ECP150 Series
AC-DC Power Supplies
XP Power
150 Watts
• 100 W Convection-cooled
• 150 W Forced-cooled
• 2” x 4”Foot Print
• Single Outputs from 12 V to 48 V
• Built-in Fan Supply
• 60W
115/230 VAC
60
A
230 VAC cold start, 25 °C
230
μA
115/230 VAC/50 Hz (Typ.), 264 VAC/60 Hz (Max.)
0.5
W
F3.15 A/250 V Internal fuse fitted in line and neutral.
Output
Characteristic
Minimum
Output Voltage - V1
Typical
12
Initial Set Accuracy
Output Voltage Adjustment - V1
10
Minimum Load
0
Maximum
Units
Notes & Conditions
48
VDC
See Models and Ratings table
±1
%
V1 at 50% load, 115/230 VAC
%
V1 only via potentiometer. See mech. details,
Vfan will track
A
Start Up Delay
550
ms
Rise Time
35
ms
Hold Up Time
16
20
115/230 VAC full load at 25° C. See fig. 3 & 4.
ms
At full load, 100 VAC, see fig. 5.
Drift
±0.02
%
After 20 min warm up
Line Regulation
±0.5
%
90-264 VAC
Load Regulation
±0.5
%
0-100% load
%
Recovery within 1% in less than 500 μs
for a 50-75% and 75-50% load step
%
Full Load
Transient Response
4
Over/Undershoot
4
Ripple & Noise
1
% pk-pk
Overvoltage Protection
115
140
%
Overload Protection
110
150
% I nom
0.02
%/ ° C
Short Circuit Protection
20 MHz bandwidth & 10 μF electrolytic capacitor
in parallel with 0.1 μF ceramic capacitor, See fig. 6.
Vnom, recycle input to reset
See fig. 1.
Trip and Restart See fig. 2.
Temperature Coefficient
Output Overload Characteristic
Figure. 1
ECP150PS12
ECP150PS24
Over Current Profile
Over Current Profile
110%
130%
100%
24.2
140%
11.9
100Vac
11.7
115Vac
230Vac
11.5
264Vac
11.3
Output Voltage (V)
Output Voltage (V)
100%
12.1
Percent Overload
120%
110%
Percent Overload
120%
130%
140%
24
100Vac
23.8
115Vac
230Vac
23.6
264Vac
23.4
23.2
11.1
12.5
13.75
15
16.25
17.5
6.25
Current (A)
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6.875
7.5
Current (A)
8.125
8.75
2
ECP150 Series
AC-DC Power Supplies
Output
Output Short Circuit Profile
Figure 2
ECP150PS12
ECP150PS24
Output Start Up Time
Output Rise Time
Figure 3
Figure 4
ECP150PS12 100VAC full load
ECP150PS12 100 VAC full load
Output Hold Up Time
Figure 5
ECP150PS12 100VAC 100W load
3
ECP150PS12 100VAC 150W load
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XP Power
ECP150 Series
AC-DC Power Supplies
XP Power
Output
Output Noise & Ripple
Figure 6
ECP150PS12 at 100VAC & 150W load
Low Frequency
High Frequency
General
Characteristic
Minimum
Typical
Efficiency
Isolation: Input to Output
Input to Ground
Output to Ground
Maximum
Units
91
%
Notes & Conditions
230 VAC Full load (see fig. 7 & 8)
4000
VAC
2 MOPP
1500
VAC
1 MOPP
500
VDC
60
kHz
PFC ±10kHz
60
kHz
Main Converters ±10kHz
14.9/9.9
Switching Frequency
Power Density
Mean Time Between Failure
Weight
W/in3
Forced / Convection-cooled
300
kHrs
MIL-HDBK-217F, Notice 2 +25 °C GB
0.51(230)
lb(g)
Efficiency Vs Load
Figure 7
ECP150PS12
Efficiency
100%
90%
100Vac input
115Vac input
230Vac input
80%
264Vac input
70%
10
20
30
40
50
60
70
80
90
100
Load (%)
Figure 8
ECP150PS24
Efficiency
100%
90%
100Vac input
115Vac input
230Vac input
80%
264Vac input
70%
10
20
30
40
50
60
70
80
90
100
Load (%)
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4
ECP150 Series
AC-DC Power Supplies
XP Power
Environmental
Characteristic
Maximum
Units
Operating Temperature
Minimum
-20
Typical
+70
°C
Storage Temperature
-40
+85
°C
Cooling
10
CFM
Forced Cooled > 100W
Humidity
5
95
%RH
Non-condensing
3000
m
Operating Altitude
Notes & Conditions
See derating curve, fig.9
±3 x 30g shocks in each plane, total 18 shocks.
30g = 11ms (+/- 0.5msecs), half sine. Conforms to
EN60068-2-27
Shock
Single axis 10 - 500 Hz at 2g sweep and
endurance at resonance in all 3 planes.
