JC030A-M Lineage Power, JC030A-M Datasheet - Page 15
JC030A-M
Manufacturer Part Number
JC030A-M
Description
CONVERTER DC/DC 5V 30W OUT
Manufacturer
Lineage Power
Series
JC030r
Type
Isolated with Remote On/Offr
Datasheet
1.JC030A-M.pdf
(20 pages)
Specifications of JC030A-M
Output
5V
Number Of Outputs
1
Power (watts)
30W
Mounting Type
Through Hole
Voltage - Input
18 ~ 36V
Package / Case
9-DIP Module
1st Output
5 VDC @ 6A
Size / Dimension
2.40" L x 2.28" W x 0.50" H (61mm x 57.9mm x 12.7mm)
Power (watts) - Rated
30W
Operating Temperature
-40°C ~ 100°C
Efficiency
80%
Approvals
CSA, UL, VDE
Product
Isolated
Output Power
30 W
Input Voltage Range
18 V to 36 V
Input Voltage (nominal)
24 V
Output Voltage (channel 1)
5 V
Output Current (channel 1)
6 A
Isolation Voltage
1.5 KV
Package / Case Size
DIP
Output Type
Isolated
Output Voltage
5 V
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
3rd Output
-
2nd Output
-
4th Output
-
Lead Free Status / Rohs Status
No
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
JC030A-M
Manufacturer:
LUCENT
Quantity:
27
Company:
Part Number:
JC030A-M
Manufacturer:
MITSUBISHI
Quantity:
387
Part Number:
JC030A-M
Manufacturer:
LUCENT
Quantity:
20 000
March 26, 2008
Thermal Considerations
Forced Convection Cooling
Figure 29. JC030B-M Power Dissipation vs. Output
Figure 30. JC030C-M Power Dissipation vs. Output
Lineage Power
6
5
4
3
2
1
0
7
6
5
4
3
2
1
0
0.0 0.2
0.0
Current
Current
0.4
0.5
V
V
I
I
V
V
= 24 V
= 36 V
OUTPUT CURRENT, I
I
I
OUTPUT CURRENT, I
= 36 V
= 27 V
0.6
1.0
0.8
1.0
18 Vdc to 36 Vdc Inputs; 2 Vdc to 15 Vdc Outputs;13 W to 30 W
1.5
1.2
(continued)
O
(continued)
O
V
(A)
V
I
(A)
1.4
I
= 18 V
= 18 V
2.0
1.6
1.8
8-1212(C).a
8-1211(C)
2.5
2.0
Figure 31. Forced Convection Power Derating with
Heat Sink Selection
Several heat sinks are available for these modules.
The case includes through threaded mounting holes
allowing attachment of heat sinks or cold plates from
either side of the module. The mounting torque must
not exceed 0.56 N-m (5 in.-lb.).
Figure 32 shows the case-to-ambient thermal resis-
tance, θ (°C/W), for these modules. These curves can
be used to predict which heat sink will be needed for a
particular environment. For example, if the unit dissi-
pates 7 W of heat in an 80 °C environment with an air-
flow of 0.66 ms
required can be determined as follows:
where:
θ ð (100 – 80)/7
θ ð 2.9 °C/W
From Figure 32, the 1/2 inch high heat sink or greater
is required.
9
8
7
6
5
4
3
2
1
0
T
30
C, max
P
T
400 ft./min. (2.03 m/s)
200 ft./min. (1.02 m/s)
100 ft./min. (0.51 m/s)
No Heat Sink; Either Orientation
θ = module’s total thermal resistance
A
D
40
LOCAL AMBIENT TEMPERATURE, T
= case temperature (See Figure 26.)
= inlet ambient temperature
= power dissipation
–1
CONVECTION
θ
(130 ft./min.), the minimum heat sink
(See Figure 26.)
≤
50
NATURAL
(
T
C max
,
60
–
T
70
A
) P
⁄
D
80
A
(˚C)
90
8-1051(C).a
100
15
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