[Federal Register Volume 59, Number 152 (Tuesday, August 9, 1994)]
[Unknown Section]
[Page 0]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 94-19387]


[[Page Unknown]]

[Federal Register: August 9, 1994]


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DEPARTMENT OF LABOR

Occupational Safety and Health Administration
[Docket No. NRTL-2-92]

 

Canadian Standards Association

AGENCY: Occupational Safety and Health Administration, Department of 
Labor.

ACTION: Notice of recognition as a nationally recognized testing 
laboratory.

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SUMMARY: This notice announces the Agency's final decision on the 
Canadian Standards Association's application for its Pointe-Claire 
(Montreal), Richmond (Vancouver), Edmonton, Moncton, and Winnipeg 
facilities for inclusion in the previous recognition of its Rexdale 
facility as a Nationally Recognized Testing Laboratory (NRTL) under 29 
CFR 1910.7.

FOR FURTHER INFORMATION CONTACT:
Office of Variance Determination, NRTL Recognition Program, 
Occupational Safety and Health Administration, U.S. Department of 
Labor, 200 Constitution Avenue NW., Room N3653, Washington, DC 20210.

SUPPLEMENTARY INFORMATION:

Notice of Final Decision

    Notice is hereby given that the Canadian Standards Association 
(CSA), which made application for recognition pursuant to 29 CFR 
1910.7, has been recognized as a Nationally Recognized Testing 
Laboratory for the equipment or material listed below.
    The addresses of the laboratories covered by this recognition are:

Canadian Standards Association, Pointe-Claire (Montreal) Facility, 865 
Ellingham Street, Pointe-Claire (Montreal), Quebec H9R 5E8, Canada
Canadian Standards Association, Richmond (Vancouver) Facility, 13799 
Commerce Parkway, Richmond (Vancouver), British Columbia V6V 2N9, 
Canada
Canadian Standards Association, Edmonton Facility, 1707-94th Street, 
Edmonton, Alberta T6N 1E6, Canada
Canadian Standards Association, Moncton Facility, 40 Rooney Cresent, 
Moncton, New Burnswick E1E 4M3, Canada
Canadian Standards Association, Winnipeg Facility, 50 Paramount Road, 
Winnipeg, Manitoba R2X 2W3, Canada.

Background

    The Canadian Standards Association is an independent organization 
providing integrated services in the fields of standards development 
and conformity assessment. The Certification and Testing Division 
provides conformity assessment programs including laboratory testing, 
certification, inspection and quality management services.
    CSA originated in 1919 as the Canadian Engineering Standards 
Association (CESA), which was changed in 1944 to the present name. In 
1940, CSA began to test and certify products.
    CSA's initial application, dated April 20, 1989 (Ex. 2A), was 
amended by letter dated January 16, 1990 (Ex. 2C) to expand the 
original request for NRTL recognition to test and certify products from 
only two standards to more than 360 acceptable test standards. By 
letter dated December 20, 1991 (Ex. 2M), CSA further amended its 
application for recognition as follows:

1. The scope of this application relating to certification services is 
to be limited to in-house testing, and
2. (a) The initial phase of the recognition is to be limited to the 
Rexdale (Toronto) facility.
    (b) In parallel with the above, proceed with the assessments of the 
remaining CSA facilities.

    An on-site evaluation of the Rexdale facility was conducted from 
November 4 through November 8, 1991, and the results discussed with the 
applicant who responded with appropriate corrective actions and 
clarifications to recommendations made as a result of the survey.
    A notice of CSA's application together with a positive preliminary 
finding was published in the Federal Register on June 3, 1992 (57 
23429-23434), (Ex. 1).
    The notice of CSA's recognition of its Rexdale facility as a 
nationally recognized testing laboratory was published in the Federal 
Register on December 24, 1992 (57 FR 61452-61460), (Ex. 6). This 
recognition was expanded on February 4, 1994 (59 FR 5447).
    On-site evaluations were carried out at the Pointe Claire 
(Montreal) facility on December 14 and 15, 1992, and at the Richmond 
(Vancouver) facility on December 16 and 17, 1992. Evaluations of the 
Moncton, Winnipeg, and Edmonton facilities were based upon response to 
a questionnaire sent to each facility, supportive documentation, and 
video tapes of each site depicting the facility, test equipment, 
typical procedures, files, and staff.
    The final review report and evaluations (Ex. 11) consisting of both 
on-site and other evaluations of the five facilities listed above, 
including administrative and technical practices, and the OSHA staff 
recommendations, were subsequently forwarded to the Assistant Secretary 
for a preliminary finding on the application. A notice of CSA's 
application together with a positive preliminary finding were published 
in the Federal Register on March 3, 1994 (59 FR 10173-10180). 
Interested parties were invited to submit comments.
    There were no responses to the Federal Register notice of the CSA 
application and preliminary finding (Docket No. NRTL-2-92).

Canadian Standards Association Overview

    The Canadian Standards Association is an organization that has six 
main test facilities located in Canada. In addition, CSA either 
maintains test facilities overseas or enters into contract arrangements 
with foreign laboratories and inspection organizations. CSA is a 
standards producing organization that is actively working towards 
harmonizing the Canadian and United States Standards.

Organizational Structure

Facilities

    The Rexdale facility houses the headquarters of the Central 
Operations. The Rexdale Facility contains the corporate headquarters, a 
Standards Division, Finance and Administration Division, and a 
Certification and Testing Division. The laboratory, established in 
1919, has been at this location since 1954. The Central Operations 
includes the Prairie Region (Winnipeg) and the Central Region 
(Rexdale). In addition, the explosion testing laboratory in Ottawa, 
under the Canadian Department of Energy, Mines and Resources, where CSA 
performs explosion testing, is monitored out of the Central Region.
    The Montreal (Pointe-Claire) facility houses the headquarters of 
the Eastern Operations. The Eastern Operations includes the following 
regional operations: Eastern Region (Pointe-Claire), Atlantic Region 
(Moncton), and European Area (Brussels). The Eastern Region and 
Atlantic Region maintain testing and inspection facilities for Eastern 
North America. The European Area maintains a facility in Brussels and 
includes Europe, Africa and the Middle East, and is not covered by this 
recognition. Testing in the European Area is contracted to acceptable 
laboratories in the European community. Certification of products, 
review of the follow-up, and review of the test results are 
accomplished by the CSA Brussels Office.
    The Vancouver (Richmond) facility houses the headquarters of the 
Pacific Rim Operations. The Pacific Rim Operations include the 
following regional operations: the Pacific Region (Richmond), Western 
Region (Edmonton), Japan Operations (Tokyo) and the Hong Kong 
Operations. The Pacific Region and Western Region maintain testing and 
inspection facilities for Western North America. The Japan and Hong 
Kong Operations include CSA testing facilities in Japan, Hong Kong, 
Korea, Taiwan, and either CSA or contracted inspection facilities 
throughout the Pacific Rim countries, and are not covered by this 
recognition.

