ZHCSJ10B September 2006 – November 2018 TPS2376-H
PRODUCTION DATA.
The PSE and TPS2376-H are power and current limited sources, which imposes certain constraints on the PD power supply design. Improper design of the system can prevent PD startup with some combinations of Ethernet lines and PSE sources. The root of most startup problems revolves around the dc/dc converter.
Dc/dc converters have a constant input power characteristic that causes them to draw high currents at low voltage. Also, a converter may draw in excess of 125% of its rated power during startup when the output voltage approaches its regulated value, and the output capacitors are charging while the load draws its full power. These characteristics lead to two undesired events. First, if the converter starts up during inrush, it can draw more current than available from the TPS2376-H and cause the startup cycle to fail. Second, if the converter startup current exceeds the TPS2376-H current limit, it may discharge the bulk capacitor until V(RTN-VSS) exceeds 10 V and forces the TPS2376-H into inrush.
The following guidelines should be used:
Step 4 requires a balance between the converter output capacitance, load, and input bulk capacitance. While there are some cases which may not require all these measures, it is always a good practice to follow them.
Downstream converters that use PG control are turned off during a hard fault or thermal cycle, and will go through an orderly restart once the bulk capacitor is recharged. Converters that do not use PG need to permit a restart by either drawing less current than the inrush current limit provides, or by disabling long enough to allow the bulk capacitor to recharge. A converter that has bootstrap startup can be designed to accomplish this goal.