Datasheet

ManualsBrandsPHOENIX CONTACT ManualsRack & DIN Rail Mount PSUsRail mounted PSU (DIN) QUINT4-PS/3AC/24DC/5 24 Vdc 5 A 3 x

1Description

Power supply unit

QUINT4-PS/3AC/24DC/5

Data sheet

QUINT POWER power supplies with integrated NFC

interface and SFB technology ensure superior system

availability.

Adaptable

– Signaling thresholds and characteristic curves can be

set via NFC

Powerful

– SFB technology: 6 times the nominal current for 15ms

– Power reserves:

Static boost of up to 125%(P

) for a sustained period

Dynamic boost of up to 200%(P

) for 5s

Preventive

– Comprehensive signaling

Robust

–Mains buffering > 20ms

– High degree of immunity, thanks to integrated gas-filled

surge arrester (6kV)

Technical data (short form)

Input voltage range 3x 400 V AC ... 500 V AC

-20 % ... +10 %

2x 400 V AC ... 500 V AC

-10 % ... +10 %

Mains buffering ≥ 28 ms (3x 400 V AC)

≥ 40 ms (3x 480 V AC)

Nominal output voltage (U

) 24 V DC

Setting range of the output voltage

Set

)

24 V DC ... 29.5 V DC

Residual ripple < 30 mV

Nominal output current (I

)

Static Boost (I

Stat.Boost

)

Dynamic Boost (I

Dyn.Boost

)

Selective Fuse Breaking (I

SFB

)

5 A

6.25 A

10 A (5 s)

30 A (15 ms)

Output power (P

)

Output power (P

Stat. Boost

)

Output power (P

Dyn. Boost

)

120 W

150 W

240 W

Efficiency typ. 89 % (400 V AC)

typ. 87.5 % (480 V AC)

MTBF (IEC 61709, SN 29500) > 914000 h (40°C)

Ambient temperature (operation) -25 °C ... 70 °C

-40°C (startup type tested)

> 60 °C Derating: 2,5 %/K

Dimensions W/H/D 36 mm / 130 mm / 125 mm

Weight 0.6 kg

All technical specifications are nominal values and refer to a room temperature of 25 °C and 70 % relative

humidity at 100 m above sea level.

107103_en_00

2016-08-18

Summary of content (38 pages)