Quality Assurance

    The Certification and Testing Division's Engineering and Quality 
Assurance (EQA) Office reports to the Vice President in charge of the 
Certification and Testing Division. The Eastern Operations, Central 
Operations, and the Pacific Operations each has a Quality Assurance 
Office, and all of the nine Regional (Area) Offices also have Quality 
Assurance Offices. The Regional Quality Assurance Offices have a 
reporting relationship with the respective Operations Quality Assurance 
Office, and with the EQA.
    Each Regional Quality Assurance Office is responsible for the 
quality assurance at its respective facility. Each Operations Quality 
Assurance Office is responsible for the respective quality assurance at 
its operation and all the regions within its operation. The EQA is 
responsible for the Certification and Testing Division Quality 
Assurance, including all of the operations and regions.

Document Structure

    The Certification & Testing Division's (C&T) Divisional Director of 
Engineering and Quality Assurance (EQA) establishes the quality 
assurance philosophy for the three Operations: the Eastern, Central, 
and Pacific Rim. EQA uses Divisional Quality Documents (DQD) to 
establish Quality Assurance Procedures; Certification and Testing 
Division Operating Procedures (CDOP) and Test Packs to provide 
evaluation procedures for products submitted for testing; Technical 
Information Letters (TIL) to document technical interpretations of 
standards; and Engineering Policy Supplements (EPS) to provide 
policies.

Audit Structure

    The CSA audit structure is multilevel. EQA audits the regions, the 
Operations Quality Assurance Office audits the regions, and each 
Regional Quality Assurance Office performs self audits. In addition, 
such outside agencies as the Standards Council of Canada (SCC) perform 
yearly audits which involve EQA representation during the audit. Thus, 
the Edmonton and Moncton regions were subjected to at least five audits 
since July of 1991, and the Winnipeg region to at least four audits. In 
addition, specific technical audits of each region are performed by the 
senior technical engineer from the operations office.

Requirements of 29 CFR 1910.7

Capability

    Section 1910.7(b)(1) states that for each specified item of 
equipment or material to be listed, labeled or accepted, the laboratory 
must have the capability (including proper testing equipment and 
facilities, trained staff, written testing procedures, and calibration 
and quality control programs) to perform appropriate testing.
    Based upon the on-site review reports and evaluations and the 
products and standards in question, CSA's facilities have adequate 
floor space for testing and evaluation and an adequate number of 
technical and professional personnel to accomplish the services 
required for the present workload in the areas of recognition CSA 
seeks.
    CSA submitted personal resumes and position descriptions for the 
key C&T Division personnel, which include general accountability, 
reporting relationships, specific accountabilities, dimensions, and 
nature and scope. All personnel appear to be suitably educated and 
trained to carry out their assigned duties.
    Test equipment is available to perform testing in accordance with 
the standards. Test equipment not available is purchased as required.
    An inventory list identifies the various pieces of equipment by 
inventory number, instrument name, model and serial number, location in 
laboratory, range, accuracy, and manufacturer. The calibration lab 
maintains a separate equipment inventory list. Operational status and 
calibration information is maintained on instrument history files in 
the calibration laboratory.
    Manufacturer's instructions on use and maintenance of test 
equipment are on file in the calibration laboratory. Instruction 
manuals are available at the appropriate work stations. Test equipment 
subjected to overloading or mishandling, or giving suspect results, is 
returned to the calibration laboratory. Defective equipment is retained 
in the instrumentation repair department. After repairs are completed, 
the instruments are re-calibrated before release. Tests that have been 
performed with defective equipment are reevaluated.
    The manager of service quality has responsibility for the operation 
of the metrology laboratory which includes three full time calibration 
technologists who report, in turn, to a team coordinator.
    All electrical measuring instrumentation is calibrated once per 
year at a minimum. Where equipment manufacturer recommended calibration 
intervals are exceeded, the instrument history records are used to 
determine any necessary reduced calibration intervals. New and repaired 
test equipment is calibrated prior to use. Power supplies, although not 
accurately calibrated, have their output set using calibrated 
equipment. Dated calibration labels are affixed to the instruments to 
indicate the calibration status.
    Calibration and repair records are maintained on the metrology 
laboratory computer database. The data is maintained for the life of 
the equipment. The metrology laboratory computer database generates 
monthly recall lists on instruments due for calibration the following 
month. The team coordinators and quality assurance representatives 
ensure that the instruments are returned for calibration.
    Calibration standards are traceable to the National Research 
Council of Canada (NRCC) or to the National Institute of Standards and 
Technology (NIST).
    Published standards, test procedures, the quality assurance manual, 
divisional quality documents, and divisional operating procedures all 
contain construction or testing parameters to be met by the product 
being evaluated. These documents specify, as required, chronological 
order of evaluation. Experienced and trained personnel are responsible 
for conducting various stages of the investigation. The testing 
personnel are generally technical college graduates.
    At the time of the on-site evaluation, not all requests for testing 
were documented. A directive has been issued requiring the 
documentation in the job files of all requests for tests or evaluations 
that are received from customers.
    The engineering and quality assurance group develops, reviews and 
maintains the divisional quality documents (procedures). Procedures are 
reviewed once per year. Senior staff, audits and investigations staff, 
and engineering and quality assurance representatives are responsible 
for determining if procedures are followed. Work orders are prepared 
for the testing staff which specify the standards and clause numbers to 
be followed.
    A letter is sent to the clients describing the construction or test 
deficiencies encountered during the course of the evaluation. No 
approval is granted until all deficiencies have been resolved.
    The shipping/receiving department applies identification labels 
directly on the test samples to enable identification after they have 
been removed from shipping cartons. Technicians apply further 
identification tags, labels or direct markings to differentiate between 
similar samples or sets of samples.
    Technical policy decisions regarding standards interpretations and 
deviations are developed by a consensus of technical experts. The 
laboratory distributes technical letters describing standards policy 
decisions. The engineering and quality assurance group is responsible 
for the development and issuance of technical policy decisions.
    The tests procedures contain the following: Instructions on 
equipment; preparation of test samples; standard testing techniques; 
references to specific standards including titles and dates; testing 
equipment and accuracies; precautionary statements for operator safety; 
test data to be obtained, measurement resolution and data recording 
time; ambient conditions and adverse environmental conditions; and 
acceptance criteria during tests.
    Test procedures are reviewed and approved by the engineering and 
quality assurance group. The procedures are reviewed once per year.
    Test data sheets and attached work order contain the following: 
standard and clause numbers; product model number; measuring and test 
instruments; test date and file number, signature of tester and 
reviewer; ambient conditions; test observations and deviation; test 
data in the form of compliance, non-compliance, or the need for further 
review. An Engineering Policy has been issued that requires the 
documentation of the rationale for the waiving of any tests specified 
in the applicable standard.
    The Certification and Testing Division maintains a quality 
assurance (QA) system for CSA's world-wide network. The QA Program of 
the Testing Laboratory is registered by Quality Management Institute 
(QMI) to ISO 9003 and Z299.3. The Corporate Engineering and Quality 
Assurance (EQA) Group has the responsibility and authority for 
overseeing all activities related to the Quality Program. The object of 
the QA system is to ensure technical excellence, consistency of 
interpretation and application of standards, consistency of 
implementation of certification programs and procedures, the integrity 
of the CSA Mark, and continuous improvement. In addition, the QA System 
is designed to meet National and International Accreditation Criteria, 
and OSHA has determined that it meets its criteria. The QA System is 
documented as follows:

