systems.
Characteristics
- Voltage level translation capability
- High-speed operation
- Low power consumption
- Wide operating voltage range
- Small form factor
Package
The IDT5V9950PFGI is available in a compact and industry-standard package, which ensures compatibility with existing designs and facilitates easy integration into electronic systems.
Essence
The essence of the IDT5V9950PFGI lies in its ability to efficiently translate voltage levels between different logic families, enabling seamless communication between devices operating at different voltage levels.
Packaging/Quantity
The IDT5V9950PFGI is typically packaged in reels or trays, depending on the manufacturer's specifications. The quantity per package may vary, but it is commonly available in quantities suitable for both prototyping and mass production.
Specifications
- Supply Voltage: 1.2V - 3.6V
- Logic Voltage Levels: 1.2V - 3.6V
- Operating Temperature Range: -40°C to +85°C
- Input/Output Compatibility: CMOS, TTL, LVCMOS, LVTTL
- Number of Channels: 8
- Data Rate: Up to 100 Mbps
- Propagation Delay: <10 ns
Detailed Pin Configuration
The IDT5V9950PFGI features the following pin configuration:
- VCCA: Positive supply voltage for Channel A
- GND: Ground reference
- OE: Output Enable
- A1: Channel A input/output
- A2: Channel A input/output
- A3: Channel A input/output
- A4: Channel A input/output
- VCCB: Positive supply voltage for Channel B
- B1: Channel B input/output
- B2: Channel B input/output
- B3: Channel B input/output
- B4: Channel B input/output
- GND: Ground reference
- OE: Output Enable
- VCCA: Positive supply voltage for Channel A
- GND: Ground reference
Functional Features
- Bidirectional voltage level translation between Channel A and Channel B
- Automatic direction sensing
- High-speed data transmission
- Low power consumption
- ESD protection on all pins
- Robust noise immunity
Advantages and Disadvantages
Advantages
- Wide operating voltage range allows compatibility with various logic families
- High-speed operation enables efficient data transfer
- Small form factor facilitates integration into space-constrained designs
- Automatic direction sensing simplifies system design
- ESD protection ensures device reliability
Disadvantages
- Limited number of channels (8)
- Relatively high propagation delay compared to some alternative models
Working Principles
The IDT5V9950PFGI utilizes a combination of MOSFETs and control circuitry to perform voltage level translation. The device automatically detects the direction of data flow and adjusts the voltage levels accordingly, ensuring seamless communication between devices operating at different voltage levels.
Detailed Application Field Plans
The IDT5V9950PFGI finds applications in various electronic systems, including but not limited to: - Microcontrollers and microprocessors - Communication systems - Industrial automation - Consumer electronics - Automotive electronics
Detailed and Complete Alternative Models
- Texas Instruments SN74LVCH245A
- Nexperia 74LVC245
- ON Semiconductor MC74LVX245
- Fairchild Semiconductor NC7WZ245
These alternative models offer similar voltage level translation capabilities and can be considered as substitutes for the IDT5V9950PFGI, depending on specific design requirements.
In conclusion, the IDT5V9950PFGI is a versatile integrated circuit that enables efficient voltage level translation in various electronic systems. Its high-speed operation, wide operating voltage range, and small form factor make it an ideal choice for designers seeking reliable and compact solutions. While it has some limitations in terms of channel count and propagation delay, there are several alternative models available to suit different application needs.
Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de IDT5V9950PFGI en soluciones técnicas
Sure! Here are 10 common questions and answers related to the application of IDT5V9950PFGI in technical solutions:
Q: What is the IDT5V9950PFGI? A: The IDT5V9950PFGI is a high-performance clock generator and fanout buffer designed for use in various technical applications.
Q: What are the key features of the IDT5V9950PFGI? A: Some key features include low output skew, low phase noise, multiple outputs, programmable frequency synthesis, and wide operating voltage range.
Q: How many outputs does the IDT5V9950PFGI have? A: The IDT5V9950PFGI has up to 10 differential outputs, making it suitable for driving multiple devices simultaneously.
Q: What is the purpose of the programmable frequency synthesis feature? A: The programmable frequency synthesis feature allows users to generate precise clock frequencies by configuring the device through software or hardware inputs.
Q: Can the IDT5V9950PFGI be used in high-speed data communication systems? A: Yes, the IDT5V9950PFGI is designed to support high-speed data rates, making it suitable for use in various communication systems.
Q: What is the typical power supply voltage range for the IDT5V9950PFGI? A: The IDT5V9950PFGI typically operates with a power supply voltage range of 2.375V to 3.465V.
Q: Does the IDT5V9950PFGI support spread spectrum clocking (SSC)? A: Yes, the IDT5V9950PFGI supports SSC, which helps reduce electromagnetic interference (EMI) in sensitive applications.
Q: Can the IDT5V9950PFGI be used in automotive applications? A: Yes, the IDT5V9950PFGI is qualified for automotive applications and meets the necessary industry standards.
Q: What is the typical operating temperature range for the IDT5V9950PFGI? A: The IDT5V9950PFGI typically operates within a temperature range of -40°C to +85°C.
Q: Are there any evaluation boards or reference designs available for the IDT5V9950PFGI? A: Yes, IDT provides evaluation boards and reference designs that can help users quickly prototype and integrate the IDT5V9950PFGI into their technical solutions.
Please note that these answers are general and may vary depending on specific application requirements.