<?xml version="1.0" encoding="utf-8"?>
<SRProject xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<Standard>2</Standard>
<Cases>
<SRCase2>
<CaseName>Original Case</CaseName>
<Title>Exampole NE.2 Country house</Title>
<ConsiderR1>true</ConsiderR1>
<ConsiderR2>false</ConsiderR2>
<ConsiderR3>false</ConsiderR3>
<ConsiderR4>false</ConsiderR4>
<CaseNote>NE.2 Country house
As a first case study a country house (Figure NE.1) is considered.
Loss of human life (L1) and economic loss (L4) are relevant for this type of structure.
It is required to evaluate the need for protection. This implies the need to determine only the risk R1 for loss of human life (L1) with the risk components RA, RB, RU and RV (according to Table 2) and to compare it with the tolerable risk RT = 10-5 (according to Table NF.1). Suitable protection measures to mitigate such risk will be selected.
Following the decision taken by the owner that an economic evaluation is not required, the risk R4 for economic loss (L4) is not considered.</CaseNote>
<FlashDensityInputMode>0</FlashDensityInputMode>
<FlashDensity>0.7</FlashDensity>
<Rho>500</Rho>
<ServiceLineDensity>0</ServiceLineDensity>
<CE>1</CE>
<Structures>
<SRStructure2>
<Identification>Primary Structure</Identification>
<Shape>0</Shape>
<Dimension1>15</Dimension1>
<Dimension2>20</Dimension2>
<Dimension3>6</Dimension3>
<Dimension4>0</Dimension4>
<LocationRelativeToSurroundings>2</LocationRelativeToSurroundings>
<Cd>1</Cd>
</SRStructure2>
</Structures>
<PrimaryStructureIndex>0</PrimaryStructureIndex>
<StructureShieldValue>0</StructureShieldValue>
<KS1>1</KS1>
<MeshWidth>0</MeshWidth>
<Lines>
<SRLine2>
<Identification>Power supply</Identification>
<IncomingLineType>0</IncomingLineType>
<IncomingLineShielding>0</IncomingLineShielding>
<InternalWiringType>1</InternalWiringType>
<ServiceEntranceSpd>0</ServiceEntranceSpd>
<CoordinatedSpdSet>0</CoordinatedSpdSet>
<ConnectedEquipmentWithstand>2</ConnectedEquipmentWithstand>
<LocationRelativeToSurroundings>0</LocationRelativeToSurroundings>
<ShieldingGroundingIsolation>0</ShieldingGroundingIsolation>
<LineSections>
<SRLineSection2>
<Identification>LS1</Identification>
<TypeOfServiceToTheStructure>1</TypeOfServiceToTheStructure>
<HeightOfLine>0</HeightOfLine>
<LengthOfLine>1000</LengthOfLine>
<PresenceOfTransformer>0</PresenceOfTransformer>
<Ca>0.5</Ca>
<Ct>1</Ct>
</SRLineSection2>
</LineSections>
<ConnectedRemoteStructureIndex>-1</ConnectedRemoteStructureIndex>
<CostOfCoordinatedProtection>0</CostOfCoordinatedProtection>
<CostOfServiceProtection>0</CostOfServiceProtection>
<ShieldingGroundingAndIsolation>0</ShieldingGroundingAndIsolation>
<PSPDe>1</PSPDe>
<UW>2.5</UW>
<PSPDc>1</PSPDc>
<Cdc>0</Cdc>
<KS3>0.2</KS3>
</SRLine2>
<SRLine2>
<Identification>Telephone line</Identification>
<IncomingLineType>1</IncomingLineType>
<IncomingLineShielding>0</IncomingLineShielding>
