Specifications
Specifications for 400 V Systems
Input Specifications
| 60 kVA | 80 kVA | 100 kVA | |||||||
|---|---|---|---|---|---|---|---|---|---|
| Voltage (V) | 380 | 400 | 415 | 380 | 400 | 415 | 380 | 400 | 415 |
| Connections | L1, L2, L3, N, PE | ||||||||
| Input voltage range (V) | 342–477 at full load* | ||||||||
| Frequency range (Hz) | 40–70 | ||||||||
| Nominal input current (A) | 96 | 91 | 88 | 128 | 122 | 117 | 160 | 152 | 146 |
| Maximum input current (A) | 109 | 104 | 100 | 154 | 146 | 141 | 186 | 177 | 170 |
| Input current limitation (A) | 155 | 206 | 258 | ||||||
| Total harmonic distortion (THDI) | <3% for linear loads | ||||||||
| Input power factor | > 0.99 | ||||||||
| Maximum short circuit rating | Icc=10 kA | ||||||||
| Protection | Fuse | ||||||||
| Ramp-in | 7 seconds | ||||||||
Bypass Specifications
| 60 kVA | 80 kVA | 100 kVA | |||||||
|---|---|---|---|---|---|---|---|---|---|
| Voltage (V) | 380 | 400 | 415 | 380 | 400 | 415 | 380 | 400 | 415 |
| Connections | L1, L2, L3, N, PE | ||||||||
| Overload capacity | 110% for 60 minutes 130% for 10 minutes 130–150% for 1 minute |
||||||||
| Minimum bypass voltage (V) | 266 | 280 | 291 | 266 | 280 | 291 | 266 | 280 | 291 |
| Maximum bypass voltage (V) | 475 | 480 | 477 | 475 | 480 | 477 | 475 | 480 | 477 |
| Frequency (Hz) | 50 or 60 | ||||||||
|
Frequency range (%) |
±1, ±2, ±4, ±5, ±10. Default is ±10 (user selectable). | ||||||||
| Nominal bypass current (A) | 91 | 87 | 83 | 122 | 115 | 111 | 152 | 144 | 139 |
| Maximum short circuit rating | Icw=10 kA | ||||||||
Output Specifications
| 60 kVA | 80 kVA | 100 kVA | |||||||
|---|---|---|---|---|---|---|---|---|---|
| Voltage (V) | 380 | 400 | 415 | 380 | 400 | 415 | 380 | 400 | 415 |
| Connections | L1, L2, L3, N, PE | ||||||||
| Overload capacity * | 110% for 60 minutes 125% for 10 minutes 150% for 1 minute |
||||||||
| Output voltage regulation | ± 1% | ||||||||
| Dynamic load response | 20 milliseconds | ||||||||
| Output power factor | 1.0 | ||||||||
| Nominal output current (A) | 91 | 87 | 83 | 122 | 115 | 111 | 152 | 144 | 139 |
| Total harmonic distortion (THDU) | <2% at 100% balanced linear load <5% at 100% non-linear load |
||||||||
| Output frequency (Hz) | 50 or 60 | ||||||||
| Slew rate (Hz/sec) | Programmable: 0.5 to 2.0. Default is 0.5 | ||||||||
| Output performance classification (according to IEC/ EN62040-3) | VFI-SS–111 | ||||||||
| Load power factor | 0.5 leading to 0.5 lagging without derating | ||||||||
| Output short circuit current | 210 A/200 ms | 330 A/200 ms | 330 A/200 ms | ||||||
Battery Specifications
| 60 kVA | 80 kVA | 100 kVA | |
|---|---|---|---|
| Charging power in % of output power | 1–20% | 1–30% | 1–24% |
| Maximum charging power (W) | 12000 | 24000 | 24000 |
| Nominal battery voltage (2x16–2x25 blocks*) (VDC) | ± 192 to ± 300 | ||
| Nominal float voltage (2x16–2x25 blocks*) (VDC) | ± 215.5 to ± 337.5 | ||
| End of discharge voltage (2x16–2x25 blocks) (VDC) | ± 153.6 to ± 240 | ||
| Battery current at full load and nominal battery voltage (2x18–2x25 blocks) (A) | 147–105 | 196–140 | 245–175 |
| Battery current at full load and minimum battery voltage (2x18–2x25 blocks) (A) | 185–132 | 246–176 | 308–221 |
| Temperature compensation (per cell) * | Programmable from 0–7 mV. Default is 0 mV | ||
| Ripple current | < 5% C10 | ||
Recommended Upstream Protection
NOTE: For local directives which require 4–pole circuit
breakers: If neutral conductor is expected to carry a high current,
due to line-neutral non-linear load, the circuit breaker must be rated
according to expected neutral current.
