MINI POWER provides:
•
Extra narro w
widths of 22.5 and 45 mm (0.886 and
1.772 in.)
•
Global use
due to a wide range input
•
A high level of operational safety
in complex global
networks
•
Reliable start up
of heavy loads due to POWER
BOOST
The reliability of a power supply determines the
availability of individual components in a system and
whether complex systems can function safely.
The globalization of markets increases the demands
placed on the power supply. A wide range input and a
high level of availability are required. These
requirements are met by MINI POWER.
1. Brief Description
MINI POWER is the extra narrow power supply,
which is available in widths of 22.5 and 45 mm (0.886
and 1.772 in.).
In addition to a 24 V version with output currents of
0.65 A and 2 A, special voltages are also available with
5 V/3 A and +/- 15 V/1 A.
The POWER BOOST - a power reserve of up to
100% - ensures a reliable start of difficult loads.
The high level of operational safety is also ensured in
complex global networks. MINI POWER also operates
in applications where static voltage dips, transient
power supply failures or phase failure are common.
Large capacitors ensure mains buffering of more
than 20 ms at full load.
2. Area of Application
MINI POWER can be used globally due to the
consistent conversion of a wide range input.
In this way, your entire system can be tested at any
production location in the world and can be delivered to
any location in the world without faulty switching of the
input voltage. This reduces storage costs and logistical
effort.
An international approval package including UL
60950 for IT equipment and UL 508 for industrial
control equipment enables the device to be used
globally.
Power Supply, Primary Switch Mode, Narrow Design
MINI-PS-100-240AC/2x15DC/1
Headquarters: © Phoenix Contact GmbH & Co. KG • Flachsmarktstraße 8 • 32825 Blomberg • Germany
Phone +49 - 52 35 - 30 0 • Fax +49 - 52 35 - 34 12 00 • www.phoenixcontact.com
Local contact: www.phoenixcontact.com/salesnetwork
PHOENIX CONTACT page 2 of 8
solid flexible torque
[mm
2
] AWG [Nm]
Input 0.2 - 2.5 0.2 - 2.5 24 - 14 0.5 - 0.6
Output 0.2 - 2.5 0.2 - 2.5 24 - 14 0.5 - 0.6
Description
Power Supply
,
primary switch mode, narrow design
Technical Data
Input Data
1
Nominal input voltage(Current consumption)
Input voltage range
Frequency
Current consumption (for nominal values)
Inrush current limiting/I
2
t (+25°C [+77˚F])
Mains buffering for a nominal load (typical)
Switch-on time after applying the AC supply voltage
Transient surge protection
Input fuse, internal
Recommended fuse
Output Data
2
Nominal output voltage U
N
/tolerance
Setting range for the output voltage
Output current during convection cooling and nominal values
POWER BOOST I
BOOST
(t = 2, minutes [typical])
Nominal output current I
N
-25°C to +60°C (-13˚F to +140˚F)
Derating
Short-circuit current limit
Startup of capacitive loads
System deviation on: Load change static 10 - 90%
Load change dynamic 10 - 90%
Input voltage change ±10%
Maximum power loss No load/nominal load
Level of efficiency (typical)
Response time U
OUT
(10% - 90%)
Residual ripple/switching peaks (20 MHz)
Can be connected in parallel
Internal surge protection
Resistance to return supply
Signal Output Data
LED (U
out
> 13.5 V DC
=
LED permanently on)
MINI-PS-100-240AC/2x15DC/1
1 AC
U u
Type Order No.
Pcs.
Pkt.
