1.1.1 Equipment included in scope 

Replacement: 
Replace the text by the following paragraphs: 

This part of IEC 61010 specifies the safety requirements for electric ACTUATORs and SOLENOIDs, as applied to valves, intended to be installed in an industrial process or discrete control environment. 

This part of IEC 61010 specifies: 

- particular safety requirements for general purpose electrically operated valve ACTUATORs and SOLENOIDs,
- related verification tests. 

The general purpose electrically operated valve ACTUATORs and SOLENOIDs, covered by this part of IEC 61010 are limited to: 
 
- those rated 600 V alternative current/ 840 V direct current or less, 

Service personnel interface to equipment included in the scope of this document. 

1.1.2 Equipment excluded from scope 

Addition at the end of the list: 

This Standard excludes 

- electric ACTUATORs and SOLENOIDs for use in explosive atmospheres, as covered by the IEC 60079 series of standards;
- mechanical parts/aspects of valves;
- ACTUATORs and SOLENOIDs performing a safety function as covered by the IEC 61508 series of standards;
- POSITIONERs. 

NOTE: A positioner is defined as a physical unit delivering an additional, often mechanical, feedback to a mechanical final controlling element that improves its velocity and precision in IEC 60050-351:2013, 351-56-17. 

Cette norme couvre la cybersécurité des centrales nucléaires (CNP) nouvelles et existantes et des installations de petits réacteurs.

Note: This is a second, shorter Public Review period of the CSA N290.7 draft. Tracked changes in the draft indicate changes made after the first Public Review period that ended on September 30, 2020.

SCOPE
This Standard covers the cyber security of new and existing nuclear power plants (NPPs) and small reactor facilities.

Inclusions

This Standard applies to appliances that are intended to be installed in accordance with CSA C22.1, Canadian Electrical Code, Part I and NFPA 70, National Electrical Code.

This Standard applies to appliances and self-contained packaged systems manufactured after the date of publication of this Standard.

This Standard applies to appliances and self-contained packaged systems that use gaseous and liquid fuels.

This standard specifies requirements and test methods for the following devices within the field of cogeneration technologies which produce both electricity and thermal energy, including but not limited to:

Combined Heat and Power (CHP) appliances, which generate electricity and thermal energy in a single integrated system

Internal Combustion CHP

Thermoelectric Generators (TEG)

Vapour Expansion Cycle CHP

Fuel Cell CHP

Exhaust Heat Reclaimers

Stirling Engine CHP

Thermoelectric Generators (TEG), which convert heat into electrical energy

Ratings

This Standard applies to newly produced combined heat and power appliances with a maximum net electrical power output of 50kW.

These requirements apply to TEGs operating at inlet gas pressures not exceeding 1720 kPa (250 psig).

These requirements apply to TEGs operating at gas input rates of 100,000 BTU/hr or less.

Where appliances use fuel, they shall be for connection to a fixed fuel piping system

These requirements apply to indoor and outdoor installations

For any other ratings see the applicable appliance standards used in conjunction with this standard.

Exclusions

This standard does not apply to:

Fuel storage systems that are utilized when the appliance and self contained packaged systems is not in operation

Terminology

In this Standard, “shall” is used to express a requirement, i.e., a provision that the user is obliged to satisfy in order to comply with the standard; “should” is used to express a recommendation or that which is advised but not required; and “may” is used to express an option or that which is permissible within the limits of the Standard.

Notes accompanying clauses do not include requirements or alternative requirements; the purpose of a note accompanying a clause is to separate from the text explanatory or informative material.

Notes to tables and figures are considered part of the table or figure and may be written as requirements.

Annexes are designated normative (mandatory) or informative (non-mandatory) to define their application.

Units of measure

The values given in inch-pound units are the units of record for the purposes of this Standard. The values given in SI units in parentheses are for information and comparison only.

1.1  This Part is intended to be read together with the Standard for Low-Voltage Fuses – Part 1: General Requirements, hereafter referred to as Part 1. The titles of the Clauses in this Part correspond to the similarly titled Clauses in Part 1. The requirements of Part 1 apply unless modified by this Part.  For the Part 1 requirements, refer to the Standard for Low-Voltage Fuses – Part 1: General Requirements, NMX-J-009-248/1-ANCE / CSA C22.2 No. 248.1 / UL 248-1.

