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QUINT4-PS/1AC/24DC/20/+
Power supply unit
Data sheet
108751_en_01
1
Description
QUINT POWER power supply with integrated decoupling
MOSFET, SFB Technology, and preventive function
monitoring ensures superior system availability.
Powerful
–
SFB Technology: 6 times the nominal current for 15 ms
–
Power reserves:
Static boost of up to 125% (P
Dynamic boost of up to 200% (P
Robust
–
Mains buffering ≥ 20 ms
–
High degree of electrical immunity, thanks to integrated
gas discharge tube (6 kV)
–
ATEX/IECEx approval with protective coating
Secure
–
Safety integrity level 3 (SIL 3)
Preventive
–
Comprehensive signaling:
Analog signal, digital signal, relay contact, LED bar
graph
Can be ordered pre-configured
–
Perform configuration online and order 1 or more units
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.
© PHOENIX CONTACT
) for a sustained period
N
) for 5 s
N
2018-12-12
Technical data (short form)
Input voltage range
Mains buffering
Nominal output voltage (U
)
N
Setting range of the output voltage
(U
)
Set
Nominal output current (I
)
N
Static Boost (I
)
Stat.Boost
Dynamic Boost (I
)
Dyn.Boost
Selective Fuse Breaking (I
)
SFB
Output power (P
)
N
Output power (P
)
Stat. Boost
Output power (P
)
Dyn. Boost
Efficiency
Residual ripple
MTBF (IEC 61709, SN 29500)
Ambient temperature (operation)
Dimensions W/H/D
Weight
100 V AC ... 240 V AC
-15 % ... +10 %
typ. 36 ms (120 V AC)
typ. 36 ms (230 V AC)
24 V DC
24 V DC ... 28 V DC
20 A
25 A
30 A (5 s)
120 A (15 ms)
480 W
600 W
720 W
typ. 92.7 % (120 V AC)
typ. 94.2 % (230 V AC)
< 30 mV
PP
> 524000 h (40 °C)
-40 °C ... 75 °C
> 60 °C Derating: 2.5 %/K
70 mm / 130 mm / 125 mm
1.3 kg
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Table of Contents
Related Manuals for Phoenix Contact QUINT4-PS/1AC/24DC/20/+
Summary of Contents for Phoenix Contact QUINT4-PS/1AC/24DC/20/+
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Page 1: Description
QUINT4-PS/1AC/24DC/20/+ Power supply unit Data sheet 108751_en_01 © PHOENIX CONTACT 2018-12-12 Description QUINT POWER power supply with integrated decoupling MOSFET, SFB Technology, and preventive function Technical data (short form) monitoring ensures superior system availability. Input voltage range 100 V AC ... 240 V AC -15 % ... -
Page 2: Table Of Contents
Device connection terminal blocks ..................25 Functional Safety (SIL) ......................26 Output characteristic curves ....................27 Configuring the power supply ....................30 Boost currents ........................31 SFB technology ........................33 Signaling..........................38 Operating modes ........................46 Derating..........................48 108751_en_01 PHOENIX CONTACT 2 / 51... -
Page 3: Ordering Data
Near Field Communication (NFC) programming adapter TWN4 MIFARE NFC USB 2909681 with USB interface for the wireless configuration of NFC- ADAPTER capable products from PHOENIX CONTACT with software. No separate USB driver is required. Pluggable device protection, according to type 3/class III, PLT-SEC-T3-230-FM 2905229... - Page 4 For installation on DIN rails. The range of accessories is being continuously extended. The current range of accessories can be found in the download area for the product. 108751_en_01 PHOENIX CONTACT 4 / 51...
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Page 5: Technical Data
The SCCR value (short-circuit current rating) of the power supply unit corresponds to the SCCR value of the backup fuse (see input protection table). The external backup fuse must be approved for the (AC) supply voltage used and the voltage level. 108751_en_01 PHOENIX CONTACT 5 / 51... - Page 6 = U : 120 V AC/U : 24 V DC 0,75 = U : 230 V AC/U : 24 V DC 0,70 8 10 12 14 16 18 20 22 24 26 28 30 108751_en_01 PHOENIX CONTACT 6 / 51...
- Page 7 Control deviation change in input voltage ±10 % < 0.25 % Short-circuit-proof No-load proof Residual ripple ( with nominal values ) < 30 mV Connection in parallel Yes, for redundancy and increased capacity Connection in series 108751_en_01 PHOENIX CONTACT 7 / 51...
