DA1000 Gold
Decathlon Series
Cybenetics Gold 230V 1000W semi-modular ATX PSU
▓ High efficiency with Cybenetics Gold 230V / Silver 115V certification
▓ Japanese primary capacitor
▓ Class-leading single +12V rail
▓ Silent running 140mm fan with 18 dBA
▓ Semi-modular cables facilitate cable management
▓ Dual EPS 8-Pin with multiple PCIe 8 / 6-Pin connectors support
▓ 24/7 continuous power output with 40°C operating temperature
SilverStone
Decathlon Series
SPECIFICATION
DA1000 Gold
SST-DA1000-GH
ATX12V Switching Power Supply With Active PFC PS/2
2.1.AC Input
This document defines the Desktop Power Supply quality, ATX12V size, 5 output
1000W power supplies for the application of Desktop systems.
The electrical specifications that follow is going to meet over the environmental
ranges specified in Section 3 unless otherwise noted.
Table 1 lists AC input voltage and frequency range for continuous operation.
The power supply is capable of supplying full-rated output power over the input
voltage ranges as specified.
•The inrush current is less than 150A under the conditions of 230Vrms input
and 25°C ambient cold start. The inrush current is limited to the extent that no
damage will be done to the power supply under any specified line, load, and
temperature conditions. The inrush current will not cause external protection
devices (fuses) to trip.
•The leakage current of the power supply module is less than 3.5mA measured
at 230Vac input.
•The repetitive ON/OFF cycling of AC input voltage will not damage the power supply.
•The primary fuse is installed for input over-current protection, and meet product
safety requirement.
1.Scope
2.Electrical
Parameter Min Nominal Input Max Unit
V
in
Voltage 90 100-240 264 Vrms
V
in
Frequency 47 50-60 63 Hz
V
in
Current /1000W 13.0 A
Power Factor(PF) > 0.97
Average PFC
Table 1. AC input
2.2.DC Output
2.2.1. DC Output Voltage Regulations
2.2.2. DC Output Load Distributions
2.2.3. DC Output Efficiency & Erp* requirements
The Table 3. defines the power supply typical output load distribution.
The DC output voltages remain within the regulation ranges shown in Table 2.
when measured the at load end of the output connectors under all AC line,
O/P loads, and environmental conditions. The voltage regulation will be
maintained under continuous operation for a period of time equal to the MTBF
specified in section 5.2 at any steady state temperature and operating conditions
specified in section 3.
•The remote sense is provided to +12V, +5V, and +3.3V outputs to
compensate for excessive cable drops.
ıij
The power supply efficiency could be suppot
115V in cybenetics silver(Overall Efficiency: ≥85% to <87%)
and 230V in cybenetics Gold(Overall Efficiency: ≥89% to <91%)
+12V +5V +3.3V -12V +5Vsb Unit
Total DC Output
Regulation
±5% ±5% ±5% ±8% ±5% Volt
AC Line and DC
Load Regulation
±1% ±1% ±1% ±2.5% ±2.5% Volt
Table 2. DC Output Voltage Regulations
Output
Rail
Output
Voltage
Minimum
Current (A)
1000W
Max (A)
V1 +12V 0.0 83.33
V2
+5V 0.0 20.0
V3 +3.3V 0.0 20.0
V4 -12V 0.0 0.3
V5 +5Vsb 0.0 3.0
Max. combined O/P of V2 & V3
100W
Table 3. DC Output Load Distribution (850W / 1000W)
ıĴ
Table 4. The power supply typical output load distribution
In order to meet the 2010 and 2013 ErP Lot 6 requirements, AMS&2014 ErP Lot 3
requirements, and if any Computers use an Alternative Sleep Mode (ASM) then the
5V standby efficiency should be met as shown in Table 4 which is measured with
the main outputs off (PS_ON# high state).
2.2.4. DC Output Ripple & Noise
The output ripple & noise specifications listed in Table 6. will meet throughout the
load ranges as specified in section 2.2.2 and the nominal line input voltage
conditions as specified in section 2.1. Ripple & noise is defined as periodic of
random signals over a frequency band of 10Hz to 20MHz. Measurements should
be made with an oscilloscope with 20MHz bandwidth. adding a 10uF electrolytic
capacitor and a 0.1uF ceramic capacitor across output terminal during ripple &
noise measurement.
2.2.5. DC Output Transient Response
The output voltages will remain within the regulation limits specified in Table 2.
The load-changing repetition rate is 50Hz to 10KHz, and the transient load slew rate
0.5A/us. The maximum step load size, and output capacitive loading are specified
as followings in Table 7.
