Phoenix Contact QUINT4-PS/1AC/24DC/1.3/PT, Datasheet

Page 1: ...Technical data short form Input voltage range 100 V AC 240 V AC 15 10 Mains buffering 43 ms 120 V AC 43 ms 230 V AC Nominal output voltage UN 24 V DC Setting range of the output voltage USet 24 V DC...

Page 2: ...ng the power supply 18 8 1 Mounting the power supply unit 18 8 2 Removing the power supply unit 18 8 3 Fix connection wiring to the power supply 19 9 Device connection terminal blocks 20 9 1 Input 20...

Page 3: ...T3 24 FM 2905223 1 Screwdriver flat bladed size 0 4 x 2 0 x 60 mm 2 component grip with non slip grip SF SL 0 4X2 0 60 1212546 10 Multi channel electronic device circuit breaker for protecting four l...

Page 4: ...ge current to PE typical 0 25 mA 264 V AC 60 Hz 0 18 mA 264 V AC 60 Hz Mains buffering 43 ms 120 V AC 43 ms 230 V AC Typical response time 500 ms Protective circuit Transient surge protection Varistor...

Page 5: ...A A Signaling Input L N Output POWER factor 0 2 0 4 0 6 0 8 1 0 0 9 0 7 0 5 0 3 0 5 1 5 2 1 0 I A Out I A In U 120V AC U 24 V DC In Out U 230V AC U 24 V DC In Out Crest factor 120 V AC 230 V AC typ 1...

Page 6: ...ange 10 90 10 Hz 2 Control deviation change in input voltage 10 0 1 Short circuit proof yes No load proof yes Residual ripple with nominal values 40 mVPP Connection in parallel Yes for redundancy and...

Page 7: ...424000 h 25 C 609000 h 25 C The expected service life is based on the capacitors used If the capacitor specification is observed the specified data will be ensured until the end of the stated service...

Page 8: ...ation operation 15 Hz 2 5 mm amplitude 15 Hz 100 Hz 2 3 g 90 Min in accordance with IEC 60068 2 6 Shock 18 ms 30g in each space direction according to IEC 60068 2 27 Degree of pollution 2 Climatic cla...

Page 9: ...terion B Criterion A Electromagnetic HF field EN 61000 4 3 Frequency range 80 MHz 1 GHz 80 MHz 1 GHz Test field strength 10 V m Test Level 3 20 V m Test Level 3 Frequency range 1 4 GHz 2 GHz 1 GHz 6 G...

Page 10: ...1000 4 11 Input voltage 100 V AC 60 Hz Voltage dip 70 25 periods Test Level 2 70 0 5 1 30 periods Test Level 2 Comments Criterion C Criterion A Voltage dip 40 10 periods Test Level 2 40 5 10 50 period...

Page 11: ...oscillating wave Input Output 0 5 kV symmetrical 1 kV symmetrical 1 kV asymmetrical 2 5 kV asymmetrical Comments none Criterion A Basic standard Minimum normative requirements of EN 61000 6 5 power s...

Page 12: ...ary side wiring are the correct size and have sufficient fuse protection For the connection parameters for wiring the power supply such as the required stripping length with and without ferrule refer...

Page 13: ...f the AC input circuit and DC output circuit high voltage testing is performed as part of the safety approval process type test and manufacturing routine test 6 2 High voltage dielectric test during t...

Page 14: ...d unnecessary loading or damage to the power supply due to excessive test voltages Figure 1 Potential related wiring for the high voltage test Key For the relevant applicable test voltages and insulat...

Page 15: ...commodation for cable binders 4 Integrated snap on foot for carrier rail mounting 5 QR code web link 6 Connection terminal block input voltage Input L N 7 Signaling DC OK LED 8 Rotary selector status...

Page 16: ...Device dimensions and minimum keep out areas in mm The minimum clearance to other devices to the left and right is 0 mm N L Boost 100 75 50 DC OK P P Out Thr Signal SIG 24 28V UOut SIG 3 1 2 2 2 1 Out...

Page 17: ...ion Power factor correction PFC Switching transistor and main transmitter electrically isolating Secondary rectification and smoothing Auxiliary converter electrically isolating active PFC Symbol Desi...

Page 18: ...integrated snap on foot audibly latches into place B 3 Check that the power supply is securely attached to the DIN rail Figure 7 Snapping the power supply onto the DIN rail 8 2 Removing the power sup...

Page 19: ...on wiring is attached safely and securely without damaging the connection wiring Figure 10 Secure connection wiring with cable binder Shorten the excess length of the cable binder ends Then check agai...

Page 20: ...t be possible to switch off the device using a suitable disconnecting device outside the power supply The line protection on the primary side is suitable for this see technical data section Protection...

Page 21: ...f the secondary side The power supply is electronically short circuit proof and no load proof In the event of an error the output voltage is limited If sufficiently long connecting cables are used fus...

Page 22: ...is ensures that sufficient reserve energy is available overdimensioning of the power supply is not necessary For system extension With the static boost up to 125 of the nominal output power is availab...

Page 23: ...e to the self heating caused by heat from electrical current the static boost can be used at ambient temperatures of 40 C Figure 16 Performance characteristic in static boost 11 2 Dynamic Boost Dynami...

Page 24: ...in position 50 75 or boost 100 In each of these switch positions the output power POut is monitored When the set threshold is exceeded the yellow LED lights up POut PThr and the signal output SIG swit...

Page 25: ...2905223 when you are using signal connection types p l f and h for the signal paths DIN EN 61000 6 5 Electromagnetic Compatibility EMC The interface area may include items such as equipment devices a...

Page 26: ...s operation 13 2 Parallel operation You can connect several power supplies in parallel in order to increase the power or to supply the loads redundantly Figure 23 Schematic diagram in parallel operati...

Page 27: ...atic diagram redundant operation with diode Certain specifications apply in redundancy operation with regard to the configuration of the keepout areas In redundancy operation the power supplies are op...

Page 28: ...ge the power supply can output more than the nominal power for a sustained period Figure 26 Output power depending on the ambient temperature 14 2 Installation height The power supply can be operated...