Phoenix Contact TRIO-UPS-2G/1AC/24DC/10 Manual Download

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TRIO-UPS-2G/1AC/24DC/10

107432_en_02

PHOENIX CONTACT

19 / 30

8.6

Connection terminal block signaling

The uninterruptible power supply has the signal outputs:

–

DC OK

–

Alarm (can be inverted via software)

–

Bat. Mode (can be inverted and parameterized via

software)

–

Ready (can be inverted and parameterized via

software)

Figure 20

Signal inputs and outputs

The signal outputs are non-isolated (DC output voltage)

active outputs. The signal ground (SGnd) or ground

connection for the output voltage serves as the reference

potential.

The uninterruptible power supply also features the signal

inputs:

–

Remote (can be inverted via software)

–

Bat.-Start

The signal inputs are activated as soon as they are

connected to the signal ground.

Example:

Figure 21

Signal inputs activated

8.7

Installation of individual components

Figure 22

Schematic design

Custom

[min]

(De

fault 0.5)

PC-Mode

Ser

vice

1510

Batter

y 24V

4.1

4.2

L /+
1.1

N /-
1.2

1.3

Input

100-240V

3.1

3.2

3.3

3.4

3.5

3.6

3.7

DC OK

Alarm

Bat.-Mode

Ready

Remote

Bat.-Star

SGnd

2.1

2.2

2.3

2.4

2.5

Output

24V 10A

TRIO DC-UP

Bat.-Mode

Bat.-Char

Alarm

P>Pn

DC OK

24-28V

3.1
3.2
3.3
3.4
3.5
3.6
3.7

DC OK

Alarm

Bat.-Mode

Ready

Remote

Bat.-Start

SGnd

WARNING

Provide a switch/circuit breaker close to the

device at the AC input, DC output and at the

battery terminals, which are labeled as the

disconnecting device for this device.

NOTE

As so-called wear parts, batteries are not

provided with a warranty. Deep discharge and

storage beyond the permitted temperature

range lead to irreversible damage to batteries.

Follow the documentation for the individual

components during installation.

The image is a schematic representation of

the design and does not contain all parts.

Observe the installation instructions.

DC OK

Alarm

Bat.-Mode

Ready

Remote

Bat.-Start

SGnd

+ -

TRIO

DC-UPS

L N

+ -

Input

Output

Battery

Protective conductor

Energy

storage

Buffered

DC load

Summary of Contents for TRIO-UPS-2G/1AC/24DC/10

Page 1: ...signed specifically for supplying industrial PCs IPCs Features Power supply loading unit and electronic switchover unit in a device Wide range input AC Adjustable output voltage in mains operation USB...

Page 2: ...le of contents 2 3 Ordering data 3 4 Technical data 4 5 Safety and installation notes 10 6 Structure 12 7 Mounting and removing 14 8 Device connection 16 9 Device operation 20 10 Method of operation 2...

Page 3: ...2 Ah tool free battery replacement automatic detection and communication with QUINT UPS IQ UPS BAT VRLA 24DC 7 2AH 2320319 1 Energy storage device lead AGM VRLA technology 24 V DC 12 Ah tool free batt...

Page 4: ...onnection Conductor cross section solid 0 2 mm 4 mm Conductor cross section flexible 0 2 mm 2 5 mm Conductor cross section AWG kcmil 24 12 Stripping length 10 mm Output data Derating 60 C 2 5 K of POu...

Page 5: ...ripping length 15 mm Status and diagnostic indicators signal outputs DC OK Switching output Transistor output active Output voltage 24 V DC Continuous load current 20 mA Status display LED green Statu...

Page 6: ...Gnd with 2 7 k Open 200 k between bat start and SGnd Interface USB classification MINI USB type B Device combinations UPS connection in parallel yes with diode module uncoupled UPS connection in serie...

Page 7: ...ollution 2 Vibration operation 12 13 2 Hz amplitude 1 mm 13 2 100 Hz 0 7g in accordance with IEC 60068 2 6 Shock 30g 18 ms according to IEC 60068 2 27 Climatic class 3K3 in acc with EN 60721 Standards...

Page 8: ...Level 3 8 kV Test Level 4 Comments none Criterion B Electromagnetic HF field EN 61000 4 3 Frequency range 80 MHz 1 GHz 80 MHz 6 GHz Test field strength 10 V m Test Level 3 10 V m Test Level 3 Comment...

Page 9: ...sidential EN 61000 6 2 industrial CE basic standard Minimum normative requirements Higher requirements in practice covered Key Criterion A Normal operating behavior within the specified limits Criteri...