PAGE 1
QUINT4-PS/3AC/24DC/5 Power supply unit Data sheet 107103_en_00 1 © PHOENIX CONTACT 2016-08-18 Description QUINT POWER power supplies with integrated NFC interface and SFB technology ensure superior system availability. Technical data (short form) Input voltage range 3x 400 V AC ... 500 V AC -20 % ... +10 % 2x 400 V AC ... 500 V AC -10 % ... +10 % Mains buffering ≥ 28 ms (3x 400 V AC) ≥ 40 ms (3x 480 V AC) Nominal output voltage (UN) 24 V DC Setting range of the output voltage (USet) 24 V DC ...
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QUINT4-PS/3AC/24DC/5 2 Table of contents 1 Description .............................................................................................................................. 1 2 Table of contents ..................................................................................................................... 2 3 Ordering data .......................................................................................................................... 4 4 Technical data ....................
PAGE 3
QUINT4-PS/3AC/24DC/5 12 SFB technology .................................................................................................................................................... 26 12.1 12.2 12.3 12.4 Tripping circuit breakers ............................................................................................................................... 26 Tripping a fuse...............................................................................................................................
PAGE 4
QUINT4-PS/3AC/24DC/5 3 Ordering data Description Type Order No. Pcs./Pkt. Primary-switched QUINT POWER power supply with free QUINT4-PS/3AC/24DC/5 choice of output characteristic curve, SFB (selective fuse breaking) technology, and NFC interface, input: 3phase, output: 24 V DC/5 A 2904620 1 Online configured version of the primary-switched QUINT QUINT4-PS/3AC/24DC/5/...
PAGE 5
QUINT4-PS/3AC/24DC/5 4 Technical data Input data Unless otherwise stated, all data applies for 25°C ambient temperature, 400 V AC input voltage, and nominal output current (IN). Input voltage range 3x 400 V AC ... 500 V AC -20 % ... +10 % 2x 400 V AC ... 500 V AC -10 % ... +10 % ± 300 V DC -25 % ... +30 % Frequency range (fN) 50 Hz ... 60 Hz -10 % ... +10 % Network type Star network Current consumption 3x 0.53 A (400 V AC) 3x 0.46 A (480 V AC) 2x 0.9 A (400 V AC) 2x 0.8 A (480 V AC) 0.
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QUINT4-PS/3AC/24DC/5 Electric strength of the insulation Housing Input Signaling (+) L1 L2 B L3 (-) B A D Output PE + C A B C D Type test (IEC/EN 60950-1) 3.5 kV AC 4 kV AC 0.5 kV DC 0.5 kV DC Production test 2.4 kV AC 2.4 kV AC 0.5 kV DC 0.5 kV DC Field test (with gas-filled surge arrester) 0.8 kV AC 1.1 kV DC 0.8 kV AC 1.1 kV DC 0.5 kV DC 0.5 kV DC Field test (gas-filled surge arrester de-contacted) 2 kV AC 2.83 kV DC 2 kV AC 2.83 kV DC 0.5 kV DC 0.
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QUINT4-PS/3AC/24DC/5 Input connection data Connection method Screw connection Conductor cross section, solid 0.2 mm² ... 6 mm² Conductor cross section, flexible 0.2 mm² ... 4 mm² Cross section AWG 30 ... 10 Stripping length 8 mm Tightening torque 0.5 Nm ... 0.6 Nm Output data Nominal output voltage (UN) 24 V DC Setting range of the output voltage (USet) (constant capacity) 24 V DC ... 29.5 V DC Nominal output current (IN) 5A Static Boost (IStat.Boost) 6.25 A Dynamic Boost (IDyn.
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QUINT4-PS/3AC/24DC/5 Signal contact (configurable) Signal output (configurable) Out 1 Digital 0 / 24 V DC , 20 mA Default 24 V DC , 20 mA (24 V DC for UOut > 0.9 x USet) Signal output (configurable) Out 2 Digital 0 / 24 V DC , 20 mA Analog 4 mA ... 20 mA  5 % (Load ≤400 ) Default 24 V DC , 20 mA (24 V DC for POut < PN) Relay contact (configurable) 13/14 Function N/O contact Default closed (Uout > 0.
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QUINT4-PS/3AC/24DC/5 General data Degree of protection IP20 Protection class I Inflammability class in acc. with UL 94 (housing) V0 Side element version Aluminum Hood version Stainless steel X6Cr17 Weight 0.6 kg Power dissipation 400 V AC 480 V AC Maximum power dissipation in no-load condition <3W <4W Power dissipation SLEEP MODE <3W <4W Power loss nominal load max. < 15 W < 17 W 400 V AC 480 V AC typ. 89 % typ. 87.
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QUINT4-PS/3AC/24DC/5 Standards Electrical safety (of information technology equipment) IEC 60950-1/VDE 0805 (SELV) SELV IEC 60950-1 (SELV) EN 60204-1 (PELV) Rail applications EN 50121-3-2 EN 50121-4 EN 50121-5 IEC 62236-3-2 IEC 62236-4 IEC 62236-5 Safety of power supply units for supply voltages up to 1100 V (Insulating distance) DIN EN 61558-2-16 Approvals UL UL Listed UL 508 UL/C-UL Recognized UL 60950 CSA CAN/CSA-C22.2 No. 60950-1-07 CSA-C22.2 No. 107.
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QUINT4-PS/3AC/24DC/5 Electromagnetic compatibility Noise emission according to EN 61000-6-3 (residential and commercial) and EN 61000-6-4 (industrial) CE basic standard Minimum normative requirements Higher requirements in practice (covered) Conducted noise emission EN 55016 EN 61000-6-4 (Class A) EN 61000-6-3 (Class B) Noise emission EN 55016 EN 61000-6-4 (Class A) EN 61000-6-3 (Class B) Harmonic currents EN 61000-3-2 not required 0 kHz ... 2 kHz Flicker EN 61000-3-3 not required 0 kHz ...
PAGE 12
QUINT4-PS/3AC/24DC/5 Immunity according to EN 61000-6-1 (residential), EN 61000-6-2 (industrial), and EN 61000-6-5 (power station equipment zone 1, 2) CE basic standard Minimum normative requirements of EN 610006-2 (CE) (immunity for industrial environments) Higher requirements in practice (covered) Input 1 kV (Test Level 3 symmetrical) 2 kV (Test Level 3 asymmetrical) 3 kV (Test Level 4 symmetrical) 6 kV (Test Level 4 asymmetrical) Output 0.5 kV (Test Level 2 symmetrical) 0.
PAGE 13
QUINT4-PS/3AC/24DC/5 Additional basic standard EN 61000-6-5 (immunity in power station) Basic standard Minimum normative requirements of EN 61000-6-5 (power station equipment, zone 1, 2) Higher requirements in practice (covered) not required 1000 A/m not required Criterion A 1 kV (symmetrical) 2 kV (Asymmetrical) 3 kV (symmetrical) 6 kV (Asymmetrical) Criterion B Criterion A 50 Hz , 60 Hz , 10 V (Permanent) (Test Level 3) 50 Hz , 60 Hz , 10 V (Permanent) (Test Level 3) Pulse-shape magnetic fie
PAGE 14
QUINT4-PS/3AC/24DC/5 5 Safety and installation notes Only qualified electricians may install, start up, and operate the device. Observe the national safety and accident prevention regulations. The specified technical characteristics relate to the factory setting of the standard device. The power supply is maintenance-free. Repairs may only be carried out by the manufacturer. The warranty no longer applies if the housing is opened. The power supply may only be used for its intended use.
PAGE 15
QUINT4-PS/3AC/24DC/5 6 High-voltage test (HIPOT) This protection class I power supply is subject to the Low Voltage Directive and is factory tested. During the HIPOT test (high-voltage test), the insulation between the input circuit and output circuit is tested for the prescribed electric strength values, for example. The test voltage in the highvoltage range is applied at the input and output terminal blocks of the power supply.
PAGE 16
QUINT4-PS/3AC/24DC/5 6.3.1 Performing high-voltage testing 6.3.2 If high-voltage testing of the control cabinet or the power supply as a stand-alone component is planned during final inspection and testing, the following features must be observed. – The power supply wiring must be implemented as shown in the wiring diagram. – The maximum permissible test voltages must not be exceeded. Avoid unnecessary loading or damage to the power supply due to excessive test voltages.
PAGE 17
QUINT4-PS/3AC/24DC/5 Structure of the power supply The fanless convection-cooled power supply can be snapped onto all DIN rails according to EN 60715. Device dimensions and keepout areas Nominal output capacity Ambient temperature 0 ... 50 % -25 ... 70 °C ≥ 50% ... 125% ≥ 50 % ... 100 % -25 ... ≤40 °C >40 ...
PAGE 18
QUINT4-PS/3AC/24DC/5 7.
