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Murr Elektronik 85069 Manual De Instrucciones página 2

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Idiomas disponibles

In order to take the best advantage of the features that this
power supply has to offer and to ensure long term reliability
MPS40-3x400-500/24
for your equipment, please read these instructions carefully
THREE PHASE
before installation and use. They should be retained for
Art. No. 85069
future reference. This power supply can be adapted to a
OPERATING INSTRUCTIONS
lead-acid-battery and work with battery.
series
product of the
SWITCH MODE POWER SUPPLY
MPS40-3x400-500/24 THREE PHASE
ART. NO. 85069
ART. NO. 85069
INPUT: 3W+PE, Y 400-500V, 50/60Hz, 1.7A
INPUT: 3W+PE, Y 400-500V, 50/60Hz, 1.7A
OUTPUT: 24V DC 40A
OUTPUT: 24V DC 40A
SELV
SELV
product of t e
series
IP20
t 60 C
t 60 C
o
o
UL t 50 C
UL t 50 C
o
o
h
Made in Finland
IND.CONT.EQ.
E200364
61RM
INPUT
3x400-500VAC
L1
L2
L3
1
2
3
4
3
4
1
2
5
6
282
193
36
3x400-500 VAC
4
4
L3
L3
7, 8
DC+
DC+
3
3
L2
L2
9, 10
DC-
DC-
2
2
L1
L1
MPS40-3x400-500/24
MPS40-3x400-500/24
1
1
PE
4
L3
7, 8
DC+
3
L2
9, 10
DC-
2
L1
23
MPS40-3x400-500/24
1
Art. No. 85069
7
DC+
3x400-500 VAC
8
4
4
DC+
L3
L3
3
3
6
L2
L2
2
2
5
A1
L1
L1
+
MPS40-3x400-500/24
MPS40-3x400-500/24
A2
-
1
1
9
DC-
PE
10
DC-
25
For achieving higher lifespan, the contacts
of contactor can be connected in parallel.
(1) General
This unit employs many novel features previously unavailable in an industrial power supply. It has been designed to withstand the
high levels of interference found in heavy industry and has emission levels low enough for it to be used in residential, commercial
and light industrial environments.
This supply has a high level of reserve power. This enables loads with significant inrush current to be supported and will also ensure
that circuit breakers will trip in the event of a short circuit.
For manual control of the output voltage, two push buttons are provided. Operation of the red "TESTSTOP" button will turn the
voltage off. Operation of the green "RESTART" button will turn it on.
WARNING!! the output voltage always comes on when the supply is turned on.
An alarm contact is provided which will open as the unit approaches shut down due to overload or excessive temperature brought
about by lack of ventilation. If no action is taken and the temperature continues to rise, the unit will shut down but may be reset after
cooling by means of the "RESTART" BUTTON.
When the power supply is connected to the mains, there is no inrush current. The supply will monitor low supply voltage and phase
loss.
The power supply can be configured with DIP switches to work with battery back-up. A lead-acid battery can be held on float charge
with the alarm contact operating as low voltage release to prevent deep discharge.
NOTE: The unit is intended to be connected to star-connected network where the main voltage is 3x400-500 VAC (Max. Line to
Earth voltage 290 VAC)
CAUTION
- Read instruction manual before installation
- Read instruction manual before installation
and use. Two operating modes available
- Risk of electric shock. Do not open the
- Risk of electric shock. Do not open the
case. No user serviceable parts inside.
case. No user serviceable parts inside.
ATTENTION
- Reportez-vous aux instructions de service
avant le montage et la mise en service de l'appareil.
avant le montage et la mise en service de l'appareil.
Deux modes op ratoires sont possibles
Deux modes op ratoires sont possibles
é
- Risque d' lectrocution. Ne pas ouvrir l'appareil.
- Risque d' lectrocution. Ne pas ouvrir l'appareil.
