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Report e_Pc EL e_ozoi l- co y /056 9 u'5 Ave , Gary Noble From: Sledjeski, Cathy [Cathy.Sledjeski @ul.com] Sent: Monday, November 28, 2011 12:48 PM To: Ryan.Cook @ametek.Com; Gary.VanNice @ametek.com Cc: Gary Noble Subject: Preliminary Findings Report for Field Evaluation conducted at Technical Services for Electronics Inc, Project No. 11CA58136 Attachments: Technical Services for Electronics 11CA58136 PFR.pdf Dear Mr. Cook and Mr. Van Nice, ' Attached is the Field Evaluation Report for the equipment that was located at Technical Services for Electronics Inc. If you have any problems accessing the report, feel free to contact me at the number below. Cathy Sledjeski Administrative Specialist Underwriters Laboratories, Inc. T: 813- 253 -9489 F: 847 - 513 -7623 W: ul.com This e -mail may contain privileged or confidential information. If you are not the intended recipient: (1) you may not disclose, use, distribute, copy or rely upon this message or attachment(s); and (2) please notify the sender by reply e- mail, and then delete this message and its attachment(s). Underwriters Laboratories Inc. and its affiliates disclaim all liability for any errors, omissions, corruption or virus in this message or any attachments. 0 the standard in safety Underwriters Laboratories November 28, 2011 Technical Services For Electronics Inc 108 5th Ave Nw Po Box 616 Arlington, MN 55307 Attention: Mr. Ryan Cook Our Reference: FE7738, 2011 - 3717 -FE, 11CA58136 Subject: Field Evaluation of Fine Line Wire Twisting Machine Dear Mr. Cook: On 11/17/2011, UL completed a preliminary evaluation of the above subject equipment. It was determined that one or more products evaluated do not comply with the applicable requirements and Field Evaluated Product Mark(s) were not applied to the equipment. Please find attached a copy of the Preliminary Findings Report(s). All reports should be reviewed to verify that the information is complete and correct. Each report details our evaluation findings and lists the non - conforming items. To be eligible for a Field Evaluated Product Mark, all items listed in the reports require corrective actions that render the product compliant. A UL representative must verify all corrective actions before a mark may be applied to the equipment. Please contact our field evaluation coordinators when the corrective actions have been completed to schedule a return visit. Our coordinators may be reached at 877 -UL -HELPS (877- 854 - 3577), Ext. 2 or email: fieldevaluationsCa�us.ul.com Please include our references above to the subject line of email correspondence. If you should have questions regarding this report, please contact me as noted below. Kind regards, Cathy Sledjeski Administrative Specialist I Field Engineering Services Direct Line: 813- 253 -9489 Email: Cathy.Sledjeski @ul.com CC: Mr. Gary Noble - Sr. Electrical Inspector, City of Tigard Underw15ters !, aboratones Inc. 2600 M.W. lake Road. Camas. WA 98601•8542 USA I:. 36©.81'/.55001 f 360.81/ 6000 i Vt ulcom 0 the standard in safety Underwriters Laboratories Field Evaluation Services Preliminary Findings Report For Double Twisted Bunching Pitch Machine HST -200P Requested by: Technical Services For Electronics Inc 108 5th Ave Northwest P.O. Box 616 Arlington, MN 55307 Installation Site and Authority Having Jurisdiction Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon 97223 City of Tigard, Tigard, Oregon 97223 Evaluation Number: 2011 - 3717 -FE File Number: FE7738 Report by: 9 __ Reviewed by:. -1 >/. Joseph C. Butler Robert M. Starasinich Underwriters l.ahGrak rie. a ltc. 2600 N.W. Lake Road. Camas, WA 88607-8542 USA Report Date: November 23, 2011 1:: 360,817.55001 / F:: 360.8116000 / W:: ui.cem Table of Contents 1 Executive Summary 3 2 Conditions of Acceptability 3 3 Referenced Standards 4 4 Product Description 4 4.1 Nameplate Data 5 5 Evaluation Discrepancies 5 5.1 POWER PLUG AND CORD DEVICES' 5 5.2 ENTRY DOOR TO HIGH SPEED DEVICES: 6 5.3 POWER SUPPLY 6 5.4 SEPARATION OF CIRCUITS: 7 5.5 WIRING CONDUCTORS DO NOT COMPLY FOR MACHINERY: 8 5.6 MAIN BRANCH CIRCUIT PROTECTION' 9 5.7 MOTOR OVERLOAD PROTECTION: 10 5.8 INSUFFICIENT NAMEPLATE 11 5.9 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: 12 5.10 ENCLOSURE FAN WIRE SPLICE 12 5.11 LEGEND MARK MISSING: 12 5.12 WARNING MARKS MISSING OR NOT IN ENGLISH: 13 5.13 GROUNDS AND GROUND MARKINGS: 13 6 Evaluation Details 14 6.1 Critical Components 14 6.2 Drawings and Instructions 14 6.3 General Operating Conditions 14 6.4 Grounding and Bonding 14 6.5 Guarding of Live Parts 15 6.6 Markings 15 6.7 Means of Disconnect 15 6.8 Mechanical Protection 16 6.9 Mounting of Components 16 6.10 Overcurrent Protection 16 6.11 Protection from Electric Shock 16 6.12 Suitability for Installation 17 6.13 Supply Conductors and Disconnect 17 6.14 Wiring and Wiring Methods 17 7 Test Results 18 8 Photographs 19 2011 - 3717 -FE Field Evaluation Services Report Page 2 of 20 1 Executive Summary Federal OSHA requirements mandate that all electrical equipment in the workplace be "certified" or subjected to a complete and thorough evaluation before use (29 CFR 1910.303 and 1910.399). Many state, county and city electrical jurisdictions have similar requirements. A UL Field Evaluation is an accepted approach to meet this requirement; UL conducts an unbiased, independent assessment of products at a specific location to essential requirements of applicable product safety standard(s). UL's engineering assessment informs regulating authorities who make product and related installation approval decisions. Please note that the regulating authority for the final installation site provides final approval of this equipment and the installation. This project's purpose was to evaluate a product that was not Listed or otherwise certified by a testing laboratory recognized by the authority having jurisdiction. Products undergoing this evaluation process do not acquire a UL Listing, UL Recognition, or UL Classification. UL has not established factory Follow -Up Services to determine the conformance of any subsequently produced, relocated, or otherwise altered product(s) or system(s). Installation model codes are referenced in this document where necessary to ensure the product can be properly installed according to the code (e.g. National Electrical Code, NFPA 70). At the request of Mr. Gary VanNice of Technical Services For Electronics Inc, a Field Evaluation project was initiated. A Preliminary evaluation was completed at: • Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon. The results of the preliminary evaluation identified items that do not comply with applicable standard(s) and require corrective action as detailed in this report. When these discrepancies are corrected, a final inspection is required to verify that changes have rendered the equipment compliant and complete the Field Evaluation. 2 Conditions of Acceptability Except where otherwise stated in the product description and evaluation sections of this report, this evaluation and the application of the Field Evaluated Product Mark is subject to the following Conditions of Acceptability. 2.1 Except for like- for -like component replacement in the event of component failure, no change or addition to the product or system shall be made that would alter its construction, operation, function, layout, source of supply, physical location or operating environment. If such changes or additions to the product occur, the Field Evaluated Product Mark shall be considered invalid, and a separate evaluation shall be required to determine compliance with applicable product safety standards under the changed conditions. 2.2 The completed evaluation and application of the UL Field Evaluated Product Mark by UL does not assume liability on the part of UL and does not relieve the manufacturer, installer, user, or other relevant parties of their responsibilities. The product evaluation is based on adherence to sound engineering practices, and compliance with the applicable product safety standards and installation code. 2011 - 3717 -FE Field Evaluation Services Report Page 3 of 20 2.3 This evaluation considered the risks associated with electric shock, fire, and casualty hazards as specified in the evaluation section of the report only. No other hazards were evaluated during this evaluation. 2.4 Unless otherwise stated in the product description, this product was evaluated for installation in an indoor, dry, normal environment only. The product was not evaluated for installation in any hazardous classified location as defined in the latest edition National Electrical Code as adopted by the National Fire Protection Association. The product was not evaluated for installation in an environment subject to rainfall, water spray, steam, or exposure to any corrosive chemicals that deteriorate the enclosure or components. 2.5 The UL Field Evaluated Product Mark shall not be considered as equivalent to the UL Listing Mark, UL Recognized Component Mark, or UL Classified Product Mark. The UL Field Evaluated Product Mark indicates compliance with the applicable parts of the Standards referenced in Section 3 at the time the Mark was applied, and considering only the final installation site. The applicable parts included in the evaluation are the construction review, markings, and those testing protocols that are non - destructive. 3 Referenced Standards • NFPA 70, National Electrical Code, 1st Edition, Revised 10/19/2011 • NFPA 79, Electrical Standard For Industrial Machinery, 1st Edition • UL 508A, Standard For Industrial Control Panels, 1st Edition, Revised 02/04/2010 • UL Subject 2011, Outline of Investigation for Factory Automation Equipment, 2nd edition, 12/27/06 4 Product Description Equipment Name: Double Twisted Bunching Pitch Machine HST -200P — { .,. 4 a'' •' Machine front view Machine back view Description: This evaluation was for a Double Twist Bunching Pitch machine. This manufacuters precision electrical cabling for use with medical equipment. Multiple fine conductor wire, as small as 56 AWG, is fed into one side of this machine then the multiple conductors are twisted together to form a fine stranded cable giving the fine conductors strangth but in the smallest diameter possible to enter small organs within the human body for medical 2011 - 3717 -FE Field Evaluation Services Report Page 4 of 20 surgery for an example. The machine is a single motor attached to the twisting device that rotates at very high revolutions. Manufacturer: Dongguan Wangshi Electrical Equipment and Material Co Ltd Model number: HST -200P Serial number: 1 4.1 Nameplate Data Electrical Ratings Volts 380 Vac Amps 10 A Phase 3 Wire 3 + ground Frequency 60 Hz Additional Rating single motor 5.5 hp 5 Evaluation Discrepancies This section details the non - compliant findings of the preliminary evaluation. Unless corrective actions are described, a final evaluation is necessary to complete all remaining tests and verify that changes have rendered the equipment compliant. 5.1 POWER PLUG AND CORD DEVICES: Reference: NFPA 79, 1st Edition, Section 13.4.5 and 16.2.5 13.4.5 - Attachment plug and receptacle (plug /socket) combinations shall be listed for the intended use and shall be of the locking type where rated greater than 20 amperes. Where used on circuits of more than 300 volts to ground or 300 volts phase -to- phase, they shall be skirted and constructed to contain any arc generated when a connection is made or broken. 16.2.5 - Where an attachment plug is used as the disconnecting means, a safety sign shall be attached to the control enclosure door or cover indicating that power shall be disconnected from the equipment before the enclosure is opened. Discrepancy: The machine is intended to be connected to power by plug and cord connection but only the cord was available at time of this evaluation. An assumption is made that this plug connection will be used for the main power disconnecting means. Action Required: When installing the power plug to the machine's power cord insure it complies with the above paragraph, is appropriately sized and rated for the circuit. Also apply the above mentioned markings at the machine's electrical enclosure door. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 5 of 20 5.2 ENTRY DOOR TO HIGH SPEED DEVICES: Reference: UL Subject 2011, Issue no. 2 5.1 To reduce the risk of unintentional contact with a live or moving part, factory automation equipment shall be provided with appropriate mechanical barriers or curtains except as indicated in 5.4. See 5.2. Exception: It is not necessary to provide a barrier or curtain on locations of factory automation equipment marked in accordance with the Standard for Industrial Control Equipment, UL 508, to warn of the risk of injury or shock related to unintentional contact with a live or moving part. 5.2 With regard to 5.1, the factors to be considered in determining whether a barrier, curtain, or marking is appropriate to address a particular risk of injury or shock include: a) The electrical levels of the live part; b) The sharpness and speed of the moving part; and c) The likelihood of unintentional contact. Discrepancy: The main entry door to the high speed rotary devices within the machine is not marked appropriately in English. This door, if opened while machine is operating has dangerous high speed rotating devices that are not guarded from contact and may cause injury. Action Required: Apply appropriate labeling and Warning marks to this door to warn personnel of the dangers of opening this door without disconnecting power at the disconnecting means. Corrective Action: Not Verified 5.3 POWER SUPPLY: Reference: UL 508A, 1st Edition, Section 42.2.3.1 A power supply or bridge rectifier shall be loaded at not more than 50 percent of the ampere rating of the device. Where the power supply has multiple secondaries, each secondary shall be loaded at not more than 50 percent of the secondary ampere rating. 1 Exception: An enclosed power supply having provisions for connection to conduit is able to be used for loading to 100 percent of the ampere rating of the power supply. 2 Exception: A power supply that complies with the Temperature Test in the Standard for Industrial Control Equipment, UL 508, is able to be used for loading to 100 percent of the ampere rating of the power supply. Discrepancy: There are two power supplies without appropriate markings with no circuit protections on the primary or secondary circuits, and are not recognized or Listed. Action Required: Install appropriately sized circuit protections to the primary and secondary circuits to and from the power supplies at 50% current ratings, as mentioned above. 2011 - 3717 -FE Field Evaluation Services Report Page 6 of 20 Corrective Action: Not Verified 5.4 SEPARATION OF CIRCUITS: Reference: UL 508A, 1st Edition, Section 29.5.1 and 29.5.2 29.5.1 - A factory- installed conductor shall be separated by a barrier or by additional insulation complying with 29.2.3, or shall be segregated as specified in 29.5.2 from: a) A factory- installed conductor used in a different circuit unless the conductors of both circuits are insulated for the maximum voltage of either circuit; and b) An uninsulated live part connected to a different circuit. 29.2.3 - Additional insulation, when used, shall be rated 90degC (194degF) minimum and shall be one of the following: a) Insulating sleeving that complies with the Standard for Coated Electrical Sleeving, UL 1441; b) Insulating tubing that complies with the Standard for Extruded Insulating Tubing, UL 224; or c) A wrapping of not less than two layers of insulating tape that complies with the Standard for Polyvinyl Chloride, Polyethylene, and Rubber Insulating Tape, UL 510. Exception: Additional insulation used only for physical protection of the wire and not to comply with 29.4.4(a) is not required to comply with this requirement. 29.5.2 - Segregation of a conductor shall be accomplished by clamping, routing, or equivalent means that provides permanent separation from a conductor or an uninsulated live part of a different circuit. Discrepancy: There is Class 1 and Class 2 wiring routed together with different voltage insulation temperature ratings. This may cause an electrical shock and fire hazard within the enclosure. Action Required: Insulate by one of the means above or separate by barriers all Class 1 from Class 2 wiring within enclosure and machine areas. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 7 of 20 5.5 WIRING CONDUCTORS DO NOT COMPLY FOR MACHINERY: Reference: UL 508A and NFPA 79, 1st/1st Edition, Section 29.6.1 and 66.5.3/12.4.1, 12.4.2, and 12.3.1 UL 508A: 29.6.1 - Internal wiring of a power circuit shall not be smaller than 14 AWG (2.1 mm2) and shall be determined by: a) Calculating the required ampacity by adding the full -load current ratings of all external loads being carried by the conductor based on the marked load ratings of the industrial control panel. For motor loads rated in horsepower, the equivalent full -load ampere rating shall be determined from Table 50.1 or Table 50.2; and b) Determining the minimum internal wiring conductor size from Table 28.1, having a corresponding ampacity not less than the required ampacity from (a). Exception: Lead wires integral to a component, such as a transformer, are not required to comply with this requirement. 66.5.3 - The following color coding shall be used throughout the panel: a) Black - all ungrounded power circuit conductors regardless of voltage; and b) White or gray or three continuous white stripes on other than green, blue, orange or yellow - grounded ac current - carrying power circuit conductor regardless of voltage. Exception: Insulated conductors sized 4 AWG (21.2 mm2) or larger and having insulation colored other than as in 17.4 shall be identified at each termination point by a white marking, such as tape wrapped around the conductor. NFPA 79: 12.4.1 - A durable legend printed on the outer surface of the insulation of construction A, on the outer surface of the nylon jacket of construction B, on the outer surface of the insulation under the jacket of construction B (only if readable through the nylon), or on the outer surface of the jacket of a multiconductor cable shall be repeated at intervals of no more than 610 mm (24 in.) throughout the length of the single conductor or the multiconductor cable. Exception: Sizes smaller than 16AWG shall be permitted to be marked on the reel or on the smallest unit of the shipping carton. 12.4.2 - The legend shall include the manufacturer's name or trademark, the wire type, voltage rating, and gauge or size. 12.3.1 - The insulation and the finished wires and cables shall have flame - retardant properties and temperature limits and characteristics as follows: (1) MTW— Moisture -, Heat -, and Oil- Resistant Thermoplastic 60 °C (140 °F) Wet Locations 90 °C (194 °F) Dry Locations (2) THHN — Heat - Resistant Thermoplastic 90 °C (194 °F) Dry Locations (3) THW— Moisture- and Heat - Resistant Thermoplastic 75 °C (167 °F) Dry and Wet Locations (4) THWN — Moisture- and Heat - Resistant Thermoplastic 75 °C (167 °F) Dry and Wet Locations (5) RHH — Thermoset 90 °C (194 °F) Dry Locations (6) RHW— Moisture- Resistant Thermoset 75 °C (167 °F) Dry and Wet Locations 2011 - 3717 -FE Field Evaluation Services Report Page 8 of 20 (7) RHW -2 — Moisture - Resistant Thermoset 90 °C (194 °F) Dry and Wet Locations (8) XHHW— Moisture- Resistant Thermoset 75 °C (167 °F) Wet Locations 90 °C (194 °F) Dry Locations (9) XHHW -2 — Moisture - Resistant Thermoset 90 °C (194 °F) Dry and Wet Locations Discrepancy: All the internal machine wiring does not have markings or ratings and is noncompliant. Without the appropriate markings and ratings, it cannot be determined if the wiring is appropriately AWG sized, rated for insulation and jacket thickness, conductor material, physical properties and flame resistance. This wiring may cause an electrical shock and fire hazard. Action Required: Option 1 - Provide UL for testing a minimum length of 6 foot sample, can be provided in three 2 foot lengths for each size and color difference. Option 2 - Replace all unidentified and unmarked wiring with appropriately sized and type noted above in 12.3.1. Corrective Action: Not Verified 5.6 MAIN BRANCH CIRCUIT PROTECTION: Reference: UL 508A, 1st Edition, Section 31.2.1, 31.1.1 and 66.7.4 31.2.1 - A branch circuit protective device shall be installed in each ungrounded conductor to the load(s) involved. 1 Exception: An industrial control panel that is intended to be installed on the load side of branch circuit protection provided in the field and marked in accordance with 60.1 is not required to comply with this requirement. 2 Exception: Branch circuit fuses are not required to be provided in a branch circuit fuseholder having a pole for each ungrounded conductor where the fuseholder is sized to accept the branch circuit fuse required in 31.3 - 31.8. 31.1.1 - An inverse -time or instantaneous -trip circuit breaker shall comply with the requirements in the Standard for Molded -Case Circuit Breakers, Molded - Case Switches, and Circuit - Breaker Enclosures, UL 489. An instantaneous -trip circuit breaker, in combination with the motor controller and motor overload device, shall additionally comply with the requirements for combination motor controllers in the Standard for Industrial Control Equipment, UL 508. 66,7.4 - The main overcurrent protection shall be sized based on the sum of: a) The largest ampere rating of branch circuit protective devices in the panel; b) 125 percent of all heater loads; c) 125 percent of the largest motor load; and d) The full -load currents of all remaining motors and other loads that is simultaneously operable. 1 Exception: When branch circuit protection is not provided within the panel, the main overcurrent protection shall comply with Section 31, Branch Circuit Protection, for single motor or heater loads or for a group of loads. 2011 - 3717 -FE Field Evaluation Services Report Page 9 of 20 2 Exception: Where internal conductors are sized based on the exception to 66.5.6, the ampere rating of the main overcurrent protective devices shall not exceed the conductor ampacity in Table 28.1. Discrepancy: The circuit breaker provided is not recognized by any NRTL, Nationally Recognized Testing Laboratory and is not branch rated. This device may cause an electrical shock and fire hazard. Action Required: Replace with a Listed Molded -Case Circuit Breaker rated for branch circuit protection or Listed and branch rated fusing with appropriate fuseholders. Corrective Action: Not Verified 5.7 MOTOR OVERLOAD PROTECTION: Reference: UL 508A, 1st Edition, Section 34.1.1, 34.1.2, 34.3.1 and 34.3.4 34.1.2 - Power conversion equipment that includes a solid -state motor overload protection function shall comply with the Standard for Power Conversion Equipment, UL 508C. Instructions provided with the power conversion equipment shall indicate the adjustable range and means for adjustment. Instructions provided with power conversion equipment that is not provided with a motor overload function or where the motor overload function has not been evaluated shall indicate that a separate overload device is required, as specified in 34.1.1, 34.1.3, or 34.3.4. 