Datasheet
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PTB78560A Characteristic Data (V
O
= 5 V)
(5) (6)
0
0
1
10
40
20
30
2 3 5 64
60
50
V
I
=18 V
I
O
− Output Current − A
V
O
− Output Voltage − mV
PP
V
I
=24 V
V
I
=60 V
V
I
=48 V
V
I
=36 V
0
2
0
2
1
3
7
5
6
4
4 6
8
1 53
V
I
=18 V
I
O
− Output Current − A
P
D
− Power Dissipation − W
V
I
=24 V
V
I
=60 V
V
I
=48 V
V
I
=36 V
0
50
45
2
40
55
70
65
60
75
80
5
90
85
95
100
1 3 64
V
I
=18 V
I
O
− Output Current − A
Efficiency − %
V
I
=24 V
V
I
=60 V
V
I
=48 V
V
I
=36 V
40
30
20
70
60
50
90
80
0 1 2 3 5 64
400 LFM
I
O
− Output Current − A
T
A
− Ambient Temperature − °C
200 LFM
100 LFM
0 LFM
(Natural Convection)
40
30
20
70
60
50
90
80
0 1 2 3 5 64
400 LFM
I
O
− Output Current − A
T
A
− Ambient Temperature − °C
200 LFM
100 LFM
0 LFM
(Natural Convection)
PTB78560A , PTB78560B
PTB78560C
SLTS249 – JUNE 2005
TYPICAL CHARACTERISTICS (continued)
EFFICIENCY POWER DISSIPATION OUTPUT VOLTAGE RIPPLE
vs vs vs
OUTPUT CURRENT OUTPUT CURRENT OUTPUT CURRENT
Figure 11. Figure 12. Figure 13.
TEMPERATURE DERATING TEMPERATURE DERATING
vs vs
OUTPUT CURRENT (V
I
= 24 V) OUTPUT CURRENT (V
I
= 48 V)
Figure 14. Figure 15.
(5) All data listed in Figure 11 , , and Figure 12 have been developed from actual products tested at 25°C. This data is considered typical
data for the dc-dc converter.
(6) The temperature derating curves represent operating conditions at which internal components are at or below manufacturer's maximum
rated operating temperature. Derating limits apply to modules soldered directly to a 100–mm × 100–mm, double-sided PCB with 2 oz.
copper. Applies to Figure 14 , and Figure 15 .
10
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