S82L-1524 [OMRON]
Power Supply Module;
| 型号: | S82L-1524 |
| 厂家: | 
OMRON ELECTRONICS LLC |
| 描述: | Power Supply Module |
| 文件: | 总12页 (文件大小:260K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Switching Power Supply
S82L
Highly Reliable Power Supply Offers
15-Year Service Life
ꢀ Model ranges from 30 to 150 W with
5, 12, 15, or 24 V output voltages
ꢀ 85 to 132 VAC or 170 to 264 VAC
selectable input voltage
ꢀ Equipped with overvoltage and overload
protection, remote sensing and remote
control functions
ꢀ Parallel connection of two 150-W power
supplies possible for loads drawing high
current
ꢀ 7-year warranty
Ordering Information
SWITCHING POWER SUPPLIES
Rated input voltage
120/240 switchable
Power ratings
30 W
Output
Current
Part number
Voltage
5 VDC
6 A max.
S82L-0305
S82L-0312
S82L-0315
S82L-0324
S82L-0605
S82L-0612
S82L-0615
S82L-0624
S82L-1005
S82L-1012
S82L-1015
S82L-1024
S82L-1505
S82L-1512
S82L-1515
S82L-1524
12 VDC
15 VDC
24 VDC
5 VDC
2.5 A max.
2 A max.
1.3 A max.
12 A max.
5 A max.
60 W
12 VDC
15 VDC
24 VDC
5 VDC
4 A max.
2.5 A max.
20 A max.
9 A max.
100 W
150 W
12 VDC
15 VDC
24 VDC
5 VDC
7.2 A max.
4.6 A max.
30 A max.
13.5 A max.
10.8 A max.
7 A max.
12 VDC
15 VDC
24 VDC
Note: Mounting brackets are provided with each power supply in the table above. For accessories, refer to the Accessories Section on
the following page.
S82L
S82L
MODEL NUMBER LEGEND
1. Power ratings
2. Output voltage
S82L -
03: 30 W
06: 60 W
10: 100 W
15: 150 W
05: 5 V
1
2
12: 12 V
15: 15 V
24: 24 V
ACCESSORIES
Description
Parallel connection kit for S82L 150-W Power Supplies (see note)
Part number
S82Y-L15A
Note: Kit includes a bar to connect the outputs and a shielded wire to connect the current balance and -S terminals.
Specifications
Power Rating
30 W
60 W
100 W
150 W
Efficiency (typical)
Life expectancy
74% to 83% (depending on types)
15 yrs. min. (Used at 40°C at the rated input with a 50% load.)
Input
Voltage (AC only)
Frequency
120 V (85 to 132 V) or 240 V (170 to 264 V) selectable
47 to 450 Hz
Current
120 V input
240 V input
120 V input
240 V input
120 V input
240 V input
0.95 A max.
0.6 A max.
0.5 mA max.
1 mA max.
15 A max.
30 A max.
Yes
1.5 A max.
0.8 A max.
2.5 A max.
1.4 A max.
3.5 A max.
2.1 A max.
(with rated I/O)
Leakage current
(with rated I/O)
Inrush current
(with rated I/O)
Noise filter
Output
Voltage fluctuation
Voltage adjustment range
Ripple
2% max. (combined input, load, and temperature variations)
±10% adjustable with variable resistor (V.ADJ)
1% (p-p) max.
Input variation influence
Load variation influence
0.3% max. (85 to 132 VAC/170 to 264 VAC input, 100% load)
0.4% max. (with rated input, 0% to 100% load)
0.02%/°C max. (0° to 55°C, with rated input and output)
Temperature variation influence
Rise time
300 ms max. (output voltage rise to 90%, with rated input and output)
20 ms min.
Hold time
Additional functions
Overload protection
105% max. of rated load current (typical), inverted L drop, automatic reset (output
shut off after 5 s, reset by input reset)
Overvoltage protection
Remote sensing
120% of rated output voltage (typical), shut-off type, reset by input reset
Yes
Yes
Remote control
Parallel connection
No
Yes
(This table continues on the next page.)
S82L
S82L
Specifications Table -- continued from previous page
Power Rating
30 W
60 W
100 W
150 W
Characteristics
Ambient temperature
Ambient humidity
Dielectric strength
Operating
Storage
See the derating curve in the Engineering Data section
-- 2 5 ° to 85°C (--13° to 185°F)
Operating
Storage
25% to 85%
20% to 95%
3.75 VAC, 50/60 Hz for 1 min (between all inputs and outputs)
2.5 VAC, 50/60 Hz for 1 min (between all inputs and the housing)
500 VDC for 1 min (between all outputs and the housing)
Insulation resistance
Vibration resistance
100 MΩ min. at 500 VDC (between all outputs and inputs/housing)
Malfunction: 10 to 55 Hz, 0.825 mm double amplitude (approx. 5G) each in X, Y, and
Z directions for 2 hrs.
