4 over-current protection, 5 short circuit protection, 6 reset after shutdown – Intel SR6850HW4 User Manual

Power Supply Intel® Server Platform SR6850HW4 TPS

Revision

1.0

Intel order number D23151-001

58

5.4.4 Over-current

Protection

Over-current is a fault condition defined as a 10A/s current ramp starting from full load applied
to the output under test. A fault on any output causes the rest of the outputs to latch off. See
note 3 below the following table.

Table 34. Over-current Protection Limits

Output Level

Minimum (A)

2,4

Maximum (A)

2,4

+3.3V Standby

1,3,5

5.3

6.2

+12V

6

122 141

+12V

7

142 163

1. Output is Level III SELV and non-energy hazard complaint
2. The above current limits will be satisfied throughout the entire operating temperature range
3. A fault on any output other than +3.3V

stby

will not cause the +3.3V

stby

to turn off. A fault on +3.3V

stby

will

cause the other outputs to turn off.

4. Dynamic loading must not cause a false over current when 2 supplies are in parallel.
5. The

+3.3V

stby

output will not latch off. It must return to normal operation once the fault is removed. Current

foldback method is preferred.

6. +12V OC limits change base on the state of AC_RANGE. This helps protect the power supply from over-

loading the PFC stage. AC_RANGE low.

7. +12V OC limits change base on the state of AC_RANGE. This helps protect the power supply from over-

loading the PFC stage. AC_RANGE high.

5.4.5

Short Circuit Protection

A short circuit, which is defined as an impedance of 0.1Ω, or less, applied to any output during
start-up or while running will not cause any damage to the power supply (connectors,
components, PCB traces, etc.).

When the +3.3V

stby

is shorted the output may go into "hiccup mode". When the +3.3V

stby

attempts to restart the maximum peak current from the output must be less than 8.0A. The
maximum average current, taking into account the “hiccup" duty cycle, must be less than 4.0A.

5.4.6

Reset After Shutdown

If the power supply latches into a shutdown state due to a fault condition on any output, the
power supply will return to normal operation only after the fault has been removed and the
power supply has been power-cycled. Power cycling is defined as either:

ƒ

Removing AC input power, waiting for +3.3V

stby

to drop below 1.0V, then reapplying AC

power. The time it takes for +3.3V

stby

to drop below 1.0V shall not exceed 15 seconds.

ƒ

Cycling the state of PS_ON from on to off to on. The minimum cycle time is 1ms.