Basic Characteristics Data
Basic Characteristics Data
Model
MG1R5
MGF1R5
MGX1R5
MG3
MGF3
MG6
MGF6
MGX6
MG10
MGF10
MG15
MGF15
MG30
MGF30
Circuit method
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Flyback converter
Forward converter
Forward converter
Switching
frequency
[kHz]
(reference)
Input
current
[A]
Inrush
current
protection
PCB/Pattern
Material
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
glass fabric base,epoxy resin
Single
sided
Double
sided
Series/Parallel
operation availability
Series
operation
Parallel
operation
200-1500
*3
120-1500
*3
60-1000
*3
200-1500
*3
120-1500
*3
160-1500
*3
120-1500
*3
100-1000
*3
160-1500
*3
120-1500
*3
445-495
445-495
380-460
380-460
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
*2
*2
*2
*2
*2
*2
*2
*2
*2
*2
*2
*2
*2
*2
*1
Refer to Specification.
*2
Refer to Instruction Manual.
*3
The value changes depending on input and load.
MG-58
DC-DC Converters PCB Mount Type
Instruction Manual
MG1R5, MG3, MG6, MG10
MG15, MG30
MG-60
MG-60
MG-60
MG-60
MG-60
MG-60
MG-61
MG-61
MG-61
MG-62
MG-62
MG-62
MG-62
MG-63
MG-63
MG-63
MG-63
MG-63
MG-63
MG-63
MG-63
MG-64
MG-64
MG-64
MG-65
MG-65
MG-66
MG-66
MG-67
MG-67
MG-68
MG-68
MG-68
MG-68
MG-68
1 Pin Configuration
2 Function
2.1
2.2
2.3
2.4
2.5
Input Voltage Range
Overcurrent Protection
Isolation
Remote ON/OFF
Output Voltage Adjustment Range
1 Pin Configuration
2 Function
2.1
2.2
2.3
2.4
2.5
2.6
Input Voltage Range
Overcurrent Protection
Overvoltage Protection
Isolation
Output Voltage Adjustment Range
Remote ON/OFF
MG-70
MG-70
MG-70
MG-70
MG-70
MG-71
MG-71
MG-71
MG-71
MG-71
MG-72
MG-72
MG-72
MG-73
MG-73
MG-73
MG-73
MG-73
MG-73
MG-73
MG-74
MG-74
MG-74
MG-74
3 Wiring to Input/Output Pin
3.1
3.2
Wiring input pin
Wiring output pin
3 Wiring to Input/Output Pin
3.1
3.2
Wiring input pin
Wiring output pin
4 Series/Redundancy Operation
4.1
4.2
Series Operation
Redundancy Operation
4 Series/Redundancy Operation
4.1
4.2
Series Operation
Redundancy Operation
5 Input Voltage/Current Range
6 Assembling and Installation
6.1
6.2
6.3
6.4
Installation
Soldering Conditions
Stress to Pin
Cleaning
5 Input Voltage/Current Range
6 Assembling and Installation
6.1
6.2
6.3
6.4
Installation
Soldering Conditions
Stress to Pin
Cleaning
7 Safety Standards
8 Output Derating
8.1
8.2
8.3
8.4
8.5
8.6
8.7
8.8
8.9
8.10
MG1R5 Derating Curve
MG3 Derating Curve
MG6 Derating Curve
MG10 Derating Curve
MGF1R5 Derating Curve
MGF3 Derating Curve
MGF6 Derating Curve
MGF10 Derating Curve
MGX1R5 Derating Curve
MGX6 Derating Curve
7 Safety Standards
8
9
Derating
8.1
8.2
MG15/MGF15 Derating Curve
MG30/MGF30 Derating Curve
Peak Current (Pulse Load)
MG-75
MG-76
MG-77
10 Using DC-DC Converters
11 Note to use ±5V output
12
9
Input Derating
9.1
9.2
MGF3/MGF10 Input Derating
MGX1R5/MGX6 Input Derating
10
Lifetime expectancy depends on
stress by temperature difference
10.1
10.2
Lifetime expectancy depends on
MG-77
stress by temperature difference
12.1
12.2
MG15/MGF15 Lifetime expectancy depends
on stress by temperature difference
MG30/MGF30 Lifetime expectancy depends
on stress by temperature difference
MG-77
MG-77
MG1R5/MG3 Lifetime expectancy depends
on stress by temperature difference
MG-69
MG6/MG10 Lifetime expectancy depends
on stress by temperature difference
MG-69
MG-59
DC-DC Converters PCB Mount Type
MG1R5, MG3, MG6, MG10
Instruction Manual
1 Pin Configuration
Table 1.1 Pin Configuration and Functions(MG1R5/MG3 Single Output)
Pin No. Pin Name
-Vin
1
+Vin
2
+Vout
4
NP
5
TRM
6
-Vout
<Bottom View>
2 Function
2.1 Input Voltage Range
¡If
output voltage value doesn’t fall within specifications, a unit may
not operate in accordance with specifications and/or fail.