--``Quality Assurance Policy Manual'' (QAPM). It contains the quality 
policies for the Certification and Testing Division and establishes the 
responsibilities for implementation of these policies.
--``Quality Assurance Manual'' (QAM). These manuals describe in detail 
the system and procedures outlined in the QAPM. They are issued by each 
Operation Unit after approval by EQA.
--``Divisional Quality Documents'' (DQDs). They are issued and 
controlled by Engineering and Quality Assurance (EQA) and consist of 
additional operating procedures and guidelines to be used by operations 
staff.

    OSHA is satisfied that the conditions noted above meet the 
requirements.

Creditable Reports/Complaint Handling

    Section 1910.7(b)(4) provides that an OSHA recognized NRTL must 
maintain effective procedures for producing creditable findings and 
reports that are objective and without bias. The laboratory, in order 
to be recognized, must also maintain effective procedures for handling 
complaints under a fair and reasonable system.
    The Canadian Standards Association maintains effective procedures 
for producing creditable findings or reports that are objective and 
without bias as demonstrated by its application as well as the on-site 
review report.
    CSA has in force an appeals procedure, designed primarily for their 
clients, which consists of a comprehensive system for handling 
complaints and ultimately providing an unbiased review of any 
controversial matter. All complaints and disputes are resolved, 
whenever possible, by those directly involved with the work contested 
or at the level of authority appropriate for the nature of the 
complaint/dispute. If the issue cannot be resolved, there are specific 
steps, including appeals, which may be followed.
    There is also a system in effect enabling any interested party to 
file complaints concerning certification related matters, manufacturing 
related matters, or test standards discrepancies. Upon receipt of a 
complaint from a concerned party, the appropriate CSA section would 
take the matter under advisement to determine what corrective action 
should be taken. All complaints are investigated to determine if and 
what corrective action may be necessary.
    CSA routinely investigates incidents involving CSA marked products. 
This is done with the help of regulatory and law enforcement 
authorities, consumers and manufacturers. The investigations are 
performed by the Special Support Services group. Their mandate is to 
protect the integrity of the Registered CSA Mark. The Special Support 
Services group investigates fires, examines products, does research, 
conducts fact finding studies, analyzes failures and trends and, when 
required, presents evidence in court.
    Permanent records are compiled to document all technical and 
quality related activities of the Certification and Testing Division. 
The system for controlling all technical and quality records is 
described in the Quality Assurance Manuals for each CSA Office.
    The certification reports contain the following: name and location 
of submitter and factory; title, number, and date of standard used for 
evaluation; file number, report date, edition number and revision date; 
description of product including drawings, specifications, and 
photographs; conditions of product use; construction and testing 
narratives which describe how the product(s) comply with the standard; 
tests and results of tests; deviations and technical rationale for 
acceptance.
    The jobholder, or certification engineer, is responsible for the 
preparation and review of the final report. The test report is written 
by the technician. The senior technician also is responsible for 
reviewing and signing the test report before it is reviewed by the 
certification engineer. Certification reports are revised with 
replacement pages. A new report is prepared if extensive changes are 
required. Copies of the certification report are given to the customer, 
jurisdictional authorities, where required, and are placed in follow-up 
inspection files and main certification files.

Type of Testing

    The standard contemplates that testing done by NRTLs fall into one 
of two categories: testing to determine conformance with appropriate 
test standards, or experimental testing where there might not be one 
specific test standard covering the new product or material. CSA has 
applied for recognition in the first category. The test standards 
included in this recognition are the same as those covered in the 
Rexdale (Toronto) recognition. They were found to be appropriate test 
standards during that recognition.

Follow-Up Procedures

    Section 1910.7(b)(2) requires that the NRTL provide certain follow-
up procedures to the extent necessary for the particular equipment or 
material to be listed, labeled, or accepted. These include 
implementation of control procedures for identifying the listed or 
labeled equipment or materials, inspecting the production run at 
factories to assure conformance with test standards, and conducting 
field inspections to monitor and assure the proper use of the label.
    The applicant provides for the implementation of control procedures 
for identifying the listed and labeled equipment or materials, 
inspection of the production run of such items at factories for product 
evaluation purposes to assure conformance with applicable test 
standards, and the conducting of field inspections to monitor and to 
assure the proper use of its identifying mark or labels on products. A 
submitter must enter into a written contract (service agreement) with 
CSA to permit the use of the CSA Mark on the product. This agreement 
clearly specified the submitter's responsibilities and the terms and 
conditions for maintaining certification, such as the right of access 
by CSA inspection staff to listed factories, and notifying CSA when 
changes are made to certified products. These terms and conditions are 
designed to protect the integrity of the CSA Mark, which is also 
registered as a certification mark with the U.S. Patent Office.
    CSA established a comprehensive field service program to ensure 
that manufactured products bearing any CSA Mark continue to meet the 
applicable requirements. The program consists of three elements:

Follow-up Inspections;
Re-examination Testing; and
Field Monitoring.

