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Test Report issued under the responsibility of:
TEST REPORT IEC 62040-3
Uninterruptible power systems Part 3: Method of specifying the performance and test requirements
Report reference No. ..................: 11-EL-0026.06
Date of issue ................................: 2012-07-05
Total number of pages .................: 48
CB Testing Laboratory...................: Address ...........................................:
Electrosuisse Luppmenstrasse 1, CH-8320 Fehraltorf Switzerland
STS 001
Applicant’s name............................: Newave SA
Address ............................................: Via Luserte Sud 9, 6572 Quartino, Switzerland
Test specification:
Standard ...........................................: IEC 62040-3 (1st Edition):1999
Test procedure .................................: CB Scheme
Non-standard test method…………..: N/A
Test Report Form No......................: IEC62040_3A
Test Report Form(s) Originator ........: Electrosuisse
Master TRF.......................................: Dated 2011-05
Copyright © 2010 Worldwide System for Conformity Testing and Certification of Electrotechnical Equipment and Components (IECEE), Geneva, Switzerland. All rights reserved. This publication may be reproduced in whole or in part for non-commercial purposes as long as the IECEE is acknowledged as copy-right owner and source of the material. IECEE takes no responsibility for and will not assume liability for damages resulting from the reader's interpretation of the reproduced material due to its placement and context. If this Test Report Form is used by non-IECEE members, the IECEE/IEC logo and the reference to the CB Scheme procedure shall be removed. This report is not valid as a CB Test Report unless signed by an approved CB Testing Laboratory and appended to a CB Test Certificate issued by an NCB in accordance with IECEE 02.
Test item description .....................: Newave UPS System
Trade Mark .......................................: Newave
Manufacturer ....................................: Newave SA, Via Luserte Sud 9, 6572 Quartino, Switzerland
Model/Type reference ......................: Model: PowerScale Type: P2S 0262 Cab.C
Ratings .............................................: Input: 3N400/230V~PE, 75.9A, 35-70Hz Output: 3N400/230V~PE, 45kW, 50kVA, 72.2A, 50Hz
Page 3 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
List of Attachments (including a total number of pages in each attachment):
See basic test report No: 11-EL-0026.04
Summary of testing:
The equipment complies with this standard.
Tests performed (name of test and test clause):
Complete test performed
Testing location:
Newave SA
Via Luserte Sud 9, CH-6572 Quartino
Summary of compliance with National Differences List of countries addressed: EN 62040-3:2001 + A11:2009
Copy of marking plate
The artwork below may be only a draft. The use of certification marks on a product must be author-ized by the respective NCBs that own these marks. Copy of marking plate see basic test report 11-EL-0026.04 detailed information to other models stated in basic test report 11-EL-0026.04
Page 4 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Test item particulars .................................................. :
Classification of installation and use ...................... : Class I and indoor use
Supply Connection .................................................... : Terminal provided
...................................................................................... :
Possible test case verdicts:
- test case does not apply to the test object .......... : N/A
- test object does meet the requirement ................. : P (Pass)
- test object does not meet the requirement .......... : F (Fail)
Testing ......................................................................... :
Date of receipt of test item........................................ : 2011-06-06
Date (s) of performance of tests .............................. : 2011-06-06 to 2012-07-05
General remarks:
The test results presented in this report relate only to the object tested. This report shall not be reproduced, except in full, without the written approval of the Issuing testing laboratory. "(see Enclosure #)" refers to additional information appended to the report. "(see appended table)" refers to a table appended to the report. Throughout this report a comma / point is used as the decimal separator.
Manufacturer’s Declaration per sub-clause 6.2.5 of IECEE 02:
The application for obtaining a CB Test Certificate includes more than one factory location and a dec-laration from the Manufacturer stating that the sample(s) submitted for evaluation is (are) repre-sentative of the products from each factory has been provided..............................................................:
Yes Not applicable
When differences exist; they shall be identified in the General product information section.
Name and address of factory (ies) ..........................: CMA Electronics Srl
Via Guiseppe de Vitorio 3
20020 Arconate
Italy
General product information:
PowerScale is a transformerless Uninterruptible Power System (UPS). It is a true online, continuous duty, double conversion, solid state, three-phase system, providing conditioned and uninterruptible AC power to protect the customer’s load from all nine power failures.
Page 5 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
5 ELECTRICAL SERVICE CONDITIONS AND PERFORMANCE P
5.1 General P
5.1.1 Complies with annexes A, B and C P
5.1.2 Equipment ratings and instructions P
5.1.2.1 Rating information P
Input supply requirement P
Output ratings P
Rated voltage(s) or Voltage range(s): 3N400/230V P
Symbol for the nature of supply: N/A
Rated frequency or frequency range: 35-70Hz P
Rated current: 75.9A P
Number of phases: 3P + N P
Rated output active power: 45kW P
Rated output apparent power: 50kVA P
Stored energy time Tested without battery, battery is an option
N/A
Manufacturer’s name, trademark or identification mark
Newave P
Model or type reference P2S 0262 Cab-C P
Symbols comply with ISO 7000 and IEC 60417 P
5.1.2.2 Safety instructions and documentation P
Competence necessary for installation: P
a) operator installable N/A
b) service personnel installable User manual, chapter 1.2.7 P
Competence necessary to operate the UPS: P
a) no precious experience N/A
b) with previous training P
Disconnecting device not incorporated in the UPS Disconnecting device is incor-porated in the UPS
N/A
a) permanently connected UPS P
b) pluggable UPS N/A
Warning label for pluggable UPS-type B and per-manently connect UPS without automatic backfeed isolation
No pluggable UPS N/A
5.1.3 Equipment safety P
5.1.3.1 UPS designed for use in operator accessible areas and/or operator installable
N/A
5.1.3.2 Additional protection for pluggable UPS-type A N/A
Page 6 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
5.1.3.3 Backfeed protection switching device See UM chapter 10.9 and sub-clause 6.3.11
P
5.1.3.4 Pluggable UPS-type B and permanently connected UPS
Permanently connected UPS P
5.1.3.5 UPS designed for use in electrical switch rooms N/A
5.2 UPS input specification P
5.2.1 Normal service conditions: P
a) Input voltage variation: +/- 10% P
b) Input frequency variation: +/- 2% P
c) three phase input P
d) input voltage distortion factor : THDu < 2% at 100% load P
5.2.2 Rated values and characteristics: See User Manual, chapter 10.3
P
a) Rated a.c. input voltage: 400/230V P
b) AC input voltage tolerance: -23% /+ 15% P
c) Rated input frequency: 35-70Hz P
d) input frequency tolerance: (calculated: - 30% / + 16%) P
e) Number of phases: 3 ph + N P
f) Rated input current: see UM, chapter 10.3 P
g) Max. continuous input current: see UM, chapter 10.3 P
h) input current total harmonic distortion: (see appended table) P
i) Input current individual harmonic current levels P
j) max input current: N/A
k) Input power factor: See UM, chapter 10.3 P
l) Input neutral requirements: N/A
m) Inrush current requirements See UM, chapter 10.3 P
n) Earth leakage current N/A
o) Three phase inputs P
p) Power system configuration P
5.2.3 UPS input conditions to be identified by the pur-chaser:
P
a) Supply impedance and system configuration P
b) Voltage in excess N/A
c) Frequency in excess N/A
d) Superimposed high-frequency voltages N/A
e) Existing voltage harmonics N/A
f) Transient voltage N/A
g) Protective device characteristics N/A
h) Requirements for all-pole isolation N/A
i) Stand-by generator characteristics N/A
Page 7 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
5.3 UPS output specifications P
5.3.1 Steady-state and dynamic output voltage character-istics
P
-a) Change of operating mode P
-b) Application of increasing/decreasing load step P
5.3.1.1 Output characteristic- Sinusoidal output voltage P
5.3.1.2 Output characteristic- Non-sinusoidal output voltage N/A
5.3.2 Following rated values and characteristics shall be specified in all modes of operation by the manufac-turer/supplier (if applicable):
See User Manual, chapter 10.5 P
a) Rated output voltage: See UM chapter 10.5 P
b) Output voltage tolerance: See UM chapter 10.5 P
c) Number of phases: 3 P
d) Rated output current (linear load): See UM chapter 10.5 P
e) Rated output current (non-linear load) See UM chapter 10.5 P
f) Nominal frequency: See UM chapter 10.5 P
g) Max relative harmonic: See UM chapter 10.5 P
h) Maximum synchronized frequency range: See UM chapter 10.5 P
i) UPS nominal inverter frequency: See UM chapter 10.5 P
j) Rate of change of frequency: See UM chapter 10.5 P
k) Permissible load unbalance: See UM chapter 10.5 P
l) Relation between load unbalance und voltage un-balance
See UM chapter 10.5 P
m) Phase angle displacement tolerance: See UM chapter 10.5 P
n) Permissible range of load power factor: See UM chapter 10.5 P
o) Output voltage transient deviation: N/A
p) UPS efficiency of rated load: See UM chapter 10.5 P
q) UPS output fault clearing capability: See UM chapter 10.5 P
r) Overload capability: See UM chapter 10.5 P
s) Current limit identification: See UM chapter 10.5 and UM 10.12.2
P
5.3.3 Single UPS and parallel UPS with bypass P
Ratings shall be in accordance with 5.3.2 and in addition, the ^following shall be added for the trans-fer switch:
See user manual P
a) Transfer switch voltage rating: See user manual P
b) Continuous current rating: See user manual P
c) load power factor: See user manual P
d) Interruption time rating: See user manual P
e) Total system transfer time and interruption time: 0s P
Page 8 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
f) Rated UPS output fault clearing capability no by-pass:
short circuit capability (no by-pass) UM chap. 10.5 up to 3 * In for 40ms
P
g) Output voltage transient deviation and recovery time on transfer:
N/A
5.3.4 Performance requirements to be identified by the purchaser P
The purchaser shall identify any special UPS per-formance requirements if these deviate form 5.3.2 and 5.3.3
P
a) Max. load step and load profile versus time: N/A
b) A load which is not balanced between phases: N/A
c) Loads generating harmonic currents: THDi < 3% P
d) Loads generating circulation of a d.c. current: N/A
e) Earth conditions of the output neutral required: See UM, chapter 1.5.1 P
f) Protective device(S) characteristic with which the UPS output is required to co-ordinate:
See UM, chapter 10.5 P
g) Type of load(S) to be connected: Linear and non-linear load P
h) Output relative harmonic content: With linear load: < 2% with non-linear load: < 4%
P
5.3.4.1 Special performance requirements P
the following items should be specified by the purchaser:
See UM, chapter 10.5 P
a) Output voltage stabilization and phase angle tol-erance
P
a) Output voltage stabilization and phase angle tol-erance
P
b) Frequency stability P
c) Synchronization and rate of change of frequency during synchronization
P
d) Efficiency P
e) Load distribution P
f) Future extension N/A
g) Degree of redundancy Full with redundancy (DPA decentralize parallel architecture)
P
h) Output overvoltage protection Electronic protection and IA2 P
5.4 UPS intermediate d.c. circuit and/or battery circuit specification P
Rated value and characteristics specified by the manufacturer/supplier (if applicable):
See UM, chapter 10.4 P
a) Nominal d.c. voltage: See UM, chapter 10.4 P
b) Nominal d.c. currant: See UM, chapter 10.4 P
c) Isolation of d.c. link: N/A
d) Earth conditions of d.c. link: See UM, chapter 1.5 P
e) Type of batteries: VRLA or NiCd P
Page 9 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
f) Number of batteries and Ah rating: See UM, chapter 10.10 P
g) Stored energy time: See UM, chapter 10.6 P
h) Restored energy time: N/A
i) Nominal d.c. battery charging voltage and toler-ance band:
See UM, chapter 10.4 P
j) Charging current limit value or range: See UM, chapter 10.4 P
k) Battery ripple current or voltage: See UM, chapter 10.4 P
l) Battery undervoltage and/or overvoltage charging protection levels:
Adjustable due to battery manufacturer’s specification
P
m) Battery charging regime: See UM, chapter 10.4 (IU, DIN 41773)
P
n) Battery protective device ratings and type and number:
Battery fuse. See UM 10.12.2
P
o) Battery protection requirements: Electronic protection for over charging and deep charging
P
p) Battery cable voltage drop recommendations: N/A
5.5 UPS switches, rated values and performance P
5.5.1 General P
Switches specified by the manufacturer: See user manual P
a) Normal service conditions: See user manual P
b) Continuous duty: See user manual P
5.5.2 UPS switches: specified with (if appropriate): P
a) Voltage and its tolerance band: N/A
b) Number of poles/number of phases: 4 P
c) Continuous current capability: N/A
d) Short-circuit making capability: N/A
e) Short-circuit breaking capability: N/A
f) Overload current capability: N/A
g) Make time: N/A
h) Break time: N/A
i) Circuit repetitive peak off-state voltage: N/A
j) Circuit non-repetitive peak off-state voltage: N/A
k) Leakage current: N/A
l) Max. permissible rate of rise of the off-state voltage:
N/A
m) Losses at rated load: N/A
n) Isolation capability: N/A
o) Load power factor limits: See user manual, chapter 10.3
P
p) frequency and its tolerance band See user manual, chapter 10.5
P
Page 10 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
q) Rate of rise of current at closing N/A
5.6 Redundant and parallel UPS systems P
5.6.1 Standby redundant UPS P
5.6.1.1 Without bypass shall be stated: With bypass N/A
a) Total number of UPS units N/A
b) UPS ratings and performance N/A
c) UPS switch losses N/A
d) UPS switch ratings N/A
5.6.1.2 With bypass shall be stated: P
a) Total number of UPS units Two or more P
b) UPS ratings and performance Bypass has the same value as input
P
c) UPS switch losses See user manual P
d) UPS switch ratings Bypass switch rating according to max. UPS output power
P
Bypass ratings as defined in 5.3.3 P
5.6.2 Parallel redundant UPS N/A
5.6.2.1 Without bypass shall be stated: N/A
a) Total number of equal UPS units working normally in parallel:
N/A
b) Total number of UPS units in parallel needed to supply specified max. continuous load::
N/A
c) UPS switch and transfer performance: N/A
d) Continuous rating with all UPS units in operation: N/A
e) Continuous rating with minimum required number of UPS units in operation
N/A
5.6.2.2 With bypass P
a) Total number of equal UPS units working normally in parallel:
P
b) Total number of UPS units in parallel needed to supply specified max. continuous load::
Two or more P
c) UPS switch and transfer performance: N/A
d) Continuous rating with all UPS units in operation: yes P
Bypass rating and performance in accordance with B.2
N/A
5.7 Electromagnetic compatibly P
Complies with IEC 62040-2 See TR-No: Ber111025_2 P
5.8 Signalling circuits P
Complies with IEC 60950 See TR-No: 11-EL-0026.05 P
6 ELCTRICAL TESTS FOR UPS P
Page 11 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
6.1 General P
6.1.1 Type tests P
6.1.2 Routine tests P
6.1.3 Test conditions: Performed in electrical condi-tions
P
6.2 UPS functional unit tests P
6.2.1 UPS rectifier tests comply with IEC 60146-1-1 clauses 4.1.3 to 4.2
See TR-No: Ber111025_2 P
6.2.2 UPS Inverter tests comply with IEC 60146-2 if applicable
See TR-No: Ber111025_2 P
6.2.3 UPS switch tests comply with IEC 60146-1-1 and IEC 60146-1-2 if applicable
See TR-No: Ber111025_2 P
6.2.4 Monitoring and control equipment tests P
Tests comply with IEC 60146-1-1 Comply with IEC 62040-1 see TR-No: 11-EL-0026.04
P
6.2.5 Battery tests P
6.3 Type tests of manufacturer’s declared characteristics as a complete UPS P
If complete UPS testing is not performed at the fac-tory, a functional unit test in accordance with 6.2 shall be completed prior to testing on side
P
6.3.1 Control and monitoring signals P
6.3.2 UPS input tests P
6.3.2.1 Steady-state input voltage tolerance P
6.3.2.2 Input frequency variation P
6.3.3 Input inrush current (see appended table) P
6.3.4 UPS output characteristics-static conditions P
6.3.4.1 Output – normal mode – no load P
6.3.4.2 Output – normal mode – full load (see appended table) P
6.3.4.3 Output – stored energy mode – no load (see appended table) P
6.3.4.4 Output – stored energy mode – full load (see appended table) P
6.3.4.5 UPS rated output fault clearing capability – normal mode
(see appended table) P
6.3.4.6 DC components in the output P
