Figure 1 shows a block diagram for a power supply like TDK-Lambda’s CUS350M, which features a main output, an auxiliary output (typically used for driving fans) and a standby voltage.A remote on/off is also provided. Figure 1: CUS350M power supply block diagram
The main and the auxiliary outputs use a common transformer and switching circuit. If the remote on/off is activated, both the main output and the auxiliary will turn off. As the V Standby output has an independent transformer and switching circuit, it will continue to operate. Figure 2 shows the timing diagram under the different conditions.
Figure 2: Timing diagram
It can be seen that when the remote on/off (dark blue line) is pulled high, the 5V Standby (purple) continues to operate, but the main DC Output (green) drops until the remote on/off is pulled low again. Of course if the AC Input voltage (red) is removed for an extended period, then the 5V Standby will eventually fall.
Off-load power draw
With low power products (typically 150W or less), the off-load power draw is measured by removing the load and measuring the input power.
With products greater than 150W that have a remote on/off feature, often the off-load power draw is measured when the remote on/off is activated. This may be written in the specification as ‘Standby input power draw’ or ‘remote off power draw’. Users who want a low off-load power draw must turn off the main converter using the remote on/off function.
It must be noted that if the power supply has a standby voltage, then that load must also be at zero when minimum off-load power draw is needed. If for example the standby is supplying 5V 0.25A (1.25W) and the remote on/off is applied, the standby output will continue to delivery 1.25W, making it impossible to achieve <0.5W input power draw!