P-DUKE FED30-24D12W 30 watts output power Datasheet

FEATURES
• 30 WATTS OUTPUT POWER
• OUTPUT CURRENT UP TO 8.5A
• STANDARD 2.00 X 1.00 X 0.40 INCH
• HIGH EFFICIENCY UP TO 91%
• 4:1 ULTRA WIDE INPUT VOLTAGE RANGE
• SIX-SIDED CONTINUOUS SHIELD
• FIXED SWITCHING FREQUENCY
• CE MARK MEETS 2006/95/EC, 93/68/EEC AND 89/336 EEC
• DESIGN MEETS UL60950-1, EN60950-1 AND IEC60950-1
• ISO9001 CERTIFIED MANUFACTURING FACILITIES
• COMPLIANT TO RoHS EU DIRECTIVE 2002/95/EC
OPTIONS
APPLICATIONS
Wireless Network
Telecom/Datacom
Industry Control System
Measurement
Semiconductor Equipment
T E C H N I C A L S P E C I F I C AT I O N
Negative logic Remote On/Off
DESCRIPTION
The FED30W series offer 30 watts of output power from a 2 x 1 x 0.4 inch
package. FED30W series have 4:1 ultra wide input voltage of 9-36 and
18-75VDC. The FED30W have features 1600VDC of isolation, short circuit
protection, over-current protection, over-voltage protection, over-temperature
protection and six sided shielding.
All specifications are typical at nominal input, full load and 25ºC otherwise noted
INPUT SPECIFICATIONS
OUTPUT SPECIFICATIONS
Output power
30 Watts max.
Voltage accuracy
Full load and nominal Vin
Voltage adjustability
Minimum load
Line regulation
Single output
±1%
± 10%
0%
LL to HL at Full Load
± 0.2%
Single
± 0.5%
Load regulation
No load to Full load
Dual
± 1%
Cross regulation (Dual) Asymmetrical load 25% / 100% FL
± 5%
1.5-5.1Vo 100mVp-p
20MHz bandwidth
Ripple and noise
(Measured with a 1uF/50V MLCC) 12-15Vo
150mVp-p
±0.02% / ºC, max.
Temperature coefficient
Transient response recovery time
25% load step change 250μS
1.5V
Output
2.0V
2.5V
Output
3.3V
Over voltage protection 3.3V
Output
3.9V
5.0V & 5.1V & ±5V
Zener diode clamp
Output
6.2V
12V & ±12V
Output
15V
Output
18V
15V & ±15V
Over load protection
% of FL at nominal input
150%, typ.
9 – 36VDC
18 – 75VDC
Input filter
Pi type
Input surge voltage
24V input
50VDC
100mS max
48V input
100VDC
Input reflected ripple current
Nominal Vin and full load
20mAp-p
Nominal Vin and
Power up
30mS, typ.
Start up time
constant resistive load
Remote ON/OFF 30mS, typ.
24V input
9VDC
Start-up voltage
48V input
18VDC
24V input
8VDC
Shutdown voltage
48V input
16VDC
Remote ON/OFF (Note 6)
Open or 3V < Vr < 12V
(Positive logic)(Standard) DC-DC ON
Short or 0V < Vr < 1.2V
DC-DC OFF
Short or 0V < Vr < 1.2V
DC-DC ON
(Negative logic)(Option)
Open or 3V < Vr < 12V
DC-DC OFF
Input current of Remote control pin
Nominal Vin
-0.5mA ~ +0.5mA
Remote off state input current
Nominal Vin
3mA
Input voltage range
24V nominal input
48V nominal input
ENVIRONMENTAL SPECIFICATIONS
-40ºC to +50ºC (without derating)
+50ºC to +85ºC (with derating)
Short circuit protection
Hiccup, automatics recovery
Maximum case temperature
105ºC
GENERAL SPECIFICATIONS
Storage temperature range
-55ºC to +125ºC
Efficiency
See table
Over temperature protection
115ºC, typ
1600VDC, min.