    Follow-up inspections are conducted at the point of manufacturing 
and labeling to ensure, among other things, that:

--the CSA Mark is applied only to certified products;
--that the terms of the Agreement are met when the CSA Mark is used;
--defects noted during previous inspections have been corrected;
--the manufacturer is aware of any new services and requirements;

    The inspections are unannounced and are based on performing a 
minimum of four inspections per factory per year. The frequency varies 
with production volumes, the types of product and the manufacturer's 
track record.
    When products fail to meet the requirements, Field Service 
Representatives take action to have the manufacturer correct the defect 
immediately, quarantine the stock until the product can be reworked or 
re-evaluated by certification staff, and remove the CSA Mark from the 
product.
    In cases where it is difficult to determine if a product or 
component complies with the requirements strictly by visual 
examination, such products are reexamined and tested on a yearly basis.
    CSA has an independent, special investigation unit, the Audits and 
Investigations Group, to monitor products in the field, investigate 
field complaints, and provide feedback to the standards writing and 
certification process.

Independence

    Section 1910.7(b)(3) requires that an NRTL be completely 
independent of employers subject to the tested equipment requirements 
and of any manufacturer or vendors of equipment or materials being 
tested. The applicant stated in its application that it is in complete 
compliance with this requirement.
    The applicant has demonstrated that it is an independent, not-for-
profit membership association, without share capital, incorporated 
under the laws of Canada in 1919, engaged in developing national 
standards and providing a certification service for manufacturers 
wishing to have their products certified as complying with national 
standards or standards of foreign countries. The applicant further 
demonstrated that the organization has no affiliation with 
manufacturers or suppliers of the products submitted for testing and 
certification. Several documents were submitted as a part of the CSA 
application to address the issue of independence.

Test Standards

    Section 1910.7 requires that an NRTL use ``appropriate test 
standards'', which are defined, in part, to include any standard that 
is currently designated as an ANSI safety designated product standard. 
As to the non-ANSI UL test standards for which CSA has applied to test 
products to, OSHA previously had examined the status of the 
Underwriters Laboratories Inc. (UL) Standards for Safety and, in 
particular, the method of their development, revision and 
implementation, and had determined that they are appropriate test 
standards under the criteria described in 29 CFR 1910.7(c) (1), (2), 
and (3). (See 54 FR 25643, 25645 (6/16/89), ``Dash, Straus and Goodhue, 
Inc.; Recognition as a Nationally Recognized Testing Laboratory''. That 
is, these standards specify the safety requirements for specific 
equipment or classes of equipment and are recognized in the United 
States as safety standards providing adequate levels of safety; they 
are compatible and remain current with periodic revisions of applicable 
national codes and installation standards; and they are developed by a 
standards developing organization under a method providing for input 
and consideration of views of industry groups, experts, users, 
consumers, governmental authorities, and others having broad experience 
in the safety fields involved.
    The laboratory subscribes to the ANSI/UL standards updating 
service. Standards and revisions are distributed to appropriate 
laboratory personnel. Revised or superseded standards are archived.
    All other aspects of the testing and certification process, 
including test and evaluation procedures, test reports, records, 
quality assurance, follow-up listing program, and details concerning 
personnel, are addressed in the On-Site Review Report (Survey), Ex. 
10A(2), as follows, and are found to be acceptable:

Ponte-Claire (Montreal) Facility--Exhibit 10A(2)(A);
Richmond (Vancouver) Facility--Exhibit 10A(2)(B);
Moncton Facility--Exhibit 10A(2)(C);
Winnipeg Facility--Exhibit 10A(2)(D);
Edmonton Facility--Exhibit 10A(2)(E).

Final Decision and Order

    Based upon a preponderance of the evidence resulting from an 
examination of the complete application, the supporting documentation, 
and the OSHA staff finding including the on-site report and 
evaluations, and public comments, OSHA finds that the Canadian 
Standards Association, the Pointe-Claire (Montreal), the Richmond 
(Vancouver), the Edmonton, the Moncton, and the Winnipeg facilities, 
have met the requirements of 29 CFR 1910.7 to be recognized by OSHA as 
a Nationally Recognized Testing Laboratory to test and certify certain 
equipment or materials.
    Pursuant to the authority in 29 CFR 1910.7, the Canadian Standards 
Association, the Pointe-Claire (Montreal) Facility, the Richmond 
(Vancouver) Facility, the Edmonton Facility, the Moncton Facility, and 
the Winnipeg Facility are hereby recognized as a Nationally Recognized 
Testing Laboratory subject to the conditions listed below. This 
recognition is limited to equipment or materials which, under 29 CFR 
Part 1910, require testing, listing, labeling, approval, acceptance, or 
certification, by a Nationally Recognized Testing Laboratory. This 
recognition is limited to the use of the following test standards for 
the testing and certification of equipment or materials included within 
the scope of these standards.
    CSA has stated that all the standards in these categories are used 
to test equipment or materials which may be used in environments under 
OSHA's jurisdiction. These standards are all considered appropriate 
test standards under 29 CFR 1910.7(c):

ANSI Z21.1--Household Cooking Gas Appliances
ANSI Z21.5--Gas Clothes Dryers
ANSI Z21.10--Gas Water Heaters
ANSI Z21.11--Gas-Fired Room Heaters
ANSI Z21.12--Draft Hoods
ANSI Z21.13--Gas-Fired Low-Pressure Steam and Hot Water Heating 
Boilers
ANSI Z21.15--Manually Operated Gas Valves
ANSI Z21.17--Domestic Gas Conversion Burners
ANSI Z21.18--Gas appliance Pressure Regulators
ANSI Z21.20--Automatic Gas Ignition Systems and Components
ANSI Z21.21--Automatic Valves for Gas Appliances
ANSI Z21.23--Gas Appliance Thermostats
ANSI Z21.35--Gas Filters on Appliances
ANSI Z21.40.1--Gas-Fired Absorption Summer Air Conditioning 
Appliances
ANSI Z21.44--Gas-Fired Gravity and Fan Type Direct Vent Wall 
Furnaces
ANSI Z21.47--Gas-Fired Central Furnaces
ANSI Z21.48--Gas-Fired Gravity and Fan Type Floor Furnaces
ANSI Z21.49--Gas-Fired Gravity and Fan Type Vented Wall Furnaces
ANSI Z21.56--Gas-Fired Pool Heaters
ANSI Z21.64--Direct Vent Central Furnaces
ANSI Z83.4--Direct Gas-Fired Make-Up Air Heaters
ANSI Z83.8--Gas Unit Heaters
ANSI Z83.9--Gas-Fired Duct Furnaces
ANSI Z83.11--Gas Food Service Equipment--Ranges and Unit Broilers
ANSI Z83.12--Gas Food Service Equipment--Baking and Roasting Ovens
ANSI Z83.13--Gas Food Service Equipment--Deep Fat Fryers
ANSI Z83.14--Gas Food Service Equipment--Counter Appliances
ANSI Z83.15--Gas Food Service Equipment--Kettles, Steam Cookers, and 
Steam Generators
ANSI Z83.16--Gas-Fired Unvented Commercial and Industrial Heaters
ANSI/ASME B17.5--Elevators and Escalator Electrical Equipment
ANSI/UL 1--Flexible Metal Conduit
ANSI/UL 3--Flexible Nonmetallic Tubing for Electric Wiring
ANSI/UL 4--Armored Cable
ANSI/UL 5--Surface Metal Raceways and Fittings
UL 6--Rigid Metal Conduit
ANSI/UL 20--General-Use Snap Switches
ANSI/UL--Electric Amusement Machines
ANSI/UL 44--Rubber-Insulated Wires and Cables
ANSI/UL 45--Portable Electric Tools
ANSI/UL 48--Electric Signs
ANSI/UL 50--Electrical Cabinets and Boxes
ANSI/UL 51--Power-Operated Pumps for Anhydrous Ammonia and LP-Gas
ANSI/UL 62--Flexible Cord and Fixture Wire
ANSI/UL 65--Electric Wired Cabinets
ANSI/UL 67--Electric Panelboards
ANSI/UL 69--Electric Fence Controllers
ANSI/UL 73--Electric-Motor-Operated Appliances
ANSI/UL 79--Power-Operated Pumps for Petroleum Product Dispensing 
Systems
ANSI/UL 82--Electric Gardening Appliances
ANSI/UL 83--Thermoplastic-Insulated Wires and Cables
ANSI/UL 87--Power-Operated Dispensing Devices for Petroleum Products
ANSI/UL 94--Tests for Flammability of Plastic Materials for Parts in 
Devices and Appliances
ANSI/UL 98--Enclosed and Dead-Front Switches
UL 104--Elevator Door Locking Devices
ANSI/UL 114--Electric Office Appliances and Business Equipment
ANSI/UL 122--Electric Photographic Equipment
ANSI/UL 130--Electric Heating pads
ANSI/UL 133--Wires and Cables With Varnished Cloth Insulation
UL 141--Garment Finishing Appliances
ANSI/UL 150--Antenna Rotators
ANSI/UL 153--Portable Electric Lamps
ANSI/UL 174--Household Electric Storage-Tank Water Heaters
ANSI/UL 183--Manufactures Wiring Systems
ANSI/UL 187--X-Ray Equipment
ANSI/UL 197--Commercial Electric Cooking Appliances
ANSI/UL 198B--Class H Fuses
ANSI/UL 198C--High-Interrupting-Capacity Fuses, Current Limiting 
Type
ANSI/UL 198D--High-Interrupting-Capacity Class K Fuses
ANSI/UL 198E--Class R Fuses
ANSI/UL 198F--Plug Fuses
ANSI/UL 198G--Fuse for Supplementary Overcurrent Protection
ANSI/UL 198H--Class T Fuses
ANSI/UL 198L--DC Fuses for Industrial Use
ANSI/UL 198M--Mine-Duty Fuses
ANSI/UL 207--Nonelectrical Refrigerant Containing Components and 
Accessories
ANSI/UL 209--Cellular Metal Floor Electrical Raceways and Fittings
ANSI/UL 224--Extruded Insulating Tubing
UL 228--Door Closers-Holders, and Integral Smoke Detectors
ANSI/UL 231-Electric Power Outlets
ANSI/UL 224A--Solid-State Controls for Appliances
ANSI/UL 250--Household Refrigerators and Freezers
ANSI/UL 291--Automated Teller Systems
ANSI/UL 294--Access Control System Units
ANSI/UL 296--Oil Burners
ANSI/UL 298--Portable Electric Hand Lamps
ANSI/UL 303--Refrigeration and Air-Conditioning Condensing and 
Compressor Units
ANSI/UL 310--Electrical Quick-Connect Terminals
ANSI/UL 325--Door, Drapery, Gate, Louver, and Window Operators and 
Systems
ANSI/UL 343--Pumps of Oil-Burning Appliances
ANSI/UL 347--High-Voltage Industrial Control Equipment
ANSI/UL 351--Electrical Rosettes
ANSI/UL 353--Limit Controls
ANSI/UL 355--Electric Cord Reels
ANSI/UL 360--Liquid Tight Flexible Steel Conduit
ANSI/UL 372--Primary Safety Controls for Gas- and Oil-Fired 
Appliances
ANSI/UL--Solid-Fuel and Combination-Fuel Control and Supplementary 
Furnaces
ANSI/UL 399--Drinking-Water Coolers
ANSI/UL 412--Refrigeration Unit Coolers
ANSI/UL 414--Electrical Meter Sockets
UL 416--Refrigerated Medical Equipment
ANSI/UL 427--Refrigerating Units
ANSI/UL 429--Electrically Operated Valves
ANSI/UL 430--Electric Waste Disposers
UL 444--Communications Cables
ANSI/UL 448--Pumps for Fire Protection Service
ANSI/UL 452--Antenna Discharge Units
ANSI/UL 464--Audible Signal Appliances
ANSI/UL 465--Central Cooling Air Conditioners
ANSI/UL 466--Electric Scales
ANSI/UL 467--Electrical Grounding and Bonding Equipment
ANSI/UL 469--Musical Instruments and Accessories
ANSI/UL 471--Commercial Refrigerators and Freezers
ANSI/UL 474--Dehumidifiers
ANSI/UL 478--Information-Processing and Business Equipment
ANSI/UL 482--Portable Sun/Heat Lamps
ANSI/UL 484--Room Air Conditioners
ANSI/UL 486A--Wire Connectors and Soldering Lugs for Use With Copper 
Conductors
ANSI/UL 486B--Wire Connectors for Use With Aluminum Conductors
ANSI/UL 486C--Splicing Wire Connectors
ANSI/UL 486D--Insulated Wire Connectors for Use With Underground 
Conductors
ANSI/UL 486E--Equipment Wiring Terminals for Use With Aluminum and/
or Copper Conductors
ANSI/UL 489--Molded-Case Circuit Breakers and Circuit-Breaker 
Enclosures
ANSI/UL 493--Thermoplastic-Insulated Underground Feeder and Branch-
Circuit Cables
ANSI/UL 495--Power-Operated Dispensing Devices for LP-Gas
ANSI/UL 496--Edison-Base Lampholders
ANSI/UL 497--Protectors for Communication Circuits
UL 497A--Secondary Protectors for Communication Circuits
ANSI/UL 497B--Protectors for Data Communication and Fir Alarm 
Circuits
ANSI/UL 498--Attachment Plugs and Receptacles
ANSI/UL 499--Electric Heating Appliances
ANSI/UL 506--Speciality Transformers
ANSI/UL 507--Electric Fans
ANSI/UL 508--Electric Industrial Control Equipment
