background image

PIM36.241

Feb. 2022 / Rev. 2.0 DS-PIM36.241-EN

www.pulspower.com

6 / 17

All parameters are specified at 24V, 1.5A, 230Vac, 25°C ambient and after a 5 minutes run-in time unless otherwise noted.

6.

Output

The output provides a SELV/PELV/ES1 rated voltage, which is galvanically isolated from the input voltage. The output is
electronically protected against no-load, overload and short circuit. In case of a protection event, audible noise may occur.

The output is designed to supply any kind of loads, including inductive and capacitive loads. Capacitive loads should not
be larger than 4 000μF with 1.5A or 5 000μF with 0.75A additional resistive load.

At heavy overloads (when output voltage falls below 14V), the device delivers continuous output current for 55ms. After
this,  the  output  is  switched  off  for  approx.  340ms  before  a  new  start  attempt  is  automatically  performed.  This  cycle  is
repeated as long as the overload exists.

If the overload has been cleared, the device will operate normally.

Output voltage

nom.

DC 24V

Adjustment range

24-28V

Guaranteed value

max.

29.2V

This is the maximum output voltage which can occur at
the clockwise end position of the potentiometer due
to tolerances. It is not a guaranteed value which can be
achieved.

Factory settings

typ.

24.1V

±0,2%, at full load, cold unit

Line regulation

max.

10mV

Between 90 and 300Vac

Load regulation

max.

50mV

Between 0 and 1.5A, static value, see Fig. 6-1

Ripple and noise voltage

max.

50mVpp

Bandwidth 20Hz to 20MHz, 50Ohm

Output current

nom.

1.5A

At 24V and an ambient temperature below 60°C

nom.

1.1A

At 24V and 70°C ambient temperature

nom.

1.2A

At 28V and an ambient temperature below 60°C

nom.

0.95A

At 28V and 70°C ambient temperature

Overload protection

Included

Electronically protected against no-load, overload and
short circuit. In case of a protection event, audible noise
may occur.

Overload behaviour

Continuous current

For output voltage above 14Vdc, see Fig. 6-1

Intermittent current

For output voltage below 14Vdc, see Fig. 6-2

max.

1.7A

Continuous current, see Fig. 6-1

Overload/
short-circuit current

typ.

3.5A

Intermitted current peak value for typ. 55ms
Load impedance 100mOhm, see Fig. 6-2
Discharge current of output capacitors is not included.

max.

1.4A

Intermitted current average value (R.M.S.)
Load impedance 100mOhm, see Fig. 6-2

Output capacitance

typ.

1 200

μ

F

Included inside the device

Back-feeding loads

max.

35V

The unit is resistant and does not show malfunctioning
when a load feeds back voltage to the device. It does not
matter whether the device is on or off. The absorbing
energy can be calculated according to the built-in large
sized output capacitor.

Fig. 6-1: Output voltage vs. output current, typ.

Fig. 6-2: Intermittend current at short circuit, typ.

*)

*) with cold devices the times are about 15% longer.

Summary of Contents for PIANO PIM36.241

Page 1: ...unding temperatures up to 70 C The unit is designed as Class of Protection II unit and fulfills the safety and EMC requirements without an input PE connection This saves wiring costs The PIANO family is a compact industrial grade DIN rail power supply series that focuses on the essential features needed in today s industrial applications The excellent cost performance ratio does not compromise qua...

Page 2: ...antly changing the information in this data sheet is subject to revision We therefore kindly ask you to always use the latest issue of this document available under www pulspower com No part of this document may be reproduced or utilized in any form without our prior permission in writing Packaging and packaging aids can and should always be recycled The product itself may not be disposed of as do...

Page 3: ...lowing all local and national codes Use appropriate copper cables that are designed for a minimum operating temperature of 60 C for ambient temperatures up to 45 C 75 C for ambient temperatures up to 60 C and 90 C for ambient temperatures up to 70 C Ensure that all strands of a stranded wire enter the terminal connection The device is designed for pollution degree 2 areas in controlled environment...

Page 4: ...e Fig 3 1 Shut down voltage typ 45Vac Steady state value see Fig 3 1 External input protection See recommendations in chapter 2 AC 100V AC 120V AC 230V Input current typ 0 72A 0 63A 0 38A At 24V 1 5A see Fig 3 1 Power factor typ 0 55 0 53 0 46 At 24V 1 5A see Fig 3 4 Start up delay typ 90ms 90ms 90ms See Fig 3 2 typ 23ms 18ms 19ms At 24V 1 5A constant current load 0mF load capacitance see Fig 3 2 ...

Page 5: ... impact on the inrush current value The charging current into EMI suppression capacitors is disregarded in the first microseconds after switch on AC 100V AC 120V AC 230V typ 11A 14A 40A At 40 C ambient cold start Inrush current Ipeak typ 8A 10A 32A At 25 C ambient cold start max 13A 17A 48A At 40 C ambient cold start max 10A 13A 39A At 25 C ambient cold start Inrush energy I2 t max 0 3A2 s 0 5A2 s...