Input to Output
Isolation voltage
Nature convection
12ºC/Watt
1600VDC, min. Thermal impedance
Input (Output) to Case
(Note
7)
Nature
convection
with
heat-sink
10ºC/Watt
Case grounding
Connect case to -Vin with decoupling Y Cap
9
Thermal
shock
MIL-STD-810F
Isolation resistance
10 ohms, min.
MIL-STD-810F
Isolation capacitance
1500pF, max. Vibration
Relative humidity
5% to 95% RH
Switching frequency
430KHz,typ.
EMC
CHARACTERISTICS
Design meets safety standard
IEC60950-1, UL60950-1, EN60950-1
EN55022
Class A
Case material
Nickel-coated copper EMI (Note 8)
Air ± 8KV
Base material
FR4 PCB ESD
EN61000-4-2
Perf. Criteria A
Contact ± 6KV
Potting material
Epoxy (UL94-V0)
Dimensions
Weight
MTBF (Note 1)
2.00 X 1.00 X 0.40 Inch
(50.8X 25.4 X 10.2 mm)
30.5g(1.07oz)
6
3.163 x 10 hrs.
BELLCORE-TR-NWT-000332
5
MIL-HDBK-217F
4.347 x 10 hrs.
Operating ambient temperature
Radiated immunity
EN61000-4-3
10 V/m Perf. Criteria A
Fast transient (Note 9) EN61000-4-4
± 2KV Perf. Criteria A
Surge (Note 9)
EN61000-4-5
± 1KV Perf. Criteria A
Conducted immunity
EN61000-4-6
10 Vr.m.s Perf. Criteria A
Page 1 of 3
Issued Date:2008/07/11
Model
Number
Input
Range
Output
Voltage
FED30-24S1P5W
FED30-24S2P5W
FED30-24S3P3W
FED30-24S05W
FED30-24S5P1W
FED30-24S12W
FED30-24S15W
FED30-24D05W
FED30-24D12W
FED30-24D15W
FED30-48S1P5W
FED30-48S2P5W
FED30-48S3P3W
FED30-48S05W
FED30-48S5P1W
FED30-48S12W
FED30-48S15W
FED30-48D05W
FED30-48D12W
FED30-48D15W
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
9 – 36 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
18 – 75 VDC
1.5 VDC
2.5 VDC
3.3 VDC
5.0 VDC
5.1 VDC
12 VDC
15 VDC
±5VDC
±12VDC
±15VDC
1.5 VDC
2.5 VDC
3.3 VDC
5.0 VDC
5.1 VDC
12 VDC
15 VDC
±5VDC
±12VDC
±15VDC
Output Current
Min. Load
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
Max. Load
8500mA
8000mA
7500mA
6000mA
6000mA
2500mA
2000mA
±3000mA
±1250mA
±1000mA
8500mA
8000mA
7500mA
6000mA
6000mA
2500mA
2000mA
±3000mA
±1250mA
±1000mA
Output (4)
Ripple & Noise
100mVp-p
100mVp-p
100mVp-p
100mVp-p
100mVp-p
150mVp-p
150mVp-p
100mVp-p
150mVp-p
150mVp-p
100mVp-p
100mVp-p
100mVp-p
100mVp-p
100mVp-p
150mVp-p
150mVp-p
100mVp-p
150mVp-p
150mVp-p
Input Current
(3)
(2)
No load
70mA
70mA
70mA
105mA
105mA
20mA
30mA
90mA
25mA
25mA
30mA
45mA
45mA
65mA
65mA
60mA
50mA
50mA
15mA
15mA
Full Load
700mA
1054mA
1258mA
1488mA
1517mA
1471mA
1471mA
1488mA
1506mA
1506mA
350mA
520mA
629mA
744mA
759mA
727mA
718mA
744mA
744mA
744mA
Eff (4)
(%)
Capacitor(5)
Load max.