6.3.5 UPS output characteristics – Overload and short-circuit P
6.3.5.1 Output – normal mode - overload P
6.3.5.2 Output - stored energy mode – overload P
6.3.5.3 Output – normal mode – short-circuit (see appended table) P
6.3.5.4 Output – stored energy mode - overload (see appended table) P
6.3.5.5 UPS rated output fault clearing capability – normal mode
P
6.3.5.6 UPS rated output fault clearing capability – stored energy mode
P
Page 12 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
6.3.6 UPS output dynamic tests P
6.3.6.1 Change of operating mode – normal to stored en-ergy – linear load
(see appended table) P
6.3.6.2 Change of operating mode – stored energy to nor-mal – linear mode
(see appended table) P
6.3.6.3 Change of operating mode – stored energy to nor-mal mode
(see appended table) P
6.3.6.4 Change of operating mode – normal to bypass mode
(see appended table) P
6.3.7.1 UPS output load steps – linear load (see appended table) P
6.3.8.1 Reference non-linear load output distortion – normal mode
(see appended table) P
6.3.8.2 Reference non-linear load output distortion – stored energy mode
(see appended table) P
6.3.8.3 Reference non-linear load change of operating mode
(see appended table) P
6.3.8.4 Reference non-linear load steps – normal load < 4kVA rating
(see appended table) P
6.3.8.5 Reference non-linear load steps – normal mode > 4kVA rating
The used Test equipment non linear load is in a certain way constructed, that the load steps are selectable, but the connection to the UPS Load side is performed with a global automatic contactor. Before a load step change will be active and released, the to-tal nonlinear load is discon-nected from the UPS and with a time delay reconnected with the preselected step again. In this way the equipment is not able to proceed in steps as described in clause 6.3.8.5. The reason for this control of the non linear load bank is made to ensure that the inside used DC capacitors are pre-charged and discharged in a secure way.
N/A
6.3.8.6 Reference non linear load steps – stored energy mode
(see appended table) P
6.3.9 Stored energy and restored energy tests P
6.3.9.1 Stored energy time P
6.3.9.2 Restored energy time P
6.3.10 Efficiency and input power factor (see appended table) (checked with linear and non-linear load)
P
Page 13 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
6.3.11 Backfeed tests Permanent connection option: - K1: rectifier - K2: output - K4: bypass
P
6.3.12 EMC test See TR-No: Ber111025_2 P
6.6 Factory witness tests/on-site tests P
6.6.1 UPS tests P
6.6.2 Test specifications: With and without bypass, linear and non-linear load
P
6.6.3 Light load test: Output voltage, output frequency, maintenance bypass switch
P
6.6.4 UPS auxiliary device(s) test N/A
6.6.5 Synchronization test N/A
6.6.5.1 Output frequency slew rate test N/A
6.6.6 AC input failure test (see appended table) P
6.6.7 AC input return test (see appended table) P
6.6.8 Simulation of parallel redundant UPS fault test (see appended table) P
6.6.9 Transfer test (see appended table) P
6.6.10 Full load test P
6.6.11 UPS efficiency test (see appended table) P
6.6.12 Unbalanced load test P
6.6.13 Balanced load test P
6.6.14 Test of current division in parallel or parallel redun-dant UPS
(see appended table) P
6.6.15 Rated stored energy time test P
6.6.16 Rated restored energy time P
6.6.17 Battery ripple current measurement P
6.6.18 Overload capability test (see appended table) P
6.6.19 Short circuit test: (see appended table) P
a) operation of protective devices or circuits N/A
b) peak output short-circuit current P
c) output steady-state short-circuit current and length of time
P
6.6.20 Short-circuit protection device test P
6.6.21 Restart test P
6.6.22 Output overvoltage test P
6.6.23 Periodic output voltage variation test (see appended table) P
6.6.24 Frequency variation test See TR-No: Ber111025_2 P
6.6.25 Radiofrequency interference and conducted noise test
See TR-No: Ber111025_2 P
6.6.26 Harmonic components measurement (see appended table) P
Page 14 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
IEC 62040-3
Clause Requirement — Test Result — Remark Verdict
6.6.27 Earth fault test TN-S system N/A
6.6.28 On-site ventilation test P
6.6.29 Standby generator compatibility test N/A
6.7 UPS switches testing procedure P
6.7.1 Testing schedule P
6.7.2 Test specification: P
6.7.3 Interconnection cable check P
6.7.4 Light load test a and b P
6.7.5 Full load test P
6.7.6 Transfer test P
6.7.7 Overload capability test (see appended table) P
6.7.8 Short-circuit current capability test (see appended table) P
6.7.9 Overvoltage test (electronic power switches) See TR-No: Ber111025_2 P
-a) Circuit repetitive peak off-state voltage See TR-No: Ber111025_2 P
-b) Circuit non-repetitive peak off-state voltage See TR-No: Ber111025_2 P
6.7.10 Radiofrequency interference and conducted noise See TR-No: Ber111025_2 P
6.7.11 Audible noise Refer to data sheet P
6.7.12 On-site ventilation test P
6.7.13 Earth fault test TN-S system N/A
6.7.13 Additional tests (agreement between the purchaser and the supplier
P
7 NON-ELECTRICAL TEST P
7.1 Environmental and transportation test methods N/A
7.1.1 transportation N/A
7.1.1.1 Shock test N/A
7.1.1.2 Free fall test N/A
7.2 Environments storage and operating test methods N/A
7.2.1 Storage condition tests: N/A
7.2.2 Operating condition tests: 40°C P
7.3 Acoustic noise due to UM, chapter 10.6 P
Page 15 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
5.2.2.h / 6.6.26
TABLE: - Input current total harmonic distortion - Harmonic components measurement
P
Description of test conditions / test construction: Each single input current phase is measured @ 100 % load and the 3rd , 5th , 7th and 9th current harmon-ics are measured to achieve the total harmonics distortion of current THDi on the input
Note that THDI is strictly related to Input voltage value and Input Distribution Impedance, therefore meas-ured values may vary according to mentioned characteristics.
Load (%)
Harmonic No.
Phase 1 (dB)
Phase 2 (dB)
Phase 2 (dB)
Remark
100 3 36.4 35.6 35.3 Cab. C
100 5 44.8 43.1 43.4 Cab. C
100 7 40.2 37.9 37.3 Cab. C
100 9 61.5 56.4 53.5 Cab. C
THD Distortion at phase 1
Distortion at phase 2
Distortion at phase 3
Expected value due to the specification of the manu-facturer
Verdict
see formula to THD below
1.90% 2.21% 2.30% < 3.0% P
2
20
92
20
72
20
52
20
3
10101010100THD
Page 16 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph:
yellow: input voltage, green: output current THDi at L1
THDi at L2 THDi at L3
Page 17 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.3 / 6.3.6.2 & 6.6.7
TABLE: - Inrush current test - Change of operating mode – Stored energy to normal mode – linear load - AC input return test
P
Description of test conditions / test construction: Purpose of test: Demonstrate the reaction of the UPS in case of loss and return of mains. Procedure: UPS running normally with load. The input switch (Mains) is switched ON and OFF. Output voltage will be recorded using input current as trigger for the detection of the mains failure. Note: measure taken with 100% load
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
current
voltage
Measured graph: 1. Loss of mains:
yellow: input voltage; green: input current; purple: output voltage
2. Return of mains:
yellow: input voltage; green: input current; purple: output voltage
Page 18 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.4.2 / 6.6.26
TABLE: - Output – Normal mode – Full load - Harmonic components measurement
P
Description of test conditions / test construction:
Procedure: Load the unit at 100 % of its nominal capacity. The output voltages as well the output voltage distortion per phase (3°, 5°, 7°, 9° harmonics) are measured
Note: output harmonic distortion
Load (%)
Harmonic No.
Phase 1 (dB)
Phase 2 (dB)
Phase 2 (dB)
Remark
100 3 40.9 40.3 41.0 Cab. C
100 5 55.1 54.9 54.6 Cab. C
100 7 58.9 58.5 55.0 Cab. C
100 9 58.1 59.4 58.6 Cab. C
THD Distortion at phase 1
Distortion at phase 2
Distortion at phase 3
Expected value due to the specification of the manu-facturer
verdict
see formula to THD below
0.94% 1% 0.94% < 2% P
2
20
92
20
72
20
52
20
3
10101010100THD
Page 19 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph:
yellow: output voltage, green: output current THDu at L1
THDu at L2 THDu at L3
Page 20 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.4.3 / 6.6.26
TABLE: - Output – Stored energy mode – No load - Harmonic components measurement
P
Description of test conditions / test construction:
Procedure: Load the unit at 100 % of its nominal capacity. The output voltages as well the output voltage distortion per phase (3°, 5°, 7°, 9° harmonics) are measured
Load (%)
Harmonic No.
Phase 1 (dB)
Phase 2 (dB)
Phase 2 (dB)
Remark
0 3 44.8 44.7 44.8 Cab. C
0 5 53.5 53.1 52.9 Cab. C
0 7 65.4 67.4 65.0 Cab. C
0 9 61.8 59.2 63.0 Cab. C
THD Distortion at phase 1
Distortion at phase 2
Distortion at phase 3
Expected value due to the specification of the manufacturer
Verdict
see formula to THD below
0.62% 0.63% 0.62% < 2% P
2
20
92
20
72
20
52
20
3
10101010100THD
Page 21 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph:
Yellow: output voltage THDu at L1
THDu at L2 THDu at L3
Page 22 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.4.4 / 6.6.26
TABLE: - Output – Stored energy mode – Full load - Harmonic components measurement
P
Description of test conditions / test construction:
Procedure: Load the unit at 100 % of its nominal capacity. The output voltages as well the output voltage distortion per phase (3°, 5°, 7°, 9° harmonics) are measured
Load (%)
Harmonic No.
Phase 1 (dB)
Phase 2 (dB)
Phase 2 (dB)
Remark
100 3 40.2 39.6 39.9 Cab. C
100 5 52.8 52.7 53.3 Cab. C
100 7 55.7 57.5 56.5 Cab. C
100 9 57.4 60.5 59.3 Cab. C
THD Distortion at phase 1
Distortion at phase 2
Distortion at phase 3
Expected value due to the specification of the manufacturer
Verdict
see formula to THD below
1.03% 1.09% 1.05% < 2% P
2
20
92
20
72
20
52
20
3
10101010100THD
Page 23 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph:
yellow: output voltage, green: output current THDu at L1
THDu at L2 THDu at L3
Page 24 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.4.5 TABLE: Output voltage unbalance test P
Description of test conditions / test construction: Procedure: phases L1, L2 and L3 will be loaded with symmetric load. An asymmetric load will be additionally connected to L1 or L2 or L3
Measured graph: a) Asymmetric load additionally connected to L1 For all 3 graph: yellow: L1 Uout; green: Iout (asymmetric load); purple: L2 Uout; blue: L3 Uout
b) Asymmetric load additionally connected to L2
b) Asymmetric load additionally connected to L3
Page 25 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.5.3 / 6.6.19. 6.7.8
TABLE: - Output – Normal mode – short circuit - Short circuit test - Short circuit current capability test
P
Description of test conditions / test construction: Purpose of the test: Demonstrate the operation of the UPS in case of short circuit on the load site. The inverter should supply the short circuit during 40ms with two times the nominal current. Procedure: UPS run online without bypass line (Bypass fuses open). Make a short circuit between the phases and the neutral on the output Record the output voltage and current Note: Measure taken without Bypass
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
current
voltage
Fuse
Measured graph:
Cabinet C: IRMS = 186.8A
yellow: output voltage green: output current
Page 26 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.5.4 / 6.6.19
TABLE: - Output – Stored energy mode – short circuit - Short circuit test
P
Description of test conditions / test construction: Purpose of the test: Demonstrate the operation of the UPS in case of short circuit on the load site. The inverter should supply the short circuit during 40ms with two times the nominal current. Procedure: UPS run online on battery without mains supply. Make a short circuit between the phases and the neutral on the output Record the output voltage and current Note: Measure taken without Bypass
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
current
voltage
Fuse
Measured graph: stored energy mode: short circuit
Cabinet C: IRMS = 187.1A yellow: output voltage, green: output current
Page 27 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.6.1 / 6.6.6
TABLE: - Change of operating mode – Normal to stored energy mode – linear load (resistive) - AC input failure test
P
Description of test conditions / test construction:
Purpose of test: Demonstrate the reaction of the UPS in case of loss of mains.
Procedure: UPS running normally with load. The input switch (Mains) is switched OFF.
Output voltage will be recorded using input current as trigger for the detection of the mains failure.
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
current
voltage
voltage
Measured graph:
yellow: input voltage; green: Input current; purple: output voltage
Page 28 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.6.3 TABLE: - Change of operating mode – Stored energy to normal mode
P
Description of test conditions / test construction:
Purpose of test: Demonstrate the reaction of the UPS in case of loss and return of mains.
Procedure: UPS running in stored energy mode with load. The input switch (Mains) is switched ON.
Output voltage will be recorded using input current as trigger for the detection of return of mains
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
current
voltage
voltag
e
Measured graph: Synchrony: mains off (loss of mains)
yellow: input voltage; green: input current; purple: output voltage
Page 29 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph: Synchronization: Load transfer from stored energy to normal mode
yellow: input voltage; green: input current; purple: output voltage
Load transfer from stored energy to normal
yellow: input voltage, green: input current, purple: output voltage
Synchonisation
yellow: input voltage, green: input current, purple: output voltage
Page 30 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.6.4 / 6.6.9
TABLE: - Change of operating mode – Normal to bypass mode - Transfer test
P
Description of test conditions / test construction:
Purpose of the test: Demonstrate that the UPS will switch between bypass and inverter without any interruption on the output voltage.
Procedure: Switch the UPS between bypass and inverter with full load. Record the voltage on the load and use the bypass current as trigger for the detection of the transfer…
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
voltage
current
current
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
voltage
current
Load transfer from normal mode to bypass Load transfer from bypass to normal mode
Measured graph: Load transfer from normal mode to bypass
yellow: output voltage, green: bypass current
Load transfer from bypass to normal mode
yellow: output voltage, green: bypass current
Page 31 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.7.1
TABLE: Output load steps – Linear load P
Description of test conditions / test construction:
Purpose of the test: Demonstrate the reaction of the inverter output voltage when the load of 80% is switched ON and OFF. Procedure: Switch ON and OFF the load of 80% supplied by the inverter and record the output voltage. The output current will be used as a trigger for the detection of the switch ON and OFF of the load of 80% Note: Output voltage dynamic variations caused by LOAD (20% to 100% and 100% to 20%)
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
current
voltag
e
Measured graph:
3. Output load changes from 20% to 100%
yellow: output voltage, green: output current
Page 32 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph: 2. Output load changes from 100% to 20%
yellow: output voltage, green: output current 3. Output load changes from 100% to 0% 4. Output load changes from 0% to 100%
yellow: output voltage, green: output current
Page 33 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.8.1
TABLE: - Reference non-linear load output distortion – Normal mode
P
Description of test conditions / test construction: Description of test conditions / test construction: non-linear load (due to annex E) the unit at 100 % of its nominal capacity. The output voltages as well the output voltage distortion per phase (3°, 5°, 7°, 9° harmon-ics) are measured
Note: Output harmonic distortion
Load (%)
Harmonic No.
Phase 1 (dB)
Phase 2 (dB)
Phase 3 (dB)
remark
90 3 33.6 33.2 32.9 Cab.C
90 5 37.9 37.7 37.8 Cab. C
90 7 41.0 40.7 41.3 Cab. C
90 9 47.2 46.7 47.6 Cab. C
THD Distortion at phase 1 (%)
Distortion at phase 2 (%)
Distortion at phase 3 (%)
Expected value due to the specification of the manu-facturer (%)
Verdict
see formula to THD below
2.63% 2.75% 2.77% < 4% (with non-linear load)
P
2
20
92
20
72
20
52
20
3
10101010100THD
Page 34 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph:
Detail view of UPS output (Fourier represented graphically for 3 phase)
Yellow: output voltage, green: output current THDu at L1
THDu at L2 THDu at L3
Page 35 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.8.2
TABLE: - Reference non-linear load output distortion – Stored energy mode
P
Description of test conditions / test construction: Description of test conditions / test construction: non-linear load (due to annex E) the unit at 100 % of its nominal capacity. The output voltages as well the output voltage distortion per phase (3°, 5°, 7°, 9° harmon-ics) are measured
Note: Output harmonic distortion
Load (%)
Harmonic No.
Phase 1 (dB)
Phase 2 (dB)
Phase 3 (dB)
remark
90 3 33.1 33.1 32.9 Cab. C
90 5 37.9 38.9 37.8 Cab. C
90 7 41.4 41.4 41.0 Cab. C
90 9 48.5 48.8 47.6 Cab. C
THD Distortion at phase 1 (%)
Distortion at phase 2 (%)
Distortion at phase 3 (%)
Expected value due to the specification of the manu-facturer (%)
Verdict
see formula to THD below
2.71 2.65 2.78 < 4% (with non-linear load)
P
2
20
92
20
72
20
52
20
3
10101010100THD
Page 36 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Measured graph: Detail view of UPS output (Fourier represented graphically for 3 phase):
Yellow: output voltage, green: output current THDu at L1
THDu at L2 THDu at L3
Page 37 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.8.3
TABLE: - Reference non-linear load – Change of operating mode - Normal to stored energy mode
P
Description of test conditions / test construction:
Purpose of test: Demonstrate the reaction of the UPS in case of loss of mains (with non-linear load).
Procedure: UPS running normally with 100% non-linear load. The input switch (Mains) is switched OFF.
Output voltage will be recorded using input current as trigger for the detection of the mains failure.
AC/DC DC/AC
Bypass
IA1
IA2 LOAD
current
voltage
Measured graph: Input mains failure
Yellow: output voltage, green: input current
Page 38 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.8.4
TABLE: - Reference non-linear load steps – Normal mode 4.0 kVA rating P
Description of test conditions / test construction: Normal mode with 30% linear load of rated output apparent power as base load and additional reference non-linear load set to 70% of rated output apparent power. Measured the output voltage waveform transient deviation.
Measured graph:
Yellow: output voltage, green: input current Remarks: the output voltage is overdriven at the beginning. The output tried to adjust, the output voltage will be then stabilized.
Page 39 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.8.5
TABLE: - Reference non-linear load steps – Normal mode 4.0 kVA rating N/A
Description of test conditions / test construction:
Measured graph:
Page 40 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.8.6 (6.3.8.4)
TABLE: - Reference non-linear load steps – Stored energy mode
P
Description of test conditions / test construction: test repeated according to sub-clause 6.3.8.4
Measured graph:
Yellow: output voltage, green: input current
Page 41 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.8.6 (6.3.8.5)
TABLE: - Reference non-linear load steps – Stored energy mode
N/A
Description of test conditions / test construction: test repeated according to sub-clause 6.3.8.5
Measured graph:
Page 42 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.3.10 / 6.6.11 6.6.23
TABLE: - Efficiency and input power factor - UPS efficiency test - Periodic output voltage variation test
P
Description of test conditions / test construction: at linear load Measured at Cabinet C
Input power factor: total power of 3 phases
Load
(%) Active Power Apparent Power Power Factor
Expected value due to the specification of the manufacturer
Verdict
97 45.7kW 45.9kW 0.996 0.99 P
Load (%)
Efficiency Input voltage (V)
Output voltage (V)
Expected value due to the specification of the manufacturer
Verdict
25 95.0 233.5 232.8 94.5 P
52 95.6 233.3 232.7 95.0 P
77 95.2 233.1 232.6 95.5 * P
97 95.1 233.1 232.5 95.5 * P
Description of test conditions / test construction: at apparent and active power
Load (%)
Efficiency Input power
Output power Expected value due to the specification of the manufacturer
Verdict
Active power at linear load
25 95.0 12.1kW 11.5kW 94.5 P
52 95.6 23.5kW 24.6kW 95.0 P
77 95.2 36.3kW 34.6kW 95.5 * P
97 95.1 45.7kW 43.5kW 95.5 * P
apparent power at linear load
25 95.0 13.1kVA 11.5kVA 94.5 P
52 95.6 25.1kVA 23.5kVA 95.0 P
77 95.2 36.6kVA 34.6kVA 95.5 * P
97 95.1 45.9kVA 43.5kVA 95.5 * P
Note to *): Depending on power rating
Page 43 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Description of test conditions / test construction: at reference non-linear load
Load (%)
Efficiency Input voltage (V)
Output voltage (V)
Expected value due to the specification of the manufacturer
Verdict
25 ** 93.8 233.0 233.0 93.5 P
29 94.1 233.5 232.8 93.5 P
48 94.3 233.4 232.7 94.0 P
50 ** 94.3 233.0 233.0 94.0 P
75 ** 94.3 233.0 233.0 94.5 * P
88 94.2 233.2 232.7 94.5 * P
100 ** 93.8 233.0 233.0 94.5 * P
Description of test conditions / test construction: at apparent and active power
Load
(%)
Efficiency
(%) Input Power Output Power
Expected value due to
the specification of the
manufacturer
Verdict
Active Power at non-linear load
25 ** 93.8 8.7kW 8.2kW 93.5 P
29 94.1 10.7kW 10.0kW 93.5 P
48 94.3 16.4kW 15.5kW 94.0 P
50 ** 94.3 17.9kW 16.9kW 94.0 P
75 ** 94.3 27.2kW 25.6kW 94.5 * P
88 94.2 31.9kW 30.1kW 94.5 * P
100 ** 93.8 36.4kW 34.3kW 94.5 * P
Page 44 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
Load
(%)
Efficiency
(%) Input Power Output Power
Expected value due to
the specification of the
manufacturer
Verdict
Apparent Power at non-linear load
25 ** 93.8 9.9kVA 12.5kVA 93.5 P
29 94.1 11.8kVA 14.5kVA 93.5 P
48 94.3 18.3kVA 24.0kVA 94.0 P
50 ** 94.3 19.7kVA 25.0kVA 94.0 P
75 ** 94.3 29.6kVA 37.5kVA 94.5 * P
88 94.2 34.6kVA 43.8kVA 94.5 * P
100 ** 93.8 39.5kVA 50.0kVA 94.5 * P
Note to*) depending on power rating.
**) Interpolated values.
PowerScale 50kVA (C-cab) - Efficiency=f(Load_percentage) - Non-Linear Load
94.1% 94.3% 94.3% 94.3% 94.2%
93.8%94.3%93.8%
94.3%
y = -0.4425x4 + 1.1148x3 - 1.0221x2 + 0.4019x + 0.8859
R2 = 1
70.0%
75.0%
80.0%
85.0%
90.0%
95.0%
100.0%
0% 20% 40% 60% 80% 100% 120%
Load percentage [%]
Eff
icie
ncy
[%
]
Measured
Interpolated
Poli. (Measured)
Page 45 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.6.8
TABLE: Simulation of parallel redundant UPS fault test P
Description of test conditions / test construction: measures at the system output, load bus-bars
AC/DC
DC/ACIA1
IA2
AC/DC
DC/ACIA1
IA2
AC/DC
DC/ACIA1
IA2
UPS1 UPS2 UPSn
LOAD busbars
Measured graph:
yellow: output voltage; green: UPS#1 input current
Page 46 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.6.14
TABLE: Test of current division in parallel or parallel redundant UPS P
Description of test conditions / test construction: Redundant Parallel System; LOAD sharing. Measures at the system output, LOAD bus-bars
AC/DC
DC/ACIA1
IA2
AC/DC
DC/ACIA1
IA2
AC/DC
DC/ACIA1
IA2
UPS1 UPS2 UPSn
LOAD busbars
Measured graph:
yellow=output voltage; green=first UPS current
yellow=output voltage; green=last UPS current
Page 47 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
6.6.18 6.7.7
TABLE: Overload capability test P
Description of test conditions / test construction:
System will be overloaded with 110% and 135% of normal load. The time will be checked refer to the specified time interval of the manufacturer.
Overload capability is software controlled.
This table is valid for every PowerScale UPS (A-cab, B-cab and C-cab).
PowerScale Overload time
-5.00
0.00
5.00
10.00
15.00
20.00
10
4
10
6
10
8
11
0
11
2
11
4
11
6
11
8
12
0
12
2
12
4
12
6
12
8
13
0
13
2
13
4
13
6
13
8
14
0
14
2
14
4
14
6
14
8
15
0
% Load
Min 0.06min = 4s
0.11min = 7s0.95min = 57s
Load (%)
Input voltage (V)
Input power (kVA) (kW)
Output voltage (V)
Output power (kVA) (kW)
Specified time
interval (s)
Verdict
110 % @ PF=1.0
225V 52.0 kW 233V 49.50 kW 10min P
135 % @ PF=1.0
225V 63.8 kW 233V 60.75 kW 1min P
Page 48 of 48 Report No. 11-EL-0026.06
TRF No. IEC62040_3A
TABLE: List of critical components P
Object/part no. Manufacturer/ trademark
Type/model Technical data Standard Mark(s) of con-formity 1.
See TR-No: 11-EL-0026.04
Supplementary information: 1. An asterisk indicates a mark that assures the agreed level of surveillance.