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PIM90.241

Feb. 2022 / Rev. 2.0 DS-PIM90.241-EN

www.pulspower.com

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All parameters are specified at 24V, 3.8A, 230Vac, 25°C ambient and after a 5 minutes run-in time unless otherwise noted.

1.

Intended Use

This device is designed for installation in an enclosure and is intended for commercial use, such as in industrial control,
process control, monitoring, measurement, Audio/Video, information or communication equipment or the like.

Do not use this device in equipment, where malfunctioning may cause severe personal injury or threaten human life without
additional appropriate safety devices, that are suited for the end-application. If this device is used in a manner outside of
its specification, the protection provided by the device may be impaired.

Do not use this device on AC 100V mains with more than 2.9A load when the application is sensitive to short output voltage
dips during mains interruptions even with a length shorter than 20ms.

2.

Installation Instructions

DANGER

Risk of electrical shock, fire, personal injury or death.

– Turn power off before working on the device. Protect against inadvertent re-powering.
– Do not open, modify or repair the device.
– Use caution to prevent any foreign objects from entering the housing.
– Do not use in wet locations or in areas where moisture or condensation can be expected.
– Do not touch during power-on, and immediately after power-off. Hot surfaces may cause burns.

Obey the following installation instructions:

This device may only be installed and put into operation by qualified personnel. This device does not contain serviceable
parts.  The  tripping  of  an  internal  fuse  is  caused  by  an  internal  defect.  If  damage  or  malfunction  should  occur  during
installation or operation, immediately turn power off and send unit to the factory for inspection.

Install device in an enclosure providing protection against electrical, mechanical and fire hazards. Install the device onto a
DIN rail according to EN 60715 with the input terminals on the bottom of the device.

Make  sure  that  the  wiring  is  correct  by  following  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 environments. No condensation or frost is allowed. The
enclosure of the device provides a degree of protection of IP20. The enclosure does not provide protection against spilled
liquids.

The device is designed for overvoltage category II zones. Below 2000m altitude the device is tested for impulse withstand
voltages up to 4kV, which corresponds to OVC III according to IEC 60664-1.

The device is designed as “Class of Protection” II equipment according to IEC 61140.

The device is suitable to be supplied from TN, TT or IT mains networks. The continuous voltage between the input terminal
and the PE potential must not exceed 300Vac. A disconnecting means shall be provided for the input of the device.

The device is designed for convection cooling and does not require an external fan. Do not obstruct airflow and do not
cover ventilation grid!

The device is designed for altitudes up to 5000m (16 400ft). Above 2000m (6560ft) a reduction in output current is required.

Keep the following minimum installation clearances: 40mm on top, 20mm on the bottom, 0mm left and right side. Increase
the 0mm to 15mm in case the adjacent device is a heat source.

The  device  is  designed,  tested  and  approved  for  branch  circuits  up  to  20A  without  additional  protection  device.  If  an
external fuse is utilized, do not use circuit breakers smaller than 6A B- or 4A C-Characteristic to avoid a nuisance tripping
of the circuit breaker.

The maximum surrounding air temperature is +70°C (158°F). The operational temperature is the same as the ambient or
surrounding air temperature and is defined 2cm below the device. The device is designed to operate in areas between 5%
and 95% relative humidity.

Summary of Contents for PIM90.241

Page 1: ...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 se...

Page 2: ...ntly 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 do...

Page 3: ...ith the input terminals on the bottom of the device Make sure that the wiring is correct by following all local and national codes Use appropriate copper cables that are designed for a minimum operati...

Page 4: ...g 3 1 Shut down voltage typ 54Vac Steady state value see Fig 3 1 External input protection See recommendations in chapter 2 AC 100V AC 120V AC 230V Input current typ 1 69A 1 45A 0 95A At 24V 3 8A see...

Page 5: ...mpact 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 14A 18A 40A At 40 C ambient...

Page 6: ...unit Line regulation max 10mV Between 90 and 300Vac Load regulation max 100mV Between 0 and 3 8A static value see Fig 6 1 Ripple and noise voltage max 100mVpp Bandwidth 20Hz to 20MHz 50Ohm Output curr...

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...

Page 8: ...3W 0 3W 0 4W At no load typ 5W 4 3W 3 8W At 24V 1 9A half load typ 9 5W 7 9W 6W At 24V 3 8A full load The average efficiency is an assumption for a typical application where the device is loaded with...

Page 9: ...1 9A 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...

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 Stra...

Page 11: ...se 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 co...

Page 12: ...iterion A Conducted disturbance EN 61000 4 6 0 15 80MHz 10V Criterion A Voltage dips EN 61000 4 11 0 of 100Vac 0Vac 20ms Criterion A C 40 of 100Vac 40Vac 200ms Criterion C 70 of 100Vac 70Vac 500ms Cri...

Page 13: ...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...

Page 14: ...ins IT mains typ 130 A 270 A At 230Vac 50Hz TN TT mains IT mains max 80 A 190 A At 110Vac 50Hz TN TT mains IT mains max 120 A 270 A At 132Vac 60Hz TN TT mains IT mains Touch current leakage current ma...

Page 15: ...witch mode power supply units 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 Du...

Page 16: ...rail height must be added to the unit depth to calculate the total required installation depth Weight 270g 0 6lb DIN rail Use 35mm DIN rails according to EN 60715 or EN 50022 with a height of 7 5 or 1...

Page 17: ...ANCY 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...

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