Sinrace Power Supply Technology (Shenzhen) Co., Ltd.

Parallel Operation

This is only recommended with power converters specifically designed for parallel connection. A general comment is that it is much lower cost and causes far fewer problems to use a single power converter correctly rated for the application rather than two or more in parallel. However, there are power converters which feature master slave parallel operation. These units are intended for modular expansion schemes and fault tolerant parallel redundant power systems. Where power

converters are overload protected by constant current limiting simple parallelling of the outputs can work to an acceptable standard. Output voltages must be set the same (as precisely as possible). In a two unit system the unit with the slightly higher output voltage will reach its current limit and the voltage will drop to equal that of the other unit.
This converter will then supply the remaining current demanded by the load. So regulation can never be better than the difference between the output voltage settings of the two converters, and one unit will always be operating in current limit, therefore above its rating. Where current limits are adjustable to below maximum rating simple parallelling is satisfactory if the degradation of regulation can be tolerated. To improve load current sharing, equal series resistors can be used .

For the best results the wiring resistance must also be exactly balanced. Small differences in the output voltage settings of the converter output still creates considerable current unbalance. In the example illustrated, the load is 5V at 2A. Converter output voltage settings are 5V but if they are unequal by 0.1V, the current out of balance from the nominal 1A is 0.5A. This requires that each unit is individu- ally rated at 1.5A. It is clearly not a cost effective method of proving 5V 2A of stabilized power. Also the 100mA series resistors degrade the regulation to worse than 2%.
It should be bourne in mind that as the output power of the supply rises, the voltage drop and power dissipated rise. The power rating of the resistor should be carefully calculated.At higher currents, the series resistance should be reduced.

In critical applications where continuous operation is essential, parallel redundant power systems are often specified. The system has to keep running even when a power unit fails. Current sharing is not such an important criterion since each power unit must be rated to supply the total load. But to enable both units to be continuously monitored for faults it is advisable that some measure of current sharing takes place. Both units are then always operating. Isolating series diodes which are continuously rated at the full load current allow either power converter to continue operation unaffected by a fault in the other.Matching the forward resistance of the diodes and balancing the wiring resistance helps with the current sharing.However, these series impedance degrade the regulation. Some power converters, which are specifically designed for use in fault tolerant systems allow remote sense downstream of the parallelling diodes to maintain full regulation at the load. In a parallel redundant scheme one of the power converters could be replaced by a battery followed by a DC-DC converter to provide a no-break power system in the event of main supply failure.