Page 10: ...olarity and do not short circuit the pole terminals Provide a switch circuit breaker close to the device at the AC input DC output and at the battery terminals which are labeled as the disconnecting d...

Page 11: ...he wiring with and without ferrule see section Wire cross sections Protect the device against foreign bodies penetrating it e g paper clips or metal parts To reduce the risk of fire replace only with...

Page 12: ...r rear of housing 9 QR code web link 10 Battery terminal blocks 11 USB interface MINI type B TRIO DC UPS Ord No 2907161 Bat Mode Bat Charge Alarm P Pn DC OK 24 28V 1 2 3 5 15 Service PC Mode Custom De...

Page 13: ...t Bat Mode DC OK 3 1 3 2 3 3 3 4 3 5 3 6 3 7 2 4 2 5 Output 2 3 2 2 2 1 Input L N PE 1 2 1 3 1 1 External Battery 4 1 4 2 Active PFC Element Meaning Microprocessor LED Temperature sensor Selector swit...

Page 14: ...enable convection Depending on the ambient temperature and load on the uninterruptible power supply the housing can become hot In order to ensure sufficient convection we recommend a minimum vertical...

Page 15: ...niversal DIN rail adapter so that the mounting holes match the hole pattern on the left side of the housing 4 Insert the Torx screws into the appropriate hole pattern on the universal DIN rail adapter...

Page 16: ...130 universal wall adapter 8 Device connection 8 1 Push in connection technology The connection terminal blocks feature front side Push in connection technology The device wiring is performed by plug...

Page 17: ...power grids in accordance with the nominal input voltage Connection is via the INPUT L N connection terminal blocks Figure 16 Network types If loads must not be supplied in the event of a mains voltag...

Page 18: ...ervice 15 10 5 1 2 3 Battery 24V 4 1 4 2 L 1 1 N 1 2 1 3 Input AC 100 240V 3 1 3 2 3 3 3 4 3 5 3 6 3 7 DC OK Alarm Bat M ode Ready Remote Bat Start SGnd 2 1 2 2 2 3 2 4 2 5 Output DC 24V 10A TRIO DC U...

Page 19: ...0 5 PC M ode Service 15 10 5 1 2 3 Battery 24V 4 1 4 2 L 1 1 N 1 2 1 3 Input AC 100 240V 3 1 3 2 3 3 3 4 3 5 3 6 3 7 DC OK Alarm Bat M ode Ready Remote Bat Start SGnd 2 1 2 2 2 3 2 4 2 5 Output DC 24V...

Page 20: ...ched off Refer to the following diagram for possible buffer times for varying discharge currents Figure 25 Buffer time discharge current diagram The latest software version is to be found in the produ...

Page 21: ...runtime have expired PC will be shut down t2 mains restored while PC is shutting down t3 the PC has shut down and the output will be switched off PC idle time starts t4 the PC idle time has expired PC...

Page 22: ...e the housing to prevent it from being opened 11 Exit Service mode 12 Set the buffer time or PC mode Figure 28 Remove fuse Figure 29 Insert fuse Notes on disposal WARNING When connecting the batteries...

Page 23: ...battery operation is not started Figure 31 t0 remote signal is set in mains operation t1 no input voltage output will be switched off If the Remote signal is set in battery operation battery operatio...

Page 24: ...terminal and the SGnd signal terminal If PC Mode operating mode is set then in this case the PC shuts down immediately see section Remote starts immediate PC shutdown 9 4 Software configuration You ca...

Page 25: ...can be accessed for at least 5 s in the event that the output voltage remains the same On reaching time point t2 the dynamic boost is once more returned to the output value of the base load for therm...

Page 26: ...tem Figure 37 LED indicators Figure 38 Signal inputs and outputs Order No Battery Recharging times hr TA 25 C Icmax 2320296 UPS BAT VRLA 24DC 1 3AH 04 00 2320306 UPS BAT VRLA 24DC 3 4AH 05 00 2320319...

Page 27: ...ailure high low low D 50 Yellow D 50 Note Overload in mains operation battery is fully charged Mains operation battery is fully charged remote contact is shortet to SGnd Mains operation battery chargi...

Page 28: ...additional information to this signal output using the UPS CONF configuration software Ready When the connected energy storage system is fully charged the signal output is active The signal status can...

Page 29: ...thermal overload the device does not switch off The output power will be decreased by enough to allow device protection Once the device has cooled down the output power will be increased again Figure...

Page 30: ...ond device automatically takes over the complete power supply without interruption and vice versa For this purpose the power supply units to be connected in parallel must be large enough to ensure tha...

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