1.2  This Standard applies to Class CD fuses rated 31 – 60 A and 600 Vac. 

Draft Amendment to C22.1

1.1
This standard applies to metallic and nonmetallic cover plates and associated gaskets for flush-mounted wiring devices intended for installation in accordance with the National Electrical Code, ANSI/NFPA 70, and the Canadian Electrical Code, Part I, CSA C22.1, General Requirements - Canadian Electrical Code, Part II, CSA C22.2 No. 0-10.

1.2
This standard also applies to outlet box hoods that are either integral or not integral with a cover plate for flush-mounted wiring devices.

1.3
This standard also applies to cover plates for flush-mounted wiring devices intended for use in marine applications in accordance with the applicable requirements of the United States Coast Guard and the Canadian Coast Guard; IEEE Recommended Practice for Electrical Installation on Shipboard, IEEE 45; the American Boat and Yacht Council; and the Standard for Pleasure and Commercial Motor Craft, NFPA 302.

1.4
This standard also applies to illuminating cover plates for flush-mounted wiring devices.

1.5
This standard does not apply to:

a) telephone wall plates; or
b) cover plates and associated gaskets intended for use in hazardous (classified) locations as defined in the National Electrical Code, ANSI/NFPA 70, and the Canadian Electrical Code, Part I, CSA C22.1

1.1 This Standard establishes the test method, criteria, and device to evaluate a hydrogen fueling station dispensing system (hereinafter referred to as a “dispenser”) as it relates to achieving the protocols specified in SAE J2601 and SAE J2799 with light duty vehicle hydrogen storage systems less than 248.6 L (10 kg H70). The testing evaluation applies to dispensers designed to fill vehicle storage systems following the prescribed protocols defined in SAE J2601 that target rapid fills, while respecting temperature, pressure, and fuel density safety limits. Note: This Standard is a minimum requirement. Manufacturers may take additional safety precautions.

1.2 This Standard was developed for and is intended to be used with the specific version of SAE J2601 and SAE J2799 documents as referenced in Clause 2.

1.3 For fueling dispensers with the capability for communications with the vehicle, these test methods include the approach to confirm the requirements specified in SAE J2799 and SAE J2601.

1.4 It is recommended that newly manufactured hydrogen fueling dispensers be tested according to this Standard prior to initial operation of the dispenser for fueling vehicles. This Standard is also intended to provide test methods for validation of existing hydrogen fueling dispensers.

1.5 Unless otherwise specified, the requirements in this Standard apply to the verification of SAE J2601 compliant hydrogen fueling stations (HFS).

1.6 In the case of conflict between this Standard and federal, provincial, state, or local requirements, the governmental requirements take precedence.

1.7 The values given in SI units are the units of record for the purposes of this Standard. The values given in parentheses are for information and comparison only.

1.8 All references to pressure throughout this Standard are to be considered gauge pressure unless otherwise specified.

1.1 This Standard provides the minimum fire protection requirements for the design, construction, 
commissioning, operation, and decommissioning of nuclear power plants, including structures, systems, 
and components (SSCs) that directly support the plant and the protected area.

1.2*  External events such as an aircraft crash or terrorist attack are outside the scope of this Standard.

1.3  In CSA Standards, “shall” is used to express a requirement, i.e., a provision that the user is obliged to 
satisfy in order to comply with the standard; “should” is used to express a recommendation or that which is advised but not required; “may” is used to express an option or that which is permissible within the 
limits of the standard; and “can” is used to express possibility or capability.
Notes accompanying clauses do not include requirements or alternative requirements; the purpose of a note accompanying a clause is to separate from the text explanatory or informative material.
Notes to tables and figures are considered part of the table or figure and may be written as requirements.
Annexes are designated normative (mandatory) or informative (non-mandatory) to define their application.

1.4 The values given in SI (metric) units are the standard. The values given in parentheses are for information 
only.

S1-1.1*  

[Remplacer cet article par ce qui suit]

Le présent supplément présente les exigences minimales relatives à la protection incendie pour la conception, la construction, la mise en service et l’exploitation de centrales avec PRM, y compris les structures, les systèmes et les composants (SSC) qui soutiennent directement la centrale et la zone protégée.

1.1 Inclusions

This standard applies to the requirements for a WDM System that can be used by paramedic services to systematically manage their WDM activities. The standard includes specific requirements and guidance related to the management work disabilities associated with Operational Stress Injuries (OSI) and other mental health conditions that may be due to work related exposure(s) and non work-related exposure(s).

