LTC4307CMS8#PBF
Manufacturer Part Number: LTC4307CMS8#PBF | Manufacturer / Brand: Analog Devices Inc. |
Part of Description: SoC FPGA LTC4307CMS8#PBF | Lead Free Status / RoHS Status: Lead free / RoHS Compliant |
Ship From: HK/Shen Zhen | Shipment Way: DHL/Fedex/TNT/UPS |
Datasheets: |
Product parameters
Manufacturer | Analog Devices Inc. |
RoHS | Details |
Package | Reel |
Package / Case | MSOP-8 |
Series | LTC4307 |
Mounting Style | SMD/SMT |
Maximum Operating Temperature | 0 C |
Minimum Operating Temperature | +70C |
Factory Pack Quantity | 50 |
Moisture Sensitive | Yes |
Supply Voltage – Max | 5.5 V |
Supply Voltage – Min | 2.3 V |
Unit Weight | 0.003527 oz |
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LTC4307CMS8#PBF Applications:
I2C Bus Buffering:
Used as a buffer to isolate sections of an I2C bus, preventing one section from affecting the communication on another section.
Level Shifting:
Provides level shifting capability between different voltage domains on an I2C bus, ensuring proper communication between devices with different voltage requirements.
Hot Swapping:
Facilitates hot swapping of I2C devices without disrupting the communication on the bus. Allows devices to be added or removed without causing voltage spikes on the bus.
I2C Signal Isolation:
Isolates I2C signals between different sections of a system, protecting devices from electrical noise, voltage differences, or ground potential differences.
Mixed-Voltage I2C Systems:
Enables the integration of devices with different voltage levels into a single I2C bus, supporting mixed-voltage I2C systems.
Backplane Communication:
Used in backplane communication systems to buffer and isolate I2C signals between different boards or modules.
Industrial Control Systems:
Applied in industrial control systems where multiple sensors and actuators communicate over an I2C bus, and isolation is required to prevent interference.
Telecommunications Equipment:
Integrated into telecommunications equipment, such as base stations and network switches, to buffer and isolate I2C signals between different functional blocks.
Embedded Systems:
Incorporated into embedded systems where multiple I2C devices coexist, and electrical isolation is necessary for robust and reliable communication.
Medical Devices:
Used in medical devices that utilize I2C communication, providing isolation between different components to ensure patient safety and system reliability.
Automotive Applications:
Applied in automotive electronics where I2C communication is used, providing level shifting and isolation for components operating at different voltage levels.
Data Center Equipment:
Integrated into data center equipment for managing I2C communication between various components in servers, storage devices, and networking equipment.