MC10E141FNR2
Product Overview
Category: Integrated Circuit (IC)
Use: The MC10E141FNR2 is a high-speed, low-power ECL (Emitter-Coupled Logic) quad differential line receiver. It is designed for use in applications that require high-speed data transmission and reception.
Characteristics: - High-speed operation - Low power consumption - Differential input and output - Wide operating voltage range - Robust design for reliable performance
Package: The MC10E141FNR2 is available in a small outline package (SOIC) with 28 pins. This package provides protection and easy integration into electronic circuits.
Essence: The essence of the MC10E141FNR2 lies in its ability to receive high-speed differential signals and convert them into compatible logic levels for further processing.
Packaging/Quantity: The MC10E141FNR2 is typically sold in reels or tubes containing multiple units. The exact quantity may vary depending on the supplier.
Specifications
- Supply Voltage Range: -4.2V to -5.7V
- Input Common Mode Voltage Range: -3.0V to -5.7V
- Operating Temperature Range: -40°C to +85°C
- Maximum Input Clock Frequency: 1.6 GHz
- Propagation Delay: 400 ps (typical)
- Output Current: ±50 mA
Detailed Pin Configuration
The MC10E141FNR2 has a total of 28 pins, which are assigned specific functions. Here is the detailed pin configuration:
- VEE
- Q0
- Q0B
- Q1
- Q1B
- Q2
- Q2B
- Q3
- Q3B
- VBB
- Q4
- Q4B
- Q5
- Q5B
- Q6
- Q6B
- Q7
- Q7B
- VCC
- CLK
- CLKB
- SEL
- SELB
- REN
- RENB
- GND
- Q8
- Q8B
Functional Features
The MC10E141FNR2 offers the following functional features:
- Differential input with high common-mode rejection ratio (CMRR)
- Differential output for noise immunity
- On-chip termination resistors for ease of use
- Enable and select inputs for flexible control
- High-speed operation for reliable data transmission
Advantages and Disadvantages
Advantages: - High-speed operation allows for fast data processing - Low power consumption for energy-efficient applications - Robust design ensures reliable performance in various conditions - On-chip termination resistors simplify circuit design
Disadvantages: - Requires a negative supply voltage, which may limit compatibility with certain systems - Limited availability of alternative models from other manufacturers
Working Principles
The MC10E141FNR2 operates based on the principles of Emitter-Coupled Logic (ECL). It receives differential signals at its inputs and converts them into compatible logic levels using internal circuitry. The differential nature of the inputs and outputs provides excellent noise immunity and signal integrity.
Detailed Application Field Plans
The MC10E141FNR2 is commonly used in the following application fields:
- High-speed data communication systems
- Digital signal processing
- Telecommunications equipment
- Networking devices
- Industrial automation
Detailed and Complete Alternative Models
While the MC10E141FNR2 is a popular choice for high-speed differential line reception, there are alternative models available from other manufacturers. Some of the notable alternatives include:
- SN65E141 - Texas Instruments
- SY100EL141 - Micrel Inc.
- MC100EP141 - ON Semiconductor
These alternative models offer similar functionality and can be considered as substitutes depending on specific requirements.
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技術ソリューションにおける MC10E141FNR2 の適用に関連する 10 件の一般的な質問と回答をリストします。
Sure! Here are 10 common questions and answers related to the application of MC10E141FNR2 in technical solutions:
Q: What is MC10E141FNR2? A: MC10E141FNR2 is a specific type of integrated circuit (IC) that belongs to the MC10E series. It is commonly used in high-speed digital applications.
Q: What are the key features of MC10E141FNR2? A: Some key features of MC10E141FNR2 include differential inputs, ECL (Emitter-Coupled Logic) outputs, wide operating voltage range, and high-speed operation.
Q: In what applications can MC10E141FNR2 be used? A: MC10E141FNR2 can be used in various applications such as clock distribution, data communication systems, high-speed data processing, and digital signal processing.
Q: What is the maximum operating frequency of MC10E141FNR2? A: The maximum operating frequency of MC10E141FNR2 is typically in the range of several hundred megahertz to a few gigahertz, depending on the specific conditions and setup.
Q: How many differential inputs does MC10E141FNR2 have? A: MC10E141FNR2 has two differential inputs, which means it can accept two complementary input signals.
Q: Can MC10E141FNR2 operate with a single power supply? A: No, MC10E141FNR2 requires dual power supplies (+Vcc and -Vee) for proper operation. It is designed to work with ECL logic levels.
Q: What is the output voltage swing of MC10E141FNR2? A: The output voltage swing of MC10E141FNR2 is typically around 800 mV to 1 V, which is suitable for driving other ECL-compatible devices.
Q: Is MC10E141FNR2 compatible with TTL or CMOS logic levels? A: No, MC10E141FNR2 operates on ECL logic levels, so it is not directly compatible with TTL or CMOS logic families. Level translation may be required when interfacing with other logic families.
Q: Does MC10E141FNR2 have any built-in protection features? A: MC10E141FNR2 does not have built-in protection features like overvoltage or overcurrent protection. External measures should be taken to ensure proper handling and protection.
Q: Where can I find more information about MC10E141FNR2? A: You can refer to the datasheet provided by the manufacturer or visit their official website for detailed information about MC10E141FNR2, including electrical characteristics, pin configuration, and application notes.
Please note that the answers provided here are general and may vary depending on the specific requirements and conditions of your technical solution. It is always recommended to consult the datasheet and relevant documentation for accurate and up-to-date information.