This standard applies a general framework to be applied to any types of disability.

Draft Amendment to C22.1

This part of IEC 61800, which is a product standard, specifies requirements and makes recommendations for the design and development, integration and validation of safety related power drive systems (PDS(SR)) in terms of their functional safety considerations. It applies to adjustable speed electrical power drive systems covered by the other parts of the IEC 61800 series of standards as referred in IEC 61800-2.

NOTE 1 The term “integration” refers to the PDS(SR) itself, not to its incorporation into the safety-related application.

NOTE 2 Other parts of IEC 61800 cover rating specifications, EMC, electrical safety, etc.

This International Standard is applicable where functional safety of a PDS(SR) is claimed and the PDS(SR) is operating mainly in the high demand or continuous mode (see 3.15)

While low demand mode operation is possible for a PDS(SR), this standard concentrates on high demand and continuous mode. Safety sub-functions implemented for high demand or continuous mode can also be used in low demand mode. Requirements for low demand mode are given in IEC 61508 series. Some guidance for the estimation of average probability of dangerous failure on demand (PFDavg) value is provided in Annex F.

This part of IEC 61800 sets out safety-related considerations of PDS(SR)s in terms of the framework of IEC 61508, and introduces requirements for PDS(SR)s as subsystems of a safety-related system. It is intended to facilitate the realisation of the electrical/ electronic/ programmable electronic (E/E/PE) parts of a PDS(SR) in relation to the safety performance of safety sub-function(s) of a PDS.

Manufacturers and suppliers of PDS(SR)s by using the normative requirements of this part of IEC 61800 will indicate to users (system integrator, original equipment manufacturer) the safety performance for their equipment. This will facilitate the incorporation of a PDS(SR) into a safety-related control system using the principles of IEC 61508, and possibly its specific sector implementations (for example IEC 61511, IEC 61513, IEC 62061 or ISO 13849).

By applying the requirements from this part of the IEC 61800 series, the corresponding requirements of IEC 61508 that are necessary for a PDS(SR) are fulfilled.

This part of IEC 61800 does not specify requirements for:

· the hazard and risk analysis of a particular application;
· the identification of safety sub-functions for that application;
· the initial allocation of SILs to those safety sub-functions;
· the driven equipment except for interface arrangements;
· secondary hazards (for example from failure in a production or manufacturing process);
· the electrical, thermal and energy safety considerations, which are covered in +IEC 61800-5-1;
· the PDS(SR) manufacturing process;
· the validity of signals and commands to the PDS(SR).
· security aspects (e.g. cyber security or PDS(SR) security of access)

NOTE 3 The functional safety requirements of a PDS(SR) are dependent on the application, and can be considered as a part of the overall risk assessment of the installation. Where the supplier of the PDS(SR) is not responsible for the driven equipment, the installation designer is responsible for the risk assessment, and for specifying the functional and safety integrity requirements of the PDS(SR).

This part of IEC 61800 only applies to PDS(SR)s implementing safety sub-functions with a SIL not greater than SIL 3.

1.1
The requirements of this standard cover holders and connectors for electric lamps, including incandescent, fluorescent, and other electric-discharge-type lamps, rated as indicated in Clause 6, to be used in accordance with the Canadian Electrical Code (CEC), Part I, C22.1, and the National Electrical Code (NEC), ANSI/NFPA 70.

1.2
These requirements cover screw lampholders, including those intended to be mounted directly on an outlet-box, lampholders for special uses, lampholders for electric signs, and adapters that convert one lampholder size to another.

1.3
These requirements also cover holders for automatic starters used with fluorescent lamps.

1.4
These requirements also cover GU24 and GU24-1 holders for fluorescent and LED self-ballasted lamps and fluorescent lamp adapters with mating pin bases.

1.5
These requirements also cover indicator lamps.

1.6
These requirements also cover lampholder inserts.

1.7
These requirements also cover naval-use lampholders. See Supplement SB.

1.8
These requirements do not cover fluorescent self-ballasted lamps and fluorescent lamp adapters covered in UL 1993.

1.9
These requirements do not cover seasonal-lighting lampholders, which are covered in UL 588, and CSA C22.2 No. 37.

1.10
These requirements do not cover electrode receptacles for use in gas-tube signs, which are covered in UL 879 and CSA C22.2 No. 34.