ANSI/UL 510--Insulating Tape
ANSI/UL 511--Porcelain Electric Cleats, Knobs, and Tubes
ANSI/UL 512--Fuseholders
ANSI/UL 514A--Metallic Outlet Boxes, Electrical
ANSI/UL 514B--Fittings for Conduit and Outlet Boxes
ANSI/UL 514C--Nonmetallic Outlet Boxes, Flush-Device Boxes and 
Covers
ANSI/UL 519--Impedence-Protected Motors
ANSI/UL 541--Refrigerated Vending Machines
ANSI/UL 542--Lampholders, Starters, and Starter Holders for 
Fluorescent Lamps
ANSI/UL 543--Impregnated-Fiber Electrical Conduit
UL 544--Electric Medical and Dental Equipment
ANSI/UL 547--Thermal Protectors for Electric Motors
ANSI/UL 551--Transformer-Type Arc-Welding Machines
ANSI/UL 559--Heat Pumps
ANSI/UL 560--Electric Home-Laundry Equipment
ANSI/UL 561--Floor Finishing Machines
ANSI/UL 563--Ice Makers
ANSI/UL 574--Electric Oil Heater
ANSI/UL 603--Power Supplies for Use With Burglar-Alarm Systems
ANSI/UL 609--Local Burglar-Alarm Units and Systems
ANSI/UL 621--Ice Cream Makers
ANSI/UL 632--Electrically Actuated Transmitters
ANSI/UL 639--Intrusion-Detection Units
ANSI/UL 651--Schedule 40 and 80 Rigid PVC Conduit
ANSI/UL 651A--Type EB and A Rigid PVC Conduit and HDPE Conduit
UL 664--Commercial (Class IV) Electric Dry-Cleaning Machines
ANSI/UL 674--Electric Motors and Generators for Use in Hazardous 
(Classified) Locations
ANSI/UL 676--Underwater Lighting Fixtures
ANSI/UL 680--Emergency Vault Ventilators and Vault Ventilating Parts
ANSI/UL 696--Electric Toys
ANSI/UL 697--Toy Transformers
ANSI/UL 698--Industrial Control Equipment for Use in Hazardous 
(Classified) Locations
ANSI/UL 705--Power Ventilators
UL 710--Grease Extractors for Exhaust Ducts
ANSI/UL 719--Nonmetallic Sheathed Cables
ANSI/UL 726--Oil-Fired Boiler Assemblies
ANSI/UL 727--Oil-Fired Central Furnaces
ANSI/UL 729--Oil-Fired Floor Furnaces
ANSI/UL 730--Oil-Fired Wall Furnaces
ANSI/UL 731--Oil-Fired Unit Heaters
ANSI/UL 732--Oil-Fired Water Heaters
UL 733--Oil-Fired Air Heaters and Direct-Fired Heaters
ANSI/UL 746A--Polymeric Materials--Short Term Property Evaluations
ANSI/UL 746B--Polymeric Materials--Long Term Property Evaluations
ANSI/UL 746C--Polymeric Materials--Use in Electrical Equipment 
Evaluations
ANSI/UL 746E--Polymeric Materials--Industrial Laminates, Filament 
Wound Tubing, Vulcanized Fibre, and Materials Used in Printed Wiring 
Boards
ANSI/UL 749--Household Dishwashers
ANSI/UL 751--Vending Machines
ANSI/UL 756--Coin and Currency Changers and Actuators
UL 763--Motor-Operated Commercial Food Preparing Machines
ANSI/UL 773--Plug-In Locking-Type Photocontrols for Use With Area 
Lighting
ANSI/UL 773A--Nonindustrial Photoelectric Switches for Lighting 
Control
UL 775--Graphis Arts Equipment
ANSI/UL 778--Motor-Operated Water Pumps
ANSI/UL 781--Portable Electric Lighting Units for Use in Hazardous 
(Classified) Locations
ANSI/UL 783--Electric Flashlights and Lanterns for Use in Hazardous 
Locations, Class I, Groups C and D
UL 795--Commercial-Industrial Gas-Heating Equipment
ANSI/UL 796--Printed-Wiring Boards
ANSI/UL 797--Electric Metallic Tubing
UL 810--Capacitors
ANSI/UL 813--Commercial Audio Equipment
ANSI/UL 814--Gas-Tube-Sign and Ignition Cable
ANSI/UL 817--Cord Sets and Power-Supply Cords
ANSI/UL 823--Electric Heaters for Use in Hazardous (Classified) 
Locations
ANSI/UL 826--Household Electric Clocks
ANSI/UL 834--Heating, Water Supply, and Power Boilers--Electric
UL 842--Valves for Flammable Fluids
ANSI/UL 844--Electric Lighting Fixtures for Use in Hazardous 
(Classified) Locations
ANSI/UL 845--Electric Motor Control Centers
ANSI/UL 854--Service Entrance Cable
ANSI/UL 857--Electric Busways and Associated Fittings
ANSI/UL 858--Household Electric Ranges
UL 858A--Safety-Related Solid-State Controls for Electric Ranges
ANSI/UL 859--Personal Grooming Appliance
ANSI/UL 863--Electric Time-Indicating and Recording Appliances
ANSI/UL 867--Electrostatic Air Cleaners
ANSI/UL 869--Electrical Service Equipment
ANSI/UL 869A--Reference Standard for Service Equipment
ANSI/UL 870--Wireways, Auxiliary Gutters, and Associated Fittings
ANSI/UL 873--Electrical Temperature-Indicating and Regulating 
Equipment
ANSI/UL 875--Electric Dry Bath Heaters
ANSI/UL 877--Circuit Breakers and Circuit-Breaker Enclosure for Use 
in Hazardous (Classified) Locations
ANSI/UL 879--Electrode Receptacles for Gas-Tube Signs
ANSI/UL 883--Fan-Coil Units and Room-Fan Heater Units
ANSI/UL 884--Underfloor Electrical Raceways and Fittings
ANSI/UL 886--Electrical Outlet Boxes and Fittings for Use in 
Hazardous (Classified) Locations
ANSI/UL 891--Dead-Front Electrical Switchboards
ANSI/UL 894--Switches for Use in Hazardous (Classified) Locations
UL 896--Oil-Burning Stoves
ANSI/UL 910--Test Method for Fire and Smoke Characteristics of 
Electrical and Optical-Fiber Cables
ANSI/UL 913--Intrinsically Safe Apparatus and Associated Apparatus 
for Use in Class I, II, and III, Division I, Hazardous (Classified) 
Locations
ANSI/UL 916--Energy Management Equipment
ANSI/UL 917--Clock-Operated Switches
ANSI/UL 921--Commercial Electric Dishwashers
ANSI/UL 923--Microwave Cooking Appliances
ANSI/UL 924--Emergency Lighting and Power Equipment
ANSI/UL 935--Fluorscent-Lamp Ballasts
ANSI/UL 943--Ground-Fault Circuit Interrupters
ANSI/UL 961--Hobby and Sports Equipment
ANSI/UL 964--Electrically Heated Bedding
ANSI/UL 969--Marking and Labeling Systems
ANSI/UL 977--Fused Power-Circuit Devices
ANSI/UL 982--Motor-Operated Food Preparing Machines
ANSI/UL 983--Surveillance Cameras
ANSI/UL 984--Hermetric Refrigerant Motor-Compressors
ANSI/UL 987--Stationary and Fixed Electric Tools
UL 991--Tests for Safety-Related Controls Employing Solid-State 
Devices
ANSI/UL 998--Humidifiers
ANSI/UL 1002--Electrically Operated Valve for Use in Hazardous 
(Classified) Locations
ANSI/UL 1004--Electric Motors
ANSI/UL 1005--Electric Flatirons
ANSI/UL 1008--Automatic Transfer Switches
ANSI/UL 1010--Receptacle-Plug Combinations for Use in Hazardous 
(Classified) Locations
ANSI/UL 1012--Power Supplies
ANSI/UL 1017--Electric Vacuum Cleaning Machines and Blower Cleaners
ANSI/UL 1018--Electric Aquarium Equipment
ANSI/UL 1020--Thermal Cutoffs for Use In Electrical Appliances and 
Components
UL 1022--Line Isolated Monitors
ANSI/UL 1025--Electric Air Heaters
ANSI/UL 1026--Electric Household Cooking and Food-Serving Appliances
ANSI/UL 1028--Electric Hair-Clipping and -Shaving Appliances
ANSI/UL 1029--High-Intensity Discharge Lamp Ballasts