Function
-DC Input
+DC Input
+DC Output
No Pin
Output Voltage Adjustment
(Option:Refer to 2.5)
-DC Output
<Bottom View>
2.2 Overcurrent Protection
¡Overcurrent
protection is built-in and comes into effect at over
105% of the rated current.
Overcurrent protection prevents the unit from short circuit and
overcurrent condition. The unit automatically recovers when the
fault condition is cleared.
1 2
4
6
1 2
4 5 6
2.3 Isolation
(a) Standard
(b) Option : Y2
Fig.1.1 Pin Configuration(MG1R5/MG3 Single Output)
Table 1.2 Pin Configuration and Functions(MG1R5/MG3 Dual Output)
Pin No.
1
2
4
5
6
Pin Name
-Vin
+Vin
+Vout
COM
-Vout
Function
-DC Input
+DC Input
+DC Output
GND of Output Voltage
-DC Output
<Bottom View>
¡For
a receiving inspection, such as Hi-Pot test, increase (de-
crease) the voltage gradually for a start (shut down). Avoid using
Hi-Pot tester with timer because it may generate voltage a few
times higher than the applied voltage, at ON/OFF of a timer.
¡In
the case of use in locations exposed to constant voltage be-
tween primary and secondary is applied, please contact us.
2.4 Remote ON/OFF(MG6, MG10)
¡You
can turn the power supply ON or OFF without turning input
power ON or OFF through the pin terminal RC.
¡Please
keep the voltage level of the pin terminal RC(V
RC
) at 9.0V
or below.
Table 2.1 Pin Specification of Remote ON/OFF
1 2
4 5 6
Fig.1.2 Pin Configuration(MG1R5/MG3 Dual Output)
Table 1.3 Pin Configuration and Functions(MG6/MG10)
Pin No. Pin Name
-Vin
1
+Vin
2
RC
3
NC
5
TRM
6
7
8
+Vout
-Vout
COM
NC
-Vout
Function
-DC Input
+DC Input
Remote ON/OFF
No Connect
Output Voltage Adjustment
(Option:Refer to 2.5)
+DC Output
-DC Output (for Single Output)
GND of Output Voltage (for Dual Output)
No Connect (for Single Output)
-DC Output (for Dual Output)
<Bottom View>
Voltage Level of the pin terminal RC (V
RC
)
Open or Short or 0V
[
V
RC
[
0.3V
2.0V
[
V
RC
[
9.0V
MG6/MG10 Output
ON
OFF
+Vin
External
Circuit
RC
3.3k
3.3k
-Vin
Control
Circuit
Fig.2.1 Internal Circuits of Remote ON/OFF
+Vin
+Vin
+Vin
RC
RC
1 2 3
5 6 7 8
RC
(a) Single Output, Dual Output
-Vin
Input 5V
-Vin
Input 12V
-Vin
Input 24, 48V
Fig.1.3 Pin Configuration(MG6/MG10)
Fig.2.2 Examples of Using an External Remote ON/OFF Circuit
MG-60
DC-DC Converters PCB Mount Type
MG1R5, MG3, MG6, MG10
Instruction Manual
2.5 Output Voltage Adjustment Range
¿
-Y2 (Excluding MGW1R5/MGW3/
MGFW1R5/MGFW3/MGXW1R5)
¡The
output voltage is adjustable through an external potentiome-
ter. Adjust only within the range of +10%, -5% of the rated voltage.