+12V +5V +3.3V -12V +5Vsb Unit
Max Ripple & Noise
70 50 50 80 50 mV
P-P
Table 6. DC Output Ripple & Noise
5VSB Load Target 5VSB Actual Load
Efficiency Target
(both 115V and 230V input)
Remark
45mA ≥45%
ErP* Lot 6 2013
90mA ≥55%
ErP* Lot 6 2010
0.55A ≥75%
ASM and ErP* Lot 3 2014
1.00A ≥75% Recommend
1.50A ≥75%
ASM and ErP* Lot 3 2014
Max / Label 3.0A /Label ≥75% Recommend
ıĵ
2.2.6. DC Output Voltage Hold-up Time
2.3. Timing / Housekeeping / control
WR_OK (Power Good Signal)
The power supply will maintain outputs in regulation per section 2.2.1 despite
a loss of input power at the nominal range of AC input and at 80% of maximum
continuous output load as applicable for a minimum of 16 msec.
PWR_OK is a “power good” signal. It will be asserted high by the power supply to
indicate that the +5V output is above the under voltage threshold listed in Table 2.
of Section 2.2. PWR_OK will be de-asserted to a low state when +5V output voltage
falls below under voltage threshold, or when AC power has been removed for a time
sufficiently such that power supply operation cannot work normally.
The electrical and timing characteristics of the PWR_OK signal are given in Table 10.
and in figure 1.
Figure 1. Power Supply Timing
Notes: T1 is defined is section 2.3.4
T2 is defined in section 2.3.5
T3, T4, T5 and T6 are defined in Table 6
+12V +5V +3.3V -12V +5Vsb
Voltage limits.
±5% ±5% ±5% ±10% ±5%
Load Change
Low Load
0.0%~70% 0.0%~40% 0.0%~40% 0A ~ 0.1A 0A ~ 0.5A
Load Change
High Load
30%~100% 60%~100% 60%~100% 0.2A ~ 0.3A 2.0A ~ 2.5A
Capacitive Load 10000uF 10000uF 10000uF 470uF 10000uF
Table 7. DC Output Transient Response
ıĶ
2.3.2. PS_ON (DC Soft Start)
PS_ON is an active-low, TTL-compatible signal that allows a motherboard to
remotely control the power supply in conjunction with features such as soft on/off,
Wake on LAN, or wake-on modem. When PS_ON is pulled to low-level
(1.5V max.), the power supply will turn on the main DC output rails: +12V, +5V,
+3.3V, and –12V. When PS_ON is pulled to high-level (2.4V min.), the DC output
rails will not deliver current and will be held at zero potential with respect to ground.
PS_ON has no effect to the +5Vsb output, which is always enabled whenever the
AC power is present. Table 7 lists PS_ON signal characteristics.
2.3.3. +5Vsb (Standby Voltage Output)
2.3.4. Power-on Time
Min Max
V
IL
, Input Low Voltage 0.0V 0.8V
I
IL
, Input Low Current (Vin = 0.4V) -1.6mA
V
IH
, Input high Voltage (lin = -200uA) 2.0V
V
IH
, open circuit, lin =0 5.25V
Table 9. PS_ON Signal Characteristics
+5Vsb is a standby voltage output that is active whenever the AC power is
present. It provides a power source for circuits that must remain operational
when the four main DC output rails are in a disabled state. Example uses include
soft power control, Wake on LAN, wake on modem, intrusion detection, or
suspend state activities. There is over current protection on the +5Vsb output to
ensure the power supply will not be damaged if external circuits draw more
current than the supply can provide.
The power-on time is defined as the time from when PS_ON is pulled low to
when the12V, +5V, and +3.3V output are within the regulation ranges specified in
Section 2.2.1. The power-on time will be less than 500ms (T1 <500 ms). +5Vsb
has a power on time of one second max. after the valid AC Voltages applied.
Signal type +5V TTL compatible
Logic level low
< 0.4 V while sinking 4 mA
Logic level high
Between 2.4 V and 5 V output while sourcing 200 μA
High-state output impedance
1 kΩ from output to common
Max Ripple/Noise 400 mV p-p
Table 10. PWR_OK Signal Characteristics
2.3.5. Rise Time
The output voltage rise from ≤ 10% of nominal to within the regulation ranges
specified in section 2.2.1 within 0.2 ms to 20 ms (0.2 ms ≤ T2 ≤ 20 ms)
2.3.6. Power Sequencing
The +12V1 and +5V output levels are equal to or greater than the +3.3V output
at all times during power-up and normal operation. The time between the +12V1
or +5V output reaching its minimum in-regulation level and +3.3V reaching its
minimum in-regulation level is ≤ 20 msec.
2.3.7. Overshoot at Turn-on / Turn-off
The output voltage overshoot upon the application or removal of the input voltage,
or the assertion / de-assertion of PS_ON will be less than 10% above the nominal
voltage.
2.3.8. Reset after Shutdown
If the power supply latches into a shutdown state because of a fault condition on
its outputs, the power supply can return to normal operation only after the fault
condition has been removed and the PS_ON has been cycled OFF/ON with a
minimum OFF time of 1 second.
2.3.9. +5Vsb at AC Power-down
After AC power is removed, the +5Vsb standby voltage output will remain at its
steady state value for the minimum hold-up time specified in Section 2.2.6 until
the output begins to decrease in voltage. The decrease can be monotonic in
nature, dropping to 0.0V. There are no other perturbations of this voltage at or
following removal of AC power.
ıķ
2.4. Output Protection
2.4.1. Over Voltage Protection
The power supply can provide latch-mode over voltage protection as defined in
Table 10.
Output Min. Nom. Max. Unit
+12VDC 13.6 14.6 15.6 Volts
+5VDC 5.5 6.25 7.0 Volts
+3.3VDC 3.7 4.1 4.5 Volts
Table 10. Over Voltage Protection
2.4.2. Under Voltage Protection
The power supply can provide latch-mode over voltage protection as defined
in Table 10.
2.4.3. Over Current Protection
~180% max. for +3.3V and +5V outputs
2.4.4. Short-circuit Protection
The power supply will shut down and latch off for shorting the +12V , +5V,
+3.3V, and -12V rails to return or any other rails. Shorts between main output
rails and +5Vsb will not cause any damage to power supply. +5Vsb can be
capable of being shorted indefinitely, but when the short is removed, the
power supply will recover automatically or by cycling PS_ON. The power supply
can be capable of withstanding a continuous short circuit to the output without
damage or overstress to the unit under the input conditions specified in
section 2.1.
2.4.5. Over Power Protection
Fold back at 120%~150% over peak load
2.4.6. OVER TEMPERATURE PROTECTION
Protection temperature is 45℃ to 65℃ at 115V and full load
2.4.7. No-load Operation
No damage or hazardous condition will occur with all the DC output connectors
disconnected from the load. The power supply may latch into the shutdown state.
2.4.8. Isolation (High Voltage Withstand)
1800Vac for 1 minute
The following subsections define recommended environmental specifications and
test parameters. Based on the typical conditions to which an ATX12V power supply
may be subjected during operation or shipment.
ıĸ
Output Min. Nom. Max. Unit
+12VDC 8.80 9.30 9.80 Volts
+5VDC 4.10 4.30 4.47 Volts
+3.3VDC 2.55 2.69 2.83 Volts
Table 10. Under Voltage Protection
3. Environmental
ıĹ
The following subsections outline applicable product regulatory specifications for
this power supply.
4. Electromagnetic Compatibility
5. Reliability
3.1. Temperature
Operating 0°C to +40°C
Non-operating -20°Cto +70°C
4.1. Emissions (Meet)
The power supply can comply with FCC Part 15 and EN55032: 2015 meeting
Class B for both conducted and radiated emissions with a 3 dB margin.
4.2. Immunity (Meet)
The power supply can comply with EN 55035: 2017.
5.1. Component De-rating
The derating process promotes quality and high reliability. All electronic
components are designed with conservative derating for use in commercial
and industrial environments.
4.3. CE Testing (Meet)
The following standards are applied during the CE testing
EN 55032: 2015 Class B with 3dB margin minimum
EN 61000-3-2: 2014 Harmonic Current Measurement
EN 61000-3-3: 2013 Voltage Fluctuation and Flick Measurement
EN 55035: 2017, including
IEC 61000-4-2: 2009 ESD – air discharge 8kV / ESD contact discharge 4kV
IEC 61000-4-3: 2010 Radiated, Radio Frequency Electromagnetic Field Immunity Test
IEC 61000-4-4: 2012 Electrical Fast Transient/Burst Immunity Test
IEC 61000-4-5: 2014 Surge Immunity Test – 2kV L/N to PE and 1kV L to N
IEC 61000-4-6: 2014 Immunity to Conducted Disturbances Induced by RF Fields
IEC 61000-4-8: 2010 Power Frequency Magnetic Field Immunity Test
IEC 61000-4-11: 2004 Voltage Dips and Short Interruptions Immunity Test
3.2. Humidity
Operating 20% to 90% relative humidity (non-condensing)
Non-operating 5% to 95% relative humidity (non-condensing)
3.3. Altitude
Operating 0 to 16,404 ft (5000 meter)
Storage 0 to 50,000 ft
Dimension W x L x H = 150x86x160mm
6. Mechanical
5.2. Mean Time between Failures (MTBF)
100K hours minimum at full load 25°C
ıĺ
7. POWER SUPPLY CONNECTOR OVERUSE DEFINITION
Power supply connector overuse definition
EN
A single PCIe 8pin cable and connector’s maximum current rating is
12.5A, which is 150W (+12V x 12.5A). So SilverStone’s warranty will not
cover damages or malfunction resulting from the use of a graphics card
or expansion card with a single PCIe 8pin connector that exceeds
standard 225W total power draw (150W from PCIe 8pin connector +
75W from PCIe motherboard slot). Similarly, a graphics card or
expansion card with dual PCIe 8pin connectors that exceed 375W total
power draw (300W from two PCIe 8pin connectors + 75W from PCIe
motherboard slot) will also not be covered under warranty.
