IEC Certificate
Contents
1. 60 0 Time min Vibration test chart Y axis direction No IEC62133A 29 32 Report CB120416C20 001 VIBRATION 1 E ONE MOLI ENERGY CORP 2 Date 2012 04 19 3 Test No 120416C20 Z 4 12 13 51 5 Test Mode Sweep Frequency 6 Process Time 91 0min 7 Start Frequency 10 0Hz 8 Sweep Type 1 Hz min 9 Stop Frequency 55 0Hz 10 Specify Amplit 0 76mm 11 Sweep Cycle Oeyeles 12 Sweep Time 91 0min cycle 13 Vibration Count 2 945E 3cycles 14 File Name C 120416C20 Z 54 Frequency Hz Y 10 000000 X 0 024000 40 0 50 0 60 0 70 0 Time min Vibration test chart Z axis direction TRF No IEC62133A 30 32 Report CB120416C20 001 Shock Test Report Customer E ONE MOLI ENERGY CORP Set Peak Accele 150 00g 1470 84m s 2 Operator TOMO Set Duration Time 6 20 ms Lot No 120416C20 X Velocity 5 81 m sec Date 2012 4 20 Set Cycle 1 Cycle Time 01 16 58 Test Peak Accele 144 47 1416 61 5 2 Temperature 23 Test Velocity 5 41 m sec Specimen MCR 1821J1 H 3 Ini 3ms Average 74 942 734 84m s 2 3 Test Style Shock Test 1 4 Sine Average 81 47g 798 88m s 2 Standard 62133 20 Test Cycle 1 Cycle Filename E TOMO test buf 2l Real Duration Time 6 77 ms Notice PASS 22 Shock Wave Half Sine Acceleration g 0 0 180 02. NANAUS 24900 2102 90 095 1102 20 495 Jo6s88 N3WANS WWOSWHLIZHWOOLOV OQ eDueiln v A ejeusc Page 18 of 32 2102 82 6 LLoz 6z 6ny 0 Z H puqAH H90 gt 00 2 0v Z6SbLWOLZ 0L LOZ So uer 2102 90 0EZ H H90 2 00b 20 L6SbLWOZZ LOL 102 91 50 SLNSIWNYLSNI 1531 ON 1991014 80 2 30 leq penss 133HS GHOOSY NOILVLNSWNYLSNI ON 2114 Jo z LAV sre q uwaqq ventions pry MN H 22325 sionpoag HUMSUOT SHIJA nvoin p www 7 6 VE e 77 S tuse 0 Sy S A9 d ww Fa LTISO L6 H GE AVSA 36 Be 2 IEC62133A No LUSO L6 H GE AVSA 0 25 A Report CB120416C20 001 9557049350900 OL n Li4n 10 e07 ZLOZ OLAN JL L L0 320 AAOO0E V0S AO9 LO JZO 691 95704350900 OL n LL4n 207 2100 amp LOZ OL INf JL L L0 320 LO JZO 891 ZLOZ OLANS 320900 0L4n Li4n e07 9101 ZLO2 OL LLOZ L Lanf JIDIPOI4 LO JZO 1991 ang
3. 5 19 32 0 9 50 SLNSWNYLSNI 1531 ON 129 014 80 2260 penss 133HS 91949 930533 NOILVLNSWNYLSNI ON 915 Jo LAV SE3HOA uernaov pry N H SILS svibDOA SE 2 t lien 0 Al ol gt af m ZQ r 27 45 fe VU Soo qp ees 6 j IEC62133A No 20 32 Report CB120416C20 001 MAXIMUM UNCERTAINTIES OF MEASUREMENTS This table indicates the maximum values of uncertainties associated with the tests being able to be present in this document Generic measure of electrical value by direct reading of digital instrument e Voltage V V meter accuracy 0 196 e Current A A meter accuracy 0 596 e Power W W meter accuracy 1 0 e Resistance Ohms Ohms meter accuracy 1 5 Generic measure of length value caliper 0 200mm 0 15 mm tape measure 0 500cm 1 4 mm Generic measure of weight value scale 0 6009 0 55 g balance 0 150kg 15 95 Continuous low rate charging Voltage Current Time 0 276 Vibration Voltage Current Time Moulded case stress at high ambient temperature Voltage 0 6 Current Time Incorrect installation of a cell nickel systems only Voltage Current Temperature Time Capacit External short circuit Temperature Time Capacit Mechanical shock crash hazard V
4. V8 A0SL 022020908 o peo MOOE VOL AOSC 222020908 ez jeuuouqy peo uinnoeA wey 19152 yOOUS SLNSWNYLSNI 1531 bx VOL AOSC jo Buiysni9 1670 z 4204 133HS V1VO 930533 NOILVINSWNYLSNI LCIX St IRIA EA PrI N H SL sionpo id SMA namg NES E Stew ns fal Ne Lar DA Y te b Wal 198 014 ON 9114 IEC62133A No 2102 11 400 1102 21420 i se OWO00S O0 L0Z L uer ZLOZ E LS 060t LIN JEW YO1 41400 08 1d 00 0 7000605060 A leJ9ueo H6666 H E0 0 L0c 0L uer ZLO LL uer QL737 00LXIN uonisinboy HO0 200t 20t YOS 8ESPLZAl2 GEL A 1105 81320 vOcE d9 VOZ A00G 0 969089 22 9 0 5 LLO2 92 98q VOc dO JW JAMO eu6iq VOZ A00G 0 65089 ZZL Report CB120416C20 001 CLOZC EC ON 009 35 AHOIWL 43n1V43dW31 906026 LL 55248 aseo 0 0 Z LOZ EZ AON 508 AHOIVL H3l13AWOHOAH ONWMW3H L os Kb 2 sa 06026 9 einjejeduie 2102 0400 102 0490 0
