English
Language : 

H0505D-2W Datasheet, PDF (2/2 Pages) MORNSUN Science& Technology Ltd. – DUAL/SINGLE OUTPUT DC-DC CONVERTER
OUTPUT SPECIFICATIONS
Item
Test conditions
Min Typ Max Units
Output power
Line regulation
For Vin change of 1%
0.2
2
W
±1.2
5V output
10 15
Load regulation
9V output
10% to 100% load
12V output
8.3 15
%
6.8 15
15V output
6.3 15
Output voltage accuracy
Temperature drift
100% full load
See tolerance envelope graph
0.03 %/°C
Ripple & Noise*
20MHz Bandwidth
150 250 mVp-p
Switching frequency
Full load,
nominal input
5V input
12V,24V input
35
50
KHz
*Test ripple and noise by “parallel cable” method. See detailed operation instructions at Testing of Power
Converter section, application notes.
Note: Dual output models unbalanced load: ±5%.
TYPICAL CHARACTERISTICS
Ambient Temperature ( C )
OUTLINE DIMENSIONS & PIN CONNECTIONS
First Angle Projection
( Side View)
RECOMMENDED FOOTPRINT
Top view,grid:2.54mm(0.1inch)
d i a m e t e r :1 . 0 0 m m( 0 . 0 3 9 in c h )
12
8 9 11
( Bottom View)
Single/Dual Ouput
17 16 15 14 13
17 16 15 14 13
2.54(0.100)
27.94(1.100)
32.30(1.272)
12
8 9 11
16.65(0.656)
Note:
Unit:mm(inch)
Pin section:0.50*0.30mm(0.020*0.012inch)
Pin section tolerances: 0.10mm( 0.004inch)
General tolerances: 0.25mm( 0.010inch)
FOOTPRINT DETAILS
Pin
Single
1
Vi n
2
GND
NC
0V
12,13
+Vo
Others
NC
NC: No connection
Dual
Vin
GND
-Vo
0V
+Vo
NC
APPLICATION NOTE
Requirement on output load
To ensure this module can operate efficiently and reliably, During operation, the minimum
output load is not less than 10% of the full load, and that this product should never be
operated under no load! If the actual output power is very small, please connect a resistor
with proper resistance at the output end in parallel to increase the load, or use our
company’s products with a lower rated output power(G/H_D-1W Series)
Recommended testing and application circuit
If you want to further decrease the input/output
ripple, an “LC” filtering network may be connected
to the input and output ends of the DC/DC
converter, see (Figure 1).
Dual Output
L
L
Vin
+Vo
Cout
Cin
GND
DC DC
L Cout
0V
-Vo
Single Output
L
Vin
L
+Vo
Cin
DC DC
Cout
GND
0V
(Figure 1)
It should also be noted that the inductance and
the frequency of the “LC” filtering network should
be staggered with the DC/DC frequency to avoid
mutual interference. However, the capacitance of
the output filter capacitor must be proper. If the
capacitance is too big, a startup problem might
arise. For every channel of output, provided the
safe and reliable operation is ensured, the
greatest capacitance of its filter capacitor sees
(Table 1).
EXTERNAL CAPACITOR TABLE (Table 1)
Vin Cin Single Cout Dual Cout
(VDC) (uF) Vout (uF) Vout (uF)
(VDC)
(VDC)
5
4.7
5
10
±5 4.7
12 2.2
9
4.7
±9
2.2
24
1
12
2.2 ±12
1
-
-
15
1
±15
1
It’s not recommended to connect any external capacitor
in the application field with less than 0.5 watt output.
Output Voltage Regulation and Over-voltage
Protection Circuit
The simplest device for output voltage
regulation, over-voltage and over-current
protection is a linear voltage regulator with
overheat protection that is connected to the input
or output end in series (Figure 2).
Dual Output
Vin
REG
REG
+Vo
DC DC
0V
GND
REG
-Vo
Single Output
Vin
REG
REG
+Vo
DC DC
GND
0V
(Figure 2)
Overload Protection
Under normal operating conditions, the output
circuit of these products has no protection against
overload. The simplest method is to connect a
self-recovery fuse in series at the input end or add
a circuit breaker to the circuit.
No parallel connection or plug and play.
Note:
1.All specifications measured at Ta=25°C, humidity<75%,
nominal input voltage and rated output load unless
otherwise specified.
2.Only typical models listed, other models may be
different, please contact our technical person for more
details.
3.Operation under minimum load will not damage the
converter; However, they may not meet all specification
listed.
The copyright and authority for the interpretation of the products are reserved by Mornsun
Specifications subject to change without notice.
G_D-2W & H_D-2W A/3-2008 Page 2 of 2