34.1.1 - An overload relay, including a mechanically- or electrically- operated type, a manual motor starter and an overload unit of a self - protected combination motor controller shall comply with the requirements in the Standard for Industrial Control Equipment, UL 508. 34.3.1 - Motor overload protection shall be provided for each individual motor circuit. 1 Exception: Branch circuit protection complying with 34.3.4 is not required to comply with this requirement. 2 Exception: A panel having a field wiring diagram marked in accordance with 60.1 to indicate that required protection is to be provided in the field is not required to comply with this requirement. 34.3.4 - Branch circuit protection complying with 34.3.2 and sized with not more than 115 percent of the motor full -load current rating provides required motor overload protection as well as required branch circuit protection. A marking shall be located next to the fuseholder in accordance with 56.1. Discrepancy: The Variable Frequency Drive component made by TECO Speedcon, powering the main drive motor is not recognized nor Listed by an NRTL and is noncompliant to UL standard 508 for overload protection as mentioned in the above paragraphs. Action Required: Install branch rated protections to the primary and secondary circuits of the VFD, and sized appropriately for the motor overload protection. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 10 of 20 5.8 INSUFFICIENT NAMEPLATE: Reference: UL 508A, 1st Edition, Section 52.1, 49.1, 49.2, 49.5 and 67.1.2 52.1 - An industrial control panel shall be provided with a nameplate marking that includes the following: a) Manufacturer's name or authorized designation; b) Complete electrical rating of each source of supply as specified in 49.1; c) Field wiring diagram number when required load ratings from 52.2 or field wiring information of 54.1 - 54.9, 60.1, or 60.2 is included only on the diagram; and d) Factory identification as specified in 52.5. e) Enclosure Type rating (for enclosed panels only) as specified in 53.1. 49.1 - The input terminals intended to be connected to each source of supply shall be rated in volts, total full -load amperes, ampere or horsepower rating of the largest motor (when multiple loads are controlled), number of phases when other than single phase, and the frequency. 49.2 - The full -load ampere rating of the panel shall, at a minimum, include the sum of the ampere ratings of all loads that are able to be operated simultaneously plus the primary ampere rating of all control transformers connected to the input voltage. 52.1 - Each set of input terminals in 49.1 supplying a power circuit shall have a short circuit current rating. The short circuit current rating shall be determined based upon the requirements in Supplement SB. 67.1.2 - When provided with main overcurrent protection, the nameplate shall include "short circuit current rating of the protective device" in amperes. Discrepancy: The manufacturer's nameplate was insufficient and does not include the required information mentioned in the above paragraphing. Action Required: Provide the appropriate information and ratings then apply to the machine, visible and with permanent markings for the work environment. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 11 of 20 5.9 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: Reference: UL 508A, 1st Edition, Section 61.1 An industrial control panel shall be provided with a complete electrical schematic wiring diagram including all components provided by the manufacturer. Field installed components shown on the schematic wiring diagram shall comply with 60.3. Discrepancy: The machine did not have the appropriate electrical schematic wiring diagrams available during this evaluation. Action Required: Provide a copy of the schematic wiring diagrams for further evaluation. Corrective Action: Not Verified 5.10 ENCLOSURE FAN WIRE SPLICE: Reference: UL 508A, 1st Edition, Section 66.5.8 Conductors and cable shall be run without splices from terminal to terminal. Discrepancy: The enclosure fan is spliced and has come loose at one of the splice connections. This incorrect splicing method will cause an electrical shock and fire hazard. Action Required: Install terminal connections close enough to make a terminal to terminal connection to the enclosure fan. Corrective Action: Not Verified 5.11 LEGEND MARK MISSING: Reference: UL 508A, 1st Edition, Section 67.2.1 Each control device shall be identified as to its function by a legend plate placed next to the device. Discrepancy: There is a black rotary type knob located on the outside and right of the electrical enclosure door that is not identified by a legend marking. Active Required: Identify the knob and apply an appropriate legend marking identifying its purpose. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 12 of 20 5.12 WARNING MARKS MISSING OR NOT IN ENGLISH: Reference: UL 508A, 1st Edition, Section 67.4.1 An enclosure that does not clearly contain electrical parts shall be marked, "CAUTION - High Voltage - _V ", or with a black lightning flash on a yellow background within a black triangle as in Figure 67.1, or an equivalent marking. Exception: Equipment provided with external electrical devices such as disconnect handles and operator controls are not required to comply with this requirement. Discrepancy: The enclosures that are housing electrical devices and components do not have the appropriate WARNING marks as mentioned above. Action Required: Apply to the outside of enclosure doors and covers housing high voltage devices and components with the described marking above. Corrective Action: Not Verified 5.13 GROUNDS AND GROUND MARKINGS: Reference: NFPA 79, 1st Edition, Section 8.2.1.2, 8.2.1.3.1, and 8.2.1.3.4 8.2.1.2 - The machine and all exposed, noncurrent carrying conductive parts, material, and equipment likely to be energized shall be effectively grounded. Where electrical devices are mounted on metal mounting panels that are located within nonmetallic enclosures, the metal mounting panels shall be effectively grounded. Where specified by the manufacturer, components and subassemblies shall be bonded to the equipment grounding (protective bonding) circuit in accordance with the manufacturer's instructions. 8.2.1.3.1 - For each incoming supply circuit, an equipment grounding (protective) conductor terminal shall be provided in the vicinity of the associated phase conductor terminals. 8.2.1.3.4 - The equipment grounding (protective) conductor terminal shall be identified with the word "GROUND," the letters "GND" or "GRD," the letter "G," the color GREEN, or the symbol in Figure 8.2.1.3.4. In addition to the required marking, the letters PE shall also be permitted to identify this terminal. Discrepancy: There is no grounding of panel or electrical equipment to earth ground. Action Required: Provide grounding terminal connections to panel with markings. Then install the appropriate equipment grounding connections to electrical components requiring bonding to grounds. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 13 of 20 6 Evaluation Details The following specific areas were evaluated using the methods described. All items comply with the applicable parts of standard(s) referenced in Section 3.0, unless stated otherwise in Section 5.0 of this report. Additional characteristics and features unique to the product were further addressed as deemed necessary considering the final installation site, or as required by the applicable product safety standard(s). 6.1 Critical Components Method: The following critical components were inspected for evidence of Listing or Recognition according to UL policies: - Circuit Breakers / Fuses - Enclosures - Motor Overload Devices - Motors - Power Disconnecting Devices - Relays - Switches and Controllers - Terminal Blocks - Transformers and Power Supplies - Wire and Cables Results: The critical components are Listed or Recognized by a testing laboratory acceptable to UL according to UL policies. 6.2 Drawings and Instructions Method: The information necessary for safe installation, operation and maintenance of the equipment is reviewed for completeness and accuracy. The review may include drawings, diagrams, charts and /or tables based upon the complexity of the equipment and the service environment. Results: User and maintenance manuals, electrical /mechanical schematics, bills of materials, parts lists and /or programming instructions are provided as appropriate. 6.3 General Operating Conditions Method: The design, assembly and installation of the equipment are examined for suitability with the environment, electrical supply and operating conditions of the installation site. Results: The general operating conditions are acceptable for the design and use of the equipment as required by standards referenced in Section 3.0. 6.4 Grounding and Bonding Method: All accessible metal parts are verified (visually and /or by test) to be bonded together and to be connected to the supply equipment grounding conductor. Where applicable, a bonding continuity test is conducted and the results recorded. Results: The product is grounded and bonded according to applicable standards referenced in Section 3.0 and Article 250 of the NEC. The product has an identified terminal to connect the supply equipment grounding conductor or a suitable cord with an integral equipment grounding conductor. 2011 - 3717 -FE Field Evaluation Services Report Page 14 of 20 6.5 Guarding of Live Parts Method: The product is visually inspected to ensure that all components were housed in a suitable enclosure and made effectively inaccessible to unauthorized persons. An articulated finger probe is used to measure access where necessary. Vent openings are verified not to align with potential discharge paths of gases expelled from circuit breakers when clearing fault conditions. Results: Enclosures prevent contact with moving parts, electrically energized parts and hot parts. Enclosures provide an acceptable degree of protection for internal components (according to the product's installation environment). All electrically live parts external to the enclosure are guarded as required by the applicable standards. No electrically hazardous energized parts are accessible from the exterior of the ultimate enclosure as required by Section 110.27 of the NEC. 6.6 Markings Method: The product nameplate is inspected for all required information. The content, placement and format of hazard - warning labels, fuse replacement markings, environmental limitations and installation type markings are also verified. Results: The product bears the required markings according to the applicable standard(s). Additional markings are identified for the installation site, as the working environment requires. 6.6.1 Hazard Warning Labels Applicable hazard warning markings that identify known hazards are located on or within the product. 6.6.2 Fuse Replacement Fuse replacement markings are provided and installed at all fuse locations or on a permanent chart suitable for the intended environment. 6.6.3 Unit Nameplate The product bears a permanent nameplate, suitable for the intended installation environment and with all the applicable information. The nameplate is visible or accessible after installation or located for access according to the provisions in the referenced standard(s). 6.7 Means of Disconnect Method: Disconnecting means shall be located within sight from and readily accessible from the equipment. The disconnecting means shall be permitted to be installed on or within equipment, but shall not be located on panels that are designed to allow access to the equipment or to obscure the equipment nameplate(s). The disconnecting means shall open all ungrounded supply conductors and shall be designed so that no pole can be operated independently. The device shall be designed so that it cannot be closed automatically. Results: The disconnect is within sight, readily accessible and is installed and operates as required. 2011 - 3717 -FE Field Evaluation Services Report Page 15 of 20 6.8 Mechanical Protection Method: Moving parts, such as rotors of motors, chains, pulleys, belts and gears are evaluated for risk of injury to persons. The degree of protection required depends upon the general design and intended use of the product. The factors considered in judging the acceptability of exposed moving parts are: a) The degree of exposure, b) The sharpness of the moving parts, c) The likelihood of unintentional contact with the moving parts, d) The speed of movement of those parts, and e) The likelihood of fingers, arms or clothing being drawn into the moving parts, such as at points where gears mesh, where belts travel onto a pulley or where moving parts close in a pinching or shearing action. Results: Exposed moving parts are enclosed or guarded to reduce the risk of injury to persons. 6.9 Mounting of Components Method: Components that support live parts and uninsulated current carrying parts are secured to prevent them from turning or shifting in position if such motion may result in a reduction of spacings below the minimum acceptable values. Friction between surfaces is not acceptable as a means of preventing shifting or turning of a live part. Result: Components are mounted such that they are fixed in place and protected from a reduction in electrical spacings and strain on wiring terminations. 6.10 Overcurrent Protection Method: The product is inspected to ensure that proper overcurrent protection exists for internal conductors and components. Overcurrent devices are inspected for proper ratings, including voltage, ampere and interrupting ratings, suitability as branch circuit protection (where required) and Listing. Results: Details as follows: 6.10.1 Components Components such as transformers, heater elements and motors have overcurrent protection of the correct ratings and proper type. 6.10.2 Conductors Factory and field installed internal conductors have proper overcurrent protection. 6.10.3 Supply The product has properly rated main overcurrent protection. Internal overcurrent protection is properly rated for the intended application. All devices designed to open under fault conditions have proper short circuit current interrupting ratings. 6.11 Protection from Electric Shock Method: Insulation materials, enclosures, interlocking devices and protective extra low voltage circuits are examined for suitability in protecting against electric shock and hazardous touch voltages. Results: The electrical equipment provides protection of persons from electrical shock. Where access to energized parts is required for proper use and maintenance of the equipment, interlocks and additional safeguards are employed to minimize exposure to hazardous touch voltages as required by the referenced standards. 2011 - 3717 -FE Field Evaluation Services Report Page 16 of 20 6.12 Suitability for Installation Method: The product is inspected to ensure suitability for installation according to the NEC as specified in the referenced standard(s). This inspection determined whether correct working space and clearances existed, noted proper wire bending space for all field wiring, observed provisions for mounting and assured that areas for conduit entries, as applicable, were in place. Results: Details as follows: 6.12.1 Clearance and Working Space The product is or can be installed with acceptable access, clearances, working spaces and distances from combustibles. 6.12.2 Wire Bending & Gutter Space Wire bending space for all field wiring exists according to the NEC. 6.13 Supply Conductors and Disconnect Method: Incoming supply circuit conductors are examined for proper identification, location, accessibility, separation from other internal conductors, bending space and disconnecting means. Circuits not disconnected by the main supply disconnecting means, where permitted, are also examined for proper identification, isolation and guarding. Results: The supply conductors are mounted as near as practical to the top of the enclosure or are separated from internal conductors by barriers. The conductors terminate at the disconnecting means and are properly identified. The disconnecting means is not more than 2.0 m (6 ft 7 in) above the servicing level. 6.14 Wiring and Wiring Methods Method: All conductors were inspected for Listing or Recognition by a nationally recognized testing laboratory according to UL policies. The conductors were examined for proper ratings (voltage, ampacity, temperature, flexibility, flame and environmental ratings) as required for the application. The wiring methods were verified to comply with the applicable standards and provide proper physical protection, including strain relief, where applicable. The wiring terminations were inspected for correct application, number of conductors according to their Listing and correct ampacity based on temperature ratings. Results: Details as follows: 6.14.1 Separation of Circuits Unless provided with insulation rated for the highest voltage involved, low voltage and line voltage circuit wires within enclosures are segregated or separated by barriers. The product wiring for low voltage and line voltage circuits outside enclosures is installed in separate raceways or wireways. 6.14.2 Supply Connections The supply connection point(s) have proper terminals and identification provided. 6.14.3 Conduit Connections All conduits, gutters, and wireways are properly supported and properly sized for the number and size of conductors. 6.14.4 Wire Terminations All wire terminations are suitable for the number and the size of conductor(s) installed. 2011 - 3717 -FE Field Evaluation Services Report Page 17 of 20 6.14.5 Strain Relief External conductors, cable assemblies entering enclosures and internal conductors are secured to prevent strain being transmitted to terminations. 6.14.6 Wiring Methods Internal wiring methods are in compliance with the requirements of the applicable standard(s). All wiring is routed, secured and protected from moving parts, external heat sources and sharp edges. 7 Test Results The following tests verified that the product operates within normally expected parameters. Unless stated otherwise in Section 5.0, all the following items comply with the applicable part(s) of the referenced standard(s). Field evaluation test methods follow the applicable standards as closely as practical, considering the limits of a non - laboratory field setting and the need for the equipment to perform its function following the test. • Tests to be conducted during final evaluation 2011 - 3717 -FE Field Evaluation Services Report Page 18 of 20 8 Photographs Photo 1 Interior view of the electrical control • anel and wire se • oration issue. (' , al t k Photo 2 View of the fan wiring splice issue. 2011 - 3717 -FE Field Evaluation Services Report Page 19 of 20 iil f Photo 3 View of the black rota knob le•end mark issue ti ,, ,44„...,, ( , , , ■ ?: ate, s s k i . '" t ` `�, � �.' �" a sp l��t its a a k Photo 4 Interior view of the dan•erous hi•h seed rotatin• devices Page 20 of 20 2011-3717-FE Field Evaluation Services Report 0 the standard in safety Underwriters Laboratories Field Evaluation Services Preliminary Findings Report For Fine Line Back Twisted Machine 130mm Requested by: Technical Services For Electronics Inc 108 5th Avenue Northwest P.O. Box 616 Arlington, MN 55307 Installation Site and Authority Having Jurisdiction Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon 97223 City of Tigard, Tigard, Oregon 97223 Evaluation Number: 2011 - 3717 -FE File Number: FE7738 r / n Report by: Reviewed by: h• .,...�,��f Joseph C. Butler Robert M. Starasinich Underwriters Laboratories Inc. 2600 N.W. Lake Road. Camas. WA 96 8542 USA Report Date: November 23, 2011 r:: 360.617.5500 r F:: 360.811.6000 r W:: uLcon; Table of Contents 1 Executive Summary 3 2 Conditions of Acceptability 3 3 Referenced Standards 4 4 Product Description 4 4.1 Nameplate Data 5 5 Evaluation Discrepancies 5 5.1 INTERNAL WIRING: 5 5.2 MARKING ON MOTORS: 6 5.3 ENTRY DOOR TO HIGH SPEED DEVICES: 7 5.4 WIRE CONNECTIONS AND STRAIN RELIEF' 7 5.5 MAIN BRANCH CIRCUIT PROTECTION: 8 5.6 POWER SUPPLY 9 5.7 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: 9 5.8 INSUFFICIENT NAMEPLATE' 10 5.9 GROUNDS AND GROUND MARKINGS: 11 6 Evaluation Details 11 6.1 Critical Components 11 6.2 Drawings and Instructions 12 6.3 General Operating Conditions 12 6.4 Grounding and Bonding 12 6.5 Guarding of Live Parts 12 6.6 Markings 12 6.7 Means of Disconnect 13 6.8 Mechanical Protection 13 6.9 Mounting of Components 13 6.10 Overcurrent Protection 13 6.11 Protection from Electric Shock 14 6.12 Suitability for Installation 14 6.13 Supply Conductors and Disconnect 14 6.14 Wiring and Wiring Methods 14 7 Test Results 15 8 Photographs 16 2011 - 3717 -FE Field Evaluation Services Report Page 2 of 17 1 Executive Summary Federal OSHA requirements mandate that all electrical equipment in the workplace be "certified" or subjected to a complete and thorough evaluation before use (29 CFR 1910.303 and 1910.399). Many state, county and city electrical jurisdictions have similar requirements. A UL Field Evaluation is an accepted approach to meet this requirement; UL conducts an unbiased, independent assessment of products at a specific location to essential requirements of applicable product safety standard(s). UL's engineering assessment informs regulating authorities who make product and related installation approval decisions. Please note that the regulating authority for the final installation site provides final approval of this equipment and the installation. This project's purpose was to evaluate a product that was not Listed or otherwise certified by a testing laboratory recognized by the authority having jurisdiction. Products undergoing this evaluation process do not acquire a UL Listing, UL Recognition, or UL Classification. UL has not established factory Follow -Up Services to determine the conformance of any subsequently produced, relocated, or otherwise altered product(s) or system(s). Installation model codes are referenced in this document where necessary to ensure the product can be properly installed according to the code (e.g. National Electrical Code, NFPA 70). At the request of Mr. Gary VanNice of Technical Services For Electronics Inc, a Field Evaluation project was initiated. A Preliminary evaluation was completed at: • Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon. The results of the preliminary evaluation identified items that do not comply with applicable standard(s) and require corrective action as detailed in this report. When these discrepancies are corrected, a final inspection is required to verify that changes have rendered the equipment compliant and complete the Field Evaluation. 2 Conditions of Acceptability Except where otherwise stated in the product description and evaluation sections of this report, this evaluation and the application of the Field Evaluated Product Mark is subject to the following Conditions of Acceptability. 2.1 Except for like- for -like component replacement in the event of component failure, no change or addition to the product or system shall be made that would alter its construction, operation, function, layout, source of supply, physical location or operating environment. If such changes or additions to the product occur, the Field Evaluated Product Mark shall be considered invalid, and a separate evaluation shall be required to determine compliance with applicable product safety standards under the changed conditions. 