基于LTC4310设计的绝缘双向I2C总线通信技术

基于LTC4310设计的绝缘双向I2C总线通信技术,第1张

基于LTC4310设计的绝缘双向I2C总线通信技术

LTC4310是Linear 公司的绝缘的双向I2C总线通信器件,每个器件可把I2C逻辑状态编码成信号,通过绝缘层传输到另一个器件.接收器件解码,并驱动I2C总线到适当的确逻辑状态.主要用在绝缘的I2C, SMBus和PMBus 接口,绝缘电源以太网供电和正到负电源通信.本文介绍了LTC4310主要特性,典型应用以及多种应用电路框图.

The LTC®4310 provides bidirecTIonal I2C communicaTIons between two I2C buses whose grounds are isolated from one another. Each LTC4310 encodes I2C bus logic states into signals that are transmitted across an isolaTIon barrier to another LTC4310. The receiving LTC4310 decodes the transmission and drives its l2C bus to the appropriate logic state. The isolaTIon barrier can be bridged by an inexpensive Ethernet, or other transformer, to achieve communications across voltage differences reaching thousands of volts, or it can be bridged by capacitors for lower voltage isolation. The LTC4310-1 is intended for use in 100kHz I2C systems. The LTC4310-2 is intended for 400kHz I2C systems.

Rise time accelerators provide strong pull-up currents on SCL and SDA rising edges to meet rise time specifications for heavily loaded systems. Data and clock Hot Swap™ circuitry prevent data corruption when a card is inserted into or removed from a live bus. When a bus is stuck low for 37ms, the LTC4310 turns off its pull-down devices and generates up to sixteen clocks and a STOP bit in an attempt to free the bus. Driving EN low sets the LTC4310 in a very low current shutdown mode to conserve power.

LTC4310主要特性:

Bidirectional I2C Communication Between Two Isolated Buses

Full Isolation with Inexpensive Ethernet Transformers or Capacitors

Low Voltage Level Shifting

I2C Maximum Operating Frequency:

100kHz for LTC4310-1

400kHz for LTC4310-2

I2C Specification Compliant VOL, VIL

±5kV Human Body Model ESD Protection

Rise Time Accelerators

SDA, SCL Hot-Swapping

Very Low Shutdown Current

Stuck Bus Disconnect and Recovery

Thermal Shutdown

10-Lead MSOP and 3mm × 3mm DFN Packages

LTC4310应用:

Isolated I2C, SMBus and PMBus Interfaces

Isolated Power Supplies

Positive-to-Negative Rail Communications

Power-over-Ethernet

基于LTC4310设计的绝缘双向I2C总线通信技术,基于LTC4310设计的绝缘双向I2C总线通信技术,第2张

图1.LTC4310方框图

LTC4310典型应用:

基于LTC4310设计的绝缘双向I2C总线通信技术,基于LTC4310设计的绝缘双向I2C总线通信技术,第3张

图2.LTC4310在1500V绝缘I2C系统应用框图

基于LTC4310设计的绝缘双向I2C总线通信技术,基于LTC4310设计的绝缘双向I2C总线通信技术,第4张

图3.LTC4310-1在变压器绝缘应用框图

基于LTC4310设计的绝缘双向I2C总线通信技术,基于LTC4310设计的绝缘双向I2C总线通信技术,第5张

图4.LTC4310-2在400 kHz的应用框图

基于LTC4310设计的绝缘双向I2C总线通信技术,基于LTC4310设计的绝缘双向I2C总线通信技术,第6张

图5.LTC4310-1在地参考总线和-5V参考总线间的I2C绝缘应用框图

基于LTC4310设计的绝缘双向I2C总线通信技术,基于LTC4310设计的绝缘双向I2C总线通信技术,第7张

图6.LTC4310-1在零电流关断下应用框图

基于LTC4310设计的绝缘双向I2C总线通信技术,基于LTC4310设计的绝缘双向I2C总线通信技术,第8张

图7.LTC4310-1在I2C热插拔应用框图

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