MM74HC259MX
Product Overview
- Category: Integrated Circuit (IC)
- Use: Data Storage and Control
- Characteristics: High-Speed, 8-Bit Addressable Latch/Shift Register
- Package: 16-Pin SOIC (Small Outline Integrated Circuit)
- Essence: The MM74HC259MX is a versatile IC that combines the functionality of an 8-bit latch and a shift register. It can store and control data in various applications.
- Packaging/Quantity: Available in reels of 2500 units or tubes of 48 units.
Specifications
- Supply Voltage: 2V to 6V
- Operating Temperature Range: -40°C to +85°C
- Latch Enable Setup Time: 20 ns
- Shift Register Clock Pulse Width: 30 ns
- Output Current: ±25 mA
- Propagation Delay: 15 ns
- Latch-to-Latch Variation: ±5 ns
Pin Configuration
The MM74HC259MX has a total of 16 pins, each serving a specific function:
- GND: Ground
- QA: Output A
- QB: Output B
- QC: Output C
- QD: Output D
- QE: Output E
- QF: Output F
- QG: Output G
- QH: Output H
- VCC: Supply Voltage
- SER: Serial Data Input
- SRCLK: Shift Register Clock Input
- RCLK: Register Clock Input
- OE: Output Enable Input
- MR: Master Reset Input
- QH' / QH: Cascading Outputs
Functional Features
- Combines an 8-bit latch and a shift register in a single IC.
- Can be used as a parallel-to-serial converter or a serial-to-parallel converter.
- Allows cascading multiple MM74HC259MX ICs for expanded functionality.
- Supports both synchronous and asynchronous operations.
- High-speed operation with low power consumption.
Advantages and Disadvantages
Advantages: - Versatile functionality for data storage and control applications. - Compact size and easy integration into electronic circuits. - High-speed operation enables efficient data processing. - Low power consumption for energy-efficient designs.
Disadvantages: - Limited number of outputs (8 bits). - Requires external components for certain applications. - Sensitive to voltage fluctuations, requiring stable power supply.
Working Principles
The MM74HC259MX combines an 8-bit latch and a shift register. The latch stores data in parallel, while the shift register allows serial input and output. The IC can operate in two modes: latch mode and shift mode.
In latch mode, the inputs are latched and stored when the latch enable (LE) signal is high. The stored data appears at the outputs until a new set of data is latched.
In shift mode, the data is shifted through the register on each rising edge of the shift register clock (SRCLK) signal. The serial data input (SER) is shifted into the first flip-flop, and the data from each flip-flop is transferred to the next one.
Detailed Application Field Plans
The MM74HC259MX finds applications in various fields, including:
- Digital Communication Systems
- Data Storage Devices
- Industrial Control Systems
- Automotive Electronics
- Consumer Electronics
In digital communication systems, the IC can be used for data buffering and synchronization. In data storage devices, it enables efficient data transfer between memory modules. Industrial control systems benefit from its ability to control multiple devices simultaneously. Automotive electronics utilize the IC for data processing and control. In consumer electronics, it can be used in remote controls, gaming consoles, and other devices requiring data storage and control.
Detailed and Complete Alternative Models
- 74HC595: 8-Bit Serial-In, Parallel-Out Shift Register
- CD4015: Dual 4-Stage Static Shift Register
- SN74LS164: 8-Bit Serial-In, Parallel-Out Shift Register
- CD4094: 8-Stage Shift-and-Store Bus Register
- 74HC164: 8-Bit Serial-In, Parallel-Out Shift Register
These alternative models offer similar functionality to the MM74HC259MX and can be considered as alternatives based on specific requirements and compatibility with existing designs.
In conclusion, the MM74HC259MX is a versatile IC that combines an 8-bit latch and a shift register. It offers high-speed operation, compact size, and various applications in data storage and control. Its functional features, advantages, and disadvantages make it suitable for a wide range of electronic systems.
Luettele 10 yleistä kysymystä ja vastausta, jotka liittyvät MM74HC259MX :n soveltamiseen teknisissä ratkaisuissa
Sure! Here are 10 common questions and answers related to the application of MM74HC259MX in technical solutions:
Q: What is MM74HC259MX? A: MM74HC259MX is a high-speed CMOS 8-bit addressable latch with three-state outputs, commonly used in digital systems.
Q: What are the key features of MM74HC259MX? A: The key features include 8-bit parallel input/output, three-state outputs, latch enable (LE) input, and clear (CLR) input.
Q: How does MM74HC259MX work? A: MM74HC259MX operates by latching the data present at its inputs when the latch enable (LE) input is high. The latched data appears at the outputs when the output enable (OE) input is low.
Q: What is the maximum operating frequency of MM74HC259MX? A: The maximum operating frequency of MM74HC259MX is typically around 50 MHz.
Q: Can MM74HC259MX be cascaded to increase the number of addressable outputs? A: Yes, MM74HC259MX can be cascaded to increase the number of addressable outputs by connecting the outputs of one latch to the inputs of another.
Q: What is the power supply voltage range for MM74HC259MX? A: The power supply voltage range for MM74HC259MX is typically between 2V and 6V.
Q: What is the typical power consumption of MM74HC259MX? A: The typical power consumption of MM74HC259MX is low, making it suitable for battery-powered applications.
Q: Can MM74HC259MX drive LEDs or other low-power devices directly? A: Yes, MM74HC259MX can drive LEDs or other low-power devices directly as it has three-state outputs capable of sinking and sourcing current.
Q: Is MM74HC259MX compatible with TTL logic levels? A: Yes, MM74HC259MX is compatible with TTL logic levels, making it easy to interface with other TTL-compatible devices.
Q: What are some common applications of MM74HC259MX? A: MM74HC259MX is commonly used in address decoding, data multiplexing, LED matrix control, memory interfacing, and general-purpose digital systems.
Please note that the answers provided here are general and may vary depending on specific datasheet specifications and application requirements.