Peripheral (molex) or SATA connector’s maximum current rating is 5A,
which is 60W (+12V x 5A) or 25W (+5V x 5A). Please ensure connected
devices are operating under these limits. SilverStone’s warranty will not
cover damages or malfunction resulting from usages exceeding these
connectors and their associated cables.
24pin motherboard connector’s maximum current rating for its dual
+12V metal pins are 5A each, which totals 120W (+12V x 5A x 2).
Please ensure +12V drawing devices connected to the motherboard are
operating under these limits. SilverStone’s warranty will not cover
damages or malfunction resulting from usages exceeding these
connectors and their associated cables.
Definition einer Überlastung des
Netzanschlusses
DE
Die maximale Stromstärke eines einzelnen 8-poligen PCIe-Kabels und
Anschlusses beträgt 12,5 A, was 150 W (+12 V x 12,5 A) entspricht.
Daher deckt die SilverStone-Garantie keine Schäden oder
Fehlfunktionen durch den Einsatz einer Grafikkarte oder Erweiterung-
skarte mit einem einzigen 8-poligen PCIe-Anschluss ab, die die
Standardleistungsaufnahme von insgesamt 225 W übersteigt (150 W
vom 8-poligen PCIe-Anschluss + 75 W vom PCIe-Motherboard-Steck-
platz). Ebenso wird die Verwendung einer Grafikkarte oder
Erweiterungskarte mit zwei 8-poligen PCIe-Anschlüssen, die eine
Leistungsaufnahme von insgesamt 375 übersteigen (300 W von den
beiden 8-poligen PCIe-Anschlüssen + 75 W vom PCIe-Mother-
board-Steckplatz) nicht durch die Garantie abgedeckt.
Der maximale Nennstrom von Peripherie- (Molex) oder SATA-An-
schluss beträgt 5 A, was 60 W (+12 V x 5 A) oder 25 W (+5 V x 5 A)
entspricht. Bitte achten Sie darauf, dass verbundene Geräte unter
diesen Grenzwerten arbeiten. Die Garantie von SilverStone deckt keine
Schäden oder Fehlfunktionen aufgrund einer Nutzung ab, die diese
Anschlüsse und ihre zugehörigen Kabel übersteigt.
Der maximale Nennstrom des 24-poligen Motherboard-Anschlusses für
seine dualen +12-V-Metallkontakte beträgt jeweils 5 A, was insgesamt
120 W (+12 V x 5 A x 2) ergibt. Bitte stellen Sie sicher, dass mit dem
Motherboard verbundene +12-V-Geräte unter diesen Grenzwerten
arbeiten. SilverStones Garantie deckt keine Schäden oder
Fehlfunktionen aufgrund einer Nutzung jenseits der Angaben dieser
Anschlüsse und ihrer zugehörigen Kabel ab.
IJı
Définition de l'utilisation excessive du
connecteur d'alimentation électrique
FR
Le courant nominal maximum d'un périphérique (Molex) ou d'un
connecteur SATA est de 5 A, ce qui correspond à 60 W (+12 V x 5 A)
ou 25 W (+5 V x 5 A). Veuillez vous assurer que les appareils
connectés fonctionnent dans ces limites. La garantie de SilverStone
ne couvre pas les dommages ou les dysfonctionnements résultant
d'utilisations dépassant ces connecteurs et leurs câbles associés.
Le courant nominal maximal des connecteurs 24 broches de la carte
mère pour ses doubles broches métalliques +12 V est de 5 A chacun,
ce qui représente au total 120 W (+12 V x 5 A x 2). Veuillez vous
assurer que les dispositifs de tension +12 V connectés à la carte mère
fonctionnent dans ces limites. La garantie de SilverStone ne couvre
pas les dommages ou les dysfonctionnements résultant d'utilisations
dépassant la capacité de ces connecteurs et de leurs câbles
associés.
Le courant nominal maximum d'un câble et d'un connecteur PCIe 8
broches unique est de 12,5 A, ce qui correspond à 150 W (+12 V x
12,5 A). La garantie de SilverStone ne couvre donc pas les dommages
ou les dysfonctionnements résultant de l'utilisation d'une carte
graphique ou d'une carte d'extension avec un connecteur PCIe 8
broches unique qui dépasse une consommation énergétique totale de
225 W standard (150 W provenant du connecteur PCIe 8 broches + 75
W provenant de l'emplacement de la carte mère PCIe). De même, une
carte graphique ou une carte d'extension avec deux connecteurs PCIe
8 broches qui dépasse une consommation énergétique totale de 375 W
(300 W provenant des deux connecteurs PCIe 8 broches + 75 W
provenant de l'emplacement de la carte mère PCIe) ne sera également
pas couverte dans le cadre de la garantie.
La corrente massima di un singolo cavo PCIe a 8 pin e del connettore
è 12,5 A, corrispondente a 150 W (+12 V x 12,5 A). Pertanto, la
garanzia di SilverStone non copre danni o malfunzionamenti derivanti
dall'utilizzo di una scheda grafica o una scheda di espansione con un
singolo connettore PCIe a 8 pin che supera l'assorbimento totale di
225 W (150 W da connettore PCIe a 8 pin + 75 W da slot PCIe).
Analogamente, la garanzia non copre anche una scheda grafica o
una scheda di espansione con doppi connettori PCIe a 8 pin che
superano l'assorbimento totale di 375 W (300 W da doppi connettori
PCIe a 8 pin + 75 W dalla scheda madre PCIe).
La corrente massima del connettore periferico (molex) o SATA è 5 A,
corrispondente a 60 W (+12 V x 5 A) o 25 W (+5 V x 5 A). Assicurarsi
che i dispositivi collegati funzionino entro questi limiti. La garanzia di
SilverStone non copre danni o malfunzionamenti derivanti da uso
eccessivo di questi connettori e dei relativi cavi.
La corrente massima del connettore a 24 pin per scheda madre per i
suoi due pin di metallo a +12 V è di 5 A ciascuno, per un totale di 120
W (+12 V x 5 A x 2). Assicurarsi che i dispositivi a +12 V collegati alla
scheda madre funzionino con questi limiti. La garanzia di SilverStone
non copre danni o malfunzionamenti derivanti da uso eccessivo di
questi connettori e dei relativi cavi.
Definizione di uso eccessivo del connettore
di alimentazione
IT
La corriente máxima de un solo cable PCIe de 8 pines es 12,5A, lo
que son 150W (+12V x 12,5A). Por tanto, la garantía de SilverStone
no cubrirá daños o fallos provocados por el uso de una tarjeta gráfica
o de expansión con un único conector PCIe de 8 pines que exceda el
total estándar de 225W (150W del conector PCIe de 8 pines + 75W
del zócalo PCIe de la placa base). De igual modo, una tarjeta gráfica
o de expansión con conectores duales PCIe de 8 pines que superen
375W de potencia (300W de los dos conectores PCIe de 8 pines +
75W del zócalo de la placa base) tampoco será cubierta por la
garantía.
La corriente máxima del conector de periféricos (molex) o SATA es
5A, que son 60W (+12V x 5A) o 25W (+5V x 5A). Por favor,
asegúrese de que los dispositivos conectados funcionan dentro de
estos límites. La garantía de SilverStone no cubrirá daños o fallos a
resultas de un uso excesivo de estos conectores y sus cables
asociados.
La corriente máxima del conector de 24 pines de la placa base para
sus pines de metal duales de +12V es de 5A cada uno, para un total
de 120W (+12V x 5A x 2). Por favor, asegúrese de que los
dispositivos de +12V conectados a la placa base funcionan dentro de
estos límites. La garantía de SilverStone no cubrirá daños o averías a
resultas de un uso excesivo para estos conectores y sus cables
asociados.
Definición de uso excesivo del conector de
la Fuente de alimentación
ES
Определение чрезмерной нагрузки на
коннектор блока питания
RU
Один кабель и коннектор PCIe 8pin поддерживает ток 12.5A, что
равно 150Вт (+12В x 12.5A). Таким образом, гарантийные
обязательства SilverStone не будут действовать если вы
используете видеокарту или другую карту расширения с одним
коннектором PCIe 8pin, которые превышает стандартную общую
потребляемую мощность 225Вт (150Вт через коннектор PCIe 8pin +
75Вт через слот PCIe материнской платы). Аналогично, видеокарта
или другая карта расширения с
двумя коннекторами PCIe 8pin,
которые превышают общую потребляемую мощность 375Вт (300Вт
через коннектор PCIe 8pin + 75Вт через слот PCIe материнской
платы), также не будут покрываться гарантией.
