APC Smart-UPS VT Specification

Add to my manuals
6 Pages

advertisement

APC Smart-UPS VT Specification | Manualzz
IMPORTANT SAFETY INSTRUCTIONS
SAVE THESE INSTRUCTIONS
Warning: ALL safety instructions in the Safety Sheet
(990-2822) must be read, understood, and followed when
installing the UPS system. Failure to do so could result in
equipment damage, serious injury, or death.
Installation
Smart-UPS® VT
10-40 kVA 380/400/415 V with batteries




Warning: After the UPS has been electrically wired, do
not start it up. Start-up is commissioned to APCauthorized personnel only.
Caution: All electrical power and power control wiring
must be installed by a qualified electrician, and must comply
with local and national regulations for maximum power
rating.


Note: Ensure that the unit is in its final location prior to
installation.

Note: Battery and utility/mains power must not be
connected until all other wiring has been completed.
 10-40 kVA
 20-40 kVA without front panel
 10-15 kVA without front panel
Level the Enclosure
 10-40 kVA from the rear
 10-20 kVA
Warning: The system must be installed on a level floor.
The leveling feet will stabilize the enclosure, but will not
account for a badly sloped floor.
 10-20 kVA without front panel
 10-20 kVA from the rear



 Use a 13/14 mm wrench to adjust the four leveling feet.
 Ensure that the system is level.
Caution: Do not move the enclosure after the leveling feet
have been lowered.
990-1986B-001
*990-1986B-
10/2008
Floor Anchoring (if applicable)
Anchor the UPS enclosure to the floor
Note: Floor-anchoring bolts are not provided with the UPS.
Purchase the bolts locally (minimum size: M8). Follow the
specifications given by the manufacturer of the floor
anchoring system when bolting the UPS system to the floor.


 Reuse the two transport brackets (one
on each side) that were used to secure the
UPS to the pallet during transport.
  Drill two to six holes in the floor for
each bracket. Attach with bolts.
Prepare for Cables
Connect the AC Input and AC
Output Cables
Bottom cable entry
Dual mains
 Remove the
three busbars A,
Warning: Use compression type lugs ONLY.
Do not loosen or add cables to any factory preinstalled
cables on busbars. Use the front part of busbar for
connection only.
 From the rear of the UPS, loosen the six
M4 screws from the upper cover (the cable
landing area) on the back and remove.
B, and C by
removing two M6
screws from each
busbar.

 Connect the AC
input cables and
Single mains


the neutral to the
input cable
landings.
 Connect the AC input cables
and the neutral to the input
cable landings.


 Connect the AC output
cables and the neutral to the
the neutral to the
bypass cable
landings.
output cable landings.
Route the cables from the
slanted back plate, up
through the punched
bracket, and into the cable
landing area.

 Connect the ground cables to
the studs (earth symbol

beneath) using a screw.
 Connect the
output cables and



 Fasten the cables with
cable ties
 Connect the
bypass cables and
the neutral to the
output cable
landings.
 Connect the
ground cables to
the studs (earth
symbol beneath)
using a screw.

Note: A conduit box (part no. SUVTOPT001) is available
as an option.
2
Connect the DC Battery Cables
(if applicable)
 Connect battery cables BAT+,
BAT÷, and N to the battery cable
Connect the Communication
Cables
1
EPO circuit
2
3
J106 and J108 pin connections
4
EPO is activated when an isolated SELV 24
VDC voltage is supplied on pin 1 with
reference to pin 2.
Connections: 3-5 and 4-6.
5
Note: The UPS must be connected to either a dry contact or
a 24 VDC EPO (Emergency Power Off) switch.
landings.
2: +24 V Normally Open
J108
6
Note: The external EPO +24 VDC, 1500 mA circuit can be
supplied through other vendors.
J108
3: Dry Contacts Normally Closed
1
EPO is activated when a connection from
pin 3 to pin 5 is opened.
Connections: 4-6.
2
3

EPO circuit
4
5
6
Note: Always follow the pin connection procedures from
the top and work down: J106 (8-1), J108 (1-6).
4: +24 V Normally Closed
J108
Note: ONLY APC Smart-UPS VT XR Battery Enclosure
(SUVTRBXRB6) must be connected to the UPS.
EPO is activated when a SELV 24 VDC
voltage is removed from pin 3 with
reference to pin 4.
1
2
3
 J108 pin connections:
1
2
3
4
5
6
Normally open EPO
Normally open EPO return
Normally closed EPO
Normally closed EPO return
+24 V SELV supply
SELV ground
 J106 pin connections:

8
7
6
5
4
3
2
1

Ext. charging control return
External control of charging
Q3 active return
Q3 active
Battery measurement supply*
Battery unit quantity*
Max. battery temperature*
Battery measurement return*
* Should be used with APC XR
Enclosures
EPO wiring – pin connections J108. Connect the EPO cable, using
one of the following four wiring configurations.
5
6
Pin connections J106 (UPS).
Pins 1 to 4 are for battery measurement (only
applicable to APC XR Battery Enclosures).
J106
8
7
6
5
Charging control switch
Q3 switch
4
4
3
3
2
2
1
1
J200 (XR Batteries)
Pins 5 and 6 are for external maintenance
bypass Q3 (auxiliary switch N/C type).
When Q3 is closed, signals are fed back to the
UPS controller.
Pins 7 and 8 are for external charge control.
When 7 and 8 are closed, the UPS charges
batteries with a pre-defined percentage (0-2550-75-100%) of the maximum charging power.
To be used in generator applications, or if
special codes require control of charging.
When Q3 is closed, signals are fed back to the
UPS controller.
Note: When connecting the Q3 auxiliary signal, use goldplated N/C auxiliary switch.
1: Dry Contracts Normally Open
J108
1
2
3
4
5
6
EPO circuit
4
EPO circuit
EPO is activated when pin 1 is connected
to pins 3 and 5.
Connections: 2-4-6, 3-5 and
1 =>
3
Note: Reinstall the cable landing cover.
Connect APC communication options
Note: The cable routing of the power chute software and
the temperature sensor is identical.
Specifications
Warning: The UPS must be supplied from a 380/220 V,
400/230 V or 415/240 V L1, L2, L3, N, PE, 50 Hz.
Note: The temperature sensor is provided in a plastic bag
attached to the front of the UPS behind the front panel.
AC input

 Turn the screw below the
user interface display to the
10 kVA
UPS ratings
380 V 400 V 415 V
right to the unlocked position.

 Lift the front panel to free
the two tabs at the bottom of
40-70
40-70
40-70
Nominal input current (A)1
13.0
12.3
11.9
the enclosure.
Max. input current (A)2
14.3
13.5
13.1
Input current limit (A)3
16.8
16.8
16.8
front and remove the cableinlet plate.


 Guide the cable through
the side panel hole and run
the cable upwards inside the
panel.
 Pull the cable out of the
side panel through the hole
closest to the Network
Management Card area.

380 V 400 V 415 V
380 V 400 V 415 V
Input frequency (Hz)
40-70
40-70
40-70
40-70
40-70
40-70
Nominal input current (A)1 38.6
36.7
35.3
51.7
49.1
47.3
Max. input current (A)2
42.5
40.3
38.9
56.8
54.0
52.1
Input current limit (A)3
50.1
50.1
50.1
66.9
66.9
66.9
Input current based on rated load and batteries fully charged.
Input current based on fully battery recharge, nominal voltage and rated load.
3 Current limitation through electronic current limiting is based on full battery
recharge and -15% input voltage.
2
AC output
Input current based on rated load and batteries fully charged.
Input current based on fully battery recharge, nominal voltage and rated load.
3 Current limitation through electronic current limiting is based on full battery
recharge and -15% input voltage.
2
15 kVA
UPS ratings
10 kVA
UPS ratings
380 V 400 V 415 V
Nominal output current (A)
15.2
15 kVA
380 V 400 V 415 V
UPS ratings
Input frequency (Hz)
40-70
40-70
40-70
40-70
40-70
40-70
Nominal input current (A)1 19.4
18.5
17.8
26.0
24.7
23.8
Max. input current (A)2
21.4
20.3
19.6
28.6
27.2
26.2
Input current limit (A)3
25.2
25.2
25.2
33.8
33.8
33.8
1
14.4
13.9
20 kVA
380 V 400 V 415 V
Input current based on rated load and batteries fully charged.
Input current based on fully battery recharge, nominal voltage and rated load.
3
Current limitation through electronic current limiting is based on full battery
recharge and -15% input voltage.
20 kVA
380 V 400 V 415 V
Nominal output current (A) 22.8
21.7
20.9
380 V 400 V 415 V
30.4
30 kVA
UPS ratings
28.9
27.8
40 kVA
380 V 400 V 415 V
380 V 400 V 415 V
2
 Plug the cable into the
probe socket / PowerChute
inlet.

UPS ratings
1
Network
Management
 Guide the cable through
card
the hole in the bottom plate
and up through the cableinlet.
40 kVA
1
Input frequency (Hz)
 Remove the two screws
from the cable-inlet at the
30 kVA
 Reattach the cable-inlet
plate ().