MINI-PS-100-240AC/2x15DC/1 29 38 74 3
1
100 - 240 V AC (wide range input)
85 - 264 V AC (0.7-0.3A) 90 - 350 V DC (0.7-0.3A)
45 - 65 Hz 0 Hz
1.0 A (120 V AC) -0.5 A (230 V AC), approximately )
< 35 A/< 4 A
2
s, typical
> 20 ms (120 V AC)/> 100 ms (230 V AC)
< 1 s
Varistor
2.5 AT (device protection)
Circuit breaker 10 A or 16 A
Characteristic B (EN 60 898)
±15 V DC/±1%
2 x 15 V DC
Up to 2 A (U
out
= 2 x 15 V DC)
1 A (U
out
= 2 x 15 V DC)
From +60°C (+140˚F), 5% per Kelvin
I
BOOST
≈
2 A, approximately
Unlimited
< 1%, typical
< 3%, typical
< 0.1%, typical
1.7 W/6 W
> 73% (for 230 V AC and nominal values)
< 100 ms, typical
< 100 mV
pp
(for nominal values)
To increase redundancy and power
Ye s, limited to 20 V DC, approximately
17 V DC
Green LED
99
45
114.5
L (+)
N (–)
NC
NC OV
OV
Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/2x15DC/1
3. Technical Data
8 mm (0.31 in.)
PHOENIX CONTACT page 3 of 8
Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/2x15DC/1
General Data
Isolation voltage: Input/output
Approval package
Safety transformers for switched-mode power supplies
Electrical safety
(of IT equipment)
Industrial control equipment
Equipping high voltage installations
with electronic equipment
Safety extra-low voltage
Safe isolation
Protection against dangerous shock currents,
basic requirements for safe isolation
in electrical equipment
Limitation of harmonic line currents
Mounting position
Can be mounted with spacing - Vertical
- Horizontal
Degree of protection
Class of protection
MTBF
Housing version
Dimensions (W x H x D)
Weight
Climatic Data
Ambient temperature Operation
Storage
Humidity
Vibration according to IEC 68-2-6
Shock according to IEC 68-2-27
Degree of pollution
Climatic category
cc
cc
Conforms to the EMC Directive 89/336/EEC and the
Low Voltage Directive 73/23/EEC
EMC (Electromagnetic Compatibility)
Noise Immunity According to EN 61000-6-2:
Electrostatic discharge
(ESD)
EN 61000-4-2
3)
Housing
Contact discharge:
Air discharge:
Electromagnetic
HF field
EN 61000-4-3
2)
Housing
Frequency:
Field strength:
Fast transients
(burst)
EN 61000-4-4
3)
Input:
Output:
Surge current loads EN 61000-4-5
3)
Input:
Output:
Conducted
interference
EN 61000-4-6
2)
I/O:
Frequency:
U
0
:
Voltage dips EN 61000-4-11
3)
Input:
Simulation of
radiophone
EN 50204 Frequency:
Field strength:
Noise Emission According to EN 50081-2:
Radio interference EN 55011
Radio interference EN 55011
EN 55011 corresponds to CISPR11/EN 55022 corresponds to
CISPR22
EN 61000 corresponds to IEC 1000
2)
Criterion A: Normal operating characteristics within the specified
limits.
3)
Criterion B: Temporary adverse effects on the operating
characteristics that the device corrects
4 kV AC/(type test)/3 kV AC (routine test)
EN 61 558-2-17
EN 60950/VDE 0805
UL/C-UL Recognized UL 60 950
u
1)
UL/C-UL Listed UL 508
1)
EN 50 178/VDE 0160 (Surge Voltage Category III)
PELV (EN 50 178)
SELV (EN 60 950)
VDE 0100-410
DIN VDE 0106-101
According to EN 61000-3-2
On horizontal NS 35 DIN rail according to EN 50022
≥
8 cm (0.31 in.)
0 cm
IP 20
ΙΙ
, (in closed control cabinets)
> 500 000 h according to IEC 1709 (SN 29 500)
Polyamide PA, color green
(45 x 99 x 114.5 mm [1.722 x 3.898 x 4.508 in.])