é
Ne contient pas de pi ces interchangeables
Ne contient pas de pi ces interchangeables
è
par l'utilisateur
OUTPUT
DC24V/40A
+
+
-
-
+
5
6
7
8
9
10
26
7
8
9
10
193
120
3
Art. Nro. 89504
3x400-500 VAC
4
4
L3
L3
DC+
DC+
3
3
L2
L2
DC-
DC-
2
2
L1
L1
MPS40-3x400-500/24
MPS40-3x400-500/24
24 VDC
1
1
PE
4
L3
DC+
3
L2
DC-
2
L1
24
MPS40-3x400-500/24
1
Art. No. 89513
Art. No. 89524
1
2
2
1
2
1
4
3
5
6
+
_
_ _
~
13
-
+
A2
A1
22-28 VDC
-
14
(2) Technical specification, Art No. 85069
Operation
Nominal voltage
Input voltage range
Input current, I
typ
Inrush current
Efficiency, typ.
Power factor, typ.
Phase watch, internal
Low voltage shutdown
External fuse max. (*)
Safety class
Output voltage
Static regulation accuracy
Dynamic regulation accuracy, typ.
Start-up time
Hold up time of the output
Output current, continuous +60°C
Output current, continuous +40°C
Output current, transient 50 ms
Output current, short-circuit, 320 - 380 ms
Output ripple
Overloading/temperature protection
Overvoltage shutdown
Overcurrent shutdown
Undervoltage shutdown
Parallel use Uin > 3 x 370 VAC, 5% minimum load. Max. 3 units
Alarm contact, normally closed
Relative humidity
Operating temperature
Storage temperature
Protection class, EN 60529
Dimensions W x H x D; Weight
(*) Use only with a LISTED fast-acting fuse in each line, rated for the supply voltage. For non-UL installations, use any suitable,
correctly rated fuse or circuit-breaker (B-type).
(3) Features
[1] Input terminal:
Conductor sizes
Solid
1,5 - 2,5 mm² / 16 - 12 AWG
Stranded
1,5 - 2,5 mm² / 16 - 12 AWG
Stranded with ferrule without / with plastic sleeve
Ferrule minimum lenght must be
Tightening torque:
[2] "SHUTDOWN"-failure LED red
[3] "RESTART"-start push button, green
[4] "TESTSTOP"-test stop push button, red
[5] Output "OK"-LED green
[6] Output voltage adjust 22 - 28 VDC; when over 24 VDC is
used, must input voltage be accordingly higher.
[7] "CURRENT LIMIT"-current limit LED
[8] DIP-switch to set operating mode
[9] Alarm connection contact, removable
[10] Output terminal:
Conductor sizes
Solid
10 mm² / 8 AWG
Stranded
10 mm² / 8 AWG
Stranded with ferrule without / with plastic sleeve
Ferrule minimum lenght must be
Tightening torque:
[26] LVR-voltage adjust trimmer
Extra parts
[11] Screw fixing set Art No. 89504
(4) Operating modes
Conventional power supply
The factory setting is for conventional power supply operating
mode [12] with a no load voltage 24,15 volts. DIP switches 1 and
3 are ON, 2 and 4 are OFF. Continuous overload, high ambient
temperature or a load current greater than 52 amps taken for longer
than 400 ms, will cause the unit to trip into the RESTART mode.
As the unit approaches shutdown, a pre-warning will be given by
the alarm contact and the yellow "CURRENT LIMIT" led
Battery backed power supply
The battery backed power supply [13] can be set by changing the
DIP switches 2 and 4 to ON and 1 and 3 to OFF. The load will be
energised by the power supply when the mains supply is on and
by the battery should the mains supply fail. If, due to overload, the
terminal voltage falls below LVR- voltage, the power supply trips
to the RESTART mode. The alarm contact will release the low
voltage relay and isolate the battery from the load. If due to mains
7, 8
failure, the battery discharges to below LVR-voltage, the alarm
9, 10
contact will release the low voltage relay and prevent deep
discharge of the battery. When the mains is restored, the power
supply will start automatically and the battery will be charged with
the residual current available after the load is supplied (I
- I
)
load
48 VDC
(5) Location
The power supply should be mounted horizontally (connection
7, 8
terminals facing downwards) and it is cooled by natural convection.