4
Nominal output current (A) 45.6
43.3
41.7
60.8
57.7
55.6
Battery input
UPS ratings
Recommended current protection
15 kVA
15 kVA
20 kVA
30 kVA
± 192
± 192
± 192
± 192
± 192
External battery fuse (A)
125
125
125
125
125
125
1.6-1.75 V/cell (automatic, depending on load)
Bypass input
10 kVA
UPS ratings
Note: AC input/output over-current protection and AC
input/output disconnect must be provided by the customer
40 kVA
Nominal voltage (V)
380 V 400 V 415 V
50-60
50-60
50-60
Nominal input current (A)1
13.0
12.3
11.9
1
Input current based on rated load and batteries fully charged.
15 kVA
UPS ratings
Input frequency (Hz)
50-60
10 kVA
16
16
16
16
10 kVA
15 kVA
25
25
25
25
Mains input
2 kA
–
–
–
16.4 A
20 kVA
35
35
35
35
Bypass input
1.7 kA
121.5 A
–
–
16.7 A
Output
9 kA
121.5 A
22.8 A
19 A
16.7 A
30 kVA
50
50
50
50
Duration
<10 ms
500 ms
10 s
10 min.
∞
40 kVA
63
63
63
63
15 kVA
Mains input
2.1 kA
–
–
–
24.6 A
Bypass input
1.8 kA
182 A
–
–
25.1 A
Output
9 kA
182 A
34.2 A
25.4 A
25.1 A
Duration
<10 ms
500 ms
60 s
10 min.
∞
Mains input
2.5 kA
–
–
–
32.5 A
Bypass input
2.3 kA
244 A
–
–
33.4 A
Output
9 kA
244 A
68.4 A
57 A
33.4 A
Duration
<10 ms
500 ms
60 s
10 min.
∞
Nominal input current (A)1 19.4
1
Mains input
2.5 kA
–
–
–
32.5 A
50-60
50-60
18.5
17.8
26.0
24.7
23.8
Input current based on rated load and batteries fully charged.
30 kVA
UPS ratings
Nominal voltage (V)
Nominal input current (A)1 38.6
1
40 kVA
380 V 400 V 415 V
50-60
2
Required upstream current protection, mains input: gL type fuse.
Required upstream current protection, bypass input: gL type fuse.
20 kVA
380 V 400 V 415 V
50-60
380 V 400 V 415 V
50-60
50-60
50-60
50-60
50-60
36.7
35.3
51.7
49.1
47.3
Input current based on rated load and batteries fully charged.
Continuously
Q2
Note: The recommended cable sizes are based on an
environment with an ambient temperature of 30°C.
50-60
125%
overload
normal/
battery
operation
Q3
Recommended cable sizes
50-60
150%
overload
normal/
battery
operation
Q52
20 kVA
380 V 400 V 415 V
Internal
fault1
800%
overload
bypass
operation
Q11
1
Input frequency (Hz)
Minimum breaker settings
Mains input
[mm2]
AC output
[mm2]
Battery input Bypass input
[mm2] 70ºC
[mm2]
Wire
30 kVA
10 kVA
2.5
2.5
6
2.5
Bypass input
2.3 kA
244 A
–
–
33.4 A
15 kVA
6
6
10
6
Output
9 kA
244 A
68.4 A
57 A
33.4 A
20 kVA
10
10
16
10
Duration
<10 ms
500 ms
60 s
10 min.
∞
30 kVA
16
16
35
16
40 kVA
Mains input
3 kA
–
–
–
65.6 A
25
25
50
25
Bypass input
2.3 kA
487 A
–
–
66.9 A
Output
14 kA
487 A
91.2 A
76 A
66.9 A
Duration
<10 ms
500 ms
60 s
10 min.
∞
Note: Use Molex lug type or equivalent, and crimp to
manufacturer’s specifications.
Warning: At 100% switch mode load, the neutral must
be rated for 200% phase current.
5
40 kVA
1
For the output value, the short-circuit level is indicated.
Recommended lug size and torque value
Note: Power terminal lug diameter: 6 mm. Torque value: 7
Nm.
Checklist

Check that the power wiring is torqued to 7 Nm.

Verify phase-rotation to the right (L1, L2, L3) and make sure a
neutral connection is present.

Leave a wiring diagram on site for service personnel.

Re-install the cable landing cover.

Re-mount the front panel

If XR Battery Enclosures are installed, make sure that all DC
breakers (if applicable) are in the OFF position and that both 125 A
fuses are removed from the XR Battery Enclosures.
For any optional equipment, refer to the product-specific manuals.
Contact Information
For local, country-specific centers: go to www.apc.com/support/
contact.
Appendix
Wiring diagrams
Diagram with Maintenance
Bypass Panel
Diagram without
Maintenance Bypass Panel
6

advertisement

Was this manual useful for you? Yes No
Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Related manuals

Download PDF

advertisement