QUINT4-PS/1AC/5DC/5/PT
Power supply unit
Data sheet
108831_en_00
1
© PHOENIX CONTACT 2019-11-06
Description
QUINT POWER power supplies are exceptionally small yet
offer superior system availability in the sub 100 W power
range.
Technical data (short form)
Input voltage range
100 V AC ... 240 V AC
-15 % ... +10 %
Powerful
Mains buffering
typ. 52 ms (120 V AC)
typ. 52 ms (230 V AC)
Nominal output voltage (UN)
5 V DC
Setting range of the output voltage
(USet)
5 V DC ... 6.2 V DC
Nominal output current (IN)
Static Boost (IStat.Boost)
Dynamic Boost (IDyn.Boost)
5A
6.25 A (≤ 40 °C)
8 A (≤ 60 °C (5 s))
Output power (PN)
Output power (PStat. Boost)
Output power (PDyn. Boost)
25 W
31 W
40 W
Efficiency
typ. 87.4 % (120 V AC)
typ. 88.4 % (230 V AC)
Residual ripple
< 40 mVPP
–
–
Static boost of up to 125% (PN) for a sustained period
Dynamic boost of up to 200% (PN) for 5 s
Space-saving
–
–
Slim design
Slim design for 120 mm control boxes
Preventive
–
Function monitoring through adjustable signaling of
power thresholds or output voltage
MTBF (IEC 61709, SN 29500)
> 1080700 h (40 °C)
Ambient temperature (operation)
-25 °C ... 70 °C
-40°C (startup type tested)
> 60 °C Derating: 2.5 %/K
Durable
–
–
Efficiency up to 90%
Low power dissipation
Dimensions W/H/D
22.5 mm / 106 mm / 90 mm
Weight
0.184 kg
All technical specifications are nominal and refer to a room temperature of 25 °C and 70% relative humidity at
100 m above sea level.
QUINT4-PS/1AC/5DC/5/PT
2
Table of contents
1
Description .............................................................................................................................. 1
2
Table of contents ..................................................................................................................... 2
3
Ordering data .......................................................................................................................... 3
4
Technical data ......................................................................................................................... 4
5
Safety and installation notes .................................................................................................. 13
6
High-voltage test (HIPOT) ..................................................................................................... 14
7
Structure of the power supply ................................................................................................ 15
8
Mounting/removing the power supply .................................................................................... 18
9
Device connection terminal blocks ........................................................................................ 20
10
Output characteristic curves .................................................................................................. 21
11
Boost currents ....................................................................................................................... 22
12
Signaling................................................................................................................................ 24
13
Operating modes ................................................................................................................... 26
14
Derating................................................................................................................................. 28
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3
Ordering data
Description
Type
Order No.
Pcs./Pkt.
Primary-switched power supply unit, QUINT POWER,
Push-in connection, DIN rail mounting, input: 1-phase,
output: 5 V DC / 5 A
QUINT4-PS/1AC/5DC/5/PT
2904595
1
Accessories
Type
Order No.
Pcs./Pkt.
Screwdriver
SF-SL 0,4X2,0-60
1212546
10
Type 2/3 surge protection, consisting of protective plug
and base element with screw connection. For singlephase power supply network with integrated status
indicator and remote signaling. Nominal voltage
230 V AC/DC.
PLT-SEC-T3-230-FM-UT
2907919
5
Type 3 surge protection, consisting of protective plug and PLT-SEC-T3-24-FM-UT
base element, with integrated status indicator and remote
signaling for single-phase power supply networks.
Nominal voltage 24 V AC/DC.
2907916
5
Type 2/3 surge protection, consisting of protective plug
and base element with Push-in connection. For singlephase power supply network with integrated status
indicator and remote signaling. Nominal voltage
230 V AC/DC.
2907928
5
2907925
5
PLT-SEC-T3-230-FM-PT
Type 3 surge protection, consisting of protective plug and PLT-SEC-T3-24-FM-PT
base element, with integrated status indicator and remote
signaling for single-phase power supply networks.
Nominal voltage 24 V AC/DC.
The range of accessories is being continuously extended. The current range of accessories can be found in
the download area for the product.
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4
Technical data
Input data
Unless otherwise stated, all data applies for 25°C ambient temperature, 230 V AC input voltage, and nominal
output current (IN).
Input voltage range
100 V AC ... 240 V AC -15 % ... +10 %
110 V DC ... 250 V DC -20 % ... +40 %
Electric strength, max.
300 V AC (60 s)
Frequency range (fN)
50 Hz ... 60 Hz -10 % ... +10 %
Current consumption (for nominal values) typ.
0.37 A (100 V AC)
0.3 A (120 V AC)
0.17 A (230 V AC)
0.16 A (240 V AC)
0.32 A (110 V DC)
0.14 A (250 V DC)
The specified values for current consumption apply for operation in the static boost (PN x 125%).
Discharge current to PE
typical
< 0.25 mA (264 V AC, 60 Hz)
typ. 0.08 mA
Mains buffering
typ. 52 ms (120 V AC)
typ. 52 ms (230 V AC)
Typical response time
350 ms
Protective circuit
Transient surge protection Varistor
Inrush current limitation
< 9.1 A
Inrush current integral (I2t)
< 0.1 A2s
Input fuse slow-blow, internal
3.15 A
During the first few microseconds, the current flow into the filter capacitors is excluded.
The SCCR (short-circuit current rating) value of the power supply unit corresponds to the SCCR value of the
backup fuse.
