ABLIC U.S.A. Inc.
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S-93C46BD0I-D8S1G
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S-93C46BD0I-D8S1G

Product Overview

Category

The S-93C46BD0I-D8S1G belongs to the category of electrically erasable programmable read-only memory (EEPROM) chips.

Use

This chip is commonly used for non-volatile data storage in various electronic devices, such as microcontrollers, automotive systems, consumer electronics, and industrial applications.

Characteristics

  • Non-volatile: The stored data remains even when power is removed.
  • Electrically erasable: Data can be erased and reprogrammed electronically.
  • Small form factor: The chip is compact and space-efficient.
  • Low power consumption: It operates with minimal power requirements.
  • High reliability: Offers robust data retention and endurance.

Package

The S-93C46BD0I-D8S1G comes in a small outline integrated circuit (SOIC) package. This package type provides ease of handling and compatibility with standard PCB manufacturing processes.

Essence

The essence of this chip lies in its ability to store and retrieve digital information reliably, making it an essential component for data storage in electronic systems.

Packaging/Quantity

The S-93C46BD0I-D8S1G 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's specifications.

Specifications

  • Memory capacity: 1 kilobit (128 bytes)
  • Operating voltage: 2.5V to 5.5V
  • Operating temperature range: -40°C to +85°C
  • Write cycle endurance: 1 million cycles
  • Data retention: 100 years

Detailed Pin Configuration

The S-93C46BD0I-D8S1G has a total of 8 pins, each serving a specific function:

  1. Chip Select (/CS): Enables or disables the chip for communication.
  2. Serial Clock (SCK): Provides the clock signal for data transfer.
  3. Serial Data Input (DI): Receives data from the external device.
  4. Serial Data Output (DO): Transmits data to the external device.
  5. Write Enable (/W): Controls the write operation.
  6. VCC: Power supply voltage input.
  7. GND: Ground reference.
  8. NC: No connection.

Functional Features

  • Sequential read and write operations: Allows efficient access to specific memory locations.
  • Software and hardware protection mechanisms: Ensures data integrity and prevents unauthorized access.
  • Fast write cycle time: Facilitates quick data updates.
  • Low standby current: Minimizes power consumption during idle periods.
  • Self-timed programming algorithm: Simplifies the programming process.

Advantages and Disadvantages

Advantages

  • Non-volatile storage: Data remains intact even without power.
  • Compact size: Fits into space-constrained designs.
  • High reliability: Offers robust data retention and endurance.
  • Easy integration: Compatible with standard PCB manufacturing processes.
  • Versatile application: Suitable for various electronic devices.

Disadvantages

  • Limited storage capacity: 1 kilobit may not be sufficient for certain applications requiring larger memory.
  • Relatively slower write speed compared to other memory technologies.
  • Vulnerable to electrical noise and interference.

Working Principles

The S-93C46BD0I-D8S1G utilizes a floating gate transistor structure to store data. When writing, an electric charge is applied to the floating gate, altering its electrical characteristics. This change determines whether the transistor represents a logical "0" or "1". During reading, the stored charge is measured, allowing retrieval of the stored data.

Detailed Application Field Plans

The S-93C46BD0I-D8S1G finds applications in various fields, including:

  1. Microcontrollers: Used for storing firmware, configuration data, and calibration values.
  2. Automotive systems: Employed in electronic control units (ECUs) for storing vehicle-specific data and parameters.
  3. Consumer electronics: Integrated into devices like smart TVs, set-top boxes, and home appliances for data storage purposes.
  4. Industrial applications: Utilized in industrial automation systems, sensors, and control modules for storing critical information.

Detailed and Complete Alternative Models

  1. S-93C46BD0A-K8T1U: Similar to the S-93C46BD0I-D8S1G but with a different package type (SOT-23).
  2. S-93C46BD0H-K8T1U: Higher endurance version of the S-93C46BD0I-D8S1G, capable of withstanding 10 million write cycles.
  3. S-93C46BD0P-K8T1U: Extended temperature range variant (-40°C to +125°C) suitable for harsh environments.

These alternative models

Перечислите 10 распространенных вопросов и ответов, связанных с применением S-93C46BD0I-D8S1G в технических решениях.

Sure! Here are 10 common questions and answers related to the application of S-93C46BD0I-D8S1G in technical solutions:

Q1: What is S-93C46BD0I-D8S1G? A1: S-93C46BD0I-D8S1G is an EEPROM (Electrically Erasable Programmable Read-Only Memory) chip that can store and retrieve data electronically.

Q2: What is the storage capacity of S-93C46BD0I-D8S1G? A2: S-93C46BD0I-D8S1G has a storage capacity of 1 kilobit (128 bytes).

Q3: How is S-93C46BD0I-D8S1G powered? A3: S-93C46BD0I-D8S1G is powered by a supply voltage ranging from 1.8V to 5.5V.

Q4: What is the operating temperature range of S-93C46BD0I-D8S1G? A4: S-93C46BD0I-D8S1G can operate within a temperature range of -40°C to +85°C.

Q5: Can S-93C46BD0I-D8S1G be used for both read and write operations? A5: Yes, S-93C46BD0I-D8S1G supports both read and write operations.

Q6: What is the interface protocol used by S-93C46BD0I-D8S1G? A6: S-93C46BD0I-D8S1G uses a 2-wire I2C serial interface protocol.

Q7: Is S-93C46BD0I-D8S1G suitable for automotive applications? A7: Yes, S-93C46BD0I-D8S1G is designed to meet the requirements of automotive applications.

Q8: Can multiple S-93C46BD0I-D8S1G chips be connected together? A8: Yes, multiple S-93C46BD0I-D8S1G chips can be connected together in a daisy-chain configuration.

Q9: Does S-93C46BD0I-D8S1G have any security features? A9: No, S-93C46BD0I-D8S1G does not have built-in security features.

Q10: What are some typical applications of S-93C46BD0I-D8S1G? A10: S-93C46BD0I-D8S1G is commonly used in applications such as automotive systems, industrial control, and consumer electronics.

Please note that these answers are general and may vary depending on the specific implementation and requirements of your technical solution.