Extreme 1000Rz Platinum
Extreme Series
Cybenetics Platinum 1000W Fully Modular Power Supply
Equipped with Gen5 12V-2x6 PCIe connector, meeting Intel SFX12V V4.1 specification standard
Cybenetics Platinum efficiency certification
Ultra-silent 92mm FDB fan with intelligent fan deactivation function
Flexible embossed wire design
All Japanese electrolytic capacitors
Extreme 1000Rz Platinum
SST-EX1000R-PM
SFX Switching Power Supply
Cybenetics Platinum efficiency certified
1000W
SilverStone Extreme Series
This specification defines the performance characteristics of a single phase
1000 watts, 5output power supply . This specification also defines worldwide
safety and electromagnetic compatibility requirements for the power supply
which is intended for use in computer products.
* The power supply must operate at above frequency with 90-264VACrms input
voltage range.
2.1 Input Voltage
1.1 Scope
2.3 Max. Input AC Current
2.4 Inrush Current
2.5 Efficiency
3.1 Normal Operation Output
The power supply must meet inrush requirements for any rated AC voltage,
during turn on at any phase of AC voltage, during a single cycle AC dropout
condition, during repetitive ON/OFF cycling of AC, and over the specified
temperature range. The peak inrush current shall be less than the ratings of its
critical components (including input fuse, bulk rectifiers, and surge limiting
device).
Efficiency versus Load for ENERGY STAR*, at 115V/60Hz and 230V/50Hz
Max. Input Current Measuring Range
------------------------ -----------------------
12~6A 100-264 Vrms
3. Output characteristics
02
• Maximum continuous total DC output power should not exceed 1000W
• Maximum continuous combined load on +3.3VDC and +5VDC outputs shall
not exceed 100W.
• Maximum combined load on +12V output rails shall not exceed 1000W
NOTE:
Noise test should be measured with 20 MHz bandwidth frequency oscilloscope.
The output terminal shall add a tantalum capacitor of 10uF in parallel with a
ceramic capacitor of 0.1uF.
Loading
Full Load
(100%)
Typical Load
(50%)
Light
Load
(20%)
Low Load
(2%)
PFC@
50%Load
Minimum
Efficiency
89% 92%
90% 60%
≥0.9
Output
Voltage
Load
MIN
Range
MAX
Total
Regulation
Ripple & Noise
P-P Max.
+5V 0.0A 20A
±5%
40mV
+12V 0.0A 83.3A +5% /-7% 80mV
–12V 0.0A 0.3A
±10%
80mV
+5Vs 0.0A 3.0A
±5%
40mV
+3.3V 0.0A 20A
±5%
40mV
03
3.2 Remote On/Off Controlled mode
3.3 Regulation
The PSON# signal is required to remotely turn on/off the power supply, PSON#
is an active low signal that turns on the output power rails. When this is not
pulled low by the system, or left open, the outputs (except the +5VSB) turn off.
This signal is pulled to a standby voltage by a pull-up resistor internal to the
power supply.
TTL level "H" 2.0 V – 5.25 V
"L" 0.0 V – 1.0 V
The cross regulation defined as follows, the output regulation should be within
the specified range.
3.4 Rise Time
DC output rise time is less than 20 mS at nominal line and full load.
3.5 +5V DC / +3.3V DC Power Sequencing
The +12V and +5V output levels must be equal to or greater than the +3.3V output
at all times during power-up and normal operation. The time between any output of
+ 12V and +5V reaching its minimum in-regulation level and +3.3V reaching its
minimum in-regulation level must be ≤ 20mS.
3.6 Hold-up Time
PG output maintains at least 16mS is 40% 1oad after power off which hold within
para 3.1 under 115V/60Hz and 230V/50Hz condition.
3.7 5VSB
5VSB is requierd for the implementation of PS-ON described above. 5VSB is a
tandby voltage that may be used to power circuits that require power input during
the powered-down state of all power rails. The 5 VSB pin should deliver 5V ± 5%
at a minimum of 3.0 A for PC board circuits to operate. Conversely, PC board
should draw no more than 3.0A maximum form this pin. This power may be used
to operate circuits such as soft power control.
Load +5V +3.3V +12V -12V +5Vsb
Low Load 0.22A 0.22A 1.49A 0.01A 0.05A
Light Load 2.15A 2.15A 14.9A 0.05A 0.54A
Typical Load 5.39A 5.39A 37.25A 0.13A 1.34A
Full Load 10.77A 10.77A 74.5A 0.27A 2.68A
3.8 PG-OK
PG-OK is a power good signal and should be asserted high by power supply to
indicate that the +5 VDC and +3.3 VDC outputs are above the under-voltage
thresholds of the power supply. When this signal is asserted high, there should
be sufficient mains energy stored by the converter to guarantee continuous
power operation within specification. Conversely, when either the +5VDC or
the +3.3VDC output voltage falls below the under-voltage threshold, or when
mains power has been removed for a time sufficiently long so that power supply
operation is no longer guaranteed, PG-OK should be deasserted to a low state.
See Figure 1 for a representation of the timing characteristics of the PG-OK,
PS-ON, and germane power rail signals.
3.9 3.3V Sense.
A default 3.3V sense line should be implemented pin 13 of the connector.
04
3.10 Capacitive Load
3.11 Support PCIE 12V-2x6 Power
The power supply should be able to power up and operate normally with the
following capacitances simultaneously present on the DC outputs.
3.11.1 PCI Express* 12V-2x6 Connector Power Limits
Output Capacitive load (uF)
+5V 3300
+12V 3300
+3.3V 3300
-12V 330
+5VSB 3300
Initial Permitted Power at
System Power Up
Maximum Sustain Power after
Software Configuration
375 W 600 W
225 W 450 W
150 W 300 W
100 W 150 W
0 W¹ 0 W¹
4.1 Input Protection
In primary circuit of the power supply , a protected fuse is inserted. Only internal
fault of the power supply will cause the fuse blown. Any overload or short circuit
at DC output will keep from fuse brown or fire hazard.
4. Protection
05
4.2 Output Protection
4.2.1 Under voltage protection
The +12V/+5V/+3.3V DC output are protected against the under voltage
condition range value can't be exceed 10.3~11.0V at 12V terminal and
3.3~3.7V at 5V, 2.0~2.4V at 3.3V
3.11.2 PCIe* AIC and PSU Power Budget used for Peak Power Excursion
%ofPSURatedSize
PSU ≤ 450 Watts & PSUs
without 12VHPWR
Connector
Power Excursion % of
PSU Rated Size
PSU > 450 Watts &
12VHPWR Connector
present
Time for Power
Excursion (TE)
Testing
Duty Cycle
100% 100% Infinite
--
110% 120% 100ms 50%
135% 160% 10ms 25%
145% 180% 1ms 20%
150% 200% 100 us 10%
4.2.5 Over Current Protection
Current protection should be designed to limit the current to operate within
safe operating conditions.Over current protection schemes where only the
voltage output that experiences the over current event is shut off may be
adequate to maintain safe operation of the power supply and the system;
however, damage to the motherboard or other system components may
occur. The recommended over current protection scheme is for the
power supply to latch into the shutdown state. The setting of over current
protection for each output rail is as following.
+5V is less than or equal to 22~30A..
+3.3V is less than or equal to 22~30A.
+12V is less than or equal to 92~120A
4.2.6 Over Temperature Protection
This power supply includes an over-temperature protection sensor,
which can trip and shut down the power supply at 65℃ ±10℃
06
5.1 No Load Start
When power is applied to PSU with no load connected or under minimum load
connected, neither damage to power supply nor hazards to users will occur.
5.2 Cold Start
The power supply shall operate properly when first applied at normal input
voltage and or so maximum load after 4 hours storage in 0℃ environment.
5. Start Stability
4.2.2 Over Voltage Protection
The +12V/+5V/+3.3V DC output are protected against the over voltage
condition. Maximum value can't be over 15.6V at 12V terminal and
7.0V at 5V, 4.3V at 3.3V.
4.2.3 Over Power Protection
The power supply can be used electronic circuit to limit the output current
against exceeding 30-70% of surge output power or protected against
excessive power delivery since short circuit of any output or over total
power at high line.
4.2.4 Short Circuit Protection
Short circuit placed on +5V,+12V,+3.3V,-12Vwill latch off. +5VSB will
auto-recovery.
6.3.1Sweep and resonance search for each of X,Y,Z, axis at the sweep.
RATE of 1/OCTAVE/Min.
