EB3C-R05AN

EB3C Relay Barriers EB3L Lamp Barriers EB3N Safety Relay Barriers EB3C Relay Barriers EB3L Lamp Barriers EB3N Safety Relay Barriers Intrinsically Safe Explosion-proof System Output Common wiring Relay output 1NO Without auxiliary output Transistor output Power Supply Separate wiring· Common wiring AC EB3C-∗∗AN Relay barrier Page 4 DC EB3C-∗∗DN Relay barrier Page 4 Auto reset EB3N-A2∗DN With auxiliary output Reset Wiring condition Wiring condition Safety input equipment need to be installed. Page 24 Manual reset EB3N-M2∗DN Page 24 EB3C∗∗AN Common wiring Transistor output Source input Sink input Power Supply Relay output Input/Output Illuminated switch needs to be installed. Page 4 AC Wiring condition Zone 0 Zone 1 Zone 2 Relay barrier Lamp barrier In an hazardous area.... Contacts need to be installed. Safety relay barrier Zone 0 Zone 1 Zone 2 Relay barrier In order to establish an intrinsically safe explosion-proof system, a barrier must be selected depending on the type of device (such as) pushbutton, pilot light, and proximity switch that are installed in the hazardous area. See the selection chart below. EB3L∗∗AN Page 12 EB3C∗∗DN DC Page 4 EB3L∗∗DN 2 Common wiring LED pilot light Buzzer (note) Power Supply Separate wiring· Common wiring Pilot Light Buzzer needs to be installed. Wiring condition Pilot light needs to be installed. Lamp barrier Page 12 AC EB3L-S∗AN DC EB3L-S∗DN Lamp barrier Page 12 Lamp barrier Page 12 Relay Barrier / Lamp Barrier Selection Relay Barrier EB3C- AN Model EB3C- DN EB3N- D Shape Explosion Protection FM: Class I, II, III Div1 / Group A, B, C, D, E, F, G Class I, Zone 0 / AEx [ia] II C UL: Class I, II, III Div1 / Group A, B, C, D, E, F, G Class I, Zone 0 / AEx [ia] II C PTB (ATEX, IECEx): [Exia] II C, Exia] III C CQST: [Exia Ga] II C TIIS: [Exia] II C KCS: [Exia] II C NK: [Exia] II C KR: [Exia] II C Relay Barrier: [Exia] II C Degree of Protection IP20 IP20 IP20 No. of Channels 1, 2, 3, 5, 6, 8, 10, 16 1, 2, 3, 5, 6, 8, 10, 16 EB3N-£2ND: EB3N-£2R5D: Power Voltage 100 to 240V AC 24V DC 24V DC Output Relay Transistor (Sink/Source) Relay Transistor (Sink/Source) Relay Connection Screw Terminal Screw Terminal, Connector Screw Terminal Mounting 35-mm-wide DIN rail Panel mounting 35-mm-wide DIN rail Panel mounting 35-mm-wide DIN rail / Panel mounting Size (excluding projections) 42W×75H×77.5D (1 channel) 65W×75H×77.5D (2, 3 channels) 110.5W×75H×77.5D (5, 6, 8 channels (common)) 171.5W×75H×77.5D (8, 10, 16 channels (common)) 42W×75H×77.5D (1 channel) 65W×75H×77.5D (2, 3 channels) 110.5W×75H×77.5D (5, 6, 8 channels (common)) 171.5W×75H×77.5D (8, 10, 16 channels (common)) 65.0W×75.0H×77.5D (EB3N-£2ND) 110.5W×75.0H×77.5D (EB3N-£2R5D) Weight (approx.) 0.38kg (EB3C-R10AN) 0.39kg (EB3C-R16CDN) 220g (EB3N-£2ND) 300g (EB3N-£2R5D) 2 safety circuits 2 safety circuits, 5 auxiliary circuits 4 Page 24 Lamp Barrier EB3L- AN Model EB3L- DN Shape Explosion Protection FM: Class I, II, III Div1 / Group A, B, C, D, E, F, G Class I, Zone 0 / AEx [ia] II C UL: Class I, II, III Div1 / Group A, B, C, D, E, F, G Class I, Zone 0 / [AEx ia] II C PTB (ATEX, IECEx): [Exia] II C, Exia] III C CQST: [Exia Ga] II C TIIS: [Exia] II C KCS: [Exia] II C NK: [Exia] II C KR: [Exia] II C Degree of Protection IP20 IP20 No. of Channels 1, 2, 3, 5, 6, 8, 10 1, 2, 3, 5, 6, 8, 10, 16 Power Voltage 100 to 240V AC 24V DC Input/Output Transistor input (sink) Transistor input (source) Transistor input (sink) Transistor input (source) Connection Screw Terminal Screw Terminal, Connector Mounting 35-mm-wide DIN rail Panel mounting 35-mm-wide DIN rail Panel mounting Size (excluding projections) 42W×75H×77.5D (1 channel) 65W×75H×77.5D (2, 3 channels) 110.5W×75H×77.5D (5, 6, 8 channels (common)) 171.5W×75H×77.5D (8, 10 channels) 42W×75H×77.5D (1 channel) 65W×75H×77.5D (1 channel) 110.5W×75H×77.5D (5, 6, 8 channels (common)) 171.5W×75H×77.5D (8, 10, 16 channels (common)) Weight (approx.) 