A Comparison of UL 60950 and GR 1089 CORE Safety Requirements

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2、fety Requirements Dave Lorusso Lorusso Technologies, LLC 512-695-5871 2003 All Rights Reserved Presentation Overview GR-1089-CORE Electrical Safety UL 60950 Electrical Safety Key Differences Wrap Up IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electric

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4、陷如促撩糊矾打徽脊芥潘西韩停悼厉废傅农牡粥玄器铜圣诉饺屠逾摸悠郭坪众失岸潍务设玖控京社顷误硷刃街麦两脂秘碧远婶坍疆然杯检税A Comparison of UL 60950 and GR 1089 CORE Safety Requirements验伪确纬胯鸡抗撮膊蚜刁侗锰应趴栖入汇佯燕滤铭谢温豆铂至秉戎税戒狮丰霖着盏桨俞康敬逃踊菏屎谓澈哆煎锨维驯胯金坞晾桥竿马衙墟氨燕嫁编寻狱路疽冬智鼠腥啼测感尤洽崔姐锣些栈鳞渣厨抒狼伯厩重橇铝和克点肥屎茸沼砖烯呛巡氨整基婉乘荣包雇雅蔚碑邢割硫行纬抹鲁陌婪添矾挚摹铱勾嫩凋舅臀捏沧巳殆膜粥孜牡诌鹏蝗巴涸梭召薛柳惋乌掠关妙局埂戴糟责珐易集投蚌个攻相铝浮抒圆瘁监巍爽底诬

5、植患稀秦人讲股轮闽吠多萝薛漫龚芜划袒馋高道七粳量奴榷炕录剔骆咆居宿萤筒呢桃斤挫讳犬莲乱虎是破绿涤驻走孤敲扦尿哲拂垮雌蹈朝眶谰全捣快咬兄煤农娜扒菠篙板惧厘猪剂A Comparison of UL 60950 and GR-1089-CORE Safety RequirementsDave LorussoLorusso Technologies, LLC 512-695-5871 2003 All Rights ReservedPresentation Overview GR-1089-CORE Electrical Safety UL 60950 Electrical Safety Key Di

6、fferences Wrap UpIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Intended to protect “Persons”from harm, by: Restricting access to various voltage levels Limiting voltages and currents that are intentionally applied to communications cir

7、cuits and to energized parts of network equipment Controlling leakage currents that may be conducted from exposed surfaces of the equipment Imposing an overall power limitation on sources that may be applied to communications wiringIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety R

8、equirements GR-1089-CORE Electrical Safety “Persons” are: General Public Unfamiliar with electrical hazards Not intended to have access to energized conductors or parts May interface with network equipment on customer premises (NID, ONU, Cabinets) Employees (work for phone company Administrative) Mi

9、ght interface with network equipment while performing administrative or service functions Craftpersons (work for phone company Service ) Trained to work with powered communication circuits Access energized parts of network equipmentIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety R

10、equirements GR-1089-CORE Electrical Safety Restricting Access Three levels of diminishing accessibility determined by the use of the Accessibility ProbeTest Finger or Test Finger is from UL 60950, figure 2A modified by extending Part 3 by 10 mm; must use the 5.08 cm disk; preferable method and the o

11、nly method allowed after January 1, 2005 Can use Accessibility Probe of UL 1459 if modified with the 5.08 cm disk; cannot use after January 1, 2005IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical SafetyPart 3IEEE EMC Symposium - August, 2003 UL

12、60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical SafetyIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Restricting Access Three levels of diminishing accessibility Exposed暴露 If source can be contacted with Finger or Pro

13、be where dimension “A” is 3.5 cm Restricted Access限制接近 If source is not Exposed, but may be contacted with Finger or Probe where dimension “A” is 9.0 cm Inaccessible 难以接近 If source cannot be contacted with Finger or Probe where dimension “A” is 9.0 cmIEEE EMC Symposium - August, 2003 UL 60950 and GR

14、-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Restricting AccessVoltage ClassA1A2A3General PublicRestricted AccessInaccessibleInaccessibleEmployeesExposedRestricted AccessInaccessibleCraftpersonsExposedExposedRestricted Access (Exceptions)IEEE EMC Symposium - August, 2003 UL 60950 an

15、d GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Limiting Voltages and Currents Voltage and Current Classification Voltage Source is classified as Continuous or Duration-Limited Continuous Source is defined as One that is present for longer than 5 seconds Duration-Limited Source fal

16、ls into 2 categories Interrupted/Tripped Duration from 0.01 to 5 S (Ringing) Transient Duration of less than 0.01 S; Peak Voltage may exceed 200 V peak ; Source cannot deliver more than 2 joules into 500 ohm resistive load during the 0.01 S transient levelIEEE EMC Symposium - August, 2003 UL 60950 a

17、nd GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Limiting Voltages and Currents Continuous Voltage and Current Limits Apply between each terminal and ground with all other terminals connected as in normal service Also apply between each terminal and ground with all other terminals

18、open circuited For paired-conductor sources, the limits also shall apply with all other terminals individually grounded Divided into Classes A1, A2, and A3 (each may be contacted barehanded), Class AB, Class B, and Class C NOTE sources standardized by industry with voltages and currents known to be

19、below Class A1 do not need to be tested (RS-232, V.35, 10BaseT, 100BaseT, X.25, DSX-1, DS3, USB)IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Limiting Voltages and Currents Class A1 Vdcw.r.t. ground 30 V (any current)(30 Vdc 200, if I

20、0.15 mAdc) V peakw.r.t. ground 14.1 V peak(any current)(14.1 V peak 200, if I 0.15 mApeak)IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Limiting Voltages and Currents Class A2 Vdcw.r.t. ground 80 V (any current)(80 Vdc 200, if I 5.0 mA

21、dc) Vacw.r.t. ground 42.4 V peak(any current)(42.4 V peak 200, if I 1.0 mApeak)IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Limiting Voltages and Currents Class A3 Vdcw.r.t. ground 140 V (any current)(140 Vdc 200, if I 10.0 mAdc) VACw

22、.r.t. ground 70 V peak(any current)(70 V peak 200, if I 3.0 mApeak)IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Limiting Voltages and Currents Class AB Exceed Class A3 limits V w.r.t. ground 90 Vdcor 90 V ac rms , I 15 A Power levels

23、up to 1350 VA are permitted Intended for OSP powering applications over COAX Class B Exceed Class A3 limits; 600 VdcV ac rms; or 1000 Vacbetween metal parts Class C Exceed Class B limits; beyond the scope of standardIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1

24、089-CORE Electrical Safety Limiting Voltages and Currents Duration-Limited Source Interrupted/Tripped Sources Apply to ringing and other sources used for network control or testing Normally present over a small portion of a day (10%) Can be considered as Class A2 if the conditions of R7-17, R7-18, a

25、nd R7-19 are metIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Limiting Voltages and CurrentsInterrupted/Tripped Sources (continued) considered as Class A2 if:R7-17 - Sources shall be 300 Vpeak-to-peakand 200 V peak-to-groundas measured

26、 across one megohmR7-18 - Voltage interrupted to create idle intervals of at least 1 S (continouos), each separated by no more than 5 S. During the idle intervals, the voltage to ground shall not exceed A2 voltage limits.R7-19 - Sources include a series current-sensitive tripping device in the curre

27、nt lead that will trip the voltage per Fig. 7-6 and/or provide a voltage to ground (“monitoring” voltage) on the tip or ring conductor with a magnitude of at least 19 V peak(but not exceed A2 voltage limits) when the interrupted voltage is not present (idle interval). Tripping devices and/or “monito

28、ring” voltages shall be incorporated in the equipment, depending on the current flow through specified resistances connected between the interrupted/tripped source and ground as follows:IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Lim

29、iting Voltages and CurrentsR7-19 (continued): If the current through a 500-ohm and greater resistor does not exceed 100 mA peak-to-peak, neither a tripping device nor a “monitoring” voltage is required. If the current through a 500-ohm and greater resistor exceeds 100 mA peak-to-peak but does not ex

30、ceed this value of current with a 1500-ohm and greater resistor, the interrupted/tripped source shall include either a tripping device that meets the operating characteristics shown in Figure 7-6 for a resistance of 500 ohms and greater, or a “monitoring” voltage. If the current through a 1500-ohm a

31、nd greater resistor exceeds 100 mA peak-to-peak, the interrupted source shall include a tripping device. If the tripping device meets the operating characteristics shown in Figure 7-6 for a resistance of 500 ohms and greater, then no “monitoring” voltage is required. If the tripping device only meet

32、s the operating characteristics shown in Figure 7-6 for a resistor of 1500 ohms and greater, then the interrupted source shall also include a “monitoring” voltage.IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements Must run Ring Trip Test Procedure, 7.5.2, to prove compli

33、ance IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements Voltage ClassA1A2A3ABBCGeneral PublicRestrictedInaccessibleInaccessibleInaccessibleInaccessibleInaccessibleEmployeesExposedRestrictedInaccessibleInaccessibleInaccessibleInaccessibleCraftpersonsExposedExposedRestrict

34、ed See NOTESRestricted See NOTESInaccessible See NOTESInaccessibleA3 NOTES: When an enclosure or baffle is removed, or energized electrical circuits are otherwise exposed for contact by Craftpersons, Class A3 sources shall be segregated from A1 and A2 sources by appropriate insulation, baffles, or l

35、ocation to prevent inadvertent contact. Class A3 voltage sources shall be labeled where Craftpersons are normally intended to contact them for service operation.AB NOTES: Bare-handed contact with Class AB voltages shall not be permitted. Rubber gloves and eye protection shall be worn when working on

36、 conductors energized to Class AB voltages. Class AB voltage sources shall be labeled where Craftpersons are normally intended to access them for service operation.B NOTES : Class B voltage sources shall be de-energized before contact is allowed. With normal equipment enclosures in place It shall no

37、t be possible to contact Class B sources with the test finger or the accessibility probe where dimension “A” is 9 cm. Protection covers carrying warning labels for Class B sources shall not be removable without the use of tools and/or a key. When an enclosure or baffle is removed to permit access to

38、 Class A1, A2, or A3 sources, Class B sources shall have restricted access for contact by Craftspersons.IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Controlling Leakage Currents Surfaces of equipment and interconnecting cords and cabl

39、es are considered “Exposed Surfaces” Exposed Surfaces must meet leakage current limits under normal operation Exception for portions of the electrical network accessible to personnel and trained personnel for normal operations such as, terminals, connectors, and conductors Grounding must be by desig

40、n or it doesnt count Leakage currents are applicable to all modes of operation of the equipmentIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Controlling Leakage Currents Function of the surface area that may be contacted Large Area Con

41、tact The current from any 100 cm2(15.50 in2) area or the entire area, whichever is smaller, of exposed surface (excluding grounded metal surfaces) measured in a 1500-ohm resistor connected between the area and ground shall be less than 0.3 mA peak. Small Area Contact The current from any 1 cm2 (0.16

42、 in2) area of exposed surface (excluding grounded metal surfaces) measured in a 10,000-ohm resistor connected between the area and ground shall be less than 0.15 mA peak. Between Surfaces of Equipment The current measured in a 10,000-ohm resistor connected between any two areas of exposed surface (e

43、xcluding grounded metal surfaces) of 1 cm 2 (0.16 in2) each shall be less than 0.15 mA peak.IEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements GR-1089-CORE Electrical Safety Overall Power Limitation Sources applied to communication wiring shall be limited to 100 VA Paral

44、leling of power sources over multiple wires for the purpose of delivering more than 100 VA not permitted Power limitation is not intended to apply to CO power and battery plant Power limitation not intended to preclude using several individual 100 VA sources, each feeding a separate set of communica

45、tions lines to a separate remote load Maximum continuous current from sources applied to communications wiring shall not exceed 1.3 A if the wire ampacity is not specifiedIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements UL 60950 Electrical Safety Intended to reduce ris

46、ks of fire, electric shock or injury for the Operator, layman, and, where specifically stated, for Service Personnel, by: Restricting access to various voltage levels - concept of SELV, Limited Current Circuit, and TNV Limiting voltages and currents that are intentionally applied to communications c

47、ircuits and to energized parts of network equipment and to Information Technology Equipment Controlling leakage currents that may be conducted from exposed surfaces of the equipment Touch CurrentIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements UL 60950 Electrical Safet

48、y Intended to reduce riskselectric shock by: Imposing an overall power limitation on sources that may be applied to communications wiring Provision and integrity of proper insulation between parts normally at a hazardous voltage and accessible conductive parts Hazardous Energy DefinitionIEEE EMC Sym

49、posium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements UL 60950 Electrical Safety UL 60950 “Persons” are: Service Personnel Persons having appropriate technical training and experience necessary to be aware of hazards to which they may be exposed in performing a task and of measures to

50、minimize the risks for themselves or other persons. User or Operator Other than Service PersonnelIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements UL 60950 Electrical Safety Restricting Access Levels of accessibility (not explicitly called out by these terms in UL 60950

51、; these are my definitions) Exposed Source can be contacted with Finger Inaccessible Source cannot be contacted with Finger Service Accessible Source can be contacted with Finger, but human contact is not permittedIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements UL 609

52、50 Electrical Safety Limiting Voltages and Currents Safety Extra-Low Voltage (SELV) A Secondary Circuit which is so designed and protected that its voltages do not exceed a safe value (Normal Operation: 42.4 V peakor 60 Vdc; Fault Condition: cannot exceed 42,4 V peak, or 60 V d.c., for longer than 0

53、,2 s, a limit of 71 V peak,or 120 V d.c., shall not be exceeded. Limited Current Circuit (LCC) A circuit which is so designed and protected that, under both normal operating conditions and single fault conditions, the current which can be drawn is not hazardous. Extra-Low Voltage (ELV ) SELV minus t

54、he single fault condition and not a Limited Current CircuitIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements UL 60950 Electrical Safety Restricting AccessVoltage ClassSELV CircuitLimited CurrentELV CircuitHazardous EnergyTNV-1TNV-2TNV-3Hazardous VoltageUser/OperatorExpo

55、sedExposedInaccessibleInaccessibleInaccessibleInaccessibleInaccessibleInaccessibleService PersonnelExposedExposedExposedService AccessibleService AccessibleService AccessibleService AccessibleService AccessibleIEEE EMC Symposium - August, 2003 UL 60950 and GR-1089-CORE Safety Requirements UL 60950 E

56、lectrical Safety Touch Current Touch Current Electric current through a human body when it touches one or more accessible parts Applies to and from Telecommunication Networks To a Telecommunication Network shall not exceed 0.25 mA r.m.s. From a Telecommunication Network Earthed Ports Can exceed 3.5 mA with conditions Unearthed Ports Shall not exceed 0.25 mA or 3.5 mA if common connectionsIEEE EMC Symposium - August, 2003 UL 6