2
Shock resistance
Input indicator
Malfunction: 294 m/s (30G), 3 times each in ±X, ±Y, and ±Z directions
Orange LED
Output indicator
Electromagnetic interference
Approved standards
Weight
Green LED
Meets FCC class B standards
UL 1012, CSA E.B.1402, VDE 0160, VDE 0805, and EN60950 (IEC 950)
910 g max.
990 g max.
1.1 kg max.
2.2 kg max.
Engineering Data
DERATING CURVE
OVERLOAD PROTECTION
Overload protection prevents damage to the load as well as the
Power Supply itself due to current overload. If the load current
rises above the overload set value (105% to 135% of the rated
load current), the protective function will engage and the voltage
will be reduced. Reset is automatic, so the power supply will
return to normal operation when the overload condition is
corrected.
Note: The derating curve differs depending on the mounting
position of the Power Supply. The curve shown here was
obtained with the Power Supply mounted in the standard
position.
Forced-air
cooling
If an overload condition continues for more than 5 s, the output
will be shut off. In this situation, reset is not automatic. The input
power must be turned off for at least 30 s, and then turned on
again to reset the power supply.
Natural air
cooling
Rated voltage
Ambient temperature ( C)
Mounting Position for Standard Installation
Output current (%)
Output shut off after 5 s
S82L
S82L
OVERVOLTAGE PROTECTION
The protective function prevents damage to the load as well
as the power supply itself due to overvoltage. The output is
shut off if the output voltage rises above about 120% of the
rated voltage. The input power must be turned off for at least
30 s, and then turned on again to reset the power supply.
Overvoltage
Approx.
20%
10%
Rated output
voltage
Variable
--10%
INRUSH CURRENT, RISE TIME, HOLD TIME
Input ON
Input OFF
AC input voltage
AC input current
Output voltage
Inrush current on input application
Rise time
300 ms, max
Hold time
20 ms, min
S82L
S82L
Nomenclature
S82L SWITCHING POWER SUPPLY
5
4
6
7
5
4
1
6
7
8
9
10
1
3
2
CB
11
8
3
2
10
9
12
1. DC Output Terminals: Connect load wiring.
2. Input Terminals: Connect input wiring.
8. Remote Control Terminals: Connected to an
external device to enable remote control of the output
while the input voltage is being applied.
3. Input Voltage Selector Terminals: Switch the input
voltage by connecting or removing the short bar.
(short circuited: 100 to 120 V; open: 200 to 240 V)
9. ACG Terminal: The intermediate point of the input
filter. Shorted to FG terminal for normal operation.
10. FG Terminal: Shorted to the housing, and connected
4. V. ADJ Adjuster: Use to adjust the output voltage.
to a ground line.
5. Output LED Indicator: Lights when DC current is
11. Current Balance Terminal: Connected to the CB
being output.
terminal of another Power Supply wired in parallel.
6. Input LED Indicator: Lights when input is supplied.
12. NC Terminals: Leave unconnected.
7. Remote Sensing Terminals: Correct the voltage
drop in the load lines. Shorted for normal operation.
Operation
Note: 1. Be sure to use high capacity wiring: When the voltage
drop in the load wiring is large, the overvoltage protec-
tion function might engage due to the increase in volt-
age to correct the voltage drop.
REMOTE SENSING FUNCTION
This function corrects a voltage drop in the load wiring. When
using the remote sensing function, remove the short bars from
the remote sensing terminals as shown in the diagram provided
here.
2. If the +S and -V terminals are left unconnected, the
overvoltage protection function will engage and the
output voltage will be cut off. If the -S and -V terminals
are left unconnected, the output voltage will increase
about 5%.
Remove the
short bars
Remote sensing connection
(2-wire shielded cable)
Load
Load wiring
S82L
S82L
Remove the
short bar
REMOTE CONTROL FUNCTION
This function allows the output voltage to be turned on and off
with an external signal (as long as the input voltage is being
applied). When using the remote control function, remove the
short bar from the remote control terminals and connect a switch
or transistor as shown in the diagram provided here.
Voltage level
Output voltage
Use a transistor with V > 20 V and I > 5 mA.
CE
c
Low (0.8 V max.)
High (2 V min.)
ON
OFF
Note: The remote control circuit is insulated from input, output,
and GR.