| 60 kW | 80 kW | 100 kW | ||||
|---|---|---|---|---|---|---|
| Input | Bypass | Input | Bypass | Input | Bypass | |
| Breaker type | NSX160F 36kA AC 3P3D 125A TMD C16F3TM125 | NSX100F 36kA AC 3P3D 100A TMD C10F3TM100 | NSX160F 36kA AC 3P3D 160A TMD C16F3TM160 | NSX160F 36kA AC 3P3D 160A TMD C16F3TM160 | NSX250F 36kA AC 3P3D 200A TMD C25F3TM200 | NSX160F 36kA AC 3P3D 160A TMD C16F3TM160 |
| In setting | 125 | 100 | 160 | 160 | 200 | 160 |
| Ir setting | 125 | 100 | 160 | 144 | 200 | 160 |
| Im setting | 1250 (fixed) | 800 (fixed) | 1250 (fixed) | 1250 (fixed) | 1000 | 1250 (fixed) |
60KVA Selectivity of down stream circuit breaker: After 8.7ms circuit breaker trip after short circuit, output without interruption. (Circuit breaker specifications: iC65H-C-16A)
Recommended Cables Sizes
 DANGER |
|---|
|
hazard of electric shock, explosion, or arc flash
All wiring must comply with all applicable national and/or
electrical codes. The maximum allowable cable size is 70 mm².
Failure to follow these instructions will result in death or serious injury.
|
Cable sizes in this manual are based on table B.52.5 of IEC 60364-5-52 with the following assertions:
-
90 °C conductors
-
An ambient temperature of 30 °C
-
Use of copper conductors
-
Installation method C
PE size is based on table 54.2 of IEC 60364-5-54.
If the ambient temperature is greater than 30 °C, larger conductors are to be used in accordance with the correction factors of the IEC.
NOTE: Neutral conductor is sized to handle 1.73 times phase current
in case of high harmonic content from non-linear loads. If non or
less harmonic currents are expected, neutral conductor can be sized
accordingly but not less than the phase conductor.