Максимальный номинальный ток периферийного (molex) или SATA
разъёма составляет 5A, что равно 60Вт (+12В x 5A) или 25Вт (+5В x
5A). Пожалуйста, убедитесь, что подключенные устройства
работают в этих пределах. Гарантия SilverStone не будет
распространяться на неисправности,
возникающие в результате
использования этих коннекторов или подключаемых к ним кабелей.
Максимальный номинальный ток 24pin коннектора материнской
платы для его двойных металлических контактов +12В составляет
5A на каждый, что равно 120Вт (+12В x 5A x 2). Пожалуйста,
убедитесь, что устройства, подключенные к линии +12В, работают
в этих пределах. Гарантия SilverStone не будет распространяться
на неисправности, возникающие в
результате использования этих
коннекторов или подключаемых к ним кабелей.
전원 공급 커넥터 과용 정의
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櫶冶夢沫獞姪汆決峲穢洢穢穞櫖昢廒沗壟柢琢檂穯城埪΄ΚΝΧΖΣ΄ΥΠΟΖ
汞懺溣櫖昢垚決峲穢珪嘫瘶愕決歆櫶冶夞垚理決挚汞洛冯汊
爎刂穞櫲斲殯穮求嵢桮愢旣穞垚暖旇決喞欪沗壟汊懺旇穞滆
橐枻城埪
姆櫂·匎暓穆櫖斲殯夞垚穆彚汾懺姢珪嘫瘶汞洛冯洊幞垚
Ͳ決彶儇儇穯凊儆Έ·ΩͲΩ沋城埪彚汾懺姢櫖
櫶冶夢·沫獞儆空埿穢凊惾廒求嵢沗壟夞壊嵣穞柳柢欪
΄ΚΝΧΖΣ΄ΥΠΟΖ汆決珪嘫瘶喞分崮理決挚汞穢凊庂爎刂空昢
斲殯穮求嵢桮愢旣穞垚暖旇決喞処沫櫖堆空昢懺沫穞滆橐枻城埪
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電力供給コネクタの使用限度超過に関する説明
JP
単一のPCIe8ピンケーブルおよびコネクタの最大定格電流は12.5Aで
150W(+12Vx12.5A)となります。それで定格225W合計電力消費(PCIe8
ピンコネクタからの150W+PCIeマザーボードスロットからの75W)を超
える、単一PCIe8ピンコネクタ装備のグラフィックスカードまたは拡張カ
ード使用によって生じた損傷や故障の場合、SilverStoneの製品保証は適
用外となります。同様に、375W合計電力消費(2基のPCIe8ピンコネクタ
からの300W+PCIeマザーボードスロットからの75W)を超える、デュア
ルPCIe8ピンコネクタ装備のグラフィックスカードまたは拡張カード使用
によって生じた損傷や故障の場合も、製品保証適用外となります。
周辺用(molex)またはSATAコネクタの最大定格電流は5Aで、60W
(+12Vx5A)または25W(+5Vx5A)となります。接続された装置がこれら