Conforms to EN60068-2-6
Vibration
Temperature Derating Curve
50
0
-40
High Line Only
100
Output Load (%)
Figure 9
-30
0
+50
+70
Ambient Temperature (ºC)
EMC: Emissions
Phenomenon
Conducted
Radiated
Harmonic Current
Standard
Test Level
EN55011/22
Class B
Criteria
EN55011/22
Class A
EN61000-3-2
Class A
Standard
Test Level
Criteria
Notes & Conditions
Class C for loads above 60W
EMC: Immunity
Phenomenon
Voltage Fluctuations
Low Voltage PSU EMC
EN61000-3-3
EN61204-3
High severity level
as below
Radiated Immunity
EN61000-4-3
3
A
EFT/Burst
EN61000-4-4
3
A
Surges
EN61000-4-5
Installation class 3
A
Conducted
EN61000-4-6
3
A
Dip > 95% (0 VAC), 8.3ms
EN61000-4-11
EN55035
(240 VAC)
Dips and Interruptions
EN60601-1-2
(100 VAC
EN60601-1-2
(240 VAC)
5
A
Dip 30% (70 VAC), 416ms
A
Dip > 95% (0 VAC), 4160ms
B
Dip > 95% (0 VAC), 10.0ms
A
Dip 30% (168 VAC), 500ms
A
Dip > 95% (0 VAC), 5000ms
B
Dip > 95% (0 VAC), 10.0ms
A
Dip 60% (40 VAC), 100ms
B
Dip 30% (70 VAC), 500ms
A
Dip > 95% (0 VAC), 5000ms
B
Dip > 95% (0 VAC), 10.0ms
A
Dip 60% (96 VAC), 100ms
A
Dip 30% (168 VAC), 500ms
A
Dip > 95% (0 VAC), 5000ms
B
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Notes & Conditions
ECP150 Series
AC-DC Power Supplies
XP Power
Safety Approvals
Safety Agency
CB Report
UL
EN
Safety Standard
Notes & Conditions
IEC62368-1
Audio/Video, Information and Communication Technology Equipment
IEC60601-1 Ed 3 Including Risk Management
Medical
UL62368-1, CSA 22.2 No.62368-1-07 Ed, 2011-12
Audio/Video, Information and Communication Technology Equipment
ANSI/AAMI ES60601-1:2005 & CSA C22.2, No.60601-1:08
Medical
EN62368-1:2014/A11:2017
Audio/Video, Information and Communication Technology Equipment
EN60601-1/A12:2006
Medical
CE
Meets all applicable directives
UKCA
Meets all applicable legislation
Primary to Secondary
2 x MOPP (Means of Patient Protection)
Primary to Earth
1 x MOPP (Means of Patient Protection)
Means of Protection
Category
IEC60601-1 Ed 3
Mechanical Details & Connectivity
TB1 - Input Connector
Pin 1
Line
Pin 2
Not Fitted
Pin 3
Neutral
4.00 (101.6)
Voltage Adj.
3.75 (95.2)
Mates with JST housing
VHR-3N and JST Series
SVH-21T-P1.1 crimp terminals
1
Mounting holes marked with
must be connected to safety earth
1.75
(44.45)
N
3
L
1
TB1
TB2
TB2 - Output Connector
Pin 1
+Vout
Pin 2
+Vout
Pin 3
+Vout
Pin 4
-Vout
Pin 5
-Vout
Pin 6
-Vout
TB3
1
2.00
(50.8)
6
0.134
(3.4)
Mates with JST housing
VHR-6N and JST Series
SVH-21T-P1.1 crimp terminals
1.16
(29.5)
TB3 - Fan Connector
Pin 1
Fan +
Pin 2
Fan -
Mates with Molex housing
22-01-1022 and 2759 crimp
terminals
0.06 (1.6)
0.10 (2.5)
Notes
1. All dimensions shown in inches (mm). Tolerance: ±0.02 (0.5)
2. Weight: 0.42 lbs (230 g) approx.
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6
ECP150 Series
AC-DC Power Supplies
XP Power
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 K type 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)
Component
Max Temperature °C
TR1 Coil
110°C
L4 Coil
120°C
Q1 Body
120°C
Q2 Body
120°C
C1
105°C
C20
105°C
Service Life
The estimated service life of the ECP150 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 a key capacitor
with in the product when installed by the end application,
The graph below expresses the estimated lifetime of a given component temperature and assumes continuous operation at this
temperature.
Estimated Service Life vs Component Temperature
Figure 10
70000
60000
Lifetime (Hrs)
50000
40000
C20
30000
C1
20000
10000
0
105
95
85
75
65
55
C1 & C20 Temperature (ºC)
7
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20 July 2022
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