UNIVERSAL FULL RANGE.
1-2. FREQUENCY:
47--------63Hz.
1-3. CURRENT:
1.8A MAX. AT 100V AC INPUT, FULL LOAD CONDITION.
1-4. INRUSH CURRENT:
30A MAX. AT 115V AC INPUT, FULL LOAD CONDITION.
60A MAX. AT 230V AC INPUT, FULL LOAD CONDITION.
* COLD START, AT 25℃AMBIENT.
1-5. LEAKAGE CURRENT:
1.5mA MAX. AT 264V AC INPUT.
1-6 POWER FACTOR CORRECTION CIRCUIT. MEET IEC 1000-3-2 CLASS A STANDARD.
2. DC OUTPUT:
MODEL NO.:
OUTPUT
VOLTAGE
MIN. LOAD
*MAX. LOAD
**REGULATION
RIPPLE & NOISE (MAX.)
OVP
EFFICIENCY (TYP.)
MODEL NO.:
OUTPUT
VOLTAGE
MIN. LOAD
*MAX. LOAD
SPS-060PT1SPS-060PT2
V1 V2 V3 V1 V2 V3
+ 5 V + 12 V - 5 V + 5 V + 12 V - 12 V
0.3 A 0.1 A 0 A 0.3 A 0.1 A 0 A
8 A 3.5 A 1 A 7 A 3.5 A 1 A
± 3 % ± 5 % ± 10 % ± 3 % ± 5 % ± 10 %
50 mV 120 mV 100 mV 50 mV 120 mV 150 mV
+5.8V~+7.0V - - - - - - +5.8V~+7.0V - - - - - -
74 %
SPS-060PT3SPS-060PT4
V1 V2 V3 V1 V2 V3
+ 5 V + 15 V - 15 V + 5 V + 12 V + 24 V
0.3 A 0.1 A 0 A 0.3 A 0.1 A 0 A
7 A 3 A 1 A 6 A 1.5 A 1.2 A
**REGULATION
RIPPLE & NOISE (MAX.)
OVP
EFFICIENCY (TYP.)
± 3 % ± 5 % ± 10 % ± 3 % ± 5 % ± 10 %
50 mV 150 mV 200 mV 50 mV 120 mV 200 mV
+5.8V~+7.0V - - - - - - +5.8V~+7.0V - - - - - -
74 %
2/2 2003/01/07
MODEL NO.: SPS-060PT SER. REV.:1.2UL/cUL/TUV APPROVED RS020400
* TOTAL OUTPUT MAXIMUM 60 WATTS.
** THE OUTPUT VOLTAGE LOAD REGULATION IS LESS THAN THE VALUES IN THE ABOVE
TABLE BY CHANGING EACH OUTPUT LOAD ±40% FROM 60% RATED OF LOAD, AND
KEEP THE OTHER OUTPUTS AT 60% OF RATED LOAD.
3. ELECTRONIC CHARACTERISTICS:
3-1. RISE TIME:
20mS MAX.
3-2. HOLD UP TIME:
16.7mS MIN, TEST CONDITION AT 115V/60Hz AC INPUT, AC OFF POINT AT 0 DEGREE.
80mS MIN, TEST CONDITION AT 230V/50Hz AC INPUT, AC OFF POINT AT 0 DEGREE.
3-3. SETUP TIME:
3Sec MAX. TEST CONDITION AT 115V AC INPUT.
1Sec MAX. TEST CONDITION AT 230V AC INPUT.
3-4. OVER LOAD PROTECTION:
WHEN OUTPUT POWER OVER 105% TO 180% OF RATED LOAD, THE POWER SUPPLY
WILL SHUTDOWN AND AUTO RECOVERY WHEN FAULT CONDITION HAS BEEN
REMOVED.
3-5. SHORT CIRCUIT PROTECTION:
WHEN OUTPUT SHORT TO GROUND, THE POWER SUPPLY WILL SHUTDOWN AND
AUTO RECOVERY WHEN SHORT CIRCUIT CONDITION HAS BEEN REMOVED.
4. MECHANICAL DATA:
OUTLINE DIMENSION : W 95 ×D 159 ×H 38 mm
5.COOLING:
NATURAL COOLING.
6. SAFETY:
THIS PRODUCT IS DESIGN TO COMPLY WITH THE FOLLOWING STANDARDS:
6-1. UL 1950 3rd EDITION (1998) APPROVED. (E 129733)
6-2. CSA C22.2 NO.950-95 3rd EDITION (1998) APPROVED BY UL.
6-3. TUV EN 60950: 1992+A1+A2+A3+A4+A11(1997) APPROVED. (R 3-50003815)
6-4. IEC 60950:1991+A1+A2+A3+A4 (1996) APPROVED.
6-5. EMKO-TSE (74-SEC) 207/94 APPROVED.
3/3 2003/01/07
MODEL NO.: SPS-060PT SER. REV.:1.2UL/cUL/TUV APPROVED RS020400
7. EMC:
THIS PRODUCT IS DESIGN TO COMPLY WITH THE FOLLOWING STANDARDS:
7-1. EMI
(1). FCC CFR 47 PART 15 SUBPART J, CLASS B LIMIT
(2). EN 50081-1:1997 EMISSION STANDARD
EN 55022: 1997 CLASS B LIMIT
EN 61000-3-2: 1995 CLASS A
EN 61000-3-3: 1995
(3). CNS 13438 CLASS B.
7-2. EMS
(1). EN 50082-1 (1997) IMMUNITY STANDARD:
EN 61000-4-2: 1995 ELECTROSTATIC DISCHARGE STANDARD.
EN 61000-4-3: 1996 RADIATED RF STANDARD.
EN 61000-4-4: 1995 FAST TRANSIENT/BURST STANDARD.
EN 61000-4-5: 1995 LIGHTNING SURGE STANDARD.
EN 61000-4-6: 1996 CONDUCTED RF STANDARD.
EN 61000-4-8: 1993 POWER FREQ. MAG. FILELD STANDARD.
EN 61000-4-11:1994 VOLTAGE DIP & INTERRUPT STANDARD.
8. PHYSICAL ENVIRONMENT (AMBIENT):
8-1. TEMPERATURE RANGE:
OPERATING TEMPERATURE RANGE : 0 ~ 70℃
DERATING FACTOR 42℃ ~ 70℃ : 2.0%/℃
STORAGE -10 TO +75℃
8-2. HUMIDITY:
OPERATION 20% TO 85% RH. (NON CONDENSING)
STORAGE AND SHIPPING 10% TO 95% RH. (NON CONDENSING)
9.M.T.B.F.:
290K HOURS APPROXIMATELY, ACCORDING TO MIL-HDBK-217F AT 25℃ ENVIRONMENT.
2. Inrush current: When turn on input power, there is peak current (inrush current)
running through filter capacitor. During operating, it is important not to turn off
power SW and then immediately turn on it again, otherwise, it may cut power
supply’s life.
In general, inrush current could be several to tens times of the normal current. It is
important to make sure input wiring, fuse and power SW are able to carry inrush
current.
3. For input specification, please refer to the label on the product or visit
www.sunpower.com.tw
for newly update data.
Output:
1. The output voltage adjustable range is ±10% of rated output voltage. As output
power is V
x A0, when adjusting V0 to a higher value, should decrease A0 as well,
0
ex.:
For SPS-060-05, the rated output voltage is 5V, max output current is 12A: If
adjusting output voltage to 5.5V, should decrease max output current to 10.9A as
well; and even if adjusting output voltage to 4.5V, max output should not be over
12A.
2. For output specification, please refer to the label on the product or visit
www.sunpower.com.tw
for newly update data.