5. 160 0 140 0 120 0 100 0 80 0 60 0 6 0 7 0 8 0 9 0 10 0 1 0 12 0 13 0 14 0 15 0 Time ms Shock test chart X axis direction TRF No IEC62133A Page 31 of 32 Report No CB120416C20 001 Shock Test Report Cus tomer E ONE MOLI ENERGY CORP Set Peak Accele 150 002 1470 84m s 2 Operator TOMO Set Duration Time 6 20 ms Lot No 120416C20 Y Velocity 5 81 m sec Date 2012 4 20 Set Cycle 1 Cycle Time 02 23 37 Test Peak Accele 143 40g 1406 15m s 2 Temperature 23C Test Velocity 5 36 m sec Specimen MCR 1821J1 H 3 Ini 3ms Average Accele 74 892 734 36m s 2 3 Test Style Shock Test 1 4 Sine Average Accele 81 162 795 78m s 2 Standard 62133 20 Test Cycle 1 Cycle Filename E TOMO test buf Real Duration Time 6 73 ms Notice PASS 22 Shock Wave Half Sine Acceleration g 180 0 160 0 140 0 120 0 100 0 80 0 60 0 I 1 1 T 7 0 8 0 9 0 10 0 11 0 12 0 13 0 14 0 15 0 Time ms Shock test chart Y axis direction TRF No IEC62133A 32 32 Report CB120416C20 001 Shock Test Report Customer E ONE MOLI ENERGY CORP 12 Set Peak Accele 150 002 1470 84m s 2 2 Operator TOMO 13 Set Duration Time 6 20 ms 3 Lot No 120416C20 Z 14 Set Velocity 5 81 m sec Date 2012 4 20 15 Set Cycle 1 Cycle Time PM 03 24 53 16 Test Peak Accele 143 01g 1402 34m s
6. 4 3 8 Overcharge Test Nickel Systems ults Model OCV prior to Maximum Charge Time for Charging Res charging Vdc Current A h Supplementary information Li polymer cell used TRF No IEC62133A 15 32 Report No CB120416C20 001 IEC 62133 Requirement Test Result Remark ERN TABLE 4 3 9 Overcharge Tests Lithium Systems N A at start of Maximum Maximum Total Time of Results test Vdc Charging Charging Charging h Current mA Voltage Vdc Supplementary information TABLE 4 3 10 Forced Discharge Test N A OCV before Measured Reverse Total Time for Results application of Charge It A Reversed Charge reverse charge Vdc Application Min Supplementary information TABLE 4 3 11 Cell Protection Against a High Charging Rate Test Lithium N A Systems Model OCV at start of test Maximum Charging Maximum Charging Results Vdc Current mA Voltage Vdc Supplementary information TRF No IEC62133A 16 32 Report CB120416C20 001 List of test equipment used Note This is an example of the required attachment Other forms with a different layout but containing similar information are also acceptable Clause Measurement Testing measuring equipment Range used Calibration testing material used date See next page N ANN Nu d Z NEN p EP ANNE 2 sss sss NENNEN p NENNEN ss NENNEN NENNEN NENNEN NENNE
7. Bureau Veritas Consumer Product Services Limited Taoyuan Branch No 19 Hwa Ya 2nd Rd Wen Hwa Tsuen Kwei Shan Hsiang Taoyuan Hsien 333 Taiwan N A N A Fano Gu Chen Ted Wu N A Page 3 of 32 Report No CB120416C20 001 Summary of testing Tests performed name of test and test clause Testing location 4 2 2 Vibration Bureau Veritas Consumer Product Services Limited Taoyuan Branch No 19 Hwa Ya 2 Rd Wen Hwa Tsuen Kwei Shan Hsiang Taoyuan Hsien 333 Taiwan 4 2 4 Temperature cycling 4 3 2 External short circuit 4 3 3 Free fall 4 3 4 Mechanical shock crash hazard The load conditions used during testing The unit is charging the empty battery pack and discharging the full charged battery pack according to its rating Note 1 Unless otherwise stated the charging procedure for test purposes Is carried out in an ambient temperature of 20 5 using the method declared by the manufacturer 2 Prior to charging the battery shall have been discharged at 20 5 at a constant current 0 2 It A down to a specified final voltage Summary of compliance with National Differences None TRF No IEC62133A 4 32 20416 20 001 Copy of marking plate 38HL Model No E H Ws ACCESSORY MCR 1821J 1 21CR19 66 2 4Ah 7 4 17 76Wh Rechargeable Lithium lon Battery E One Moli Energy Corp PIN FSPK50086 Assembled i
8. Z axis No fire no explosion no leakage MCR 1821J 1 H Sample no P004 8 42 at X Y Z axis No fire no explosion no leakage MCR 1821J 1 H Sample no P005 8 42 Z axis No fire no explosion no leakage Supplementary information No fire or explosion No leakage TRF No IEC62133A Page 14 32 Report No 20416 20 001 62133 Requirement Test Result Remark TABLE 4 3 1 Incorrect Installation of a Test Nickel Systems Supplementary information Li polymer cell used TABLE 4 3 2 External Short Circuit Test Ambient At OCV at start Resistance Maximum Case Results 20 C 52 C oftest of Circuit Temperature 556 5 C Rise AT C MCR 1821J 1 H No fire no Sample no 14 explosion MCR 1821J 1 H No fire no Sample no 15 explosion MCR 1821J 1 H No fire no Sample no P016 explosion MCR 1821J 1 H No fire no Sample no P017 explosion MCR 1821J 1 H No fire no Sample no 18 explosion MCR 1821J 1 H No fire no Sample no 19 explosion MCR 1821J 1 H No fire no Sample no P020 explosion MCR 1821J 1 H No fire no Sample no P021 explosion MCR 1821J 1 H No fire no Sample no P022 explosion MCR 1821J 1 H No fire no Sample no P023 U explosion Supplementary information No fire or explosion TABLE