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QUINT4-PS/3AC/24DC/5 8 Mounting/removing the power supply 8.1 Mounting the power supply unit D Proceed as follows to mount the power supply: 1. In the normal mounting position the power supply is mounted on the DIN rail from above. Make sure that the universal DIN rail adapter is in the correct position behind the DIN rail (A). 2. Then press the power supply down until the universal DIN rail adapter audibly latches into place (B). 3. Check that the power supply is securely attached to the DIN rail.
PAGE 20
QUINT4-PS/3AC/24DC/5 8.3.2 Mounting the universal DIN rail adapter To mount the universal DIN rail adapter on the left side of the device, proceed as follows: 1. Position the universal DIN rail adapter on the left side of the housing so that the mounting holes are congruent with the hole pattern for the mounting holes. 2.
PAGE 21
QUINT4-PS/3AC/24DC/5 8.4.2 Mounting the UWA 130 2-piece universal wall adapter Proceed as follows to disassemble the universal DIN rail adapter that comes pre-mounted: 1. Remove the screws for the universal DIN rail adapter using a suitable screwdriver (Torx 10). 2. Separate the universal DIN rail adapter from the rear of the power supply. 3. Position the universal wall adapter. The mounting surface for the power supply is the raised section of the universal wall adapter. 4.
PAGE 22
QUINT4-PS/3AC/24DC/5 9.2 Protection of the primary side Installation of the device must correspond to EN 60950-1 regulations. It must 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). DANGER: Hazardous voltage An all-pos. fuse must be present for operation on three-phase and DC systems. 9.
PAGE 23
QUINT4-PS/3AC/24DC/5 10.1 Output characteristic curves This section describes the various output characteristic curves together with their areas of application for customization to your specific application. The U/I Advanced characteristic curve is set by default. Application U/I Advanced Normal load (nominal  operating area) System extension  (static boost) Loads with high  switch-on currents (dynamic boost) Energy storage  charging (e.g.
PAGE 24
QUINT4-PS/3AC/24DC/5 10.2 Smart HICCUP output characteristic curve 10.3 FUSE MODE output characteristic curve The preset Smart HICCUP output characteristic curve is optimized for the following applications: – If only a low short-circuit current is permitted. – If following an overload or short circuit the output voltage should be made available again automatically. Selecting the FUSE MODE output characteristic curve sets the following default values.
PAGE 25
QUINT4-PS/3AC/24DC/5 Configuring the power supply < 1,5 k Signal With the fourth generation of the QUINT POWER power supply, it is now possible for the first time to adapt the behavior of the power supply. In addition to setting the output voltage and selecting the output characteristic curves, you can configure signal outputs Out 1, Out 2, and floating signal contact 13/14, for example.
PAGE 26
QUINT4-PS/3AC/24DC/5 11.3 Configuration with NFC-capable mobile terminal device The QUINT POWER app enables you to conveniently configure the power supply using a mobile terminal device, such as a smartphone. In order to configure the power supply via the NFC interface, the following hardware and software requirements must be met: – NFC-capable mobile terminal device with Android operating system as of Version 4.1.
PAGE 27
QUINT4-PS/3AC/24DC/5 12.3 SFB configuration Observe the following framework conditions for determining the maximum distance between the power supply and load: – The performance class of the power supply. – The cross section of the connecting cable. – The tripping characteristic of the fuse component. Power supply unit + + - - Load l Figure 22 12.
PAGE 28
QUINT4-PS/3AC/24DC/5 12.4.2 Thermomagnetic circuit breaker, type: Siemens 5SY, ABB S200 Maximum distance l [m] with circuit breaker Siemens 5SY ABB S200 Conductor cross section A [mm²] 0.75 1.0 1.5 AWG 18 (17) 16 78 104 156 49 65 98 38 47 71 27 36 54 24 33 49 10 14 21 3 4 6 64 85 128 42 57 85 30 41 61 17 23 34 1 1 2 A1 A2 A3 A4 B2 C1 C2 Z1 C2 C3 C4 C2 2.
PAGE 29
QUINT4-PS/3AC/24DC/5 12.4.3 Fuse, type: Cooper Bussmann GMA xA, GMC xA Maximum distance l [m] with fuse Cooper Bussmann GMA 1A GMA 1.25A GMA 1.5A GMA 1.6A GMA 2A GMC 1A GMC 1.25A Melting integral I²t [A²s] 0.48 0.84 1.6 2 3.1 1.8 3.4 Conductor cross section A [mm²] 0.75 1.0 1.5 AWG 18 (17) 16 52 69 103 33 45 65 18 24 36 14 19 29 9 13 19 15 19 29 7 9 13 2.
