XPPOWER VEP08US05

ACDC
836 Watts
xppower.com
VEP Series
•
Efficiency Efficiency Level V (24 W Level IV)
•
CEC2008 & EISA 2007 Compliant
•
IT & Medical Approvals
•
Interchangeable Input Connectors
•
Output Voltages from 5 V to 24 V Available
•
Class II Construction
•
Low Cost
Specification
Input
General
Inrush Current
Power Factor
• 8 & 15W: 80-264 VAC
24 W: 80-264 VAC, derate output power
25% <90 VAC
36 W: 90-264 VAC
• 47-63 Hz
• 8 W: 0.3 A max at 90 VAC
15 W: 0.5 A max at 90 VAC
24 W: 0.6 A max at 90 VAC
36 W: 0.9 A max at 90 VAC
• 70 A max at 230 VAC, cold start at 25 °C
• EN61000-3-2, class A
No Load Input Power
• <0.3 W
Input Voltage
Input Frequency
Input Current
Output
Output Voltage
Initial Set Accuracy
Minimum Load
Start Up Delay
Start Up Rise Time
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•
•
•
•
Hold Up Time
Line Regulation
Load Regulation
Transient Response
•
•
•
•
Ripple & Noise
Overvoltage Protection
Overload Protection
Short Circuit Protection
Temperature
Coefficient
•
•
•
•
•
See tables
±5% at 50% load
No minimum load required
2 s typical
8 & 15 W: 100 ms typical,
24 & 36 W: 50 ms typical
5 ms typical at full load and 115 VAC
±0.5% max
±5% max
4% max. deviation, recovery to <1%
within 500 µs for a 50% step load change
at 0.2 A/µs
See tables
See tables
120-280%
Trip and restart (hiccup mode)
0.2 %/˚C
Efficiency
Energy Efficiency
Isolation
Switching Frequency
MTBF
• See tables
• Level V
Level IV (24 W versions)
• 8 - 24 W: 4000 VAC Input to Output,
36 W: 3000 VAC Input to Output
• 8 & 15 W: 132 kHz typical,
24 & 36 W: 65 kHz typical
• 8 - 24 W: 250 kHrs, 36 W: 200 kHrs
to MIL-HDBK-217F at 25°C, GB
Environmental
Operating Temperature
Cooling
Operating Humidity
Storage Temperature
Shock
Vibration
•
•
•
•
•
0 ˚C to +40 ˚C
Natural convection
5-95% RH, non-condensing
-20 ˚C to +60 ˚C
Able to survive 1 m drop onto concrete on
each of 6 axes
• 10-300 Hz, 1 g 15 mins/sweep. 30 mins
for each of 3 axes
EMC & Safety
Emissions
Harmonic Currents
Voltage Flicker
ESD Immunity
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•
•
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Radiated Immunity
EFT/Burst
Surge
•
•
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Conducted Immunity
Magnetic Field
Dips & Interruptions
•
•
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Safety Approvals
•
EN55022, class B conducted & radiated
EN61000-3-2, class A
EN61000-3-3
EN61000-4-2, ±4 kV contact, ±8 kV air,
Perf Criteria A
EN61000-4-3, 3 V/m, Perf Criteria A
EN61000-4-4, level 2, Perf Criteria A
EN61000-4-5, installation class 3,
Perf Criteria A
EN61000-4-6, 3 V, Perf Criteria A
EN61000-4-8, 1 A/m, Perf Criteria A
EN61000-4-11, 30% 10 ms, 60% 100 ms,
100% 5000 ms, Perf Criteria A, B, B
8 & 15 W: EN60950-1, cUL60950-1,
IEC60950-1, EN60601-1, cUL60601-1,
IEC60601-1;
24 W: EN60950-1, cCSAus60950-1,
IEC60950-1, CSA60950-01-03,
cCSAus60601-1, UL60601-1, IEC60601-1,
CSA C22.2 No601.1,
36 W: IEC60950-1, EN60950-1, UL60950-1
Output Power
Output Voltage(2)
Output Current
8.0 W
5.0 V
1.60 A
8.0 W
9.0 V
0.88 A
8.0 W
12.0 V
8.0 W
Ripple & Noise(1)
Overvoltage Trip(5)
Efficiency(4)
Model Number(3)
150 mV
10.0 V
74%
VEP08US05†^
200 mV
18.0 V
77%
VEP08US09†^
0.66 A
200 mV
20.0 V
77%
VEP08US12†^
15.0 V
0.53 A
200 mV
25.0 V
78%
VEP08US15
10.0 W
5.0 V
2.00 A
50 mV
9.0 V
75%
VEP15US05†^
12.6 W
9.0 V
1.40 A
100 mV
15.0 V
80%
VEP15US09†^
15.0 W
12.0 V
1.25 A
100 mV
20.0 V
82%
VEP15US12†^
15.0 W
15.0 V
0.90 A
150 mV
25.0 V
84%
VEP15US15
15.0 W
24.0 V
0.63 A
200 mV
35.0 V
83%
VEP15US24†^
Notes
1. Measured at end of DC output lead using 20 MHz bandwidth and 0.1 µF ceramic capacitor in parallel with 10 µF electrolytic capacitor placed at connector terminals.
2. VEP08 models: Other voltages between 3.0 V and 18.0 V are available on request, consult sales for details.
VEP15 models: Other voltages between 3.0 V and 24.0 V are available on request, consult sales for details.
3. A suffix denoting the type of mains plug required must be added to the part number. See below.
4. Efficiency given is the average of efficiencies measured with output loads of 25%, 50%, 75% and 100%.
5. VEP08 models: Typical trip point, VEP15 models: Maximum trip point.
† Available from Farnell & element14. See pages 284-290.