9, 10
It is important to maintain clearance dimensions equal to or greater
(+/- 24 VDC)
than the minimum shown on the diagram [14] to ensure best
performance and long term reliability. Side clearance to other
equipment should be 25 mm or > 50 mm if that equipment is heat
generating. The ambient temperature should be measured on the
underside of the unit. There will be an increase of 20°C at the top.
If natural convection is restricted, forced cooling should be used.
Mounting should comply with EN 60950-1 point 4.7 and 4.6.1.
Protection class IP20 (EN 60529).
(6) Mounting
The power supply must be installed vertically, with the input and
the output terminals at the bottom.
Rail mounting [15]
The delivered rail should be fixed solidly. Mounting instructions
[16], / Removing instructions [17].
61 RM
Screw fixing [18]
E200364
A pair of fixing brackets, Art No. 89504 must be attached to the
power supply with the screws provided. The keyhole brackets will
accept four M5 screws. (Screws are included).
(7) Switching on - conventional power supply
Factory set, ready to use. Check 10 and 11 for parallel and series
connection.
(8) Switching on - battery backed power supply
Check the recommendations of float charge voltages from the
specification of the battery manufacturer. If the values are not
available,
the
float
U-ADJ.-adjustment potentiometer as follows:
Float charge
The average long period temperature of the battery
voltages 12 cells
+5°C 10°C 15°C 20°C 25°C 30°C 35°C 40°C
- maintenance
28,0V 27,9V 27,8V 27,6V 27,4V 27,2V 27,0V 26,8V
free batteries
- open lead batter-
27,2V 27,1V 26,9V 26,7V 26,5V 26,3V 26,1V 25,9V
ies
For maximum lifetime, the battery temperature should not exceed
35°C and must never exceed 40°C. NiCd batteries must not be
used.
Power Supply
3 x 360 - 550 VAC 50/60 Hz
24 VDC (22 - 28 VDC)
< 2,5 s / 3 x 400 VAC - < 1,5 s / 3 x 500 VAC
52 A / 400 ms
21 VDC typ.,(current controlled)
The low voltage release relay and the battery fuse available are
available from Murrelektronik.
1,5 mm² / 16 AWG
System size
10 mm
40A
0,5 - 0,6 Nm / 5 - 7 lb. in.
Always use the correctly sized fuse or circuit breaker and
connect as near to the battery as possible. Ensure that the
battery compartment is ventilated. The power supply can be
damaged by wrong battery polarity. See connections [25].
When the mains is disconnected, the power supply and the low
voltage release relay discharges the battery by 700 mA.
(9) Loading capacity
The nominal current is 40 A but due to the nature of industrial
loading, the power supply has been designed to support loads
with high inrush currents without damage or shutdown. Curve
[19] shows the typical voltage / current curve. Curve [20] shows
the voltage / current response to dynamic 50 ms load. Curve
10 mm² / 8 AWG
[21] shows the voltage / current response to a dynamic 400 ms
12 mm
load. Curve [22] shows the overload / temperature limit. To
1,2 - 1,5 Nm / 20,5 lb. in.
ensure correct convection cooling, the unit must always be
mounted with the terminals at the bottom.
(10) Parallel connection [23]
Up to 3 units may be connected in parallel. The open circuit
voltage of each unit should be set to same value. Accuracy of
setting will determine how well the units share the load current.
The gauge and lenght of the cable between each power supply
and the common point should be the same. Operation is based
on the electronically controlled 0.5% voltage / current slope.
Alarm contacts should be connected in series. By redundant
use, outputs must be connected through diodes, so that alarm
contacts will retain their function, Art. Nr. 896014. When using
a battery back-up, it is advisable to connect each power supply
to the battery positive terminal through it's own 50 A fuse. Units
should only be used in parallel where the supply exceed 3 x 370
volts.