0.25 kg, approximately
-25°C to +70°C (-13˚F to +158˚F) (> +60°C [+140˚F] derating)
-40°C to +85°C (-40˚F to +185˚F)
up to 95% at +25°C (+77˚F), no condensation
< 15 Hz, amplitude ±2.5 mm/15 Hz - 150 Hz, 2.3 g
30 g all space directions
2 (according to EN 50 178)
3K3 (according to EN 60 721)
1)
UL approval for AC input voltage and ambient temperatures of
up to +60°C (+140°F)
Requirements
EN 61 000-6-2 MINI-PS-100-240AC/2x15DC/1
4 kV
8 kV
Level 3
8 kV
8 kV
80 - 1000 MHz
10 V/m
Level 3
80 - 1000 MHz/1.4 - 2.0 GHz
10 V/m
2 kV asymmetrical
5)
2 kV asymmetrical
5)
4 kV (Level 4)
2 kV (Level 3)
2 kV asymmetrical
5)
1 kV symmetrical
4)
0.5 kV asymmetrical
5)
0.5 kV symmetrical
4)
2 kV (Level 3)
1 kV (Level 3)
0.5 kV (Level 1)
0.5 kV (Level 1)
asymmetrical
5)
0.15 - 80 MHz
10 V
Level 3
0.15 - 80 MHz
10 V
30% reduction of the input
voltage for 0.5 periods
See input data:
Mains buffering
> 20 ms
Not required 900 MHz/1800 MHz
20 V/m
Class A
6)
EN 55011 (EN 55022) Class B
7)
Class A
6)
EN 55011 (EN 55022) Class B
7)
4)
symmetrical: Cable to cable
5)
asymmetrical: Cable to ground
6)
Class A: Industrial application
7)
Class B: Industrial and domestic applications
U
LISTED
PHOENIX CONTACT page 4 of 8
11
11
AC input:
Input voltage 85 - 264 V AC
Frequency 45 - 65 Hz
(0.2 mm
2
to 2.5 mm
2
solid)
(0.2 mm
2
to 2.5 mm
2
flexible)
(24 - 14 AWG)
Internal fuse 2.5 AT
Recommended fuse
10 A or 16 A c.b./Characteristic B
22
22
DC output:
Output voltage ±15 V DC (default),
(0.2 mm
2
to 2.5 mm
2
solid)
(0.2 mm
2
to 2.5 mm
2
flexible) (AWG 24 - 14)
The device is idling-proof and short-circuit-proof.
33
33
DC OK LED
44
44
Universal latching foot for EN DIN rails
5. Safety and Warning Instructions
To ensure safe operation of the device and that
all functions can be used, please read these
instructions carefully.
Caution: Never carry out work when the
power is turned on, this is highly
dangerous.
5 6 7 8
MINI POWER
L(+) N(-)
DC
OK
NC
NC
+0V
IN 100-240 V AC
OUT ±15 V DC
–
0V
L NC NC N
MINI-PS-100-240AC/2X15DC/1
Order No.: 29 38 74 3
U
INDUSTRIAL
CONTROL
EQUIPMENT
43KA
LISTED
APPROVALS
u
INFORMATION
TECHNOLOGY
EQUIPMENT
Power Supply
INPUT OUTPUT
AC:
100-240V
50-60Hz
Range:
85-264V
1.0-0.5A
DC:
90-350V
1.0-0.5A
+15V DC
±1%
1A
Read installation instructions
before connecting to mains
www.interface.phoenixcontact.com
TEMPERATURE - 25 … + 60 °C
- 13 … + 140 °F
–25
Figure 04
2
1
3
4
Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/2x15DC/1
4. Device View, Connections, and Control Elements
Installation and startup
must only be carried out by
qualified personnel. The relevant country-specific
regulations (e.g., VDE, DIN) must also be observed.
Before startup it is particularly important to ensure
that:
• The line has been connected correctly and protection
is provided against electric shock.
• The device can be switched off outside the power
supply according to EN 60950 regulations (e.g., by
the line protection on the primary side).
• All supply lines have sufficient fuse protection and
are the correct size.
• All output cables are the correct size for the maximum
device output current or have separate fuse
protection.
• Sufficient convection is ensured.
MINI POWER is a built-in device. After installation
the terminal area must be covered to provide sufficient
protection against unauthorized access to live parts.
This is ensured by installing the device in the control
cabinet or distributor box.
The device contains dangerous live components
and high levels of stored energy.
PHOENIX CONTACT page 5 of 8
Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/2x15DC/1
6. Installation
5 6 7 8
MINI POWER
L(+) N(-)
DC
OK
NC
NC
0V
+0V
IN 100-240 V AC
OUT ±15 V DC
–
MINI-PS-100-240AC/2X15DC/1
Order No.: 29 38 74 3
U
INDUSTRIAL
CONTROL
EQUIPMENT
43KA
LISTED
APPROVALS
u
INFORMATION
TECHNOLOGY
EQUIPMENT
Power Supply
INPUT OUTPUT
AC:
100-240V
50-60Hz
Range:
85-264V
1.0-0.5A
DC:
90-350V
1.0-0.5A
±15V DC
±1%
1A
Read installation instructions
before connecting to mains
www.interface.phoenixcontact.com
TEMPERATURE - 25 … + 60 °C
- 13 … + 140 °F
–25
+0V –
0V
Figure 05
Mounting Removal
Figure 07
6.1. Mounting
The power supply can be snapped onto all DIN rails
according to EN 50022-35. The device must be
mounted horizontally (input terminals facing
downwards).
Installation Dimensions
To ensure sufficient convection, we
recommend the following minimum
spacing be used between modules:
8.0 cm (3.150 in.) for vertical installation
MINI POWER
L(+) N(-)
DC
OK
NC
NC
0V
+–
IN 100-240 V AC
OUT ±15 V DC
0V
Installation depth 106 mm (4.173 in.) (+ DIN rail)
Figure 06
80
99 mm (3.898 in.)
259 mm (10.197 in.)
114.5 mm (4.508 in.)
80
106 mm (4.173 in.)
45 mm (1.772 in.)
Mounting:
Place the module with the DIN rail guideway on the
top edge
of the DIN rail and then snap it
downwards
.
Removal:
Release the snap-on catch using a screwdriver and
then detach the module from the
bottom edge
of the
DIN rail.
PHOENIX CONTACT page 6 of 8
Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/2x15DC/1
+
LN –
L
N
PE
MINI
+
LN –
L
PEN
MINI
+
LN –
L
N
MINI
TN-S network TN-C network TT network
6.2. Connection of Various Types of Network: 100 - 240 V AC Networks
Figure 08
5 6 7 8
MINI POWER
L(+) N(-)
DC
OK
NC
NC
+0V
IN 100-240 V AC
OUT ±15 V DC
–
0V
L NC NC N
MINI-PS-100-240
A
Order No.: 29 38
7
Power Suppl
y
INPUT OUTPUT
AC:
100-240V
50-60Hz
Range:
85-264V
1.0-0.5A
DC:
90-350V
1.0-0.5A
+15V DC
±1%
1A
22
22
11
11
Figure 09
If the internal fuse is blown, this is most
probably due to a device fault.
In this case, the device should be
checked in the factory.
Connection Cable:
The device is equipped with COMBICON
connectors. This reliable user-friendly connection
method enables quick device connection and safe
isolation of the electrical connection, if required.
Only operate connectors when the power is
switched off.
The following cable cross sections can be connected:
For reliable and safe-to-touch
connection: Strip 8 mm (0.31 in.)
from the connector ends.
6.3. Input (11
11, Figure 9)
The 100 - 240 V AC connection is made using screw
connections L and N.
Protecting the Primary Side
The device must be installed according to the
specifications of EN 60 950. It must be possible to
switch off the device using a suitable disconnecting
device outside the power supply. For example, primary
side line protection could be used.
Additional device protection is not required, as an
internal fuse is present.
Recommended Fuse:
Circuit breaker 10 A or 16 A, Characteristic B (or
equivalent).
A suitable fuse must be fitted for DC applications.
Solid
[mm2]
Flexible
[mm2]
AWGTorque
[Nm]
11
11 Input: 0.2 - 2.5 0.2 - 2.5 24 - 14 0.5 - 0.6
22
22 Output: 0.2 - 2.5 0.2 - 2.5 24 - 14 0.5 - 0.6
8 mm (0.31 in.)