限度以内で動作することを確認してください。これらコネクタおよび関連
ケーブルの定格を超える使用法で生じた損傷や故障については、
SilverStone製品保証対象外となりますのでご注意ください。
24ピンマザーボードコネクタのデュアル+12V金属製ピンに対する最大
定格電流はそれぞれ5Aなので合計は120W(+12Vx5Ax2)となります。
接続される+12V入力のデバイスが、これら上限以内で動作することをご
確認ください。これらコネクタおよび関連ケーブルでの限界を超えた使
用で生じた損傷または故障は、SilverStoneによる製品保証対象外となり
ます。
ᴵ3&,HSLQ⬉⑤㒓Ϣ༈ⱘ᳔乱ᅮ⬉⌕Ў$ˈ⪺⡍᭄:
˄9[$˅DŽℸˈ䫊ⱘ⬉⑤ֱϡࣙᣀ⫼Ѣᴵ3&,H
SLQ༈Пᰒᠽܙˈ䍙䖛ޚ:ᘏࡳ㗫㣗ೈ᠔䗴៤ⱘᤳണ
ᬙ䱰˄:ⱘ3&,HSLQ༈:ⱘЏᵓ3&,Hᦦῑ˅DŽҹℸ㉏
ˈ㢹ঠ3&,HSLQ༈ⱘᰒᠽܙˈ䋳䕑ϔԚ䍙䖛:ᘏ
ࡳ㗫ˈ㾚ৠϡሲֱ㣗ೈݙ˄:ᴹ㞾ϸϾ3&,HSLQ༈:ⱘ
Џᵓ3&,Hᦦῑ˅DŽ
SLQ˄PROH[˅6$7$༈ⱘ᳔乱ᅮ⬉⌕Ў$ˈ:˄9[
$˅:˄9[$˅DŽ䇋⹂ֱ䖲ⱘ䆒ⱚԢѢℸ䰤ࠊϟ䖤㸠
DŽ
䫊ϡֱ䍙ߎ⬉⑤կᑨ఼༈ঞ݊Ⳍ݇㒓ᴤПՓ⫼䋳䕑Ϟ䰤᠔䗴
៤ⱘᤳണᬙ䱰DŽ
SLQЏᵓ༈ⱘঠ9䞥ሲ䩜㛮᳔乱ᅮ⬉⌕Ў$ˈ:˄
9[$[˅DŽ䇋⹂ֱ䖲ⱘ9䆒ⱚԢѢℸ䰤ࠊϟ䖤㸠DŽ
䫊ϡֱ䍙ߎ⬉⑤կᑨ఼༈ঞ݊Ⳍ݇㒓ᴤПՓ⫼䋳䕑Ϟ䰤᠔䗴
៤ⱘᤳണᬙ䱰DŽ
⬉⑤կᑨ఼༈䖛ᑺՓ⫼ᅮН
CN
䳏⑤կឝ఼丁䘢ᑺՓ⫼ᅮ㕽
TW
ஂṱ3&,HSLQ䳏⑤㎮㟛丁ⱘ᳔両ᅮ䳏⌕⚎$ˈ⪺⡍ᭌ:
˄9[$˅DŽℸˈ䡔ⱘ䳏⑤ֱϡࣙᣀ⫼ᮐஂṱ3&,H
SLQ丁П乃ܙˈ䍙䘢῭⑪:㐑ࡳ㗫㆘ೡ᠔䗴៤ⱘ᧡າ
ᬙ䱰˄:ⱘ3&,HSLQ丁:ⱘЏ″ᵓ3&,Hᦦῑ˅DŽҹℸ
串ˈ㢹٭䲭3&,HSLQ丁ⱘ乃ܙˈ䉴䓝ϔԚ䍙䘢:
㐑ࡳ㗫ˈ㽪ৠϡቀֱ㆘ೡܻ˄:՚㞾ܽן3&,HSLQ丁:
ⱘЏ″ᵓ3&,Hᦦῑ˅DŽ
SLQ˄PROH[˅6$7$丁ⱘ᳔両ᅮ䳏⌕⚎$ˈ:˄9[
$˅:˄9[$˅DŽ䂟⺎ֱ䗷ⱘ䀁٭ⱚԢᮐℸ䰤ࠊϟ䘟㸠
DŽ
䡔ϡֱ䍙ߎ䳏⑤կឝ఼丁ঞ݊Ⳍ䮰㎮ᴤПՓ⫼䉴䓝Ϟ䰤᠔䗴
៤ⱘ᧡າᬙ䱰DŽ
SLQЏ″ᵓ丁ⱘ䲭9䞥ቀ䞱㝇᳔両ᅮ䳏⌕⚎$ˈ:˄
9[$[˅DŽ䂟⺎ֱ䗷ⱘ9䀁٭ⱚԢᮐℸ䰤ࠊϟ䘟㸠DŽ
䡔ϡֱ䍙ߎ䳏⑤կឝ఼丁ঞ݊Ⳍ䮰㎮ᴤПՓ⫼䉴䓝Ϟ䰤᠔䗴
៤ⱘ᧡າᬙ䱰DŽ
ขีดจำกัดการรองรับการใช้งานของขั้วต่อจากพาวเวอร์ซัพพลาย
TH
สำหรับขั้วเชื่อมต่อและสายไฟเลี้ยง PCIe 8 พินสามารถรองรับกระแสได้สูงสุด 12.5
แอมป์หรือหมายถึง 150 วัตต์
(+12V x 12.5A) ดังนั้นการรับประกันจากทาง SilverStone จะไม่ครอบคลุมถึงความ
เสียหายหรือความผิดปรกติซึ่งเกิดขึ้นกับกราฟิกการ์ดรวมถึงการ์ดขยายความยาวที่ใช้งาน
ขั้วเชื่อมต่อ PCIe 8 พิน ซึ่งมันมีการใช้พลังงานรวมทั้งสิ้นเกินกว่ามาตรฐานที่กำหนดคือ
225 วัตต์ (150 วัตต์ จาก PCIe 8 พิน + 75 วัตต์ จากสล๊อต PCIe บน
เมนบอร์ด) อันรวมถึงกราฟิการ์ดหรือการ์ดขยายความยาวที่ใช้ขั้วต่อไฟเลี้ยง PCIe 8