¡To
increase the output voltage, turn the potentiometer so that the
resistance value between 2 and 3 becomes small.
¡Please
use a wire as short as possible to connect to the potenti-
ometer and connect it from the pin on the power supply side. Tem-
perature coefficient deteriorates when some types of resistors and
potentiometers are used. Please use the following types.
Resistor
Metal Film Type, Temperature Coefficient of
±100ppm/C or below
Potentiometer Cermet Type, Temperature Coefficient of
±300ppm/C or below
¡In
the case of dual output, ±voltages are adjusted simultaneously.
¡When
the output voltage adjustment is used, note that the output
may be stopped when output voltage is set too high.
3 Wiring to Input/Output
Pin
3.1 Wiring Input Pin
(1) External fuse
¡Fuse
is not built-in on input side. In order to protect the unit, install
the normal-blow type fuse on input side.
¡When
the input voltage from a front end unit is supplied to multiple
units, install the normal-blow type fuse in each unit.
Table 3.1 Recommended fuse (Normal-blow type)
Model
Vin
5
12
24
48
12-24 (MGF)
24-48 (MGF)
12-48 (MGX)
MG1R5
2.0A
1.6A
1.0A
0.8A
1.6A
1.0A
1.6A
MG3
3.15A
2.0A
1.6A
1.0A
2.0A
1.6A
—
MG6
5.0A
2.5A
2.0A
1.6A
2.5A
2.0A
3.15A
MG10
6.3A
3.15A
2.5A
2.0A
3.15A
2.5A
—
+Vout
1
Output
External
Resistor R1
2
External VR Load
+Vout
1
Output
External
Resistor R1
2
External VR
Load
TRM
TRM
COM
-Vout
(2) External capacitor on the input side
¡Basically,
MG series does not need any external capacitor.
Adding a capacitor Ci near the input pin terminal and reduce re-
flected input noise from a converter.
Please connect the capacitor as needed.
¡When
you use a capacitor Ci, please use the one with high fre-
quency and good temperature characteristics.
¡If
the power supply is to be turned ON/OFF directly with a switch,
inductance from the input line will induce a surge voltage several
times that of the input voltage and it may damage the power sup-
ply. Make sure that the surge is absorbed, for example, by con-
necting an electrolytic capacitor between the input pins.
¡If
an external filter containing L (inductance) is added to the input
line, or a wire from the input source to the DC-DC converter is
long, not only the reflected input noise becomes large, but also
the output of the converter may become unstable. In such case,
connecting Ci to the input pin terminal is recommended.
¡If
you use an aluminum electrolytic capacitor, please pay attention
to its ripple current rating.