<InternalWiringType>0</InternalWiringType>
<ServiceEntranceSpd>0</ServiceEntranceSpd>
<CoordinatedSpdSet>0</CoordinatedSpdSet>
<ConnectedEquipmentWithstand>1</ConnectedEquipmentWithstand>
<LocationRelativeToSurroundings>0</LocationRelativeToSurroundings>
<ShieldingGroundingIsolation>0</ShieldingGroundingIsolation>
<LineSections>
<SRLineSection2>
<Identification>Whole line</Identification>
<TypeOfServiceToTheStructure>0</TypeOfServiceToTheStructure>
<HeightOfLine>0</HeightOfLine>
<LengthOfLine>1000</LengthOfLine>
<PresenceOfTransformer>0</PresenceOfTransformer>
<Ca>1</Ca>
<Ct>1</Ct>
</SRLineSection2>
</LineSections>
<ConnectedRemoteStructureIndex>-1</ConnectedRemoteStructureIndex>
<CostOfCoordinatedProtection>0</CostOfCoordinatedProtection>
<CostOfServiceProtection>0</CostOfServiceProtection>
<ShieldingGroundingAndIsolation>0</ShieldingGroundingAndIsolation>
<PSPDe>1</PSPDe>
<UW>1.5</UW>
<PSPDc>1</PSPDc>
<Cdc>0</Cdc>
<KS3>1</KS3>
</SRLine2>
</Lines>
<Zones>
<SRZone2>
<Identification>Whole structure</Identification>
<ZoneLocation>0</ZoneLocation>
<TypeOfSoilOrFloor>7</TypeOfSoilOrFloor>
<RiskOfFireOrPhysicalDamage>6</RiskOfFireOrPhysicalDamage>
<FireProtectionSystem>0</FireProtectionSystem>
<ShieldAtZoneBoundary>0</ShieldAtZoneBoundary>
<ru>1E-05</ru>
<rf>0.001</rf>
<rp>1</rp>
<KS2>1</KS2>
<MeshWidth>0</MeshWidth>
<CostOfFireProtection>0</CostOfFireProtection>
<CostOfShieldProtection>0</CostOfShieldProtection>
<L1DueToSpecialHazard>0</L1DueToSpecialHazard>
<L1DueToStepAndTouchVoltage>1</L1DueToStepAndTouchVoltage>
<L1DueToFireOrPhysicalDamage>18</L1DueToFireOrPhysicalDamage>
<L1DueToOvervoltage>0</L1DueToOvervoltage>
<NumberOfPersonsInZone>0</NumberOfPersonsInZone>
<HoursPresentPerYear>8760</HoursPresentPerYear>
<DaysPresentPerWeek>7</DaysPresentPerWeek>
<HoursPresentPerDay>24</HoursPresentPerDay>
<WeeksPresentPerYear>52</WeeksPresentPerYear>
<hZ1>1</hZ1>
<Lt1>0.01</Lt1>
<Lf1>1</Lf1>
<Lo1>0</Lo1>
<L2DueToFireOrPhysicalDamage>0</L2DueToFireOrPhysicalDamage>
<L2DueToOvervoltage>0</L2DueToOvervoltage>
<NumberOfUsersServedByZone>0</NumberOfUsersServedByZone>
<L2TreatStructureAsASingleZone>false</L2TreatStructureAsASingleZone>
<Lf2>0</Lf2>
<Lo2>0</Lo2>
<L3DueToFireOrPhysicalDamage>0</L3DueToFireOrPhysicalDamage>
<L3TreatStructureAsASingleZone>false</L3TreatStructureAsASingleZone>
<HeritageCost>0</HeritageCost>
<Lf3>0</Lf3>
<L4DueToSpecialHazard>0</L4DueToSpecialHazard>
<L4DueToStepAndTouchVoltage>0</L4DueToStepAndTouchVoltage>
<L4DueToFireOrPhysicalDamage>0</L4DueToFireOrPhysicalDamage>
<L4DueToOvervoltage>0</L4DueToOvervoltage>
<costCa>0</costCa>
<costCb>0</costCb>
<costCc>0</costCc>
<costCs>0</costCs>
<hZ4>1</hZ4>
<Lt4>0</Lt4>
<Lf4>0</Lf4>
<Lo4>0</Lo4>
<Protection>
<InsulationOfExposedConductor>false</InsulationOfExposedConductor>
<EffectiveSoilEquipotentialization>false</EffectiveSoilEquipotentialization>
<WarningNotices>false</WarningNotices>