^ Available from Newark. See pages 291-296
Mechanical Details
VEP08: 1.06 (26.8)
VEP15: 1.20 (30.5)
VEP08: 2.83 (72.0)
VEP15: 2.95 (75.0)
70.87 ± 10%
(1800 ±10%)
Output Plug: ø 5.5 x ø 2.5 x 11.0 mm Inner Positive
VEP08: 1.67 (42.4)
VEP15: 1.81 (46.0)
Notes
1.
2.
3.
4.
5.
UK
Add suffix ‘-UK’
EU
Add suffix ‘-EU’
China
Add suffix ‘-CN’
USA
Add suffix ‘-US’
Australia
Add suffix ‘-AU’
All dimensions in inches (mm). Tolerance is ±0.04 (±1) maximum, except output cable length.
Weight: VEP08 - 0.18 lbs (80 g) approx., VEP15 - 0.26 lbs (120 g) approx.
Case material is PC Class 94 V-0
Output Lead: UL2468 18-24 AWG
Mains plugs can be ordered separately. Part numbers are: VEP PLUG UK†^, VEP PLUG EU†^, VEP PLUG CN^, VEP PLUG US†^ or VEP PLUG AU^
ACDC
VEP08/15
Models and Ratings
ACDC
VEP24
Models and Ratings
Output Power
Output Voltage(3)
Output Current
Ripple & Noise(1)
Overvoltage Trip(5)
Efficiency(4)
Model Number(2)
12.5 W
5.0 V
2.5 A
100 mV
10.0 V
73%
VEP24US05†^
19.8 W
9.0 V
2.2 A
100 mV
18.0 V
77%
VEP24US09†^
24.0 W
12.0 V
2.0 A
100 mV
20.0 V
78%
VEP24US12†^
24.0 W
15.0 V
1.6 A
100 mV
25.0 V
78%
VEP24US15
24.0 W
24.0 V
1.0 A
100 mV
35.0 V
78%
VEP24US24†^
Notes
1. Measured at end of DC output lead using 20 MHz bandwidth and 0.1 µF ceramic capacitor in parallel with 10 µF electrolytic capacitor placed at connector terminals.
2. A suffix denoting the type of mains plug required must be added to the part number. See below.
3. Other voltages between 3.0 V and 24.0 V are available on request, consult sales for details.
4. Efficiency given is the average of efficiencies measured with output loads of 25%, 50%, 75% and 100%.
5. Typical trip point.
† Available from Farnell & element14. See pages 284-290.
^ Available from Newark. See pages 291-296
Mechanical Details
1.14
(29.0)
3.46
(88.0)
59.0 ± 10%
(1500 ±10%)
Output Plug: ø 5.5 x ø 2.5 x 11.0 mm Inner Positive
1.89
(47.9)
UK
Add suffix ‘-UK’
Notes
1.
2.
3.
4.
5.
EU
Add suffix ‘-EU’
China
Add suffix ‘-CN’
USA
Add suffix ‘-US’
Australia
Add suffix ‘-AU’
All dimensions in inches (mm). Tolerance is ±0.04 (±1) maximum, except output cable length
Weight: 0.35 lbs (160 g) Approx
Case material is PC Class 94 V-0
Output Lead: UL2468 18-24 AWG
Mains plugs can be ordered separately. Part numbers are: VEP PLUG UK†^, VEP PLUG EU†^, VEP PLUG CN^, VEP PLUG US†^ or VEP PLUG AU^
Output Power
Output Voltage(3)
Output Current
Ripple & Noise(1)
Overvoltage Trip(4)
Efficiency(3)
Model Number(2)
27 W
9.0 V
3.0 A
200 mV
25.0 V
82%
VEP36US09†^
36 W
12.0 V
3.0 A
200 mV
28.0 V
84%
VEP36US12†^
36 W
15.0 V
2.4 A
200 mV
28.0 V
84%
VEP36US15†^
36 W
24.0 V
1.5 A
200 mV
42.0 V
84%
VEP36US24†^
Notes
1. Measured at end of DC output lead using 20 MHz bandwidth and 0.1 µF ceramic capacitor in parallel with 10 µF electrolytic capacitor placed at connector terminals.
2. A suffix denoting the type of mains plug required must be added to the part number. See below.
3. Efficiency given is the average of efficiencies measured with output loads of 25%, 50%, 75% and 100%.
4. Typical trip point.
† Available from Farnell & element14. See pages 284-290.
^ Available from Newark. See pages 291-296
Mechanical Details
0.31±0.04
(8.0±1)
2.09±0.04
(53.0±1)
35.43-39.37 (900-1000)
3.90±0.04 (99.0±1)
4.02±0.04 (102.0±1)
Output Plug: ø 5.5 x ø 2.5 x 11.0 mm Inner Positive
1.42±0.04
(36.0±1)
UK
Add suffix ‘-UK’
EU
Add suffix ‘-EU’
China
Add suffix ‘-CN’
USA
Add suffix ‘-US’
Australia
Add suffix ‘-AU’
Notes
1.
2.
3.
4.
5.
All dimensions in inches (mm). Tolerance is ±0.04 (±1) maximum, except output cable length
Weight: 0.57 lbs (260 g) Approx
Case material is PC Class 94 V-0
Output Lead: UL2468 18-24 AWG
Mains plugs can be ordered separately. Part numbers are: VEP PLUG UK†^, VEP PLUG EU†^, VEP PLUG CN^, VEP PLUG US†^ or VEP PLUG AU^
14-Feb-12
ACDC
VEP36
Models and Ratings