60 kVA
| Cable size per phase (mm2) | Neutral cable size (mm2) | PE cable size (mm2) | |
|---|---|---|---|
| Input | 35 | 2x25 | 16 |
| Bypass | 25 | 16 | |
| Output | 25 | 2x25 | 16 |
| Battery | 50 | 50 | 25 |
80 kVA
| Cable size per phase (mm2) | Neutral cable size (mm2) | PE cable size (mm2) | |
|---|---|---|---|
| Input | 50 | 2x50 | 25 |
| Bypass | 50 | 25 | |
| Output | 50 | 2x50 | 25 |
| Battery | 2x50 | 2x50 | 50 |
100 kVA
| Cable size per phase (mm2) | Neutral cable size (mm2) | PE cable size (mm2) | |
|---|---|---|---|
| Input | 70 | 2x70 | 35 |
| Bypass | 70 | 35 | |
| Output | 70 | 2x70 | 35 |
| Battery | 2x70 | 2x70 | 70 |
Heat Dissipation
| 60 kVA | 80 kVA | 100 kVA | ||||
|---|---|---|---|---|---|---|
| W | BTU/hr | W | BTU/hr | W | BTU/hr | |
| Normal mode | 3084 | 10523 | 4296 | 14659 | 5500 | 18767 |
| Battery mode | 2958 | 10093 | 4352 | 14850 | 5520 | 18835 |
| ECO mode | 540 | 1843 | 696 | 2375 | 1020 | 3480 |
Specifications for 208 V Systems
Input Specifications
| 50 kVA | |||
|---|---|---|---|
| Voltage (V) | 200 | 208 | 220 |
| Connections | L1, L2, L3, N, PE | ||
| Input voltage range (V) | 180–272 at full load* | ||
| Frequency range (Hz) | 40–70 | ||
| Nominal input current (A) | 159 | 152 | 143 |
| Maximum input current (A) | 170 | 163 | 154 |
| Input current limitation (A) | 254 | ||
| Total harmonic distortion (THDI) | <3% for linear loads | ||
| Input power factor | > 0.99 | ||
| Maximum short circuit rating | Icc=10 kA | ||
| Protection | Fuse | ||
| Ramp-in | 12 seconds | ||
Bypass Specifications
| 50 kVA | |||
|---|---|---|---|
| Voltage (V) | 200 | 208 | 220 |
| Connections | L1, L2, L3, N, PE | ||
| Overload capacity | 110% for 60 minutes 130% for 10 minutes 130–150% for 1 minute |
||
| Minimum bypass voltage (V) | 140 | 146 | 154 |
| Maximum bypass voltage (V) | 250 | 260 | 275 |
| Frequency (Hz) | 50 or 60 | ||
|
Frequency range (%) |
±1, ±2, ±4, ±5, ±10. Default is ±10 (user selectable). | ||
| Nominal bypass current (A) | 147 | 141 | 133 |
| Maximum short circuit rating | Icw=10 kA | ||
Output Specifications
| 50 kVA | |||
|---|---|---|---|
| Voltage (V) | 200 | 208 | 220 |
| Connections | L1, L2, L3, N, PE | ||
| Overload capacity * | 110% for 60 minutes 125% for 10 minutes 150% for 1 minute |
||
| Output voltage regulation | ± 1% | ||
| Dynamic load response | 20 milliseconds | ||
| Output power factor | 1.0 | ||
| Nominal output current (A) | 144 | 139 | 131 |
| Total harmonic distortion (THDU) | <3% at 100% linear load <5% at 100% non-linear load |
||
| Output frequency (Hz) | 50 or 60 | ||
| Slew rate (Hz/sec) | Programmable: 0.5 to 2.0. Default is 0.5 | ||
| Output performance classification (according to IEC/ EN62040-3) | VFI-SS–111 | ||
| Load power factor | 0.5 leading to 0.5 lagging without derating | ||
| Output short circuit current | 330 A/200 ms | ||
Battery Specifications
| 50 kVA | |
|---|---|
| Charging power in % of output power | 1-38.4% |
| Maximum charging power (W) | 19200 |
| Nominal battery voltage (2x16 - 2x20 blocks) (VDC) | ± 192 to ± 240 |
| Nominal float voltage (2x16 - 2x20 blocks) (VDC) | ± 215.5 to ± 270 |
| End of discharge voltage (2x16 - 2x20 blocks) (VDC) | ± 153.6 to ± 192 |
| Battery current at full load and nominal battery voltage (2x16 - 2x20 blocks) (A) | 140-112 |
| Battery current at full load and minimum battery voltage (2x16 - 2x20 blocks) (A) | 175-140 |
| Temperature compensation (per cell) * | Programmable from 0-7 mV. Default is 0 mV |
| Ripple current | < 5% C10 |
Recommended Upstream Protection
NOTE: For local directives which require 4–pole circuit
breakers: If neutral conductor is expected to carry a high current,
due to line-neutral non-linear load, the circuit breaker must be rated
according to expected neutral current.