พินจำนวน 2 ชุดซึ่งมีการใช้พลังงานทั้งสิ้น 375 วัตต์ (300 วัตต์ จากขั้ว PCIe 8
พิน 2 ชุด + 75 วัตต์ จากสล๊อต PCIe บนเมนบอร์ด) ซึ่งไม่ครอบคลุมเช่นกัน
ภายใต้การรับประกัน ขั้วเชื่อมต่อ Peripheral หรือ Molex 4 พินและ SATA มันสามารถ
รองรับกระแสได้สูงสุด 5 แอมป์หรือหมายถึง 60 วัตต์ (+12V x 5A) หรือ (+5V
+ 5A) กรุณาให้แน่ใจว่าอุปกรณ์ที่ใช้งานมีการใช้พลังงานไม่เกินกว่าขีดจำกัดที
่รองรับ ดัง
นั้นการรับประกันจากทาง SilverStone จะไม่ครอบคลุมถึงความเสียหายหรือความผิด
ปรกติจากอุปกรณ์ที่เชื่อมต่อใช้งานจากตัวสายเชื่อมต่อซึ่งมีการใช้พลังงานเกินกว่าขีด
จำกัด
กระแสไฟฟ้าสูงสุดของขั้วต่อเมนบอร์ด 24 พิน สำหรับพินโลหะ +12V คู่แต่ละอันมีค่า
5A ซึ่งรวมทั้งหมดเป็น 120W
(+12V x 5A x 2) โปรดตรวจสอบให้มั่นใจว่าอุปกรณ์ตัวดึงพลังงาน +12V ที่เชื่อม
ต่อกับเมนบอร์ดสามารถทำงานภายใต้ขีดจำกัดเหล่านี้ได้ การรับประกันของ SilverStone
ไม่คุ้มครองความเสียหาย หรืออาการเสียที่เป็นผลจากการใช้เกินขีดจำกัดของขั้วต่อและสาย
เคเบิลที่ใช้เชื่อมต่อเหล่านี้
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⚎њֱ䅋Փ⫼㗙ঞ䰆☿ⱘⳂⱘˈᅝ㺱ℸѸᓣ䳏⑤կឝ఼ᰖˈᖙ䷜ᅝ㺱ᮐヺড়ϟ߫䷙㽕∖ⱘ←Ёˈ
ϺϨᅝ㺱ཹᕠˈᠡৃϞ䳏⑤DŽ
←ᴤ䊾䷜⚎䰆☿←DŽᴤ䋼乏Ў䰆☿DŽ
←ⱘϞᮍঞو䙞П೧ᔶ䭟ᄨˈ᳔ܻᕥϡৃᮐPPDŽ
←ⱘϞᮍঞو䙞П䭋ṱൟ䭟ᄨˈᇡ㾦㎮䎱䲶ϡৃᮐPP˗㢹ᇀᑺᇣᮐPPˈࠛ䭋ᑺϡফ䰤ࠊDŽ
←ᑩ䚼ϡৃ᳝䭟ᄨDŽᑩ䚼ϡৃ᳝ᓔᄨDŽ
ⳈᕥϡᮐPP
ᇡ㾦㎮ϡᮐPP
ᇀᑺᇣᮐPPࠛ䭋ᑺϡ䰤
Openings that do not exceed 1mm in width regardless of length
Openings that do not exceed 5mm in any dimension
ᴀ⫶ક䔌ߎ᳝䱾㛑䞣ˈ⚎䙓ܡ᪡ᰖⱐ⫳䱾ˈ䷜ᮐ㺱ܹ㋏㍅″←Ϻᇛ᠔᳝䀁٭ᅝ㺱ཹ⭊ᕠᠡৃ䭟ଳ䳏⑤DŽ
ᴀ⫶કП䳏⑤䔌ߎ䴲ቀ䳏䰤ࠊൟ䳏⑤ˈ䂟䗷Փ⫼䰆☿←П䙞ˈҹ䙓ܡ☿♑䱾ⱐ⫳DŽ
%60,52+6䊛㿞
KWWSZZZVLOYHUVWRQHWHNFRPGRZQORDGV36856'SGI
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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。
IJĵ
Model (safety certification):SST-AX1000HCBR-A
NO.G11246340
