CSM_S8VM_DS_E_12_5
1
Switch Mode Power Supply
S8VM (15/30/50/100/150/300/600/1,500-W Models)
Power Supply Featuring OMRON’s Unique, New Undervoltage Alarm Function with
Compact Body Contributing to Machine Downsizing
New undervoltage alarm function assists in determining causes of errors (S8VM-@@@24A@/P@ only).
Power failure alarm function provides notification of output voltage errors (300-, 600-, and 1,500-W models only).
Broad range of possibilities with 8 capacities and 29 models to choose from.
RoHS-compliant
New, attentive design prevents screws from falling out of terminal block (except for output terminals of 300-, 600-, and 1,500-W models).
Finger protection prevents electric shock.
DIN Rail mounting.
Safety standards: UL508/60950-1, CSA C22.2 No. 14/No. 60950-1, EN50178, EN60950-1 (The 300-, 600-, and 1,500-W models
will not conform to safety standards if the customer replaces the fan.)
Conforms to SEMI F47-0200 (when 200-V input is used).
Harmonic current emissions: Conforms to EN61000-3-2 (except for 15- and 30-W models).
!Refer to Safety Precautions for All Power Supplies and Safety Precautions on page 34.
For the most recent information on models that have been certified for
safety standards, refer to your OMRON website.
Model Number Structure
Model Number Legend
Note: Not all combinations are possible. Refer to List of Models in Ordering Information on page 2.
Note: 1. A forced-air cooling method with a fan is used with 300-, 600-, and 1,500-W models.
2. The housing and terminal of the connector for the undervoltage alarm output are provided with the S8VM-05024A@/P@, S8VM-
10024A@/P@ and S8VM-15024A@/P@.
3. Bottom mounting models cannot be used for front mounting. For a front mounting configuration, use a DIN Rail Mounting Bracket model
or Mounting Brackets (sold separately).
12
34
S8VM- @@@@@@@
1. Power Ratings
015: 15 W
030: 30 W
050: 50 W
100: 100 W
150: 150 W
300: 300 W
600: 600 W
152: 1,500 W
2. Output Voltage
05: 5 V
12: 12 V
15: 15 V
24: 24 V
3. Configuration/Functions
None: Open-frame type Standard type
C: Covered type Standard type
A: Covered type Undervoltage alarm type
(Sinking (emitter COM))
(See note 2.)
P: Covered type Undervoltage alarm type
(Sourcing (collector COM))
(See note 2.)
4. Configuration
None: Bottom mounting type (See note 3.)
D: DIN Rail mounting bracket type
S8VM
2
Ordering Information
List of Models
Note: For details on normal stock models, contact your nearest OMRON representative.
Note: 1. The output capacity of the S8VM-15005@@ is 135 W.
2. M8 bolts and nuts for the output terminals are not included with the S8VM-15224C.
3. To perform front mounting using the bottom mounting models, use the Mounting Brackets (S82Y-VM@@F, sold separately).
4. The input voltage is 100 to 240 VAC for all models.
Covered type
Configuration Power ratings Output voltage Output current Model
DIN Rail mounting bracket 15 W 5 V 3 A S8VM-01505CD
12 V 1.3 A S8VM-01512CD
15 V 1 A S8VM-01515CD
24 V 0.65 A S8VM-01524CD
30 W 5 V 6 A S8VM-03005CD
12 V 2.5 A S8VM-03012CD
15 V 2 A S8VM-03015CD
24 V 1.3 A S8VM-03024CD
50 W 5 V 10 A S8VM-05005CD
12 V 4.3 A S8VM-05012CD
15 V 3.5 A S8VM-05015CD
24 V 2.2 A S8VM-05024CD
100 W 5 V 20 A S8VM-10005CD
12 V 8.5 A S8VM-10012CD
15 V 7 A S8VM-10015CD
24 V 4.5 A S8VM-10024CD
150 W 5 V 27 A S8VM-15005CD (See note 1.)
12 V 12.5 A S8VM-15012CD
15 V 10 A S8VM-15015CD
24 V 6.5 A S8VM-15024CD
Bottom mounting
(The 300-, 600-, and 1,500-W
models use a forced cooling
method with built-in fans.)
15 W 5 V 3 A S8VM-01505C
12 V 1.3 A S8VM-01512C
15 V 1 A S8VM-01515C
24 V 0.65 A S8VM-01524C
30 W 5 V 6 A S8VM-03005C
12 V 2.5 A S8VM-03012C
15 V 2 A S8VM-03015C
24 V 1.3 A S8VM-03024C
50 W 5 V 10 A S8VM-05005C
12 V 4.3 A S8VM-05012C
15 V 3.5 A S8VM-05015C
24 V 2.2 A S8VM-05024C
100 W 5 V 20 A S8VM-10005C
12 V 8.5 A S8VM-10012C
15 V 7 A S8VM-10015C
24 V 4.5 A S8VM-10024C
150 W 5 V 27 A S8VM-15005C (See note 1.)
12 V 12.5 A S8VM-15012C
15 V 10 A S8VM-15015C
24 V 6.5 A S8VM-15024C
300 W 5 V 60 A S8VM-30005C
12 V 27 A S8VM-30012C
15 V 22 A S8VM-30015C
24 V 14 A
Peak current:
16.5 A (200 VAC)
S8VM-30024C
600 W 5 V 120 A S8VM-60005C
12 V 53 A S8VM-60012C
15 V 43 A S8VM-60015C
24 V 27 A
Peak current:
31 A (200 VAC)
S8VM-60024C
1,500 W 24 V 65 A (100 VAC)
70 A (200 VAC)
Peak current:
105 A (200 VAC)
S8VM-15224C (See note 2.)
S8VM
3
Note: 1. To perform front mounting using the bottom mounting models, use the Mounting Brackets (S82Y-VM@@F, sold separately).
2. The input voltage is 100 to 240 VAC for all models.
Undervoltage Alarm Function Model with Cover
Configuration Power ratings Output voltage Output current Undervoltage alarm model Model
DIN Rail mounting bracket 15 W 24 V 0.65 A --- S8VM-01524AD
30 W 1.3 A --- S8VM-03024AD
50 W 2.2 A Sinking S8VM-05024AD
Sourcing S8VM-05024PD
100 W 4.5 A Sinking S8VM-10024AD
Sourcing S8VM-10024PD
150 W 6.5 A Sinking S8VM-15024AD
Sourcing S8VM-15024PD
Bottom mounting 15 W 24 V 0.65 A --- S8VM-01524A
30 W 1.3 A --- S8VM-03024A
50 W 2.2 A Sinking S8VM-05024A
Sourcing S8VM-05024P
100 W 4.5 A Sinking S8VM-10024A
Sourcing S8VM-10024P
150 W 6.5 A Sinking S8VM-15024A
Sourcing S8VM-15024P
S8VM
4
Note: 1. The output capacity of the S8VM-15005@@ is 135 W.
2. To perform front mounting using the bottom mounting models, use the Mounting Brackets (S82Y-VM@@F, sold separately).
3. The input voltage is 100 to 240 VAC for all models.
Open-frame type
Configuration Power ratings Output voltage Output current Model
DIN Rail mounting bracket 15 W 5 V 3 A S8VM-01505D
12 V 1.3 A S8VM-01512D
15 V 1 A S8VM-01515D
24 V 0.65 A S8VM-01524D
30 W 5 V 6 A S8VM-03005D
12 V 2.5 A S8VM-03012D
15 V 2 A S8VM-03015D
24 V 1.3 A S8VM-03024D
50 W 5 V 10 A S8VM-05005D
12 V 4.3 A S8VM-05012D
15 V 3.5 A S8VM-05015D
24 V 2.2 A S8VM-05024D
100 W 5 V 20 A S8VM-10005D
12 V 8.5 A S8VM-10012D
15 V 7 A S8VM-10015D
24 V 4.5 A S8VM-10024D
150 W 5 V 27 A S8VM-15005D (See note 1.)
12 V 12.5 A S8VM-15012D
15 V 10 A S8VM-15015D
24 V 6.5 A S8VM-15024D
Bottom mounting 15 W 5 V 3 A S8VM-01505
12 V 1.3 A S8VM-01512
15 V 1 A S8VM-01515
24 V 0.65 A S8VM-01524
30 W 5 V 6 A S8VM-03005
12 V 2.5 A S8VM-03012
15 V 2 A S8VM-03015
24 V 1.3 A S8VM-03024
50 W 5 V 10 A S8VM-05005
12 V 4.3 A S8VM-05012
15 V 3.5 A S8VM-05015
24 V 2.2 A S8VM-05024
100 W 5 V 20 A S8VM-10005
12 V 8.5 A S8VM-10012
15 V 7 A S8VM-10015
24 V 4.5 A S8VM-10024
150 W 5 V 27 A S8VM-15005 (See note 1.)
12 V 12.5 A S8VM-15012
15 V 10 A S8VM-15015
24 V 6.5 A S8VM-15024
S8VM
5
Specifications
Ratings/Characteristics
Note: 1. Do not use an Inverter output for the Power Supply. Inverters with an output frequency of 50/60 Hz are available, but the rise in the internal temperature of the Power
Supply may result in ignition or burning.
2. Refer to Engineering Data (15-W, 30-W, 50-W, 100-W, 150-W Models) on page 11 to 13 for details.
3. If the output voltage adjuster (V. ADJ) is turned, the voltage will increase by more than +20% of the voltage adjustment range. If the adjuster is turned too far, it may
activate the overvoltage protection function and interrupt the output.
When adjusting the output voltage, confirm the actual output voltage from the Power Supply and be sure that the load is not damaged.
4. To reset the protection, turn OFF the input power for three minutes or longer and then turn it back ON.
5. Conducted emissions: The noise value is affected by factors such as the wiring method. The Power Supply conforms to Class B when the aluminum plate is laid under
the Power Supply. For 15-W models, insert a clamp filter (ZCAT2436-1330 by TDK: 50 Ω min. [50 to 500 MHz], or the equivalent) in the output wire to reduce noise.
6. Radiated emissions: The noise value is affected by factors such as the wiring method. The Power Supply conforms to Class B when the aluminum plate is laid under the
Power Supply. For 150-W models, insert a clamp filter (ZCAT2017-0930 by TDK: 35 Ω min. [50 to 500 MHz], or the equivalent) in the input wire to reduce noise.
7. The weight indicated is for bottom mounting, open-frame models.
8. A@: Sinking type (NPN)
P@: Sourcing type (PNP)
Item Power rating 15 W 30 W 50 W 100 W 150 W
Efficiency 5-V models 75% min. 75% min. 80% min. 81% min. 81% min.
12-V models 78% min. 79% min. 79% min. 81% min. 81% min.
15-V models 78% min. 79% min. 79% min. 81% min. 81% min.
24-V models 80% min. 81% min. 80% min. 82% min. 83% min.
Input Voltage (See note 1.) 100 to 240 VAC (85 to 264 VAC)
Frequency (See note 1.) 50/60 Hz (47 to 63 Hz)
Current 100-V input 0.5 A max. 0.9 A max. 0.8 A max. 1.4 A max. 2.0 A max.
200-V input 0.25 A max. 0.45 A max. 0.4 A max. 0.7 A max. 1.0 A max.
Power factor 100-V input --- 0.98 min.
200-V input --- 0.94 min.
Harmonic current emissions --- Conforms to EN 61000-3-2
Leakage
current 100-V input 0.4 mA max. (at rated output)
200-V input 0.75 mA max. (at rated output)
Inrush current
(See note 2.) 100-V input 17.5 A max. (for cold start at 25°C)
200-V input 35 A max. (for cold start at 25°C)
Output Voltage adjustment range (See note 3.) 20% to 20% (with V. ADJ) (S8VM-@@@24A@/P@: 10% to 20%)
Ripple 3.2% (p-p) max. (5 V),
1.5% (p-p) max. (12 V),
1.2% (p-p) max. (15 V),
1.0% (p-p) max. (24 V),
(at rated input/output voltage)
3.2% (p-p) max. (5 V),
1.5% (p-p) max. (12 V),
1.2% (p-p) max. (15 V),
0.75% (p-p) max. (24 V),
(at rated input/output voltage)
Input variation influence 0.4% max. (at 85 to 264 VAC input, 100%)
Load variation influence (rated input
voltage) 0.8% max. (with rated input, 0 to 100% load)
Temperature variation influence 0.02%/°C max.