80
83
86
88
88
89
89
88
87
87
80
84
86
88
88
90
91
88
88
88
20000μF
20000μF
20000μF
14400μF
14400μF
3000μF
2000μF
± 3000μF
± 2000μF
± 1300μF
20000μF
20000μF
20000μF
14400μF
14400μF
3000μF
2000μF
± 3000μF
± 2000μF
± 1300μF
Note
FED30-48S05W Derating Curve
FED30-48S05W Derating Curve with Heat-Sink
120
100
100
OUTPUT POWER (%)
120
80
60
40
20
0
-40
-20
0
20
40
55
60
80
100
80
60
40
20
0
-40
120
-20
AMBIENT TEMPERATURE(℃)
20
40
60
64
80
100
120
FED30-48S05W
Efficiency
VS
Load
FED30-48S05W
Efficiency
VS Output
Output Load
FED30-48S05W
Efficiency
VS
FED30-48S05W
Efficiency VS
InputInput
Voltage voltage
95
0
AMBIENT TEMPERATURE(℃)
90
85
93
80
EFFICIENCY (%)
9.
OUTPUT POWER (%)
2.
3.
4.
5.
6.
7.
8.
BELLCORE TR-NWT-000332. Case I: 50% Stress, Temperature at 40ºC. (Ground fixed and controlled environment)
MIL-STD-217F Notice2 @Ta=25 ºC, Full load (Ground, Benign, controlled environment)
Maximum value at nominal input voltage.
Typical value at nominal input voltage and no load.
Typical value at nominal input voltage and full load.
Test by minimum Vin and constant resistive load.
The ON/OFF control pin voltage is referenced to -Input.
Heat sink is optional and P/N: 7G-0020C-F.
The FED30W series can meet EN55022 Class A with parallel an external capacitor to the input pins.
Recommend: 24Vin : 4.7μF/50V X7R 1812 MLCC.
48Vin : 2.2μF/100V X7R 1812 MLCC.
An external filter capacitor is required if the module has to meet EN61000-4-4,EN61000-4-5.
The filter capacitor Power Mate suggest: 24Vin : Nippon chemi-con KY series, 330μF/50V, ESR 55mΩ.
48Vin : Nippon chemi-con KY series, 220μF/100V, ESR 48mΩ
EFFICIENCY (%)
1.
91
89
87
75
70
65
60
55
85
18
24
30
36
42
48
54
INPUT VOLTAGE (V)
60
66
72
75
50
10
20
30
40
50
60
% of FULL LOAD
Page 2 of 3
70
80
90
100
Issued Date:2008/07/11
Recommended Filter for EN55022 Class A Compliance
1. All dimensions in Inches (mm)
Tolerance: X.XX±0.02 (X.X±0.5)
X.XXX±0.01 (X.XX±0.25)
2. Pin pitch tolerance ±0.01(0.25)
3. Pin dimension tolerance ±0.004 (0.1)
PIN CONNECTION
PIN
SINGLE
DUAL
1
2
3
4
5
6
+ INPUT
- INPUT
CTRL
+ OUTPUT
- OUTPUT
TRIM
+ INPUT
- INPUT
CTRL
+ OUTPUT
COMMON
- OUTPUT
The components used in the above figure, together with the
manufacturers’ part numbers for these components, are as follows:
Single Output
FED30-24S XX W
FED30-48S XX W
C1
6.8μF/50V 1812 MLCC
2.2μF/100V 1812 MLCC
C2 & C3
1000pF/2KV 1808 MLCC
1000pF/2KV 1808 MLCC
Dual Output
FED30-24D XX W
FED30-48D XX W
C1
6.8μF/50V 1812 MLCC
2.2μF/100V 1812 MLCC
C2 & C4
1000pF/2KV 1808 MLCC
1000pF/2KV 1808 MLCC
EXTERNAL OUTPUT TRIMMING
Output can be externally trimmed by using the method
shown below.
TRIM UP
TRIM DOWN
65
64
RU
54
RD
43
Recommended EN55022 Class A Filter Circuit Layout
Page 3 of 3
Issued Date:2008/07/11
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