ST75F-GS
ST65F-G
ST55F-G
STRIDER GOLD S SERIES
World’s smallest, full-modular ATX power supplies
Compact design with a depth of 140mm for easy integration
80 PLUS Gold certification
100% modular cables
24/7 continuous power output with 40℃ operating temperature
Class-leading single +12V rail
Strict ±3% voltage regulation and low ripple & noise
Silent running 120mm fan with 18dBA minimum
The following manual and guides were carefully prepared by the SilverStone engineering team to
help you maximize the potential of your SilverStone product. Please keep this manual for future
reference when upgrading or performing maintenance on your system. A copy of this manual can also
be downloaded from our website at:
Installation and system optimization guide:
General
Input Characteristics
Output characteristics
Protection
Start Stability
Environments
Conducted EMI
Product Safety
Power Good Signal
MTBF
Burn-In
Harmonics
Power Factor
Mechanical Specification
P.1
P.1
P.2
P.6
P.7
P.7
P.8
P.8
P.8
P.9
P.9
P.9
P.9
P.9
SPECIFICATION
SilverStone Strider Gold
ST75F-GS
ST65F-G
ST55F-G
ATX12V / EPS 12V Switching Power Supply
With Active PFC
80 Plus Gold
PS/2
01
1.1 Scope
This specification defines the performance characteristics of a single phase 750, 650, 550 watts,
5 output power supply. This specification also defines worldwide safety and electromagnetic compatibility
requirements for the power supply which is intended for use in computer products.
1. General
2.1 Input Voltage
Nominal Voltage
100-240 Vrms
Voltage Variation Range
90 - 264 Vrms
2. Input Characteristics
2.2 Input Frequency
Nominal Frequency
* The power supply must operate at above frequency with 90-264 VACrms input voltage range.
50-60 Hz
Frequency Variation Range
47 Hz to 63 Hz
02
2.3 Max. Input AC Current
2.4 Inrush Current
3.1 Normal Operation Output
3. Output characteristics
ST75F-GS
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).
2.5 Efficiency
ST75F-GS, ST65F-G, ST55F-G provides an efficiency of 87% minimum when measured at full load
Max. Input Current
ST75F-GS
10A
Measuring Range
90 - 264 Vrms
Max. Input Current
ST65F-G
9A
Measuring Range
90 - 264 Vrms
Max. Input Current
ST75F-GS
8A
Measuring Range
90 - 264 Vrms
Output Voltage
+5V
+12V
–12V
+5Vs
+3.3V
Load MIN
0.2A
0.0A
0.0A
0.0A
0.0A
Range MAX
22A
62.5A
0.3A
3.0A
22.0A
Regulation
±5%
±5%
±10%
±5%
±5%
Ripple & Noise P-P Max.
50mV
120mV
120mV
50mV
50mV
03
Maximum continuous total DC output power should not exceed750W.
Maximum continuous combined load on +3.3VDC and +5VDC outputs shall not exceed 120W.
Maximum combined load on +12V outputs shall not exceed 750W.
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.
Maximum continuous total DC output power should not exceed650W.
Maximum continuous combined load on +3.3VDC and +5VDC outputs shall not exceed 120W.
Maximum combined load on +12V outputs shall not exceed 650W.
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.
ST65F-G
Output Voltage
+5V
+12V
–12V
+5Vs
+3.3V
Load MIN
0.0A
0.0A
0.0A
0.0A
0.0A
Range MAX
22A
54.2A
0.3A
3.0A
22.0A
Regulation
±5%
±5%
±10%
±5%
±5%
Ripple & Noise P-P Max.
50mV
120mV
120mV
50mV
50mV
Maximum continuous total DC output power should not exceed550W.
Maximum continuous combined load on +3.3VDC and +5VDC outputs shall not exceed 105W.
Maximum combined load on +12V outputs shall not exceed 550W.
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.
ST55F-G
Output Voltage
+5V
+12V
–12V
+5Vs
+3.3V
Load MIN
0.0A
0.0A
0.0A
0.0A
0.0A
Range MAX
20A
45.9A
0.3A
3.0A
20.0A
Regulation
±5%
±5%
±10%
±5%
±5%
Ripple & Noise P-P Max.
50mV
120mV
120mV
50mV
50mV
04
3.2 Remote On/Off Controlled mode
3.3 Regulation
ST75F-GS
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.
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
Load
Light Load.
