User manual

ManualsBrandsMURR ELEKTRONIK ManualsRack & DIN Rail Mount PSUsRail mounted PSU (DIN) Emparro 2,5-100-240/48 48 Vdc 2.5 A 120 W 1 x

Emparro 1 PHASE

(E) Mounting [9]

(F) Switching on

(G) Loading capacity

(H) Parallel connection [12]

(I) Series connection [13]

(J) Using circuit breakers on the power supply output

(K) Standards

[1]

[2]

[3]

[4]

[5]

[7] [8]

123

5,5

61,5

12,5

[9]

Documents downloaded by the EDP system and/or printed out

have only an informative character and are not subject to the updating service

We reserve the right to change this specification Refer to protection notice ISO 16016

(B) Technical specification

(D) Location

(B)Technical specification, Art. No. 85437

[6]

> 40

> 100

100

In order to take the best advantage of the

features that this power supply has to offer and to

ensure long term reliability for your equipment,

please read these instructions carefully before

installation and use. They should be retained for

future reference.

(A) General

This unit employs many features previously unavailable in an industrial power supply. It has

been designed to withstand the high levels of interference found in heavy industry.

It 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 event of short circuit.

A protective feature is provided which will take control as the unit approaches the power

limit due to the overload or excessive temperature brought about by lack of ventilation.

Use only in star-architecture TN, TT and IT networks.

Unless otherwise specified, the measured values referring to an ambient temperature of 25°C,

nominal input voltage of 230 VAC and load of 48 VDC at 2,5 A.

V1.5

Nominal voltage, U

Input voltage range

Nominal frequency

Input current,

Input

Inrush current

Efficiency

Power factor

Recommended external fuse max.

Recommended circuit breaker

Internal device protection

Protection class

Output voltage, U

Output voltage, adjustable 48 - 56 VDC

Start-up time

Input failure bridging

Output current, I 48

Output current, I 56

Output current (Power Boost)

Output current (Hyper Boost)

Short circuit

Ripple / Spikes

Overloading / Temperature protection

Climatic environmental conditions,

Input

VDC

Relative humidity

Ambient temperature

Storage temperature

Protection class, case,

Dimensions W x H x D; Weight

EN 60721

EN 60529

100 - 240 VAC, 100 - 230 VDC

85 - 265 VAC, 90 - 250 VDC

50 / 60 Hz ±6%

I / I : 1,3 A I²t: 0,3 A²s

94,6 %

0,88

20 A (T) In building installation

6,3 A (T)

48 VDC

Factory setting: 48,1 VDC ±0,2 V

< 400ms @ U 100-230 VAC

2,5 A up to +60°C

2,1 A up to +60°C

I x 400% for min. 20ms @ 60°C

< 50 mV / < 200 mV

Yes

3K3

5 - 95% , no condensing

123 x 50 x 138; 0,66 kg

1,2A @ 110 VAC/DC - 0,6A @ 230 VAC/DC

30 ms @ U 100 VAC; Last 48 VDC/2,5A

x 150% für min. 4s, without voltage variation

After "Power Boost" follows constant current: 2,5A

rms rms

eff RMS

Input

eff ss

≥

-25°C - +60°C

-40°C - +85°C

IP 20

The rail should be fixed solidly so that it cannot twist when mounting or removing the

unit. Mounting instructions [7], Removing instructions [8]. To ensure correct convection

cooling, the unit must always be mounted with rail horizontally.

Factory set, ready to use, check the connection diagrams for parallel and series

connection. Check the connection diagram for DC use [14].

The nominal current is 2,5 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 [10] shows the typical voltage / current curve. Decreasing part of the

curve [10] shows the current limitation. Power supply is designed to give 150% output

power (Power Boost) for min. 4 seconds [11].

Up to 5 units may be connected in parallel. The open circuit voltage of each unit should

be set to same value.

1) Accuracy of setting will determine how well the units share the load current.

he cross section and length of the cable should be the

same.

2) On secondary side t

On the short circuit, the power supply will trip, for example, the following circuit breaker:

- ABB S201-C6 (for 2m, 2,5 mm², wire / without load)

Emparro 2,5-100-240/48

85437

(DC +/ -2 4 V)

DC96V

100-240 VAC

DC48V

Art. No. 85437

100-230 VDC

Art. No. 85437

(+)

(-)

100-240 VAC

[12]

[13]

[14]

The power supply is cooled by natural convection. See in picture .

one phase power supplies can be used with a distance of 6 mm to each other.

at the bottom side

There will be an increase of 25°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 of the case IP20 (EN 60529).

[6]

Emparro

Please note: The ambient temperature is to measur of the unit.

Art. No.

OPERATING INSTRUCTIONS

Electrical safety IEC / EN 60950-1, SELV

EN 60204-1, 60 V / 1 s

SEMI F47 – 0706, requirements complied / proof ( 160 VAC)

EMC EN 61204-3

Emission EN 55011 Class B; Group 1,

EMI: Class B;

EMS: Industry area

EN 61000-3-2

EN 61000-3-3

≥

Immunity EN 61000-4-2 ESD, Contact +/- 6 kV; Air +/- 8 kV

EN 61000-4-3 Rf-field, 10 V/m

EN 61000-4-4 Burst, +/- 2 kV, 5/50 ns

EN 61000-4-5 Surge,

EN 61000-4-6 Cond. Rf, 10 V

EN 61000-4-11

AC Input L1 N (DM) / L1 N PE (CM) ±1 kV/ ±2 kV/ ±3,4 kV

DC Output (+) (-) (DM) / (+) (-) PE (CM) ±0,5 kV/ ±0,5 kV

à à

[10]

[11]

Max. 2 units in series.

Caution!

The output voltage will exceed the SELV limits.

[5]

Input terminal:

AWG

0,75 - 4 mm²

18 - 12

0,75 - 2,5 mm²

18 - 14

0,75 - 1,5 mm²

18 - 16

0,75 - 2,5 mm²

18 - 14

[2] Potential free

alarm contact

AWG

0,25 - 4 mm²

24 - 12

0,25 - 2,5 mm²

24 - 14

0,25 - 1,5 mm²

24 - 16

0,25 - 2,5 mm²

24 - 14

Connections:

At ambient temperatures > 50°C take care to use suitable w insulation material.ire

Conductor sizes

Solid

Stranded

Stranded with

isolated ferrule

Stranded with

ferrule

[1]

Output terminal:

0,75 - 4 mm²

AWG 18 - 12

0,75 - 2,5 mm²

AWG 18 - 14

0,75 - 1,5 mm²

AWG 18 - 16

0,75 - 2,5 mm²

AWG 18 - 14

2,5 mm / 0,1 in

[2] Potential free alarm contact (13/14), 60 VDC / 50 mA max. (resistive load) SELV:

Output voltage „OK“ = closed, „Alarm“ = open.

Potentiometer for output voltage 48 - 56 VDC.[4]

[3] Bi-colour LED: output voltage „OK” = green, „Alarm“ = red.