<PhysicalRestrictions>false</PhysicalRestrictions>
<InsulationOfExposedConductorPTU>false</InsulationOfExposedConductorPTU>
<WarningNoticesPTU>false</WarningNoticesPTU>
<PhysicalRestrictionsPTU>false</PhysicalRestrictionsPTU>
</Protection>
<CostOfShockProtection>0</CostOfShockProtection>
<LOSS0>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS0>
<LOSS1>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS1>
<LOSS2>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS2>
<LOSS3>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS3>
<LOSS4>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS4>
<LOSS5>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS5>
<LOSS6>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS6>
</SRZone2>
</Zones>
<LightningProtectionSystem>0</LightningProtectionSystem>
<PB>1</PB>
<CostOfLPS>0</CostOfLPS>
<Financial>
<InterestRate>0.001</InterestRate>
<AmortizationRate>0.001</AmortizationRate>
<MaintenanceRate>0.001</MaintenanceRate>
<CostOfLoss>0</CostOfLoss>
</Financial>
<UnprotectedCaseIndex>-1</UnprotectedCaseIndex>
</SRCase2>
<SRCase2>
<CaseName>Solution A</CaseName>
<ConsiderR1>true</ConsiderR1>
<ConsiderR2>false</ConsiderR2>
<ConsiderR3>false</ConsiderR3>
<ConsiderR4>false</ConsiderR4>
<CaseNote>To reduce the risk R1 to a tolerable value, the protective measures influencing the components RV and RB should be considered. Suitable measures include;
installing SPDs of LPL IV at the line entrance (lightning equipotential bonding) to protect both power and telephone lines in the house. According to Table NB.7 this reduces the value of PEB (due to SPDs on connected lines) from 1 to 0,05 and the values of PU and PV by the same factor,</CaseNote>
<FlashDensityInputMode>0</FlashDensityInputMode>
<FlashDensity>0.7</FlashDensity>
<Rho>500</Rho>
<ServiceLineDensity>0</ServiceLineDensity>
<CE>1</CE>
<Structures>
<SRStructure2>
<Identification>Primary Structure</Identification>
<Shape>0</Shape>
<Dimension1>15</Dimension1>
<Dimension2>20</Dimension2>
<Dimension3>6</Dimension3>
<Dimension4>0</Dimension4>
<LocationRelativeToSurroundings>2</LocationRelativeToSurroundings>
<Cd>1</Cd>
</SRStructure2>
</Structures>
<PrimaryStructureIndex>0</PrimaryStructureIndex>
<StructureShieldValue>0</StructureShieldValue>
<KS1>1</KS1>
<MeshWidth>0</MeshWidth>
<Lines>
<SRLine2>
<Identification>Power supply</Identification>
<IncomingLineType>0</IncomingLineType>
<IncomingLineShielding>0</IncomingLineShielding>
<InternalWiringType>1</InternalWiringType>
<ServiceEntranceSpd>1</ServiceEntranceSpd>
<CoordinatedSpdSet>0</CoordinatedSpdSet>
<ConnectedEquipmentWithstand>2</ConnectedEquipmentWithstand>
<LocationRelativeToSurroundings>0</LocationRelativeToSurroundings>
<ShieldingGroundingIsolation>0</ShieldingGroundingIsolation>
<LineSections>
<SRLineSection2>
<Identification>LS1</Identification>
<TypeOfServiceToTheStructure>1</TypeOfServiceToTheStructure>
