XP Power ECP130PS48 Ac-dc power supply Datasheet

ECP130 Series
AC-DC Power Supplies
130 Watts
• 100 W Convection/130 W Forced-cooled Ratings
• 2” by 3” Footprint
• Low 1.1” Profile
• High Efficiency, up to 95%
• Medical and ITE Approvals
• High Power Density
• Less than 0.5 W No Load Input Power
• 3 Year Warranty
The ECP130 series is designed to minimize the no load power consumption and maximize efficiency
to facilitate equipment design to meet the latest environmental legislation. Approved for medical and
ITE applications, this range of single output AC-DC power supplies are packaged in a low profile 1.1”
height with a foot print of just 2” by 3”. The ECP130 provides up to 130 W force-cooled or 100 W
convection-cooled leading to very high power densities of 19.7 W/in3 or 15.1 W/in3 respectively. The
power supply contains two fuses and low leakage currents as required by medical applications and
is safety approved to operate in a 80 °C ambient. The low profile and safety approvals covering ITE
and medical standards along with conducted emissions to EN55011/22 level B allow the versatile
ECP130 series to be used in a vast range of applications.
Dimensions:
ECP130:
3.00 x 2.00 x 1.10” (76.2 x 50.8 x 28.0 mm)
Models & Ratings
Output Current
Convection-cooled
Forced-cooled(1)
Output
Power
Output
Voltage
130 W
12.0 V
8.33 A
130 W
15.0 V
6.66 A
130 W
18.0 V
130 W
Efficiency(2)
Model Number(3)
10.83 A
93%
ECP130PS12
8.66 A
93%
ECP130PS15
5.55 A
7.22 A
93%
ECP130PS18
24.0 V
4.16 A
5.41 A
93%
ECP130PS24
130 W
28.0 V
3.57 A
4.64 A
93%
ECP130PS28
130 W
36.0 V
2.77 A
3.61 A
93%
ECP130PS36
130 W
48.0 V
2.08 A
2.70 A
93%
ECP130PS48
Notes
1. Requires 10 CFM.
2. Typical efficiency measured at full load and 230VAC input.
3. Add suffix ‘-S’ for input and output screw terminals e.g. ECP130PS24-S
Summary
Characteristic
Input Range
Minimum
Typical
Maximum
Units
Notes & Conditions
85
115/230
264
VAC
Derate load from 100% at 90 VAC to 85% at 85 VAC
0.5
W
%
230 VAC (see fig.1 & 2)
+80
°C
See derating curve (fig.3)
No Load Input Power
Efficiency
95
Operating Temperature
Safety Approvals
1
-30
ITE
IEC60950, UL60950-1, CSA 22.2 No.60950-1-11 Ed 2, EN60950-1, LVD
Medical
IEC60601-1 Ed 3.1 Including Risk Management, ANSI/AAMI ES60601-1 & CSA C22.2 No.6061-1:08, EN60601-1
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ECP130 Series
AC-DC Power Supplies
Input
Minimum
Typical
Maximum
Units
Notes & Conditions
85
115/230
264
VAC
Derate output from 100% at 90 VAC to 85% at 85 VAC
Input Frequency
47
50/60
63
Hz
Power Factor
0.8
Characteristic
Input Voltage - Operating
Input Current - Full Load
Inrush Current
Earth Leakage Current
1.3/0.65
A
115/230 VAC
120
A
230 VAC cold start, 25 ºC
115/230 VAC/50 Hz (Typ), 264 VAC/60 Hz (Max)
20/40
No load Input Power
Input Protection
Agency approval, 47-63 Hz
230 VAC, 100% load EN61000-3-2 class A
50
µA
0.5
W
F3.15 A/250 V Internal fuse fitted in line and neutral.
Output - Main Output
Characteristic
Minimum
Output Voltage
12
Typical
Initial Set Accuracy
Maximum
Units
Notes & Conditions
48
VDC
See Models and Ratings table
±1
%
Output Voltage Adjustment
Minimum Load
0
Start Up Delay
Hold Up Time
2
10
None
A
No minimum load required
s
15/11
50% load, 115/230 VAC
%
ms
115/230 VAC full load.