Protection:
1. Short circuit protection: When short circuit occurs, power supply will shutdown.
After fault condition has been removed, it will recover automatically.
2. Over load protection: When over loaded, power supply will shutdown. After fault
condition has been removed, it will recover automatically.
3. Over voltage protection: When output voltage exceeds normal condition, power
supply will shutdown. After fault condition has been removed, it will recover
automatically.
4. Input polarity reverse protection: Dc input models only.
To Parallel Switching Power Supplies
a. Adjusting output voltage of each power supply to a same level, and then
serialize a diode after the positive pole of each power supply. The diode must be
equipped with a proper heat sink, and its current rating should be higher than
rated output current.
LOAD
2
To Serialize Switching Power Supplies:
a. To up rise output voltage:
Power Supply
INPUT
INPUT
Power Supply
12V
(1)
LOAD
12V
(2)
b. To generate both positive and negative output voltage.
Power Supply
INPUT
INPUT
Power Supply
12V
12V
LOAD
LOAD
(1)
(2)
Wiring:
1. Output wiring must be thick and short enough to carry loading. The shorter and
thicker the wire, the less voltage it drops (less wire loss).
Load
V+
V-
Wire loss
2. Connecting the GND of power supply to system’s chassis with a short-thick wir e
can reduce noise and prevent electric shock.
1. Each power supply is enclosed with a set of screws. It is suggested to use
enclosed screws to setup the power supply, otherwise, make sure its length must
not be too long (refer to drawing of next page) to cause electric short.
2. The input wiring should be separated from output wiring to avoid noise interfere.
3. When multiple power supplies operate together, be sure to keep proper dist ance
between power supply & power supply as well as power supply and the
environment for good air convection. Add cooling fans if needed.
A. Directly mount to system chassis:
C. Mounting holes dimension:
System chassis
2- M3x(4+t)
t = thickness of chassis
System chassis
2- M3x(6+t)
t = thickness of chassis
B. Din rail mounting:(contact your dealer to buy Din Rail brackets if needed)
60-475-076
2- M3x6
60-475-080
3- M3x6
Safety terms:
1. The Y capacitor inside power supply could deliver leakage current. When multiple
power supplies work in parallel or in series, the leakage current will increase to
cause the possibility of getting electric shock. Make sure ground wire is thick
enough to prevent the danger.
2. For AC input switching power supplies, the voltage running through primary circuit
could up to 2~4 times of AC input voltage. It is forbidden for non-technicians toopen the case. Contact your local dealer for technical support if needed.
3. The temperature inside power supply may exceed 85℃ during full loading, so it is
dangerous to touch power supply at this time. Be sure to keep a proper distance
between power supply and combustible material.
Trouble Shooting:
If power supply couldn't work properly, please turn off input power SW, and check the
following steps:
1. Check all the connections (pin in/out correct? polarity correct? etc.)
2. Does terminal well connected? If not, reconnect it, and then turn on input power
again.
3. Check load current. If over loaded, decrease loading, and then turn on power
switch again. (Rated load current show on label)
4. When a sudden interruption of output occurs during adjusting VR, please turn VR
to middle value, and then turn on AC power again.
5. If there is a temporary work followed by power supply shut down, it may cause by a
higher inrush current requirement of the system. Replace a higher output power
supply to meet the system’s requirement.
6. If environmental temperature gets too low or too high?
(1) If the environmental temperature lower than 10℃, take either of the following
steps:
a. Use heater to warm up the environment; or, b. Reduce loading.
(2) If environmental temperature higher than a certain degree, add cooling fan to
force air convection, or reduce loading. (Refer to related specification)
7. When the fuse inside power supply melted, there must be something function
abnormally. Find out the abnormal cause and remove it; and then replace a new
fuse. Make sure the new fuse’s spec must be same as the original.
If all of the above items were checked and power supply still cannot
function normally, please cont act your local dealer for support or e-mail
us: