Specifications

Overview of ESS Energy Storage Systems

Arc flash related calculation of the battery system is estimated with the Direct-Current Incident Energy Calculations referenced in Informative Annex D of NFPA 70E Standard for Electrical Safety in the Workplace. The ESS system is assumed to estimate the worst-case scenario of 8 LIBSESMG17UL battery cabinets in parallel. Estimated arc flash: < 0.97 cal/cm².

Input/output voltage, VAC, 3-phase, 50/60 Hz: 480 V.
Ambient temperature range: 23 °C ±5 °C.
Max. short-circuit current: 65 kA.

ESS model name	Max. input current (A)	Max. output current (A)	Max. energy output (W)	Max. power input (kVA)	Max. power output (kVA)
GVL200K500DS - 1LIBSESMG17UL	303	241	34600	252	184
GVL200K500DS - 2LIBSESMG17UL	303	241	69200	252	200
GVL200K500DS - 3LIBSESMG17UL	303	241	103800	252	200
GVL200K500DS - 4LIBSESMG17UL	303	241	138400	252	200
GVL200K500DS - 5LIBSESMG17UL	303	241	173000	252	200
GVL200K500DS - 6LIBSESMG17UL	303	241	207600	252	200
GVL200K500DS - 7LIBSESMG17UL	303	241	242200	252	200
GVL200K500DS - 8LIBSESMG17UL	303	241	276800	252	200
GVL200K500DS - 1LIBSESMG16UL	303	241	32600	252	173
GVL200K500DS - 2LIBSESMG16UL	303	241	65200	252	200
GVL200K500DS - 3LIBSESMG16UL	303	241	97800	252	200
GVL200K500DS - 4LIBSESMG16UL	303	241	130400	252	200
GVL200K500DS - 5LIBSESMG16UL	303	241	163000	252	200
GVL200K500DS - 6LIBSESMG16UL	303	241	195600	252	200
GVL200K500DS - 7LIBSESMG16UL	303	241	228200	252	200
GVL200K500DS - 8LIBSESMG16UL	303	241	260800	252	200
GVL300K500DS - 2LIBSESMG17UL	455	361	69200	378	300
GVL300K500DS - 3LIBSESMG17UL	455	361	103800	378	300
GVL300K500DS - 4LIBSESMG17UL	455	361	138400	378	300
GVL300K500DS - 5LIBSESMG17UL	455	361	173000	378	300
GVL300K500DS - 6LIBSESMG17UL	455	361	207600	378	300
GVL300K500DS - 7LIBSESMG17UL	455	361	242200	378	300
GVL300K500DS - 8LIBSESMG17UL	455	361	276800	378	300
GVL300K500DS - 2LIBSESMG16UL	455	361	65200	378	300
GVL300K500DS - 3LIBSESMG16UL	455	361	97800	378	300
GVL300K500DS - 4LIBSESMG16UL	455	361	130400	378	300
GVL300K500DS - 5LIBSESMG16UL	455	361	163000	378	300
GVL300K500DS - 6LIBSESMG16UL	455	361	195600	378	300
GVL300K500DS - 7LIBSESMG16UL	455	361	228200	378	300
GVL300K500DS - 8LIBSESMG16UL	455	361	260800	378	300
GVL400K500DS - 2LIBSESMG17UL	607	481	69200	505	368
GVL400K500DS - 3LIBSESMG17UL	607	481	103800	505	400
GVL400K500DS - 4LIBSESMG17UL	607	481	138400	505	400
GVL400K500DS - 5LIBSESMG17UL	607	481	173000	505	400
GVL400K500DS - 6LIBSESMG17UL	607	481	207600	505	400
GVL400K500DS - 7LIBSESMG17UL	607	481	242200	505	400
GVL400K500DS - 8LIBSESMG17UL	607	481	276800	505	400
GVL400K500DS - 2LIBSESMG16UL	607	481	65200	505	346
GVL400K500DS - 3LIBSESMG16UL	607	481	97800	505	400
GVL400K500DS - 4LIBSESMG16UL	607	481	130400	505	400
GVL400K500DS - 5LIBSESMG16UL	607	481	163000	505	400
GVL400K500DS - 6LIBSESMG16UL	607	481	195600	505	400
GVL400K500DS - 7LIBSESMG16UL	607	481	228200	505	400
GVL400K500DS - 8LIBSESMG16UL	607	481	260800	505	400
GVL500KDS - 3LIBSESMG17UL	758	601	103800	630	500
GVL500KDS - 4LIBSESMG17UL	758	601	138400	630	500
GVL500KDS - 5LIBSESMG17UL	758	601	173000	630	500
GVL500KDS - 6LIBSESMG17UL	758	601	207600	630	500
GVL500KDS - 7LIBSESMG17UL	758	601	242200	630	500
GVL500KDS - 8LIBSESMG17UL	758	601	276800	630	500
GVL500KDS - 3LIBSESMG16UL	758	601	97800	630	500
GVL500KDS - 4LIBSESMG16UL	758	601	130400	630	500
GVL500KDS - 5LIBSESMG16UL	758	601	163000	630	500
GVL500KDS - 6LIBSESMG16UL	758	601	195600	630	500
GVL500KDS - 7LIBSESMG16UL	758	601	228200	630	500
GVL500KDS - 8LIBSESMG16UL	758	601	260800	630	500

Specifications for 200-500 kW UPS

	UPS rating	200 kW	300 kW	400 kW	500 kW
Input	Connections	Single mains: 4-wire* (L1, L2, L3, N, G) or 3-wire* (L1, L2, L3, G) Dual mains: 3-wire* (L1, L2, L3, G)
	Input voltage range (V)	408-552
	Frequency (Hz)	40-70
	Nominal input current (A)	249	373	497	621
	Maximum input current (A)	303	455	607	758
	Input current limitation (A)	313	470	626	783
	Total harmonic distortion (THDI)	<3% at 100% load
	Input power factor	>0.99 at load >25%, 0.95 at >15% load
	Protection	Built-in backfeed protection and fuses
	Ramp-in	Adaptive 1-300 seconds
Bypass	Connections	4-wire (L1, L2, L3, N, G) or 3-wire (L1, L2, L3, G)
	Bypass voltage range (V)	432-528
	Frequency (Hz)	50 or 60
	Frequency range (Hz)	Programmable: ±1, ±3, ±10. Default is ±3.
	Nominal bypass current (A)	247	371	494	618
	Maximum short circuit rating (three cycles)	65 kAIC 65 kAIC with maintenance bypass cabinet (GVLMBCA200K500G) 45 kAIC Icw with bottom entry cabinet (GVBEC) 65 kAIC Icw with bottom entry cabinet (GVBEC and GVLOPT012 installed) 65 kAIC with backfeed breaker kit (GVLOPT003) installed in the UPS*
	I²t thyristor value (A²s)	3.1 MA²s
	Bypass backfeed protection options	1: Upstream installation of breaker with shunt trip connected to the UPS, OR 2: Installation with maintenance bypass cabinet (GVLMBCA200K500H / GVLMBCA200K500G), OR 3: Installation of backfeed breaker kit (GVLOPT004 / GVLOPT003) in the UPS.
Output	Connections*	4-wire (L1, L2, L3, N, G) or 3-wire (L1, L2, L3, G, GECPer NEC 250.30.*)
	Output voltage regulation	Symmetrical load ± 1% Asymmetrical load ± 3%
	Overload capacity	Normal operation: 150% for 1 minute, 125% for 10 minutes, (110% continuous*) Battery operation: 125% for 1 minute Bypass operation: 125% continuous, 1600% for 100 milliseconds
	Dynamic load response	± 5% after 2 ms, ± 1% after 50 ms
	Output power factor	1
	Nominal output current (A)	241	361	481	601
	Inverter output short circuit capabilities	Varies with time. See graph and table values in Inverter Short Circuit Capabilities (Bypass not Available).
	Output frequency (Hz)	50/60 (synchronized to bypass), 50/60 Hz ±0.1% (free-running)
	Synchronized slew rate (Hz/sec)	Programmable: 0.25, 0.5, 1, 2, 4, 6
	Total harmonic distortion (THDU)	<1% for linear load, <5% for non-linear load
	Output performance classification (according to IEC/ EN62040-3)	VFI-SS-11
	Load crest factor	3
	Load power factor	0.5 leading to 0.5 lagging without derating

Specifications for Lithium-ion Battery Cabinets

	LIBSESMG16UL	LIBSESMG17UL
Charging power in % of output power	0-40% load: 80% 100% load: 20%	0-40% load: 80% 100% load: 20%
Nominal battery voltage (VDC) at 3.8 V per cell	486	517
Peak current at end of discharge voltage (A)	450	450
Charge current default rate (CA rate)	0.7	0.7
Maximum continuous charge current rate (CA rate)	1.0	1.0
Float charge voltage (VDC) at 4.2 V per cell	538	571
End of discharge voltage (VDC) at 3.0 V per cell	384	408
Maximum continuous 100% depth of discharge power (kW)	173	184
Maximum partial depth of discharge power (kW)	218	231
Short circuit rating value (kA) - Isc, RMS (Isc, MAX)	2.9 (9.0)	2.9 (9.0)

NOTE: If the battery temperature is higher than the threshold after a full discharge at maximum continuous discharge power, the UPS may have to reduce the charge current to zero to protect the battery.

NOTE: The battery temperature must return to room temperature ±3 °C (5 °F) before a new discharge at maximum continuous discharge power. If not, the battery disconnect device may be tripped due to overtemperature protection.

NOTE: The working temperature for the busbars should be no more than
100 ℃ (212 °F).

Upstream and Downstream Protection for UL

Preconditions for Live Swap of Power Modules

Live Swap of power modules is only allowed under the following preconditions for the UPS installation; Follow either scenario 1 or scenario 2:

Preconditions for UPS installation — scenario 1 with instantaneous override values and trip times set according to the tables below in Recommended Upstream Protection for UL	Preconditions for UPS installation — scenario 2 with alternative disconnect device configurations supported with GVLOPT011 and disconnect device with ERMS mode*
Circuit breakers must have instantaneous trip time of maximum 50 ms.	Circuit breakers must be installed for input (unit input disconnect device UIB) and bypass (static switch input disconnect device SSIB).
Circuit breakers must have instantaneous override values set according to the table below.	Circuit breakers (UIB, SSIB) must be equipped with NEC 240.87, NFPA70E, IEEE1584, or EN51110-1 compliant ERMS mode.
Circuit breakers must be installed for input (unit input disconnect device UIB) and bypass (static switch input disconnect device SSIB).	For parallel systems with three or more UPSs: Circuit breakers must be installed for the output (unit output disconnect device UOB) of each UPS. The unit output disconnect device (UOB) is sized as the static switch input disconnect device (SSIB).
For parallel system with three or more UPSs: Circuit breakers must be installed for the output (unit output disconnect device UOB) of each UPS. The unit output disconnect device (UOB) is sized as the static switch input disconnect device (SSIB).	Circuit breaker (UOB) must be equipped with NEC 240.87, NFPA70E, IEEE1584, or EN51110-1 compliant ERMS mode.
Live Swap is not supported for >65kA_bf installations where current limiting disconnect devices are used to protect the UPS.	GVLOPT011 (Galaxy VL door switch kit) must be installed in the UPS and connected so ERMS mode is set to ON on UIB and SSIB and UOB when the front door of the UPS is opened.
	In ERMS mode, the instantaneous trip current shall be set to 5000 A or less. All time-delay settings shall be set to zero.

Schneider Electric reserves the right to remove the Live Swap label from the product front if the preconditions for scenario 1 or scenario 2 are not met.

DANGER
Hazard of electric shock, explosion, or arc flash Only perform Live Swap of the power modules in UPS installations that follow the preconditions for scenario 1 or scenario 2. Failure to follow these instructions will result in death or serious injury.

Recommended Upstream Protection for UL

The bypass/output disconnect devices are sized based on the nominal current +10%. This is to accommodate either low grid voltage or deviation in cable length between parallel UPSs. The battery disconnect devices are sized based on the end-of-discharge voltage which has been defined as 380 VDC.

NOTE: Overcurrent protection is to be provided by others and marked with its function.

UPS rating	200 kW		250 kW
	Input	Bypass	Input	Bypass
Breaker type Breaker type	LJF36400CU31X	LJF36400CU31X	LJF36400CU31X	LJF36400CU31X
Ir	320	280	400	360
tr	≥4	≥4	≥4	≥4
li (x In)	≤12	≤12	≤12	≤12

UPS rating	300 kW		350 kW		400 kW
	Input	Bypass	Input	Bypass	Input	Bypass
Breaker type Breaker type	PJF36060CU31A	PJF36060CU31A	PJF36060CU31A	PJF36060CU31A	PJF36080CU31A	PJF36060CU31A
Ir	480	420	540	480	640	540
tr	≥4	≥4	≥4	≥4	≥4	≥4
li (x In)	≤12	≤12	≤10	≤12	≤10	≤12

UPS rating	450 kW		500 kW
	Input	Bypass	Input	Bypass
Breaker type Breaker type	PJF36080CU31A	PJF36080CU31A	PJF36080CU31A	PJF36080CU31A
Ir	720	640	800	720
tr	≥4	≥4	≥4	≥4
li (x In)	≤8	≤10	≤8	≤10

Recommended Cable Sizes for UL

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 600 kcmil for input/bypass/output/neutral/ground cables in the UPS. The maximum allowable cable size is 500 kcmil for DC cables in the UPS. Shrink sleeve must be fitted over cable lug crimped zone and must overlap with the cable insulation on all power cables. Failure to follow these instructions will result in death or serious injury.

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 600 kcmil for input/bypass/output/neutral/ground cables in the UPS.
The maximum allowable cable size is 500 kcmil for DC cables in the UPS.
Shrink sleeve must be fitted over cable lug crimped zone and must overlap with the cable insulation on all power cables.

Failure to follow these instructions will result in death or serious injury.

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 350 kcmil for DC cables in the Lithium-ion battery cabinet. Shrink sleeve must be fitted over cable lug crimped zone and must overlap with the cable insulation on all power cables. Failure to follow these instructions will result in death or serious injury.

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 350 kcmil for DC cables in the Lithium-ion battery cabinet.
Shrink sleeve must be fitted over cable lug crimped zone and must overlap with the cable insulation on all power cables.

Failure to follow these instructions will result in death or serious injury.

The maximum number of cable connections per busbar in the UPS:

4 on input/output/bypass busbars
4 x 600 kcmil on input/output/bypass busbars
5 x 500 kcmil or 8 x 300 kcmil on DC+/DC- busbars
8 on N busbar
16 on ground busbar

NOTE: Overcurrent protection is to be provided by others.

Cable sizes in this manual are based on Table 310.15 (B)(16) of the National Electrical Code (NEC) with the following assertions*:

90 °C (194 °F) conductors (75 °C (167 °F) termination)
An ambient temperature of 30 °C (86 °F)
Use of copper or aluminum conductors for the UPS.
Use of copper conductors for the Lithium-ion battery cabinet.

If the ambient temperature is greater than 30 °C (86 °F), larger conductors are to be selected in accordance with the correction factors of the NEC.

Equipment grounding conductors (EGC) are sized in accordance with the minimum requirements in NEC Article 250.122 and Table 250.122.

NOTE: 100% rated circuit disconnect devices for UIB, UOB, MBB, SSIB. 100% rated disconnect devices for battery disconnect devices.

The bypass/output cables are sized based on the nominal current +10%. This is to accommodate either low grid voltage or deviation in length between parallel UPSs. The battery cables are sized based on end-of-discharge voltage which has been defined as 380 VDC.

Copper

UPS rating	200 kW	300 kW	400 kW	500 kW
Voltage (V)	480	480	480	480
Input phases (AWG/kcmil)	1 x 350	2 x 4/0	2 x 350	2 x 500
Input EGC (AWG/kcmil)	1 x 3	2 x 2	2 x 1/0	2 x 1/0
Bypass/output phases (AWG/kcmil)	1 x 300	1 x 600	2 x 300	2 x 400
Bypass EGC/output EGC (AWG/kcmil)	1 x 4	1 x 2	2 x 1	2 x 1/0
DC+/DC- (AWG/kcmil)	1 x 350 / 2 x 250	1 x 350 / 2 x 250	1 x 350 / 2 x 250	1 x 350 / 2 x 250
DC EGC (AWG/kcmil)	1 x 350 / 2 x 250	1 x 350 / 2 x 250	1 x 350 / 2 x 250	1 x 350 / 2 x 250
Inverter midpoint cable for 3-wire parallel (AWG/kcmil)	1 x 350	2 x 4/0	2 x 350	2 x 500

Aluminum

UPS rating	200 kW	300 kW	400 kW	500 kW
Voltage (V)	480	480	480	480
Input phases (AWG/kcmil)	1 x 500	2 x 300	2 x 500	(3 x 400)*
Input EGC (AWG/kcmil)	1 x 1	2 x 1/0	2 x 3/0	3 x 3/0
Bypass/output phases (AWG/kcmil)	1 x 400	2 x 250	2 x 400	2 x 600
Bypass EGC/output EGC (AWG/kcmil)	1 x 2	2 x 1/0	2 x 2/0	2 x 3/0
Inverter midpoint cable for 3-wire parallel (AWG/kcmil)	1 x 500	2 x 300	2 x 500	3 x 400

NOTE: Aluminum cables are not supported for the Lithium-ion battery cabinets.

Guidance for Organizing Input, Bypass, And Output Cables

The input, bypass, and output cables must be grouped in circuits. On raceways, use one of the two shown cable formations.

Recommended Bolt and Lug Sizes

NOTICE
risk of equipment damage Use only UL approved compression cable lugs. Failure to follow these instructions can result in equipment damage.

Recommended Bolt and Lug Sizes for the UPS – Copper

Cable size	Bolt size	Cable lug type (one hole)	Cable lug type (two hole NEMA)	Crimping tool	Die
1/0 AWG	M10x35mm	LCB1/0-12-X	LCC1/0-12-X	CT-930	CD-920-1/0 Pink P42
2/0 AWG	M10x35mm	LCB2/0-12-X	LCC2/0-12-X	CT-930	CD-920-2/0 Black P45
3/0 AWG	M10x35mm	LCB3/0-12-X	LCC3/0-12-X	CT-930	CD-920-3/0 Orange P50
4/0 AWG	M10x35mm	LCB4/0-12-X	LCC4/0-12-X	CT-930	CD-920-4/0 Purple P54
250 kcmil	M10x35mm	LCB250-12-X	LCC250-12-X	CT-930	CD-920-250 Yellow P62
300 kcmil	M10x35mm	LCB300-12-X	LCC300-12-X	CT-930	CD-920-300 White P66
350 kcmil	M10x35mm	LCB350-12-X	LCC350-12-X	CT-930	CD-920-350 Red P71
400 kcmil	M10x35mm	LCB400-12-X	LCC400-12-6	CT-930	CD-920-400 Blue P76
450 kcmil	M10x35mm	—	LCC450-12-6	CT-930	—
500 kcmil	M10x35mm	LCB500-12-X	LCC500-12-6	CT-930	CD-920-500 Brown P87

Recommended Bolt and Lug Sizes for the Lithium-ion Battery Cabinet– Copper — One Hole Cable Lugs

Cable size	Bolt size	Cable lug type	Crimping tool	Die
2 x 250 kcmil	M10x30	LCB250-12-X	CT-930	CD-920-250 Yellow P62
350 kcmil	M10x30	LCC350-12-X	CT-930	CD-920-350 Red P71

Recommended Bolt and Lug Sizes for the Lithium-ion Battery Cabinet– Copper — Two Hole Cable Lugs

Cable size	Bolt size	Cable lug type	Crimping tool	Die
2 x 250 kcmil	M10x30	LCC250-12-X	CT-930	CD-920-250 Yellow P62
350 kcmil	M10x30	LCC350-12-X	CT-930	CD-920-350 Red P71

Recommended Bolt and Lug Sizes for the UPS – Aluminum

Cable size	Bolt size	Cable lug type (one hole)	Cable lug type (two hole NEMA)	Crimping tool	Die
1/0 AWG	M10x35mm	LAA1/0-12-5	LAB1/0-12-X	CT-930	CD-920-1/0 Pink P42
2/0 AWG	M10x35mm	LAA2/0-12-5	LAB2/0-12-5	CT-930	CD-920-2/0 Black P45
3/0 AWG	M10x35mm	LAA3/0-12-5	LAB3/0-12-5	CT-930	CD-920-3/0 Orange P50
4/0 AWG	M10x35mm	LAA4/0-12-5	LAB4/0-12-5R	CT-930	CD-920-4/0 Purple P54
250 kcmil	M10x35mm	LAA250-12-5	LAB250-12-5	CT-930	CD-920-250 Yellow P62
300 kcmil	M10x35mm	LAA300-12-2	LAB300-12-2	CT-930	CD-920-300 White P66
350 kcmil	M10x35mm	LAA350-12-2	LAB350-12-2R	CT-930	CD-920-350 Red P71
400 kcmil	M10x35mm	—	LAB400-12-2	CT-930	CD-920-400 Blue P76
500 kcmil	M10x35mm	LAA500-12-2	LAB500-12-2R	CT-930	CD-920-500 Brown P87

NOTE: Aluminum cables are not supported for the Lithium-ion battery cabinets.

Inverter Short Circuit Capabilities (Bypass not Available)

IK1 – Short Circuit between a Phase and Neutral

IK1 480 V

S [kVA]	10ms; I[A]/I²t [A²t]	20ms; I[A]/I²t [A²t]	30ms; I[A]/I²t [A²t]	100ms; I[A]/I²t [A²t]	1s; I[A]/I²t [A²t]
200	560 /3090	560 /6180	560 /9280	480 /29020	380 /167430
250	700 /4830	700 /9660	700 /14490	610 /45350	480 /261610
300	830 /6960	830 /13910	830 /20870	730 /65300	570 /376720
350	970 /9470	970 /18940	970 /28410	850 /88880	670 /512750
400	1110 /12370	1110 /24740	1110 /37100	970 /116090	760 /669720
450	1250 /15650	1250 /31310	1250 /46960	1090 /146930	860 /847610
500	1390 /19330	1390 /38650	1390 /57970	1210 /181390	950 /1046430

IK2 – Short Circuit between Two Phases

IK2 480 V

S [kVA]	10ms; I[A]/I²t [A²t]	20ms; I[A]/I²t [A²t]	30ms; I[A]/I²t [A²t]	100ms; I[A]/I²t [A²t]	1s; I[A]/I²t [A²t]
200	560 /3150	560 /6280	560 /9350	470 /27550	370 /158630
250	700 /4920	700 /9810	700 /14610	590 /43050	460 /247850
300	840 /7090	840 /14130	840 /21040	700 /61990	550 /356910
350	980 /9640	980 /19230	980 /28640	820 /84380	650 /485790
400	1120 /12600	1120 /25110	1120 /37410	940 /110210	740 /634500
450	1260 /15940	1250 /31790	1250 /47350	1050 /139480	830 /803040
500	1400 /19680	1390 /39240	1390 /58450	1170 /172200	920 /991410

IK3 – Short Circuit between Three Phases

IK3 480 V

S [kVA]	10ms; I[A]/I²t [A²t]	20ms; I[A]/I²t [A²t]	30ms; I[A]/I²t [A²t]	100ms; I[A]/I²t [A²t]	1s; I[A]/I²t [A²t]
200	500 /2470	500 /4950	500 /7420	480 /24390	380 /159310
250	620 /3870	620 /7730	620 /11600	600 /38110	470 /248920
300	750 /5570	750 /11140	750 /16700	720 /54880	570 /358450
350	870 /7580	870 /15160	870 /22740	840 /74690	660 /487890
400	990 /9900	990 /19800	990 /29700	960 /97560	750 /637240
450	1120 /12530	1120 /25060	1120 /37580	1070 /123470	850 /806510
500	1240 /15470	1240 /30930	1240 /46400	1190 /152440	940 /995690

Torque Specifications

Bolt size	Torque for UPS	Torque for Lithium-ion battery cabinet
M4	1.7 Nm (1.25 lb-ft / 15 lb-in)	1.7 Nm (1.25 lb-ft / 15 lb-in)
M5	2.2 Nm (1.62 lb-ft / 19.5 lb-in)	NA
M6	5 Nm (3.69 lb-ft / 44.3 lb-in)	5 Nm (3.69 lb-ft / 44.3 lb-in)
M8	17.5 Nm (12.91 lb-ft / 154.9 lb-in)	14 Nm (10.33 lb-ft)
M10	30 Nm (22 lb-ft / 194.7 lb-in)	30 Nm (22.13 lb-ft)
M12	50 Nm (36.87 lb-ft / 442.5 lb-in)	46 Nm (33.93 lb-ft)

Environment

	Operating		Storage
	UPS	Lithium-ion battery cabinet	UPS	Lithium-ion battery cabinet
Temperature	0 °C to 40 °C (32 °F to 104 °F) without load derating. 40 °C to 50 °C (104 °F to 122 °F) when derated to 70% power.	Recommended operating temperature is 18 °C to 28 °C (64 °F to 82 °F)	-25 °C to 55 °C (-13 °F to 131 °F) for systems without batteries.	Lithium-ion battery cabinet: 0 °C to 40 °C (32 °F to 104 °F) Battery modules: Recommended storage for battery modules is 20 °C (68 °F) or cooler (non-freezing)
Relative humidity	5-95% non-condensing	0-95% non-condensing	10-80% non-condensing	Lithium-ion battery cabinet: 0-90% non-condensing Lithium-ion battery modules: Recommended storage for battery modules is 40-80% non-condensing
Elevation	Designed for operation in 0-3000 m (0-10000 feet) elevation. Derating required from 1000-3000 m (3300-10000 feet) with forced air cooling: Up to 1000 m (3300 feet): 1.000 Up to 1500 m (5000 feet): 1.000 conditioned by 2 x 300 mm² input cables at 500 kW Up to 1500 m (5000 feet) : 0.975 Up to 2000 m (6600 feet): 1.000 conditioned by 2 x 300 mm² input cables at 500 kW Up to 2000 m (6600 feet): 0.950 Up to 2500 m (8300 feet): 0.975 conditioned by 2 x 300 mm² input cables at 500 kW Up to 2500 m (8300 feet): 0.925 Up to 3000 m (10000 feet): 0.950 conditioned by 2 x 300 mm² input cables at 500 kW Up to 3000 m (10000 feet): 0.900 Derating required from 1000-3000 m (3300-10000 feet) with convection cooling: Up to 1000 m (3300 feet): 1.000 Up to 1500 m (5000 feet) : 0.985 Up to 2000 m (6600 feet): 0.970 Up to 2500 m (8300 feet): 0.955 Up to 3000 m (10000 feet): 0.940	0-3000 m (0-10000 feet)
Audible noise one meter (three feet) from unit	62 dB at 70% load 68 dB at 100% load for 480 V systems
Protection class	IP20	IP20
Color	RAL 9003, gloss level 85%	RAL 9003, gloss level 85%

Compliance

	UPS	Lithium-ion battery cabinet
Safety	IEC 62040-1: 2017, Edition 2.0, Uninterruptible Power Systems (UPS) - Part 1: Safety requirements UL 1778 5th edition	IEC 62619:2017 Secondary cells and batteries containing alkaline or other non-acid electrolytes - Safety requirements for secondary lithium cells and batteries, for use in industrial applications IEC 62477-1:2012+A11:2014 Safety requirements for power electronic converter systems and equipment Part 1: General UL 1973:2022 Batteries for Use in Stationary, Vehicle Auxiliary and Light Electric Rail Applications UL 9540A:2019 Test Method for Evaluating Thermal Runaway Fire Propagation in Battery Energy Storage Systems
EMC/EMI/RFI	IEC 62040-2: 2016-11, 3rd edition Uninterruptible Power Systems (UPS) - Part 2: Electromagnetic compatibility (EMC) requirements C2 FCC Part 15 Subpart B, Class A	IEC 62040-2:2016 Uninterruptible Power Systems (UPS) - Part 2: Electromagnetic compatibility (EMC) requirements C2 FCC Part 15, Radio Frequency Devices, class A
Performance	Performance in accordance with: IEC 62040-3: 2021-04, 3rd edition Uninterruptible Power Systems (UPS) - Part 3: Method of specifying the performance and test requirements.	—
Environmental		IEC 60068-2-1:2007 Environmental testing – Part 2-1: Tests – Test A: Cold IEC 60068-2-2:2007 Environmental testing – Part 2-2: Tests – Test B: Dry heat IEC 60068-2-78:2012 Environmental testing – Part 2-78: Tests – Test Cab: Damp heat, steady state
Markings	UL1778 Listing and CSA C22.2 NO.107.3	ANSI/CAN/UL 1973 Listing
Transportation	IEC 60721-4-2 Level 2M2	IEC60068-2-27:2008 Environmental testing – Part 2-27: Tests – Test Ea and guidance: Shock IEC60068-2-31:2008 Environmental testing – Part 2-31: Tests – Test Ec: Rough handling shocks, primarily for equipment-type specimens IEC60068-2-64:2008 Environmental testing – Part 2-64: Tests – Test Fh: Vibration, broadband random and guidance
Seismic	ICC-ES AC 156 (2015); OSHPD Pre-approved; Sds=1.45 g for z/h=1 and Sds=2.00 g for z/h=0; Ip=1.5	OSHPD, CBC 2019, S_DS=2.0g (z/h = 1); 2.5g (z/h = 0)
Earthing systemCorner grounding not permitted.*	TN, TT, TNC, IT, TN-S, TNC-S Solid-grounded, HRG
Overvoltage category	This UPS is OVCII compliant. If the UPS is installed in an environment with an OVC rating higher than II, an SPD (surge protection device) must be installed upstream of the UPS to reduce the overvoltage category to OVCII.	II
Protective class	I
Pollution degree	2

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

Weights and Dimensions

UPS Weights and Dimensions

UPS rating	Weight kg (lbs)	Height mm (in)	Width mm (in)	Depth mm (in)
200 kW	550 (1212)	1970 (78)	850 (33)	925 (36)
300 kW	626 (1380)	1970 (78)	850 (33)	925 (36)
400 kW	702 (1547)	1970 (78)	850 (33)	925 (36)
500 kW	778 (1715)	1970 (78)	850 (33)	925 (36)

Lithium-ion Battery Cabinet Weights and Dimensions

	Weight kg (lbs)	Height mm (in)	Width mm (in)	Depth mm (in)
LIBSESMG16UL	470 (1036)	1970 (78)	650 (25.59)	587 (23.11)
LIBSESMG17UL	490 (1080)	1970 (78)	650 (25.59)	587 (23.11)

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.

NOTE: Clearance dimensions for the lithium-ion battery cabinet have been verified by UL 9540A 4th edition (project No. 4789548397, issued by UL on 21 May 2021).

Front View of the UPS

Lithium-ion Battery Cabinet

* Rear clearance is only required for Lithium-ion battery cabinet with seismic anchoring.