Min at full load, 115 VAC. Typical at 100W/ 130W
Drift
±0.02
%
After 20 min warm up
Line Regulation
±0.5
%
90-264 VAC
Load Regulation
±0.5
%
0-100% load.
Transient Response
4
%
Recovery within 1% in less than 500 µs
for a 50-75% and 75-50% load step
Over/Undershoot
7
%
Full load
Ripple & Noise
1
% pk-pk
Overvoltage Protection
110
140
%
Overload Protection
110
170
% I nom
0.02
%/˚C
<2% from no load to 10% load, <1% above 10% load.
20 MHz bandwidth and 10 µF electrolytic capacitator in
parallel with 0.1 µF ceramic capacitator.
Vnom, recycle input to reset
Short Circuit Protection
Trip & Restart
Temperature Coefficient
General
Characteristic
Minimum
Efficiency
Isolation: Input to Output
Input to Ground
Output to Ground
Switching Frequency
Typical
Maximum
95
%
Weight
Notes & Conditions
230 VAC (see fig. 1 & 2)
4000
VAC
2 MOPP
1500
VAC
1 MOPP
1500
VAC
1 MOPP
kHz
PFC
130
40
50
135
kHz
19.7/15.1
W/in3
Forced/convection-cooled
680
kHrs
MIL-HDBK-217F, Notice 2 +25 °C GB
0.43(195)
lb(g)
Power Density
Mean Time Between Failure
Units
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Main converter
2
ECP130 Series
AC-DC Power Supplies
Efficiency Vs Load
Figure 1
ECP130PS12
12 V at 130 W
100%
95%
90%
115Vac input
85%
Convection-Cooled
Forced-Cooled
9
80%
230Vac input
75%
70%
10
20
30
40
50
60
70
80
90
100
Load (%)
Figure 2
ECP130PS24
24 V at 130 W
100%
95%
90%
115Vac input
85%
Convection-Cooled
Forced-Cooled
230Vac input
80%
75%
70%
10
20
30
40
50
60
70
80
F
90
100
Load (%)
Environmental
Characteristic
Maximum
Units
Operating Temperature
-30
+80
°C
Storage Temperature
-40
+85
Cooling
10
Humidity
5
Operating Altitude
3
Minimum
Typical
Notes & Conditions
See derating curve, fig.3
°C
CFM
Forced-cooled > 100W
95
%RH
Non-condensing
5000
m
Shock
±3 x 30g shocks in each plane, total 18 shocks. 30g = 11ms (+/- 0.5msecs), half sine. Conforms to EN60068-2-27
Vibration
Single axis 10-500 Hz at 2g sweep and endurance at resonance in all 3 planes. Conforms to EN60068-2-6
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ECP130 Series
AC-DC Power Supplies
Temperature Derating Curve
Figure 3
Output Load (%)
100
50
30
0
-30
0
+50
+70
+80
Ambient Temperature (ºC)
EMC: Emissions
Standard
Test Level
Conducted
EN55011/22
Class B
Radiated
EN55011/22
Class A
Harmonic Current
EN61000-3-2
Class A
Voltage Functions
EN61000-3-3
Phenomenon
Criteria
Notes & Conditions
Class B with King Core
KSB RC 13 x 23 x 7 on input cable and
KSB + 25 x 12 x 5 on output cable.