ANSI/UL 1030--Sheathed Heater Elements
ANSI/UL 1037--Antitheft Alarms and Devices
ANSI/UL 1042--Electric Baseboard Heating Equipment
UL 1047--Isolated Power Systems Equipment
ANSI/UL 1053--Ground-Fault Sensing and Relaying Equipment
ANSI/UL 1054--Special-Use Switches
UL 1059--Terminal Blocks
ANSI/UL 1063--Machine-Tool Wires and Cables
UL 1066--Low-Voltage AC and DC Power Circuit Breakers Used in 
Enclosures
ANSI/UL 1069--Hospital Signaling and Nurse Call Equipment
ANSI/UL 1072--Medium Voltage Power Cables
ANSI/UL 1076--Proprietary Burglar-Alarm Units and Systems
ANSI/UL 1077--Supplementary Protectors for Use in Electrical 
Equipment
ANSI/UL 1081--Electric Swimming Pool Pumps, Filters and Chlorinators
ANSI/UL 1082--Household Electric Coffee Makers and Brewing-Type 
Appliances
ANSI/UL 1083--Household Electric Skillets and Frying-Type Appliances
ANSI/UL 1086--Household Trash Compactors
ANSI/UL 1087--Molded-Case Switches
ANSI/UL 1088--Temporary Lighting Strings
ANSI/UL 1090--Electric Snow Movers
UL 1092--Process Control Equipment
ANSI/UL 1096--Electric Central Air-Heating Equipment
ANSI/UL 1097--Double Insulation Systems for Use in Electrical 
Equipment
ANSI/UL 1203--Explosion-Proof and Dust-Ignition-Proof Electrical 
Equipment for Use in Hazardous (Classified) Locations
UL 1206--Electric Commercial Clothes-Washing Equipment
ANSI/UL 1207--Sewage Pumps for Use in Hazardous (Classified) 
Locations
ANSI/UL 1230--Amateur Movie Lights
UL 1236--Electric Battery Chargers
ANSI/UL 1238--Control Equipment for Use With Flammable Liquid 
Dispensing Devices
UL 1240--Electric Commercial Clothes-Drying Equipment
ANSI/UL 1241--Junction Boxes for Swimming Pool Lighting Fixtures
ANSI/UL 1242--Intermediate Metal Conduit
UL 1244--Electrical and Electronic Measuring and Testing Equipment
ANSI/UL 1261--Electric Water Heaters for Pools and Tubs
ANSI/UL 1262--Laboratory Equipment
UL 1270--Radio Receivers, Audio Systems, and Accessories
ANSI/UL 1277--Electrical Power and Control Tray Cables With Optional 
Optical-Fiber Members
UL 1278--Movable and Wall- or Ceiling-Hung Electric Room Heaters
ANSI/UL 1283--Electromagnetic-Interference Filter
ANSI/UL 1286--Office Furnishings
ANSI/UL 1310--Direct Plug-In Transformer Units
ANSI/UL 1313--Nonmetallic Safety Cans for Petroleum Products
UL 1323--Scaffold Hoists
ANSI/UL 1409--Low-Voltage Video Products Without Cathode-Ray-Tube 
Displays
ANSI/UL 1410--Television Receivers and High-Voltage Video Products
ANSI/UL 1411--Transformers and Motor Transformers for Use In Audio-, 
Radio-, and Television-Type Appliances
ANSI/UL 1412--Fusing Resistors and Temperature-Limited Resistors for 
Radio- and Television-Type Appliances
ANSI/UL 1413--High-Voltage Components for Television-Type Appliances
ANSI/UL 1414--Across-the-Line, Antenna-Coupling, and Line-by-Pass 
Capacitors for Radio- and Television-Type Appliances
ANSI/UL 1416--Overcurrent and Overtemperature Protectors for Radio- 
and Television-Type Appliances
ANSI/UL 1417--Special Fuses for Radio- and Television-Type 
Appliances
ANSI/UL 1418--Implosion-Protected Cathode-Ray Tubes for Television-
Type Appliances
UL 1419--Professional Video and Audio Equipment
ANSI/UL 1429--Pullout Switches
ANSI/UL 1433--Control Centers for Changing Message Type Electric 
Signs
ANSI/UL 1436--Outlet Circuit Testers and Similar Indicating Devices
UL 1437--Electrical Analog Instruments, Panelboard Types
ANSI/UL 1438--Household Electric Drip-Type Coffee Makers
ANSI/UL 1441--Coated Electrical Sleeving
ANSI/UL 1445--Electric Water Bed Heaters
ANSI/UL 1447--Electric Lawn Mowers
ANSI/UL 1448--Electric Hedge Trimmers
UL 1449--Transient Voltage Surge Suppressors
ANSI/UL 1450--Motor-Operated Air Compressors, Vacuum Pumps and 
Painting Equipment
ANSI/UL 1453--Electric Booster and Commercial Storage Tank Water 
Heaters
UL 1459--Telephone Equipment
UL 1492--Audio and Video Equipment
ANSI/UL 1555--Electric Coin-Operated Clothes-Washing Equipment
ANSI/UL 1556--Electric Coin-Operated Clothes-Drying Equipment
ANSI/UL 1557--Electrically Isolated Semiconductor Devices
UL 1558--Metal-Enclosed Low-Voltage Power Circuit Breaker Switchgear
ANSI/UL 1559--Insect-Control Equipment, Electrocution Type
ANSI/UL 1561--Large General Purpose Transformers
UL 1562--Transformers, Distribution, Dry Type--Over 600 Volts
ANSI/UL 1563--Electric Hot Tubs, Spas, and Associated Equipment
ANSI/UL 1564--Industrial Battery Chargers
ANSI/UL 1565--Wire Positioning Devices
UL 1567--Receptacles and Switches Intended for Use With Aluminum 
Wire
ANSI/UL 1569--Metal-Clad Cables
ANSI/UL 1570--Fluorescent Lighting Fixtures
ANSI/UL 1571--Incandescent Lighting Fixtures
ANSI/UL 1572--High Intensity Discharge Lighting Fixtures
ANSI/UL 1573--Stage and Studio Lighting Units
ANSI/UL 1574--Track Lighting Systems
ANSI/UL 1577--Optical Isolators
ANSI/UL 1581--Reference Standard for Electrical Wires, Cables, and 
Flexible Cords
ANSI/UL 1585--Class 2 and Class 3 Transformers
UL 1594--Sewing and Cutting Machines
UL 1604--Electrical Equipment for Use in Class I and Class II, 
Division 2 and Class III Hazardous (Classified) Locations
ANSI/UL 1610--Central-Station Burglar-Alarm Units
ANSI/UL 1624--Light Industrial and Fixed Electric Tools
ANSI/UL 1635--Digital Burglar Alarm Communicator System Units
ANSI/UL 1638--Visual Signaling Appliances
ANSI/UL 1647--Motor-Operated Massage and Exercise Machines
UL 1660--Liquid-Tight Flexible Nonmetallic Conduit
ANSI/UL 1662--Electric Chain Saws
ANSI/UL 1666--Standard Test for Flame Propagation Height of 
Electrical and Optical-Fiber Cables Installed Vertically in Shafts
UL 1676--Discharge Path Resistors
UL 1681--Wiring Device Configurations
ANSI/UL 1727--Commercial Electric Personal Grooming Appliances
ANSI/UL 1773--Termination Boxes
UL 1778--Uninterruptible Power Supply Equipment
ANSI/UL 1786--Nightlights
UL 1795--Hydromassage Bathtubs
UL 1812--Ducted Heat Recovery Ventilators
UL 1815--Nonducted Heat Recovery Ventilators
UL 1863--Communication Circuit Accessories
ANSI/UL 1876--Isolating Signal and Feedback Transformers for Use in 
Electronic Equipment
UL 1917--Solid-State Fan Speed Controls
UL 1950--Information Technology Equipment Including Electrical 
Business Equipment
UL 1963--Refrigerant Recovery/Recycling Equipment
UL 1995--Heating and Cooling Equipment
UL 2097--Reference Standard for Double Insulation Systems for Use in 
Electronic Equipment.