PHOENIX CONTACT page 7 of 8
Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/2x15DC/1
I
BOOST
UOUT
[V]
IOUT
[A]
I
N
< 60 °C
UN
2 x 15 W 2 x 30 W
12
±15
Figure 10
6.4. Output (22
22 , Figure 9)
The ±15 V DC connection is made using the "0 V"
and "–" screw connections on the screw-cage
connection 22
22.
Protecting the Secondary Side:
The device is electronic short-circuit-proof and idling-
proof. In the event of an error, the output voltage is
limited to a maximum of 20 V DC.
It should be ensured that all output cables are the
correct size for the maximum output current or have
separate fuse protection.
The secondary side cables should have large cross
sections to keep voltage drops on the cables to a
minimum.
DC OK LED
The green DC OK LED enables local function
evaluation in the control cabinet.
7. Function
7.1. Output Characteristic Curve (Figure 10).
The device can supply up to 2 A at ±15 V DC output
voltage for a few minutes (Pout = 2 x 30 W).
With high loads, the working point demonstrates the
U/I characteristic curve shown in Figure 10. The output
current is limited to IBOOST. The secondary voltage is
reduced until the short circuit on the secondary side is
removed.
The U/I characteristic curve ensures that both heavy
capacitive loads and devices with DC/DC converters
can be supplied by MINI POWER in the input circuit
without any problems.
Connected fuses are reliably tripped. The selectivity
in your system configuration is ensured at all times.
LED on Normal operation of the power supply
LED off a) The output voltage is ≤ 13.5 V DC.
There is a secondary load short circuit or overload
outside the POWER BOOST area.
b) No AC supply voltage is present or there is a device
fault.
PHOENIX CONTACT page 8 of 8
7.2. Temperature Response
At an ambient temperature of up to +60°C (+140˚F)
the device can supply an nominal current of 1 A.
POWER BOOST is available for a few minutes. The
output power must be decreased by 5% per Kelvin
temperature increase for ambient temperatures over
+60°C (+140˚F).
At ambient temperatures over +70°C (+158˚F) or in
the event of a thermal overload, the device switches off
to protect itself. The device switches on again once it
has cooled down.
7.3. Parallel Operation
Devices of the same type can be connected in
parallel to increase both redundancy and power. The
default setting does not have to be adjusted.
To ensure symmetrical current distribution we
recommend that all cable connections from the power
supply to the DIN rail are the same length and have the
same cross section.
Depending on the system, for parallel connection of
more than two power supplies a protective circuit
should be installed at each individual device output
(e.g., decoupling diode or DC fuse). This means that in
the event of a secondary device fault high return
currents are avoided.
7.4. Redundancy Operation
Redundant connections are designed for supplying
systems, which place particularly high requirements on
operational safety. If a fault occurs in the primary circuit
of device no. 1, device no. 2 automatically takes over
the complete power supply without interruption and
vice versa.
For this purpose, the power supplies to be connected
in parallel must be large enough that the total current
requirements of all loads can be completely covered by
one power supply. External decoupling diodes are
required for 100% redundancy.
7.5. Power Increase
The output current can be increased to n x IN where
n is the number of devices connected in parallel.
The parallel connection for power increase can be
used to extend existing systems. A parallel connection
is recommended if the power supply does not cover the
current consumption of the most powerful load.
Otherwise, the loads should be divided over
independent individual devices.
A maximum of five devices can be connected in
parallel.
Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/2x15DC/1
0
0
40 60
20
Output current [A]
UOUT = ±15 V
2
1
POWER
BOOST
Ambient temperature [°C]
Figure 11
Figure 12
0V
+
+
–
Σ =
+ –
0V
+ –
0V
0V
–
1 A
MINI
±15V/
1 A
MINI
±15V/
1 A
Figure 13
0V
+
+
–
Σ =
+ –
0V
+ –
0V
0V
–
2 A
MINI
±15V/
1 A
MINI
±15V/
1 A
PHOENIX CONTACT 15.04.02 TNR: 5107513-03 http://www.phoenixcontact.com