9. ambient range of 20 C 25 4 Specific requirements and tests 4 1 Charging procedure for test purposes The battery was charged in the ambient temperature according to manufacturer s spec Continuous Low Rate Charge N A charge as specified by the manufacturer Lithium systems no fire no explosion no leakage N A 4 2 2 Vibration The measured open circuit voltage of the fully Five batteries were fully charged cells or batteries is within anticipated charged according to clause parameters 4 1 A gt D D The cells or batteries are subjected to a vibration Considered for the test sequence as outlined in Table 2 of IEC 62133 with amplitude of 0 75 mm and a total maximum excursion of 1 52 mm The frequency was varied at the rate of 1 Hz min between the limits of 10 Hz and 55 Hz The entire range of frequencies 10 Hz to 55 Hz and return 55 Hz to 10 Hz was traversed in 90 min 5 min for each mounting position The vibration was applied in each of three mutually Considered for the test perpendicular directions Results no fire no explosion no leakage No fire no explosion no leakage during and after the vibration test See Table 4 2 2 4 2 3 Moulded case stress at high ambient temperature Fully charged batteries were placed in an air Three batteries were fully circulating oven at a temperature of 70 C 2 C for 7 charged and tested for these hours Afterwards they are removed and allowe
10. metal case N A case excluding electrical contacts and positive terminals 2 5 Internal wiring and insulation are sufficient to For current The internal wiring withstand maximum anticipated current voltage and cable dimension had been temperature requirements verified to comply with the Clause 3 1 1 of IEC 60950 1 For voltage See List of critical components table For temperature Evaluated with temperature test in Clause 4 2 4 Cells and batteries subject to reasonably foreseeable The battery is safe and do not misuse do not present significant hazards present significant hazards under the condition of reasonably foreseeable and clearance distances between conductors considered as sufficient to Mechanical integrity of internal connections are accommodate conditions of sufficient to accommodate conditions of reasonably reasonably foreseeable foreseeable misuse misuse Battery cases and cells incorporate a pressure relief The edge of packing which mechanism or are constructed so that they relieve next to the terminals was excessive internal pressure at a value and rate that considered as the pressure will preclude rupture explosion and self ignition relief mechanism which can release the pressure during the Orientation of wiring maintains adequate creepage The internal connections were M abnormal operation Encapsulant used to support cells within an outer The battery is a built in product N A casin
11. with N A IEC 61960 See Copy of Marking Plate item in the beginning of this report Batteries of nickel systems are marked in This is not a nickel system accordance with IEC 61951 or IEC 61951 2 as applicable See Copy of Marking Plate item in the beginning of this report The product is Lithium ion battery Batteries of lithium system are marked in accordance See copy of the marking plate with IEC 61960 See Copy of Marking Plate item in the beginning of this report Batteries are marked with the cautionary marks oee copy of the marking plate Recommended charging instruction are marked on the battery or supplied in the information packaged with the battery Packaging Cells or batteries were provided with packaging that was adequate to avoid mechanical damage during transport handling and stacking The materials and pack design was chosen to prevent the development of unintentional electrical conduction corrosion of the terminal and ingress of moisture TRF No IEC62133A Disposal instructions are marked on the battery or The disposal instructions are supplied in the information packaged with the battery provided in the specification The recommended charging instructions are provided in the specification EN The package method had been Indicated in the product specification which had been passed the environmental test to ensure the well packaging method and to prevent the unintentional elec
12. 2 Temperature 23C 17 Test Velocity 5 36 m sec Specimen 182111 18 Ini 3ms Average Accele 73 76g 723 28m s 2 Test Style Shock Test 19 1 4 Sine Average Accele 80 352 787 91m s 2 Standard 62133 20 Test Cycle 1 Cycle Filename E TOMO test buf 2l Real Duration Time 6 80 ms Notice PASS 22 Shock Wave Half Sine Acceleration 9 180 0 160 0 140 0 120 0 100 0 80 0 60 0 I T L 6 0 7 0 8 0 9 0 10 0 Time ms Shock test chart Z axis direction TRF No IEC62133A
13. Accr ditation N 5 0014 Port e disponible sur www cofrac fr IEC SYSTEM FOR MUTUAL RECOGNITION OF TEST SYSTEME CEI D ACCEPTATION MUTUELLE DE CERTIFICATES FOR ELECTRICAL EQUIPMENT CERTIFICATS DESSAIS DES EQUIPEMENTS IECEE CB SCHEME ELECTRIQUES IECEE METHODE OC CB TEST CERTIFICATE CERTIFICAT D ESSAI OC Product Rechargeable Lithium ion Battery Produit E ONE MOLI ENERGY CORP 10 Dali 2nd Rd Tainan Science Based Industrial Park Shanhua Dist Tainan County 74144 Taiwan Name and address of the applicant Nom et adresse du demandeur Sole Energy Tech ZJGFTZ Co Ltd Shang Hai Road Zhang Jia Zhang Free Trade Zone Jiang Su Province China Name and address of the manufacturer Nom et adresse du fabricant Sole Energy Tech ZJGFTZ Co Ltd Shang Hai Road Zhang Jia Zhang Free Trade Zone Jiang Su Province China Name and address of the factory Nom et adresse de l usine Note When more than one factory please report on page 2 Note Lorsqu il y a plus d une usine veuillez utiliser la 2 me page Ratings and principal characteristics 7 4 2 4Ah Valeurs nominales et caract ristiques principales Trademark if any Marque de fabrique si elle existe EL Model Type Ref Ref De type MCR 1821J 1 H 21CR19 66 Seo test report Test procedure CB CCA Additional information if necessary may also be reported on pag
14. CESS cues medo No 19 Hwa Ya 2nd Rd Wen Hwa Tsuen Kwei Shan Hsiang Taoyuan Hsien 333 Taiwan Applicant s name E ONE MOLI ENERGY CORP Address 10 Dali 2nd Rd Tainan Science Based Industrial Park Shanhua Dist Tainan County 74144 Taiwan Test specification IEC 62133 2002 1st Edition Test procedure CB CCA Non standard test method Test Report Form No EC62133A Test Report Form s Originator UL International Demko A S Master Dated 2008 02 Copyright 2008 IEC System for Conformity Testing and Certification of Electrical Equipment 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 copyright 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
15. N NENNEN TRF No IEC62133A LUSO LG 10 02 LOZ 90 JEN CLOC ZC ON L0Z L 1eW 0 Report CB120416C20 001 LOZ S0 1dy 2102 80 95 CLOC LL ON L0z 60 6nv cVL0c 6L nf CLOC LL ON 105 145 594 2102 10 17 0132 cL0c oc unr 0 5 eLoz zz dy cL02 92390 LLO P LIne LLOZ Lz unf Z LOZ LOJEN LLOZ EZ AON CVOC EW LLOZ 2102 90 8 bine 10 8 7E lt LLOZ 8 LLOZ LLOZ e N gt 2 R 8 we Mai 55 N c 3 i LLOZ 9L 2105 55 19 1105 15420 LLOZ 02nf amp L0C 10 28Q LLOZ Z0 98Q 1090S SA 39H4NOSIA Ga EME HO0 200t 0 98 2 00r OF ELPSLOEZL 82 200t 0P LL 0 z62 28 IN3140 2022 2055 ao Z102 2 AeW uelbersy 2102 82 LLOZ 62 unr z HOOHS A9HNOSIA 21 02 91 50 80 250 penss JO 42015 GG 09 0 ZPLOQEOL 6 sauny sauny 6t AVSH 9 25 usng By 0 0 555080 LE usng ainsojous peo Lx MOO