2.2 The completed evaluation and application of the UL Field Evaluated Product Mark by UL does not assume liability on the part of UL and does not relieve the manufacturer, installer, user, or other relevant parties of their responsibilities. The product evaluation is based on adherence to sound engineering practices, and compliance with the applicable product safety standards and installation code. 2011 - 3717 -FE Field Evaluation Services Report Page 3 of 17 2.3 This evaluation considered the risks associated with electric shock, fire, and casualty hazards as specified in the evaluation section of the report only. No other hazards were evaluated during this evaluation. 2.4 Unless otherwise stated in the product description, this product was evaluated for installation in an indoor, dry, normal environment only. The product was not evaluated for installation in any hazardous classified location as defined in the latest edition National Electrical Code as adopted by the National Fire Protection Association. The product was not evaluated for installation in an environment subject to rainfall, water spray, steam, or exposure to any corrosive chemicals that deteriorate the enclosure or components. 2.5 The UL Field Evaluated Product Mark shall not be considered as equivalent to the UL Listing Mark, UL Recognized Component Mark, or UL Classified Product Mark. The UL Field Evaluated Product Mark indicates compliance with the applicable parts of the Standards referenced in Section 3 at the time the Mark was applied, and considering only the final installation site. The applicable parts included in the evaluation are the construction review, markings, and those testing protocols that are non - destructive. 3 Referenced Standards • NFPA 70, National Electrical Code, 1st Edition, Revised 10/19/2011 • NFPA 79, Electrical Standard For Industrial Machinery, 1st Edition • UL 508A, Standard For Industrial Control Panels, 1st Edition, Revised 02/04/2010 • UL Subject 2011, Outline of Investigation for Factory Automation Equipment, 2 edition, 12/27/06 4 Product Description Equipment Name: Fine Line Back Twisted Machine 130mm 111111 „14,, mime Acv rm'b+ 1 ,AA i 1 Machine Front View Machine Back View Description: This evaluation was for a 130MM Micro Twister machine. This manufactures precision electrical cabling for use with medical equipment. Multiple fine conductor wire, as small as 56 AWG, is fed into one side of this machine then the multiple conductors are twisted together to form a fine stranded cable giving the fine conductors strangth but in the smallest diameter possible, for an example to enter small organs within the human body for 2011 - 3717 -FE Field Evaluation Services Report Page 4 of 17 medical surgery. The machine is a single motor attached to the twisting device that rotates at very high revolutions. Manufacturer: Dongguan Toyo Electrical Technology Co Ltd Model number: 130MM Serial number: 1 4.1 Nameplate Data Electrical Ratings Volts 380 Vac Amps 10 A Phase 3 Wire 3 + ground Frequency 60 Hz Additional Rating single motor 3.42 hp 5 Evaluation Discrepancies This section details the non - compliant findings of the preliminary evaluation. Unless corrective actions are described, a final evaluation is necessary to complete all remaining tests and verify that changes have rendered the equipment compliant. 5.1 INTERNAL WIRING: Reference: NFPA 79, 1st Edition, Section 13.1.5 Cables subjected to physical damage shall be protected as follows: (1) By alternative routing (2) With additional guarding or railings (3) When supported by flooring or decking, with walk over or drive over cable protective devices (4) By installation in a wire way (5) By installation in a floor or deck covering trapezoidal walk over raceway specifically designed for cable protection. Discrepancy: There are two wiring bundles with multiple cable and wiring that are subjected to physical damage due to their location and routing within the machine. Wiring routed on interior left side of the pull out control panel and wiring routed against the motor pulley belt area of the machine. See photos in section 8. Action Required: Find alternate routing and supporting of these wiring harnesses from these damaging areas of concern. Corrective Action: ' Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 5 of 17 5.2 MARKING ON MOTORS: Reference: NFPA 79 /NEC 70, 2007/2011 Edition, Section 14.4.4/430.7 NFPA 79: 14.4.4 - Motors shall be marked in accordance with Section 430.7 of NFPA 70, National Electrical Code. NEC 70: 430.7 - Usual Motor Applications shall be marked with the following information: (1) Manufacturer's name (2) Rated volts and full -load current (3) Rated frequency and number of phases if an ac motor (4) Rated full -load speed (5) Rated temperature rise of the insulation system class (6) Time rating or continuous (7) Rated horsepower if 1/8 hp or more (9) Design letter for design B, C, or D motors (10) Secondary volts and full -load current if a wound -rotor induction motor (11) Field current and voltage for dc motors (12) Winding if applicable (13) Thermal protection if applicable (14) Impedance protected if applicable, and (15) Rating of powered condensation prevention heaters if applicable Discrepancy: The motor nameplate marking was not installed on the motor but was found on flooring of the machine beneath the motor. Action Required: Apply the motor's nameplate marking permanently to the motor so it can be visible for reading. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 6 of 17 5.3 ENTRY DOOR TO HIGH SPEED DEVICES: Reference: UL Subject 2011, Issue no. 2 5.1 To reduce the risk of unintentional contact with a live or moving part, factory automation equipment shall be provided with appropriate mechanical barriers or curtains except as indicated in 5.4. See 5.2. Exception: It is not necessary to provide a barrier or curtain on locations of factory automation equipment marked in accordance with the Standard for Industrial Control Equipment, UL 508, to warn of the risk of injury or shock related to unintentional contact with a live or moving part. 5.2 With regard to 5.1, the factors to be considered in determining whether a barrier, curtain, or marking is appropriate to address a particular risk of injury or shock include: a) The electrical levels of the live part; b) The sharpness and speed of the moving part; and c) The likelihood of unintentional contact. Discrepancy: The main entry door to the high speed rotary devices within the machine is not marked appropriately in English. This door, if opened while machine is operating has dangerous high speed rotating devices that are not guarded from contact and may cause injury. Action Required: Apply appropriate labeling and Warning marks to this door to warn personnel of the dangers of opening this door without disconnecting power at the disconnecting means. Corrective Action: Not Verified 5.4 WIRE CONNECTIONS AND STRAIN RELIEF: Reference: UL 508A, 1st Edition, Section 28.5.3 At the point at which the cord passes through the enclosure wall, a strain relief bushing shall be provided to prohibit cord abrasion. The strain relief bushing shall comply with the Standard for Conduit, Tubing, and Cable Fittings, UL 514B. Exception: A strain relief means that complies with the requirements in the Standard for Industrial Control Equipment, UL 508. Discrepancy: The wiring connections to and from the machine's lubrication system mounted on the outside front of the machine has loose cable jacketing, exposing the wiring that may cause an electrical shock and fire hazard. Action Required: Reinstall the wiring cables to the strain reliefs or replace the strain reliefs if damaged. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 7 of 17 5.5 MAIN BRANCH CIRCUIT PROTECTION: Reference: UL 508A, 1st Edition, Section 31.2.1, 31.1.1 and 66.7.4 31.2.1 - A branch circuit protective device shall be installed in each ungrounded conductor to the load(s) involved. 1 Exception: An industrial control panel that is intended to be installed on the load side of branch circuit protection provided in the field and marked in accordance with 60.1 is not required to comply with this requirement. 2 Exception: Branch circuit fuses are not required to be provided in a branch circuit fuseholder having a pole for each ungrounded conductor where the fuseholder is sized to accept the branch circuit fuse required in 31.3 - 31.8. 31.1.1 - An inverse -time or instantaneous -trip circuit breaker shall comply with the requirements in the Standard for Molded -Case Circuit Breakers, Molded - Case Switches, and Circuit - Breaker Enclosures, UL 489. An instantaneous -trip circuit breaker, in combination with the motor controller and motor overload device, shall additionally comply with the requirements for combination motor controllers in the Standard for Industrial Control Equipment, UL 508. 66.7.4 - The main overcurrent protection shall be sized based on the sum of: a) The largest ampere rating of branch circuit protective devices in the panel; b) 125 percent of all heater loads; c) 125 percent of the largest motor load; and d) The full -load currents of all remaining motors and other loads that are simultaneously operable. 1 Exception: When branch circuit protection is not provided within the panel, the main overcurrent protection shall comply with Section 31, Branch Circuit Protection, for single motor or heater loads or for a group of loads. 2 Exception: Where internal conductors are sized based on the exception to 66.5.6, the ampere rating of the main overcurrent protective devices shall not exceed the conductor ampacity in Table 28.1. Discrepancy: The circuit breaker provided is not recognized by any NRTL, Nationally Recognized Testing Laboratory and is not branch rated. This device may cause an electrical shock and fire hazard. Action Required: Replace with a Listed Molded -Case Circuit Breaker rated for branch circuit protection or Listed and branch rated fusing with appropriate fuseholders. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 8 of 17 5.6 POWER SUPPLY: Reference: UL 508A, 1st Edition, Section 42.2.3.1 A power supply or bridge rectifier shall be loaded at not more than 50 percent of the ampere rating of the device. Where the power supply has multiple secondaries, each secondary shall be loaded at not more than 50 percent of the secondary ampere rating. 1 Exception: An enclosed power supply having provisions for connection to conduit is able to be used for loading to 100 percent of the ampere rating of the power supply. 2 Exception: A power supply that complies with the Temperature Test in the Standard for Industrial Control Equipment, UL 508, is able to be used for loading to 100 percent of the ampere rating of the power supply. Discrepancy: Open type: This open board power supply is without appropriate markings, with no circuit protections on the primary or secondary circuits, and is not recognized or Listed. Closed type: This enclosed type power supply is recognized only, with no circuit protections on the primary and secondary circuits. Recognized power supplies are restricted to usage requiring circuit protections on primary and secondary circuits. Action Required: Install appropriately sized circuit protections to the primary and secondary circuits to and from the power supplies at 50% current ratings, as mentioned above. Corrective Action: Not Verified 5.7 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: Reference: UL 508A, 1st Edition, Section 61.1 An industrial control panel shall be provided with a complete electrical schematic wiring diagram including all components provided by the manufacturer. Field installed components shown on the schematic wiring diagram shall comply with 60.3. Discrepancy: The machine did not have completed or appropriate electrical schematic wiring diagrams available during this evaluation. Action Required: Provide a copy of the schematic wiring diagrams for further evaluation. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 9 of 17 5.8 INSUFFICIENT NAMEPLATE: Reference: UL 508A, 1st Edition, Section 52.1, 49.1, 49.2, 49.5 and 67.1.2 52.1 - An industrial control panel shall be provided with a nameplate marking that includes the following: a) Manufacturer's name or authorized designation; b) Complete electrical rating of each source of supply as specified in 49.1; c) Field wiring diagram number when required load ratings from 52.2 or field wiring information of 54.1 - 54.9, 60.1, or 60.2 is included only on the diagram; and d) Factory identification as specified in 52.5. e) Enclosure Type rating (for enclosed panels only) as specified in 53.1. 49.1 - The input terminals intended to be connected to each source of supply shall be rated in volts, total full -load amperes, ampere or horsepower rating of the largest motor (when multiple loads are controlled), number of phases when other than single phase, and the frequency. 49.2 - The full -load ampere rating of the panel shall, at a minimum, include the sum of the ampere ratings of all loads that are able to be operated simultaneously plus the primary ampere rating of all control transformers connected to the input voltage. 52.1 - Each set of input terminals in 49.1 supplying a power circuit shall have a short circuit current rating. The short circuit current rating shall be determined based upon the requirements in Supplement SB. 67.1.2 - When provided with main overcurrent protection, the nameplate shall include "short circuit current rating of the protective device" in amperes. Discrepancy: The manufacturer's nameplate was insufficient and does not include the required information mentioned in the above paragraphing. Action Required: Provide the appropriate information and ratings then apply to the machine, visible and with permanent markings for the work environment. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 10 of 17 5.9 GROUNDS AND GROUND MARKINGS: Reference: NFPA 79, 1st Edition, Section 8.2.1.2, 8.2.1.3.1, and 8.2.1.3.4 8.2.1.2 - The machine and all exposed, noncurrent carrying conductive parts, material, and equipment likely to be energized shall be effectively grounded. Where electrical devices are mounted on metal mounting panels that are located within nonmetallic enclosures, the metal mounting panels shall be effectively grounded. Where specified by the manufacturer, components and subassemblies shall be bonded to the equipment grounding (protective bonding) circuit in accordance with the manufacturer's instructions. 8.2.1.3.1 - For each incoming supply circuit, an equipment grounding (protective) conductor terminal shall be provided in the vicinity of the associated phase conductor terminals. 8.2.1.3.4 - The equipment grounding (protective) conductor terminal shall be identified with the word "GROUND," the letters "GND" or "GRD," the letter "G," the color GREEN, or the symbol in Figure 8.2.1.3.4. In addition to the required marking, the letters PE shall also be permitted to identify this terminal. Discrepancy: There is no grounding of panel or electrical equipment to earth ground. Action Required: Provide grounding terminal connections to panel with markings. Then install the appropriate equipment grounding connections to electrical components requiring bonding to grounds. Corrective Action: Not Verified 6 Evaluation Details The following specific areas were evaluated using the methods described. All items comply with the applicable parts of standard(s) referenced in Section 3.0, unless stated otherwise in Section 5.0 of this report. Additional characteristics and features unique to the product were further addressed as deemed necessary considering the final installation site, or as required by the applicable product safety standard(s). 6.1 Critical Components Method: The following critical components were inspected for evidence of Listing or Recognition according to UL policies: - Circuit Breakers / Fuses - Contactors - Enclosures - Motor Overload Devices - Motors - Power Disconnecting Devices - Switches and Controllers - Terminal Blocks - Transformers and Power Supplies - Wire and Cables Results: The critical components are Listed or Recognized by a testing laboratory acceptable to UL according to UL policies. 2011 - 3717 -FE Field Evaluation Services Report Page 11 of 17 6.2 Drawings and Instructions Method: The information necessary for safe installation, operation and maintenance of the equipment is reviewed for completeness and accuracy. The review may include drawings, diagrams, charts and /or tables based upon the complexity of the equipment and the service environment. Results: User and maintenance manuals, electrical /mechanical schematics, bills of materials, parts lists and /or programming instructions are provided as appropriate. 6.3 General Operating Conditions Method: The design, assembly and installation of the equipment are examined for suitability with the environment, electrical supply and operating conditions of the installation site. Results: The general operating conditions are acceptable for the design and use of the equipment as required by standards referenced in Section 3.0. 6.4 Grounding and Bonding Method: All accessible metal parts are verified (visually and /or by test) to be bonded together and to be connected to the supply equipment grounding conductor. Where applicable, a bonding continuity test is conducted and the results recorded. Results: The product is grounded and bonded according to applicable standards referenced in Section 3.0 and Article 250 of the NEC. The product has an identified terminal to connect the supply equipment grounding conductor or a suitable cord with an integral equipment grounding conductor. 6.5 Guarding of Live Parts Method: The product is visually inspected to ensure that all components were housed in a suitable enclosure and made effectively inaccessible to unauthorized persons. An articulated finger probe is used to measure access where necessary. Vent openings are verified not to align with potential discharge paths of gases expelled from circuit breakers when clearing fault conditions. Results: Enclosures prevent contact with moving parts, electrically energized parts and hot parts. Enclosures provide an acceptable degree of protection for internal components (according to the product's installation environment). All electrically live parts external to the enclosure are guarded as required by the applicable standards. No electrically hazardous energized parts are accessible from the exterior of the ultimate enclosure as required by Section 110.27 of the NEC. 6.6 Markings Method: The product nameplate is inspected for all required information. The content, placement and format of hazard - warning labels, fuse replacement markings, environmental limitations and installation type markings are also verified. Results: The product bears the required markings according to the applicable standard(s). Additional markings are identified for the installation site, as the working environment requires. 6.6.1 Hazard Warning Labels Applicable hazard warning markings that identify known hazards are located on or within the product. 6.6.2 Fuse Replacement Fuse replacement markings are provided and installed at all fuse locations or on a permanent chart suitable for the intended environment. 2011 - 3717 -FE Field Evaluation Services Report Page 12 of 17 6.6.3 Unit Nameplate The product bears a permanent nameplate, suitable for the intended installation environment and with all the applicable information. The nameplate is visible or accessible after installation or located for access according to the provisions in the referenced standard(s). 6.7 Means of Disconnect Method: Disconnecting means shall be located within sight from and readily accessible from the equipment. The disconnecting means shall be permitted to be installed on or within equipment, but shall not be located on panels that are designed to allow access to the equipment or to obscure the equipment nameplate(s). The disconnecting means shall open all ungrounded supply conductors and shall be designed so that no pole can be operated independently. The device shall be designed so that it cannot be closed automatically. Results: The disconnect is within sight, readily accessible and is installed and operates as required. 6.8 Mechanical Protection Method: Moving parts, such as rotors of motors, chains, pulleys, belts and gears are evaluated for risk of injury to persons. The degree of protection required depends upon the general design and intended use of the product. The factors considered in judging the acceptability of exposed moving parts are: a) The degree of exposure, b) The sharpness of the moving parts, c) The likelihood of unintentional contact with the moving parts, d) The speed of movement of those parts, and e) The likelihood of fingers, arms or clothing being drawn into the moving parts, such as at points where gears mesh, where belts travel onto a pulley or where moving parts close in a pinching or shearing action. Results: Exposed moving parts are enclosed or guarded to reduce the risk of injury to persons. 6.9 Mounting of Components Method: Components that support live parts and uninsulated current carrying parts are secured to prevent them from turning or shifting in position if such motion may result in a reduction of spacings below the minimum acceptable values. Friction between surfaces is not acceptable as a means of preventing shifting or turning of a live part. Result: Components are mounted such that they are fixed in place and protected from a reduction in electrical spacings and strain on wiring terminations. 6.10 Overcurrent Protection Method: The product is inspected to ensure that proper overcurrent protection exists for internal conductors and components. Overcurrent devices are inspected for proper ratings, including voltage, ampere and interrupting ratings, suitability as branch circuit protection (where required) and Listing. Results: Details as follows: 6.10.1 Components Components such as transformers, heater elements and motors have overcurrent protection of the correct ratings and proper type. 2011 - 3717 -FE Field Evaluation Services Report Page 13 of 17 6.10.2 Conductors Factory and field installed internal conductors have proper overcurrent protection. 6.10.3 Supply The product has properly rated main overcurrent protection. Internal overcurrent protection is properly rated for the intended application. All devices designed to open under fault conditions have proper short circuit current interrupting ratings. 6.11 Protection from Electric Shock Method: Insulation materials, enclosures, interlocking devices and protective extra low voltage circuits are examined for suitability in protecting against electric shock and hazardous touch voltages. Results: The electrical equipment provides protection of persons from electrical shock. Where access to energized parts is required for proper use and maintenance of the equipment, interlocks and additional safeguards are employed to minimize exposure to hazardous touch voltages as required by the referenced standards. 