Startup time (See note 2.) 1,100 ms max. (at rated input/output voltage) 800 ms max. (at rated input/output voltage)
Hold time (See note 2.) 20 ms typ. (15 ms min.) (at rated input/output voltage)
Additional
functions Overload protection (See note 2.) 105% to 160% of rated load current, voltage
drop, intermittent, automatic reset
105% to 160% of rated load current,
voltage drop (12 V, 15 V, and 24 V),
voltage drop, intermittent (5 V), automatic reset
Overvoltage protection (See note 2.) Yes (See note 4.)
Undervoltage alarm indication Yes (color: Yellow (DC LOW1), red (DC LOW2)) (S8VM-@@@24A@/P@ only)
Undervoltage alarm output No Yes (S8VM-@@@24A@/P@ only)
(Transistor output), 30 VDC max., 50 mA max. (See note 8.)
Series operation Yes for up to 2 Power Supplies (with external diode)
Parallel operation No (However, backup operation is possible. An external diode is required.)
Remote sensing function No Yes
Other Ambient operating temperature Refer to the derating curve in Engineering Data (15-W, 30-W, 50-W, 100-W, 150-W Models). (with no icing or conden-
sation) (See note 2.)
Storage temperature 25 to 65°C
Ambient operating humidity 30% to 85% (Storage humidity: 25% to 90%)
Dielectric strength 3.0 kVAC for 1 min. (between all inputs and outputs; detection current: 20 mA)
2.0 kVAC for 1 min. (between all inputs and PE/FG terminals; detection current: 20 mA)
500 VAC for 1 min. (between all outputs and PE/FG terminals; detection current: 100 mA)
500 VAC for 1 min. (between all outputs (except the detection output terminals) and detection output terminals; de-
tection current: 20 mA) (S8VM-@@@24A@/P@ only)
Insulation resistance 100 MΩ min. (between all outputs and all inputs, PE/FG terminals) at 500 VDC
Vibration resistance 10 to 55 Hz, 0.375-mm single amplitude for 2 hours each in X, Y, and Z directions
Shock resistance 150 m/s2, 3 times each in ±X, ±Y, ±Z directions
Output indicator Yes (color: Green)
EMI Conducted Emission Conforms to EN61204-3 EN55011 Class B and based on FCC Class B (See note 5.)
Radiated Emission Conforms to EN61204-3 EN55011 Class B (See note 6.)
EMS Conforms to EN61204-3 High severity levels
Approved
standards UL
cUL
cUR
EN/TÜV
UL508 (Listing), UL60950-1
CSA C22.2 No.14
CSA No. 60950-1
EN50178, EN60950-1
SELV (EN60950-1)
According to VDE0160/P100
SEMI SEMI F47-0200 (200 VAC input)
Weight (See note 7.) 180 g max. 220 g max. 290 g max. 460 g max. 530 g max.
S8VM
6
Note: 1. Do not use an Inverter output for the Power Supply. Inverters with an output frequency of 50/60 Hz are available, but the rise in the internal temperature of
the Power Supply may result in ignition or burning.
2. Refer to Engineering Data (300-W, 600-W, 1,500-W Models) on page 17 to 19 for details.
3. If the output voltage adjuster (V. ADJ) is turned, the voltage will increase by more than +20% of the voltage adjustment range. If the adjuster is turned too far,
it may activate the overvoltage protection function and interrupt the output. When adjusting the output voltage, confirm the actual output voltage from the Power
Supply and be sure that the load is not damaged.
4. To reset the protection, turn OFF the input power for three minutes or longer and then turn it back ON. Alternatively, turn OFF the remote control signal and
then turn it back ON again.
5. Conducted emissions: The noise value is affected by factors such as the wiring method. The Power Supply conforms to Class B when the aluminum plate
is laid under the Power Supply. For 600-W models, insert a clamp filter (ZCAT3035-1330 by TDK: 100 Ω min. [50 to 500 MHz], or the equivalent) in the input
wire, and ring core (HF60T38X14X22 by TDK: 16 Ω typ. [1 MHz], 46 Ω typ. [10 MHz], or the equivalent) in the output wire to reduce noise
6. Radiated emissions: The noise value is affected by factors such as the wiring method. The Power Supply conforms to Class A when the aluminum plate is
laid under the Power Supply (1,500-W models).
7. The measuring method conforms to JEITA standard RC-9131A. Refer to Ripple under Safety Precautions on page 34.
8. The Power Supply will not conform to safety standards if the customer replaces the fan.
Item Power rating 300 W 600 W 1,500 W
Efficiency 5-V models 77% min. 77% min. ---
12-V models 78% min. 79% min. ---
15-V models 79% min. 80% min. ---
24-V models 81% min. 81% min. 82% min.
Input Voltage (See note 1.) 100 to 240 VAC (85 to 264 VAC) 100 to 240 VAC (85 to 265 VAC)
Frequency (See note 1.) 50/60 Hz (47 to 63 Hz)
Current 100-V input 4.0 A max. (5 V)
4.3 A max. (12 V, 15 V, and 24 V)
8.0 A max. (5 V)
8.3 A max. (12 V, 15 V, and 24 V)
20.0 A max.
200-V input 2.0 A max. (5 V)
2.2 A max. (12 V, 15 V, and 24 V)
4.0 A max. (5 V)
4.2 A max. (12 V, 15 V, and 24 V)
11.0 A max.
Power factor 100-V input 0.98 min. 0.97 min.
200-V input 0.94 min. 0.93 min.
Harmonic current emissions Conforms to EN61000-3-2
Leakage current 100-V input 0.4 mA max. 1.5 mA max.
200-V input 0.75 mA max. 1.5 mA max.
Inrush current
(See note 2.) 100-V input 20 A max. (for cold start at 25°C)
200-V input 40 A max. (for cold start at 25°C)
Output Voltage adjustment range (See note 3.) 20% to 20% (with V. ADJ)
Ripple 3.8% (p-p) max. (5 V), 2.0% (p-p) max. (12 V), 2.0% (p-p) max. (15 V),
1.25% (p-p) max. (24 V), (at rated input/output voltage)
1.25% (p-p) max. (See note 7.),
(at rated input/output voltage)
Input variation influence 0.4% max. (at 85 to 264 VAC input, 100%)
Load variation influence (rated input voltage) 0.6% max. (with rated input, 0 to 100% load)
Temperature variation influence 0.02%/°C max.
Startup time (See note 2.) 1,000 ms max. (at rated input/output voltage)
Hold time (See note 2.) 20 ms typ. (15 ms min.) (at rated input/output voltage)
Additional
functions Overload protection (See note 2.) 105% to 160% of rated load current (5 V, 12 V, and 15 V), 120% to 160% of rated
load current (S8VM-30024C), 115% to 160% of rated load current (S8VM-
60024C), voltage drop (12 V, 15 V, and 24 V), voltage drop, intermittent (5 V), au-
tomatic reset
105% to 160% of rated load current (100 VAC),
155% to 200% of rated load current (200 VAC),
voltage drop, automatic reset (Turns OFF
when continuous for 5 s min.) (See note 4.)
Overvoltage protection (See note 2.) Yes (See note 4.)
Overheat protection (See note 2.) Yes (See note 4.)
Undervoltage alarm indication No
Undervoltage alarm output No
Power failure alarm indication Yes (color: Red)
Power failure alarm output Yes (Transistor output), 30 VDC max., 50 mA max.
Series operation Yes for up to 2 Power Supplies (with external diode)
Parallel operation Yes (up to 2 units)
Remote sensing function Ye s
Remote control function Ye s
Other Ambient operating temperature Refer to the derating curve in Engineering Data (300-W, 600-W, 1,500-W Models). (with no icing or condensation) (See note 2.)
Storage temperature 25 to 65°C
Ambient operating humidity 30% to 85% (Storage humidity: 25% to 90%)
Dielectric strength 3.0 kVAC for 1 min. (between all inputs and outputs; detection current: 20 mA)
2.0 kVAC for 1 min. (between all inputs and PE terminals; detection current: 20
mA)
500 VAC for 1 min. (between all outputs and PE terminals; detection current: 100
mA)
100 VAC for 1 min. (between all outputs and RC terminals; detection current: 100
mA)
500 VAC for 1 min. (between all outputs and PF terminals; detection current: 20
mA)
3.0 kVAC for 1 min. (between all inputs and
outputs; detection current: 20 mA)
2.0 kVAC for 1 min. (between all inputs and FG
terminals; detection current: 20 mA)
500 VAC for 1 min. (between all outputs and
FG terminals; detection current: 300 mA)
100 VAC for 1 min. (between all outputs and
RC terminals; detection current: 100 mA)
500 VAC for 1 min. (between all outputs and
PF terminals; detection current: 20 mA)
Insulation resistance 100 MΩ min. (between all outputs and all inputs, PE terminals) at 500 VDC 100 MΩ min. (between all outputs and all in-
puts, FG terminals) at 500 VDC
Vibration resistance 10 to 55 Hz, 0.375-mm single amplitude for 2 hours each in X, Y, and Z directions 10 to 55 Hz, 0.15-mm single amplitude for 2
hours each in X, Y, and Z directions
Shock resistance 150 m/s2, 3 times each in ±X, ±Y, ±Z directions
Output indicator Yes (color: Green)
EMI Conducted Emission Conforms to EN61204-3 EN55011 Class B and based on FCC Class B
(See note 5.)
Conforms to EN61204-3 EN55011 Class A
and based on FCC Class A (See note 6.)
Radiated Emission Conforms to EN61204-3 EN55011 Class B (See note 5.) Conforms to EN61204-3 EN55011 Class A
(See note 6.)
EMS Conforms to EN61204-3 High severity levels
Approved
standards
(See note 8.)
UL
cUR
cUR
EN/TÜV
UL508 (Recognition) (5 V, 12 V, and 15 V) UL508 (Listing) (24 V), UL60950-1
CSA C22.2 No.14 (24 V)
CSA No. 60950-1
EN50178, EN60950-1
SELVE (EN60950-1)
UL508, UL60950-1
CSA C22.2 No.14, CSA No. 60950-1
EN50178, EN60950-1
SELVE (EN60950-1)
SEMI SEMI F47-0200 (200-VAC input)
Weight 1,100 g max. 1,700 g max. 3,800 g max.
S8VM
7
Connections
Block Diagrams
Noise
filter
Overvoltage
detection circuit
Fuse
2 A
Rectifier/smoothing
circuit
Drive control
circuit
AC (L)
AC (N)
INPUT
/FG Photocoupler
DC OUTPUT
V
+V
Voltage
detection circuit
Rectification Smoothing
Overcurrent
detection circuit
Inrush
current
protection circuit
Undervoltage
detection
S8VM-01524A@
Undervoltage
alarm indication
DC LOW1
DC LOW2
S8VM-015@@@@ (15 W)
Noise
filter
Fuse
3.15 A
AC (L)
AC (N)
INPUT DC OUTPUT
V
+V
Undervoltage
detection
Undervoltage
alarm indication
DC LOW1
DC LOW2
S8VM-03024A@
/FG
Overvoltage
detection circuit
Rectifier/smoothing
circuit
Drive control
circuit
Photocoupler
Voltage
detection circuit
Rectification Smoothing
Inrush
current
protection circuit
Overcurrent
detection circuit
S8VM-030@@@@ (30 W)
Fuse
2 A
AC (L)
AC (N)
INPUT DC OUTPUT
V
+V
Alarm
DC LOW1
Common
Inrush
current
protection
circuit
Undervoltage
detection Alarm
DC LOW2
S8VM-05024A@ (Sinking)
DC LOW1
DC LOW2
Undervoltage
alarm indication
/FG
Noise
filter
Overvoltage
detection circuit
Rectifier/smoothing
circuit
Drive control
circuit
Photocoupler
Voltage
detection circuit
Rectification Smoothing
Harmonic current
suppression circuit
(Power factor
improvement)
Photocoupler
Overcurrent
detection circuit
Alarm
DC LOW1
Common
Undervoltage
detection Alarm
DC LOW2
S8VM-05024P@ (Sourcing)
DC LOW1
DC LOW2
Undervoltage
alarm indication
Photocoupler
S8VM-050@@@@ (50 W)
S8VM
8
DC OUTPUT
V
+V
Alarm
DC LOW1
Common
Undervoltage
detection Alarm
DC LOW2
INPUT
AC (N)
AC (L)
Fuse
3.15 A
Drive
S8VM-10024A@ (Sinking)
Remote sensing
+S
S
DC LOW1
DC LOW2
Undervoltage
alarm indication
/FG
Inrush
current
protection
circuit
Noise
filter
Overvoltage
detection circuit
Rectifier/smoothing
circuit
Drive control
circuit
Photocoupler
Voltage
detection circuit
Rectification
Smooth-
ing
Overcurrent
detection circuit
Photocoupler
Alarm
DC LOW1
Common
Undervoltage
detection Alarm
DC LOW2
S8VM-10024P@ (Sourcing)
DC LOW1
DC LOW2
Undervoltage
alarm indication
Photocoupler
Harmonic current
suppression circuit
(Power factor
improvement)
S8VM-100@@@@ (100 W)
DC OUTPUT
V
+V
Alarm
DC LOW1
Common
Undervoltage
detection Alarm
DC LOW2
INPUT
AC (N)
AC (L) Fuse
5 A
Drive
Remote sensing
+S
S
DC LOW1
DC LOW2
Undervoltage
alarm indication
S8VM-15024A@ (Sinking)
/FG
Inrush
current
protection
circuit
Noise
filter
Overvoltage
detection circuit
Rectifier/smoothing
circuit
Drive control
circuit
Photocoupler
Voltage
detection circuit
Rectification
Smooth-
ing Photocoupler
Overcurrent
detection circuit
Alarm
DC LOW1
Common
Undervoltage
detection Alarm
DC LOW2
S8VM-15024P@ (Sourcing)
DC LOW1
DC LOW2
Undervoltage
alarm indication
Photocoupler
Harmonic current
suppression circuit
(Power factor
improvement)
S8VM-150@@@@ (150 W)
PF-E
PF
Power failure
alarm indication
Overheat
detection circuit
Fan
Power supply
balance circuit
Alarm
PF-C
INPUT
AC (N)
AC (L)
DC OUTPUT
V
+V
Output voltage monitor
V
+V
Remote sensing
S
+S
Current balance
CBG
CB
Remote control
RC
+RC
Auxiliary power
supply circuit
Fan detection
Fuse
10 A
Noise
filter
Rectification
Inrush
current
protection
circuit
Smooth-
ing
Drive
Overcurrent
detection circuit
Control
circuit
Photocoupler
Photocoupler
Rectifier/smoothing
circuit
Rectifier/smoothing
circuit
Power failure
alarm detection
Rectifier/smoothing
circuit
Overvoltage
detection circuit
Voltage
detection circuit
Harmonic current
suppression circuit
(Power factor
improvement)
S8VM-300@@C (300 W)
S8VM
9
PF-E
PF
Fan
Alarm
PF-C
INPUT
AC (N)
AC (L)
Drive
DC OUTPUT
V
+V
V
+V
S
+S
CBG
CB
RC
+RC
Power failure
alarm indication
Overheat
detection circuit
Remote sensing
Current balance
Remote control
Fuse
15 A
Noise
filter
Rectification
Inrush
current
protection
circuit
Smoothing
Overcurrent
detection circuit
Control
circuit
Photocoupler
Photocoupler
Rectifier/smoothing
circuit
Power failure
alarm detection
Rectifier/smoothing
circuit
Auxiliary power
supply circuit
Fan detection
Rectifier/smoothing
circuit
Power supply
balance circuit
Output voltage monitor
Overvoltage
detection circuit
Voltage
detection circuit
Harmonic current
suppression circuit
(Power factor
improvement)
S8VM-600@@C (600 W)
PF-E
/FG
PF
Alarm
PF-C
INPUT
AC (N)
AC (L)
DC OUTPUT
V
+V
V
+V
S
+S
CBG
CB
RC
+RC
Fan
Drive
Power failure
alarm indication
Remote sensing
Current balance
Remote control
Fuse
30 A
Noise
filter
Rectification Smoothing
Overcurrent
detection circuit
Control
circuit
Photocoupler
Photocoupler
Rectifier/smoothing
circuit
Power failure
alarm detection
Rectifier/smoothing
circuit
Rectifier/smoothing
circuit
Overheat
detection circuit
Auxiliary power
supply circuit
Power supply
balance circuit
Output voltage monitor
Fan detection
Overvoltage
detection circuit
Voltage
detection circuit
Inrush
current
protection
circuit
Harmonic current
suppression circuit
(Power factor
improvement)
S8VM-15224C (1,500 W)
S8VM
10
Construction and Nomenclature (15-W, 30-W, 50-W, 100-W, 150-W Models)
Nomenclature
Note: 1. The fuse is located on the (L) side. It is NOT user-replace-
able.
2. If mounting is performed using a DIN Rail, the protective
earthing connection is the panel mounting hole shown in the
figure below.
(A protective earthing connection stipulated in safety stan-
dards is used. Connect the ground completely (S8VM-
@@@@@D only)).
Ground terminal: M3 (Depth: 8 mm max.)/Ground wire:
AWG 18
3. S8VM-@@@24A@/P@ only
4. S8VM-05024A@/P@, S8VM-10024A@/P@, S8VM-
15024A@/P@ only. Housing and terminals of the connector
for undervoltage detection output are also provided. For de-
tails, refer to Undervoltage Alarm Output Connector Har-
ness Manufacture Method on page 35 under Safety
Precautions.
5. When not using the remote sensing function, leave the short
bar in the same state as when shipped.
6. A@ models: Common terminal (emitter)
P@ models: Common terminal (collector)
Output Color Label
5
4
3
2
1
6
7
8910
12
12
1
2
11
8
9
10
3
11
4
5
67
12
12
1
2
11
3
11
4
5
12
12
6
7
8910
12
12
15-W, 30-W, 50-W Models
Open-frame Models Covered Models
S8VM-015@@/S8VM-015@@D
S8VM-030@@/S8VM-030@@D
S8VM-050@@/S8VM-050@@D
100-W Models
Open-frame Models Covered Models
S8VM-100@@/S8VM-100@@D S8VM-100@@C@/S8VM-10024A@/P@
150-W Models
Open-frame Models Covered Models
S8VM-150@@/S8VM-150@@D S8VM-150@@C@/S8VM-15024A@/P@
S8VM-015@@C@/S8VM-01524A@
S8VM-030@@C@/S8VM-03024A@
S8VM-050@@C@/S8VM-05024A@/P@
300-W, 600-W, 1,500-W Models
Note: Refer to page 16.
No. Name Function
1 AC input terminals (L), (N) Connect the input lines to
these terminals. (See note 1.)
2 PE terminal: Protective earthing terminal
(S8VM-@@@@@C@/S8VM-@@@@@A@/
S8VM-@@@@@P@)
FG terminal: Frame ground terminal
(S8VM-@@@@@/S8VM-@@@@@D)
Connect the ground line to this
terminal. (See note 2.)
3 DC output terminals (-V), (+V) Connect the load lines to these
terminals.
4 Output indicator (DC ON: Green) Lights (green) while a direct
current (DC) output is ON.
5 Output voltage adjuster (V. ADJ) Use to adjust the voltage.
6 Undervoltage alarm indicator 1
(DC LOW1: Yellow) (See note 3.)
Lights only when a momentary
drop in output voltage is de-
tected. This status is main-
tained.
7 Undervoltage alarm indicator 2
(DC LOW2: Red) (See note 3.)
Lights only when the output
voltage drops to approximately
20 V or lower.
8 Undervoltage alarm output terminal 1:
(DC LOW1) (See note 4.)
Outputs only when a momen-
tary drop in output voltage is
detected. This status is main-
tained.
(The transistor turns OFF
when a voltage drop occurs.)
9 Undervoltage alarm output terminal 2:
(DC LOW2) (See note 4.)
Outputs only when the output
voltage drops to approximately
20 V or lower.
(The transistor turns OFF
when a voltage drop occurs.)
10 Common terminal for undervoltage alarm
output (See note 4.)
Common terminal (See note
6.) for terminals 8 and 9
11 Remote sensing terminals (See note 5.) Correct the voltage drop in the
load lines.
12 Short bars (See note 5.) ---
Protective earthing
connection
Ground
Color label identifying output voltage
Green: 5 V
Blue: 12 V
Yellow: 15 V
White: 24 V
This color label identifies the output voltage by color.
S8VM
11
Engineering Data (15-W, 30-W, 50-W, 100-W, 150-W Models)
Derating Curve
300W/600W/1,500W
Note: Refer to page 17.
Note: 1. Internal parts may occasionally be deteriorated or damaged. Do not use the Power Supply in areas outside the derating curves (i.e., the area shown by
shading A in the above graphs).
2. If there is a derating problem, use forced air-cooling.
3. When mounting two or more Power Supplies side-by-side, allow at least 20 mm spacing between them. Multiple 100- and 150-W models cannot be used
side by side. Be sure to install the Power Supplies as far away from heat-generating sources as possible. As a reference value, allow at least 50 mm spacing
on the right and left sides. If only 20 mm spacing is allowed, use the Power Supply at a load ratio of 80% or less.
4. When using 150-W models for a long period of time at an input voltage of 90 VAC or lower, reduce the load to 80% or less of the above derating curves.
15W/30W
Standard Mounting/Horizontal Mounting/Face-up Mounting
50W
Standard Mounting/Horizontal Mounting Face-up Mounting
100W
Standard Mounting Horizontal Mounting/Face-up Mounting
150W
Standard Mounting Horizontal Mounting Face-up Mounting
20 10 0 10 20 30 40 50 60 70 80
120
100
80
60
40
20
0
Ambient temperature (°C)
Open-frame type
Covered type
A
Load ratio (%)
20 10 0 10 20 30 40 50 60 70 80
120
100
80
60
40
20
0
Ambient tem
p
erature
(
°C
)
Open-frame type
Covered type
A
L
oa
d
rat
i
o
(%)
20 10 0 10 20 30 40 50 60 70 80
120
100
80
60
40
20
0
A
Ambient temperature (°C)
Open-frame type
Covered type
Load ratio (%)
20 10 0 10 20 30 40 50 60 70 80
120
100
80
60
40
20
0
Ambient temperature (°C)
Open-frame type
Covered type
A
Load ratio (%)
20 10 0 10 20 30 40 50 60 70 80
120
100
80
60
40
20
0
A
Ambient temperature (°C)
Open-frame type
Covered type
Load ratio (%)
20 10 0 10 20 30 40 50 60 70 80
120
100
80
60
40
20
0
Ambient temperature (°C)
Open-frame type
Covered type
A
Load ratio (%)
120
100
80
60
40
20
0
20 10 0 10 20 30 40 50 60 70 80
Ambient temperature (°C)
Open-frame type
Covered type
A
Load ratio (%)
120
100
80
60
40
20
0
20 10 0 10 20 30 40 50 60 70 80
Ambient temperature (°C)
Open
-frame
type
Covered type
A
Load ratio (%)
S8VM
12
Mounting
Note: 1. Improper mounting will interfere with heat dissipation and
may occasionally result in deterioration or damage of inter-
nal parts.
Use the Power Supply within the derating curve for the
mounting direction that is used.
2. Use the metal plate as the mounting panel (*1).
3. Install the Power Supply so that the air flow circulates
around the Power Supply, as the Power Supply is designed
to radiate heat by means of natural air flow.
4. Mounting screw tightening torque
(recommended value: M3 (0.49 N·m))
Remote Sensing Function
(S8VM-100@@@@/150@@@@ only)
This function compensates a voltage drop on the load lines.