    The Canadian Standards Association must also abide by the following 
conditions of its recognition, in addition to those already required by 
29 CFR 1910.7:
    This recognition applies to the Canadian Standards Association 
facilities in Canada only. Specifically, CSA's facilities in Pointe-
Claire (Montreal) Richmond (Vancouver), Edmonton, Moncton, and 
Winnipeg;
    Products tested or evaluated at other CSA facilities (or 
independent facilities that may be used by CSA for the purpose of 
testing equipment) must be re-evaluated by a CSA facility recognized as 
an NTRL by OSHA (i.e., the recognized CSA facilities will critically 
review the complete test data package, ensure the data was collected by 
qualified and independent sources, and physically evaluate the 
product's components and construction;
    This recognition also does not apply to any aspect of any Canadian 
Standards Association program which is available only to qualified 
manufacturers and is based upon the NRTL's evaluation and accreditation 
of the manufacturer's quality assurance program;
    The Occupational Safety and Health Administration shall be allowed 
access to CSA's facilities and records for purposes of ascertaining 
continuing compliance with the terms of its recognition and to 
investigate as OSHA deems necessary;
    If CSA has reason to doubt the efficacy of any test standard it is 
using under this program, it shall promptly inform the test standard 
developing organization of this fact and provide that organization with 
appropriate relevant information upon which its concerns are based;
    CSA shall not engage in or permit others to engage in any 
misrepresentation of the scope of conditions of its recognition. As 
part of this condition, CSA agrees that it will allow no representation 
that it is either a recognized or an accredited Nationally Recognized 
Testing Laboratory (NRTL) without clearly indicating the specific 
equipment or material to which this recognition is tied, or that its 
recognition is limited to certain products;
    CSA shall inform OSHA as soon as possible, in writing, of any 
change of ownership, facilities, or key personnel, including details;
    CSA will continue to meet the requirements for recognition in all 
areas where it has been recognized; and
    CSA will always cooperate with OSHA to assure compliance with the 
letter as well as the spirit of its recognition and 29 CFR 1910.7.

Effective Date

    This recognition will become effective on August 9, 1994 and will 
be valid for a period of five years from the date of the recognition of 
the Rexdale (Toronto) facility, that is, until December 24, 1997, 
unless terminated prior to that date, in accordance with 29 CFR 1910.7.
Joseph A. Dear,
Assistant Secretary.
[FR Doc. 94-19387 Filed 8-8-94; 8:45 am]
BILLING CODE 4510-26-M