Input protection , AC/DC ( to be connected externally upstream )
Input current IIn
Input protection
Circuit breaker
Characteristics
A
B
C
D
K
Neozed fuse
or equivalent
Power switch
gG
≤ 13 x IIn
(maximum magnetic tripping)
6A
-
-
-
-
-
8A
-
-
-
-
-
10 A
-
-
-
-
-
13 A
-
-
-
-
-
16 A
-
-
-
-
-
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Electric strength of the insulation
Housing
Input
Signaling
(+)
L
A
N
(-)
A
Output
+
A
Type test
4 kV AC
Production test
3 kV AC
Field test
2 kV AC
Power Factor
POWER factor
1,0
0,9
0,8
0,7
0,6
0,5
0,4
0,3
0,2
= UIn: 120 V AC/UOut: 5 V DC
= UIn: 230 V AC/UOut: 5 V DC
0,1
0,0
0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0 4,5 5,0 5,5
IOut [A]
Crest factor
120 V AC
230 V AC
typ. 1.88
typ. 2.09
IIn [A]
Input current vs. output current
0,40
0,35
0,30
0,25
0,20
0,15
0,10
0,05
= UIn: 120 V AC/UOut: 5 V DC
= UIn: 230 V AC/UOut: 5 V DC
0,00
0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0 4,5 5,0 5,5
IOut [A]
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Input connection data
Connection method
Push-in connection
Conductor cross section, solid
0.2 mm² ... 2.5 mm²
Conductor cross section, flexible
0.2 mm² ... 2.5 mm²
Stranded conductor cross section with ferrule
0.25 mm² ... 2.5 mm²
Conductor cross section AWG
24 ... 14
Stripping length
10 mm
Output data
Nominal output voltage (UN)
5 V DC
Setting range of the output voltage (USet) ( constant
capacity )
5 V DC ... 6.2 V DC
Nominal output current (IN)
5A
Static Boost (IStat.Boost)
6.25 A (≤ 40 °C)
Dynamic Boost (IDyn.Boost)
8 A (≤ 60 °C (5 s))
Control deviation change in load, static 10 % ... 90 %
< 0.3 %
Control deviation Dynamic load change
10 % ... 90 %, 10 Hz
PThr
LED lights up yellow, output power > PThr, depending on the
rotary selector switch setting
UOut > 0.9 x USet
LED lights up green
UOut < 0.9 x USet
LED flashes green
Signal contact (adjustable)
Digital
0 / 10 V DC , 24 mA
Default
10 V DC , 24 mA ( 10 V DC for UOut > 0.9 x USet )
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Signal connection data
Connection method
Push-in connection
Conductor cross section, solid
0.2 mm² ... 2.5 mm²
Conductor cross section, flexible
0.2 mm² ... 2.5 mm²
Stranded conductor cross section with ferrule
0.25 mm² ... 2.5 mm²
Conductor cross section AWG
24 ... 14
Stripping length
10 mm
Reliability
230 V AC
MTBF (IEC 61709, SN 29500)
> 1890000 h (25 °C)
> 1080700 h (40 °C)
> 473300 h (60 °C)
Life expectancy (electrolytic capacitors)
Output current (IOut)
120 V AC
230 V AC
2.5 A
> 91800 h ( 40 °C )
> 98400 h ( 40 °C )
2.5 A
> 183400 h ( 25 °C )
> 186600 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 life. For runtimes beyond this time, error-free
operation may be reduced. The specified service life of more than 15 years is simply a comparative value.
Switching frequency
Min.
Max.
PFC stage
30 kHz
135 kHz
Auxiliary converter stage
75 kHz
220 kHz
Main converter stage
4 kHz
70 kHz
General data
Degree of protection
IP20
Protection class
II
Inflammability class in acc. with UL 94 (housing / terminal V0
blocks)
Type of housing
Polycarbonate
Hood version
Polycarbonate
Dimensions W / H / D (state of delivery)
22.5 mm / 106 mm / 90 mm
Weight
0.184 kg
Power dissipation
120 V AC
230 V AC
Maximum power dissipation in no-load condition
< 0.37 W
< 0.41 W
Power loss nominal load max.
< 3.7 W
< 3.3 W
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Eta [%]
Efficiency
95
90
85
80
75
70
65
60
55
0
120 V AC
230 V AC
typ. 87.4 %
typ. 88.4 %
= UIn: 120 V AC/UOut: 5 V DC
= UIn: 230 V AC/UOut: 5 V DC
0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0 4,5 5,0 5,5
IOut [A]
Ambient conditions
Ambient temperature (operation)
-25 °C ... 70 °C (> 60 °C Derating: 2.5 %/K)
The ambient temperature (operation) refers to IEC 61010 surrounding air temperature.