- Page 8 Signal ground SGnd Reference potential for Out1, Out2, and Rem Signal connection data Connection method Push-in connection Conductor cross section, solid 0.2 mm² ... 1.5 mm² Conductor cross section, flexible 0.2 mm² ... 1.5 mm² 108751_en_01 PHOENIX CONTACT 8 / 51...
- Page 9 230 V AC Maximum power dissipation in no-load condition < 5 W < 5 W Power dissipation SLEEP MODE < 3 W < 3 W Power loss nominal load max. < 38 W < 30 W 108751_en_01 PHOENIX CONTACT 9 / 51...
- Page 10 Electrical safety (of control and regulation devices) IEC 61010-1 SELV IEC 60950-1 (SELV) EN 60204-1 (PELV) Limitation of mains harmonic currents EN 61000-3-2 Network version/undervoltage SEMI F47-0706; EN 61000-4-11 Rail applications EN 50121-3-2 EN 50121-4 EN 50121-5 IEC 62236-3-2 IEC 62236-4 IEC 62236-5 108751_en_01 PHOENIX CONTACT 10 / 51...
- Page 11 UL ANSI/ISA-12.12.01 Class I, Division 2, Groups A, B, C, D (Hazardous Location) CAN/CSA-C22.2 No. 60950-1-07 CSA-C22.2 No. 107.1-01 BG (type approved) Functional Safety in accordance with IEC 61508 SIL 3 Shipbuilding DNV GL applied for 108751_en_01 PHOENIX CONTACT 11 / 51...
- Page 12 2 kV (Test Level 3 - 4 kV (Test Level 4 - asymmetrical) asymmetrical) Signal 1 kV (Test Level 3 - 4 kV (Test Level 4 - asymmetrical) asymmetrical) Comments Criterion B Criterion A 108751_en_01 PHOENIX CONTACT 12 / 51...
- Page 13 0 % , 0,5 / 1 / 5 / 50 / 250 ( Test Level 2 ) periods ( Test Level 2 ) Comments Criterion B Criterion A: 0.5 / 1 period Criterion B: 5 / 50 / 250 periods 108751_en_01 PHOENIX CONTACT 13 / 51...
- Page 14 Level 3 - symmetrical ) 1 MHz , 2.5 kV ( Test Level 3 - 100 kHz , 1 MHz , 2.5 kV ( Test asymmetrical ) Level 3 - asymmetrical ) Comments Criterion B Criterion A 108751_en_01 PHOENIX CONTACT 14 / 51...
- Page 15 Temporary impairment to operational behavior that is corrected by the device itself. Criterion C Temporary adverse effects on the operating behavior, which the device corrects automatically or which can be restored by actuating the operating elements. 108751_en_01 PHOENIX CONTACT 15 / 51...
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Page 16: Safety And Installation Notes
Never carry out work when mains voltage is present. CAUTION: Hot surface Depending on the ambient temperature and load on the power supply, the housing can become hot. 108751_en_01 PHOENIX CONTACT 16 / 51... -
Page 17: High-Voltage Test (Hipot)
IEC/UL/EN 60950-1. The high-voltage test is performed with a test voltage of at least 1.5 kV AC / 2.2 kV DC or higher. Routine manufacturing tests are inspected regularly by a certification body. 108751_en_01 PHOENIX CONTACT 17 / 51... - Page 18 To connect the gas discharge tube, only use DC output circuit Blue Potential 1 the gas discharge tube screw that was Signal contacts Blue Potential 1 originally installed in the power supply. High-voltage tester AC input circuit Potential 2 108751_en_01 PHOENIX CONTACT 18 / 51...
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Page 19: Structure Of The Power Supply
Position NFC interface (Near Field Communication) QR code web link AC input voltage connection terminal blocks Gas discharge tube for surge protection (left side of housing) Universal DIN rail adapter (rear of housing) Output voltage button (-) / (+) 108751_en_01 PHOENIX CONTACT 19 / 51... - Page 20 Out 2 > 100% Boost > 75% > 50% P DC OK Input AC 100-240 V DC 110-250 V N/- L/+ 1.1 1.2 1.3 Figure 6 Device dimensions and minimum keep-out areas (in mm) 108751_en_01 PHOENIX CONTACT 20 / 51...