To use this function, connect after removing the two short bars of the
remote sensing terminal.
Note: 1. Use a 2-conductor shielded cable as a connection wire (*1).
2. Use as thick a wire as possible since high voltage drops on
the load lines (*2) may activate the overvoltage protection
function.
3. Use when the voltage drop is 0.3 V or lower.
4. When the +S and S terminals are opened with the short
bar removed, the overvoltage protection function is activat-
ed and the output voltage will be cut off.
5. If the load line is too long, use an electrolytic capacitor in the
following 3 locations:
1) Across the load terminals
2) Between the +S terminal and + terminal
3) Between the S terminal and terminal
Select the capacity of the connected capacitor from be-
tween several tens to several hundreds of μF as a guide,
and then determine the capacity when actually connecting
the capacitor between terminals as shown below.
Inrush Current, Startup Time,
Output Hold Time
Reference Values
*1
*1
*1
Terminal block
The terminals are in front. The terminals are on the top.
Standard Mounting
(Bottom Mounting Models)
Horizontal Mounting
Correct Correct
Correct
Face-up Mounting
(DIN Rail Mounting Bracket Models) Face-up Mounting
Incorrect Correct
Face-down Mounting
(DIN Rail Mounting Bracket Models) Face-down Mounting
Incorrect Incorrect
Standard Mounting
(DIN Rail Mounting Bracket Models)
S
urface Mounting for
S
tandard Mounting Direction Surface Mounting for Face-up
Mounting
Correct
Correct
Item Value Definition
Reliability
(MTBF)
135,000 hrs
min.
MTBF stands for Mean Time Between Failures, which
is calculated according to the probability of accidental
device failures, and indicates the reliability of a device.
Therefore, it does not necessarily represent the life of
the Power Supply.
Life expectancy 10 yrs. min. The life expectancy indicates average operating hours
under the ambient temperature of 40°C and a load
rate of 50%.
Normally this is determined by the life expectancy of
the built-in aluminum electrolytic capacitor.
DC ON
V.ADJ
+
S
+ V
V
S
*
1
*
2
Short bar
DC ON
V.ADJ
+
S
+ V
V
S
+
+
+
Startup time Hold time
Inrush current on input application
90%95%
Input ONInput OFF
AC input
voltage
AC input
current
Output
voltage
S8VM
13
Overload Protection
The Power Supply is provided with an overload protection function
that protects the Power Supply from possible damage by short-circuit
and overcurrent.
When the output current rises above 105% min. of the rated current,
the protection function is triggered, automatically decreasing the out-
put voltage. When the output current falls within the rated range, the
overload protection function is automatically cleared.
The values shown in the above diagrams are for reference only.
Note: 1. Internal parts may occasionally deteriorate or be damaged
if a short-circuited or other overcurrent state continues dur-
ing operation.
Do not continue an overload state for longer than 30 sec-
onds. Eliminate the overcurrent state as soon as possible.
2. Internal parts may possibly be deteriorated or damaged if the
Power Supply is used for applications with frequent inrush cur-
rent or overloading at the load end. Do not use the Power Supply
for such applications.
Overvoltage Protection
Consider the possibility of an overvoltage and design the system so
that the load will not be subjected to an excessive voltage even if the
feedback circuit in the Power Supply fails. When an excessive
voltage that is approximately 140% of the rated voltage or more is
output, the output voltage is shut OFF, preventing damage to the load
due to overvoltage. Reset the input power by turning it OFF for at
least three minutes and then turning it back ON again.
The values shown in the above diagram are for reference only.
*1 S8VM-@@@24A@/P@
*2 Except for S8VM-@@@24A@/P@
Note: 1. Do not turn ON the input power again until the cause of the
overvoltage has been removed.
2. The overvoltage protection function may be activated when
the output voltage adjuster (V.ADJ) is set to a value that
exceeds +20% of the rated output voltage.
3. When the +S and S terminals are opened with the short-
bar removed, the overvoltage protection function is
activated and the output voltage will be cut off.
Undervoltage Alarm Function (Indication and Output)
(Only S8VM-@@@24A@/P@)
If an output voltage drop is detected with an S8VM-@@@24A@/P@ with undervoltage alarm function, the DC LOW indicator will light to notify of an
output error. The transistor also sends an output externally to notify of the error (except for the S8VM-01524A@ and S8VM-03024A@).
Transistor Output: Sinking type: (NPN) (S8VM-@@@24A@)
Sourcing type: (PNP) (S8VM-@@@24P@)
30 VDC max., 50 mA max., Residual voltage when ON: 2 V or less, Leakage current when OFF: 0.1 mA or less
Undervoltage Alarm Function 1 (DC LOW1)
Only a momentary voltage drop is detected. Detection voltage is automatically adjusted internally by detecting the output voltage (approx. 2.7 V
lower than the voltage output at an output voltage of 24.0 V).
During detection, the transistor is OFF (with no continuity across 8 and 10) and the LED (6: Yellow) lights. (The Undervoltage Alarm Function 1 is
used as a latch holding function.)
Undervoltage Alarm Function 2 (DC LOW2)
Detection voltage is set to approx. 20.0 V (from 18.0 to 21.6 V).
During detection, the transistor is OFF (with no continuity across 9 and 10) and the LED (7: Red) lights.
Note: 1. This function monitors the voltage at the Power Supply output terminals.
To check actual voltage, measure voltage on the load side.
2. Gradual voltage drop is not detected by the Undervoltage Alarm Function 1 (DC LOW1).
3. Once a voltage drop in the output voltage is detected by Undervoltage Alarm Function 1 (DC LOW1), the transistor turns OFF and status
of the LED (6: Yellow) light is maintained. To reset the function, turn OFF the input power for 60 seconds or longer, and then turn it ON
again.
4. If the output voltage remains at 15 V or lower for several seconds when using Undervoltage Alarm Function 1 (DC LOW 1), the output
hold status for detection may be reset.
Intermittent operation
Output current (%)
0 10050
Output voltage (V)
0 10050
Intermittent operation
Output current (%)
Output voltage (V)
0 10050
Output current (%)
Output voltage (V)
15W/30W 50W/100W/150W (5 V)
50W/100W/150W (12 V, 15 V, 24 V) 300W/600W/1,500W
Note: Refer to page 19.
Overvoltage protection
operating
Variable range
Rated output
voltage
+20%
10%
20%
0 V
Approx. 40%
*1 *2
Output voltage (V)
S8VM-01524A@
S8VM-03024A@S8VM-05024A@/P@S8VM-10024A@/P@S8VM-15024A@/P@
4
6
74
6
7
8910
8
9
10
4
67
4
6
7
8910
S8VM
14
Probable Causes of Power Supply Errors and Troubleshooting Using
Undervoltage Alarm Function
Check the following information if the Undervoltage Alarm Function operates.
Contact your OMRON representative if the Power Supply does not function normally after checking.
The symbols in the table are as follows:
: Lit, : Not lit, : Flashing
Note: Flashing: The output voltage is unstable, causing the LED to repeatedly turn ON and OFF.
DC ON DC LOW1 DC LOW2
Output voltage Power Supply status diagnosis
LED D:
Green
LED F:
Yellow
Transistor
outputs
(H to J)
LED G:
Red
Transistor
outputs
(I to J)
1ONON
Normal
(approx. 90% min.
of rated output
voltage)
Normal status
2OFFON
Normal
(approx. 90% min.
of rated output
voltage)
The output voltage has re-
covered to normal status
following a previous sud-
den voltage drop.
3ONOFF
Output drop
(approx. 90%
max. of rated
output voltage)
The output voltage has
dropped gradually and re-
mains low.
4OFFOFF
Output drop
(approx. 90%
max. of rated
output voltage)
The output voltage re-
mains low following a pre-
vious sudden voltage
drop.
5OFF
ON
OFF
Output drop
(approx. 80% of
rated output
voltage)
The output voltage re-
mains low and is continu-
ing to fluctuate following a
previous sudden voltage
drop.
6ON
ON
OFF
Output drop
(approx. 80% of
rated output
voltage)
The output voltage has
dropped gradually, re-
mains low, and is continu-
ing to fluctuate.
7OFFOFFNo output No output voltage is being
output.
8
ON
OFF
ON
OFF
Unstable output The output voltage is un-
stable.
24 V
24 V
24 V24 V
24 V
24 V
24 V
S8VM
15
Probable cause of error Troubleshooting methods
--- --- 1
A momentary power failure has occurred in the
input.
Check that the output voltage is normal and no problems have occurred in other devices. No problems
will be caused by continuing to use the Power Supply as is. To clear DC LOW1 (LED display and tran-
sistor output status), turn OFF the input power, and wait at least 60 s before turning ON the input Power
Supply again.
2
A momentary overload has occurred. The load current has probably exceeded the rated current. We suggest reducing the connected load
or replace the Power Supply with one that has a higher capacity.
A momentary output voltage drop has occurred
at startup due to the capacity of the capacitive
factors on the load side or when the load is acti-
vated.
A large inrush current has probably flowed to the load side at startup. We suggest replacing the Power
Supply with one that has a higher capacity.
The output voltage has returned to normal volt-
age following a rapid drop caused by using the
output voltage adjuster (V.ADJ).
Turn OFF the input power, and wait at least 60 s before turning ON the input power again to clear the
indicator status.
Deterioration due to age (when the Power Sup-
ply has been used for several years)
The internal parts of the Power Supply may have deteriorated due to age. We suggest replacing the
Power Supply. Also replace other Power Supplies that were purchased at the same time.
3
Overload (immediately following first use of the
Power Supply or when increasing the load)
The load current has probably exceeded the rated current. Check the actual load current and Power
Supply capacity. Continued use in overload status may damage the Power Supply.
The output voltage dropped to -10% or lower of
the rated voltage resulting from using the output
voltage adjuster (V.ADJ)
Adjust the output voltage to the rated values using the output voltage adjuster (V.ADJ).
A sudden overload occurred and the Power
Supply remains in overload status.
An error has probably occurred in the load device. Turn OFF the input power, and check whether any
errors have occurred in the load device. Continued use in overload status may damage the Power Sup-
ply.
4
The output voltage remains low after a rapid
voltage drop caused by using the output voltage
adjuster (V.ADJ).
Adjust the output voltage to the rated values using the output voltage adjuster (V.ADJ). To clear DC
LOW1 (LED display and transistor output status), turn OFF the input power, and wait at least 60 s be-
fore turning ON the input power again.
The overload status continues to fluctuate fol-
lowing a sudden overload.
An error has probably occurred in the load device. Turn OFF the input power, and check whether any
errors have occurred in the load device. Continued use in overload status may damage the Power Sup-
ply. 5
Deterioration due to age (after using the Power
Supply for several years)
The internal parts of the Power Supply may have deteriorated due to age. Replace the Power Supply.
Also replace other Power Supplies that were purchased at the same time.
6
Overload (immediately following first use of the
Power Supply or when increasing the load)
The load current has probably exceeded the rated current. Check the actual load current and Power
Supply capacity. Continued use in overload status may damage the Power Supply.
Power Supply interrupted or damaged. Check whether the input power is being applied correctly. If there is no output even though the input
power is applied correctly, the internal circuit is probably damaged.
7
Overvoltage protection operation Turn OFF the input power, and wait at least 3 min before turning ON the input power again. If the same
status recurs, the internal circuit is probably damaged.
The short bar has fallen off, or the +S and -S ter-
minals are open.
Check whether the +S and -S terminals are open. If so, the overvoltage protection function is activated.
Therefore, turn OFF the input power and wait at least three minutes before turning it ON again. (S8VM-
10024A@/P@ and S8VM-15024A@/P@ models only)
Output short-circuit Remove the cause of the output short-circuit.
Intermittent operation due to overload (S8VM-
01524A@/03024A@ only)
The load current has probably exceeded the rated current. Check the actual load current and Power
Supply capacity. Continued use in overload status may damage the Power Supply.
8
The Power Supply fails to start repeatedly due
to the capacity of the capacitive factors on the
load side.
A large inrush current has probably flowed to the load side at startup. We suggest replacing the Power
Supply with one that has a higher capacity.
The input turns ON and OFF repeatedly. Check whether the Power Supply’s input voltage is being applied correctly.
The status repeatedly switches between normal
operation and output short-circuit.
An error has probably occurred in the load device. Turn OFF the input power, and check whether any
errors have occurred in the load device.
S8VM
16
Construction and Nomenclature (300-W, 600-W, 1,500-W Models)
Nomenclature
300-W Models
S8VM-300@@C
600-W Models
S8VM-600@@C
1,500-W Model
S8VM-15224C
Output Color Label
This color label identifies the output voltage by color.
Note: A 300-W model is shown above. The label is in a different place
on 600-W models and 1,500-W model.
Note: 1. The fuse is located on the (L) side. It is NOT user-replace-
able.
2. Protective earthing connection is the panel mounting hole of
the metal case. (A protective earthing connection stipulated
in safety standards is used. Connect the ground complete-
ly).
Ground terminal: M4 (Depth: 6 mm max.)/Ground wire:
AWG 18
3. The standard supplied connector for signal I/O is mounted
to CN when S8VM is shipped. The supplied signal I/O con-
nector shorts between 1 and 2, between 3 and 4, and be-
tween 7 and 8. The stability and accuracy of the output
will deteriorate if the connector is removed. Always
connect the +S and -S pins.
Do not connect a load to the output voltage monitor termi-
nals (+V, V).
Color label identifying output voltage
Green: 5 V
Blue: 12 V
Yellow: 15 V
White: 24 V
No. Name Function
1AC input terminals (L), (N) Connect the input lines to these terminals.
(See note 1.)
2PE terminal: Protective earth-
ing terminal ( )
(S8VM-300@@C/S8VM-
600@@C)
FG terminal: Frame ground ter-
minal (S8VM-15224C)
Connect the ground line to this terminal.
(See note 2.)
3DC output terminals (V), (+V) Connect the load lines to these terminals.
4Output indicator (DC ON:
Green)
Lights (green) while a direct current (DC)
output is ON.
5Output voltage adjuster
(V.ADJ)
Use to adjust the voltage.
6Power failure alarm indicator
(PF: Red)
Lights when the output voltage decreases,
the fan stops, and the system is on stand-
by using the remote control function.
7Signal I/O connector (See note
3.)
1: DC output monitor pin (+V)
2: Remote sensing pin (+S)
3: DC output monitor pin (V)
4: Remote sensing pin (S)
5: Current balance pin (CB)
6: Signal ground pin for current balance
(CBG)
7: Remote control pin (+RC)
8: Remote control pin (RC)
9: No connect
10: No connect
11: Power failure alarm output pin (PF-C)
(collector)
12: Power failure alarm output pin (PF-E)
(emitter)
1
3
5
7
9
11
2
4
6
8
10
12
CN
S8VM
17
Engineering Data (300-W, 600-W, 1,500-W Models)
Derating Curve
300W/600W/1,500W
Note: 1. Internal parts may occasionally be deteriorated or dam-
aged. Do not use the Power Supply in areas outside the de-
rating curves (i.e., the area shown by shading A in the
above graph).
2. When mounting two or more Power Supplies side-by-side,
allow at least 20 mm spacing between them. Always provide
at least 50 mm of mounting space for the surface with the
fan mounted. Be sure to provide at least 50 mm (S8VM-
300@@C/600@@C) or 100 mm (S8VM-15224C) of mount-
ing space on the opposite side of the surface with the fan
mounted.
3. When using the 1,500-W model for a long period of time at
an input voltage of 90 VAC or lower, reduce the load to 80%
or less of the above derating curve.
4. The ambient temperature is specified at a location 50 mm in
front of the center of the Power Supply's front panel.
Mounting
Standard Mounting
Horizontal Mounting
Upside-down Mounting (S8VM-15224C Only)
Side Mounting
Note: 1. The internal parts may occasionally deteriorate or be bro-
ken due to adverse heat dissipation depending on the
mounting status. Do not use the Power Supply in any
mounting direction other than those specified.
2. Use the metal plate as the mounting panel (*1).
3. To ensure sufficient cooling, do not cover the air holes locat-
ed on the side the fan is mounted and the opposite side.
4. Mounting screw tightening torque (recommended value: M4
(1.27 N·m))
The screws must not protrude more than 6 mm inside the
Power Supply.
Remote Sensing Function
Use remote sensing to automatically compensate for voltage drops
on the load lines. Connect the +S pin (pin 2 on CN) to the positive
load terminal and the S pin (pin 4 on CN) to the negative load termi-
nal to enable remote sensing. When not using the remote sensing
function, use the standard supplied connector. The +S and +V pins
(pin 1 on CN) and the S and V pins (pin 3 on CN) will be con-
nected.
Note: 1. Use 2-conductor shielded cable as connection wire (* 1).
2. Use as thick a wire as possible since high voltage drops on
the load lines (* 2) may activate the overvoltage protection
function.
3.
Do not allow the voltage drop on the load line to exceed 0.3 V.
4. If the sensing line is too long, it is necessary to put an elec-
trolytic capacitor across the load terminals. The electrolytic
capacitor may generate heat due to the ripple current, de-
pending on connected load. Therefore, the electrolytic ca-
pacitor must have a ripple current allowance higher than the
output ripple current.
5. The stability and accuracy of the output will deteriorate if the
short bar is missing or if the +S and S pins are open. Al-
ways connect the +S and S pins.
6. Remove the standard supplied connector and prepare a
connector harness separately.
20 10 0 10 20 30 40 50 60 70 80
120
100
80
60
40
20
0
Load ratio (%)
Ambient temperature (°C)
*1 *1 *1
300 W600 W1,500 W
Correct CorrectCorrect
600 W
*1 *1 *1
300 W1,500 W
Correct CorrectCorrect
*1
1,500 W
Correct
300 W600 W1,500 W
Incorrect IncorrectIncorrect
+V*2
+
V
*1
VS
S8VM
CN
+V+S
S8VM
18
Remote Control Function
This function turns outputs ON and OFF using an external signal
while input voltage is applied, using the +RC pin (pin 7 on CN) and
the -RC pin (pin 8 on CN). Connect a switch or transistor to the +RC
and -RC pins to use the remote control function. When not using this
function, the +RC and -RC pins are shorted by using the standard
supplied connector.
Maximum input voltage: 12 V max.
Maximum allowable reverse voltage: 1 V max.
Sink Current: 3.5 mA
Note: 1. Use 2-conductor shielded cable or twisted-pair cable as
connection wire.
2. The remote control circuit is isolated from the input and out-
put circuits of the power supply.
3. Remove the standard supplied connector and prepare a
connector harness separately.
Power Failure Alarm Function
The power failure alarm indicator will light red to indicate an output
voltage error if overload, overvoltage, or overheat protection is acti-
vated, if a drop in the input voltage causes the output voltage to drop,
if the built-in fan motor stops, and during remote control standby. The
alarm is also output externally by a transistor.
Transistor output: 30 VDC max., 50 mA max.
Residual voltage when ON: 2 V max.
Leakage current when OFF: 0.1 mA max.
Alarm detection voltage: Approx. 80% of output voltage setting
During detection, the transistor is OFF (with no continuity across pins
11 and 12 on CN), and the LED (red) lights.
Note: 1. This function monitors the voltage at the power supply out-
put terminals. To check actual voltage, measure the voltage
on the load side.
2. Outputs are forced OFF if the built-in fan motor stops
(S8VM-15224C only).
3. Remove the standard supplied connector and prepare a
connector harness separately.
Inrush Current, Startup Time,
Output Hold Time
Note: A maximum input surge current of approx. 40 A will flow at
startup even when not turning ON the input. Consider this
surge current when selecting the input switch, input breaker, or
external fuse.
Input Current Waveform When
Input Is Turned ON
The following examples show typical waveforms.
S8VM-300@@C
100 VAC, Load ratio: 100%
200 VAC, Load ratio: 100%
+RC Level for RC Output voltage Built-in Fan Motor
Short or L (0 to 0.8 V) ON Rotate
Open or H (2.4 to 12 V) OFF Stop
TR
SW
+RC
RC
S8VMCN
PF-C
PF-E
S8VM
CN
Vce max.: 30 VDC
Ic max.: 50 mA
Startup time Hold time
Inrush current on input application
90%95%
Input ONInput OFF
AC input
voltage
AC input
current
Output
voltage
100 ms
AC input
current
(10 A/DIV)
AC input
voltage
Output
voltage
100 ms
AC input
current
(10 A/DIV)
AC input
voltage
Output
voltage
S8VM
19
S8VM-600@@C
100 VAC, Load ratio: 100%
200 VAC, Load ratio: 100%
S8VM-15224C
100 VAC, Load ratio: 100%
200 VAC, Load ratio: 100%
Reference Values
Overload Protection
The Power Supply is provided with an overload protection function
that protects the Power Supply from possible damage by overcurrent.
When the output rises above 105% of the rated current, the protec-
tion function is triggered, automatically decreasing the output volt-
age.
S8VM-300@@C/600@@C
When the output current returns within the rated range, overload pro-
tection is automatically cleared.
S8VM-15224C
Outputs are interrupted if an overload continues for 5 seconds or
more. To reset the Power Supply, leave the input power OFF for more
than 3 minutes and then turn it ON again. Alternatively, turn OFF and
ON the remote control signal.
The values shown in the above diagrams are for reference only.
Note: 1. If the Power Supply has been short-circuited or supplied
with an overcurrent for longer than 30 seconds, the internal
parts of the Power Supply may occasionally be deteriorated
or damaged.
2. The internal parts may possibly be deteriorated or dam-
aged. Do not use the Power Supply for applications where
the load causes frequent inrush current and overload.
100 ms
AC input
current
(10 A/DIV)
AC input
voltage
Output
voltage
100 ms
AC input
current
(10 A/DIV)
AC input
voltage
Output
voltage
100 ms
AC input
current
(25 A/DIV)
AC input
voltage
Output
voltage
100 ms
AC input
current
(10 A/DIV)
AC input
voltage
Output
voltage
Item Value Definition
Reliability
(MTBF)
300 W:
135,000 hrs
600 W:
120,000 hrs
1,500 W:
100,000 hrs
MTBF stands for Mean Time Between Failures, which
is calculated according to the probability of accidental
device failures, and indicates the reliability of a device.
Therefore, it does not necessarily represent the life of
the Power Supply.
Life
expectancy
10 yrs. min. The life expectancy indicates average operating hours
under the ambient temperature of 40°C and a load rate
of 50%.
Normally this is determined by the life expectancy of
the built-in aluminum electrolytic capacitor.
0 10050
Output current (%)
Intermittent operation
Output voltage (V)
300W/600W (5 V) 300W600W/1,500W (12 V, 15 V, 24 V)
0 10050
Output current (%)
Output voltage (V)
S8VM
20
Overvoltage Protection
Consider the possibility of an overvoltage and design the system so
that the load will not be subjected to an excessive voltage even if the
feedback circuit in the Power Supply fails. When an excessive volt-
age that is approximately 140% of the rated voltage or more is out-
put, the output voltage is shut OFF, preventing damage to the load
due to overvoltage. Reset the input power by turning it OFF for at
least three minutes and then turning it back ON again. Alternatively,
turn OFF and ON the remote control signal.
The values shown in the above diagram are for reference only.
Note: 1. Do not turn ON the input power again until the cause of the
overvoltage has been removed.
2. The overvoltage protection function may be activated when
the output voltage adjuster (V.ADJ) is set to a value that ex-
ceeds +20% of the rated output voltage.
Overheat Protection
The overheat protection circuit will operate and outputs will be shut
OFF to protect the Power Supply if the ambient temperature rises,
the fan stops, or other errors cause the Power Supply's internal tem-
perature to rise. To reset the Power Supply, leave the input power
OFF long enough for the Power Supply to cool sufficiently and then
turn it ON again. Alternatively turn OFF the remote control signal
long enough to cool sufficiently and then turn it ON again.
Peak Output Current
(S8VM-30024C/60024C/15224C Only)
The peak current must satisfy the following conditions. Reduce the
peak current according to the load rate of the derating curve.
Approx. 40%
Output voltage (V)
+20%
20%
0 V
Variable range
Rated output
voltage
Overvoltage protection
operating
Ip
Ip:
Irms:
lav:
la:
D:
τ:
T:
Peak current (A)
Effective output current (A)
Rated current (A)
Continuous load current (A)
Duty
Peak current pulse width (s)
C
y
cle (s)
Ia
Irms
0 A
T
τ
D= T
τ
lav Irms=lp2 × D + la2× (1D)
Input voltage range: 180 to 240 VA
C
Peak current pulse width: 10 s max.
Duty: 35% max.
Peak current value: Within the rated peak current
Effective output current: Within the rated current
S8VM
21
Dimensions
Note: All units are in millimeters unless otherwise indicated.
Bottom Mounting Models (15-W, 30-W, 50-W, 100-W, 150-W Models)
62±0.5
67±0.3
68±0.5
15.5±0.5
8.5±0.5
8.5±0.5
8.5±0.5
84.5
84.5
33.5
Two, M3 (depth: 8 max.)
Two, M3 (depth: 8 max.)
Five, M3.5 terminal screws
13.6 max.
8.5±0.5
8.5±0.5
Two, M3 (depth: 8 max.)
17.6 max.
8.5±0.5
27
81.5
80.5
62±0.5
68±0.5
15.5±0.5
67±0.3 Two, M3 (depth: 8 max.)
Five, M3.5 terminal screws
S8VM-015@@
S8VM-015@@C
S8VM-01524A
Note: The image is the S8VM-01524 Model.
Mounting Holes
Bottom View
Side
Mounting
Bottom
Mounting
62±0.5
68±0.5
Two, 4 dia.
67±0.3
Two, 4 dia.
Note: The image is the S8VM-01524A Model.
84.5
33.5
13.6 max.
99.5
8.5±0.5
68±0.5
77±0.5
82±0.3
8.5±0.5
15.5±0.5
8.5±0.5
Two, M3 (depth: 8 max.)
Two, M3 (depth: 8 max.)
Five, M3.5 terminal screws
8.5±0.5
8.5±0.5
27
95.5
82.5
68±0.5
8.5±0.5
15.5±0.5
77±0.5
82±0.3
17.6 max.
Two, M3 (depth: 8 max.)
Two, M3 (depth: 8 max.) Five, M3.5 terminal screws
S8VM-030@@
S8VM-030@@C
S8VM-03024A
Note: The image is the S8VM-03024 Model.
Mounting Holes
Bottom View
Side
Mounting
Bottom
Mounting
77±0.5
68±0.5
Two, 4 dia.
82±0.3
Two, 4 dia.
Note: The image is the S8VM-03024A Model.
S8VM
22
68±0.5
8.5±0.5
8.5±0.5
15±0.2
83±0.5
32.5±0.5
8±0.2
23.5±0.3
120.5 27
82.5
97±0.5
17.6 max.
Three, M3 (depth: 4 max.)
Two, M3 (depth: 8 max.) Five, M3.5 terminal screws
8.5±0.5
97±0.5
15±0.2
8±0.2
23.5±0.3
124.5
84.5
83±0.5
32.5±0.5
68±0.5
8.5±0.5
33.5
13.6 max.
Three, M3 (depth: 4 max.)
Two, M3 (depth: 8 max.) Five, M3.5 terminal screws
S8VM-050@@
S8VM-050@@C
S8VM-05024A
S8VM-05024P
Note: The image is the S8VM-05024 Model.
Mounting Holes
Bottom View
Side
Mounting
Bottom
Mounting
97±0.5
68±0.5
Two, 4 dia.
83±0.5
8±0.2
15±0.2
Three, 4 dia.
Note: The image is the S8VM-05024A Model.
82.5
17.6 max.
160.5
8.5±0.5
68±0.5
135±0.5
120±0.5
8.5±0.5
15±0.2
7.5±0.2
25±0.2
30±0.5
28.5
Three, M3
(depth: 4 max.)
Two, M4 terminal screws (+V, V)
Five, M3.5 terminal screws (+S, S, , input)Two, M3 (depth: 8 max.)
84.5
35
13.6 max.
164.5
8.5±0.5
68±0.5
135±0.5
120±0.5
8.5±0.5
15±0.2
7.5±0.2
25±0.2
30±0.5
Three, M3 (depth: 4 max.)
Two, M3 (depth: 8 max.)
Two, M4 terminal screws
(+V, V)
Five, M3.5 terminal screws
(+S, S, , input)
S8VM-100@@
S8VM-100@@C
S8VM-10024A
S8VM-10024P
Note: The image is the S8VM-10024 Model.
Mounting Holes
Bottom View
Side
Mounting
Bottom
Mounting
68±0.5
135±0.5
Two, 4 dia.
120±0.5
7.5±0.2
15±0.2
Three, 4 dia.
Note: The image is the S8VM-10024A Model.
S8VM
23
13.6 max. 44
84.5
164.5
120±0.5
25±0.5
135±0.5
8.5±0.5
8.5±0.5
68±0.5
7.5±0.2
15±0.2
26.5±0.2
Three, M3 (depth: 4 max.)
Two, M3 (depth: 8 max.)
Two, M4 terminal screws
(+V, V)
Five, M3.5 terminal screws (+S, S, , input)
17.6 max.
160.5
135±0.5
8.5±0.5
8.5±0.5
68±0.5
37.5
82.5
25±0.5
7.5±0.2
120±0.5
15±0.2
26.5±0.2
Three, M3 (depth: 4 max.)
Two, M3 (depth: 8 max.)
Two, M4 terminal screws (+V, V)
Five, M3.5 terminal screws
(+S, S, , input)
S8VM-150@@
S8VM-150@@C
S8VM-15024A
S8VM-15024P
Note: The image is the S8VM-15024 Model.
Note: The image is the S8VM-15024A Model.
Mounting Holes
Bottom View
Side
Mounting
Bottom
Mounting
68±0.5
135±0.5
Two, 4 dia.
120±0.5
7.5±0.2
15±0.2
Three, 4 dia.
S8VM
24
DIN Rail Mounting Bracket Models (15-W, 30-W, 50-W, 100-W, 150-W Models)
17.6 max. 3.5 max.
14
5.4 (Sliding: 9 max.)
80.5
81.5
90.4
33
Five, M3.5 terminal screws
84.5
46.2
84.5
94.4
15 max. 35.1
3.5 max.
Five, M3.5 terminal screws
14
5.4 (Sliding: 9 max.)
S8VM-015@@D
S8VM-015@@CD
S8VM-01524AD
Note: The image is the S8VM-01524D Model.
Note: The image is the S8VM-01524AD Model.
33
17.6 max. 3.5 max.
14
82
5.4 (Sliding: 9 max.)
105.4
95.5
Five, M3.5 terminal screws
99.5 15 max.
14
109.4 Five, M3.5 terminal screws
46.2
84.5
3.5 max. 35.1
5.4 (Sliding: 9 max.)
S8VM-030@@D
S8VM-030@@CD
S8VM-03024AD
Note: The image is the S8VM-03024D Model.
Note: The image is the S8VM-03024AD Model.
S8VM
25
33
17.6 max. 3.5 max.
14
82.5
5.4 (Sliding: 9 max.)
130.4
120.5
Five, M3.5 terminal screws
15 max.
124.5
14
84.5
134.4
46.2
35.1
5.4 (Sliding: 9 max.)
3.5 max.
Five, M3.5 terminal screws
S8VM-050@@D
S8VM-050@@CD
S8VM-05024AD
S8VM-05024PD
Note: The image is the S8VM-05024D Model.
Note: The image is the S8VM-05024AD Model.
33
17.6 max. 3.5 max.
14
82.5
5.4 (Sliding: 9 max.)
170.4
160.5
Two, M4 terminal screws (+V, V)
Five, M3.5 terminal screws (+S, S, , input)
36.6
14 164.5
46.2
84.5
174.4
15 max. 3.5 max.
5.4
(Sliding: 9 max.)
Two, M4 terminal screws (+V, V)
Five, M3.5 terminal screws (+S, S, , input)
S8VM-100@@D
S8VM-100@@CD
S8VM-10024AD
S8VM-10024PD
Note: The image is the S8VM-10024D Model.
Note: The image is the S8VM-10024AD Model.
S8VM
26
17.6 max. 3.5 max.
14
5.4 (Sliding: 9 max.)
170.4
160.5
82.5
39.1
Two, M4 terminal screws (+V, V)
Five, M3.5 terminal screws (+S, S, , input)
15 max.
164.5
14
174.4
46.2
84.5
5.4 (Sliding: 9 max.)
45.6
3.5 max.
Two, M4 terminal screws (+V, V)
Five, M3.5 terminal screws (+S, S, , input)
S8VM-150@@D
S8VM-150@@CD
S8VM-15024AD
S8VM-15024PD
Note: The image is the S8VM-15024D Model.
Note: The image is the S8VM-15024AD Model.
S8VM
27
Bottom Mounting Models (300-W, 600-W, 1,500-W Models)
Mounting Holes
Bottom View
Standard
Mounting
Horizontal
Mounting
Four, 4.5 dia.
60±0.5
110±0.5
Four, 4.5 dia.
40±0.5
120±0.5
188 max.
Four, M4 (depth: 6 max.)
Four, M4 (depth: 6 max.)
105±0.5
62.5
22 max.
120±0.5 22 max.
83.5
60±0.5
11
10.5
40±0.5
25.6±0.5
25.6±0.5
Seven, M4 terminal screws
120±0.5
40±0.5
192 max.
26 max. 25
110±0.5 46 max.
101.8
83.8
21
20
60±0.5
Four, M4 (depth: 6 max.)
Four, M4 (depth: 6 max.)
Four, M5 terminal screws
Three, M4 terminal screws
260±0.5
46 max.
10
260±0.5
10
M8 (See note.)
126.5
8260±0.5
11
7.25
112±0.5
327 max.
Four, M4 (depth: 6 max.)
Four, M4 (depth: 6 max.)
Two, M8 bolts and nuts
Four, M4 terminal screws
S8VM-300@@C
Note: The image is the S8VM-60024C Model.
Note: M8 bolts and nuts for the output terminals are not included.
Note: The image is the S8VM-30024C Model.
S8VM-600@@C
S8VM-15224C
Mounting Holes
Bottom View
Standard
Mounting
Horizontal
Mounting
Four, 4.5 dia.
40±0.5
120±0.5
Four, 4.5 dia.
60±0.5
105±0.5
Mounting Holes
Bottom View
Standard
Mounting
Horizontal
Mounting
Four, 4.5 dia.
112±0.5
260±0.5
Four, 4.5 dia.
60±0.5
260±0.5
S8VM
28
Mounting Brackets
Mounting Bracket A (Bottom Mounting for 15-, 30-, and 50-W Models)
Mounting Bracket B (Bottom Mounting for 100-, and 150-W Models)
Name Model
Mounting Bracket A (bottom mounting for 15-, 30-, and 50-W models) S82Y-VM10B
Mounting Bracket B (bottom mounting for 100- and 150-W models) S82Y-VM20B
Mounting Bracket C (front mounting for 15-, 30-, 50-, 100-, and 150-W models) S82Y-VM10F
Mounting Bracket D (bottom mounting for 300-W models) S82Y-VM30B
Mounting Bracket E (horizontal bottom mounting for 300-W models) S82Y-VM30S
Mounting Bracket F (front mounting for 300-W models) S82Y-VM30F
Mounting Bracket G (DIN Rail mounting for 300-W models) S82Y-VM30D
Mounting Bracket H (bottom mounting for 600-W models) S82Y-VM60B
Mounting Bracket I (horizontal bottom mounting for 600-W models) S82Y-VM60S
Mounting Bracket J (front mounting for 600-W models) S82Y-VM60F
Mounting Bracket K (DIN Rail mounting for 600-W models) S82Y-VM60D
150
35
20±0.5
7.5
4
R2
R2
4 dia. 140±0.5
5
t = 2.3
5
Three, M3.5
c
a
c
b
a, c
b
a = Mounting holes for 15-W models
b = Mounting holes for 30-W models
c = Mounting holes for 50-W models
A
BB
B
A
A
S82Y-VM10B Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in two
places for 15-W and 30-W models
and in three places for 50-W mod-
els.)
B: M3 or M3.5
(three places)
Mounting screw tightening torque
(recommended): 0.49 N·m
a
b
a
b
a
b
40
20±0.5
4
R2
4 dia.
5
192
15±0.2
182±0.5
Three, M3.5
t = 2.3
a = Mounting holes for 150-W models
b = Mounting holes for 100-W models
A
BB
BA
A
S82Y-VM20B
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in three
places.)
B: M3 or M3.5
(three places)
Mounting screw tightening torque (rec-
ommended): 0.49 N·m
S8VM
29
Mounting Bracket C (Front Mounting for 15-, 30- 50-, 100-, and 150-W Models)
Mounting Bracket D (Bottom Mounting for 300-W Models)
33
15
4
R2
5
8.3
a, b
d, e
d, e
a, b, c, d, e
c
13.4
4 dia.
58
8097±0.5105
t = 1.6
a = Mounting holes for 15-W models
b = Mounting holes for 30-W models
c = Mounting holes for 50-W models
d = Mounting holes for 100-W models
e = Mounting holes for 150-W models
A
B
B
B
A
A
S82Y-VM10F
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in two places for 15-W, 30-W and 50-
W models and in three places for 100-W and 150-W models.)
B: M3 or M3.5
(three places)
Mounting screw tightening torque (recommended): 0.49 N·m
5 195
60 48
Three, 4.5 dia.
B
A
A
A
A
B
B
S82Y-VM30B
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in four places.)
B: M4
(three places)
Mounting screw tightening torque (recom-
mended): 1.27 N·m
S8VM
30
Mounting Bracket E (Horizontal Bottom Mounting for 300-W Models)
Mounting Bracket F (Front Mounting for 300-W Models)
6202
8
215
52 84
16
Three, 4.5 dia.
B
A
A
A
A
B
B
S82Y-VM30S
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in four places.)
B: M4
(three places)
Mounting screw tightening torque (recom-
mended): 1.27 N·m
A
A
A
A
B
B
B
60
4.5
Two, 4.5 dia.
48
67
13.5
102.3 105
243 max.
215.3
5
S
82Y-VM30F
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in four places.)
B: M4
(three places)
Mounting screw tightening torque (recom-
mended): 1.27 N·m
S8VM
31
Mounting Bracket G (DIN Rail Mounting for 300-W Models)
Mounting Bracket H (Bottom Mounting for 600-W Models)
Mounting Bracket I (Horizontal Bottom Mounting for 600-W Models)
6.6
(Sliding: 12 max.)
60
102.3
67
9.5
5.5
46
243 max.
215.3
A
A
A
A
S
82Y-VM30D
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in
four places.)
Mounting screw tightening torque
(recommended): 1.27 N·m
Note: Use a metal DIN Rail when mounting a 300-W model to a DIN Rail.
B
A
A
A
A
B
B
6202
8
215
100
72
Three, 4.5 dia.
S82Y-VM60B
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws
in four places.)
B: M4
(three places)
Mounting screw tightening
torque (recommended):
1.27 N·m
6202
8
215
84
52
16
Three, 4.5 dia.
B
A
A
A
A
B
B
S82Y-VM60S Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied
screws in four places.)
B: M4
(three places)
Mounting screw tightening
torque (recommended):
1.27 N·m
S8VM
32
Mounting Bracket J (Front Mounting for 600-W Models)
Mounting Bracket K (DIN Rail Mounting for 600-W Models)
Two, 4.5 dia.
102.3
82
98
105
13.5 4.5
5
105
257 max.
222.3
A
A
A
A
B
B
B
S82Y-VM60F
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in
four places.)
B: M4
(three places)
Mounting screw tightening torque
(recommended): 1.27 N·m
A
A
A
A
S82Y-VM60D
Using the Mounting Bracket
Screws Used
A: Accessories
(Use the supplied screws in
four places.)
Mounting screw tightening torque
(recommended): 1.27 N·m
257 max.
222.3
9.5
6.6
102.3
98
105
(Sliding: 12 max.)
Note: Use a metal DIN Rail when mounting a 600-W model to a DIN Rail.
S8VM
33
Other Items Sold Separately
Undervoltage Alarm Output Wiring Cable
Signal I/O Connector Terminals and Housing
S82Y-VM30C (for the S8VM-300@@C/600@@C/15224C)
The S82Y-VM30C is used to make a signal I/O connector. Refer to Signal I/O Connector Harness Manufacture Method on page 35 for details.
DIN Rail
Note: All units are in millimeters unless otherwise indicated.
Mounting Rail (Material: Aluminum)
Mounting Rail (Material: Aluminum)
Mounting Rail (Order Separately)
Note:
If there is a possibility that the Unit will be subjected to vibration or impact, metallic filings may be generated by abrasion. In this situation, use a
metal DIN Rail. Also, if the Unit may be subjected to sliding to either side, attach an End Plate (Model PFP-M) on each side of the Unit.
Name Model
Undervoltage Alarm Output Wiring Cable S82Y-VM10H
Signal I/O Connector Terminals and Housing
Set contains ten SPHD-001T-P0.5 Terminals and one PHDR-12VS Housing.
S82Y-VM30C
Replacement Fan Unit for 300-W Models S82Y-VM30FAN
Replacement Fan Unit for 600-W Models S82Y-VM60FAN
Replacement Fan Unit for a 1,500-W Model S82Y-VM15FAN
3,000±50
: AWG24
XHP-3 (Manufactured by JST)
to
:
S82Y-VM10H (for S8VM-05024A@/05024P@/10024A@/10024P@/15024A@/15024P@ Only)
Using the Undervoltage Alarm
Output Wiring Cable
Note: The signal I/O connector can
be connected in only one
orientation. It cannot be
connected if it is upside down.
1,000 (500) *
15(5) *
*Values in parentheses
are for the PFP-50N.
PFP-100N
PFP-50N
4.5
15 25 25
10 10
25 25
35±
0.3
7.3±
0.15
27±
0.15
1
PFP-100N2
4.5
15 25 25
10 10
1,000
25 25 15 1 1.5
29.2242735±0.3
16
1.3
4.8
35.5 35.5
1.8
1.8
M4 spring
washer
10
6.2
1
50
M4 × 8
pan-head
screw
11.5
10
End Plate
PFP-M
S8VM
34
Safety Precautions
Refer to Safety Precautions for All Power Supplies.
Precautions for Safe Use
Mounting
Ensure sufficient heat dissipation when installing the Power Supply
to increase its long-term reliability.
Use the metal plate as the mounting panel.
When cutting out holes for mounting, make sure that cuttings do not
enter the interior of the Power Supply.
The amount of installation spacing required between Power Supplies
depends on the capacity. Refer to the following table.
15/30/50/100/150-W Models
Natural cooling is used, so mount the Power Supply so that there is
airflow around it.
Improper mounting will interfere with heat dissipation and may occa-
sionally result in deterioration or damage of internal parts. Use the
Power Supply within the derating curve for the mounting direction
that is used.
The internal parts may possibly be damaged if mounting screws are
over inserted. Refer to Dimensions on page 21 to 21 for maximum
depth of insertion inside the Power Supply.
Note: If more than one S8VM-100@@@@/150@@@@ Power Supply
is mounted together, install them as far away from sources of
heat as possible. If only 20 mm of space is available on the right
and left sides of a Power Supply (see note 2.), use the Power
Supply at a load ratio of 80% or less.
300/600/1,500-W Models
A forced-air cooling method with a fan is used. To ensure sufficient
cooling, do not cover the air holes located on the side the fan is
mounted and the opposite side.
Improper mounting will interfere with heat dissipation and may occa-
sionally result in deterioration or damage of internal parts. Do not
use the Power Supply in any mounting direction other than those
specified.
The internal parts may possibly be damaged if mounting screws are
over inserted. The screws must not protrude more than 6 mm inside
the Power Supply.
Note: 1. Convection of air
2. 50 mm or more
3. (S8VM-300@@C/600@@C): 50 mm or more
(S8VM-15224C): 100 mm or more
4. 20 mm or more
5. Use a metal plate as the mounting panel.
Wiring
Connect the ground completely. A protective earthing connection
stipulated in safety standards is used. Electric shock or malfunction
may occur if the ground is not connected completely.
Minor fire may possibly occur. Ensure that input and output terminals
are wired correctly.
Do not apply more than 100-N force to the terminal block when
tightening it.
Be sure to remove the sheet covering the Power Supply for
machining before power-ON so that it does not interfere with heat
dissipation.
Minor electric shock, fire, or Product failure may
occasionally occur. Do not disassemble, modify, or repair
the Product or touch the interior of the Product.
Minor burns may occasionally occur. Do not touch the
Product while power is being supplied or immediately
after power is turned OFF.
Fire may occasionally occur. Tighten terminal screws to
the specified torque.
15-, 30-, 50-, 100-, and 150-W models (1.6 N·m)
300-, 600-, and 1,500-W models (M4; 1.6 N·m,
M5; 2.50 N·m, M8 bolts and nuts; 10.8 N·m)
Minor injury due to electric shock may occasionally occur.
Do not touch the terminals while power is being supplied.
Minor electric shock, fire, or Product failure may
occasionally occur. Do not allow any pieces of metal or
conductors or any clippings or cuttings resulting from
installation work to enter the Product.
!CAUTION
Standard Mounting
(DIN Rail Mounting Bracket Models) Standard Mounting
(Bottom Mounting Models)
Horizontal Mounting Face-up Mounting
(See note 2.)
(See note 1.)
(See note 1.)
(See note 2.)
(See note 3.)
(See
note 1.)
(See
note 1.)
(See note 1.)
(See note 2.)
(See
note 1.)
(See note 3.)
Note: 1. Convection of air
2.
3. A metal plate is recommended
as the mounting surface.
Capacity Dimensions
15 W 20 mm min.
30 W
50 W
100 W 50 mm min. (See note.)
150 W
(See note 1.)
(See note 3.)
(See note 2.)
S8VM
(See
note
1.)
(See
note
1.)
(See note 3.)
(See note 5.)
(See note 4.)
S8VM
35
Use the following material for the wires to be connected to the S8VM
to prevent smoking or ignition caused by abnormal loads.
Over heating or fire can result from inadequately sized wiring
materials when problems occur at the load. As a general rule, always
select wire sizes suitable for at least 1.6 times the rated current.
Refer to the wiring manufacturer's recommended allowable current
and voltage drop specifications for information when selecting wiring
materials.
Recommended Wire Sizes
The current rating for the output terminals on the S8VM-300@@C is
40 A per terminal. The current rating for the output terminals on the
S8VM-600@@C is 60 A per terminal. Use two terminals together if a
current exceeding the terminal rating is used.
Use min. 60°C or 60/75°C wire.
Use copper conductors only.
Undervoltage Alarm Output Connector
Harness Manufacture Method
The following products are provided with the S8VM-05024A@/P@,
S8VM-10024A@/P@ and S8VM-15024A@/P@ for the undervoltage
alarm transistor output wiring.
Be sure to prepare the connector according to the following instruc-
tions to ensure correct wiring. For details, refer to the JST catalog.
Use a wire size of AWG28 to AWG22.
The guideline for the length of sheath to be stripped from the wire is
2.1 to 2.6 mm.
Use either a YC or YRS Crimping Tool (manufactured by JST) to
crimp the terminal and wire.
Be sure to insert the crimped terminal wires into the housing fully
until a click is heard. Also, make sure that the wires attached to the
housing are securely locked in place.
Signal I/O Connector Harness
Manufacture Method
The S8VM-300@@C/600@@C/15224C are using PHD connector
(manufactured by JST).
Be sure to prepare the connector according to the following instruc-
tions to ensure correct wiring. For details, refer to the JST catalog.
Use a wire size of AWG26 to AWG22.
The guideline for the length of sheath to be stripped from the wire is
2.3 mm.