Ambient temperature (start-up type tested)
-40 °C
Ambient temperature (storage/transport)
-40 °C ... 85 °C
Max. permissible relative humidity (operation)
≤ 95 % (at 25 °C, non-condensing)
Installation height
≤ 5000 m (> 2000 m, observe derating)
Vibration (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 600682-27)
Degree of pollution
2
Climatic class
3K3 (in acc. with EN 60721)
Overvoltage category
EN 61010-1/EN 61010-2-201 (≤ 5000 m)
EN 62477-1 (≤ 2000 m)
II (≤ 5000 m)
III (≤ 2000 m)
Standards
Safety of power supply units up to 1100 V (insulation
distances)
DIN EN 61558-2-16
Safety transformers for power supply units
EN 61558-2-16
Electrical safety (of information technology equipment)
IEC 61010-1 (SELV)
Electrical safety (of control and regulation devices)
IEC 61010-1
SELV
IEC 61010-1 (SELV)
IEC 61010-2-201 (PELV)
Safe isolation
IEC 61558-2-16
Limitation of mains harmonic currents
EN 61000-3-2
Rail applications
EN 50121-3-2
EN 50121-5
IEC 62236-3-2
IEC 62236-5
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Approvals
UL
UL Listed UL 61010-1
UL Listed UL 61010-2-201
UL 1310 Class 2 Power Units
SIQ
CB-Scheme (IEC 61010-1, IEC 61010-2-201)
Current approvals/permissions for the product can be found in the download area under
phoenixcontact.net/products
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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
EN 61000-3-2 (Class A)
Flicker EN 61000-3-3
not required
EN 61000-3-3
Immunity according to EN 61000-6-1 (residential), EN 61000-6-2 (industrial), and EN 61000-6-5 (power station
equipment zone), IEC/EN 61850-3 (energy supply)
CE basic standard
Minimum normative
requirements of EN 610006-2 (CE)
(immunity for industrial
environments)
Higher requirements in
practice (covered)
Housing contact discharge
4 kV (Test Level 2)
8 kV (Test Level 4)
Housing air discharge
8 kV (Test Level 3)
15 kV (Test Level 4)
Criterion B
Criterion A
Frequency range
80 MHz ... 1 GHz
80 MHz ... 1 GHz
Test field strength
10 V/m (Test Level 3)
20 V/m (Test Level X)
Frequency range
1 GHz ... 6 GHz
1 GHz ... 6 GHz
Test field strength
3 V/m (Test Level 2)
10 V/m (Test Level 3)
Frequency range
2 GHz ... 2.7 GHz
Test field strength
1 V/m (Test Level 1)
Electrostatic discharge EN 61000-4-2
Comments
Electromagnetic HF field EN 61000-4-3
Comments
Criterion B
Criterion A
Input
2 kV (Test Level 3 asymmetrical)
4 kV (Test Level 4 asymmetrical)
Output
2 kV (Test Level 3 asymmetrical)
4 kV (Test Level X asymmetrical)
Signal
1 kV (Test Level 3 asymmetrical)
4 kV (Test Level X asymmetrical)
Criterion B
Criterion A
Fast transients (burst) EN 61000-4-4
Comments
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QUINT4-PS/1AC/5DC/5/PT
Immunity according to EN 61000-6-1 (residential), EN 61000-6-2 (industrial), and EN 61000-6-5 (power station
equipment zone), IEC/EN 61850-3 (energy supply)
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)
2 kV (Test Level 4 symmetrical)
4 kV (Test Level 4 asymmetrical)
Output
0.5 kV (Test Level 2 symmetrical)
0.5 kV (Test Level 1 asymmetrical)
1 kV (Test Level 3 symmetrical)
2 kV (Test Level 3 asymmetrical)
Signal
0.5 kV (Test Level 1 asymmetrical)
0.5 kV (Test Level 2 symmetrical)
0.5 kV (Test Level 2 symmetrical)
1 kV (Test Level 2 asymmetrical)
Criterion B
Criterion A
asymmetrical
asymmetrical
0.15 MHz ... 80 MHz
0.15 MHz ... 80 MHz
10 V (Test Level 3)
10 V (Test Level 3)
Criterion A
Criterion A
50 Hz , 60 Hz
( 30 A/m )
16.67 Hz , 50 Hz , 60 Hz
( 100 A/m 60 s )
Surge voltage load (surge) EN 61000-4-5
Comments
Conducted interference EN 61000-4-6
Input/Output/Signal
Frequency range
Voltage
Comments
Power frequency magnetic field EN 61000-4-8
not required
50 Hz , 60 Hz ( 1 kA/m , 3 s )
not required
0 Hz ( 300 A/m , DC, 60 s )
Comments
Criterion A
Criterion A
Voltage dip
70 % , 25 periods
( Test Level 2 )
70 % , 1 / 25 / 30 periods
( Test Level 2 )
Comments
Criterion C
Criterion A
Voltage dip
40 % , 10 periods
( Test Level 2 )
40 % , 10 / 50 periods
( Test Level 2 )
Comments
Criterion C
Criterion A
Voltage dip
0 % , 1 period
( Test Level 2 )
0 % , 0.5 / 1 / 5 / 50 periods
( Test Level 2 )
Comments
Criterion B
Criterion B
Voltage dips EN 61000-4-11
Input voltage ( 100 V AC , 60 Hz )
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QUINT4-PS/1AC/5DC/5/PT
Additional basic standard EN 61000-6-5 (immunity in power station), IEC/EN 61850-3 (energy supply)
Basic standard
Minimum normative
requirements of EN 610006-5 (power station equipment, zone 1, 2)
Higher requirements in
practice (covered)
not required
1000 A/m
none
Criterion A
Pulse-shape magnetic field EN 61000-4-9
Comments
Attenuated sinusoidal oscillations (ring wave) EN 61000-4-12
Input
1 kV (symmetrical)
2 kV (symmetrical)
2 kV (asymmetrical)
4 kV (asymmetrical)
Criterion B
Criterion A
50 Hz , 60 Hz ,
10 V (Permanent)
( Test Level 3 )
16.67 Hz , 50 Hz , 60 Hz ,
150 Hz , 180 Hz , 30 V (10 s)
( Test Level 3 )
16.67 Hz , 50 Hz , 60 Hz ,
100 V (1 s)
( Test Level 3 )
16.67 Hz , 50 Hz , 60 Hz ,
300 V (1 s)
( Test Level 2 )
Criterion A
Criterion A
Comments
Asymmetrical conducted disturbance variables EN 61000-4-16
Input, Output, Signals
Comments
Attenuated oscillating wave EN 61000-4-18
Input, Output
Signals
Comments
0.5 kV (symmetrical)
1 kV (symmetrical)
1 kV (asymmetrical)
2.5 kV (asymmetrical)
0.5 kV (symmetrical)
1 kV (symmetrical)
none
Criterion A
Key
Criterion A
Normal operating behavior within the specified limits.
Criterion B
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.
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5
Safety and installation notes
Safety notes and warning instructions
Symbols used
WARNING: Danger to life by electric
shock!
Instructions and possible hazards are indicated by
corresponding symbols in this document.
–
This is the safety alert symbol. It is used to
alert you to potential personal injury hazards.
Obey all safety measures that follow this
symbol to avoid possible personal injuries.
There are different categories of personal injury that are
indicated by a signal word.
–
–
–
Only skilled persons may install, start up, and operate
the device.
Never carry out work when voltage is present.
Establish connection correctly and ensure protection
against electric shock.
Cover termination area after installation in order to avoid
accidental contact with live parts (e. g., installation in
control cabinet).
WARNING
NOTE
This indicates a hazardous situation which, if
not avoided, could result in death or serious
injury.
–
CAUTION
This indicates a hazardous situation which, if
not avoided, could result in minor or moderate
injury.
The following symbols are used to indicate potential
damage, malfunctions, or more detailed sources of
information.
–
–
–
–
–
NOTE
This symbol together with the signal word
NOTE and the accompanying text alert the
reader to a situation which may cause
damage or malfunction to the device,
hardware/software, or surrounding property.
–
This symbol and the accompanying text
provide the reader with additional information
or refer to detailed sources of information.
–
–
–
–
–
–
–
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Observe the national safety and accident prevention
regulations.
Assembly and electrical installation must correspond to
the state of the art.
The power supply is a built-in device and is designed for
mounting in a control cabinet.
The IP20 degree of protection of the device is intended
for use in a clean and dry environment.
Observe mechanical and thermal limits.
Horizontal mounting position (normal mounting
position)
Mount the power supply unit in the standard installation
position. Position of the L/N connection terminal blocks
at bottom.
Ensure that the primary-side wiring and secondary-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 to the technical data section.
Use copper cables for operating temperatures of
75 °C (ambient temperature 55 °C)
90 °C (ambient temperature 75 °C).
The power supply is approved for the connection to TN,
TT and IT power grids (star networks) with a maximum
phase-to-phase voltage of 240 V AC
Protect the device against foreign bodies penetrating it,
e.g., paper clips or metal parts.
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.
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QUINT4-PS/1AC/5DC/5/PT
6
High-voltage test (HIPOT)
This protection class II 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. The operating voltage used in
normal operation is a lot lower than the test voltage used.
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.
For the relevant applicable test voltages and
insulation distances, refer to the
corresponding table (see technical data:
electric strength of the insulation section).
High-voltage tests up to 2 kV AC / 2.8 kV DC
can be performed as described.
The test voltage should rise and fall in ramp
form. The relevant rise and fall time of the
ramp should be at least two seconds.
QUINT POWER Ord.No.290xxx
6.1
2
High-voltage dielectric test (dielectric strength
test)
In order to protect the user, power supplies (as electric
components with a direct connection to potentially
hazardous voltages) are subject to more stringent safety
requirements. For this reason, permanent safe electrical
isolation between the hazardous input voltage and the
touch-proof output voltage as safety extra-low voltage
(SELV) must always be ensured.
High-voltage dielectric test performed by the
customer
Apart from routine and type tests to guarantee electrical
safety, the end user does not have to perform another highvoltage test on the power supply as an individual
component. According to EN 60204-1 (Safety of machinery
- Electrical equipment of machines) the power supply can be
disconnected during the high-voltage test and only installed
once the high-voltage test has been completed.
6.3.1
UOut
Signal (SIG)
POut >PThr
> 75%
> 50%
HV
3
/=
DC OK
Input AC
N/− L/+
1.1 1.2
High-voltage dielectric test during the
manufacturing process
During the manufacturing process for the power supply, a
high-voltage test is performed as part of the dielectric test in
accordance with the specifications of IEC/UL/EN 61010-1.
The high-voltage test is performed with a test voltage of at
least 3 kV AC / 4.2 kV DC or higher. Routine manufacturing
tests are inspected regularly by a certification body.
6.3
3.1 2.1 2.2
SIG + −
Output DC
Boost > 100%
In order to ensure permanent safe isolation of 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
1
4
Figure 1
Potential-related wiring for the high-voltage
test
Key
No. Designation
Color coding
1
2
3
Blue
Blue
--
Potential levels
Potential 1
Potential 1
--
Red
Potential 2
4
DC output circuit
Signal contacts
High-voltage
tester
AC input circuit
Performing high-voltage testing
If high-voltage testing of the control cabinet or the power
supply as a stand-alone component is planned during final
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Structure of the power supply
7.2
Device dimensions
The fanless convection-cooled power supply can be
snapped onto all DIN rails according to EN 60715.