- Page 21 Passive NFC interface (Near Field active Communication) Output voltage button (-) / (+) Switching transistor and main transmitter (electrically isolating) Secondary rectification and smoothing Signal/display LEDs (P , DC OK) Filter Decoupling MOSFET Auxiliary converter (electrically isolating) 108751_en_01 PHOENIX CONTACT 21 / 51...
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Page 22: Mounting/Removing The Power Supply
Carefully swivel the power supply forward (C) so that the lock slides back into the starting position. Then separate the power supply from the DIN rail (D). Figure 10 Disassembling the universal DIN rail adapter 108751_en_01 PHOENIX CONTACT 22 / 51... - Page 23 Make sure you use suitable mounting material when attaching to the mounting surface. The power supply is attached to the UWA 182 or UWA 130 universal wall adapter by means of the Torx screws of the universal DIN rail adapter. 108751_en_01 PHOENIX CONTACT 23 / 51...
- Page 24 S i g 3 . 1 3 . 2 3 . 3 3 . 4 > 1 3 . 5 > 7 3 . 6 > 5 Figure 15 Secure connection wiring with cable binder 108751_en_01 PHOENIX CONTACT 24 / 51...
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Page 25: Device Connection Terminal Blocks
The additional insulation material for protecting the connection wiring is limited to the area where the cable binders are attached. − − − − − − − − Figure 17 Network types 108751_en_01 PHOENIX CONTACT 25 / 51... -
Page 26: Functional Safety (Sil)
30 V DC before the power supply shuts off to protect the loads. Figure 19 Pin assignment for DC supply voltage DC applications require upstream installation of a fuse that is permitted for the operating voltage. 108751_en_01 PHOENIX CONTACT 26 / 51... -
Page 27: Output Characteristic Curves
Characteristics U/I Advanced Smart HICCUP FUSE MODE Symbol Designation Suitable for the application Not suitable for the application 108751_en_01 PHOENIX CONTACT 27 / 51... - Page 28 Stat. Boost 100% 125% 200% Stat. Boost Dyn. Boost 100% 125% 200% Dyn. Boost t [s] Dyn. Boost Figure 21 Smart HICCUP output characteristic curve t [s] Figure 20 U/I Advanced output characteristic curve 108751_en_01 PHOENIX CONTACT 28 / 51...
- Page 29 Selecting the FUSE MODE output characteristic curve sets the following default values. – = 100 ms Fuse – Fuse Fuse Fuse t [s] Figure 22 FUSE MODE output characteristic curve 108751_en_01 PHOENIX CONTACT 29 / 51...
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Page 30: Configuring The Power Supply
If a connection cannot be established between the USB-PROG-ADAPTER and the power supply, more detailed information can be found in the user manual for the QUINT POWER software. 108751_en_01 PHOENIX CONTACT 30 / 51... -
Page 31: Boost Currents
(see recovery time tables). You can type in the the web code phoenixcontact.net/webcode/#0852 to configure and order your power supply. Dyn.Boost Dyn.Boost Dyn.Boost Pause Base Load t [s] Figure 26 Basic curve of the dynamic boost process 108751_en_01 PHOENIX CONTACT 31 / 51... - Page 32 Example recovery time for ≤ 40°C Figure 27 Required recovery times at ≤ 40°C 13.2.2 Recovery times at an ambient temperature of 60 °C Dyn. Boost Base Load Dyn. Boost Figure 28 Required recovery times at ≤ 60°C 108751_en_01 PHOENIX CONTACT 32 / 51...
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Page 33: Sfb Technology
Fuses are tripped by melting the predetermined breaking point inside the fuse capsule. The tripping characteristic of the fuse is described by the melting integral (I²t). A high current is crucial in order to achieve a very short tripping time. 108751_en_01 PHOENIX CONTACT 33 / 51... - Page 34 The distances given in the table are worst-case values and therefore cover the entire tolerance range for the magnetic tripping of circuit breakers. The possible distances are often greater in practice. 14.4.1 Thermomagnetic device circuit breaker, type: Phoenix Contact CB TM1 SFB Maximum distance l [m] with device circuit...
- Page 35 QUINT4-PS/1AC/24DC/20/+ 14.4.2 Thermomagnetic circuit breaker, type: Siemens 5SY, ABB S200 Maximum distance l [m] with circuit breaker Conductor cross section A [mm²] 0.75 (17) Siemens 5SY A1.6 C1.6 ABB S200 C1.6 Z1.6 108751_en_01 PHOENIX CONTACT 35 / 51...
