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SN74HC4060D
Product Overview
Category
SN74HC4060D belongs to the category of integrated circuits (ICs).
Use
It is commonly used as a 14-stage ripple-carry binary counter/divider and oscillator.
Characteristics
- High-speed operation
- Wide operating voltage range
- Low power consumption
- Schmitt-trigger inputs for noise immunity
- Balanced propagation delays
- Buffered outputs for cascading
- Available in various package options
Package
SN74HC4060D is available in a 16-pin SOIC (Small Outline Integrated Circuit) package.
Essence
The essence of SN74HC4060D lies in its ability to perform binary counting, division, and oscillation functions.
Packaging/Quantity
SN74HC4060D is typically packaged in reels or tubes, with quantities varying based on customer requirements.
Specifications
- Supply Voltage: 2V to 6V
- Input Voltage: 0V to VCC
- Output Voltage: 0V to VCC
- Operating Temperature Range: -40°C to +85°C
- Maximum Clock Frequency: 25MHz
Detailed Pin Configuration
- VCC: Positive supply voltage
- GND: Ground reference
- MR: Master reset input
- CP: Clock input
- Q12-Q4: Binary counter outputs
- Q13: Oscillator output
- Q14: Ripple carry output
- Q15: Unused pin (NC)
- Q0: Least significant bit (LSB) output
- Q1-Q3: Binary counter outputs
- Q5-Q11: Binary counter outputs
- Q16: Most significant bit (MSB) output
- Q17-Q19: Unused pins (NC)
- Q20-Q23: Binary counter outputs
- Q24-Q27: Binary counter outputs
- Q28-Q31: Binary counter outputs
Functional Features
- Binary counting: SN74HC4060D can count up to 2^14 (16,384) binary states.
- Division: It can divide the input frequency by powers of 2.
- Oscillation: The oscillator output generates a square wave signal with a frequency determined by external components.
- Ripple carry output: Provides a carry signal for cascading multiple counters.
Advantages and Disadvantages
Advantages
- High-speed operation allows for efficient counting and division.
- Wide operating voltage range enables compatibility with various systems.
- Low power consumption reduces energy requirements.
- Schmitt-trigger inputs provide noise immunity, ensuring reliable operation.
- Buffered outputs facilitate easy cascading of multiple counters.
Disadvantages
- Limited maximum clock frequency of 25MHz may restrict its use in high-frequency applications.
- Lack of internal oscillator limits standalone functionality.
Working Principles
SN74HC4060D operates based on the principle of binary counting and division. The clock input (CP) triggers the counter to increment its state by one on each rising edge. The counter's outputs represent the binary states, with the least significant bit (Q0) being the first output and the most significant bit (Q31) being the last. The oscillator output (Q13) generates a square wave signal whose frequency is determined by external components connected to the oscillator pins. The ripple carry output (Q14) provides a carry signal for cascading multiple counters.
Detailed Application Field Plans
SN74HC4060D finds applications in various fields, including: 1. Frequency division circuits 2. Digital clocks and timers 3. Frequency synthesizers 4. Data communication systems 5. Industrial automation 6. Robotics 7. Signal processing
Detailed and Complete Alternative Models
Some alternative models to SN74HC4060D include: 1. CD4060BE 2. MC14060B 3. HEF4060BP 4. HCF4060BE 5. TC74HC4060AF
These models offer similar functionality and can be used as substitutes for SN74HC4060D in various applications.
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Noem 10 veelgestelde vragen en antwoorden met betrekking tot de toepassing van SN74HC4060D in technische oplossingen
Sure! Here are 10 common questions and answers related to the application of SN74HC4060D in technical solutions:
Q: What is SN74HC4060D? A: SN74HC4060D is a 14-stage ripple-carry binary counter/divider and oscillator with built-in oscillator and reset functions.
Q: What is the maximum clock frequency supported by SN74HC4060D? A: The maximum clock frequency supported by SN74HC4060D is typically around 25 MHz.
Q: Can SN74HC4060D be used as a frequency divider? A: Yes, SN74HC4060D can be used as a frequency divider by connecting the input clock signal to the appropriate pin and using the output pins to obtain divided frequencies.
Q: How many output pins does SN74HC4060D have? A: SN74HC4060D has a total of 12 output pins, which provide divided clock signals at different stages.
Q: What is the purpose of the oscillator circuit in SN74HC4060D? A: The oscillator circuit in SN74HC4060D generates a clock signal internally, eliminating the need for an external clock source.
Q: Can I adjust the frequency of the internal oscillator in SN74HC4060D? A: Yes, the frequency of the internal oscillator can be adjusted by changing the values of the external timing components connected to the oscillator pins.
Q: Is SN74HC4060D compatible with both 3.3V and 5V logic levels? A: Yes, SN74HC4060D is compatible with both 3.3V and 5V logic levels, making it suitable for use in a wide range of applications.
Q: Can SN74HC4060D be cascaded to achieve higher division ratios? A: Yes, multiple SN74HC4060D chips can be cascaded together to achieve higher division ratios and generate even lower frequency outputs.
Q: What is the power supply voltage range for SN74HC4060D? A: The power supply voltage range for SN74HC4060D is typically between 2V and 6V.
Q: Are there any specific precautions to consider when using SN74HC4060D? A: It is important to ensure proper decoupling capacitors are used near the power supply pins of SN74HC4060D to minimize noise and stabilize operation. Additionally, care should be taken to avoid exceeding the maximum ratings specified in the datasheet.
Please note that these answers are general and may vary depending on the specific application and requirements.