10
9
2
3
53
3
1
QUINT POWER Ord.No.2904595
Function elements
QUINT POWER Ord.No.2904595
7.1
22,5
3.1 2.1 2.2
SIG + −
Output
DC 5V 5A
UOut
3.1 2.1 2.2
SIG + −
Output
DC 5V 5A
UOut
5-6,2V
Signal (SIG)
POut>PThr
Boost > 100%
> 75%
> 50%
5-6,2V
106
7
DC OK
Signal (SIG)
POut>PThr
8
Boost > 100%
> 75%
> 50%
DC OK
7
Input
AC 100-240V
N/ − L/+
1.1 1.2
3
Figure 2
6
4
Input
AC 100-240V
N/ − L/+
1.1 1.2
5
Figure 3
Device dimensions (dimensions in mm)
3
95
90
Operating and indication elements
3
4
5
6
7
8
9
10
108831_en_00
67
2
Designation
Connection terminal block signal output (SIG)
DC OK, POut > PThr: +10 V DC, 24 mA
Connection terminal block output voltage: Output
DC +/Accommodation for cable binders
Integrated snap-on foot for carrier rail mounting
QR code web link
Connection terminal block input voltage: Input L/N
Signaling DC OK LED
Rotary selector, status of the output voltage (DC OK)
or output power (POut > PThr)
Signaling POut > PThr LED (yellow): output power
POut > output power threshold PThr
Potentiometer output voltage
32
No.
1
106
Key
Figure 4
Device dimensions (dimensions in mm)
PHOENIX CONTACT
15 / 31
QUINT4-PS/1AC/5DC/5/PT
7.3
Keep-out areas
Nominal output
capacity
Spacing [mm]
b
30
30
a
0
5
< 50 %
≥ 50 %
c
30
30
If adjacent components are active and the
nominal output power ≥ 50%, there must be
lateral spacing of 15 mm.
22,5
a
QUINT POWER Ord.No.2904595
b
a
3.1 2.1 2.2
SIG + −
Output
DC 5V 5A
UOut
5-6,2V
Signal (SIG)
99
POut>PThr
Boost > 100%
> 75%
> 50%
DC OK
c
Input
AC 100-240V
N/ − L/+
1.1 1.2
Figure 5
108831_en_00
Device dimensions and minimum keep-out
areas (in mm)
PHOENIX CONTACT
16 / 31
QUINT4-PS/1AC/5DC/5/PT
7.4
Block diagram
N/-
1.1
L/+
1.2
active
PFC
2.1
+
2.2
-
3.1
OVP
SIG
SIG
C
Figure 6
DC OK POut
Block diagram
Key
Symbol
Designation
Filter
Symbol
Current limitation
OVP
Rectification
C
Inrush current limitation
Designation
Optocoupler (electrically isolating)
Additional regulatory protection against
surge voltage
Microcontroller
PNP transistor switch output
active
PFC
Power factor correction (PFC)
Rotary selector switch
SIG
Switching transistor and main transmitter
(electrically isolating)
Secondary rectification and smoothing
Signal/display LEDs (POut, DC OK)
DC OK POut
Potentiometer output voltage
Auxiliary converter (electrically isolating)
108831_en_00
PHOENIX CONTACT
17 / 31
QUINT4-PS/1AC/5DC/5/PT
8
Mounting/removing the power
supply
8.1
Mounting the power supply unit
Proceed as follows to mount the power supply:
1. The power supply is mounted in the normal mounting
position from above onto the 35 mm DIN rail (DIN EN
60715). Make sure that the integrated snap-on foot is in
the correction position behind the DIN rail (A).
2. Then press the power supply down until the integrated
snap-on foot audibly latches into place (B).
3. Check that the power supply is securely attached to the
DIN rail.
C
A
Figure 8
A
Click
Figure 7
8.2
D
B
Removing the power supply from the DIN rail
B
Snapping the power supply onto the DIN rail
Removing the power supply unit
Proceed as follows to remove the power supply:
1. Take a suitable screwdriver and insert this into the lock
hole on the integrated snap-on foot (A).
2. Release the lock by lifting the screwdriver (B).
3. Carefully swivel the power supply forward (C) so that
the lock slides back into the starting position.
4. Then separate the power supply from the DIN rail (D).
108831_en_00
PHOENIX CONTACT
18 / 31
QUINT4-PS/1AC/5DC/5/PT
Two receptacles for the bundled attachment of the
connection wiring are integrated in the left and right housing
panel. Use cable ties to secure the connection wiring
(optional WT-HF 3,6X140 - Order No. 3240744).
Proceed as follows to secure the connection wiring:
– Wire the power supply with sufficient connection
reserve (input terminal blocks, output terminal blocks,
signal terminal block)
– Bundle and set up the connection wiring so that the
ventilation slits on the top and bottom of the housing are
covered as little as possible.
– Thread the cable binders into the necessary
receptacles for the cable binders.
–
–
Shorten the excess length of the cable ties.
Then check again that the connection wiring is properly
secured.
Ord.No.290xxxx
Fix connection wiring to the power supply
3.1
SIG 2.1
2.2
Ou
tpu
t
U
+
QUINT POWER
8.3
−
Out
24
-28
V
Sig
na
l (S
IG
Bo PO )
os ut>P
t > Thr
10
> 7 0%
5%
Figure 11
Shorten protruding ends of the cable binder
Ord.No.290xxxx
NOTE: Mechanical damage to the connection
wiring caused by friction
+
QUINT POWER
In extreme ambient conditions, e.g., strong
vibrations, protect the connection wiring
against mechanical damage using additional
insulation material. The additional insulation
material for protecting the connection wiring is
limited to the area where the cable binders are
attached.
3.1
SIG 2.1
2.2
Ou
tpu
t
U
−
Out
24
-28
V
Sig
na
l (S
IG
Bo PO )
os ut>P
t > Thr
10
> 7 0%
5%
Figure 9
Secure the connection wiring with the cable binders.
Make sure that the connection wiring is attached safely
and securely without damaging the connection wiring.
Ord.No.290xxxx
–
Lay and align connection wiring
3.1
SIG 2.1
2.2
Ou
tpu
t
U
QUINT POWER
+
−
Out
24
-28
V
Sig
na
l (S
IG
Bo PO )
os ut>P
t > Thr
10
> 7 0%
5%
Figure 10
108831_en_00
Secure connection wiring with cable binder
PHOENIX CONTACT
19 / 31
QUINT4-PS/1AC/5DC/5/PT
9
Device connection terminal blocks
The AC input and DC output terminal blocks on the front of
the power supply feature Push-in connection technology.
For the necessary connection parameters for
the connection terminal blocks, refer to the
technical data section.
9.1
9.2
Protection of the primary side
Installation of the device must correspond to EN 61010
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.
Input
The power supply is operated on single-phase AC systems
or two outer conductors of three-phase systems. The power
supply is connected on the primary side via the INPUT L/N
connection terminal blocks.
Protection for AC supply
Input AC 100...240 V
L
N
The power supply is approved for connection
to TN, TT, and IT power grids with a maximum
phase-to-phase voltage of 240 V AC.
TN-S
TN-C
L/+ N/-
L
N
PE
L
PEN
Figure 13
Pin assignment for AC supply voltage
Protection for DC supply
L
N
+
L
-
N
TT
+
-
Input DC 110...250 V
+
iT
L1
L2
L3
L
N
-
L
N
Figure 12
108831_en_00
+
-
L
N
+
-
+
-
Figure 14
L/+ N/-
Pin assignment for DC supply voltage
Network configurations in star network
PHOENIX CONTACT
20 / 31
QUINT4-PS/1AC/5DC/5/PT
Output
Upon delivery, the power supply is preset to a nominal
output voltage of 5 V DC.
The output voltage is adjusted using the potentiometer.
9.4
Protection of 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,
fuse protection does not have to be provided
for each individual load.
If each load is protected separately with its
own protective device, the selective shutdown
in the event of a fault enables the system to
remain operational.
10
Output characteristic curves
The U/I output characteristic curve is optimized for the
following applications:
– When supplying loads with high switch-on currents,
such as motors. The dynamic boost of the power supply
supplies up to 200% of the nominal power for 5 s. This
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 available for a
sustained period (up to 40°C).
– For fast energy storage charging (e.g., of batteries) to
supply a wide range of loads. The power supply
operates in the nominal operating range. Energy supply
to the load is ensured.
UOut [V]
9.3
UN
5s
IN
100%
IStat. Boost
125%
200%
IOut [A]
0
IDyn. Boost
5s
0
Figure 15
108831_en_00
t [s]
U/I output characteristic curve
PHOENIX CONTACT
21 / 31
QUINT4-PS/1AC/5DC/5/PT
The power supply provides the static boost (IStat. Boost) for a
sustained load supply or the time-limited dynamic boost
(IDyn. Boost).
11.1
Static Boost
Use the following tables to determine the required recovery
time (tPause) at the maximum dynamic boost current (IDyn.
Boost) based on the following values:
– IBase Load
– Duration of the boost current (tDyn. Boost)
– Ambient temperature (40 °C or 60 °C)
POut [W]
For system expansion purposes, the sustained static boost
(IStat. Boost) supports the load supply with up to 125 % of the
nominal current of the power supply. The static boost is
available at an ambient temperature of up to 40 °C.
PDyn. Boost
200%
PStat. Boost
PN
125%
100%
75%
-25
40
60
70
TA [°C]
Figure 16
11.2
Performance characteristic in static boost
Dynamic Boost
IOut [A]
Dynamic boost (IDyn.Boost) delivers up to 200% of the power
supply nominal current to supply high loads. This temporary
power supply to the load lasts a maximum of 5 s at an
ambient temperature of up to 60°C.
IDyn.Boost
IBase Load
11.2.1 Recovery times at an ambient temperature of
40 °C
tDyn.Boost
tDyn.Boost
IDyn. Boost
[A]
1
2
3
4
4,9
0,00
10
1,0
4,5
7
9
11
1,25
10
1,2
4,8
7
9
12
2,50
10
2,5
5
8
10
13
3,75
10
3,8
5
8
11
14
5,00
10
5,0
6
13
17
19
6,25
10
6
7
19
23
29
Required recovery times at ≤ 40°C
11.2.2 Recovery times at an ambient temperature of
60 °C
tPause
tDyn. Boost [s]
IBase Load
[A]
IDyn. Boost
[A]
1
2
3
4
4,9
0,00
10
4,5
8
12
18
21
1,25
10
4,5
9
14
18
25
2,50
10
5
10
15
22
27
3,75
10
6
12
20
27
33
5,00
10
8
15
25
33
39
Basic curve of the dynamic boost process
Figure 19
108831_en_00
tDyn. Boost [s]
IBase Load
[A]
Figure 18
t [s]
Figure 17
If a current that is lower than the maximum
available dynamic boost current (IDyn. Boost) is
required for the same period, the recovery
time may (tPause) decrease.
tPause [s]
Boost currents
tPause [s]
11
Required recovery times at ≤ 60°C
PHOENIX CONTACT
22 / 31
QUINT4-PS/1AC/5DC/5/PT
11.2.3 Example: Determining the recovery time
(tPause)
At an output current (IBase Load) of 1.25 A, the dynamic
output current (IDyn. Boost) of 10 A increases for 2 s
(tDyn. Boost). After a recovery time (tPause) of 4.8 s, the
dynamic boost is available once again.
IDyn. Boost
[A]
1
2
3
4
4,9
0,00
10
1,0
4,5
7
9
11
1,25
10
1,2
4,8
7
9
12
2,50
10
2,5
5
8
10
13
3,75
10
3,8
5
8
11
14
5,00
10
5,0
6
13
17
19
6,25
10
6
7
19
23
29
Figure 20
108831_en_00
tPause [s]
tDyn. Boost [s]
IBase Load
[A]
Example recovery time for ≤ 40°C
PHOENIX CONTACT
23 / 31
QUINT4-PS/1AC/5DC/5/PT
12.3
Signaling
Location and function of the signaling elements
For signaling and the functional monitoring of the power
supply two LEDs and an active signal output are available.
Using the rotary selector select the required functional
monitoring. The monitoring of the output voltage (DC OK) or
the exceedance of the output power threshold are available
(POut > PThr).
12.1
3
Rotary selector switch in position DC OK:
In this switch position the output voltage (UOut) is monitored.
If the DC OK threshold is exceeded (UOut > 0.9 x USet) the
green DC OK LED turns on. Additionally, the signal output
(SIG) "active high" is active. If the output voltage drops
below the DC OK threshold value (UOut 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)
switches to "active low".
2
QUINT POWER Ord.No.290xxx
12
3.1 2.1 2.2
−
SIG +
Output DC
UOut
Signal (SIG)
POut >PThr
Boost > 100%
> 75%
> 50%
1
DC OK
Figure 21
Position of signaling elements
Key
No. Signaling elements
1
LED status indicator DC OK
LED on: UOut > 90% x USet
LED flashing: UOut PThr
3
Active signal output
The following table shows the standard assignment for signaling for the U/I characteristic curves which is set by default.
LED: POut > PThr
yellow
Signal SIG: POut > PThr
default
Signal SIG: DC OK
108831_en_00
BOOST
POut > PThr
Overload operation
UOut < 0.9 x USet
active high
active low
active low
green
LED: DC OK
Figure 22
Normal operation
POut < PThr
default
LED off
LED on
active high
active high
active low
LED flashing
U/I signaling
PHOENIX CONTACT
24 / 31
QUINT4-PS/1AC/5DC/5/PT
12.4
Active signal outputs, digital
QUINT POWER Ord.No.xxxxxxx
Signals are routed to a superordinate controller via the
digital signal output “3.1 SIG”.
QUINT POWER Ord.No.xxxxxxx
The 10 V DC signal is applied between the connection
terminal blocks “3.1 SIG” and “2.2 -”. The maximum load is
24 mA.
PLC
Digital Input
3.1 2.1 2.2
SIG + −
Output DC
UOut
Signal (SIG)
POut >PThr
Boost > 100%
> 75%
DI x 0/10 V DC
UOut
3.1 2.1 2.2
SIG + −
Output DC
> 50%
GND
Signal (SIG)
DC OK
POut >PThr
Boost > 100%
> 75%
> 50%
DC OK
Figure 23
Signaling
5
6
12.4.1 Signal level surge protection
IEC 61850-3 Immunity Requirement
1
2
3
4
Signal connections must satisfy the immunity requirement.
Equipment that is installed in "protected" areas and has
direct connections to other areas must satisfy the immunity
criteria.
PLC
Digital Input
Use Phoenix Contact surge protection (Order No. 2907925)
when you are using signal connection types p, l, f, and h for
the signal paths.
0/10 V DC DI x
DIN EN 61000-6-5 Electromagnetic Compatibility
(EMC)
The interface area may include items such as equipment,
devices, apparatus, and systems connected to the outside
world.
GND
Figure 24
Schematic diagram, signal wiring with
TRABTECH surge protection
Use Phoenix Contact surge protection (Order No. 2907925)
when you are using connection terminal blocks “3.1 SIG”
and “2.2 -” for the signals.
(see Section: Technical data, electromagnetic compatibility
table)
108831_en_00
PHOENIX CONTACT
25 / 31
QUINT4-PS/1AC/5DC/5/PT
13
13.2
Operating modes
Depending on the intended use, the power supply can be
run in series or parallel operation.
13.1
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. If two 5 V DC
power supplies are connected in series, an output voltage of
10 V DC is available to supply the loads.
+
+
-
-
Parallel operation
+5 V
-
+ −
Figure 26
Σ = IN
Schematic diagram in parallel operation
-10 V
+
+
-
-
108831_en_00
+ −
+
−
+
+10 V
Figure 25
IN
+ −
-5 V
+
-
Schematic diagrams in series operation
Observe the following points when carrying out parallel
connection:
1. Use power supplies of the same type and performance
class
2. Setting the same output voltages
3. Using the same cable cross sections for wiring
4. Using the same cable lengths for the DC convergence
point
5. Operating power supplies in the same temperature
environment
6. When three or more power supplies are connected in
parallel, each output must be protected (e.g., with
circuit breakers or decoupling modules)
PHOENIX CONTACT
26 / 31
QUINT4-PS/1AC/5DC/5/PT
13.2.1 Redundancy operation
13.2.2 Increased power
Redundant circuits are suitable for supplying systems and
system parts which place particularly high demands on
operational reliability.
When n power supplies are connected in parallel, the output
current is increased to n x IN. Parallel connection for
increased power is used when extending existing systems.
If the individual power supply does not cover the current
consumption of the most powerful load, parallel connection
of power supplies is recommended.
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. In the event of an error, it must be ensured
that one of the power supplies is able to provide the total
required power for the load. This means that in redundancy
mode, two 5 A power supplies supply a load with a nominal
current of 5 A, for example. During normal operation of the
power supplies, each power supply therefore supplies
2.5 A.
When three or more power supplies are
connected in parallel, each output must be
protected separately, e.g., by a circuit breaker
or decoupling module such as UNO DIODE or
STEP DIODE.
Always use cables with the same cross sections and lengths
when wiring the power supplies on the DC output side.