PAGE 30
QUINT4-PS/3AC/24DC/5 13 Signaling 13.1 Location and function of the signaling elements A floating signal contact is available for preventive function monitoring of the power supply. Depending on the configuration of the power supply, two digital outputs or one digital and one analog output can be selected. UOut 29,5V The current device status of the power supply is signaled using four LED status indicators. The function of each LED status indicator is assigned to a fixed event and cannot be modified.
PAGE 31
QUINT4-PS/3AC/24DC/5 Preventive function monitoring QUINT POWER default settings upon delivery Relay 13/14 floating 24 V DC / ≤ 1 A 30 V AC / ≤ 0.5 A Default Out 2 analog 4 ... 20 mA ① 25 ... 135% ② 90% Output current ① 5 ... 200% ② 100%    ① 0 ... 10 A ② 0 ... 5 A Output power ① 5 ... 200% ② 100%  Default  ① 0 ... 240 W ② 0 ... 120 W ① 0 ...
PAGE 32
QUINT4-PS/3AC/24DC/5 13.2 Description of signaling In contrast to the default signaling set upon delivery, you can customize the signaling to the specific needs of the system. The simultaneous control of multiple signal outputs by means of one signal option is possible, as is the use of logic operations to link multiple signal options to one control. The power supply is configured using the QUINT POWER software or the QUINT POWER app. The following signal options can be selected to signal system states.
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QUINT4-PS/3AC/24DC/5 13.2.7 Input voltage OK 13 14 Rem SGnd Out 1 Out 2 Example of use In the event of mains failure, the power supply continues to supply the load with energy for at least 20 ms. Failure of the input voltage is signaled after just 10 ms, which means that this information is provided to the higher-level controller at an early stage. System states can therefore be stored promptly without any loss of data as a result of the unexpected failure of the supply voltage.
PAGE 34
QUINT4-PS/3AC/24DC/5 13.4 Signaling for U/I Advanced characteristic curve The following table shows the standard assignment for signaling for the U/I Advanced characteristic curves which is set by default. LED: POut >100 % yellow Signal Out 2: POut < PN Default Normal operation BOOST Overload operation POut < PN POut > PN UOut < 0.
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QUINT4-PS/3AC/24DC/5 13.6 Signaling for FUSE MODE characteristic curve The following table shows the standard assignment for signaling for the FUSE MODE characteristic curve.
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QUINT4-PS/3AC/24DC/5 14 14.2 Operating modes Depending on the intended use, the power supply can be run in series or parallel operation. 14.1 You can connect several power supplies in parallel in order to increase the power or to supply the loads redundantly. IN Series operation To double the output voltage, connect two power supplies in series. Only use power supplies with the same performance class and configuration for series operation.
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QUINT4-PS/3AC/24DC/5 14.2.1 Redundancy operation When using a QUINT ORING module with ACB technology, the QUINT power supply does not have to be set to “parallel operation” for symmetrical load distribution. Redundant circuits are suitable for supplying systems and system parts which place particularly high demands on operational reliability. If energy is to be supplied to the load with 1+1 redundancy, two power supplies of the same type and performance class must be used.
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QUINT4-PS/3AC/24DC/5 15.3 Derating The QUINT POWER power supply runs in nominal operation without any limitations. For operation outside the nominal range, the following points should be observed depending on the type of use. 15.1 Ambient temperature POut [W] When operating the power supply at an ambient temperature of > 60°C, a power derating of 2.5%/K should be observed. Up to an ambient temperature of 40°C, the power supply can take power from the static boost for a sustained period.