1.11
These requirements do not cover devices requiring a cross-bar, mounting strap, or other mounting means; such devices are considered to be luminaires.

1.12
These requirements do not cover nightlights, which are covered in UL 1786 and CSA C22.2 No. 256.

1.13
These requirements do not cover ceiling outlet-box lampholders that incorporate one or more of the following features:
a) more than one lampholder;
b) provisions for conduit connection such as openings or knockout;
c) an integral ballast, transformer or power supply; or
d) a lamp shade or lamp guard that completely encloses the lamp.

Such devices are covered by UL 1598 and CSA C22.2 No. 250.0.

1.14
In Canada, general requirements applicable to these products are provided in CAN/CSA-C22.2 No. 0.

This Standard applies to newly produced gas appliance connectors, constructed entirely of new unused parts and materials, having nominal internal diameters of 1/4, 3/8, 1/2, 5/8, 3/4, and 1 in, and having fittings at both ends provided with taper pipe threads for connection to a gas appliance and to house piping. This Standard covers assembled appliance connectors not exceeding a nominal length of 6 ft (1.83 m).

Connectors listed under this Standard are intended for use with gas appliances that are not frequently moved after installation.

For the purpose of this Standard, an unused connector, including end fittings, is considered to be a connector that has not been installed.

This Standard applies to newly produced gas hose connectors for portable and moveable gas appliances constructed entirely of new, unused parts and materials, consisting of flexible tubing for gas leak resistance that:

a) when used indoors, hose connectors are to be equipped with a male plug fitting, which complies with CSA/ANSI Z21.90 • CSA 6.24, Gas Convenience Outlets and Optional Enclosures;

b) are for use with indoor/outdoor gas-fired appliances;

c) are for use on piping systems having fuel gas pressure not in excess of 5 psi (34.5 kPa);

d) are capable of operation at temperatures between -40°F (-40 °C) and 300°F (149 °C);

e) are of 1/4 in to 1-1/2 in nominal internal diameters;

f) are of not more than 6 ft (1.83 m) nominal length for indoor use;

g) are of not more than 15 ft (4.57 m) nominal length for outdoor use;

h) are equipped with standard taper pipe threads (conforming to the Standard for Pipe Threads, General Purpose (Inch), ASME B1.20.1 or the Standard for Dryseal Pipe Threads (Inch), ASME B1.20.3) on the end fittings attaching to the appliance and to the gas supply piping.

Draft Amendment to C22.1

This International Standard is applicable to devices for surge protection of telecommunications and signalling networks against indirect and direct effects of lighting or other transient overvoltages.

The purpose of these SPDs is to protect modern electronic equipment connected to telecommunications and signalling networks with nominal system voltages up to 1000 (r.m.s) a.c. and 1500 V d.c.

1.1
This Standard applies to grounding and bonding equipment for use in accordance with the Canadian Electrical Code, Part I, CSA C22.1, in Canada, the National Electrical Code, NFPA 70, in the United States,
or the Standard for Electrical Installations, NOM-001-SEDE, in Mexico.

1.2
This Standard applies to the following grounding and bonding equipment:
a) ground clamps, bonding devices, grounding bushings, water-meter shunts, grounding electrodes, and the like used in a grounding system;
b) equipment for making electrical connections between
i) the grounding conductors used in electrical power systems, non-current-carrying metal parts of electrical equipment, armored grounding wires, metal raceways, and the like; and
ii) grounding electrodes;
c) equipment for making electrical connections between
i) the grounding conductors used in telecommunications systems such as telephone, radio, CATV, network power broadband, and the like; and
ii) grounding electrodes;
d) hospital grounding jacks and mating grounding cord assemblies (for Mexico and the United States, see Annex A);
e) bonding devices for making electrical connections between
i) the hex head of a brass fitting used in a piping system in accordance with 250.104 of NFPA 70; and 
ii) the grounding electrodes; and other systems in accordance with NFPA 70.

Notes:
1) In Canada, "hospital grounding jacks" are not defined in CSA C22.1, Canadian Electrical Code, Part I.
2) In Canada, "mating ground cord assemblies" are covered in CSA C22.2 No. 21 and CSA C22.2 No. 42.

Draft Amendment to C22.1