EMC: Immunity
Phenomenon
Medical Device EMC
Low Voltage PSU EMC
Standard
Test Level
Criteria
IEC60601-1-2
Ed.4.0 : 2014
as below
as below
EN61204-3
High severity level
ESD
EN61000-4-2
±8kV contact, ±15kV air
A
Radiated
EN61000-4-3
3
A
A
EFT
EN61000-4-4
3
Surge
EN61000-4-5
Installation class 3
A
Conducted
EN61000-4-6
3
A
Magnetic Fields
EN61000-4-8
4
A
Dip >95% (0 VAC), 8.3 ms
EN55024 (100 VAC)
EN55024 (240 VAC)
Dips and Interruptions
EN60601-1-2 (100 VAC)
A
Dip >95% (0 VAC), 4160 ms
Dip >95% (0 VAC), 10.0 ms
B
A
Dip 30% (168 VAC), 500 ms
A
Dip >95% (0 VAC), 5000 ms
Dip 100% (0 VAC), 10.0 ms
B
Dip 100% (0 VAC), 20 ms
Dip 30% (70 VAC), 500 ms
A
A
A
B
Dip 100% (0 VAC), 5000 ms
B
Dip 100% (0 VAC), 20 ms
A
Dip 100% (0 VAC), 10.0 ms
EN60601-1-2 (240 VAC)
A
Dip 30% (70 VAC), 416 ms
Dip 60% (40 VAC), 100 ms
Dip 60% (96 VAC), 100 ms
Dip 30% ( 168 VAC), 500 ms
Dip 100% (0 VAC), 5000 ms
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Notes & Conditions
Performance criteria A <25 W
A
A
A
B
4
ECP130 Series
AC-DC Power Supplies
Safety Approvals
Safety Agency
Safety Standard
Notes & Conditions
CB Report
IEC60950-1:2005
Information Technology
UL
UL60950-1, CSA 22.2 No.60950-1-11 Ed 2
Information Technology
TUV
EN60950-1
Information Technology
CE
LVD
Safety Agency
Safety Standard
Notes & Conditions
CB Report
IEC60601-1 Ed 3.1 Including Risk Management
Medical
UL
ANSI/AAMI ES60601-1: & CSA C22.2 No.6061-1:08
Medical
CE
EN60601-1
Medical
Isolation
Safety Standard
Notes & Conditions
Primary to Secondary
2 x MOPP (Means of Patient Protection)
Primary to Earth
1 x MOPP (Means of Patient Protection)
Secondary to Earth
1 x MOPP (Means of Patient Protection)
IEC60601-1 Ed 3.1
Mechanical Details
0.
13
(3
.4
)
3.00
(76.2)
2.75
(69.9)
L4
4
1 .7 5
(44.5)
2.00
(50.8)
CN2
CN1 - Input Connector
Pin 1
Line
Pin 2
Not Fitted
Pin 3
Neutral
Mates with JST housing
VHR-4N and JST Series
SVH-21T-P1.1 crimp terminals
1
Mounting hole marked with
must be connected to safety earth
C50
1
CN1
TR1
3
CN2 - Output Connector
C2
0.09
(2.4)
0.06
(1.6)
0.89
(22.5)
0.13
(3.4)
Pin 1
Notes
1. All dimensions shown in inches (mm).
Tolerance: ±0.02 (0.5)
5
2. Weight: 0.43 lbs (195 g) approx.
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Com
Pin 2
Com
Pin 3
+Vout
Pin 4
+Vout
Mates with JST housing
VHR-6N and JST Series
SVH-21T-P1.1 crimp terminals
ECP130 Series
AC-DC Power Supplies
Thermal Considerations
In order to ensure safe operation of the PSU in the end-use equipment, the temperature of the components listed in the table below
must not be exceeded. Temperature should be monitored using thermocouples placed on the hottest part of the component
(out of direct air flow). See Mechanical Details for component locations.
Temperature Measurements (At Maximum Ambient)
Max Temperature °C
Component
TR1 Coil
120°C
L4 Coil
120°C
C2
105°C
C50
105°C
Service Life
The estimated service life of the ECP130 is determined by the cooling arrangements and load conditions experienced in the end
application. Due to the uncertain nature of the end application this estimated service life is based on the actual measured temperature of
key capacitors with in the product when installed by the end application,
The graph below expresses the estimated lifetime based on the temperature of these key components based on the average temperature
over the lifetime of the equipment.
Estimated Service Life vs Component Temperature
Figure 4
80000
70000
60000
Lifetime (Hrs)
50000
C2 & C50
40000
30000
20000
10000
0
105
95
85
75
65
C2 + C52 Temperature (ºC)
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16-Nov-15
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