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AT24C04D-PUM
Product Overview
Category
AT24C04D-PUM belongs to the category of electrically erasable programmable read-only memory (EEPROM) chips.
Use
The AT24C04D-PUM chip is primarily used for non-volatile data storage in various electronic devices. It allows for easy reading and writing of data even when power is turned off.
Characteristics
- Non-volatile: The stored data remains intact even when power is lost.
- Electrically erasable: Data can be erased and reprogrammed electronically.
- High storage capacity: The AT24C04D-PUM chip has a storage capacity of 4 kilobits (512 bytes).
- Low power consumption: The chip operates on low power, making it suitable for battery-powered devices.
Package
The AT24C04D-PUM chip is available in a small package with eight pins. It is designed to be surface-mounted on printed circuit boards (PCBs).
Essence
The essence of the AT24C04D-PUM chip lies in its ability to store and retrieve data reliably, even in the absence of power. This makes it an essential component in many electronic devices that require non-volatile memory.
Packaging/Quantity
The AT24C04D-PUM chip is typically packaged in reels or tubes, containing a specific quantity of chips per package. The exact packaging and quantity may vary depending on the manufacturer.
Specifications
- Storage Capacity: 4 kilobits (512 bytes)
- Operating Voltage: 1.7V to 5.5V
- Operating Temperature Range: -40°C to +85°C
- Interface: I2C (Two-wire Serial Interface)
Pin Configuration
The AT24C04D-PUM chip has the following pin configuration:
- A0: Address Input
- A1: Address Input
- A2: Address Input
- GND: Ground
- SDA: Serial Data Input/Output
- SCL: Serial Clock Input
- WP: Write Protect
- VCC: Power Supply
Functional Features
- Random Access: The AT24C04D-PUM chip allows for random access to any memory location, enabling efficient data retrieval.
- Byte-Level Read and Write: Data can be read from or written to the chip at the byte level, providing flexibility in data manipulation.
- Hardware Write Protection: The WP pin can be used to protect the stored data from accidental writes, ensuring data integrity.
- Low Power Consumption: The chip operates on low power, making it suitable for battery-powered devices.
Advantages and Disadvantages
Advantages
- Non-volatile storage ensures data retention even during power loss.
- Electrically erasable and reprogrammable, allowing for easy updates.
- Small package size enables space-efficient integration into electronic devices.
- Low power consumption prolongs battery life in portable applications.
Disadvantages
- Limited storage capacity compared to other memory technologies.
- Slower write speeds compared to volatile memory types.
- Susceptible to electromagnetic interference (EMI) due to its small size.
Working Principles
The AT24C04D-PUM chip utilizes electrically erasable programmable read-only memory (EEPROM) technology. It consists of a grid of memory cells that can be individually programmed or erased using electrical signals. When data is written to the chip, it is stored in the memory cells as electrical charges. These charges can be read back as data when required. The chip's internal circuitry manages the reading, writing, and erasing operations.
Detailed Application Field Plans
The AT24C04D-PUM chip finds application in various electronic devices, including but not limited to:
- Consumer Electronics: Used for storing configuration settings, user preferences, and other non-volatile data in devices such as TVs, set-top boxes, and audio systems.
- Automotive Systems: Employed in automotive electronics for storing critical data like mileage, vehicle settings, and diagnostic information.
- Industrial Control Systems: Integrated into industrial control systems for storing calibration data, device parameters, and system configurations.
- Medical Devices: Utilized in medical devices for storing patient data, device settings, and firmware updates.
Detailed and Complete Alternative Models
- AT24C01D-PUM: 1 kilobit (128 bytes) storage capacity.
- AT24C02D-PUM: 2 kilobits (256 bytes) storage capacity.
- AT24C08D-PUM: 8 kilobits (1024 bytes) storage capacity.
- AT24C16D-PUM: 16 kilobits (2048 bytes) storage capacity.
- AT24C32D-PUM: 32 kilobits (4096 bytes) storage capacity.
These alternative models
Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de AT24C04D-PUM en soluciones técnicas
Sure! Here are 10 common questions and answers related to the application of AT24C04D-PUM in technical solutions:
Q: What is AT24C04D-PUM? A: AT24C04D-PUM is a specific model of EEPROM (Electrically Erasable Programmable Read-Only Memory) chip manufactured by Microchip Technology.
Q: What is the storage capacity of AT24C04D-PUM? A: AT24C04D-PUM has a storage capacity of 4 kilobits, which is equivalent to 512 bytes or 4096 bits.
Q: What is the operating voltage range for AT24C04D-PUM? A: AT24C04D-PUM operates within a voltage range of 1.7V to 5.5V.
Q: What is the maximum clock frequency supported by AT24C04D-PUM? A: AT24C04D-PUM supports a maximum clock frequency of 1 MHz.
Q: Can AT24C04D-PUM be used for both read and write operations? A: Yes, AT24C04D-PUM supports both read and write operations, allowing data to be stored and retrieved from the chip.
Q: Is AT24C04D-PUM compatible with I2C communication protocol? A: Yes, AT24C04D-PUM uses the I2C (Inter-Integrated Circuit) communication protocol for interfacing with microcontrollers or other devices.
Q: Can AT24C04D-PUM operate in extreme temperature conditions? A: Yes, AT24C04D-PUM is designed to operate in a wide temperature range, typically from -40°C to +85°C.
Q: Does AT24C04D-PUM have any built-in security features? A: No, AT24C04D-PUM does not have built-in security features like hardware encryption or password protection.
Q: Can multiple AT24C04D-PUM chips be connected together in a system? A: Yes, multiple AT24C04D-PUM chips can be connected together on the same I2C bus, allowing for increased storage capacity.
Q: What are some common applications of AT24C04D-PUM? A: AT24C04D-PUM is commonly used in various technical solutions such as data logging, configuration storage, device identification, and small-scale data storage requirements.
Please note that these answers are general and may vary depending on specific implementation details or requirements.