Typical Load
Full Load
+5V
2.44A
6.10A
12.20A
+3.3V
2.44A
6.10A
12.20A
+12V
10.55A
26.38A
52.75A
-12V
0.05A
0.13A
0.25A
+5Vsb
0.51A
1.27A
2.53A
ST65F-G
Load
Light Load.
Typical Load
Full Load
+5V
2.38A
5.96A
11.92A
+3.3V
2.38A
5.96A
11.92A
+12V
8.93A
22.32A
44.65A
-12V
0.05A
0.12A
0.25A
+5Vsb
0.49A
1.24A
2.47A
ST55F-G
Load
Light Load.
Typical Load
Full Load
+5V
2.07A
5.16A
10.33A
+3.3V
2.07A
5.16A
10.33A
+12V
7.48A
18.71A
37.42A
-12V
0.05A
0.12A
0.24A
+5Vsb
0.49A
1.22A
2.45A
05
3.5 Hold-up Time
DC +5V output maintains at least 16mS after power off which hold within full load under
230V/50Hz condition.
3.6 5VSB
5VSB is requierd for the implementation of PS-ON described above. 5VSB is a standby 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.
3.7 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.
3.8 3.3V Sense
A default 3.3V sense line should be implemented pin 13 of the connector.
3.9 Capacitive Load
The power supply should be able to power up and operate normally with the following capacitances
simultaneously present on the DC outputs.
Output
+5V
+12V
+3.3V
-12V
+5VS
Capacitive load (uF)
6,000
8,000
6,000
350
350
06
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.
4.1 Input Protection
4.2.1 Under voltage protection
The +5V/+12V/+3.3V DC output are protected against the under voltage condition . range value
can't be exceed 3.3~3.7V at 5V terminal and 8.5~9.5V at 12V, 2.0~2.4V at 3.3V.
4.2.2 Over Voltage Protection
The +12V/ DC output are protected against the over voltage condition . Maximum value can't
be over 15.5V at 12V.
4.2.3 Over Power Protection
The power supply can be used electronic circuit to limit the output current against exceeding
60% 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,-12V will latch off. +5VSB will auto-recovery.
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.
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 110 C
4.2 Output Protection
4. Protection
o
07
When power is applied to ST75F-GS, ST65F-G, ST55F-G with no load connected or under minimum
load connected, neither damage to power supply nor hazards to users will occur.
5.1 No Load 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 C environment.
The power supply can operate normally at any altitude between 0 to 10000 feet.
5.2 Cold Start
5. Start Stability
6.1.1 Operating
6.1 Temperature and Humidity
6.2 Altitude
Sweep and resonance search for each of X,Y,Z, axis at the sweep.
RATE of 1/OCTAVE/Min.
6.3 Vibration and Shock
6. Environments
Temperature
Relative Humidity
0 C to 40 C
20 to 90 %
oo
6.1.2 Storage
Temperature
Relative Humidity
-40 C to 70 C
20 to 95 % noncondensing
oo
Frequency
5-55-10 Hz
Duration
30 minutes
Amplitude
0.35 mm
o
08
CE,FCC
CUL, CB,TUV
7. Conducted EMI
8.1 Safety Requirement
The AC leakage current is less than 3.5mA when the power supply connect to 264Vac/50Hz .
8.2 Leakage Current
The insulation resistance should be not less than 30M ohm after applying of 500VDC for 1 minute.
8.3 Insulation Resistance
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.
8.4 Dielectric Voltage Withstand
8. Product Safety
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 500mS. 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
Time Diagram
09
* T1 : Turn on time ( 2 sec. Max.)
* T2 : Rise time ( ≦ 20mS Max.)
* T3 : Power good turn on delay time ( 100 < T3 < 500 mS )
* T4 : Switch on time (0.5 sec. Max.)
* T5 : Power good turn off delay time ( 1.0 mS Min.) PS-ON/OFF
* T6 : Power hold-on time ( 16 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.
The MTBF of the power should be 100,000 hours min.
10. MTBF
Applying 220Vac for 230V model.
11.1 Input Voltage
Applying 75% loads for the power supply in 45 (+/-5) oC chamber for 4 hours.
11.2 Test Condition
11. Burn-In
The product shall meet requirement for EN61000-3-2 & EN61000-3-3 :1995 standard
of class D, test at 230Vac 50Hz.
12. Harmonics
The power supply with active power factor correction, and meet the EN61000-3-2
standards, The power factor is greater than 0.9 at 230V/50Hz, Max. load.
13. Power Factor
150 mm (W) × 86 mm (H) × 140mm (D)
14. Mechanical Specification
NO. G1122
