Output (4) (5)
Eff (4)
(%)
Output Current
Input Current
Model
Number
Input
Range
Output
Voltage
Line
Load
No Load (3) Full Load (2)
Regulation Regulation Ripple & Noise
Min. load Full load
HAE75-24S3P3W 9 – 36 VDC 3.3 VDC
HAE75-24S05W 9 – 36 VDC 5 VDC
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
0mA
20 A
15 A
6.3 A
5 A
3.2 A
2.7 A
1.6 A
20 A
15 A
6.3 A
5 A
7mV
10mV
24mV
30mV
48mV
56mV
96mV
7mV
10mV
24mV
30mV
48mV
56mV
96mV
10mV
15mV
30mV
38mV
48mV
56mV
72mV
10mV
15mV
30mV
38mV
48mV
56mV
72mV
75mVp-p
75mVp-p
100mA
185mA
185mA
185mA
85mA
85mA
85mA
80mA
90mA
90mA
90mA
50mA
50mA
50mA
3.216 A
3.613 A
3.642 A
3.613 A
3.743 A
3.684 A
3.743 A
1.590 A
1.766 A
1.780 A
1.786 A
1.850 A
1.821 A
1.871 A
87
88
88
88
87
87
87
88
90
90
89
88
88
87
HAE75-24S12W 9 – 36 VDC 12 VDC
HAE75-24S15W 9 – 36 VDC 15 VDC
HAE75-24S24W 9 – 36 VDC 24 VDC
HAE75-24S28W 9 – 36 VDC 28 VDC
HAE75-24S48W 9 – 36 VDC 48 VDC
HAE75-48S3P3W 18 – 75 VDC 3.3 VDC
HAE75-48S05W 18 – 75 VDC 5 VDC
HAE75-48S12W 18 – 75 VDC 12 VDC
HAE75-48S15W 18 – 75 VDC 15 VDC
HAE75-48S24W 18 – 75 VDC 24 VDC
HAE75-48S28W 18 – 75 VDC 28 VDC
HAE75-48S48W 18 – 75 VDC 48 VDC
100mVp-p
100mVp-p
200mVp-p
200mVp-p
300mVp-p
75mVp-p
75mVp-p
100mVp-p
100mVp-p
200mVp-p
200mVp-p
300mVp-p
3.2 A
2.7 A
1.6 A
Note
1. BELLCORE TR-NWT-000332. Case 1: 50% Stress, Temperature at 40℃.
MIL-HDBK-217F Notice2 @Ta=25℃, Full load(Ground, Benign, controlled environment).
2. Maximum value at nominal input voltage and full load.
3. Typical value at nominal input voltage and no load.
4. Typical value at nominal input voltage and full load.
5. The ripple and noise of output voltage 48V is measured with a 2.2μF/100V X7R MLCC;
The ripple and noise of other output voltage is measured with a 4.7μF/50V X7R MLCC.
6. The remote ON/OFF control pin voltage is referenced to –Vin. The positive logic and pin length are optional.
To order positive logic ON-OFF control add the suffix -P (Ex: HAE75-48S05W-P).
V
(100 + Δ%
)
(
100 + 2Δ%
)
⎛
⎞
OUT
7. Output voltage is adjustable for 10% trim up or -20% trim down of nominal output voltage
by connecting a single resistor between TRIM and +SENSE pins for trim up or between
TRIM and –SENSE pins for trim down. To calculate the value of the resistor RU and RD
for a particular output voltage uses the following equation:
RU
=
−
KΩ
⎜
⎜
⎟
⎟
1.225Δ%
Δ%
⎝
⎠
100
⎛
⎞
RD
=
− 2 KΩ
⎜
⎟
Δ%
⎝
⎠
8. Maximum output deviation is +10% inclusive of remote sense. If remote sense is not being used, the +SENSE should be connected to its
corresponding +OUTPUT and likewise the -SENSE should be connected to its corresponding –OUTPUT.
9. Internal fusing is not included, so we suggest to use an input line fuse.
10. Test condition with vertical direction by natural convection (20LFM).
11. Heat sink is optional and P/N: 7G-0021A-F , 7G-0022A-F , 7G-0023A-F , 7G-0024A-F.
12. The HAE75W series meets EMC characteristics only with external components connected before the input pin to the converter. If customer only
need to meet EN61000-4-4 and EN61000-4-5, an external input filter capacitor is required
The filter capacitor Power Mate suggest: Nippon chemi-con KY series, 220μF /100V, ESR 48mΩ.
13. CASE GROUNDING:When you connect the case pin and the four screw bolts to shield plane, the EMI could be better reduced.
14. An external input capacitor is recommended for 24Vin model. Power Mate suggest: 4.7μF/50V X7R MLCC or Nippon chemi-con KY series,
68μF /100V, ESR 110mΩ or better capacitor. For terminal block version, the capacitor has included in as standard, it isn’t required external
capacitor.
HAE75-48S05W Derating Curve
HAE75-48S05W Derating Curve
With 0.45" Height Heat-sink (Note 11 )
HAE75-48S05W Derating Curve
With 0.24" Height Heat-sink (Note 11 )
100
80
60
40
20
0
100
80
60
40
20
0
100
80
60
40
20
0
Natural convection (20LFM)
100LFM
Natural convection (20LFM)
100LFM
Natural convection (20LFM)
100LFM
200LFM
200LFM
200LFM
300LFM
300LFM
300LFM
400LFM
400LFM
400LFM
500LFM
500LFM
500LFM
-40
-20
0
20
40
60
80
100
-40
-20
0
20
40
60
80
100
-40
-20
0
20
40
60
80
100
AMBIENT TEMPERATURE (℃)
AMBIENT TEMPERATURE (℃)
AMBIENT TEMPERATURE (℃)
HAE75-48S05W
Efficiency VS Input Voltage
HAE75-48S05W
Efficiency VS Output Load
92
100
95
90
85
80
75
70
65
60
55
50
90
88
86
84
82
80
18
24
30
36
42
48
54
60
66
72
10
20
30
40
50
60
70
80
90
100
INPUT VOLTAGE (V)
OUTPUT LOAD (% of Full Load)
2
Page 2 of 5 Issued Date:2009/01/13