(11) Series connection [24]
Up to 2 units may be connected in series to give either 48 VDC
or +/-24 VDC. Alarm contacts should be connected in series.
(12) Setting the output voltage
The open circuit voltage is factory set to 24,15 VDC. Clockwise
rotation of the "U-ADJ" potentiometer [6] will increase the
voltage. If the setting exceeds 28 VDC, the overvoltage
shutdown protection could operate. If this happens, reduce the
= I
bat
max
setting and press the green "RESTART" button.
(13) Setting the LVR-voltage
The LVR-voltage is factory set to 20,5 VDC. It can be readjusted
with the potentiometer LVR-ADJ [26]. DIP-switches [8] must be
set 1 and 3 OFF, 2 and 4 ON. Release / return hysteresis is
about 4 VDC. Turn the LVR-ADJ-potentiometer fully counter
clockwise (25 turns). Adjust with the U-ADJ [6] potentiometer
the wanted release voltage on the output. Turn the
LVR-ADJ-potentiometer slowly clockwise until the supply
switches off and the red LED is turned on. Turn the
U-ADJ-potentiometer about 6 turns clockwise and restart the
supply with the green RESTART-button. Adjust the correct float
charge voltage on the output. The float charge voltage must be
4,5 VDC or greater as the LVR-voltage and lower as 28 VDC.
Attention:The output voltage is in the range 19 - 22 VDC only
for adjustment the under voltage release.The power supply unit
is available starting from 22 VDC with its full achievement.
Adjusting the LVR voltage is to take place only in the wired
condition.
(14) Alarm contact [9]
The alarm contact is closed during normal running and opens
for phase failure, supply failure, low supply voltage, output short
circuit, overload pre-warning, high output voltage or low output
voltage when used in battery back-up mode
Note !! The contacts can only be used on DC. Maximum 60 VDC
at 0,2 A. The resistance is approximately 3 - 6 ohms.
(15) Using circuit breakers on the power supply output
(lead acid)
On short-circuit, the power supply will trip, for example, the
following ABB-STOTZ circuit breakers.:
charge voltages can
be
set
with
(16) Standards
Electrical safety
EMC
Immunity
Emissions
We reserve the right to change this specification.
V1.2
Battery back-up power supply
3 x 400 - 500 VAC 50/60 Hz
3 x 380 - 550 VAC 50/60 Hz
1,7 A
/ 3 x 400 VAC and 24 VDC / 40 A
rms
none
90%
0,95 / 3 x 400 VAC and 24 VDC / 40 A
Yes
Yes
10 A
1
24 - 28 VDC
+/-1%
0->100%, 5% 1 ms / 100%->5%, 5% 1 ms
> 3 ms / 3 x 400 VAC and 24 VDC / 40 A
40 A
48 A
60 A
80 A
< 20 mV
rms
Yes
> 28,5 VDC
No
20,5 VDC (LVR-ADJ 19-23 VDC)
Yes
0,2 A 60 VDC
5 - 95 %, no condensing
0°C - +60°C (0°C - +50°C UL)
-25°C - +85°C
IP20
282 x 193 x 132 mm; 5,1 kg
Part number
Low voltage release relay
Battery fuse
89513
89524
-S201-C6
-S201-B10
-S201-Z16A
EN 60950-1, UL 60950-1, UL508, SELV
EN 61204-3 (2000) Emissions, Immunity
EN 61000-4-2 (1995) ESD 4/8 kV
EN 61000-4-3 (1996) Rf-field 10 V/m
EN 61000-4-4 (1995) EFT/B 2,2,1 kV
EN 61000-4-5 (1995) Surge 2/4/0,5 kV
EN 61000-4-6 (1996) Cond. Rf 10 V
ENV 50204 (1995) RF-field 10 V/m
EN 55022 B, RF-emissions
EN 61000-3-2 (1995) Harmonic currents
EN 60204-1, 60 V / 1 s

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