2938837 Datasheet 2938837 | P7-P8

PHOENIX CONTACT page 7 of 8

Power Supply, Primary Switch Mode, Narrow Design – MINI-PS-100-240AC/24DC/4

DC OK

24 V DC

20 mA

+ – –

Output 24V DC

DC OK

Figure 10

BOOST

OUT

[

]

OUT

[

]

Figure 11

< 60°C

(140°F)

< 40°C

(104°F)

t < 2 min.

< 60 °C

OUT

= 24 V

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.

6.4. Output (

, Figure 9)

NEC Class 2 power supply when installed with a 4.2

amp maximum, UL listed fuse or circuit breaker in the

output of the power supply. This procedure must be

followed to meet NEC Class 2 requirements

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 35 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.

Active signal output (

, Figure 10)

The 24 V DC signal is between the "DC OK" and "-"

connection terminal blocks and can be loaded with

20 mA maximum. This signal output indicates that the

output voltage has fallen below 21.5 V DC when "active

high" changes to "low".

The DC OK signal is isolated from the power output.

This ensures that a separate supply does not enter

from devices connected in parallel.

The 24 V DC signal can be connected directly to the

logic input for evaluation.

DC OK LED

The green DC OK LED enables local function

evaluation in the control cabinet.

7. Installation

7.1. Output Characteristic Curve

The device can supply a nominal output current of

4 A up to an ambient temperature of 60°C (140°F).

With an ambient temperature of up to 40°C (104°F) the

device continuously supplies an output current of 5 A.

At temperatures up to 60°C (140°F), the POWER

BOOST provides a short-term output current of 6 A for

a few minutes.

With high loads, the working point demonstrates the

U/I characteristic curve shown in Figure 11.

On an overload or short circuit, the entire output

current I

BOOST

is provided permanently at a reduced

output voltage.

Once the overload or short circuit has been removed,

the entire set secondary voltage is available again.

Status 1 Status 2

Green

"DC OK" LED 55

ON OFF

Active DC OK

switching output

U = +24 V

(with reference to "-")

U = 0 V

(with reference to "-")

Meaning Normal operation of

the power supply

OUT

> 21.5 V

OUT

≤ 21.5 V DC

• Secondary load

short circuit

or overload

• No mains voltage or

device fault

PHOENIX CONTACT page 8 of 8

7.2. Temperature Response

The device can supply a nominal output current of

4 A up to an ambient temperature of 60°C (140°F).

With an ambient temperature of up to 40°C (104°F) the

device continuously supplies an output current of 5 A.

At temperatures up to 60°C (140°F), the POWER

BOOST provides a short-term output current of 6 A for

a few minutes.

The output power must be decreased by 2.5% per

Kelvin temperature increase for ambient temperatures

above +60°C (+140°F). At ambient temperatures

above +70°C (+158°F) or in the event of a thermal

overload, the device reduces the output power to

protect itself and returns to normal operation 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.

If the output voltage is adjusted, an even current

distribution can be ensured by precisely setting all

power supplies that are operated in parallel to the

same output voltage.

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 1, device 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 fully met 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 I

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/24DC/4

40 6020

Output current [A]

OUT

= 24 V

Ambient temperature [°C]

Figure 12

+ – + –

–+

–

Σ =

4 A

MINI

24 V/4 A

MINI

24 V/4 A

Figure 13

+ – + –

–+

–

Σ =

8 A

MINI

24 V/4 A

MINI

24 V/4 A

Figure 14

 PHOENIX CONTACT 03/15/05 TNR: 5107911-02 http://www.phoenixcontact.com

P1-P3 P4-P6 P7-P8

2938837

Mfr. #:

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DIN Rail Power Supplies MINI-PS 24DC 4A

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