Page 6: ...d unit Line regulation max 10mV Between 90 and 300Vac Load regulation max 50mV Between 0 and 1 5A static value see Fig 6 1 Ripple and noise voltage max 50mVpp Bandwidth 20Hz to 20MHz 50Ohm Output current nom 1 5A At 24V and an ambient temperature below 60 C nom 1 1A At 24V and 70 C ambient temperature nom 1 2A At 28V and an ambient temperature below 60 C nom 0 95A At 28V and 70 C ambient temperatu...

Page 7: ...oltage remains within specification following the loss of input power The hold up time is output load dependent At no load the hold up time can be up to several seconds The green DC OK LED is also on during this time AC 100V AC 120V AC 230V Hold up time typ 23ms 37ms 162ms At 24V 1 5A typ 55ms 83ms 330ms At 24V 0 75A min 20ms 30ms 130ms At 24V 1 5A min 44ms 66ms 260ms At 24V 0 75A Fig 7 1 Hold up ...

Page 8: ...W 0 25W 0 4W At no load typ 2 2W 2 1W 2 4W At 24V 0 75A half load typ 4 3W 3 8W 3 7W At 24V 1 5A full load The average efficiency is an assumption for a typical application where the device is loaded with 25 of the nominal load for 25 of the time 50 of the nominal load for another 25 of the time 75 of the nominal load for another 25 of the time and with 100 of the nominal load for the rest of the ...

Page 9: ...4V 0 75A and 25 C 10 MTBF MTBF stands for Mean Time Between Failure which is calculated according to statistical device failures and indicates reliability of a device It is the statistical representation of the likelihood of a unit to fail and does not necessarily represent the life of a product The MTBF figure is a statistical representation of the likelihood of a device to fail A MTBF figure of ...

Page 10: ... 11 1 Functional diagram 12 Terminals And Wiring The terminals are IP20 Finger safe constructed and suitable for field and factory wiring All Terminals Type Push in terminals Solid wire max 2 5mm2 Stranded wire max 2 5mm2 Stranded wire with ferrules max 1 5mm2 American Wire Gauge AWG 24 12 Max wire diameter including ferrules 2 3mm Wire stripping length 10mm 0 4inch Screwdriver 3mm slotted to open...

Page 11: ...therwise noted 13 Front Side And User Elements A Input Terminals N Neutral conductor input L Phase Line input B OutputTerminals Dual terminals for the negative and positive pole Both poles are internally connected Positive output Negative return output C DC OK LED green The LED is on when the output voltage is above 18V Fig 13 1 Front side D Output voltage potentiometer ...

Page 12: ... 15 80MHz 10V Criterion A Voltage dips EN 61000 4 11 0 of 100Vac 0Vac 20ms Criterion A 40 of 100Vac 40Vac 200ms Criterion C 70 of 100Vac 70Vac 500ms Criterion A 0 of 120Vac 0Vac 20ms Criterion A 40 of 120Vac 48Vac 200ms Criterion C 70 of 120Vac 84Vac 500ms Criterion A 0 of 200Vac 0Vac 20ms Criterion A 40 of 200Vac 80Vac 200ms Criterion A 70 of 200Vac 140Vac 500ms Criterion A Voltage interruptions ...

Page 13: ...w the derated current limits in order not to overload the unit Humidity 5 to 95 r h According to IEC 60068 2 30 No condensation allowed Atmospheric pressure 110 54kPa See Fig 15 2 for details Altitude Up to 5000m 16 400ft See Fig 15 2 for details Over voltage category II According to IEC 60664 1 for altitudes 5000m Impulse withstand voltage 4kV according to over voltage category III Input to PE Ac...

Page 14: ...z TN TT mains IT mains At 110Vac 50Hz TN TT mains IT mains At 132Vac 60Hz TN TT mains IT mains Touch current leakage current typ 28uA 79uA typ 36uA 101uA typ 41uA 115uA max 32uA 90uA max 41uA 115uA max 49uA 137uA At 264Vac 50Hz TN TT mains IT mains 17 Dielectric Strength The output voltage is floating and has no ohmic connection to the ground The output is insulated to the input by a double or rei...

Page 15: ...0 ISA 71 04 1985 Manufacturer s Declaration Online Document Airborne Contaminants Corrosion Test Severity Level G3 Harsh H2S 100ppb NOx 1250ppb Cl2 20ppb SO2 300ppb Test Duration 3 weeks which simulates a service life of at least 10 years VDMA 24364 Paint Wetting Impairment Substances Test or LABS Test Tested for Zone 2 and Test Class C1 according to VDMA 24364 C1 L W for solvents and water based ...

Page 16: ...N rail height must be added to the unit depth to calculate the total required installation depth Weight 140g 0 31lb DIN rail Use 35mm DIN rails according to EN 60715 or EN 50022 with a height of 7 5 or 15mm Housing material High grade polycarbonate ABS blend material Installation clearances See chapter 2 Penetration protection Small parts like screws nuts etc with a diameter larger than 3 7mm Fig ...

Page 17: ...UNDANCY Do not use this device to build redundant systems since there is no monitoring DC OK signal included 21 5 TWO PHASE OPERATION The power supply can also be operated on two phases of a three phase system Such a phase to phase connection is allowed as long as the supplying voltage is below 240V 10 Ensure that the wire which is connected to the N terminal is appropriately fused 21 6 USE IN A T...

Reviews: