• These low noise power supplies are FCC class B compliant.
PART NUMBERS AND RATINGS
Output voltage(V)
5
12
15
24
3W type
Current(A)
0.06 to 0.6
0.02 to 0.25
0.02 to 0.2
0.01 to 0.13
Part No.
FMP05-R60
FMP05-R60B
FMP12-R25
FMP12-R25B
FMP15-R20
FMP15-R20B
FMP24-R13
FMP24-R13B
FMP, FMP-B Series
10W type
Current(A)
0.2 to 2
0.08 to 0.85
0.07 to 0.7
0.04 to 0.45
Part No.
FMP05-2R0
FMP05-2R0B
FMP12-R85
FMP12-R85B
FMP15-R70
FMP15-R70B
FMP24-R45
FMP24-R45B
TERMINAL DESIGNATIONS AND FUNCTIONS
V.ADJ
1
+
DC OUTPUT
5V
–
2A
POWER SUPPLY
FMP05-2R0
2
3
4
NC
100-120Vac
50-60Hz
L
0.35A
AC INPUT
N
Terminal No. 1: DC output terminals(+, –)
Connect to load.
Terminal No. 2: No connection(NC)
Unconnected terminal. This should not be
connected.
Terminal No. 3: Ground terminal( )
For input line.
Terminal No. 4: AC input terminals(L, N, AC INPUT)
Connect to AC.100 to 120V single phase power
supply.
Specifications which provide more details for the proper and safe use of the described product are available upon request.
All specifications are subject to change without notice.
Power Supplies
AC Input
Single Output, General-Purpose
SPECIFICATIONS
3W TYPE
Part No.
Output voltage, current
∗
2
Maximum output power
W
Input requirements
Input voltage Eac
V
Input frequency
Hz
Input current
A
Surge current
A
Leakage current
mA
Efficiency
%
Output characteristics
Output voltage
V
Voltage variable range
V
A
Maximum output current
∗
2
∗
3
A
Minimum output current
Overcurrent threshold
A
Input variation
%
Load variation
%
Voltage
Temperature
%
stability
variation
Drift
%
Dynamic load
%/ms
Ripple Ep-p
mV
Ripple noise Ep-p
mV
Start up time
ms
Hold up time
ms
Accessory equipment
Operation indicator
Overvoltage protection
Overcurrent protection
Remote ON-OFF
Remote sensing
Output voltage external variable function
Standards
Safety standards
Noise terminal voltage
Construction
External dimensions H×W×L
mm
Weight
g
Mounting method
Case material
Input and output cables
∗
1
Output
∗
3
∗
4
∗
2
Current
FMP, FMP-B Series
FMP05-R60
∗
1
FMP05-R60B
∗
1
5V • 0.6A
3
FMP12-R25
FMP12-R25B
12V • 0.25A
3
FMP15-R20
FMP15-R20B
15V • 0.2A
3
FMP24-R13
FMP24-R13B
24V • 0.13A
3.1
85 to 132[Rating: 100-120]
47 to 440[Single phase]
0.08typ.[85V, 25°C, input and output ratings](Output rating: 0.1max.)
16max.[25°C, input and output ratings, cold start]
0.5max.[25°C, input and output ratings]
68typ.
70typ.
70typ.
5
12
4.5 to 5.5
10.8 to 13.2
0.6
0.25
0.06
0.02
0.7 to 1.2
0.3 to 0.5
0.1typ.[Within the input voltage range]
0.8typ.[10 to 100% load]
1typ.[0 to +50°C]
1max.[25°C, input and output ratings, after input voltage ON for 30min to 8h]
±4max./1max.[50 to 100% sudden load change]
50max.
80max.
80max.
100max.
150max.
150max.
100max.
20min.
None
Uses overvoltage prevention
∗4
Fixed voltage threshold type, automatic recovery.
None
None
None
UL478, CSA ELECTRICAL BULLETIN No.1402 approved.
FCC class B compliant.
19×55×50[Except input and output terminals]
80max.
Can be attached to 1 side.
Nonflammable resin
None
15
13.5 to 16.5
0.2
0.02
0.25 to 0.4
74typ.
24
21.6 to 26.4
0.13
0.01
0.15 to 0.3
Total variation ±3max.(±1typ.)
100max.
150max.
may fail to come on when operated in series.
rating(maximum output current) is determined for 0 to +50°C. Derating is required when used outside this temperature range.
The output load variation is determined within the range set by the minimum output current and the maximum output current. Nominal values might pos-
sibly not be satisfied when output is below the minimum output current.
Although there is no built-in overvoltage protection circuit, the overvoltage prevention method is used for circuit design, thereby preventing overvoltage.
Specifications which provide more details for the proper and safe use of the described product are available upon request.
All specifications are subject to change without notice.
Power Supplies
AC Input
Single Output, General-Purpose
SPECIFICATIONS
10W TYPE
Part No.
Output voltage, current
∗2
Maximum output power
Input requirements
Input voltage Eac
Input frequency
Input current
Surge current
Leakage current
Efficiency
Output characteristics
Output voltage
Voltage variable range
Maximum output current
∗2
Minimum output current
∗3
Overcurrent threshold
Input variation
Load variation
Voltage
Temperature
stability
variation
Drift
Dynamic load
Ripple Ep-p
Ripple noise Ep-p
Start up time
Hold up time
Accessory equipment
Operation indicator
Overvoltage protection
Overcurrent protection
Remote ON-OFF
Remote sensing
Output voltage external function
Standards
Safety standards
Noise terminal voltage
Construction
External dimensions H×W×L
Weight
Mounting method
Case material
Input and output cables
∗1
Output
∗2
FMP, FMP-B Series
W
V
Hz
A
A
mA
%
V
V
A
A
A
%
%
%
%
%/ms
mV
mV
ms
ms
FMP05-2R0
∗1
FMP05-2R0B
∗1
5V • 2A
10
FMP12-R85
FMP12-R85B
12V • 0.85A
10.2
FMP15-R70
FMP15-R70B
15V • 0.7A
10.5
FMP24-R45
FMP24-R45B
24V • 0.45A
10.8
85 to 132[Rating: 100-120]
47 to 440[Single phase]
0.25typ.[85V, 25°C, input and output ratings](Output ratings: 0.35max.)
16max.[25°C, input and output ratings, cold start]
0.5max.[25°C, input and output ratings]
75typ.
78typ.
78typ.
5
12
4.5 to 5.5
10.8 to 13.2
2
0.85
0.2
0.08
2.2 to 3.3
0.9 to 1.4
0.1typ.[Within the input voltage range]
0.8typ.[10 to 100% load]
1typ.[0 to +50°C]
1max.[25°C, input and output ratings, after input voltage ON for 30min to 8h]
±4max./1max.[50 to 100% sudden load change]
50max.
80max.
80max.
100max.
150max.
150max.
100max.
20min.
None
Uses overvoltage prevention
∗4
Fixed voltage threshold type, automatic recovery.
None
None
None
UL478, CSA ELECTRICAL BULLETIN No.1402 approved.
FCC class B compliant.
15
13.5 to 16.5
0.7
0.07
0.75 to 1.2
81typ.
24
21.6 to 26.4
0.45
0.04
0.5 to 0.8
Total variation ±3max.(±1typ.)
100max.
150max.
mm
g
19×55×80[Except input and output terminals]
100max.
Can be attached to 1 side.
Nonflammable resin
None
may fail to come on when operated in series.
Current rating(maximum output current) is determined for 0 to +50°C. Derating is required when used outside this temperature range.
∗3
The output load variation is determined within the range set by the minimum output current and the maximum output current. Nominal values
might possibly not be satisfied when output is below the minimum output current.
∗4
Although there is no built-in overvoltage protection circuit, the overvoltage prevention method is used for circuit design, thereby preventing overvoltage.
A122_FMP
980403
Specifications which provide more details for the proper and safe use of the described product are available upon request.
All specifications are subject to change without notice.
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