6.3 Vibration and Shock
Frequency Duration Amplitude
10-55-10 Hz 30 minutes 0.35mm
07
7. Conducted EMI
8.1 Safety Requirement
8.2 Leakage Current
The AC leakage current is less than 3.5mA when the power supply connect
to 264Vac/50Hz .
8.3 Insulation Resistance
The insulation resistance should be not less than 30M ohm after applying
of 500VDC for 1 minute.
8.4 Dielectric Voltage Withstand
The power supply shall withstand for 1 minute without breakdown the
application of a 60Hz 1500V AC voltage applied between both input line
and chassis (20mA DC cut-off current). Main transformer shall similarly
withstand 3000Vac applied between both primary and secondary windings
for a minimum of one minute.
8. Product Safety
CE.FCC
TUV,CB
The power supply can operate normally at any altitude between 0 to 10000 feet.
6.1 Temperature and Humidity
6.2 Altitude
6. Environments
6.1.1 Operating
Temperature 0 to 40 °C
Relative Humidity 20 to 90 %
6.1.2 Storage
Temperature -40 to 70 °C
Relative Humidity 20 to 95 % noncondensing
Figure 1 Time Diagram
08
* T0 : AC Turn on time ( 2S. Max.)
* T1 : Turn on time ( 200mS. Max.)
* T2 : Rise time ( 0.2~20 mS.)
* T3 : PWR_OK delay ( 100~ 250 mS )
* T4 : PWR_OK rise time (10mS. Max.)
* T5 : AC loss to PWR_OK hold-uptime (16mS Min 40% Load )
* T6 : PWR_OK inactive to DC lossdelay (1 mS Min )
* Power on-off cycle :
When the power supply is turned off for a minimum of 2.0 sec. and turn on
again, the power good signal will be asserted.
A TTL compatible signal for the purpose of initiating an orderly start-up
procedure under normal input operating conditions. During power up, this
signal is asserted ( low ) until +5V is under regulation and AC reaches min.
line specification range. After all voltage are going appropriate level, the system
may have a turn on delay of 100mS, but no greater than 250mS. During power
off the signal should go to low level before +5V is out of regulation. The low
level is 0 to 0.8V and high level is 4.75 to 5.25V. The " Power Good "signal
can drive up to 6 standard TTL loads.
9. Power Good Signal
The product shall meet requirement for EN61000-3-2 & EN61000-3-3 :2005
standard of class D, test at 230Vac 50Hz.
12. Harmonics
1. The fan does not turn when the load is less than 200W, but the fan will start
to cool down when the temperature inside the machine exceeds the safe range.
2. when the load exceeds 300W, the fan starts.
3. Fan Delay Mode PS_ON# is turned off, the fan stops working 2 minute later.
14. Fanless Function
15.1 Outline Dimension
125mm (W) X 63.5mm (H) X100mm( D)
15. Mechanical Specification
The power supply with active power factor correction, and meet the
EN61000-3-2 standards, The power factor is greater than 0.90 at
230V/50Hz, Max. load.
13. Power Factor
09
The MTBF of the power should be 100,000 hours min.
10. MTBF
11.1 Input Voltage
Applying 230Vac
Applying 80% loads for the power supply in 40 (+/-5) oC chamber for
4 hours.
11.2 Test Condition
11. Burn-In
16. POWER SUPPLY CONNECTOR OVERUSE DEFINITION
Definition einer Überlastung des
Netzanschlusses
DE
Définition de l'utilisation excessive du
connecteur d'alimentation électrique
FR
Definizione di uso eccessivo del connettore
di alimentazione
IT
Definición de uso excesivo del conector de
la Fuente de alimentación
ES
Определение чрезмерной нагрузки на
коннектор блока питания
RU
電力供給コネクタの使用限度超過に関する説明
JP
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Openings that do not exceed 1mm in width regardless of length
Openings that do not exceed 5mm in any dimension
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This device complies with Part 15 of the FCC Rules.
Operation is subject to the following two conditions:
(1) this device may not cause harmful interference, and
(2) this device must accept any interference received,
including interference that may cause undesired operation.
Please refer to SilverStone website for latest specifications updates.
The equipment a Class | Switching Power Supply intended to use
for information technology equipment or Audio and Video equipment.
※付属の電源コードは当該製品専用です。他の機器に使用しないでください。
Model (safety certification) : SST-SX1000MCPT-3TD
Product Number : SST-EX1000R-PM
G11254630