Use a YC Crimping Tool (manufactured by JST) to crimp the termi-
nal and wire.
Applicable wire per barrel size is UL1007 (standard wire) and its
equivalent standard wire can be used. Use UL1061 or its equiva-
lent standard wire for AWG22 wires, because the wire insulation
outer diameter of UL1061 is small.
Be sure to insert the crimped terminal wires into the housing fully
until a click is heard. Also, make sure that the wires attached to the
housing are securely locked in place.
Installation Environment
Do not use the Power Supply in locations subject to shocks or
vibrations. In particular, install the Power Supply as far away as
possible from contactors or other devices that are a vibration source.
Install the Power Supply well away from any sources of strong, high-
frequency noise and surge.
Operating Life
The life of a Power Supply is determined by the life of the electrolytic
capacitors used inside. Here, Arrhenius Law applies, i.e., the life will
be halved for each rise of 10°C or the life will be doubled for each
drop of 10°C. The life of the Power Supply can thus be increased by
reducing its internal temperature.
Ambient Operating and Storage
Environments
Store the Power Supply at a temperature of 25 to 65°C and a
humidity of 25% to 90%.
The Internal parts may occasionally be deteriorated or damaged.
Do not use the Power Supply outside the derating range (i.e., under
conditions indicated by the shaded area ( ) in the derating
curve diagrams on pages 11 and 15.)
Use the Power Supply at a humidity of 30% to 85%.
Do not use the Power Supply in locations subject to direct sunlight.
Do not use the Power Supply in locations where liquids, foreign
matter, or corrosive gases may enter the interior of the Power Supply.
Overload Protection
If the Power Supply has been short-circuited or supplied with an
overcurrent for longer than 30 seconds, the internal parts of the
Power Supply may occasionally be deteriorated or damaged.
Internal parts may possibly be deteriorated or damaged if the Power
Supply is used for applications with frequent inrush current or
overloading at the load end. Do not use the Power Supply for such
applications.
Dielectric Strength Test
If a high voltage is applied between an input and the case (PE/FG), it
will pass though the LC of the built-in noise filter and energy will be
stored. If the high voltages used for dielectric strength testing are
turned ON and OFF with a switch, timer, or similar device, impulse
voltage will be generated when the voltage is turned OFF and
internal parts may possibly be damaged. To prevent the generation
of impulse voltages, reduce the applied voltage slowly with a variable
resistor on the test device or turn the voltage ON and OFF at the
zero-cross point.
When performing the test, be sure to short-circuit all the output
terminals to protect them from damage.
Check the waveform of the applied voltage while testing. High
voltage due to distortions of the applied voltage may be produced
depending on the type of testing equipment.
Terminal Model Recommended wire size
Input S8VM-015@@@@
S8VM-030@@@@
S8VM-050@@@@
S8VM-100@@@@
S8VM-150@@@@
(M3.5)
AWG24 to AWG14
(0.205 to 2.081 mm2)
S8VM-300@@C
S8VM-600@@C
S8VM-15224C
(M4)
AWG20 to AWG10
(0.52 to 5.27 mm2)
Output S8VM-015@@@@
S8VM-030@@@
S8VM-050@@@@ (M3.5)
AWG24 to AWG14
(0.205 to 2.081 mm2)
S8VM-100@@@@
S8VM-150@@@@ (M4) AWG24 to AWG12
(0.205 to 3.309 mm2)
S8VM-30005/12C/15C (M4) AWG16 to AWG10
(1.32 to 5.27 mm2)
S8VM-30024C (M4) Twisted wires
AWG18 (0.81 mm2)
S8VM-60005C/12C/15C (M5) AWG14 to AWG8
(2.08 to 8.3 mm2)
S8VM-60024C (M5) Twisted wires
AWG14 (2.08 mm2)
S8VM-15224C (M8 bolts
and nuts)
AWG8 to AWG4
(8.3 to 21.09 mm2)
Connector S8VM-
05024A@/P@S8VM-10024A@/P@Manu-
factured
by JST
S8VM-15024A@/P@
S3B-XH-A-1 BH3B-XH-2
Housing (provided) XHP-3
Terminal (provided) BXH-001T-P0.6 or SXH-001T-P0.6
Connector S8VM-300@@C/600@@C/15224C Manu-
factured
by JST
S12B-PHDSS
Housing PHDR-12VS
Terminal SPHD-001T-P0.5 or BPHD-001T-P0.5
S8VM
36
Insulation Test
When performing the test, be sure to short-circuit all the output
terminals to protect them from damage.
Inrush Current
When two or more Power Supplies are connected to the same input,
inrush current is added to the total current. Select fuses and circuit
breakers giving sufficient consideration to the fusing or operating
characteristics so that fuses will not burn and breakers will not break
due to inrush current.
Output Voltage Adjuster (V.ADJ)
Default Setting: Set at the rated voltage
Adjustable Range: Adjustable with output voltage adjuster (V.ADJ) on
the front panel of the Power Supply from 20% to 20% of the rated
output voltage (10% to 20% of the rated voltage for S8VM-
@@@24A@/P@). Turning clockwise increases the output voltage and
turning counterclockwise decreases the output voltage.
The output voltage adjuster (V.ADJ) may possibly be damaged if it is
turned with unnecessary force. Do not turn the adjuster with
excessive force.
After completing output voltage adjustment, be sure that the output
capacity or output current does not exceed the rated output capacity
or rated output current.
The output voltage may increase beyond the allowable voltage range
(up to +20% of the rated voltage) depending on the operation of the
output voltage adjuster (V.ADJ). When adjusting the output voltage,
check the output voltage of the Power Supply and be sure that the
load is not damaged.
When increasing the output voltage to more than +20% of the rated
value using the output voltage adjuster (V. ADJ), the overvoltage
protection function may operate.
(S8VM-@@@24A@/P@ Only)
Turn the output voltage adjuster (V.ADJ) slowly. When decreasing the
output voltage quickly, or when adjusting the output voltage to less
than 10% of the rated value, the undervoltage alarm function may
operate.
Ripple
(S8VM-15224C Only)
The rated ripple noise voltage was measured using a measuring cir-
cuit that conforms to the JEITA standard RC-9131A.
Dielectric Strength
When testing the dielectric strength, some testing devices will apply
a much higher voltage than expected. Always check the applied
waveform before testing the dielectric strength.
Remote Sensing Function
100/150-W Models
If the +S and S terminals are opened by removing the short bar, the
overvoltage protection function will be activated and the output volt-
age will be cut off.
300/600/1,500-W Models
The stability and accuracy of the output will deteriorate if the +S and
S pins are open. Always connect the +S and S pins.
Series Operation
Two Power Supplies can be connected in series.
The (±) voltage output can be accomplished with two Power Sup-
plies.
Series Operation
Note: 1. If the load is short-circuited, a reverse voltage may be ap-
plied inside the Power Supply unit, and this may possibly
cause the deterioration or damage of the Power Supply unit.
Connect the diode as shown in the figures. Use the following
guidelines to select the diode to be connected.
2. Though Power Supplies having different specifications can
be connected in series, the current flowing through the load
must not exceed the smaller rated output current.
Parallel Operation
15/30/50/100/150-W Models
The Power Supply is not designed for parallel operation.
S8VM
Coaxial cable
1.5 m 50 ΩOscilloscope
Frequency band
100 MHz
R: 50 Ω
C1: 4700 pF
C2: 22 uF
C3: 0.47 uF
C1 C2
CN
Load
+V +S V S
+V
C3
R
+
V
Output Voltage (±)
Type Schottky Barrier diode
Dielectric strength
(VRRM)
Twice the rated output voltage or
above
Forward current (IF) Twice the rated output current or
above
+V
V
AC (L)
AC (N)
AC (L)
AC (N)
+V
V
AC (L)
AC (N)
AC (L)
AC (N)
+V
V
+V
V
AC (L)
AC (N)
AC (L)
AC (N)
+V
V
+V
V
Incorrect
S8VM
37
300/600/1,500-W Models
If the CB pin (pin 5 on CN) and the CBG pin (pin 6 on CN) are con-
nected, the current balance function will operate and parallel opera-
tion will be possible at 80% or less of the total output capacity.
Up to 2 Power Supplies can be connected.
Use 2-conductor shielded cable as connection wire (* 1).
Adjust the output voltage of each Power Supply to the same value
within 1% of the rated voltage or so that the difference in the output
voltage is 100 mV or less, whichever is smaller, using the output volt-
age adjuster (V. ADJ).
Parallel operation is used to increase static capacity. The output volt-
age may drop with sudden load fluctuations.
There may be steps in the rising waveform of the output voltage dur-
ing parallel operation.
Remove the standard supplied connector and prepare a connector
harness separately.
In Case There Is No Output Voltage
15/30/50/100/150-W Models
The possible cause for no output voltage may be that the overload
protection or overvoltage protection has operated. The internal pro-
tection circuit may operate if a large amount of surge voltage such as
a lightening surge is applied to the input.
If there is no output voltage even after checking the following points
please contact your OMRON representative.
Check the overload protected status.
Check whether the load is in overload status or is short-circuited.
Remove the load wires when checking.
Attempt to clear the overvoltage or internal protection
function.
Turn OFF the input power once and leave it OFF for at least 3 min-
utes. Then turn it ON again to see if this clears the condition.
Check whether the +S terminal and S terminal are open, i.e., if the
short bar has been removed. (S8VM-100@@@@/S8VM-150@@@@
only)
Check if the output voltage has been adjusted to more than +20% of
the rated voltage using the output voltage adjuster (V. ADJ).
300/600/1,500-W Models
The possible cause for no output voltage may be that the overcurrent
protection, overvoltage protection, or overheat protection has oper-
ated. Alternatively, the built-in fan may have stopped or the remote
control function may be OFF.
If there is no output voltage even after checking the following five
points, please contact your OMRON representative.
Check the overload protected status.
Check whether the load is in overload status or is short-circuited.
Remove the load wires when checking.
Attempt to clear the overvoltage protection function.
Turn OFF the input power once and leave it OFF for at least 3 min-
utes. Then turn it ON again to see if this clears the condition.
Check whether the +S terminal and S terminal are open.
Check if the output voltage has been adjusted to more than +20% of
the rated voltage using the output voltage adjuster (V. ADJ).
Check the overheat protected status.
Turn OFF the input power and leave it OFF until the Power Supply
cools sufficiently. Turn it ON again to see if this clears the condition.
Check if the built-in fan motor has stopped.
Check if the built-in fan motor has stopped. The fan is a consumable
part.
Check the remote control function.
Check if the +RC and -RC pins are open. Make the correct connec-
tions as specified.
Fan Replacement
300/600/1,500-W Models
Consult with OMRON regarding fan replacement. OMRON will
replace fans for a fee. A replacement Fan Unit (S82Y-VM@@FAN) is
available. Use the curve in the graph below as a rough measure of
replacement timing.
The Power Supply will not conform to safety standards if the cus-
tomer replaces the fan.
Buzzing Noise when the Input Is
Turned ON
50/100/150/300/600/1,500-W Models
A harmonic current suppression circuit is built into the input power.
This circuit can create noise when the input is turned ON, but it will
last only until internal operation stabilizes and does not indicate any
problem in the Power Supply.
DIN Rail Mounting
15/30/50/100/150/300/600-W Models
When mounting to a DIN Rail, lower the
S8VM onto the Rail until the Rail stopper
clicks into place, hook section A over the
edge of the Rail and push in the direction of
B.
To remove the S8VM from the DIN
Rail, insert a screwdriver into section
C and pull the S8VM away from the
Rail.
S8VM
CN
CB CBG
S8VMCN
CB CBG
*1
AC (L)
AC (N)
AC (L)
AC (N)
+V
V
+V
V
Correct
10
7
5
3
2
1
040507060 80 100
Expected service life (years)
Exhaust temperature: °C
Note: Expected fan service life
Exhaust temperature 45°C: 45,000 hours
Exhaust temperature 80°C: 11,000 hours
(A)
(B)
30 mm min.
Rail stopper
(C)
S8VM
38
In the interest of product improvement, specifications are subject to change without notice.
ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.
To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527.