| 50 kW | ||
|---|---|---|
| Input | Bypass | |
| Breaker type | NSX250F 36kA AC 3P3D 200A TMD C25F3TM200 | NSX160F 36kA AC 3P3D 160A TMD C16F3TM160 |
| In setting | 200 | 160 |
| Ir setting | 200 | 160 |
| Im setting | 1000 | 1250 (fixed) |
Recommended Cable Sizes
| DANGER |
|---|
|
hazard of electric shock, explosion, or arc flash
All wiring must comply with all applicable national and/or
electrical codes. The maximum allowable cable size is 70 mm².
Failure to follow these instructions will result in death or serious injury.
|
Cable sizes in this manual are based on table B.52.5 of IEC 60364-5-52 with the following assertions:
-
90 °C conductors
-
An ambient temperature of 30 °C
-
Use of copper conductors
-
Installation method C
PE size is based on table 54.2 of IEC 60364-5-54.
If the ambient temperature is greater than 30 °C, larger conductors are to be used in accordance with the correction factors of the IEC.
NOTE: Neutral conductor is sized to handle 1.73 times phase current
in case of high harmonic content from non-linear loads. If non or
less harmonic currents are expected, neutral conductor can be sized
accordingly but not less than the phase conductor.
50 kVA
| Cable size per phase (mm2) | Neutral cable size (mm2) | PE cable size (mm2) | |
|---|---|---|---|
| Input | 70 | 2x70 | 35 |
| Bypass | 70 | 35 | |
| Output | 70 | 2x70 | 35 |
| Battery | 70 | 70 | 35 |
Heat Dissipation
50 kVA
| W | BTU/hr | |
|---|---|---|
| Normal mode | 4648 | 15859 |
| Battery mode | 3528 | 12038 |
| ECO mode | 890 | 3037 |
Recommended Bolts and Cable Lugs
| Cable size (mm²) | Bolt size | Cable lug type |
|---|---|---|
| 16 | M8 | KST TLK16-8 |
| 25 | M8 | KST TLK25-8 |
| 35 | M8 | KST TLK35-8 |
| 50 | M8 | KST TLK50-8 |
| 70 | M8 | KST TL70-8 |
NOTE: If the recommended lug type is not available, use a
local M8 lug type as a substitute.
Torque Specifications
| Bolt Size | Torque |
|---|---|
| M8 | 17.5 Nm |
Requirements for a Third Party Battery Solution
Battery breaker boxes from Schneider Electric are recommended for the battery interface. Please contact Schneider Electric for more information.
Third Party Battery Breaker Requirements
 DANGER |
|---|
|
Hazard of electric shock, explosion, or arc flash
All selected battery breakers must be equipped with instantaneous
trip functionality with an undervoltage release coil or a shunt trip
release coil.
Failure to follow these instructions will result in death or serious injury.
|
NOTE: There are more factors
to consider when selecting a battery breaker than the requirements
listed below. Please contact Schneider Electric for more information.
Design Requirements for Battery Breaker
| Battery breaker rated DC voltage > Normal battery voltage | The normal voltage of the battery configuration is defined as the highest nominal occurring battery voltage. This can be equivalent to the float voltage which may be defined as number of battery blocks x number of cells x cell float voltage. |
| Battery breaker rated DC current > Rated discharge battery current | This current is controlled by the UPS and must include maximum discharge current. This will typically be the current at the end of discharge (minimum operation DC voltage or in overload condition or a combination). |
| DC landings | Three DC landings (+, -, N) for DC cables are required. |
| AUX switches for monitoring | One AUX switch must be installed in each battery breaker and connected to the UPS. The UPS can monitor one battery breaker. |
| Short-circuit breaking capability | The short-circuit breaking capability must be higher than the short-circuit DC current of the (largest) battery configuration. |
| Minimum trip current | The minimum short-circuit current to trip the battery breaker must match the (smallest) battery configuration, to make the breaker trip in case of a short circuit, up to the end of its life time. |
Guidance for Organizing Battery Cables
NOTE: For 3rd party batteries, use only high rate batteries
for UPS applications.
NOTE: When the battery bank is placed
remotely, the organizing of the cables is important to reduce voltage
drop and inductance. The distance between the battery bank and the
UPS must not exceed 200 m (656 ft). Contact Schneider Electric for
installations with a longer distance.
NOTE: To minimize the
risk of electromagnetic radiation, it is highly recommended to follow
the below guidance and to use grounded metallic tray supports.
| Cable Length |
|
|
|
|
|---|---|---|---|---|
| <30 m | Not recommended | Acceptable | Recommended | Recommended |
| 31–75 m | Not recommended | Not recommended | Acceptable | Recommended |
| 76–150 m | Not recommended | Not recommended | Acceptable | Recommended |
| 151–200 m | Not recommended | Not recommended | Not recommended | Recommended |
Clearance
NOTE: Clearance dimensions are published for airflow and
service access only. Consult with the local safety codes and standards
for additional requirements in your local area.
Option A
NOTE: If the UPS is installed without side access, the length
of the cables connected to the UPS must allow for rolling out the
UPS.
|
Option B
|
Environmental
| Operating | Storage | |
|---|---|---|
| Temperature | 0 °C to 40 °C Recommended optimal temperature for batteries: 20 °C to 25 °C |
-15 °C to 40 °C for systems with batteries -25 °C to 55 °C for systems without batteries |
| Relative humidity | 0–95% non-condensing | |
|
Elevation
According to IEC 62040–3 |
Power
derating factor: 0-1500 m: 1.000 1500-2000 m: 0.975 |
< 15000 m above sea level (or in an environment with equivalent air pressure) |
| Audible noise | <65 dBA at full load and an ambient temperature of 30 °C* | |
| Protection class | IP20 (dust filter as standard) | |
| Color | RAL 9003 | |
UPS Weights and Dimensions
| UPS | Weight kg | Height mm | Width mm | Depth mm |
|---|---|---|---|---|
| 60 kVA 400 V | 109 | 915 | 360 | 850 |
| 80 kVA 400 V | 140 | 915 | 360 | 850 |
| 100 kVA 400 V/50 kVA 208 V | 145 | 915 | 360 | 850 |
UPS Shipping Weights and Dimensions
| UPS | Weight kg | Height mm | Width mm | Depth mm |
|---|---|---|---|---|
| 60 kVA 400 V | 133 | 1140 | 475 | 965 |
| 80 kVA 400 V | 164 | 1140 | 475 | 965 |
| 100 kVA 400 V/50 kVA 208 V | 169 | 1140 | 475 | 965 |
Compliance
|
Safety |
IEC 62040-1:2017, Edition 2.0, Uninterruptible power systems (UPS) – Part 1: Safety requirements IEC 62040-1: 2008-6, 1st edition, Uninterruptible Power Systems (UPS) – Part 1: General and safety requirements for UPS IEC 62040-1:2013-01, 1st edition amendment 1 |
|
EMC/EMI/RFI |
IEC 62040-2:2016, Edition 3.0, Uninterruptible power systems (UPS) – Part 2: Electromagnetic compatibility (EMC) requirements. IEC 62040-2:2005-10, 2nd edition, Uninterruptible Power Systems (UPS) – Part 2: Electromagnetic compatibility (EMC) requirements |
|
Performance |
IEC 62040-3: 2011-03, 2nd edition Uninterruptible Power Systems (UPS) - Part 3: Method of specifying the performance and test requirements |
|
Markings |
CE, RCM, EAC, WEEE, UKCA |
|
Transportation |
ISTA 2B |
|
Pollution degree |
2 |
|
Overvoltage category |
III |
|
Earthing system |
TN, TT, or IT |