16. ainst a high charging rate lithium See below systems only C Discharged cells were charged at three times the ertified battery cell used charging current recommended by the manufacturer until the cells was fully charged or an internal safety devices cut off the charge current before the cell became fully charged Results no fire no explosion Certified battery cell used N A Information is provided to equipment manufacturers Provided in the product in the form of instructions to minimize and mitigate specification which will hazards associated with the cells or batteries in considered during the end accordance with guidelines outlined in informative product investigation Annex A N A N A Information is provided to end users in the form of Provided in the product instructions to minimize and mitigate hazards specification which will be associated with the batteries in accordance with merged into the user manual of guidelines outlined in informative Annex B the end product TRF No IEC62133A 12 32 62133 Requirement Test Result Remark e Cell Marking See below I Nickel system cells are marked in accordance with This is not a nickel system IEC 61951 1 2 IEC 61440 or IEC 61436 as applicable See Copy of Marking Plate item in the beginning of this report Report No CB120416C20 001 Lithium system cells are marked in accordance
17. and insulation were maintained to prevent short circuit Assembly of cells into batteries Cells used in the battery assembly have closely Two cells in serial are totally matched capacities are of the same design and are identical of the same chemistry and same manufacturer gt The battery incorporates separate circuitry to prevent The battery does not have the cell reversal from uneven charges as the pack is selective discharge function designed for the selective discharge of a portion of its series connected cells Quality Plan The manufacture has prepared a quality plan defining The manufacturer s procedures the procedures for the inspection of materials for the inspection of materials components cells and batteries and which covers components and cells which the process of producing each type of cell and covers the process of battery producing each type of battery and comply with the requirement Type Test Conditions Tests were conducted with the number of cells or The batteries under testing batteries as outlined in Table 1 of IEC 62133 with were less than 3 months old cells or batteries that were not more than 3 months old TRF No IEC62133A 8 32 Report No 20416 20 001 IEC 62133 Requirement Test Result Remark Unless noted otherwise in the test methods testing testing was conducted at was conducted an ambient of 20 C 5 C the
18. by an NCB in accordance with IECEE 02 Test item description Rechargeable Lithium lon Battery Trade o _ Manufacturer SOLE ENERGY TECH ZJGFTZ CO LTD Model Type reference gt 18214 1 2127 19 66 RANGO Qm 7 4 2 4 Testing procedure testing location CB Testing Laboratory Testing location Associated CB Test Laboratory Testing location address TN Tested by name signature Approved by signature Testing procedure TMP Tested by name signature Approved by signature Testing location 55 O Testing procedure WMT Tested by signature Witnessed by signature Approved by signature Testing location address a Testing procedure SMT Tested by name signature Approved by signature Supervised by signature Testing location address Testing procedure RMT Tested by name signature Approved by signature supervised by signature Testing location TRF No IEC62133A Page 2 of 32 Report No CB120416C20 001
19. d to conditions return to room temperature The used test sample s no No P006 to P008 Results no physical distortion of the battery casing No physical distortion of resulting in exposure if internal components battery case TRF No IEC62133A 9 32 Report No CB120416C20 001 IEC 62133 Clause Requirement Test Result Remark Fully charged cells or batteries were subjected to Five batteries were fully temperature cycling 20C 75C in forced draught charged and tested for these chambers according to the procedure outlined in conditions 4 2 4 b and Fig 1 of IEC 62133 Tloussiiss ane No P009 to 1 After the fifth cycle the cells or batteries were stored Considered for 7 days prior to examination Results No fire no explosion no leakage No fire no explosion no leakage after the test Reasonably foreseeable misuse 4 3 1 Incorrect installation of a cell nickel systems only Lithium system cell used N A Four fully charged cells of the same brand type size Lithium system cell used N A and age were connected in series with one of the four cells reversed The assembly was connected across a 1 ohm resistor until the vent opens or until the temperature of the reversed cell returns to ambient temperature Alternatively a stabilized dc power supply was used t Lithium system cell used N A simulate the conditions imposed on the reversed cell Results no fire no e
20. e 2 Informations compl mentaires si n cessaire peuvent tre indiqu es sur 2 me page PUBLICATION EDITION sample of the product was tested and found 62133 2002 1st Edition to be in conformity with Un chantillon de ce produit a t essay et a t consid r conforme la As shown in the Test Report Ref No which forms BV CPS Taoyuan Branch N CB120416C20 001 of this Certificate Comme indiqu dans le Rapport d essais num ro de r f rence qui constitue partie de ce Certificat This CB Test Certificate is issued by the National Certification Body Ce Certificat d essai OC est tabli Eun l Organisme National de Certification Laboratoire Central des Industries lectriques 33 av du G n ral Leclerc 8 FR 92266 Fontenay aux Roses cedex www lcie fr Date 2012 05 23 Signature Issued 2008 01 LCIE Test Report issued under the responsibility of TEST REPORT IEC 62133 First Edition Secondary cells and batteries containing alkaline or other non acid electrolytes Safety requirements for portable sealed secondary cells and for batteries made from them for use in portable applications Report Reference 20416 20 001 Date of 22 2012 Total number of pages CB Testing Laboratory Bureau Veritas Consumer Product Services Limited Taoyuan Branch AC
21. g does not cause the battery to overheat during which shall be enclosed a normal operation no inhibit pressure relief rigid case and will be evaluated in the final system TRF No IEC62133A Page 7 of 32 Report No CB120416C20 001 IEC 62133 Requirement Test Result Remark The batteries are designed such that abnormal Protected by limiter in the temperature rise conditions are prevented certified cell and by components U1 Q1 F1 and F2 in the battery pack circuit Means is provided to limit current to safe levels Protected by limiter in the during charge and discharge certified cell and by components U1 Q1 F1 and F2 in the battery pack circuit Terminal contacts See below Terminals have a clear polarity marking on the Customized connector used external surface of the battery and the polarity marking was provided on the marking plate The size and shape of the terminal contacts ensure The cross section area of wires that they can carry the maximum anticipated current and connector are considered enough to carry the rating current of the battery External terminal contact surfaces are formed from The connector provides good conductive materials with good mechanical strength mechanical strength to the and corrosion resistance copper alloy terminal Terminal contacts are arranged to minimize the risk The connector designation to of short circuits prevent short circuit Proper spacing
22. n China CAUTION Risk of fire explosion or burns Do crush short circuit heat above 100 C incinerate or disassemble the battery Follow manufacture s instruction Charge only vith the Lithium Ion charger supplied with your device Explanation of the date Code NE MU 12 02 0013 The pack lot 1s identified by the lot number on the case of the battery eg XX XX XXXX c First two digits define last two number of year eg 11 denotes 2011 Second two digits define week code of the year eg 38 denotes the 38 week of year The next four digits define product serial number TRF No IEC62133A 5 32 20416 20 001 Test item particulars Classification of installation and use Bullt in equipment is for ITE product use SUDDIVy i diea u nas Customized connector 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 Hip Date receipt of test item 18 2012 Date s of performance of tests April 18 2012 May 08 2012 General remarks The te
23. oltage Current 11 8 Temperature Time Thermal abuse Voltage Current Temperature Time 0 738 Crushing of cells Voltage Current 0 216 Low pressure Voltage Current Temperature Time 5 013 Dimension Overcharge for nickel systems Voltage Current Time 0 50 Overcharge for lithium systems Voltage Current Time 0 22 Forced discharge Voltage Current Time 0 52 Cell protection against a high charging rate lithium systems 0 24 only Voltage Current TRF No IEC62133A Page 21 of 32 Report No CB120416C20 001 Bottom view for the battery TRF No IEC62133A Page 22 of 32 Report No CB120416C20 001 m i He HI a i 3 E T ds 455 he dri it p TE WHERE CSS deb iy i d P e M mmi S mr 0 120416C20 eet h y pue T gt T wll i iji 5 EP e The view for the soft pack and enclosure 120416C20 Top view of soft pack TRF No IEC62133A Page 23 of 32 Report CB120416C20 001 120416 20 Bottom view soft 120416C20 The view of PCB IEC62133A 24 32 s 120416 20 Vibration test condition 1 X axis direction Vibration test condition 2 Y axis direction TRF No IEC62133A 25 32 Vibration test condi
24. ondition Refer to the photos least of the directions was perpendicular to a flat and test charts for detail face During the initial 3 milliseconds the minimum average acceleration was 75 gn The peak acceleration was between 125 gn and 175 gn 1 The used test sample s no No P027 to 2 The EUTs were subjected to a total of three shocks of equal magnitude applied in each of three mutually perpendicular directions Hemark As there are two senses per direction each sample will be submitted to a total of six shock impulses Results no fire no explosion no leakage No fire no explosion no leakage after the test Fully charged cells were placed in a gravity or Certified battery cell used circulating air convention oven The oven temperature was raised at a rate of 5 C min 2 C min to a temperature of 130 C 2 C The cell remained at that temperature for 10 minutes before the test was discontinued Results no fire no explosion Certified battery cell used N A 436 Crushing of cells Fully charged cells were crushed between two flat Certified battery cell used N A surfaces with a hydraulic ram exerting a force of 13 1 kN N A N A A cylindrical or prismatic cell was crushed with its Certified battery cell used N A longitudinal axis parallel to the flat surfaces of the crushing apparatus A second set of prismatic cells was tested rotated 90 Certified battery cell
25. st 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 point is used as the decimal separator General product information 1 The equipment under test EUT model MCR 1821J 1 H 21CR19 66 is a Rechargeable Lithium lon Battery 2 The maximum ambient temperature is specified as 45 C for Charging and 60 C for Discharging 3 Dimension of the Lithium ion polymer rechargeable battery T 20 6mm by W 39 0mm by L 71 0mm 4 Weight Below 150g Test condition Temperature 20 5 Relative humidity 60 Air pressure 950 mbar The test samples were pre production samples without serial number TRF No IEC62133A Page 6 of 32 Report No CB120416C20 001 IEC 62133 Requirement Test Result Remark Parameter measurement tolerances Both normal and foreseeable misuses are evaluated in the report All control and measure values were within the tolerances Cells and batteries subject to intended use be safe The battery is safe and and continue to function in all respects continues to function in all respects under the condition of intended use misuse Insulation Resistance between an accessible metal accessible
26. tion 3 Z axis direction AMEL MAL 2 758 PRIT Xd a ad a Shock test condition 1 X axis direction TRF No IEC62133A 26 32 Report CB120416C20 001 AU Shock test condition 2 Y axis direction Shock test condition 3 axis direction TRF No IEC62133A 27 32 VIBRATION 1 E ONE MOLI ENERGY CORP 2 Date 3 Test No 120416 20 4 5 Test Mode Sweep Frequency 6 Process Time 7 Start Frequency 10 0Hz 8 Sweep Type 9 Stop Frequency 55 0Hz 10 Specify Amplit 11 Sweep Cycle Ocycles 12 Sweep Time 13 Vibration Count 2 945E 3cycles 14 File Name ES E Frequency Hz Y 10 000000 40 0 50 0 60 0 Time min Vibration test chart X axis direction No IEC62133A Report No CB120416C20 001 2012 04 19 09 29 12 91 Omin 1 Hz min 0 76mm 9 0min cycle 120416 20 X 0 024000 _ 28 32 Report CB120416C20 001 VIBRATION 1 E ONE MOLI ENERGY CORP 2 Date 2012 04 19 3 Test No 120416C20 Y 4 Time 11 08 33 5 Test Mode Sweep Frequency 6 Process Time 91 0min 7 Start Frequency 10 0Hz 8 Sweep Type Hz min 9 Stop Frequency 55 0Hz 10 Specify Amplit 0 76mm 11 Sweep Cycle 1 0cycles 12 Sweep Time 91 0min cycle 13 Vibration Count 2 945E 3cycles 14 File Name C 120416C20 Y UST Frequency Hz 10 000000 0 024000 55 0 T
27. trical conduction 13 32 Report No 20416 20 001 62133 Requirement Test Result Remark 2 1 21 25 2 21 25 TABLE List of critical Components Object part Type Model Technical Data Standard m of trademark Conformity Battery Cell E ONE MOLI ICR18650J 3 7Vdc IEC 62133 CB Ref 2S ENERGY 23 0mAh 2002 UL No CORP Lithium lon type 1642 min Fuse F1 Tamura Thermal T6D 50Vdc 9A EN 60691 VDE Ref Device 139 C 2003 A1 2007 No Corporation 40009915 Fuse F2 Polytronics SMFS1206P500 32 5A UL 248 1 UL E331807 technology Corp Alternate use Littelfuse Inc F1206HI5000V0 32Vdc 5A UL 248 1 L E232989 32TM Protection IC Seiko S 8242B Tested in the 01 Instruments Inc appliance MOSFET International IRF7313PbF Tested in the Q1 Rectifier appliance Supplementary information TABLE 4 2 1 Continuous Low Rate Charge Test Recommended Recommended Recommended OCV at Start Charging Method Charging Voltage Charging Current of Test Vdc CC CV or CC CV Vc Supplementary information TABLE 4 2 2 Vibration Test O P Model OCV at Start of Test Vdc Results MCR 1821J 1 H Sample no P001 8 41 at X Z axis No fire explosion no leakage MCR 1821J 1 H Sample no P002 8 42 at X Y Z axis No fire explosion leakage MCR 18214J 1 H Sample no P003 8 41 Y
28. used N A degrees around their longitudinal axis compared to the first set Results no fire no explosion Certified battery cell used N A TRF No IEC62133A 11 32 Report No CB120416C20 001 IEC 62133 Requirement Test Result Remark N A Fully charged cells are placed in vacuum chamber Certified battery cell used whose internal pressure was gradually reduced to a pressure equal to or less than 11 6 kPa and held at that value for 6 hours Results no fire explosion leakage Certified battery cell used 4 3 8 Overcharge for nickel systems This is not a nickel system N A A discharged cell or battery was subjected to a high This is not a nickel system N A rate charge of 2 5 times the recommended charging current for a time that produced a 250 charge input 250 of rated capacity Results no fire no explosion This is not a nickel system N A 4 3 9 Overcharge for lithium systems N A A discharged cell was charged from a power supply Certified battery cell used N A of gt 10 V at a charging current 1 recommended by the manufacturer for 2 5 hours Results no fire no explosion Certified battery cell used N A Discharged cells intended for use in multi cell Certified battery cell used N A applications were subjected to a reverse charge 11 1 0 A for 90 minutes Results no fire no explosion Certified battery cell used N A 4 3 11 Cell protection ag
29. xplosion Lithium system cell used N A 4 3 2 External short circuit Fully charged cells or batteries were subjected to a Five batteries were fully short circuit test at 20 C 5 C charged and tested for this condition The testing was conducted at 23 5 C Fully charged cells or batteries were subjected to a Five batteries were fully short circuit test at 55 C 5 C charged and tested for this condition The testing was conducted at 55 6 C The external resistance did not exceed 100 The external resistance is measured 10 maximum The cells or batteries were tested for 24 h or until the The batteries were tested for case temperature declined by 20 of the maximum 24 hours temperature rise Results no fire no explosion No fire no explosion after the test See Table 4 3 2 TRF No IEC62133A 10 32 Report No CB120416C20 001 IEC 62133 Requirement Test Result Remark Fully charged cells or batteries were dropped 3 times Three batteries were fully from a height of 1 0 m onto a concrete floor charged and tested for this condition The used test samples no No P024 to P026 5 Results no fire explosion No fire no explosion after the BB test Fully charged cells or batteries were subjected to a Five batteries were fully total of three shocks of equal magnitude applied in charged and tested for this each of three mutually perpendicular directions At c
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