<HeightOfLine>0</HeightOfLine>
<LengthOfLine>1000</LengthOfLine>
<PresenceOfTransformer>0</PresenceOfTransformer>
<Ca>0.5</Ca>
<Ct>1</Ct>
</SRLineSection2>
</LineSections>
<ConnectedRemoteStructureIndex>-1</ConnectedRemoteStructureIndex>
<CostOfCoordinatedProtection>0</CostOfCoordinatedProtection>
<CostOfServiceProtection>0</CostOfServiceProtection>
<ShieldingGroundingAndIsolation>0</ShieldingGroundingAndIsolation>
<PSPDe>0.05</PSPDe>
<UW>2.5</UW>
<PSPDc>1</PSPDc>
<Cdc>0</Cdc>
<KS3>0.2</KS3>
</SRLine2>
<SRLine2>
<Identification>Telephone line</Identification>
<IncomingLineType>1</IncomingLineType>
<IncomingLineShielding>0</IncomingLineShielding>
<InternalWiringType>0</InternalWiringType>
<ServiceEntranceSpd>1</ServiceEntranceSpd>
<CoordinatedSpdSet>0</CoordinatedSpdSet>
<ConnectedEquipmentWithstand>1</ConnectedEquipmentWithstand>
<LocationRelativeToSurroundings>0</LocationRelativeToSurroundings>
<ShieldingGroundingIsolation>0</ShieldingGroundingIsolation>
<LineSections>
<SRLineSection2>
<Identification>Whole line</Identification>
<TypeOfServiceToTheStructure>0</TypeOfServiceToTheStructure>
<HeightOfLine>0</HeightOfLine>
<LengthOfLine>1000</LengthOfLine>
<PresenceOfTransformer>0</PresenceOfTransformer>
<Ca>1</Ca>
<Ct>1</Ct>
</SRLineSection2>
</LineSections>
<ConnectedRemoteStructureIndex>-1</ConnectedRemoteStructureIndex>
<CostOfCoordinatedProtection>0</CostOfCoordinatedProtection>
<CostOfServiceProtection>0</CostOfServiceProtection>
<ShieldingGroundingAndIsolation>0</ShieldingGroundingAndIsolation>
<PSPDe>0.05</PSPDe>
<UW>1.5</UW>
<PSPDc>1</PSPDc>
<Cdc>0</Cdc>
<KS3>1</KS3>
</SRLine2>
</Lines>
<Zones>
<SRZone2>
<Identification>Whole structure</Identification>
<ZoneLocation>0</ZoneLocation>
<TypeOfSoilOrFloor>7</TypeOfSoilOrFloor>
<RiskOfFireOrPhysicalDamage>6</RiskOfFireOrPhysicalDamage>
<FireProtectionSystem>0</FireProtectionSystem>
<ShieldAtZoneBoundary>0</ShieldAtZoneBoundary>
<ru>1E-05</ru>
<rf>0.001</rf>
<rp>1</rp>
<KS2>1</KS2>
<MeshWidth>0</MeshWidth>
<CostOfFireProtection>0</CostOfFireProtection>
<CostOfShieldProtection>0</CostOfShieldProtection>
<L1DueToSpecialHazard>0</L1DueToSpecialHazard>
<L1DueToStepAndTouchVoltage>1</L1DueToStepAndTouchVoltage>
<L1DueToFireOrPhysicalDamage>18</L1DueToFireOrPhysicalDamage>
<L1DueToOvervoltage>0</L1DueToOvervoltage>
<NumberOfPersonsInZone>0</NumberOfPersonsInZone>
<HoursPresentPerYear>8760</HoursPresentPerYear>
<DaysPresentPerWeek>7</DaysPresentPerWeek>
<HoursPresentPerDay>24</HoursPresentPerDay>
<WeeksPresentPerYear>52</WeeksPresentPerYear>
<hZ1>1</hZ1>
<Lt1>0.01</Lt1>
<Lf1>1</Lf1>
<Lo1>0</Lo1>
<L2DueToFireOrPhysicalDamage>0</L2DueToFireOrPhysicalDamage>
<L2DueToOvervoltage>0</L2DueToOvervoltage>
<NumberOfUsersServedByZone>0</NumberOfUsersServedByZone>
<L2TreatStructureAsASingleZone>false</L2TreatStructureAsASingleZone>
<Lf2>0</Lf2>
<Lo2>0</Lo2>
<L3DueToFireOrPhysicalDamage>0</L3DueToFireOrPhysicalDamage>
