Intel SR1695GPRX1AC Manual Do Utilizador
Power Sub-System
Intel® Server System SR1695GPRX TPS
Revision
1.5
Intel order number: G11332-006
22
Item
Description
Min
Max
Units
T
vout_rise
DC Output voltage rise time
1
50
ms
T
ac_on_delay
Delay from AC being applied to DC output voltage being within
regulation.
regulation.
2000
ms
T
vout_holdup
Time DC output voltage stay within regulation after loss of AC
12
ms
T
pwok_holdup
Delay from loss of AC to de-assertion of PWOK
11
ms
T
pson_on_delay
Delay from PSON
#
active to DC output voltage within regulation
limits.
5 100
ms
T
pson_pwok
Delay from PSON
#
de-active to PWOK being de-asserted.
50
ms
T
pwok_on
Delay from DC output voltage within regulation limits to PWOK
asserted at turn on.
asserted at turn on.
100 500
ms
T
sb_vout
Delay from 5Vsb being in regulation to DC output voltage being
in regulation at AC turn on.
in regulation at AC turn on.
50 1000
ms
T
5VSB_holdup
Time the 5Vsb output voltage stays within regulation after loss
of AC.
of AC.
70
ms
T
vout_falling
Output falling from 90% regulation to < 0.3V with respect to
common return (12V@0.5A, 5VSB @ 0.1A.)
common return (12V@0.5A, 5VSB @ 0.1A.)
500
ms
T
5Vsb_falling
Output falling from 90% regulation to < 0.3V with respect to
common return (5VSB @ 0.1A.)
common return (5VSB @ 0.1A.)
500
ms
3.3.7
Forced Load Sharing
The +12V output shall have forced load sharing. The +12V output load shall be shared between
parallel units within 10% (+5%, -5%) from the half load point to full load for a single supply. For
purpose of verifying current sharing function, full load value shall be 33A for a single supply for
the +12V output. The supplies must be able to load share with up to 2 power supplies in parallel
and operate in a hot swap/redundant 1+1 configuration. The 5VSB output is not required to
share current between power supplies however these outputs are connected together in the
system and a failure or hot swap of a redundant power supply will not cause these outputs to go
out of regulation in the system.
Examples of load share accuracy at limits of acceptability (+5%, -5% sharing):
2 power supplies and system load equals 33A: PS #1 = 17.325A, PS #2 = 15.675A
parallel units within 10% (+5%, -5%) from the half load point to full load for a single supply. For
purpose of verifying current sharing function, full load value shall be 33A for a single supply for
the +12V output. The supplies must be able to load share with up to 2 power supplies in parallel
and operate in a hot swap/redundant 1+1 configuration. The 5VSB output is not required to
share current between power supplies however these outputs are connected together in the
system and a failure or hot swap of a redundant power supply will not cause these outputs to go
out of regulation in the system.
Examples of load share accuracy at limits of acceptability (+5%, -5% sharing):
2 power supplies and system load equals 33A: PS #1 = 17.325A, PS #2 = 15.675A
3.3.8
Load Sharing, Load Monitoring Signal Characteristic
The load share signal provides both the load sharing function and +12V output current
information. The characteristics of the load share signal are defined below in the table below.
information. The characteristics of the load share signal are defined below in the table below.
3.4
Control And Indicator Functions
Signals that can be defined as low true or high true shall adopt the following conversion: signal#
= low true.
= low true.
3.4.1
PSON#(Power supply enable)
The PSON
#
signal is required to remotely turn on/off the power supply. PSON
#
is an active low
signal that turns on the +12V power rail. When this signal is not pulled low by the system, or left
open, the +12V output is turned off. This signal is pulled to a standby voltage by a pull-up
resistor internal to the power supply. Refer to Figure 3.6 Turn On/Off Timing diagram. When in
off or standby condition, the +12V output shall be less than 50mV with respect to output return.
open, the +12V output is turned off. This signal is pulled to a standby voltage by a pull-up
resistor internal to the power supply. Refer to Figure 3.6 Turn On/Off Timing diagram. When in
off or standby condition, the +12V output shall be less than 50mV with respect to output return.