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eLibrary > S+ IEC 61010-2-201 Ed. 2.0 en:2017 (Redline version) Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-201: Particular requirements for control equipment >

S+ IEC 61010-2-201 Ed. 2.0 en:2017 (Redline version) Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-201: Particular requirements for control equipment, 2017

S+ IEC 61010-2-201 Ed. 2.0 en:2017 (Redline version) Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-201: Particular requirements for control equipment, 2017

Redline version (English only) [Go to Page]
CONTENTS
FOREWORD
INTRODUCTION
1 Scope and object
2 Normative references
3 Terms and definitions
4 Tests
5 Marking and documentation
6 Protection against electric shock
7 Protection against mechanical hazards
8 Resistance to mechanical stresses
9 Protection against the spread of fire
10 Equipment temperature limits and resistance to heat
11 Protection against hazards from fluids
12 Protection against radiation, including laser sources, and against sonicand ultrasonic pressure
13 Protection against liberated gases and substances, explosion and implosion
14 Components and subassemblies
15 Protection by interlocks
16 hazards resulting from application
17 risk assessment
Annexes [Go to Page]
Annex E (informative) Guideline for reduction of pollution degrees
Annex F (normative) routine tests
Annex L (informative) Index of defined terms
Annex AA (informative) General approach to safety for control equipment
Annex BB (informative) System drawing of isolation boundaries
Annex CC (informative) Historical techniques for secondary circuits
Annex DD (normative) Flammability test for magnesium alloy fire enclosures or flame barriers (see 9.3.2)
Annex EE (informative) Information/documentation and correlation to its uses
Annex FF (informative) Measurement of clearances and creepage distances
Bibliography
Figures [Go to Page]
Figure 101 – Typical interface/port diagram of control equipment
Figure 102 – Requirements for insulation between separate circuitsand between circuits and accessible conductive parts
Figure 103 – Mechanical hazards, with regard to panel mounted equipment
Figure 104 – Spread of fire hazards, with regard to panel mounted equipment
Figure 105 – General temperature test environment
Figure 106 – Vented equipment
Figure 107 – Non-vented equipment
Figure 108 – Panel mounted device extending through the wall of a cabinet
Figure AA.1 – Control equipment access and safety concerns
Figure BB.1 – Typical system enclosure layout
Figure BB.2 – Simplified system schematic
Figure BB.3 – hazard situation of the control equipment
Figure BB.4 – Application of the standard to the control equipment safety drawing
Figure BB.5 – Application of 6.7.1.5 items a) and b) to the control equipment safety drawing
Figure BB.6 – Application of 6.7.1.5 items a), b), c) and d) to the control equipment safety drawing
Figure BB.7 – reinforced insulation
Figure BB.8 – basic insulation
Figure BB.9 – Reinforced insulation, basic insulation and protective impedance
Figure BB.10 – reinforced insulation from external power supplies
Figure BB.11 – basic insulation from external power supplies
Figure EE.1 – Information/documentation for component products
Figure EE.2 – Information/documentation accumulation and segregation tree for an example installation
Figure FF.1 – The path a component mounted to a PWB (side view)
Figure FF.2 – The path a component mounted to a PWB (side view)
Tables [Go to Page]
Table 101 – Overload test circuit values
Table 102 – Endurance test circuit values
Table 103 – Operator accessible ports for open and enclosed equipment
Table 4 – Clearance and creepage distances for mains circuits ofovervoltage category II up to 300 V
Table 5 – Test voltages for solid insulation between mains and between mains and secondary circuits overvoltage category ii up to 300 V d
Table 6 – Clearances and test voltages for secondary circuits derived from mains circuits of overvoltage category ii up to 300 V
Table 104 – Minimum creepage and clearance in air of overvoltagecategory II up to 1 000 V at field-wiring terminals
Table 19 – Surface temperature limits, under normal conditions
Table E.1 – Environmental situations
Table E.2 – Reduction of pollution degrees (PD)
Table CC.1 – Limits of output current and output power for inherently limited power sources
Table CC.2 – Limits of output current, output power and ratings for over-current protective devices for non-inherently limited power sources
Table FF.1 – Dimensions of X
International standard (Bilingual) [Go to Page]
English [Go to Page]
CONTENTS
FOREWORD
INTRODUCTION
1 Scope and object
2 Normative references
3 Terms and definitions
4 Tests
5 Marking and documentation
6 Protection against electric shock
7 Protection against mechanical hazards
8 Resistance to mechanical stresses
9 Protection against the spread of fire
10 Equipment temperature limits and resistance to heat
11 Protection against hazards from fluids
12 Protection against radiation, including laser sources, and against sonic and ultrasonic pressure
13 Protection against liberated gases and substances, explosion and implosion
14 Components and subassemblies
15 Protection by interlocks
16 hazards resulting from application
17 risk assessment
Annexes [Go to Page]
Annex E (informative) Guideline for reduction of pollution degrees
Annex F (normative) routine tests
Annex L (informative) Index of defined terms
Annex AA (informative) General approach to safety for control equipment
Annex BB (informative) System drawing of isolation boundaries
Annex CC (informative) Historical techniques for secondary circuits
Annex DD (normative) Flammability test for magnesium alloy fire enclosures or flame barriers (see 9.3.2)
Annex EE (informative) Information/documentation and correlation to its uses
Annex FF (informative) Measurement of clearances and creepage distances
Bibliography
Figures [Go to Page]
Figure 101 – Typical interface/port diagram of control equipment
Figure 102 – Requirements for insulation between separate circuits and between circuits and accessible conductive parts
Figure 103 – Mechanical hazards, with regard to panel mounted equipment
Figure 104 – Spread of fire hazards, with regard to panel mounted equipment
Figure 105 – General temperature test environment
Figure 106 – Vented equipment
Figure 107 – Non-vented equipment
Figure 108 – Panel mounted device extending through the wall of a cabinet
Figure AA.1 – Control equipment access and safety concerns
Figure BB.1 – Typical system enclosure layout
Figure BB.2 – Simplified system schematic
Figure BB.3 – hazard situation of the control equipment
Figure BB.4 – Application of the standard to the control equipment safety drawing
Figure BB.5 – Application of 6.7.1.5 items a) and b) to the control equipment safety drawing
Figure BB.6 – Application of 6.7.1.5 items a), b), c) and d) to the control equipment safety drawing
Figure BB.7 – reinforced insulation
Figure BB.8 – basic insulation
Figure BB.9 – reinforced insulation, basic insulation and protective impedance
Figure BB.10 – reinforced insulation from external power supplies
Figure BB.11 – basic insulation from external power supplies
Figure EE.1 – Information/documentation for component products
Figure EE.2 – Information/documentation accumulation and segregation tree for an example installation
Figure FF.1 – The path a component mounted to a PWB (side view)
Figure FF.2 – The path a component mounted to a PWB (side view)
Tables [Go to Page]
Table 101 – Overload test circuit values
Table 102 – Endurance test circuit values
Table 103 – operator accessible ports for open and enclosed equipment
Table 4 – Clearance and creepage distances for mains circuits ofovervoltage category II up to 300 V
Table 5 – Test voltages for solid insulation between mains and between mains and secondary circuits overvoltage category ii up to 300 V d
Table 6 – Clearances and test voltages for secondary circuits derived from mains circuits of overvoltage category ii up to 300 V
Table 104 – Minimum creepage and clearance in air of overvoltagecategory II up to 1 000 V at field-wiring terminalsd, e
Table 19 – Surface temperature limits, under normal condition
Table E.1 – Environmental situations
Table E.2 – Reduction of pollution degrees (PD)
Table CC.1 – Limits of output current and output power for inherently limited power sources
Table CC.2 – Limits of output current, output power and ratings for over-current protective devices for non-inherently limited power sources
Table FF.1 – Dimensions of X
Français [Go to Page]
SOMMAIRE
AVANT-PROPOS
INTRODUCTION
1 Domaine d'application et objet
2 Références normatives
3 Termes et définitions
4 Essais
5 Marquage et documentation
6 Protection contre les chocs électriques
7 Protection contre les dangers mécaniques
8 Résistance aux contraintes mécaniques
9 Protection contre la propagation du feu
10 Limites de température de l'appareil et résistance à la chaleur
11 Protection contre les dangers des fluides
12 Protection contre les radiations, y compris les sources laser, et contre la pression acoustique et ultrasonique
13 Protection contre les émissions de gaz et substances, les explosions et les implosions
14 Composants et sous-ensembles
15 Protection par systèmes de verrouillage
16 Dangers résultant de l'application
17 Appréciation du risque
Annexes [Go to Page]
Annexe E (informative) Principes directeurs pour la réduction des degrés de pollution
Annexe F (normative) Essais individuels de série
Annexe L (informative) Index des termes définis
Annexe AA (informative) Approche générale des questions de sécurité relative aux équipements de commande
Annexe BB (informative) Schéma applicable aux limites d'isolation
Annexe CC (informative) Techniques traditionnelles utilisées pour les circuits secondaires
Annexe DD (normative) Essai d'inflammabilité des enveloppes ignifuges ou des barrières coupe-flamme constituées d'un alliage de magnésium (voir 9.3.2)
Annexe EE (informative) Information/documentation et corrélation avec les utilisations
Annexe FF (informative) Mesure des distances d'isolement et des lignes de fuite
Bibliographie
Figures [Go to Page]
Figure 101 – Schéma type d'interfaces/accès des équipements de commande
Figure 102 – Exigences relatives à l'isolation entre les différents circuits et entre les circuits et les parties conductrices accessibles
Figure 103 – Exigences relatives aux dangers mécaniques pour les équipements montés sur panneau
Figure 104 – Dangers relatifs à la propagation du feupour les équipements montés sur panneau
Figure 105 – Environnement d'essai de température général
Figure 106 – Equipement ventilé
Figure 107 – Equipement non ventilé
Figure 108 – Equipement monté sur un panneau s'étendant sur la paroi d'une armoire
Figure AA.1 – Accès aux équipements de commande et sécurité connexe
Figure BB.1 – Disposition type d'enveloppe de système
Figure BB.2 – Schéma simplifié du système
Figure BB.3 – Situation de danger pour l'équipement de commande
Figure BB.4 – Application de la norme au schéma sur la sécurité des équipements de commande
Figure BB.5 – Application des points a) et b) de 6.7.1.5 au schéma sur la sécurité des équipements de commande
Figure BB.6 – Application des points a), b), c) et d) de 6.7.1.5 au schéma sur la sécurité des équipements de commande
Figure BB.7 – Isolation renforcée
Figure BB.8 – Isolation principale
Figure BB.9 – Isolation renforcée, isolation principale et isolation de protection
Figure BB.10 – Isolation renforcée assurée par les alimentations externes
Figure BB.11 – Isolation principale assurée par les alimentations externes
Figure EE.1 – Informations/documentation sur les composants
Figure EE.2 – Arbre de collection et de répartition des informations/de la documentation pour un exemple d'installation
Figure FF.1 – Chemin d'un composant monté sur une CCI (vue latérale)
Figure FF.2 – Chemin d'un composant monté sur une CCI (vue latérale)
Tableaux [Go to Page]
Tableau 101 – Valeurs du circuit d'essai de surcharge
Tableau 102 – Valeurs du circuit d'essai d'endurance
Tableau 103 – Accès accessibles par l'opérateurpour les équipements ouverts et les équipements sous enveloppe
Tableau 4 – Distances d'isolement et lignes de fuite des circuits réseau de catégorie de surtension II avec une tension maximale de 300 V
Tableau 5 – Tensions d'essai de l'isolation solide entre le réseau d'alimentation et entre les circuits réseau et secondaires de catégorie de surtension II avec une tension maximale de 300 V d
Tableau 6 – Distances d'isolement et tensions d'essai des circuits secondaires dérivés des circuits réseau de catégorie de surtension II avec une tension maximale de 300 V
Tableau 104 – Lignes de fuite et distances d'isolement minimales V au niveau des bornes de raccordement à l'installation reseaud, e, jusqu'à 1 000 V
Tableau 19 – Limites de température de surface en condition normale
Tableau E.1 – Situations environnementales
Tableau E.2 – Réduction des degrés de pollution (PD, pollution degree)
Tableau CC.1 – Limites de courant et de puissance de sortie relatives aux sources de puissance intrinsèquement limitée
Tableau CC.2 – Limites de courant de sortie, de puissance de sortie et de caractéristiques assignées relatives aux appareils de protection contre les surintensités pour les sources de puissance non intrinsèquement limitée
Tableau FF.1 – Dimensions X [Go to Page]

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S+ IEC 61010-2-201 Ed. 2.0 en:2017 (Redline version) Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-201: Particular requirements for control equipment, 2017

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S+ IEC 61010-2-201 Ed. 2.0 en:2017 (Redline version) Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-201: Particular requirements for control equipment, 2017

⨯To continue with accurate pricing,
please select your company type below: