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We just use the Statguard® conductive acrylic paint in some areas of our plant to minimize ESD problems. Some security issues have arise regarding the possibility of electrical shocks to the people in case of an electrical discharge into the floor, like an AC current cable or so. Could you provide information or tell me where to find information about this issues? - Anonymous
Answer
The Surface Resistivity for the Statguard® Floor Paint is 10
5
ohms per ASTM D257. If a live cable dropped on the floor, say at 240 VAC, then the RMS current would be 2.4 mA through the paint to ground. Unless the person was in this circuit, they may not be affected. 2.4 mA is above the recommended exposure current for a person regarding safety to them. Most likely though, if they were in series with this current, it would have to go through there footwear, skin to another ground point that they are in intimate contact with. There is another 1 or more megohms to contend with and would reduce this current to well below the perception threshold of 1 mA. Overall, we would not recommend grounding personnel when working with voltages over 250 VAC or 500 VDC, as described in the Cenelec Electronic Components Committee standard section 4.1.1, CECC 00015/I. Both our foot grounders and wrist straps employ a 1/4 Watt carbon composite resistor rated 250 Volts Alternating Current (VAC) and UL tested and listed for voltages under 250 VAC. Desco UL Marking for Wrist Straps and Foot Grounders: CAUTIONARY MARKING This product is not recommended for use on equipment with operating voltage exceeding 250 volts. There is always a safety concern when working around high voltage. All electrical wiring and ground connections should adhere to the National Electrical Code (NEC) as governed by OSHA. If an operator came in contact with an exposed voltage of 250 VAC and wearing a ground strap or other grounding mechanism with a 1 megohm resistor in line (soft ground), then the current received through the operator to ground would be limited to 250? A, well below the electrical perception level of table VIII in DOD-HDBK-263, refer to Appendix A. In order for an operator to have similar protection when working around high voltages of 20 kVAC, the serial resistance in their ground path would need to be at least 80 megohms. Appendix A: Listing of Relevant Documentation for ESD control and high voltages: ESD Association ADV-2.0-1994 Safety rules for working with high voltages should dictate the design of the workstation. ESD Association ESD-S1.1 (Standard on Wrist Straps): ESD-S1.1, Section 7.1, Construction Guidelines Current-Limiting Resistance A resistance of sufficient resistance to limit current to less than 0.0005 amps (0.5 mA), at the highest voltage that may be encountered, should be incorporated into the wrist strap. Nominally, 800,000 ohms (800 Kilohms) are sufficient for voltages of up to 2401 VAC. The value of 1 Megohms is specified because it is a standard value discrete resistor. Special situations may dictate the use of values above or below the 1 Megohm value. Wrist straps with nominal resistances other than 1 Megohm should be marked in accordance with paragraph 5.9. Discrete current-limiting resistors should be located near the connection between the ground cord and the cuff. ESD Association, ANSI/ESD-S20.20 In the one of the most comprehensive ESD standards from the ESD Association ANSI/ESD-S20.20, states in section 5. PERSONNEL SAFETY: The Procedures and equipment described in this document may expose personnel to hazardous electrical conditions. Users of this document are responsible for selecting equipment that complies with applicable laws, regulatory codes and both external and internal policy. Users are cautioned that this document cannot replace or supersede any requirements for personnel safety. Ground fault circuit interrupters (GFCI) and other safety protection should be considered wherever personnel might come into contact with electrical sources. Electrical hazard reduction practices should be exercised and proper grounding instructions for equipment must be followed. According to the ESD S1.1-1998:7.1 Construction Guidelines Current-Limiting Resistance A resistance of sufficient resistance to limit current to less than 0.0005 amps (O.5mA), at the highest voltage that may be encountered, should be incorporated into the wrist strap. Nominally, 800,000 ohms (800 Kilohms) are sufficient for voltages of up to 240VAC. The value of 1 Megohms is specified because it is a standard value discrete resistor. Special situations may dictate the use of values above or below the 1 megohm value. Wrist straps with nominal resistances other than 1 megohm should be marked in accordance with paragraph 5.9. Discrete current-limiting resistors should be located near the connection between the ground cord and the cuff.According to the ADV-2.0: Current Limiting Most wrist straps have a current limiting resistor molded into the ground cord head on the end that connects to the cuff. The resistor most commonly used is a one megohm, 1/4 watt with a working voltage rating of 250 volts. Resistors limit current as defined by Ohm's Law, which states the current is equal to the voltage divided by the resistance.In a practical application, the maximum amount of current through a wrist strap ground cord if it was placed across a 250 Volt source is 250 microamps or 0.25 milliamps. This amount of current is well below the 0.7 milliamps that Underwriters Laboratories uses as the peak current in a LIMITED CURRENT CIRCUIT. See document UL 1950. ANSI/ESD S20.20 -1999 states: 5. PERSONNEL SAFETY The Procedures and equipment described in this document may expose personnel to hazardous electrical conditions. Users of this document are responsible for selecting equipment that complies with applicable laws, regulatory codes and both external and internal policy. Users are cautioned that this document cannot replace or supersede any requirements for personnel safety. Ground fault circuit interrupters (GFCI) and other safety protection should be considered wherever personnel might come into contact with electrical sources. Electrical hazard reduction practices should be exercised and proper grounding instructions for equipment must be followed.” ESD Ground cords serve one purpose, to connect a conducting surface to the same potential as ground. There is always a safety concern when working around high voltage. All electrical wiring and ground connections should adhere to the National Electrical Code (NEC) as governed by OSHA. Per ESD Association ADV-2.0-1994, Safety rules for working with high voltages should dictate the design of the workstation. Our Wrist Straps [and Foot Grounders] are Underwriter Laboratories listed. UL cautions that these products are not recommended for use on equipment with operating voltage exceeding 250 volts recommending that the electrical current that the operator be exposed to be limited to 0.25 milliamp. At 250 volts, the 1 megohm [1,000,000 ohms] resistor does this. Our Wrist Straps [and Foot Grounders] employ a 1 megohm ¼ Watt carbon composite resistor rated 250 Volts Alternating Current (VAC) and UL tested and listed for voltages under 250 VAC. If the Wrist Strap came in contact with an exposed voltage of 250 VAC, and the operator was wearing a Wrist Strap with a 1 megohm resistor, the current received through the operator to ground would be limited to 250 microamps. This is below the human electrical perception level. When working with voltages over 250 VAC, ESD personnel grounding should not be used, rather ionization may be required to neutralize electrostatic charges.MIL-STD-454 All personnel ground straps should have sufficient resistance to ground to limit current to the perception level as shown in MIL-STD-454, Requirement 1.DOD-HDBK-263 Section 7.3.1.3, Table VIII, (Ref.: MIL-STD-454)Effects Of Electrical Current On Humans Current Values (mA) AC DC Effects 60 Hz 0-1 0-4 Perception 1-4 4-15 Surprise 4-21 15-80 Reflex action 21-100 80-160 Muscular inhibition 40-100 160-300 Respiratory block Over 100 Over 300 Usually fatal CECC 00 015 Section 1.1. For areas with exposed conductors at potentials greater than 1.25 kVAC or 2.5 kVDC, additional requirements specified in CECC 00 015: Part 4 shall apply. Section 4.1.1, The EPA shall be constructed to ensure that the equipment used to control static electricity does not create any additional risk of electric shock to personnel, should energized conductors up to the level of 250 VAC (500 VDC) be exposed. Section 4.1.2, Additional protection against exposed high voltages: In ESD Protected Areas (EPA) where exposed energized conductors exist for each 250 VAC (500 VDC) potential the minimum resistance of any working point to ground shall be 7.5 x 10
5
Ohms. Maximum resistance values in excess of those specified in Section 4 clauses shall not be used. Although this standard does not include requirements for personal safety, attention is drawn to the need for all concerned to comply with relevant local statutory requirements regarding the health and safety of all persons in all places of work including those covered by this standard. (Attention is drawn to the fact that electrical potentials in excess of 50 VAC or 120 VDC may be dangerous to personnel.)
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