BLOCK DIAGRAM
S82L-03
S82L-06
S82L-10
(30 W)
(60 W)
(100 W)
GR
FG
Short bar
Rectifier
Rectifier
AC (L)
Input
+ V
DC Output
-- V
+ S
Remote sensing
Fuse*
Noise filter
AC (N)
Inrush current prevention
120/240 V
Control circuit
-- S
Rectifier
+ RC
Overload
detection
Remote control
circuit
Remote control
-- R C
*Fuse rating
30 W: 2 A
60 W: 3 A
100 W: 5 A
Auxiliary power circuit
Detection
Overvoltage
detection
Photocoupler
S82L
S82L
S82L-15
(150 W)
GR
Short bar
FG
Rectifier
Rectifier
+ V
DC Output
AC (L)
Input
Fuse*
Noise filter
AC (N)
-- V
Inrush current
prevention
Overload
detection
+ S
120/240 V
Detection
Remote sensing
*Fuse rating
150 W: 5 A
-- S
Overvoltage
detection
CB Current balance
Control circuit
+ RC
Driver
Remote control
circuit
Remote control
-- R C
Auxiliary power circuit
SWITCHING THE INPUT VOLTAGE
BETWEEN 100 TO 120 V AND
200 TO 240 V
GENERATING OUTPUT VOLTAGES (±)
S82L power supplies may be connected to provide floating output
voltages (±) as shown below.
Select 100 to 120 V or 200 to 240 V input voltage by shorting or
opening the input voltage switching terminals, as shown in the
diagram below. (Factory set to 200 to 240 V operation.)
100 to 120 V Input
short bar
(shorted with
the short bar)
SERIES CONNECTION
The output of two power supplies can be combined in series to
double the output voltage as shown below.
100 to 120
VAC
200 to 240 V Input
Open
200 to 240
VAC
S82L
S82L
PARALLEL CONNECTION
(MASTER/SLAVE OPERATION)
150 W MODELS ONLY
Wiring
Use high capacity wiring between the power supplies and the
load in order to minimize voltage drops due to wire resistance.
The parallel connection kit S82Y-L15A includes a bar to connect
the outputs, and shielded wire to connect the current balance
and S terminals.
The model S82L power supply has a built-in current balance
function, allowing two units to be connected in parallel
(master/slave operation) increasing the output current.
To ensure that the voltage drop is the same between each
power supply and load, the length and cross sectional area of
the wires used should be uniform, and the system should be
wired as in the figure shown.
Master/Slave Operation
When connecting two Power Supplies for master/slave
operation, use shielded wire to connect the current balance
(CB) and -S terminals as shown below.
Shielded wire
Shielded wire
Shielded wire
+V
-- V
+V
-- V
+V
+V
-- V
CB --5
CB --5
CB --5
CB --5
+V
-- V
+V
-- V
CB --5
CB --5
-- V
(--) (+)
Load
(--) (+)
Load
(--) (+)
Load
In master/slave operation, the power supply with the lower voltage
adjustment set value (controlled by V. ADJ) is the master unit, and
the power supply with the higher voltage adjustment set value is
the slave unit.
Note: A maximum of two units can be connected in parallel.
ADJUSTING THE OUTPUT VOLTAGE
Note: 1. We recommend setting equal output voltages to both
power supplies for safety reasons. If the master power
supply stops operation by input failure or breakage,
the set output value of the slave power supply will be
output.
Follow the procedure below when adjusting the output voltage
of a master/slave system.
1. Connect the two power supplies in parallel and decide
which unit will be the master.
2. Even if one power supply fails to operate, both output
LED indicators may be lit if the other power supply is in
operation.
2. Turn the voltage adjuster (V. ADJ) of the slave unit all the
way clockwise.
3. Adjust the voltage adjuster (V. ADJ) of the master unit to
the desired voltage.
3. 30, 60, and 100 W type power supplies cannot perform
parallel operation as they are not provided with current
balance function.
4. Slowly turn the voltage adjuster (V. ADJ) of the slave unit
counterclockwise and set value just before output voltage
drop.
4. Be sure to use shielded wires when connecting CB
and -S terminals to prevent noise interference with
operation.
S82L
S82L
Dimensions
Unit: mm (inch)
SWITCHING POWER SUPPLIES
45
(1.77)
120
29.5
S82L-03
29.5
Two,
4
7.5
25
10
10
Two, M3
150
(5.91)
130
Two,
4
10
4
10
25
8
Two, M3
29.5
29.5
Two,
Two, M3
29.5
29.5
8
7.5
100
25
max.
10
10
S82L-06
55
(2.17)
120
29.5
29.5
7.5
Two,
4
25
10
10
Two, M3
150
(5.91)
130
Two,
4
10
10
25
Two, M3
8
29.5
29.5
Two,
4
Two, M3
29.5
29.5
8
7.5
100
25
max.
10
10
S82L-10
120
29.5
29.5
60
(2.36)
7.5
25
Two,
4
10
10
Two, M3
190
(7.48)
170
Two,
4
10
4
10
25
8
Two,M3
29.5
29.5
Two,
Two, M3
29.5
29.5
8
7.5
100
25
max.
10
10
S82L
S82L
Unit: mm (inch)
S82L-15
120
110
(4.33)
7.5
Eight, M3
200
(7.87)
45
77.5
7.5
45
37.5
37.5
Four, M3
7.5
45
25
max.
37.5
37.5
MOUNTING BRACKETS (INCLUDED WITH POWER SUPPLIES)
30/60/100 W
Bottom Mounting
Mounting Holes --
Bottom Mounting
5
2.2
30 W: 46 max.
60 W: 56 max.
100 W: 61 max.
Four, M3
3.5
35
Two, 4-dia.
5
4
3.6-dia.
7.5
140 (5.51)
161 max.
35 (1.38)
45
31.5
(1.24)
3.5
5
6
5
5
20
30
Front Mounting
Mounting Holes --
Front Mounting
30 W: 46 max.
60 W: 56 max.
100 W: 61 max.
Four, M3
35
30/60 W: 181 max.
100 W: 221 max.
30/60 W: 170 (6.69)
100 W: 210 (8.27)
S82L
S82L
30/60/100 W
Side Mounting
Mounting Holes --
Side Mounting
5
2.2
146 max.
75
35
3.5
Two, 4-dia.
5
4
3.6-dia.
7.5
Four,
M3
35 (1.38)
45
30/60 W: 181 max.
100 W: 221 max.
30/60 W: 170 (6.69)
100 W: 210 (8.27)
31.5
(1.24)
3.5
5
6
20
5
5
30
35
150 W
Bottom Mounting
Mounting Holes --
Bottom Mounting
141 max.
130 (5.12)
Two, 5-dia.
Two, 3.2-dia.
Four, M4
40
146 max.
40
(1.57)
45
(1.77)
60
12.5
20
10
15
Mounting Holes --
Front Mounting
Front Mounting
141 max.
130 (5.12)
Four, M4
40
201 max.
Mounting Holes --
Side Mounting
Side Mounting
146 max.
40
Four, M4
220
(8.66)
231 max.
Note: The power supply will be separated from
the mounting surface by 5 mm when the
mounting brackets are used.
S82L
S82L
Precautions
Attaching Mounting Brackets
30/60/100 W
MOUNTING
Providing adequate cooling when installing the power supply
will extend its long-term reliability.
•
•
Insert the hook on the corner of the bracket into the hole
provided in the power supply housing. First, attach the
bracket to the unit with one screw and then install the unit.
Install the unit in a location with adequate air flow. As shown
in the diagram below, the power supply is cooled by natural
air currents.
150 W
Installing Two or More Power Supplies
Insert the hook on the corner of the bracket into the hole
provided in the power supply housing. Screw in both screws
for each bracket and install the unit.
•
When installing two or more power supplies side-by-side,
allow at least 20 mm (0.79 in) space between them, as
shown in the diagram below.
Power supply housing
•
Install the power supply on a metal plate and use forced-air
cooling.
20 mm min.
Mounting brackets
Hook
Holes
Air
Metal plate
Conditions of Guarantee
The guarantee on these products is valid for 7 years from the
date of shipment from the factory.
Exclusions
Failure under any of the following circumstances is excluded from
the guarantee.
The following conditions apply to the guarantee:
1. The average ambient temperature must be 40°C max.
2. The average load must be 80% max.
1. Inappropriate handling or usage.
2. Failure resulted from other causes than those from this
product.
3. Standard installation (bottom mounting).
3. Modification or repair applied to the product by other than
OMRON-certified servicemen.
Note: The maximum values must remain within the limits of the
derating curve.
4. Failure caused by natural disaster, war, riot, etc.
If product failure is caused by OMRON within the term of
guarantee, OMRON shall be responsible for replacement or
repairs.
NOTE: DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters to inches divide by 25.4.
OMRON ELECTRONICS, INC.
OMRON CANADA, INC.
One East Commerce Drive
885 Milner Avenue
Schaumburg, IL 60173
Scarborough, Ontario M1B 5V8
1-800-55-OMRON
416-286-6465
Cat. No. GC PS5
7/99
Specifications subject to change without notice.
Printed in U.S.A.
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