<L3TreatStructureAsASingleZone>false</L3TreatStructureAsASingleZone>
<HeritageCost>0</HeritageCost>
<Lf3>0</Lf3>
<L4DueToSpecialHazard>0</L4DueToSpecialHazard>
<L4DueToStepAndTouchVoltage>0</L4DueToStepAndTouchVoltage>
<L4DueToFireOrPhysicalDamage>0</L4DueToFireOrPhysicalDamage>
<L4DueToOvervoltage>0</L4DueToOvervoltage>
<costCa>0</costCa>
<costCb>0</costCb>
<costCc>0</costCc>
<costCs>0</costCs>
<hZ4>1</hZ4>
<Lt4>0</Lt4>
<Lf4>0</Lf4>
<Lo4>0</Lo4>
<Protection>
<InsulationOfExposedConductor>false</InsulationOfExposedConductor>
<EffectiveSoilEquipotentialization>false</EffectiveSoilEquipotentialization>
<WarningNotices>false</WarningNotices>
<PhysicalRestrictions>false</PhysicalRestrictions>
<InsulationOfExposedConductorPTU>false</InsulationOfExposedConductorPTU>
<WarningNoticesPTU>false</WarningNoticesPTU>
<PhysicalRestrictionsPTU>false</PhysicalRestrictionsPTU>
</Protection>
<CostOfShockProtection>0</CostOfShockProtection>
<LOSS0>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS0>
<LOSS1>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS1>
<LOSS2>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS2>
<LOSS3>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS3>
<LOSS4>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS4>
<LOSS5>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS5>
<LOSS6>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS6>
</SRZone2>
</Zones>
<LightningProtectionSystem>0</LightningProtectionSystem>
<PB>1</PB>
<CostOfLPS>0</CostOfLPS>
<Financial>
<InterestRate>0.001</InterestRate>
<AmortizationRate>0.001</AmortizationRate>
<MaintenanceRate>0.001</MaintenanceRate>
<CostOfLoss>0</CostOfLoss>
</Financial>
<UnprotectedCaseIndex>-1</UnprotectedCaseIndex>
</SRCase2>
<SRCase2>
<CaseName>Solution B</CaseName>
<ConsiderR1>true</ConsiderR1>
<ConsiderR2>false</ConsiderR2>
<ConsiderR3>false</ConsiderR3>
<ConsiderR4>false</ConsiderR4>
<CaseNote>To reduce the risk R1 to a tolerable value, the protective measures influencing the components RV and RB should be considered. Suitable measures include;
installing an LPS of class IV (including mandatory lightning equipotential bonding). According to Tables NB.2 and NB.7 this reduces the value of PB from 1 to 0,2 and the value of PEB (due to SPDs on connected lines) from 1 to 0,05 and finally the values of PU and PV by the same factor.</CaseNote>
<FlashDensityInputMode>0</FlashDensityInputMode>
<FlashDensity>0.7</FlashDensity>
<Rho>500</Rho>
<ServiceLineDensity>0</ServiceLineDensity>
<CE>1</CE>
<Structures>
<SRStructure2>
<Identification>Primary Structure</Identification>
<Shape>0</Shape>
<Dimension1>15</Dimension1>
<Dimension2>20</Dimension2>
<Dimension3>6</Dimension3>
<Dimension4>0</Dimension4>
<LocationRelativeToSurroundings>2</LocationRelativeToSurroundings>
<Cd>1</Cd>
</SRStructure2>
</Structures>
<PrimaryStructureIndex>0</PrimaryStructureIndex>