6.12 Suitability for Installation Method: The product is inspected to ensure suitability for installation according to the NEC as specified in the referenced standard(s). This inspection determined whether correct working space and clearances existed, noted proper wire bending space for all field wiring, observed provisions for mounting and assured that areas for conduit entries, as applicable, were in place. Results: Details as follows: 6.12.1 Clearance and Working Space The product is or can be installed with acceptable access, clearances, working spaces and distances from combustibles. 6.12.2 Wire Bending & Gutter Space Wire bending space for all field wiring exists according to the NEC. 6.13 Supply Conductors and Disconnect Method: Incoming supply circuit conductors are examined for proper identification, location, accessibility, separation from other internal conductors, bending space and disconnecting means. Circuits not disconnected by the main supply disconnecting means, where permitted, are also examined for proper identification, isolation and guarding. Results: The supply conductors are mounted as near as practical to the top of the enclosure or are separated from internal conductors by barriers. The conductors terminate at the disconnecting means and are properly identified. The disconnecting means is not more than 2.0 m (6 ft 7 in) above the servicing level. 6.14 Wiring and Wiring Methods Method: All conductors were inspected for Listing or Recognition by a nationally recognized testing laboratory according to UL policies. The conductors were examined for proper ratings (voltage, ampacity, temperature, flexibility, flame and environmental ratings) as required for the application. The wiring methods were verified to comply with the applicable standards and provide proper physical protection, including strain relief, where applicable. The wiring terminations were inspected for correct application, number of conductors according to their Listing and correct ampacity based on temperature ratings. Results: Details as follows: 2011 - 3717 -FE Field Evaluation Services Report Page 14 of 17 6.14.1 Separation of Circuits Unless provided with insulation rated for the highest voltage involved, low voltage and line voltage circuit wires within enclosures are segregated or separated by barriers. The product wiring for low voltage and line voltage circuits outside enclosures is installed in separate raceways or wireways. 6.14.2 Supply Connections The supply connection point(s) have proper terminals and identification provided. 6.14.3 Conduit Connections All conduits, gutters, and wireways are properly supported and properly sized for the number and size of conductors. 6.14.4 Wire Terminations All wire terminations are suitable for the number and the size of conductor(s) installed. 6.14.5 Strain Relief External conductors, cable assemblies entering enclosures and internal conductors are secured to prevent strain being transmitted to terminations. 6.14.6 Wiring Methods Internal wiring methods are in compliance with the requirements of the applicable standard(s). All wiring is routed, secured and protected from moving parts, external heat sources and sharp edges. 7 Test Results The following tests verified that the product operates within normally expected parameters. Unless stated otherwise in Section 5.0, all the following items comply with the applicable part(s) of the referenced standard(s). Field evaluation test methods follow the applicable standards as closely as practical, considering the limits of a non - laboratory field setting and the need for the equipment to perform its function following the test. • Tests to be conducted during final evaluation 2011 - 3717 -FE Field Evaluation Services Report Page 15 of 17 8 Photographs ,, P -V I '/ IA 1 ' .'rte It 44 4 4A likiti ir tilt Photo 1 Views of the wiring needing to be rerouted from •h sical damage. fet Ipil t } P> e • .moq ifift I „.1. , ', ;.. A a ^ 4 Photo 2 View of accesso lubricating s stem with wire strain relief issues 2011 - 3717 -FE Field Evaluation Services Report Page 16 of 17 Photo 3 View of the detached motor name.late needin. to be a.plied. roost or Ait e f a � ��a gy Photo 4 View of the dan•erous hish seed rotatin• device access. 2011 - 3717 - Field Evaluation Services Report Page 17 of 17 /6 /� /9 / l3 the standard in safety Underwriters Laboratories Field Evaluation Services Preliminary Findings Report For Double Twisted Bunching Pitch Machine HST -200P Requested by: Technical Services For Electronics Inc 108 5th Ave Northwest P.O. Box 616 Arlington, MN 55307 Installation Site and Authority Having Jurisdiction Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon 97223 City of Tigard, Tigard, Oregon 97223 Evaluation Number: 2011 - 3717 -FE File Number: FE7738 Report by: Reviewed by: v l7/• /(G Ztuir/ • Joseph C. Butler Robert M. Starasinich Underwriters Latorator,es In;: • 2000 NM, Lake Road, Camas. WA 98U0(8142 USA Report Date: November 23, 2011 T . : 360.51 7 5500 / F:. 360.617.6000; W: ut.corn /0(, 5 //V L.La Ave_ /a • • the standard in safety Underwriters Laboratories November 28, 2011 Technical Services For Electronics Inc 108 5th Ave ■w Po Box 61.6 Arlington, MN 55307 Attention: Mr. Ryan Cook • • Our Reference: FE7738, 2011- 3717 -FE, 11CA58136 Subject: Field Evaluation of Fine Line Wire Twisting Machine • • Dear Mr. Cook: • • On 11/17/2011, UL completed a preliminary evaluation of the above subject equipment. It was • • determined that one or more products evaluated do not comply with the applicable requirements • and Field Evaluated Product Mark(s) were not applied to the equipment. Please find attached a copy of the Preliminary Findings Report(s). All reports should be reviewed to verify that the information is complete and correct. Each report details our evaluation findings and lists the non- conforming items. To be eligible for a Field Evaluated Product Mark, all items • • listed in the require corrective actions - that render the product compliant. A UL representative must verify all corrective actions before a mark may be applied to the equipment: Please contact Our field evaluation coordinators when the corrective actions have been completed to schedule a return visit:: Our coordinators may be reached at'877 -UL -HELPS • • • (877- 8543577), Ext. 2 or email: fieldevaluations @us.ul.com Please include our references above to the subject line of email correspondence. If you should have questions regarding this report, please contact me as noted below. • Kind regards, • Cathy Sledjeski Administrative Specialist I Field Engineering Services • • Direct Line: 813 - 253 -9489 Email: Cathy.Sledjeski @ul.com • • CC: Mr. Gary-Noble - Sr. Electrical Inspector, City of Tigard - • • • Und'rrniters La)oraloiies Inc, 2000 N.W, Lake R■at1. Camas. WA 98607-8542 USA T: 360.8 7.5500 i F:: 360.817.60001 W:: ul.com • • • Table of Contents 1 Executive Summary 3 2 Conditions of Acceptability 3 3 Referenced Standards 4 4 Product Description 4 4.1 Nameplate Data 5 5 Evaluation Discrepancies 5 5.1 POWER PLUG AND CORD DEVICES: 5 5.2 ENTRY DOOR TO HIGH SPEED DEVICES: 6 5.3 POWER SUPPLY 6 • 5.4 SEPARATION OF CIRCUITS: 7 5.5 WIRING CONDUCTORS DO NOT COMPLY FOR MACHINERY: 8 • 5.6 MAIN BRANCH CIRCUIT PROTECTION 9 5.7 MOTOR OVERLOAD PROTECTION: 10 5.8 INSUFFICIENT NAMEPLATE: 11 5.9 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: 12 5.10 ENCLOSURE FAN WIRE SPLICE 12 5.11 LEGEND MARK MISSING: 12 5.12 WARNING MARKS MISSING OR NOT IN ENGLISH: 13 5.13 GROUNDS AND GROUND MARKINGS: 13 6 Evaluation Details 14 6.1 Critical Components 14 6.2 Drawings and Instructions 14 6.3 General Operating Conditions 14 6.4 Grounding and Bonding 14 6.5 Guarding of Live Parts 15 6.6 Markings 15 6.7 Means of Disconnect 15 6.8 Mechanical Protection 16 6.9 Mounting of Components 16 6.10 Overcurrent Protection 16 6.11 Protection from Electric Shock 16 6.12 Suitability for Installation 17 6.13 Supply Conductors and Disconnect 17 6.14 Wiring and Wiring Methods 17 7 Test Results 18 8 Photographs 19 2011 - 3717 -FE Field Evaluation Services Report Page 2 of 20 1 Executive Summary • Federal OSHA requirements mandate that all electrical equipment in the workplace, be "certified" or subjected to a complete and thorough evaluation before use (29 CFR 1910.303 and 1910.399). Many • state, county and city electrical jurisdictions have similar requirements. A UL Field Evaluation is an accepted, approach. to meet this requirement; UL conducts an unbiased, independent assessment of • products at a specific location to essential requirements of applicable product safety standard(s). UL's • engineering assessment informs'regulating authorities who make product and related installation approval decisions. • • Please note. that the regulating authority for the final installation site provides final approval of this equipment and the installation. This project's purpose was to evaluate a product that was not Listed or otherwise certified by a testing • laboratory recognized by the . authority having jurisdiction. Products undergoing this evaluation process do not acquire a UL Listing, UL Recognition, or UL Classification. UL has not established factory Follow -Up Services to determine the conformance of any subsequently produced, relocated, or otherwise altered products) or system(s). • Installation model codes are referenced in this document where necessary to ensure the product can be • properly installed according to the code (e.g. National Electrical Code, NFPA 70). At the request of Mr. Gary VanNice of Technical Services For Electronics Inc, a Field Evaluation project was initiated. A Preliminary evaluation was completed at: • • Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon. The results of the preliminary evaluation identified items that do not comply with applicable standard(s) • and require corrective action as detailed in this report. When these discrepancies are corrected, a final inspection is required to verify that.changes have rendered the equipment compliant and complete the Field Evaluation. • • 2 Conditions of Acceptability • Except where otherwise stated in the product description and evaluation sections of this report, this • evaluation and the application of the Field Evaluated Product Mark is subject to the following Conditions • • of Acceptability. • 2.1 Except for like- for -like component replacement in the event of component failure no change or • addition to the product or system shall be made that would alter.its construction, operation; • function, layout, source of supply, physical location or operating•'environment. If such changes or additions to the product occur, the Field Evaluated Product Mark shall be considered invalid, and a separate evaluation shall be required to determine compliance with applicable product.safety • standards under the changed conditions. ' • • • 2.2 The completed evaluation and application of the UL Field Evaluated Product Mark by UL does not • • assume liability on the part of UL and does not relieve the manufacturer, installer, user, or other relevant parties of their responsibilities. The product`evaluation is ,based on adherence to sound engineering practices, and compliance with the applicable product safety standards and installation code. • : • • • 2011- 3717 -FE Field Evaluation Services Report Page 3 of 20 • • • • • • 2.3 This evaluation considered the risks associated with electric shock, fire, and casualty hazards as specified in the evaluation section of the report only. No other hazards were evaluated during this evaluation. 2.4 Unless otherwise stated in the product description, this product was evaluated for installation in an indoor, dry, normal environment only. The product was not evaluated for installation in any hazardous classified location as defined in the latest edition National Electrical Code as adopted by the National Fire Protection Association. The product was not evaluated for installation in an environment subject to rainfall, water spray, steam, or exposure to any corrosive chemicals that deteriorate the enclosure or components. 2.5 The UL Field Evaluated Product Mark shall not be considered as equivalent to the UL Listing Mark, UL Recognized Component Mark, or UL Classified Product Mark. The UL Field Evaluated Product Mark indicates compliance with the applicable parts of the Standards referenced in Section 3 at the time the Mark was applied, and considering only the final installation site. The applicable parts included in the evaluation are the construction review, markings, and those testing protocols that are non - destructive. 3 Referenced Standards • NFPA 70, National Electrical Code, 1st Edition, Revised 10/19/2011 • NFPA 79, Electrical Standard For Industrial Machinery, 1st Edition • UL 508A, Standard For Industrial Control Panels, 1st Edition, Revised 02/04/2010 • UL Subject 2011, Outline of Investigation for Factory Automation Equipment, 2nd edition, 12/27/06 4 Product Description Equipment Name: Double Twisted Bunching Pitch Machine HST -200P w. -) 711 - I , 1118-fliff t \„. z" I Aft Machine front view Machine back view Description: This evaluation was for a Double Twist Bunching Pitch machine. This manufacuters precision electrical cabling for use with medical equipment. Multiple fine conductor wire, as small as 56 AWG, is fed into one side of this machine then the multiple conductors are twisted together to form a fine stranded cable giving the fine conductors strangth but in the smallest diameter possible to enter small organs within the human body for medical 2011 - 3717 -FE Field Evaluation Services Report Page 4 of 20 surgery for an example. The machine is a single motor attached to the twisting device that rotates at very high revolutions. Manufacturer: Dongguan Wangshi Electrical Equipment and Material Co Ltd Model number: HST -200P Serial number: 1 4.1 Nameplate Data Electrical Ratings Volts 380 Vac Amps 10 A Phase 3 Wire 3 + ground Frequency 60 Hz Additional Rating single motor 5.5 hp 5 Evaluation Discrepancies This section details the non - compliant findings of the preliminary evaluation. Unless corrective actions are described, a final evaluation is necessary to complete all remaining tests and verify that changes have rendered the equipment compliant. 5.1 POWER PLUG AND CORD DEVICES: Reference: NFPA 79, 1st Edition, Section 13.4.5 and 16.2.5 13.4.5 - Attachment plug and receptacle (plug /socket) combinations shall be listed for the intended use and shall be of the locking type where rated greater than 20 amperes. Where used on circuits of more than 300 volts to ground or 300 volts phase -to- phase, they shall be skirted and constructed to contain any arc generated when a connection is made or broken. 16.2.5 - Where an attachment plug is used as the disconnecting means, a safety sign shall be attached to the control enclosure door or cover indicating that power shall be disconnected from the equipment before the enclosure is opened. Discrepancy: The machine is intended to be connected to power by plug and cord connection but only the cord was available at time of this evaluation. An assumption is made that this plug connection will be used for the main power disconnecting means. Action Required: When installing the power plug to the machine's power cord insure it complies with the above paragraph, is appropriately sized and rated for the circuit. Also apply the above mentioned markings at the machine's electrical enclosure door. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 5 of 20 5.2 ENTRY DOOR TO HIGH SPEED DEVICES: Reference: UL Subject 2011, Issue no. 2 5.1 To reduce the risk of unintentional contact with a live or moving part, factory • automation equipment shall be provided with appropriate mechanical barriers or curtains except as indicated in 5.4. See 5.2. Exception: It is not necessary to provide a barrier or curtain on locations of factory automation equipment marked in accordance with the Standard for Industrial Control Equipment, UL 508, to warn of the risk of injury or shock related to unintentional contact with a live or moving part. 5.2 With regard to 5.1, the factors to be considered in determining whether a barrier, curtain, or marking is appropriate to address a particular risk of injury or shock include: a) The electrical levels of the live part; b) The sharpness and speed of the moving part; and c) The likelihood of unintentional contact. Discrepancy: The main entry door to the high speed rotary devices within the machine is not marked appropriately in English. This door, if opened while machine is operating has dangerous high speed rotating devices that are not guarded from contact and may cause injury. Action Required: Apply appropriate labeling and Warning marks to this door to warn personnel of the dangers of opening this door without disconnecting power at the disconnecting means. Corrective Action: Not Verified 5.3 POWER SUPPLY: Reference: UL 508A, 1st Edition, Section 42.2.3.1 A power supply or bridge rectifier shall be loaded at not more than 50 percent of the ampere rating of the device. Where the power supply has multiple secondaries, each secondary shall be loaded at not more than 50 percent of the secondary ampere rating. 1 Exception: An enclosed power supply having provisions for connection to conduit is able to be used for loading to 100 percent of the ampere rating of the power supply. 2 Exception: A power supply that complies with the Temperature Test in the Standard for Industrial Control Equipment, UL 508, is able to be used for loading to 100 percent of the ampere rating of the power supply. Discrepancy: There are two power supplies without appropriate markings with no circuit protections on the primary or secondary circuits, and are not recognized or Listed. Action Required: Install appropriately sized circuit protections to the primary and secondary circuits to and from the power supplies at 50% current ratings, as mentioned above. 2011 - 3717 -FE Field Evaluation Services Report Page 6 of 20 • • Corrective Action: • Not Verified 5.4 SEPARATION OF CIRCUITS: Reference: UL 508A, 1st Edition, Section 29.5.1 and 29.5.2 29.5.1 - A• factory- installed 'conductor shall be separated by a ,barrier or by additional insulation`complying with 29.2.3, or shall be segregated as specified in 29:5:2 from: • a) A factory- installed conductor used In ,a different.circuit unless the conductors of both circuits are insulated for the maximum .voltage,of either circuit; and • b) An uninsulated pa t connected to a different circuit. • • 29.2.3 - Additional insulation, when used, shall be rated 90degC (194degF) minimum and shall be one of the following:__ a) Insulating sleeving that complies with the Standard for Coated Electrical Sleeving, UL 1441; b) Insulating tubing that complies with the Standard for Extruded Insulating Tubing, UL 224; or • c) A wrapping of not less than two layers of insulating tape that complies with the • Standard for Polyvinyl Chloride, Polyethylene, and Rubber Insulating Tape, UL 510. • Exception: Additionalinsulation used only for physical protection of the wire and not to comply with 29.4.4(a) is not required to comply with this requirement: • 29.5.2 - Segregation of a conductor shall be accomplished by damping, routing, • or equivalent means that provides permanent separation from a conductor or an uninsulated live part of a different circuit. Discrepancy: • There is Class 1 and Class 2 wiring routed together with different voltage insulation temperature ratings. This may cause an electrical shock and fire hazard within the enclosure. • Action Required: Insulate by one of the means above or separate by barriers all • Class,1 from Class 2 wiring within enclosure and machine areas. Corrective Action: • • Not Verified • • • • • • • • • 2011- 3717 -FE Field Evaluation Services Report Page 7 of 20 • • • 5.5 WIRING CONDUCTORS DO NOT COMPLY FOR MACHINERY: Reference: UL 508A and NFPA 79, 1 st/1 st Edition, Section 29.6.1 and 66.5.3/12.4.1, 12.4.2, and 12.3.1 UL 508A: 29.6.1 - Internal wiring of a power circuit shall not be smaller than 14 AWG (2.1 mm2) and shall be determined by: a) Calculating the required ampacity by adding the full -load current ratings of all external loads being carried by the conductor based on the marked load ratings of the industrial control panel. For motor loads rated in horsepower, the equivalent full -load ampere rating shall be determined from Table 50.1 or Table 50.2; and b) Determining the minimum internal wiring conductor size from Table 28.1, having a corresponding ampacity not less than the required ampacity from (a). Exception: Lead wires integral to a component, such as a transformer, are not required to comply with this requirement. 66.5.3 - The following color coding shall be used throughout the panel: a) Black - all ungrounded power circuit conductors regardless of voltage; and b) White or gray or three continuous white stripes on other than green, blue, ' orange or yellow - grounded ac current - carrying power circuit conductor regardless of voltage. Exception: Insulated conductors sized 4 AWG (21.2 mm2) or larger and having insulation colored other than as in 17.4 shall be identified at each termination point by a white marking, such as tape wrapped around the conductor. NFPA 79: 12.4.1 - A durable legend printed on the outer surface of the insulation of construction A, on the outer surface of the nylon jacket of construction B, on the outer surface of the insulation under the jacket of construction B (only if readable through the nylon), or on the outer surface of the jacket of a multiconductor cable shall be repeated at intervals of no more than 610 mm (24 in.) throughout the length of the single conductor or the multiconductor cable. Exception: Sizes smaller than 16AWG shall be permitted to be marked on the reel or on the smallest unit of the shipping carton. 12.4.2 - The legend shall include the manufacturer's name or trademark, the wire type, voltage rating, and gauge or size. 12.3.1 - The insulation and the finished wires and cables shall have flame - retardant properties and temperature limits and characteristics as follows: (1) MTV1r— Moisture -, Heat -, and Oil- Resistant Thermoplastic 60 °C (140 °F) Wet Locations 90 °C (194 °F) Dry Locations (2) THHN — Heat - Resistant Thermoplastic 90 °C (194 °F) Dry Locations (3) THW— Moisture- and Heat - Resistant Thermoplastic 75 °C (167 °F) Dry and Wet Locations (4) THWN — Moisture- and Heat - Resistant Thermoplastic 75 °C (167 °F) Dry and Wet Locations (5) RHH — Thermoset 90 °C (194 °F) Dry Locations (6) RHW— Moisture- Resistant Thermoset 75 °C (167 °F) Dry and Wet Locations 2011 - 3717 -FE Field Evaluation Services Report Page 8 of 20 (7) RHW -2 — Moisture - Resistant Thermoset 90 °C (194 °F) Dry and Wet Locations (8) XHHW— Moisture- Resistant Thermoset 75 °C (167 °F) Wet Locations 90 °C (194 °F) Dry Locations (9) XHHW -2 — Moisture - Resistant Thermoset 90 ° C (194 °F) Dry and Wet Locations Discrepancy: All the internal machine wiring does not have markings or ratings and is noncompliant. Without the appropriate markings and ratings, it cannot be determined if the wiring is appropriately AWG sized, rated for insulation and jacket thickness, conductor material, physical properties and flame resistance. This wiring may cause an electrical shock and fire hazard. Action Required: Option 1 - Provide UL for testing a minimum length of 6 foot sample, can be provided in three 2 foot lengths for each size and color difference. Option 2 - Replace all unidentified and unmarked wiring with appropriately sized and type noted above in 12.3.1. Corrective Action: Not Verified 5.6 MAIN BRANCH CIRCUIT PROTECTION: Reference: UL 508A, 1st Edition, Section 31.2.1, 31.1.1 and 66.7.4 31.2.1 - A branch circuit protective device shall be installed in each ungrounded conductor to the load(s) involved. 1 Exception: An industrial control panel that is intended to be installed on the load side of branch circuit protection provided in the field and marked in accordance with 60.1 is not required to comply with this requirement. 2 Exception: Branch circuit fuses are not required to be provided in a branch circuit fuseholder having a pole for each ungrounded conductor where the fuseholder is sized to accept the branch circuit fuse required in 31.3 - 31.8. 31.1.1 - An inverse -time or instantaneous -trip circuit breaker shall comply with the requirements in the Standard for Molded -Case Circuit Breakers, Molded - Case Switches, and Circuit - Breaker Enclosures, UL 489. An instantaneous -trip circuit breaker, in combination with the motor controller and motor overload device, shall additionally comply with the requirements for combination motor controllers in the Standard for Industrial Control Equipment, UL 508. 66.7.4 - The main overcurrent protection shall be sized based on the sum of: a) The largest ampere rating of branch circuit protective devices in the panel; b) 125 percent of all heater loads; c) 125 percent of the largest motor load; and d) The full -load currents of all remaining motors and other loads that is simultaneously operable. 1 Exception: When branch circuit protection is not provided within the panel, the main overcurrent protection shall comply with Section 31, Branch Circuit Protection, for single motor or heater loads or for a group of loads. 2011 - 3717 -FE Field Evaluation Services Report Page 9 of 20 2 Exception: Where internal conductors are sized based on the exception to • 66.5.6, the ampere rating of the main overcurrent protective devices shall not • exceed the conductor ampacity in Table 28.1. Discrepancy: • The circuit breaker provided is not recognized by any NRTL, Nationally Recognized Testing Laboratory and is not branch rated. This device may cause an electrical shock and fire hazard. Action Required: Replace with a Listed Molded -Case Circuit Breaker rated for branch circuit protection or Listed and branch rated fusing with appropriate fuseholders. Corrective Action: Not Verified 5.7 MOTOR OVERLOAD PROTECTION: • Reference: UL 508A, 1st Edition, Section 34.1.1, 34.1.2, 34.3.1 and 34.3.4 34.1.2 - Power conversion equipment that includes a solid -state motor overload protection function shall comply with the Standard for Power Conversion Equipment, UL 508C. Instructions provided with the power conversion equipment shall indicate the adjustable range and means for adjustment. Instructions provided with power conversion equipment that is not provided with a motor overload function or where the motor overload function has not been evaluated shall indicate that a separate overload device is required, as specified in 34.1.1, 34.1.3, or 34.3.4. 34.1.1 - An overload relay, including a mechanically- or electrically- operated type, a manual motor starter and an overload unit of a self - protected combination motor controller shall comply with the requirements in the Standard for Industrial Control Equipment, UL 508. 34.3.1 - Motor overload protection shall be provided for each individual motor circuit. 1 Exception: Branch circuit protection complying with 34.3.4 is not required to comply with this requirement. 2 Exception: A panel having a field wiring diagram marked in accordance with 60.1 to indicate that required protection is to be provided in the field is not required to comply with this requirement. 34.3.4 - Branch circuit protection complying with 34.3.2 and sized with not more than 115 percent of the motor full -load current rating provides required motor overload protection as well as required branch circuit protection. A marking shall be located next to the fuseholder in accordance with 56.1. Discrepancy: The Variable Frequency Drive component made by TECO Speedcon, powering the main drive motor is not recognized nor Listed by an NRTL and is noncompliant to UL standard 508 for overload protection as mentioned in the above paragraphs. Action Required: Install branch rated protections to the primary and secondary circuits of the VFD, and sized appropriately for the motor overload protection. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 10 of 20 • 5.8 INSUFFICIENT NAMEPLATE: Reference: UL 508A, 1st Edition, Section 52.1, 49.1, 49.2, 49.5 and 67.1.2 52.1 - An industrial control panel shall be provided with a nameplate marking that includes the following: • a) Manufacturer's name or authorized designation; • • b) Complete electrical 'rating of each source of supply as specified in 49.1; • c) Field wiring diagram number when required load.ratings from 52.2 or field wiring information of 54.1 - 54.9, 60.1, or 60,2 is included only on the diagram; and • d) Factory identification as, specified in 52.5. • e) Enclosure Type rating (for enclosed,panels only) as specified in 53.1. 49.1 - The input terminals intended to be connected to each source of supply shall be rated in volts, total full -load amperes, ampere or horsepower rating of the largest motor (when multiple loads are controlled), number of phases when other than single phase, and the frequency. 49.2 - The full -load ampere rating of the panel shall, at a minimum, include the • sum of the ampere ratings of all loads that are able to be operated simultaneously plus the primary ampere rating of all control transformers • connected to the input voltage. 52.1 - Each set of input terminals in 49.1 supplying a power circuit shall have a short circuit current rating. The short circuit current rating shall be determined • • based upon the requirements in Supplement SB. • • 67.1.2 - When provided with main overcurrent protection, the nameplate shall include "short circuit current rating of the protective device" in amperes. • • Discrepancy: , The manufacturer's nameplate was insufficient and does not include the required • information mentioned in the above paragraphing. Action Required: Provide the appropriate information and ratings then apply to the machine, visible and with permanent markings for the work environment. Corrective Action: . Not Verified • 2011- 3717 -FE Field Evaluation Services Report Page 11 of 20 • 5.9 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: Reference: UL 508A, 1st Edition, Section 61.1 An industrial control panel shall be provided with a complete electrical schematic wiring diagram including all components provided by the manufacturer. Field installed components shown on the schematic wiring diagram shall comply with 60.3. Discrepancy: The machine did not have the appropriate electrical schematic wiring diagrams available during this evaluation. Action Required: Provide a copy of the schematic wiring diagrams for further evaluation. Corrective Action: Not Verified 5.10 ENCLOSURE FAN WIRE SPLICE: Reference: UL 508A, 1st Edition, Section 66.5.8 Conductors and cable shall be run without splices from terminal to terminal. Discrepancy: The enclosure fan is spliced and has come loose at one of the splice connections. This incorrect splicing method will cause an electrical shock and fire hazard. Action Required: Install terminal connections close enough to make a terminal to terminal connection to the enclosure fan. Corrective Action: Not Verified 5.11 LEGEND MARK MISSING: Reference: UL 508A, 1st Edition, Section 67.2.1 Each control device shall be identified as to its function by a legend plate placed next to the device. Discrepancy: There is a black rotary type knob located on the outside and right of the electrical enclosure door that is not identified by a legend marking. Active Required: Identify the knob and apply an appropriate legend marking identifying its purpose. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 12 of 20 5.12 WARNING MARKS MISSING OR NOT IN ENGLISH: Reference: UL 508A, 1st Edition, Section 67.4.1 An enclosure that does not clearly contain electrical parts shall be marked, "CAUTION - High Voltage - V", or with a black lightning flash on a yellow background within a black triangle as in Figure 67.1, or an equivalent marking. Exception: Equipment provided with external electrical devices such as disconnect handles and operator controls are not required to comply with this requirement. Discrepancy: The enclosures that are housing electrical devices and components do not have the appropriate WARNING marks as mentioned above. Action Required: Apply to the outside of enclosure doors and covers housing high voltage devices and components with the described marking above. Corrective Action: Not Verified 5.13 GROUNDS AND GROUND MARKINGS: Reference: NFPA 79, 1st Edition, Section 8.2.1.2, 8.2.1.3.1, and 8.2.1.3.4 8.2.1.2 - The machine and all exposed, noncurrent carrying conductive parts, material, and equipment likely to be energized shall be effectively grounded. Where electrical devices are mounted on metal mounting panels that are located within nonmetallic enclosures, the metal mounting panels shall be effectively grounded. Where specified by the manufacturer, components and subassemblies shall be bonded to the equipment grounding (protective bonding) circuit in accordance with the manufacturer's instructions. 8.2.1.3.1 - For each incoming supply circuit, an equipment grounding (protective) conductor terminal shall be provided in the vicinity of the associated phase conductor terminals. 8.2.1.3.4 - The equipment grounding (protective) conductor terminal shall be identified with the word "GROUND," the letters "GND" or "GRD," the letter "G," the color GREEN, or the symbol in Figure 8.2.1.3.4. In addition to the required marking, the letters PE shall also be permitted to identify this terminal. Discrepancy: There is no grounding of panel or electrical equipment to earth ground. Action Required: Provide grounding terminal connections to panel with markings. Then install the appropriate equipment grounding connections to electrical components requiring bonding to grounds. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 13 of 20 6 Evaluation Details The following specific areas were evaluated using the methods described. All items comply with the applicable parts of standard(s) referenced in Section 3.0, unless stated otherwise in Section 5.0 of this • report. Additional characteristics and features unique to the product were further addressed as deemed necessary considering the final installation site, or as required by the applicable product safety standard(s). • 6.1 Critical Components • Method: The following critical components were inspected for evidence of Listing or Recognition according to UL policies: - Circuit Breakers / Fuses - Enclosures - Motor Overload Devices - Motors - Power Disconnecting Devices - Relays - Switches and Controllers - Terminal Blocks - Transformers and Power Supplies - Wire and Cables Results: The critical components are Listed or Recognized by a testing laboratory acceptable to UL according to UL policies. 6.2 Drawings and Instructions Method: The information necessary for safe installation, operation and maintenance of the equipment is reviewed for completeness and accuracy. The review may include drawings, diagrams, charts and /or tables based upon the complexity of the equipment and the service environment. Results: User and maintenance manuals, electrical /mechanical schematics, bills of materials, parts lists and /or programming instructions are provided as appropriate. 6.3 General Operating Conditions Method: The design, assembly and installation of the equipment are examined for suitability with the environment, electrical supply and operating conditions of the installation site. Results: The general operating conditions are acceptable for the design and use of the equipment as • required by standards referenced in Section 3.0. 6.4 Grounding and Bonding Method: All accessible metal parts are verified (visually and /or by test) to be bonded together and to be connected to the supply equipment grounding conductor. Where applicable, a bonding continuity test is conducted and the results recorded. Results: The product is grounded and bonded according to applicable standards referenced in Section 3.0 and Article 250 of the NEC. The product has an identified terminal to connect the supply equipment grounding conductor or a suitable cord with an integral equipment grounding conductor. • 2011 - 3717 -FE Field Evaluation Services Report Page 14 of 20 • 6.5 Guarding of Live Parts Method: The, product is visually inspected to ensure that all components were housed in a suitable enclosure and made effectively inaccessible to unauthorized persons. An articulated finger probe is used to measure access where necessary. Vent openings are verified not to align with potential discharge paths of gases expelled from circuit breakers when clearing fault conditions. Results: Enclosures prevent contact with moving parts,. electrically energized parts and hot parts. Enclosures provide an acceptable degree of protection for internal components (according to the product's installation environment). All electrically live parts :external .to the enclosure are guarded 'as required by the applicable: standards. No electrically hazardous energized parts are accessible from the exterior of the ultimate enclosure as required by. Section '110.27 of the NEC. • • 6.6 Markings Method: The product nameplate is inspected for all required information. The content, placement and format of hazard- warning labels, fuse replacement markings, environmental limitations and installation type markings are also verified. • • • Results: The product bears the required markings according to the applicable standard(s). Additional • markings are identified for the installation site, as the working environment requires. 6.6.1 Hazard Warning Labels • • Applicable hazard warning markings that identify known hazards are located on or within the • product. • 6.6.2 Fuse Replacement Fuse replacement markings are provided and installed at all fuse locations or on a permanent • chart suitable for the intended environment. 6.6.3 Unit Nameplate The product bears a permanent nameplate, suitable for the intended installation environment and with all the applicable information. The nameplate is visible or accessible after installation • or located for access according to the provisions in the referenced standard(s). • 6.7 Means of Disconnect • Method: Disconnecting means shall be located within sight from and readily accessible from the equipment. The disconnecting means shall be permitted to be installed, on or within . equipment, but shall not be located on panels that -are designed to allow'access to the equipment or to obscure the equipment nameplate(s).. The disconnecting means shall open all ungrounded supply conductors and;shall be designed:so that.no.pole can.be operated • • independently. The device shall be designed 'so thatit cannot be closed automatically. • Results: The disconnect is within sight, readily accessibleand is installed and operates as required. • • • • • • • • • 2011- 3717 -FE Field Evaluation Services Report Page 15 of 20 • • 6.8 Mechanical Protection Method: Moving parts, such as rotors of motors, chains, pulleys, belts and gears are evaluated for risk of injury to persons. The degree of protection required depends upon the general design and intended use of the product. The factors considered in judging the acceptability of exposed moving parts are: a) The degree of exposure, • b) The sharpness of the moving parts, c) The likelihood of unintentional contact with the moving parts, d) The speed of movement of those parts, and e) The likelihood of fingers, arms or clothing being drawn into the moving parts, such as at points where gears mesh, where belts travel onto a pulley or where moving parts close in a pinching or shearing action. Results: Exposed moving parts are enclosed or guarded to reduce the risk of injury to persons. 6.9 Mounting of Components • Method: Components that support live parts and uninsulated current carrying parts are secured to prevent them from turning or shifting in position if such motion may result in a reduction of spacings below the minimum acceptable values. Friction between surfaces is not acceptable as a means of preventing shifting or turning of a live part. Result: Components are mounted such that they are fixed in place and protected from a reduction in electrical spacings and strain on wiring terminations. 6.10 Overcurrent Protection Method: The product is inspected to ensure that proper overcurrent protection exists for internal conductors and components. Overcurrent devices are inspected for proper ratings, including voltage, ampere and interrupting ratings, suitability as branch circuit protection (where required) and Listing. Results: Details as follows: 6.10.1 Components Components such as transformers, heater elements and motors have overcurrent protection of the correct ratings and proper type. 6.10.2 Conductors Factory and field installed internal conductors have proper overcurrent protection. 6.10.3 Supply The product has properly rated main overcurrent protection. Internal overcurrent protection is properly rated for the intended application. All devices designed to open under fault conditions have proper short circuit current interrupting ratings. 6.11 Protection from Electric Shock Method: Insulation materials, enclosures, interlocking devices and protective extra low voltage circuits are examined for suitability in protecting against electric shock and hazardous touch voltages. Results: The electrical equipment provides protection of persons from electrical shock. Where access to energized parts is required for proper use and maintenance of the equipment, interlocks and additional safeguards are employed to minimize exposure to hazardous touch voltages as required by the referenced standards. 2011 - 3717 -FE Field Evaluation Services Report Page 16 of 20 6.12 Suitability for Installation Method: The product is inspected to ensure suitability for installation according to the NEC as • specified in the referenced standard(s). This inspection determined whether correct working space and clearances existed, noted proper wire bending space for all field wiring, observed provisions for mounting and assured that areas for conduit entries, as applicable, were in place. • Results: Details as follows: • 6.12.1 Clearance and Working Space • The product is or can be installed with acceptable access, clearances, working spaces and distances from combustibles. 6.12.2 Wire Bending & Gutter Space • Wire bending space . for all field wiring exists according to the NEC. 6.13 Supply Conductors and Disconnect • Method: Incoming supply circuit conductors are examined for proper identification, location, accessibility, separation from other internal conductors, bending space and disconnecting means. Circuits not disconnected by/the main supply disconnecting means, where permitted, are also examined for identification, isolation and guarding. • Results: The supply conductors are mounted as near as practical to'the top of the enclosure, or are separated from internal conductors.by barriers. The conductors terminate at the • disconnecting means and are properly- identified. The disconnecting means is not more than 2.0 m (6 ft 7 in) above the servicing level. 6.14 Wiring and Wiring Methods • Method: All.conductors were inspected for Listing or Recognition by a nationally recognized testing laboratory according to UL policies.. The conductors -were examined for proper ratings (voltage, ampacity, temperature, flexibility,' flame and environmental. ratings) as required for the application. The wiring methods were verified to comply with the applicable standards and provide proper physical protection, including strain relief, Where applicable. The wiring terminations were inspected for correct application, number of conductors according to their Listing and correct ampacity based on temperature ratings. Results: Details as follows: • 6.14.1 Separation of Circuits . Unless provided with insulation rated for the highest voltage involved, low voltage and line voltage circuit wires within enclosures are segregated or separated by barriers. The product • wiring' for low voltage and line voltage•circuits outside'enclosures is ' installed in separate' raceways or wireways. ' • • 6.14.2 Supply . • • • . • • The supply connection point(s) have properterminals and identification provide 6.14.3 Conduit Connections • All conduits, gutters, and wireways are properly supported and properly sized for the number and size of conductors. 614.4 Wire Terminations, • - All wire terminations are suitable for the number and the size of conductor(s) installed. • 2011-3717-FE Field Evaluation Services Report Page 17 of 20 • 6.14.5 Strain Relief External conductors, cable assemblies entering enclosures and internal conductors are • secured to prevent strain being transmitted to terminations. 6.14.6 Wiring Methods • Internal wiring methods are in compliance with the requirements of the applicable standard(s). All wiring is routed, secured and protected from moving parts, external heat sources and sharp edges. 7 Test Results The following tests verified that the product operates within normally expected parameters. Unless stated • otherwise in Section 5.0, all the following items comply with the applicable part(s) of the referenced standard(s). Field evaluation test methods follow the applicable standards as closely as practical, considering the limits of a non - laboratory field setting and the need for the equipment to perform its function following the test. • Tests to be conducted during final evaluation 2011 - 3717 -FE Field Evaluation Services Report Page 18 of 20 8 Photographs [LEY, f ; .'.= �eran�l 1 .3 �.� • . • MEM ,.:.:4: ' ."-.'-',..; ,-44 ,,...:-.-- r..;:., •''. . • • z ,. '_. � i a !r G pp ' 7y,YM1 F i f U I'4 '\'. ; u T � • • • Ph o t o 1 Interior view of the electrical control •anel and wire se•arat i ssue. s -J - r • ,;;;;„•!‘ `,...,•.,,ii-q,-1,,,,,,-„,...,-„,:;,,,,-",,::,•;f:;:::;,-!ii,..,.0. '.'•,•.,.::-.•'.., '' •!? 4 • .i \ i ' ''' r � a t kA a T x , r ' .? •x � i ' ::. y ,.....:4;,,,,›•1'.,' € t ,, • r °.1 r �. i t ° ; : 'e f t : . C .'j r '' ' # Y rw " fa '% Aikii.; 4 L1.4 A .! . 0, {i r ti �' • • Q F .r F t „� Y R e .�` € y • • • �' .Fi f f` .. ` �' 4 '.r R ''n a 7 _gig t � • ' ` i ' � .,i �. e ` t* * * * w Photo 2 View of the fan wirin• slice issue. • 2011-3717-FE Field Evaluation Services Report Page 19 of 20 1 r :=" Lys '` "... ---,,c ' ; • Photo 3 View of the black rota knob le•end mark issue "" ;: -- -- -,---- , r I.