A redundancy module can be used to 100% decouple two
power supplies from one another and to ensure the supply.
A distinction is made here between passive and active
redundancy modules. Optimum decoupling with
simultaneous monitoring and minimal power dissipation can
be achieved with the UNO DIODE redundancy module.
IN
IN
+ –
+ –
+
–
IN
IN
+ −
+ −
+ –
+
−
Figure 28
+ −
Figure 27
IΣ= 2 x IN
Schematic diagram of increased performance
Σ = IN
Schematic 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 operated with
maximum half the nominal power. The keepout areas are
therefore reduced.
The following conditions must be met for 1+1 and n+1
redundancy operation of the power supplies in conjunction
with a UNO DIODE redundancy module.
Only use power supplies with the same performance class
and configuration for parallel connection.
Using the signaling settings, you can monitor whether both
power supplies are being operated with ≤ half the nominal
load. In the case of system extension, an overload is
prevented if one of the power supplies fails.
108831_en_00
PHOENIX CONTACT
27 / 31
QUINT4-PS/1AC/5DC/5/PT
14.2
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.
14.1
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. In the 40 °C to 60 °C temperature range,
the power supply can output more than the nominal power
for a sustained period.
PDyn. Boost
200%
PStat. Boost
PN
125%
100%
75%
-25
40
60
Installation height
The power supply can be operated at an installation height
of up to 2000 m without any limitations. Different data
applies for installation locations above 2000 m due to the
differing air pressure and the reduced convection cooling
associated with this (see technical data section). The data
provided is based on the results of pressure chamber testing
performed by an accredited test laboratory.
POut [%]
14
225
200
175
150
125
100
75
50
25
0
0
= PN 100 % 60 °C
= PStat. 125 % 40 °C
= PDyn. 200 % 60 °C
1000
2000
3000
4000
5000
H [m]
Figure 30
Output power depending on the installation
height
70
TA [°C]
Figure 29
108831_en_00
Output power depending on the ambient
temperature
PHOENIX CONTACT
28 / 31
QUINT4-PS/1AC/5DC/5/PT
14.3
Position-dependent derating
The fanless convection-cooled power supply can be snapped onto all DIN rails according to EN 60715.
The power supply should be mounted horizontally for heat dissipation reasons (AC connection terminal blocks
facing downward). Please observe the derating for any mounting other than the normal mounting position.
Reduce the output power based on the prevailing ambient temperature.
The recommended output power for different mounting positions and ambient temperatures can be found in the
characteristic curves below.
Exceeding these values will reduce the service life of the power supply.
QUINT POWER
Ord.No.xxxxxxx
POut [%]
14.3.1 Normal mounting position
U
Out
24
-28
V
Sig
na
l (S
IG
)
Bo Pout>
P
os
t>
Th
10 r
0
>7 %
5%
>5
0%
DC
OK
225
200
175
150
125
100
75
50
25
0
-25
= PN 100 %
= PStat. 125 %
= PDyn. 200 %
0
10
20
30
40
50
60
Y
70
T [°C]
Z
X
POut [%]
14.3.2 Rotated mounting position 90° Z-axis
QU
INT
24-28V
Y
RO
UOut
Signal (SIG)
Pout >PThr
Boost > 100%
> 75%
> 50%
DC OK
PO
WE
rd.N
o.x
x
xxx
xx
225
200
175
150
125
100
75
50
25
0
-25
= PN 100 %
= PStat. 125 %
= PDyn. 200 %
0
10
20
30
40
50
60
70
T [°C]
Z
X
108831_en_00
PHOENIX CONTACT
29 / 31
QUINT4-PS/1AC/5DC/5/PT
POut [%]
14.3.3 Rotated mounting position 180° Z-axis
OK
DC
QUINT POWER
= PN 100 %
= PStat. 125 %
= PDyn. 200 %
0
10
20
30
40
50
60
Sig
na
l (S
IG
P )
Bo
ou
os t>P
Th
t>
10 r
0
>7 %
5%
>5
0%
V
-28
24
Out
U
Z
70
T [°C]
Ord.No.xxxxxxx
Y
225
200
175
150
125
100
75
50
25
0
-25
X
Boost > 100%
> 75%
> 50%
DC OK
QU
INT
PO
WE
R
Ord
.N
o.x
xxx
xxx
Y
Signal (SIG)
Pout >PThr
UOut
24-28V
POut [%]
14.3.4 Rotated mounting position 270° Z-axis
225
200
175
150
125
100
75
50
25
0
-25
= PN 100 %
= PStat. 125 %
= PDyn. 200 %
0
10
20
30
40
50
60
70
T [°C]
Z
X
108831_en_00
PHOENIX CONTACT
30 / 31
QUINT4-PS/1AC/5DC/5/PT
24
-2
8V
)
IG hr
S PT
l ( u>t %
na P o 00
ig
1
S
> 5%
st > 7 %
oo
50
B
>
POut [%]
Q
ut
U
IN
T
UO
P
O
W
E
R
O
rd
.N
o.
xx
xx
xx
x
14.3.5 Rotated mounting position 90° X-axis
C
D
K
O
225
200
175
150
125
100
75
50
25
0
-25
= PN 100 %
= PStat. 125 %
= PDyn. 200 %
0
10
20
30
40
50
60
Y
70
T [°C]
Z
X
POut [%]
14.3.6 Rotated mounting position 270° X-axis
225
200
175
150
125
100
75
50
25
0
-25
= PN 100 %
= PStat. 125 %
= PDyn. 200 %
0
10
20
30
40
Y
50
60
70
T [°C]
Z
X
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