<StructureShieldValue>0</StructureShieldValue>
<KS1>1</KS1>
<MeshWidth>0</MeshWidth>
<Lines>
<SRLine2>
<Identification>Power supply</Identification>
<IncomingLineType>0</IncomingLineType>
<IncomingLineShielding>0</IncomingLineShielding>
<InternalWiringType>1</InternalWiringType>
<ServiceEntranceSpd>1</ServiceEntranceSpd>
<CoordinatedSpdSet>0</CoordinatedSpdSet>
<ConnectedEquipmentWithstand>2</ConnectedEquipmentWithstand>
<LocationRelativeToSurroundings>0</LocationRelativeToSurroundings>
<ShieldingGroundingIsolation>0</ShieldingGroundingIsolation>
<LineSections>
<SRLineSection2>
<Identification>LS1</Identification>
<TypeOfServiceToTheStructure>1</TypeOfServiceToTheStructure>
<HeightOfLine>0</HeightOfLine>
<LengthOfLine>1000</LengthOfLine>
<PresenceOfTransformer>0</PresenceOfTransformer>
<Ca>0.5</Ca>
<Ct>1</Ct>
</SRLineSection2>
</LineSections>
<ConnectedRemoteStructureIndex>-1</ConnectedRemoteStructureIndex>
<CostOfCoordinatedProtection>0</CostOfCoordinatedProtection>
<CostOfServiceProtection>0</CostOfServiceProtection>
<ShieldingGroundingAndIsolation>0</ShieldingGroundingAndIsolation>
<PSPDe>0.05</PSPDe>
<UW>2.5</UW>
<PSPDc>1</PSPDc>
<Cdc>0</Cdc>
<KS3>0.2</KS3>
</SRLine2>
<SRLine2>
<Identification>Telephone line</Identification>
<IncomingLineType>1</IncomingLineType>
<IncomingLineShielding>0</IncomingLineShielding>
<InternalWiringType>0</InternalWiringType>
<ServiceEntranceSpd>1</ServiceEntranceSpd>
<CoordinatedSpdSet>0</CoordinatedSpdSet>
<ConnectedEquipmentWithstand>1</ConnectedEquipmentWithstand>
<LocationRelativeToSurroundings>0</LocationRelativeToSurroundings>
<ShieldingGroundingIsolation>0</ShieldingGroundingIsolation>
<LineSections>
<SRLineSection2>
<Identification>Whole line</Identification>
<TypeOfServiceToTheStructure>0</TypeOfServiceToTheStructure>
<HeightOfLine>0</HeightOfLine>
<LengthOfLine>1000</LengthOfLine>
<PresenceOfTransformer>0</PresenceOfTransformer>
<Ca>1</Ca>
<Ct>1</Ct>
</SRLineSection2>
</LineSections>
<ConnectedRemoteStructureIndex>-1</ConnectedRemoteStructureIndex>
<CostOfCoordinatedProtection>0</CostOfCoordinatedProtection>
<CostOfServiceProtection>0</CostOfServiceProtection>
<ShieldingGroundingAndIsolation>0</ShieldingGroundingAndIsolation>
<PSPDe>0.05</PSPDe>
<UW>1.5</UW>
<PSPDc>1</PSPDc>
<Cdc>0</Cdc>
<KS3>1</KS3>
</SRLine2>
</Lines>
<Zones>
<SRZone2>
<Identification>Whole structure</Identification>
<ZoneLocation>0</ZoneLocation>
<TypeOfSoilOrFloor>7</TypeOfSoilOrFloor>
<RiskOfFireOrPhysicalDamage>6</RiskOfFireOrPhysicalDamage>
<FireProtectionSystem>0</FireProtectionSystem>
<ShieldAtZoneBoundary>0</ShieldAtZoneBoundary>
<ru>1E-05</ru>
<rf>0.001</rf>
<rp>1</rp>
<KS2>1</KS2>
<MeshWidth>0</MeshWidth>
<CostOfFireProtection>0</CostOfFireProtection>
<CostOfShieldProtection>0</CostOfShieldProtection>
<L1DueToSpecialHazard>0</L1DueToSpecialHazard>
<L1DueToStepAndTouchVoltage>1</L1DueToStepAndTouchVoltage>
<L1DueToFireOrPhysicalDamage>18</L1DueToFireOrPhysicalDamage>
<L1DueToOvervoltage>0</L1DueToOvervoltage>
<NumberOfPersonsInZone>0</NumberOfPersonsInZone>
<HoursPresentPerYear>8760</HoursPresentPerYear>
<DaysPresentPerWeek>7</DaysPresentPerWeek>
<HoursPresentPerDay>24</HoursPresentPerDay>
<WeeksPresentPerYear>52</WeeksPresentPerYear>
<hZ1>1</hZ1>
<Lt1>0.01</Lt1>
<Lf1>1</Lf1>
<Lo1>0</Lo1>
<L2DueToFireOrPhysicalDamage>0</L2DueToFireOrPhysicalDamage>
<L2DueToOvervoltage>0</L2DueToOvervoltage>
<NumberOfUsersServedByZone>0</NumberOfUsersServedByZone>
<L2TreatStructureAsASingleZone>false</L2TreatStructureAsASingleZone>
<Lf2>0</Lf2>
<Lo2>0</Lo2>
<L3DueToFireOrPhysicalDamage>0</L3DueToFireOrPhysicalDamage>
<L3TreatStructureAsASingleZone>false</L3TreatStructureAsASingleZone>
<HeritageCost>0</HeritageCost>
<Lf3>0</Lf3>
<L4DueToSpecialHazard>0</L4DueToSpecialHazard>
<L4DueToStepAndTouchVoltage>0</L4DueToStepAndTouchVoltage>
<L4DueToFireOrPhysicalDamage>0</L4DueToFireOrPhysicalDamage>
<L4DueToOvervoltage>0</L4DueToOvervoltage>
<costCa>0</costCa>
<costCb>0</costCb>
<costCc>0</costCc>
<costCs>0</costCs>
<hZ4>1</hZ4>
<Lt4>0</Lt4>
<Lf4>0</Lf4>
<Lo4>0</Lo4>
<Protection>
<InsulationOfExposedConductor>false</InsulationOfExposedConductor>
<EffectiveSoilEquipotentialization>false</EffectiveSoilEquipotentialization>
<WarningNotices>false</WarningNotices>
<PhysicalRestrictions>false</PhysicalRestrictions>
<InsulationOfExposedConductorPTU>false</InsulationOfExposedConductorPTU>
<WarningNoticesPTU>false</WarningNoticesPTU>
<PhysicalRestrictionsPTU>false</PhysicalRestrictionsPTU>
</Protection>
<CostOfShockProtection>0</CostOfShockProtection>
<LOSS0>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS0>
<LOSS1>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS1>
<LOSS2>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS2>
<LOSS3>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS3>
<LOSS4>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS4>
<LOSS5>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS5>
<LOSS6>
<Np>0</Np>
<Nt>0</Nt>
<Tp>0</Tp>
</LOSS6>
</SRZone2>
</Zones>
<LightningProtectionSystem>1</LightningProtectionSystem>
<PB>0.2</PB>
<CostOfLPS>0</CostOfLPS>
<Financial>
<InterestRate>0.001</InterestRate>
<AmortizationRate>0.001</AmortizationRate>
<MaintenanceRate>0.001</MaintenanceRate>
<CostOfLoss>0</CostOfLoss>
</Financial>
<UnprotectedCaseIndex>-1</UnprotectedCaseIndex>
</SRCase2>
</Cases>
<Name>BS EN 62305:2012 Annex NE Examples</Name>
<Client>A. N. Other Contracting </Client>
<Address>1234 A. N. Other Street
A. N. Other Town
A. N. Other county
ANOT HER</Address>
<Ref>Annex NE Examples</Ref>
<CalculationRef>NA</CalculationRef>
<CalculationNotes>The following calculation is taken from Annex E of BS EN 62305-2:2012
The example was based upon the equivalent example contained within IEC 62305-2:2010</CalculationNotes>
<Author>A. N. Other</Author>
</SRProject>