- Page 36 Internal resistance R of the device circuit taken into consideration breaker: Comments: In addition to the short-circuit current, the power supply unit also supplies half the nominal current for load paths connected in parallel. 108751_en_01 PHOENIX CONTACT 36 / 51...
- Page 37 Ambient temperature: +20 °C Internal resistance R of the fuse: taken into consideration Comments: In addition to the short-circuit current, the power supply unit also supplies half the nominal current for load paths connected in parallel. 108751_en_01 PHOENIX CONTACT 37 / 51...
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Page 38: Signaling
> 90% x U LED flashing: U < 90 % x U LED status indicator P >50 % (output power >240 W) LED status indicator P >75 % (output power >360 W) LED status indicator P >100 %, boost mode (output power >480 W) 108751_en_01 PHOENIX CONTACT 38 / 51... - Page 39 Signal Digital Input SGnd Out 1 DI x 0/24 V DC Out 2 DI x 0/24 V DC Figure 34 Signaling 108751_en_01 PHOENIX CONTACT 39 / 51...
- Page 40 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. 108751_en_01 PHOENIX CONTACT 40 / 51...
- Page 41 Before the power supply protects itself through power derating in the event of an overtemperature, the signal state changes. Example of use Outdoor control cabinets can reach a high internal temperature depending on the position of the sun. The same 108751_en_01 PHOENIX CONTACT 41 / 51...
- Page 42 Signal < 40 k operates in boost mode. In boost mode, the > 100% LED additionally lights up yellow. SGnd Out 1 Out 2 Figure 37 External wiring versions, disable SLEEP MODE 108751_en_01 PHOENIX CONTACT 42 / 51...
- Page 43 LED: DC OK Closed Relay: 13/14, DC OK Closed Open Default Signal Out 1: DC OK Active High Active High Active Low LED off LED on LED flashing Figure 40 Signal image for SMART HICCUP 108751_en_01 PHOENIX CONTACT 43 / 51...
- Page 44 Active Low LED off LED on LED flashing Figure 41 Signal image for FUSE MODE 15.9 SLEEP MODE signaling In SLEEP MODE, all LEDs are off, all signals are low, and the relay switching contact is open. 108751_en_01 PHOENIX CONTACT 44 / 51...
- Page 45 IEC/EN 61850-3 or signal connection types 3 (process area) and 4 (high voltage area) in accordance with EN 61000-6-5. When using the digital signals, a relay (Phoenix Contact Order No.: 2900299 or a comparable relay) can be implemented. 15.10.2 Surge protection for signals in railway applications Surge protection (Phoenix Contact Order No.: 2905223 or comparable protection) must be implemented for railway...
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Page 46: Operating Modes
We recommend the configuration "parallel operation" for a parallel connection. For more detailed information on the operating mode for parallel operation, refer to the user manual for the QUINT POWER software or the QUINT POWER app. 108751_en_01 PHOENIX CONTACT 46 / 51... - Page 47 Using the signaling settings, you can monitor whether both power supplies are being operated with the same nominal load. In the case of system extension, an overload is prevented if one of the power supplies fails. 108751_en_01 PHOENIX CONTACT 47 / 51...
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Page 48: Derating
Output power depending on the ambient temperature 17.2 Input voltage Derating 1 %/V < 100 V AC ≤ 60 °C < 110 V DC 24 V DC < 115 V AC ≤ 40 °C Stat. Boost < 110 V DC 108751_en_01 PHOENIX CONTACT 48 / 51... - Page 49 > 7 150 % > 5 Dyn. T [°C] 17.4.2 Rotated mounting position 90° Z-axis 100 % 125 % Stat. 150 % I N T Dyn. d . N o . 2 T [°C] 108751_en_01 PHOENIX CONTACT 49 / 51...
- Page 50 QUINT4-PS/1AC/24DC/20/+ 17.4.3 Rotated mounting position 180° Z-axis 100 % 125 % Stat. 150 % Dyn. T [°C] 17.4.4 Rotated mounting position 270° Z-axis 100 % 125 % Stat. 150 % Dyn. T [°C] 108751_en_01 PHOENIX CONTACT 50 / 51...
- Page 51 125 % Stat. 150 % Dyn. T [°C] 17.4.6 Rotated mounting position 270° X-axis 100 % 125 % Stat. 150 % Dyn. T [°C] 108751_en_01 PHOENIX CONTACT GmbH & Co. KG • 32823 Blomberg • Germany 51 / 51 phoenixcontact.com...
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