-Vout
3
External
Resistor R2
(a) Single Output
3
External
Resistor R2
(b) Dual Output
Load
Fig.2.3 Connecting External Devices
Table 2.2 List of External Devices (MG1R5/MG3)
Output Voltage
3.3V
5V
12V
15V
±12V
±15V
Constant of External Device [W]
(Adjustable within +10%, -5%)
VR
R1
R2
1k
680
150
1k
330
330
5k
15k
2.4k
5k
15k
1.2k
Table 2.3 List of External Devices (MG6/MG10)
Output Voltage
3.3V
5V
12V
15V
±12V
±15V
Constant of External Device [W]
(Adjustable within +10%, -5%)
VR
R1
R2
1k
680
150
1k
2.7k
560
5k
15k
2.4k
5k
15k
1.2k
5k
22k
470
5k
27k
470
Input
Ci
Fuse
+Vin
-Vin
Fig3.1 Connecting Example of an External Capacitor to the Input Side
MG-61
DC-DC Converters PCB Mount Type
MG1R5, MG3, MG6, MG10
Instruction Manual
Table 3.2 Recommended Capacitance of an External Capacitor on the Input Side [ F]
Model
Vin
5
12
24
48
12-24 (MGF)
24-48 (MGF)
12-48 (MGX)
MG1R5
10 - 220
10 - 100
10 - 47
10 - 22
10 - 47
10 - 22
10 - 100
MG3
10 - 220
10 - 100
10 - 47
10 - 22
10 - 47
10 - 22
—
MG6
10 - 470
10 - 220
10 - 100
10 - 47
10 - 100
10 - 47
10 - 220
MG10
10 - 1000
10 - 470
10 - 220
10 - 100
10 - 220
10 - 100
—
¡If
the distance between the output and the load is long and there-
fore noise is created on the load side, connect a capacitor exter-
nally to the load as shown below.
+Vin
Input
-Vin
+Vout
Load
-Vout
*Please
adjust the capacitance in accordance with a degree of the
effect you want to achieve.
(3) Reverse input voltage protection
¡If
a reverse polarity voltage is applied to the input pin terminal, the
power supply will fail. If there is a possibility that a reverse polarity
voltage is applied, connect a protection circuit externally as de-
scribed below.
Fuse
Input
Schottky Barrier
Diode
-Vin
+Vin
Fig3.4 Connecting Example
4 Series/Redundancy
Operation
4.1 Series Operation
¡Series
operation is available by connecting the outputs of two or
more power supplies, as shown below. Output current in series
connection should be lower than the lowest rated current in each
unit.
(a)
(b)
Fig3.2 Reverse Input Voltage Protection
3.2 Wiring Output Pin
¡If
you want to further reduce the output ripple noise, connect an
electrolytic capacitor or a ceramic capacitor Co to the output pin
terminal as shown below.
+Vout
Co
-Vout
(a) MGS
-
Load
-
Power
+
Supply
-
Power
+
Supply
-
Fig.4.1 Examples of series operation
+Vout
Load
COM
-Vout
Co
Co
(b) MGW
Load
Load
4.2 Redundancy Operation
¡Parallel
operation is not possible.
¡Redundancy
operation is available by wiring as shown below.
Fig.3.3 Connecting Example of an External Capacitor to the Output Side
Table 3.3 Recommended Capacitance of External Capacitor on the Output Side [ F]
Model
Vout
3.3
5
12
15
±12
±15
MG1R5
0 - 220
0 - 220
0 - 100
0 - 100
0 - 100
0 - 100
MG3
0 - 220
0 - 220
0 - 100
0 - 100
0 - 100
0 - 100
MG6
0 - 220
0 - 220
0 - 100
0 - 100
0 - 100
0 - 100
MG10
0 - 220
0 - 220
0 - 100
0 - 100
0 - 100
0 - 100
Power
Supply
+
-
I
1
I
3
Power
Supply
+
-
I
2
Fig.4.2 Redundancy operation
¡Even
a slight difference in output voltage can affect the balance
between the values of I
1
and I
2
. Please make sure that the value
of I
3
does not exceed the rated current for each power supply.
I
3
[
Rated Current Value
*If
you use a ceramic capacitor, keep the capacitance within the
rage between about 0.1 to 22uF.
*Please
adjust the capacitance in light of the effect you want to
achieve.
*If
you need to use an external capacitor whose capacitance ex-
ceeds the range provided in Table 3.3, please contact us.
MG-62
Load
Load
Load
Power
Supply
+
Power
Supply
+
Power technology
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