- s ., a ^� i n dd P - v ., . , ‘1: _,,,,4 f , rif,, 7 lit,;,, { ^ t: 3 : -:, ` =a ,v, d ag tee 4. Photo 4 Interior view of the dan • erous hi • h s •eed rotatin • devices 2011 - 3717 -FE Field Evaluation Services Report Page 20 of 20 • (13 the standard in safety Underwriters Laboratories Field Evaluation Services Preliminary Findings Report For Fine Line Back Twisted Machine 130mm Requested by: Technical Services For Electronics Inc 108 5th Avenue Northwest P.O. Box 616 Arlington, MN 55307 Installation Site and Authority Having Jurisdiction Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon 97223 City of Tigard, Tigard, Oregon 97223 Evaluation Number: 2011 - 3717 -FE File Number: FE7738 Report by: • Reviewed by: 4./ �/7 M,2e i,,,,e1 Joseph C. Butler Robert M. Starasinich Unaerwr ters Laborarnnes In; 2600 NM. Lake Road, Camas. WA 9860i-854: Report Date: November 23, 2011 1: 360 360.617 500 r F 360 817 60001 W . nr nnr Table of Contents 1 Executive Summary 3 2 Conditions of Acceptability 3 3 Referenced Standards 4 4 Product Description 4 4.1 Nameplate Data 5 5 Evaluation Discrepancies 5 5.1 INTERNAL WIRING: 5 5.2 MARKING ON MOTORS: 6 5.3 ENTRY DOOR TO HIGH SPEED DEVICES: 7 5.4 WIRE CONNECTIONS AND STRAIN RELIEF 7 5.5 MAIN BRANCH CIRCUIT PROTECTION: 8 5.6 POWER SUPPLY' 9 5.7 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: 9 5.8 INSUFFICIENT NAMEPLATE: 10 5.9 GROUNDS AND GROUND MARKINGS: 11 6 Evaluation Details 11 6.1 Critical Components 11 6.2 Drawings and Instructions 12 6.3 General Operating Conditions 12 6.4 Grounding and Bonding 12 6.5 Guarding of Live Parts 12 6.6 Markings 12 6.7 Means of Disconnect 13 6.8 Mechanical Protection 13 6.9 Mounting of Components 13 6.10 Overcurrent Protection 13 6.11 Protection from Electric Shock 14 6.12 Suitability for Installation 14 6.13 Supply Conductors and Disconnect 14 6.14 Wiring and Wiring Methods 14 7 Test Results 15 8 Photographs 16 2011 - 3717 -FE Field Evaluation Services Report Page 2 of 17 1 Executive Summary Federal OSHA requirements mandate that all electrical equipment in the workplace be "certified" or subjected to a complete and thorough evaluation before use (29 CFR 1910.303 and 1910.399). Many state, county and city electrical jurisdictions have similar requirements. A UL Field Evaluation is an accepted approach to meet this requirement; UL conducts an unbiased, independent assessment of products at a specific location to essential requirements of applicable product safety standard(s). UL's engineering assessment informs regulating authorities who make product and related installation approval decisions. Please note that the regulating authority for the final installation site provides final approval of this equipment and the installation. This project's purpose was to evaluate a product that was not Listed or otherwise certified by a testing laboratory recognized by the authority having jurisdiction. Products undergoing this evaluation process do not acquire a UL Listing, UL Recognition, or UL Classification. UL has not established factory Follow -Up Services to determine the conformance of any subsequently produced, relocated, or otherwise altered product(s) or system(s). Installation model codes are referenced in this document where necessary to ensure the product can be properly installed according to the code (e.g. National Electrical Code, NFPA 70). At the request of Mr. Gary VanNice of Technical Services For Electronics Inc, a Field Evaluation project was initiated. A Preliminary evaluation was completed at: • Technical Services for Electronics Inc, 10565 Southwest Nimbus Avenue, Tigard, Oregon. The results of the preliminary evaluation identified items that do not comply with applicable standard(s) and require corrective action as detailed in this report. When these discrepancies are corrected, a final inspection is required to verify that changes have rendered the equipment compliant and complete the Field Evaluation. 2 Conditions of Acceptability Except where otherwise stated in the product description and evaluation sections of this report, this evaluation and the application of the Field Evaluated Product Mark is subject to the following Conditions of Acceptability. 2.1 Except for like- for -like component replacement in the event of component failure, no change or addition to the product or system shall be made that would alter its construction, operation, function, layout, source of supply, physical location or operating environment. If such changes or additions to the product occur, the Field Evaluated Product Mark shall be considered invalid, and a separate evaluation shall be required to determine compliance with applicable product safety standards under the changed conditions. 2.2 The completed evaluation and application of the UL Field Evaluated Product Mark by UL does not assume liability on the part of UL and does not relieve the manufacturer, installer, user, or other relevant parties of their responsibilities. The product evaluation is based on adherence to sound engineering practices, and compliance with the applicable product safety standards and installation code. 2011 - 3717 -FE Field Evaluation Services Report Page 3 of 17 2.3 This evaluation considered the risks associated with electric shock, fire, and casualty hazards as specified in the evaluation section of the report only. No other hazards were evaluated during this evaluation. 2.4 Unless otherwise stated in the product description, this product was evaluated for installation in an indoor, dry, normal environment only. The product was not evaluated for installation in any hazardous classified location as defined in the latest edition National Electrical Code as adopted by the National Fire Protection Association. The product was not evaluated for installation in an environment subject to rainfall, water spray, steam, or exposure to any corrosive chemicals that deteriorate the enclosure or components. 2.5 The UL Field Evaluated Product Mark shall not be considered as equivalent to the UL Listing Mark, UL Recognized Component Mark, or UL Classified Product Mark. The UL Field Evaluated Product Mark indicates compliance with the applicable parts of the Standards referenced in Section 3 at the time the Mark was applied, and considering only the final installation site. The applicable parts included in the evaluation are the construction review, markings, and those testing protocols that are non - destructive. 3 Referenced Standards • NFPA 70, National Electrical Code, 1st Edition, Revised 10/19/2011 • NFPA 79, Electrical Standard For Industrial Machinery, 1st Edition • UL 508A, Standard For Industrial Control Panels, 1st Edition, Revised 02/04/2010 • UL Subject 2011, Outline of Investigation for Factory Automation Equipment, 2 edition, 12/27/06 4 Product Description Equipment Name: Fine Line Back Twisted Machine 130mm ..... ' mik 4 . p. - 7 - , -- Ambi : ,, N ir i i i..) : , 1 -it. .. i: 11111 YA £ 'E" R l t • Machine Front View Machine Back View Description: This evaluation was for a 130MM Micro Twister machine. This manufactures precision electrical cabling for use with medical equipment. Multiple fine conductor wire, as small as 56 AWG, is fed into one side of this machine then the multiple conductors are twisted together to form a fine stranded cable giving the fine conductors strangth but in the smallest diameter possible, for an example to enter small organs within the human body for 2011- 3717 -FE Field Evaluation Services Report Page 4 of 17 medical surgery. The machine is a single motor attached to the twisting device that rotates at very high revolutions. Manufacturer: Dongguan Toyo Electrical Technology Co Ltd Model number: 130MM Serial number: 1 4.1 Nameplate Data Electrical Ratings Volts 380 Vac Amps 10 A Phase 3 Wire 3 + ground Frequency 60 Hz Additional Rating single motor 3.42 hp 5 Evaluation Discrepancies This section details the non - compliant findings of the preliminary evaluation. Unless corrective actions are described, a final evaluation is necessary to complete all remaining tests and verify that changes have rendered the equipment compliant. 5.1 INTERNAL WIRING: Reference: NFPA 79, 1st Edition, Section 13.1.5 Cables subjected to physical damage shall be protected as follows: (1) By alternative routing (2) With additional guarding or railings (3) When supported by flooring or decking, with walk over or drive over cable protective devices (4) By installation in a wire way (5) By installation in a floor or deck covering trapezoidal walk over raceway specifically designed for cable protection. Discrepancy: There are two wiring bundles with multiple cable and wiring that are subjected to physical damage due to their location and routing within the machine. Wiring routed on interior left side of the pull out control panel and wiring routed against the motor pulley belt area of the machine. See photos in section 8. Action Required: Find alternate routing and supporting of these wiring harnesses from these damaging areas of concern. Corrective Action: Not Verified 2011- 3717 -FE Field Evaluation Services Report Page 5 of 17 5.2 MARKING ON MOTORS: Reference: NFPA 79 /NEC 70, 2007/2011 Edition, Section 14.4.4/430.7 NFPA 79: 14.4.4 - Motors shall be marked in accordance with Section 430.7 of NFPA 70, National Electrical Code. NEC 70: 430.7 - Usual Motor Applications shall be marked with the following information: (1) Manufacturer's name (2) Rated volts and full -load current (3) Rated frequency and number of phases if an ac motor (4) Rated full -load speed (5) Rated temperature rise of the insulation system class (6) Time rating or continuous (7) Rated horsepower if 1/8 hp or more (9) Design letter for design B, C, or D motors (10) Secondary volts and full -load current if a wound -rotor induction motor (11) Field current and voltage for dc motors (12) Winding if applicable (13) Thermal protection if applicable (14) Impedance protected if applicable, and (15) Rating of powered condensation prevention heaters if applicable Discrepancy: The motor nameplate marking was not installed on the motor but was found on flooring of the machine beneath the motor. Action Required: Apply the motor's nameplate marking permanently to the motor so it can be visible for reading. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 6 of 17 5.3 ENTRY DOOR TO HIGH SPEED DEVICES: Reference: UL Subject 2011, Issue no. 2 5.1 To reduce the risk of unintentional contact with a live or moving part, factory automation equipment shall be provided with appropriate mechanical barriers or curtains except as indicated in 5.4. See 5.2. 'Exception: It is not necessary to provide a barrier or curtain on locations of • factory automation equipment marked in accordance with the Standard for Industrial Control Equipment, UL 508, to warn of the risk of injury or shock related to unintentional contact. with a live or moving part. • With regard to 5:1,,the factors to be considered in determining whether a barrier, curtain, or marking • is appropriate to address a particular risk of injury or shock include: . a) The electrical levels of the live part; b) The sharpness.and speed of the moving part; and c) The likelihood of unintentional contact. Discrepancy: The main entry door to the high speed rotary devices within the machine is not • marked appropriately in English. This door, if opened while machine is operating has dangerous high speed rotating devices that are not guarded from contact • and may cause injury. • Action Required: Apply appropriate labeling and Warning marks to this door to warn personnel of the dangers of opening this door without disconnecting power at the disconnecting means. Corrective Action: Not Verified 5.4 WIRE CONNECTIONS AND STRAIN RELIEF: Reference: • UL 508A, 1st Edition, Section 28.5.3 At the point at which the cord passes through the enclosure wall, a strain relief bushing shall be provided to prohibit cord abrasion. The strain relief bushing shall comply with the Standard for Conduit, Tubing, and Cable, Fittings, UL 514B. Exception: A strain relief means that complies with the requirements in the • Standard for Industrial :Control Equipment, UL 508: Discrepancy: The wiring connections to and from the machine's lubrication system mounted on the outside front of. the machine has loose cable jacketing, exposing the wiring • that may cause;an electrical . shock and fire hazard. , • • Action Required: Reinstall the wiring cables to the strain reliefs or the strain reliefs if damaged. Corrective Action: Not Verified . • 2011- 3717 -FE Field Evaluation Services Report Page 7 of 17 5.5 MAIN BRANCH CIRCUIT PROTECTION: Reference: UL 508A, 1st Edition, Section 31.2.1, 31.1.1 and 66.7.4 31.2.1 - A branch circuit protective device shall be installed in each ungrounded conductor to the load(s) involved. 1 Exception: An industrial control panel that is intended to be installed on the • • load side of branch circuit protection provided in the field and marked in accordance with 60.1 is not required to comply with this requirement. 2 Exception: Branch circuit fuses are not required to be provided in a branch circuit fuseholder having a pole for each ungrounded conductor where the fuseholder is sized to accept the branch circuit fuse required in 31.3 - 31.8. 31.1.1 - An inverse -time or instantaneous -trip circuit breaker shall comply with the requirements in the Standard for Molded -Case Circuit Breakers, Molded - Case Switches, and Circuit - Breaker Enclosures, UL 489. An instantaneous -trip circuit breaker, in combination with the motor controller and motor overload device, shall additionally comply with the requirements for combination motor controllers in the Standard for Industrial Control Equipment, UL 508. 66.7.4 - The main overcurrent protection shall be sized based on the sum of: a) The largest ampere rating of branch circuit protective devices.in the panel; b) 125 percent of all heater loads; c) 125 percent of the largest motor load; and d) The full -load currents of all remaining motors and other loads that are simultaneously operable. 1 Exception: When branch circuit protection is not provided within the panel, the main overcurrent protection shall comply with Section 31, Branch Circuit Protection, for single motor or heater loads or for a group of loads. 2 Exception: Where internal conductors are sized based on the exception to 66.5.6, the ampere rating of the main overcurrent protective devices shall not exceed the conductor ampacity in Table 28.1. Discrepancy: The circuit breaker provided is not recognized by any NRTL, Nationally Recognized Testing Laboratory and is not branch rated. This device may cause an electrical shock and fire hazard. Action Required: Replace with a Listed Molded -Case Circuit Breaker rated for branch circuit protection or Listed and branch rated fusing with appropriate fuseholders. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 8 of 17 5.6 POWER. SUPPLY: Reference: • UL 508A, 1st Edition, Section 42.2.3.1 A power supply or bridge rectifier shall be loaded at not more than 50 percent of the ampere rating of the device. Where the power supply has multiple secondaries, each secondary shall be loaded at not more than 50 percent of the secondary ampere rating. 1 •Exception: An enclosed power supply having provisions for connection to conduit is able to be used for loading to 100 percent of the ampere rating of the power supply. • . • 2 Exception: A power supply that complies. with the Temperature Test in the Standard for Industrial Control Equipment; UL 508, is able to be used for loading to 100 percent of the ampere rating of the power supply. Discrepancy: Open type: This open board power supply is without appropriate markings, with no circuit protections on the primary or secondary circuits, and is not recognized or Listed. Closed type: This enclosed type power supply is recognized only, with no circuit protections on the primary and secondary circuits. Recognized power supplies are restricted to usage requiring circuit protections on primary and secondary • circuits. Action Required: Install appropriately sized circuit protections to the primary and secondary circuits to and from the power supplies at 50% current ratings, as • mentioned above. Corrective Action: • Not Verified 5.7 ELECTRICAL SCHEMATIC WIRING DIAGRAMS: Reference: UL 508A, 1st Edition, Section 61.1 • An industrial control panel shall be provided with a complete electrical schematic wiring diagram including all components provided by the manufacturer. Field installed components shown-on the schematic wiring diagram shall comply with • • 60.3. . Discrepancy: The machine did not have completed or appropriate electrical schematic wiring diagrams available during this evaluation. . • Action Required: Provide a copy of the schematic wiring diagrams for • further • evaluation. • • ' C orrective Action: • Not Verified • • 2011- 3717 -FE Field Evaluation Services Report Page 9 of 17 • • 5.8 INSUFFICIENT NAMEPLATE: Reference: UL 508A, 1st Edition, Section 52.1, 49.1, 49.2, 49.5 and 67.1.2 52.1 - An industrial control panel shall be provided with a nameplate marking that includes the following: a) Manufacturer's name or authorized designation; b) Complete electrical rating of each source of supply as specified in 49.1; c) Field wiring diagram number when required load ratings from 52.2 or field wiring information of 54.1 - 54.9, 60.1, or 60.2 is included only on the diagram; and d) Factory identification as specified in 52.5. e) Enclosure Type rating (for enclosed panels only) as specified in 53.1. 49.1 - The input terminals intended to be connected to each source of supply shall be rated in volts, total full -load amperes, ampere or horsepower rating of the largest motor (when multiple loads are controlled), number of phases when other than single phase, and the frequency. 49.2 - The full -load ampere rating of the panel shall, at a minimum, include the sum of the ampere ratings of all loads that are able to be operated simultaneously plus the primary ampere rating of all control transformers connected to the input voltage. 52.1 - Each set of input terminals in 49.1 supplying a power circuit shall have a short circuit current rating. The short circuit current rating shall be determined based upon the requirements in Supplement SB. 67.1.2 - When provided with main overcurrent protection, the nameplate shall include "short circuit current rating of the protective device" in amperes. Discrepancy: The manufacturer's nameplate was insufficient and does not include the required information mentioned in the above paragraphing. Action Required: Provide the appropriate information and ratings then apply to the machine, visible and with permanent markings for the work environment. Corrective Action: Not Verified 2011 - 3717 -FE Field Evaluation Services Report Page 10 of 17 5.9 GROUNDS AND GROUND MARKINGS: Reference: NFPA 79, 1st Edition, Section 8.2.1.2, 8.2.1.3.1, and 8.2.1.3.4 • • • 8.2.1.2 - The machine and all exposed, noncurrent carrying conductive parts, material, and equipment likely to be energized shall be effectively grounded. Where electrical. devices are mounted on metal mounting panels that.are located within nonmetallic enclosures, the metal mounting panels shall be effectively grounded., Where specified by the manufacturer, components and subassemblies • shall be bonded to the.equipment grounding (protective bonding) circuit in accordance with the' manufacturer's instructions. • 8.2.1.3.1 For each incoming supply circuit, an equipment grounding (protective) • conductor terminal shall be provided in •the•vicinity of the associated phase • conductor terminals. 8.2.1.3.4 - The equipment grounding (protective) conductor terminal shall be • identified with the word "GROUND," the letters "GND" or "GRD," the letter "G," • the color GREEN, or the symbol in Figure 8:2.1.3.4. In addition to the required marking, the letters PE shall also be permitted to identify this terminal. Discrepancy: There is no grounding of panel or electrical equipment to earth ground. Action Required: Provide grounding terminal connections to panel with markings. Then install the appropriate equipment grounding connections to electrical components requiring bonding to grounds. Corrective Action: • Not Verified • • • • 6 Evaluation Details The following, specific areas were evaluated using the methods described. All items comply with the • applicable parts of standards) referenced in Section 3:0, unless stated otherwise in Section 5.0 of this report. Additional characteristics and featuresunique to.the product were further addressed as deemed • • necessary considering the final installation site,•or as required by the applicable product safety. standard(s). • 6.1 Critical Components • • Method: The following critical components were inspected for evidence of Listing or Recognition according to UL. policies: . • - Circuit Breakers / Fuses - Contactors - Enclosures - Motor. Overload Devices • • - Motors - Power Disconnecting Devices - Switches and Controllers - Terminal Blocks • - Transformers and Power Supplies - Wire and Cables • Results: The critical components are Listed or Recognized by a testing laboratory acceptable to UL • according to UL policies. • 2011 - 3717 -FE Field Evaluation Services Report Page 11 of 17 • 6.2 Drawings and Instructions Method: The information necessary for safe installation, operation and maintenance of the equipment is reviewed for completeness and accuracy. The review may include drawings, diagrams, charts and /or tables based upon the complexity of the equipment and the service environment. Results: User and maintenance manuals, electrical /mechanical schematics, bills of materials, parts lists and /or programming instructions are provided as appropriate. 6.3 General Operating Conditions Method: The design, assembly and installation of the equipment are examined for suitability with the environment, electrical supply and operating conditions of the installation site. Results: The general operating conditions are acceptable for the design and use of the equipment as required by standards referenced in Section 3.0. 6.4 Grounding and Bonding Method: All accessible metal parts are verified (visually and /or by test) to be bonded together and to be connected to the supply equipment grounding conductor. Where applicable, a bonding continuity test is conducted and the results recorded. Results: The product is grounded and bonded according to applicable standards referenced in Section 3.0 and Article 250 of the NEC. The product has an identified terminal to connect the supply equipment grounding conductor or a suitable cord with an integral equipment grounding conductor. 6.5 Guarding of Live Parts Method: The product is visually inspected to ensure that all components were housed in a suitable enclosure and made effectively inaccessible to unauthorized persons. An articulated finger probe is used to measure access where necessary. Vent openings are verified not to align with potential discharge paths of gases expelled from circuit breakers when clearing fault conditions. Results: Enclosures prevent contact with moving parts, electrically energized parts and hot parts. Enclosures provide an acceptable degree of protection for internal components (according to the product's installation environment). All electrically live parts external to the enclosure are guarded as required by the applicable standards. No electrically hazardous energized parts are accessible from the exterior of the ultimate enclosure as required by Section 110.27 of the NEC. 6.6 Markings Method: The product nameplate is inspected for all required information. The content, placement and format of hazard- warning labels, fuse replacement markings, environmental limitations and installation type markings are also verified. Results: The product bears the required markings according to the applicablestandard(s). Additional markings are identified for the installation site, as the working environment requires. 6.6.1 Hazard Warning Labels Applicable hazard warning markings that identify known hazards are located on or within the product. 6.6.2 Fuse Replacement Fuse replacement markings are provided and installed at all fuse locations or on a permanent chart suitable for the intended environment. 2011 - 3717 -FE Field Evaluation Services Report Page 12 of 17 6.6.3 Unit Nameplate • The product bears a permanent nameplate, suitable for the, intended installation environment and with all the applicable information. The nameplate is visible or accessible after installation or located for access according to the provisions in the referenced standard(s). 6.7 Means of Disconnect • Method: Disconnecting means shall be located within sight from and readily accessible from the equipment. The disconnecting means shall be permitted to be installed on or within equipment, but shall not be located on panels that are designed to allow access to the • equipment or to obscure the equipment nameplate(s).. The disconnecting means shall open all ungrounded supply conductors and shall be designed so• that no.pole can be.operated independently. The•device shall be'designed so that-it cannot be closed automatically. • Results: The disconnect is within sight, readily accessible and is installed and operates.as required. 6.8 Mechanical Protection • Method: Moving parts, such as rotors of motors, chains, pulleys, belts and gears are evaluated for risk • of injury to persons. The .degree of protection required depends upon the general design and intended use of the product. The factors considered in judging the acceptability of exposed moving parts are: a) The degree of exposure, b) The sharpness of the moving parts, c) The likelihood of unintentional contact with the moving parts, • d) The speed of movement of those parts, and • e) The likelihood of fingers, arms or clothing being drawn into the moving parts, such as at points where gears mesh, where belts travel onto a pulley or where moving parts close in a pinching or shearing action. • Results: Exposed moving parts are enclosed or guarded to reduce the risk of injury to persons. • • 6.9 Mounting of Components • • Method: Components that support live parts and uninsulated current carrying parts are secured to • prevent them from turning or shifting in position if such motion may result in a reduction of spacings below'the minimum acceptable values. Friction between surfaces is not acceptable • as, a means of'preventing shifting or turning of a live part. Result: Components are mounted such•that they are fixed in place and protected from a reduction in electrical spacings and strain on wiring terminations. • • 6.10: Overcurrent Protection Method: The product is inspected to ensure that proper protection exists for internal ' conductors and components.. Overcurrent devices are.inspected for proper ratings, including voltage, ampere and interrupting ratings, suitability as branch circuit protection (where • required) and Listing. Results: Details as follows: • 6.10.1 Components • • Components such as transformers, heater elements and motors have overcurrent protection • of the correct ratings and proper type. • • 2011- 3717 -FE Field Evaluation Services Report Page 13, of 17 6.10.2 Conductors Factory and field installed internal conductors have proper overcurrent protection. 6.10.3 Supply The product has properly rated main overcurrent protection. Internal overcurrent protection is properly rated for the intended application. All devices designed to open under fault conditions have proper short circuit current interrupting ratings. 6.11 Protection from Electric Shock Method: Insulation materials, enclosures, interlocking devices and protective extra low voltage circuits are examined for suitability in protecting against electric shock and hazardous touch voltages. Results: The electrical equipment provides protection of persons from electrical shock. Where access to energized parts is required for proper use and maintenance of the equipment, interlocks and additional safeguards are employed to minimize exposure to hazardous touch voltages as required by the referenced standards. 6.12 Suitability for Installation Method: The product is inspected to ensure suitability for installation according to the NEC as specified in the referenced standard(s). This inspection determined whether correct working space and clearances existed, noted proper wire bending space for all field wiring, observed provisions for mounting and assured that areas for conduit entries, as applicable, were in place. Results: Details as follows: 6.12.1 Clearance and Working Space The product is or can be installed with acceptable access, clearances, working spaces and distances from combustibles. 6.12.2 Wire Bending & Gutter Space Wire bending space for all field wiring exists according to the NEC. 6.13 Supply Conductors and Disconnect Method: Incoming supply circuit conductors are examined for proper identification, location, accessibility, separation from other internal conductors, bending space and disconnecting means. Circuits not disconnected by the main supply disconnecting means, where permitted, are also examined for proper identification, isolation and guarding. Results: The supply conductors are mounted as near as practical to the top of the enclosure or are separated from internal conductors by barriers. The conductors terminate at the disconnecting means and are properly identified. The disconnecting means is not more than 2.0 m (6 ft 7 in) above the servicing level. 6.14 Wiring and Wiring Methods Method: All conductors were inspected for Listing or Recognition by a nationally recognized testing laboratory according to UL policies. The conductors were examined for proper ratings (voltage, ampacity, temperature, flexibility, flame and environmental ratings) as required for the application. The wiring methods were verified to comply with the applicable standards and provide proper physical protection, including strain relief, where applicable. The wiring terminations were inspected for correct application, number of conductors according to their Listing and correct ampacity based on temperature ratings. Results: Details as follows: 2011 - 3717 -FE Field Evaluation Services Report Page 14 of 17 • 6.14.1 Separation of Circuits Unless provided with insulation rated for the highest voltage involved, low voltage and line voltage circuit wires within enclosures are segregated or separated by barriers. The product wiring for low voltage and line voltage circuits outside enclosures is installed in separate raceways or wireways. 6.14.2 Supply Connections The supply connection point(s) have proper terminals and identification provided. 6.14.3 Conduit Connections All conduits, gutters, and wireways are properly supported and properly sized for the number • and size of conductors. 6.14.4 Wire Terminations All wire terminations are suitable for the number and the size of conductor(s) installed. • 6.14.5 Strain Relief • External conductors, cable assemblies entering enclosures and internal conductors are secured to prevent strain being transmitted to terminations. 6.14.6 Wiring Methods Internal wiring methods are in compliance with the requirements of the applicable • standard(s). All wiring is routed, secured and protected from moving parts, external heat sources and sharp edges. • 7 Test Results The following tests verified that the product operates within normally expected parameters. Unless stated otherwise in Section 5.0, all the following items comply, with the applicable of the referenced standard(s). Field evaluation test methods follow the applicable standards as closely as practical, • • considering the limits of a non - laboratory field setting and the need for the equipment to perform its function following the test. • Tests to be conducted during final evaluation • • 2011- 3717 -FE Field Evaluation Services Report Page 15 of 17 8 Photographs 71 4 1 !, I ,,('� '� I , s -r / , ' • A.* j , . �,. e' 4 i •''' • S° , GY ) N t _ Ail, ft �,• ,: �` C0' -'9.- _.. Ate kh * It , P it. 1 V -'� • - •7.i !\ ( •!•I= Ii= l(•111(d•t' t• fil yp1r *1tik1 IT:t. I . i .._,_ L .! ;., a 1.. - a # a, N t +e ei 3 A �i: AALS LUB M s �un �sarmprtrercu t.r. X g x,� - u - #,;,. Photo 2 View of accesso lubricatin • s stem with wire strain relief issues • 2011 - 3717 -FE Field Evaluation Services Report Page 16 of 17 • I • y Ste' 8 . s "e 11_74::2;,:-..--7-7''' ,r.+ ci, ''''4.: 'N .'. , , f (, s., 4:,'',.'\ 4.L,iyn t - a z E r . ;, f f a i 11 • • s y � a' •? t • a a P 't g 9 • ''' s • Photo 3 V of the detached motor name •late needin • to be a • •lied. • • ,. y am' yy. e 3 • ( Y Y+x 'f it Lj',I f ,• r , ` a - � 1 . ,. •o t t , . »,. k a a ",J ! ,. '� �.; ¢,� x g 4 . am `'` r ; - e `S. r z t '° ma '. { rte r. .r Y -- - : c a V • Photo 4 Vie o f he dan•erous hi•h seed rotatin• device access. o t 2011 - 3717 -FE Field Evaluation Services Report Page 17 of 17 EL_ca© -Cr Sco • ( the standard in safety Underwriters Laboratories November 15, 2011 City of Tigard 13125 Sw Hall Blvd. Tigard, OR 97223 Attention: Mr. Gary Noble: Our Reference: FE7738, 2011 - 3717 -FE, 11CA58136 Subject: Notice of Contract to Complete a Field Evaluation Underwriters Laboratories has been contracted to conduct a Field Evaluation on equipment that does not carry an acceptable certification. The following information is provided for your reference. Installation Site: Technical Services for Electronics Inc 10565 SW Nimbus Ave • Tigard, OR 97223 Equipment Description: (02) 130 Fine Line Back Twisted Machine This project is being completed for the following client: Technical Services For Electronics Inc 108 5th Ave Nw Po Box 616 Arlington, MN 55307 Mr. Ryan Cook If you wish to be present for any part or all of the evaluation, please let us know and we can inform you as to the date(s) and time(s). In the event you have any questions or comments, please do not hesitate to contact me at the number shown below. Kind regards, Kristen McConnell Customer Service Professional I Field Engineering Services Direct Line: 1- 877 -UL -HELPS (1 -877- 854 - 3577), Option: 2 Email: fieldevaluationsus.ul.com (Please include our references above in the subject line of email correspondence.) cc: Mr. Ryan Cook — Technical Services For Electronics Inc Underwriters Lat?oratnr N in; 26001 Lake Road, Camas. Wk 9860/ -8542 USA I . 3 817;500 i F. 360 817 60001 W. ul corn R I/ C / 6 $ lit/I ►�. SAVC I o-c February 24, 2012 Technical Services For Electronics Inc 108 5th Ave Nw Po Box 616 Arlington, MN 55307 Attention: Mr. Ryan Cook Our Reference: FE7738, 2011 - 3717 -FE, 11CA58136 Subject: Field Evaluation of Fine Line Twisting Machine Dear Mr. Cook: UL has completed a Field Evaluation of the above subject equipment. Please find attached one electronic copy of the final report(s) for this project. With the issuing of this report, we are closing this project and notifying our accounting department to invoice you for any outstanding charges. This report should be reviewed to verify that the information provided is complete and correct, and to determine whether further action may be required by the AHJ for final approval of the installation. If you have any questions or if we can be of service in future projects please do not hesitate to call anytime. Kind regards, Cathy Sledjeski Administrative Specialist I Field Engineering Services Direct Line: 813 - 253 -9489 Email: Cathy.Sledjeski @ul.com CC: Mr. Gary Noble - Sr. Electrical Inspector, City of Tigard UL LLC 333 Pfingsten Road, Northbrook, IL 60062 -2096 USA • T: 847.272.8800 / F: 847.272.8129 / W: UL.com } Field Evaluation Services Final Report • For Fine Line Back Twisted Machine 130mm. Requested by: Technical Services for Electronics Inc. 108 - 5th Ave. NW, P.O. Box 616 Arlington, MN 55307 • Installation Site and Authority Having Jurisdiction: • Technical Services for Electronics Inc. 10565 SW Nimbus Ave., Tigard, OR 97223 • City of Tigard, Tigard, OR 97223 Evaluation Number: 2011- 3717 -FE • File Number: FE7738 • • • Report by: '' "" Reviewed by: 0144 -41 i,K.e A. Ha.wse,o, Titus S. Vader Christine' A. Hansen • UL LLC 333 Pfingsten Road,'Northbrook, IL 60062 -2096 USA T. 847 272 8800 / F: 847.272.8129 / W. UL.com Report Date: February 21, 2012 Table of Contents 1 Executive Summary 3 2 Conditions of Acceptability 3 3 Referenced Standards 4 4 Product Description 4 4.1 Nameplate Data 5 4.2 Field Evaluation Label 5 5 Evaluation Discrepancies 5 5.1 INTERNAL WIRING 5 5.2 MARKING ON MOTORS 6 5.3 MAIN BRANCH CIRCUIT PROTECTION 6 5.4 MOTOR OVERLOAD PROTECTION 7 5.5 POWER SUPPLY 8 5.6 WIRE CONNECTIONS AND STRAIN RELIEF 9 5.7 INSUFFICIENT NAMEPLATE 9 5.8 ENTRY DOOR TO HIGH SPEED DEVICES 10 5.9 ELECTRICAL SCHEMATIC WIRING DIAGRAMS 10 5.10 GROUNDS AND GROUND MARKINGS 11 6 Evaluation Details 12 6.1 Critical Components 12 6.2 Drawings and Instructions 12 6.3 General Operating Conditions 12 6.4 Grounding and Bonding 12 6.5 Guarding of Live Parts 12 6.6 Markings 13 6.7 Means of Disconnect 13 6.8 Mechanical Protection 13 6.9 Mounting of Components 14 6.10 Overcurrent Protection 14 6.11 Protection from Electric Shock 14 6.12 Suitability for Installation 14 6.13 Supply Conductors and Disconnect 15 6.14 Wiring and Wiring Methods 15 • 7 Test Results 16 8 Test Equipment 16 9 Photographs 17 2011 - 3717 -FE Field Evaluation Services Report Page 2 of 18 1 Executive Summary Federal OSHA requirements mandate that all electrical equipment in the workplace be "certified" or subjected to a complete and thorough evaluation before use (29 CFR 1910.303 and 1910.399). Many state, county and city electrical jurisdictions have similar requirements. A UL Field Evaluation is an accepted approach to meet this requirement; UL conducts an unbiased, independent assessment of products at a specific location to essential requirements of applicable product safety standard(s). UL's engineering assessment informs regulating authorities who make product and related installation approval decisions. Please note that the regulating authority for the final installation site provides final approval of this equipment and the installation. This project's purpose was to evaluate a product that was not Listed or otherwise certified by a testing laboratory recognized by the authority having jurisdiction. Products undergoing this evaluation process do not acquire a UL Listing, UL Recognition, or UL Classification. UL has not established factory Follow -Up Services to determine the conformance of any subsequently produced, relocated, or otherwise altered product(s) or system(s). Installation model codes are referenced in this document where necessary to ensure the product can be properly installed according to the code (e.g. National Electrical Code, NFPA 70). At the request of Mr. Gary VanNice of Technical Services for Electronics Inc., a Field Evaluation project was initiated. A Final Evaluation was completed at: • Technical Services for Electronics Inc., 10565 SW Nimbus Ave., Tigard, OR Based on the inspection, testing, and evaluation completed, UL considers the product to be suitable for application of the Field Evaluation Product Mark and for use in accordance with any conditions of acceptability stated in this report. 2 Conditions of Acceptability Except where otherwise stated in the product description and evaluation sections of this report, this evaluation and the application of the Field Evaluated Product Mark is subject to the following Conditions of Acceptability. 2.1 Except for like- for -like component replacement in the event of component failure, no change or addition to the product or system shall be made that would alter its construction, operation, function, layout, source of supply, physical location or operating environment. If such changes or additions to the product occur, the Field Evaluated Product Mark shall be considered invalid, and a separate evaluation shall be required to determine compliance with applicable product safety standards under the changed conditions. 2.2 The completed evaluation and application of the UL Field Evaluated Product Mark by UL does not assume liability on the part of UL and does not relieve the manufacturer, installer, user, or other relevant parties of their responsibilities. The product evaluation is based on adherence to sound engineering practices, and compliance with the applicable product safety standards and installation code. 2011 - 3717 -FE Field Evaluation Services Report Page 3 of 18 2.3 This evaluation considered the risks associated with electric shock, fire, and casualty hazards as specified in the evaluation section of the report only. No other hazards were evaluated during this evaluation. 2.4 Unless otherwise stated in the product description, this product was evaluated for installation in an indoor, dry, normal environment only. The product was not evaluated for installation in any hazardous classified location as defined in the latest edition National Electrical Code as adopted by the National Fire Protection Association. The product was not evaluated for installation in an environment subject to rainfall, water spray, steam, or exposure to any corrosive chemicals that deteriorate the enclosure or components. 2.5 The UL Field Evaluated Product Mark shall not be considered as equivalent to the UL Listing Mark, UL Recognized Component Mark, or UL Classified Product Mark. The UL Field Evaluated Product Mark indicates compliance with the applicable parts of the Standards referenced in Section 3 at the time the Mark was applied, and considering only the final installation site. The applicable parts included in the evaluation are the construction review, markings, and those testing protocols that are non - destructive. 3 Referenced Standards • NFPA 70, National Electrical Code, 1st Edition, Revised 10/19/2011 • UL 508A, Standard For Industrial Control Panels, 1st Edition, Revised 02/04/2010 • NFPA 79, Electrical Standard For Industrial Machinery, 1st Edition • UL 2011, Factory Automation Equipment, 2nd Edition 4 Product Description Equipment Name: Fine Line Back Twisted Machine 130mm Description: This evaluation was for a 130MM Micro Twister machine. This machine manufactures precision electrical cabling for use with medical equipment. Multiple fine conductor wire, as small as 56 AWG, is fed into one side of this machine, then the multiple conductors are twisted together to form a fine stranded cable, giving the fine conductors strength but in the smallest diameter possible (for example to enter small organs within the human body for medical surgery). The machine is a single motor attached to the twisting device that rotates at very high revolutions. Manufacturer: Dongguan Toyo Electrical Technology Co. Ltd. Model Number: 130MM Serial Number: 1 2011 - 3717 -FE Field Evaluation Services Report Page 4 of 18 • • 4.1 Nameplate Data Electrical Ratings Volts 380 Vac Amps 10 A Phase 3 Wire 3 Frequency 60 Hz Short Circuit Current 5,000 Amps Additional Rating - Largest motor: 3.5 HP • 4.2 Field Evaluation Label • UL Engineers have determined that the subject product complied with the Standards referenced in Section 3 and the following UL Field Evaluated Product marks were applied. • • FE- 342155 Date Applied: 02/20/2012 • 5 Evaluation Discrepancies • This section details the non - compliant findings of the preliminary evaluation. Unless corrective actions are • described, a final evaluation is necessary to complete all remaining tests and verify that changes have rendered the equipment compliant. • 5.1 INTERNAL WIRING Reference: ,NFPA 79, 1st Edition, Section 13.1.5 Cables subjected to physical damage shall be protected as follows: (1) By alternative routing • • (2) With additional guarding or railings (3) When supported by flooring or decking, with walk over or drive over cable protective devices • (4) By installation in a wire way • (5) By installation in a floor or deck covering trapezoidal walk over raceway specifically designed for cable protection. • • Discrepancy: • • • There are two wiring bundles with multiple cable and wiring that are subjected to • physical damage due to.their location.and routing within the machine: wiring routed on interior left side of the pull -out control panel and wiring routed against • the motor pulley belt area of the machine. Action Required: Find alternate. routing and supporting of these wiring harnesses from these damaging areas of concern. • 2011 - 3717 -FE Field Evaluation Services Report • Page 5.of 18 • • Corrective Action: • The wires were properly bundled together and routed. 5.2 MARKING ON MOTORS • Reference: NFPA 79 /NEC 70, 2007/2011 Edition, Section 14.4.4/430.7 NFPA 79: 14.4.4 - Motors shall be marked in accordance with Section 430.7 of NFPA 70, National Electrical Code. NEC 70: 430.7 - Usual Motor Applications shall be marked with the following information: (1) Manufacturer's name (2) Rated volts and full -load current (3) Rated frequency and number of phases if an ac motor (4) Rated full -load speed (5) Rated temperature rise of the insulation system class (6) Time rating or continuous (7) Rated horsepower if 1/8 hp or more (9) Design letter for design B, C, or D motors (10) Secondary volts and full -load current if a wound -rotor induction motor (11) Field current and voltage for dc motors (12) Winding if applicable (13) Thermal protection if applicable (14) Impedance protected if applicable, and (15) Rating of powered condensation prevention heaters if applicable Discrepancy: The motor nameplate marking was not installed on the motor but was found on the floor of the machine beneath the motor. Action Required: Permanently apply the motor's nameplate marking to the motor so it can be visible for reading. Corrective Action: The nameplate was properly installed. 5.3 MAIN BRANCH CIRCUIT PROTECTION Reference: UL 508A, 1st Edition, Section 31.2.1, 31.1.1 and 66.7.4 31.2.1 - A branch circuit protective device shall be installed in each ungrounded conductor to the load(s) involved. 1 Exception: An industrial control panel that is intended to be installed on the load side of branch circuit protection provided in the field and marked in accordance with 60.1 is not required to comply with this requirement. 2011 - 3717 -FE Field Evaluation Services Report Page 6 of 18 2 Exception: Branch circuit fuses are not required to be provided in a branch circuit fuseholder having a pole for each ungrounded conductor where the fuseholder is sized to accept the branch circuit fuse required in 31.3 - 31.8. 31.1.1 - An inverse -time or instantaneous -trip circuit breaker shall comply with the requirements in the Standard for Molded -Case Circuit Breakers, Molded - Case Switches, and Circuit - Breaker Enclosures, UL 489. An instantaneous -trip circuit breaker, in combination with the motor controller and motor overload device, shall additionally comply with the requirements for combination motor controllers in the Standard for Industrial Control Equipment, UL 508. 66.7.4 - The main overcurrent protection shall be sized based on the sum of: a) The largest ampere rating of branch circuit protective devices in the panel; b) 125 percent of all heater loads; c) 125 percent of the largest motor load; and d) The full -load currents of all remaining motors and other loads that are simultaneously operable. 1 Exception: When branch circuit protection is not provided within the panel, the main overcurrent protection shall comply with Section 31, Branch Circuit Protection, for single motor or heater loads or for a group of loads. 2 Exception: Where internal conductors are sized based on the exception to 66.5.6, the ampere rating of the main overcurrent protective devices shall not exceed the conductor ampacity in Table 28.1. Discrepancy: The circuit breaker provided is not recognized by any NRTL (Nationally Recognized Testing Laboratory) and is not branch rated. This device may cause an electrical shock and fire hazard. Action Required: Replace with a Listed Molded -Case Circuit Breaker rated for branch circuit protection or Listed and branch rated fusing with appropriate fuseholders. Corrective Action: The breakers were replaced with UL Listed breakers. 5.4 MOTOR OVERLOAD PROTECTION Reference: UL 508A, 1st Edition, Section 34.1.1, 34.1.2, 34.3.1 and 34.3.4 34.1.2 - Power conversion equipment that includes a solid -state motor overload protection function shall comply with the Standard for Power Conversion Equipment, UL 508C. Instructions provided with the power conversion equipment shall indicate the adjustable range and means for adjustment. Instructions provided with power conversion equipment that is not provided with a motor overload function or where the motor overload function has not been evaluated shall indicate that a separate overload device is required, as specified in 34.1.1, 34.1.3, or 34.3.4. 34.1.1 - An overload relay, including a mechanically- or electrically- operated type, a manual motor starter and an overload unit of a self - protected combination motor controller shall comply with the requirements in the Standard for Industrial Control Equipment, UL 508. 2011 - 3717 -FE Field Evaluation Services Report Page 7 of 18 • 34.3.1 - Motor overload protection shall be provided for each individual motor • circuit. 1 Exception: Branch circuit protection complying with 34.3.4 is not required to comply with this requirement. • 2 Exception: A panel having a field wiring diagram marked in accordance with 60.1 to indicate that required protection is to be provided in the field is not required to comply with this requirement. 34.3.4 - Branch circuit protection complying with 34.3.2 and sized with not more than 115 percent of the motor full -load current rating provides required motor overload protection as well as required branch circuit protection. A marking shall be located next to the fuseholder in accordance with 56.1. Discrepancy: The Variable Frequency Drive made by Synchron SKA powering the main drive motor is not Recognized or Listed by an NRTL and is noncompliant to UL Standard 508 for overload protection as mentioned in the above paragraphs. Action Required: Install overload relay on contactor MC 1 that has the motor FLA rating (5 Amps) in the dial range and revise the electrical diagrams to show this change. Corrective Action: An overload relay was installed to provide the required protection. 5.5 POWER SUPPLY Reference: UL 508A, 1st Edition, Section 42.2.3.1 A power supply or bridge rectifier shall be loaded at not more than 50 percent of the ampere rating of the device. Where the power supply has multiple secondaries, each secondary shall be loaded at not more than 50 percent of the secondary ampere rating. 1 Exception: An enclosed power supply having provisions for connection to conduit is able to be used for loading to 100 percent of the ampere rating of the power supply. 2 Exception: A power supply that complies with the Temperature Test in the Standard for Industrial Control Equipment, UL 508, is able to be used for loading to 100 percent of the ampere rating of the power supply. Discrepancy: Open type: This open board power supply is without appropriate markings, with no circuit protections on the primary or secondary circuits, and is not Recognized or Listed. Closed type: This enclosed type power supply is Recognized only, with no circuit protections on the primary and secondary circuits. Recognized power supplies are restricted to usage requiring circuit protections on primary and secondary circuits. Action Required: Install appropriately sized circuit protections to the primary and secondary circuits to and from the power supplies at 50% current ratings, as mentioned above. 2011 - 3717 -FE Field Evaluation Services Report Page 8 of 18 • Corrective Action: PWS2 is a Recognized Component power supply by Mean Well, NES- 50 -24, rated 24Vdc, 2.2A, and was fused at 1 A (F3) on the secondary. PWS2 is by HSGK HS -24VA, rated 24Vdc, 3A, and was fused at 2 A (F2). Fuse replacement markings were provided. 5.6 WIRE CONNECTIONS AND STRAIN RELIEF Reference: UL 508A, 1st Edition, Section 28.5.3 At the point at which the cord passes through the enclosure wall, a strain relief bushing shall be provided to prohibit cord abrasion. The strain relief bushing shall comply with the Standard for Conduit, Tubing, and Cable Fittings, UL 514B. Exception: A strain relief means that complies with the requirements in the Standard for Industrial Control Equipment, UL 508. Discrepancy: The wiring connections to and from the machine's lubrication system mounted on the outside front of the machine has loose cable jacketing, exposing the wiring that may cause an electrical shock and fire hazard. Action Required: Reinstall the wiring cables to the strain reliefs or replace the strain reliefs if damaged. Corrective Action: The lubricating system wiring was properly done. 5.7 INSUFFICIENT NAMEPLATE Reference: UL 508A, 1st Edition, Section 52.1, 49.1, 49.2, 49.5 and 67.1.2 52.1 - An industrial control panel shall be provided with a nameplate marking that includes the following: a) Manufacturer's name or authorized designation; b) Complete electrical rating of each source of supply as specified in 49.1; c) Field wiring diagram number when required load ratings from 52.2 or field wiring information of 54.1 - 54.9, 60.1, or 60.2 is included only on the diagram; and d) Factory identification as specified in 52.5. e) Enclosure Type rating (for enclosed panels only) as specified in 53.1. 49.1 - The input terminals intended to be connected to each source of supply shall be rated in volts, total full -load amperes, ampere or horsepower rating of the largest motor (when multiple loads are controlled), number of phases when other than single phase, and the frequency. 49.2 - The full -load ampere rating of the panel shall, at a minimum, include the sum of the ampere ratings of all loads that are able to be operated simultaneously plus the primary ampere rating of all control transformers connected to the input voltage. 52.1 - Each set of input terminals in 49.1 supplying a power circuit shall have a short circuit current rating. The short circuit current rating shall be determined based upon the requirements in Supplement SB. 2011 - 3717 -FE Field Evaluation Services Report Page 9 of 18 67.1.2 - When provided with main overcurrent protection, the nameplate shall include "short circuit current rating of the protective device" in amperes. Discrepancy: The manufacturer's nameplate was insufficient and does not include the required information mentioned in the above paragraphing. Action Required: Provide the appropriate information and ratings for the machine. Corrective Action: A nameplate was provided with the required information. 5.8 ENTRY DOOR TO HIGH SPEED DEVICES Reference: UL Subject 2011, 2nd Edition, Section 5.1 and 5.2 5.1 To reduce the risk of unintentional contact with a live or moving part, factory automation equipment shall be provided with appropriate mechanical barriers or curtains except as indicated in 5.4. See 5.2. Exception: It is not necessary to provide a barrier or curtain on locations of factory automation equipment marked in accordance with the Standard for Industrial Control Equipment, UL 508, to warn of the risk of injury or shock related to unintentional contact with a live or moving part. 5.2 With regard to 5.1, the factors to be considered in determining whether a barrier, curtain, or marking is appropriate to address a particular risk of injury or shock include: a) The electrical levels of the live part; b) The sharpness and speed of the moving part; and c) The likelihood of unintentional contact. Discrepancy: The main entry door to the high speed rotary devices within the machine is not marked appropriately in English. This door, if opened while machine is operating, has dangerous high speed rotating devices that are not guarded from contact and may cause injury. Action Required: Apply appropriate labeling and Warning markings to the door to warn personnel of the dangers of opening this door without disconnecting power at the disconnecting means. Corrective Action: Appropriate markings were provided. 5.9 ELECTRICAL SCHEMATIC WIRING DIAGRAMS Reference: UL 508A, 1st Edition, Section 61.1 An industrial control panel shall be provided with a complete electrical schematic wiring diagram including all components provided by the manufacturer. Field installed components shown on the schematic wiring diagram shall comply with 60.3. 2011 - 3717 -FE Field Evaluation Services Report Page 10 of 18 • • • Discrepancy: • The, machine did not have completed or appropriate electrical schematic wiring diagrams available during this evaluation. • Action Required: Provide a copy of the schematic wiring diagrams for further • evaluation. Corrective Action: • Electrical schematics were provided. 5.10 GROUNDS AND GROUND MARKINGS Reference: NFPA 79, 1st Edition, Section 8.2.1.2, 8.2.1.3.1, and 8.2.1.3.4 8.2.1.2 - The machine and all exposed, noncurrent carrying conductive parts, material, and equipment likely to be energized shall be effectively grounded. • Where electrical devices are mounted on metal panels that are located within nonmetallic enclosures, the metal mounting panels shall be effectively grounded. Where specified the manufacturer, components and subassemblies shall be bonded to the equipment grounding (protective bonding) circuit in accordance with the manufacturer's instructions. 8.2.1.3.1 - For each incoming supply circuit, an equipment grounding (protective) conductor terminal shall be provided in the vicinity of the associated phase conductor terminals. • 8.2.1.3.4 - The equipment grounding (protective) conductor terminal shall be identified with the word "GROUND," the letters "GND" or "GRD," the letter "G," • the color GREEN, or the symbol in Figure 8.2.1.3.4. In addition to the required • marking, the letters PE shall also be permitted to identify this terminal. Discrepancy: • There is no grounding of panel or electrical equipment to earth ground. Action Required: Provide grounding terminal connections to panel with markings, then install the appropriate equipment grounding connections to electrical • components requiring bonding to ground. Corrective Action: • • A main ground bar was provided and properly installed and marked. • • • • • • • • • • 2011- 3717 -FE Field Evaluation Services Report Page 11 of 18 6 Evaluation Details The following specific areas were evaluated using the methods described. All items comply with the applicable parts of standard(s) referenced in Section 3.0, unless stated otherwise in Section 5.0 of this report. Additional characteristics and features unique to the product were further addressed as deemed necessary considering the final installation site, or as required by the applicable product safety standard(s). 6.1 Critical Components Method: The following critical components were inspected for evidence of Listing or Recognition according to UL policies: • - Circuit Breakers / Fuses - Enclosures - Motor Overload Devices - Motors - Power Disconnecting Devices - Relays - Switches and Controllers - Terminal Blocks - Transformers and Power Supplies - Wire and Cables Results: The critical components are Listed or Recognized by a testing laboratory acceptable to UL • according to UL policies. 6.2 Drawings and Instructions Method: The information necessary for safe installation, operation and maintenance of the equipment is reviewed for completeness and accuracy. The review may include drawings, diagrams, charts and /or tables based upon the complexity of the equipment and the service environment. Results: User and maintenance manuals, electrical /mechanical schematics, bills of materials, parts lists and /or programming instructions are provided as appropriate. 6.3 General Operating Conditions Method: The design, assembly and installation of the equipment are examined for suitability with the environment, electrical supply and operating conditions of the installation site. Results: The general operating conditions are acceptable for the design and use of the equipment as required by standards referenced in Section 3.0. 6.4 Grounding and Bonding Method: All accessible metal parts are verified (visually and /or by test) to be bonded together and to be connected to the supply equipment grounding conductor. Where applicable, a bonding continuity test is conducted and the results recorded. Results: The product is grounded and bonded according to applicable standards referenced in Section 3.0 and Article 250 of the NEC. The product has an identified terminal to connect the supply equipment grounding conductor or a suitable cord with an integral equipment grounding conductor. 6.5 Guarding of Live Parts Method: The product is visually inspected to ensure that all components were housed in a suitable • enclosure and made effectively inaccessible to unauthorized persons. An articulated finger 2011 - 3717 -FE Field Evaluation Services Report Page 12 of 18 probe is used to measure access where necessary. Vent openings are verified not to align with potential discharge paths of gases expelled from circuit breakers when clearing fault conditions. Results: Enclosures prevent contact with moving parts, electrically energized parts and hot parts. Enclosures provide an acceptable degree of protection for internal components (according to the product's installation environment). All electrically live parts external to the enclosure are guarded as required by the applicable standards. No electrically hazardous energized parts are accessible from the exterior of the ultimate enclosure as required by Section 110.27 of the NEC. 6.6 Markings Method: The product nameplate is inspected for all required information. The content, placement and format of hazard - warning labels, fuse replacement markings, environmental limitations and installation type markings are also verified. Results: The product bears the required markings according to the applicable standard(s). Additional markings are identified for the installation site, as the working environment requires. 6.6.1 Hazard Warning Labels Applicable hazard warning markings that identify known hazards are located on or within the product. 6.6.2 Unit Nameplate • The product bears a permanent nameplate, suitable for the intended installation environment and with all the applicable information. The nameplate is visible or accessible after installation or located for access according to the provisions in the referenced standard(s). 6.6.3 Fuse Replacement Fuse replacement markings are provided and installed at all fuse locations or on a permanent chart suitable for the intended environment. 6.7 Means of Disconnect Method: Disconnecting means shall be located within sight from and readily accessible from the equipment. The disconnecting means shall be permitted to be installed on or within equipment, but shall not be located on panels that are designed to allow access to the equipment or to obscure the equipment nameplate(s). The disconnecting means shall open all ungrounded supply conductors and shall be designed so that no pole can be operated independently. The device shall be designed so that it cannot be closed automatically. Results: The disconnect is within sight, readily accessible and is installed and operates as required. 6.8 Mechanical Protection Method: Moving parts, such as rotors of motors, chains, pulleys, belts and gears are evaluated for risk of injury to persons. The degree of protection required depends upon the general design and intended use of the product. The factors considered in judging the acceptability of exposed moving parts are: a) The degree of exposure, b) The sharpness of the moving parts, c) The likelihood of unintentional contact with the moving parts, d) The speed of movement of those parts, and 2011 - 3717 -FE Field Evaluation Services Report Page 13 of 18 e) The likelihood of fingers, arms or clothing being drawn into the moving parts, such as at points where gears mesh, where belts travel onto a pulley or where moving parts close in a pinching or shearing action. Results: Exposed moving parts are enclosed or guarded to reduce the risk of injury to persons. • 6.9 Mounting of Components Method: Components that support live parts and uninsulated current carrying parts are secured to prevent them from turning or shifting in position if such motion may result in a reduction of spacings below the minimum acceptable values. Friction between surfaces is not acceptable as a means of preventing shifting or turning of a live part. Result: Components are mounted such that they are fixed in place and protected from a reduction in electrical spacings and strain on wiring terminations. 6.10 Overcurrent Protection Method: The product is inspected to ensure that proper overcurrent protection exists for internal conductors and components. Overcurrent devices are inspected for proper ratings, including voltage, ampere and interrupting ratings, suitability as branch circuit protection (where required) and Listing. Results: Details as follows: 6.10.1 Components Components such as transformers, heater elements and motors have overcurrent protection of the correct ratings and proper type. 6.10.2 Conductors Factory and field installed internal conductors have proper overcurrent protection. 6.10.3 Supply The product has properly rated main overcurrent protection. Internal overcurrent protection is properly rated for the intended application. All devices designed to open under fault conditions have proper short circuit current interrupting ratings. 6.11 Protection from Electric Shock Method: Insulation materials, enclosures, interlocking devices and protective extra low voltage circuits are examined for suitability in protecting against electric shock and hazardous touch voltages. Results: The electrical equipment provides protection of persons from electrical shock. Where access to energized parts is required for proper use and maintenance of the equipment, interlocks and additional safeguards are employed to minimize exposure to hazardous touch voltages as required by the referenced standards. 6.12 Suitability for Installation Method: The product is inspected to ensure suitability for installation according to the NEC as specified in the referenced standard(s). This inspection determined whether correct working space and clearances existed, noted proper wire bending space for all field wiring, observed provisions for mounting and assured that areas for conduit entries, as applicable, were in place. Results: Details as follows: 6.12.1 Wire Bending & Gutter Space Wire bending space for all field wiring exists according to the NEC. 2011- 3717 -FE Field Evaluation Services Report Page 14 of 18 6.12.2 Clearance and Working Space The product is or can be installed with acceptable access, clearances, working spaces and distances from combustibles. 6.13 Supply Conductors and Disconnect Method: Incoming supply circuit conductors are examined for proper identification, location, accessibility, separation from other internal conductors, bending space and disconnecting means. Circuits not disconnected by the main supply disconnecting means, where permitted, are also examined for proper identification, isolation and guarding. Results: The supply conductors are mounted as near as practical to the top of the enclosure or are separated from internal conductors by barriers. The conductors terminate at the disconnecting means and are properly identified. The disconnecting means is not more than 2.0 m (6 ft 7 in) above the servicing level. 6.14 Wiring and Wiring Methods Method: All conductors were inspected for Listing or Recognition by a nationally recognized testing laboratory according to UL policies. The conductors were examined for proper ratings (voltage, ampacity, temperature, flexibility, flame and environmental ratings) as required for the application. The wiring methods were verified to comply with the applicable standards and provide proper physical protection, including strain relief, where applicable. The wiring terminations were inspected for correct application, number of conductors according to their Listing and correct ampacity based on temperature ratings. Results: Details as follows: 6.14.1 Strain Relief External conductors, cable assemblies entering enclosures and internal conductors are secured to prevent strain being transmitted to terminations. 6.14.2 Conduit Connections All conduits, gutters, and wireways are properly supported and properly sized for the number and size of conductors. 6.14.3 Wiring Methods Internal wiring methods are in compliance with the requirements of the applicable standard(s). All wiring is routed, secured and protected from moving parts, external heat sources and sharp edges. 6.14.4 Supply Connections The supply connection point(s) have proper terminals and identification provided. 6.14.5 Wire Terminations All wire terminations are suitable for the number and the size of conductor(s) installed. 6.14.6 Separation of Circuits Unless provided with insulation rated for the highest voltage involved, low voltage and line voltage circuit wires within enclosures are segregated or separated by barriers. The product wiring for low voltage and line voltage circuits outside enclosures is installed in separate raceways or wireways. 2011 - 3717 -FE Field Evaluation Services Report Page 15 of 18 7 Test Results The following tests verified that the product operates within normally expected parameters. Unless stated otherwise in Section 5.0, all the following items comply with the applicable part(s) of the referenced standard(s). Field evaluation test methods follow the applicable standards as closely as practical, considering the limits of a non - laboratory field setting and the need for the equipment to perform its function following the test. • • Insulation Resistance Test • Input Test, Multi Phase • Grounding & Bonding Resistance Test • Interlock Operation Test 8 Test Equipment All test equipment used to evaluate product(s) covered by this report that may have an effect on test results was calibrated and traceable to the National Institute of Standards and Technology (NIST) or other national metrology institution and managed according to ISO /IEC 17025, General Requirements for the Competence of Calibration and Testing Laboratories. 2011- 3717 -FE Field Evaluation Services Report Page 16 of 18 • • • • • 9 Photographs 1 h. c7 i n . it { , r ` i 1. i a i 1 asp•' �. t t'r ' 7 k x t _ • . s • 'Y " f '4 q i C Nk. � ;‘, a' £ 1 !� . 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