M74HC4060YTTR

Product Overview

• Category: Integrated Circuit
• Use: Counter/Divider
• Characteristics: High-speed operation, low power consumption
• Package: TSSOP-16
• Essence: 14-stage binary ripple counter with oscillator and reset
• Packaging/Quantity: Tape and Reel, 2500 units per reel

Specifications

The M74HC4060YTTR is a high-speed integrated circuit belonging to the counter/divider category. It operates as a 14-stage binary ripple counter with an inbuilt oscillator and reset functionality. The device is designed for applications that require precise counting or dividing of clock signals.

Detailed Pin Configuration

The M74HC4060YTTR is packaged in a TSSOP-16 package, which provides a compact and space-saving solution. The pin configuration of the device is as follows:

1. VDD - Positive Power Supply
2. Q12 - Output of Stage 12
3. Q13 - Output of Stage 13
4. Q14 - Output of Stage 14
5. MR - Master Reset Input
6. CP - Clock Pulse Input
7. Q11 - Output of Stage 11
8. Q10 - Output of Stage 10
9. Q9 - Output of Stage 9
10. Q8 - Output of Stage 8
11. Q7 - Output of Stage 7
12. Q6 - Output of Stage 6
13. Q5 - Output of Stage 5
14. GND - Ground
15. Q4 - Output of Stage 4
16. Q3 - Output of Stage 3

Functional Features

The M74HC4060YTTR offers several functional features that make it suitable for various applications. These include:

• High-speed operation: The device can operate at high clock frequencies, making it suitable for time-critical applications.
• Low power consumption: The integrated circuit is designed to minimize power consumption, making it energy-efficient.
• Oscillator and reset functionality: The inbuilt oscillator allows the device to generate its own clock signals, while the reset input enables the counter to be cleared.

Advantages and Disadvantages

Advantages of using the M74HC4060YTTR include:

• High-speed operation allows for quick counting or dividing of clock signals.
• Low power consumption makes it suitable for battery-powered devices.
• Integrated oscillator eliminates the need for an external clock source.

Disadvantages of the M74HC4060YTTR include:

• Limited number of stages (14), which may not be sufficient for certain applications requiring higher counts.
• Lack of advanced features such as programmability or synchronization with external devices.

Working Principles

The M74HC4060YTTR operates based on the principle of binary ripple counting. It uses a series of flip-flops connected in a cascaded manner to divide the incoming clock signal. Each stage divides the frequency by 2, resulting in an overall division ratio determined by the number of stages used.

The oscillator generates clock pulses that drive the counter, while the master reset input allows the counter to be cleared to its initial state. The output signals from each stage represent the divided clock frequencies.

Detailed Application Field Plans

The M74HC4060YTTR finds applications in various fields where precise counting or dividing of clock signals is required. Some potential application areas include:

1. Frequency Division: The device can be used to divide high-frequency clock signals into lower frequencies for applications such as digital frequency synthesis or clock generation.
2. Timekeeping: The counter can be utilized in timekeeping circuits to measure and display time intervals accurately.
3. Event Counting: It can be employed in event counting systems to keep track of occurrences or trigger actions based on a specific count.

Detailed and Complete Alternative Models

Some alternative models that offer similar functionality to the M74HC4060YTTR are:

1. CD4060BE: 14-stage ripple carry binary counter/divider with built-in oscillator and reset.
2. HEF4060BT: 14-stage binary ripple counter with oscillator and reset, available in a SOIC-16 package.
3. MC14060B: 14-stage ripple carry binary counter/divider with an integrated oscillator and reset, offered in a DIP-16 package.

These alternative models can be considered based on specific requirements such as package type, availability, or cost considerations.

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