2 Contrasting Setups of SVO Buffers

As seen in Figure 2-1, the two sides containing the SVO are connected together, which must not be carried out. Note that the SVO output voltage output low (V_OL) is considered to be “buffered low”, which is generally higher than the V_OL levels of other peripheral devices. Similarly, the voltage output low of the external device (V_OL,EXT) is required to be less than the voltage input low contention (V_ILC) at the SVO side to be able to be propagated as an input low into the buffer. These characteristics of the SVO feature result in a gap between the buffered V_OL of the first device and the V_ILC requirement of the second device. In other words, the V_OL of 0.52 V is higher than the V_ILC of 0.4 V, so an input low of the first buffer is unable to propagate a low to the second buffer correctly. For more information regarding the SVO feature, see also the Why, When, and How to use I²C Buffers application note.

To resolve the implementation issue, the TCA9509 can be used in place of the second TCA9517 as shown in Figure 2-3, allowing for both the B side of the devices to be connected together. This device has the SVO on the A side instead of the B side, which mitigates the concern of improper SVO sides being connected together. The improved performance is shown in Figure 2-4.