正如您所知,LVDS是一个低电压差分信号层。一般用于高
速度。
HTTP://www-FalQualSimI.CON/AN/AN/AN-5017PDF
您可以使用VDACS来促进LV方案,但是速度将是惊人的。
缓慢的歪斜和CM表现。
考虑使用外部转换器逻辑来实现物理层和SPI,然后
也许你可以通过链接获得SPI率。但没有什么像典型的100兆位率
在LVDS可以看到。
问候,Dana。
以上来自于百度翻译
以下为原文
LVDS is, as you know, a low voltage differential signaling layer. Generaly used at high
speed.
http://www.fairchildsemi.com/an/AN/AN-5017.pdf
You could facilitate a LV scheme using VDACs but the speed would be abhorrently
slow with poor skew and CM preformance.
Think about using external translator logic to implement the physical layer and SPI, then
maybe you could get SPI rates over the link. But nothing like the typical 100 mbit rates
one sees in LVDS.
Regards, Dana.
正如您所知,LVDS是一个低电压差分信号层。一般用于高
速度。
HTTP://www-FalQualSimI.CON/AN/AN/AN-5017PDF
您可以使用VDACS来促进LV方案,但是速度将是惊人的。
缓慢的歪斜和CM表现。
考虑使用外部转换器逻辑来实现物理层和SPI,然后
也许你可以通过链接获得SPI率。但没有什么像典型的100兆位率
在LVDS可以看到。
问候,Dana。
以上来自于百度翻译
以下为原文
LVDS is, as you know, a low voltage differential signaling layer. Generaly used at high
speed.
http://www.fairchildsemi.com/an/AN/AN-5017.pdf
You could facilitate a LV scheme using VDACs but the speed would be abhorrently
slow with poor skew and CM preformance.
Think about using external translator logic to implement the physical layer and SPI, then
maybe you could get SPI rates over the link. But nothing like the typical 100 mbit rates
one sees in LVDS.
Regards, Dana.
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