0.36kg (EB3L-S10SAN) Page 0.36kg (EB3L-S16CSDN) 12 3 EB3C Relay Barriers Input contacts can be used in any explosive gas and Zone 0/Class I Div. 1 areas. Explosion protection Relay Barrier: Switch (EB9Z-A): Switch (EB9Z-A1): [Exia] II C Exia II CT6 Exia II BT6 ••IEC60079 compliant. ••Wide variety of models ranging from 1-circuit to 16 circuit models. ••8- and 16-channel are available in common wiring, ideal for connection to PLCs. 16-circuit also available with a connector. ••No grounding required. ••IDEC’s original spring-up terminal minimizes wiring time. ••35-mm-wide DIN rail mounting or direct screw mounting. ••Global usage IECEx USA: FM, UL Europe: CE marking, ATEX China: CQST Korea: KCS Taiwan TS Japan: TIIS ••Ship class: NK (Japan), KR (Korea) Connector Model Relay Barriers Power Voltage Connection to Non-intrinsically Safe Circuit Input Wiring Method Number of Channels Output Separate/Common Wiring Compatible Relay Common Wiring Only 100 to 240V AC Separate/Common Wiring Compatible Transistor (Sink/Source) Transistor (Sink) Common Wiring Only Transistor (Source) Screw Terminal Separate/Common Wiring Compatible Relay Common Wiring Only 24V DC Separate/Common Wiring Compatible Transistor (Sink/Source) Sink Common Wiring Only Connector 4 Transistor Source Sink Source 1 2 3 5 6 8 10 8 1 2 3 5 6 8 10 8 16 8 16 1 2 3 5 6 8 10 8 16 1 2 3 5 6 8 10 8 16 8 16 16 Part No. Weight (g) EB3C-R01AN EB3C-R02AN EB3C-R03AN EB3C-R05AN EB3C-R06AN EB3C-R08AN EB3C-R10AN EB3C-R08CAN EB3C-T01AN EB3C-T02AN EB3C-T03AN EB3C-T05AN EB3C-T06AN EB3C-T08AN EB3C-T10AN EB3C-T08CKAN EB3C-T16CKAN EB3C-T08CSAN EB3C-T16CSAN EB3C-R01DN EB3C-R02DN EB3C-R03DN EB3C-R05DN EB3C-R06DN EB3C-R08DN EB3C-R10DN EB3C-R08CDN EB3C-R16CDN EB3C-T01DN EB3C-T02DN EB3C-T03DN EB3C-T05DN EB3C-T06DN EB3C-T08DN EB3C-T10DN EB3C-T08CKDN EB3C-T16CKDN EB3C-T08CSDN EB3C-T16CSDN EB3C-T16CKD-CN EB3C-T16CSD-CN 150 180 190 260 270 300 380 280 140 170 180 250 260 320 340 260 260 260 260 130 170 180 250 260 260 360 270 390 120 160 170 240 250 250 320 250 350 250 350 330 330 EB3C Relay Barrriers Accessories Name Part No. BAA1000 BAP1000 BNL6 EB9Z-N1 DIN Rail End Clip Static Electricity Caution Plate Ordering No. BAA1000PN10 BAP1000PN10 BNL6PN10 EB9Z-N1PN10 Explosion-Protection and Electrical Specifications Explosion Protection Degree of Protection Installation Location Relay Barrier Switch Non-intrinsically Safe Circuit Maximum Voltage (Um) Intrinsically Safe Circuits Wiring Method Rated Operating Voltage Rated Operating Current Maximum Output Voltage (Uo) Maximum Output Current (lo) Maximum Output Power (Po) Maximum External Capacitance (Co) (Note 1) Maximum External Inductance (Lo) (Note 2) Allowable Wiring Resistance (Rw) Maximum Channels per Common Line Contact Configuration Rated Insulation Voltage (Ui) Thermal Current (lth) Resistive Load Contact Allowable Inductive Load Power Relay Output Inductive Load Minimum Applicable Load Contact Resistance Turn ON Time Turn OFF Time Mechanical Life Electrical Life Transistor Output Non-intrinsically Safe Circuits Resistive Load Rated Load Short-circuit Protection Rated Voltage Maximum Voltage Maximum Current Leakage Current Voltage Drop Clamping Voltage Inrush Current Turn ON Time Turn OFF Time Short-circuit Protection Package Quantity 10 10 10 10 Certification No. Intrinsic safety type IP20 (IEC60529) Safe indoor place (safe area: non-hazardous area) For zone 0, 1, 2 hazardous areas Certification Organization 250V AC c-UL FM 1-channel Separate Wiring 12V DC ±10% 10 mA DC ±20% 13.2V DC 14.2 mA 46.9 mW 16-channel Common Wiring 227.2 mA 750 mW CQST KCs 470 nF (470 nF) 490 nF (365 nF) TIIS 87.5 mH (87.5 mH) 0.6 mH (0.425 mH) 300Ω 600/(N+1)Ω (N = number of common channels) — PTB (ATEX) PTB (IECEx) 16 1NO 250V AC, 125V DC 3A (common terminal: 8A) AC: 750 VA, DC: 72W AC: 750 VA (cos ø = 0.3 to 0.4) DC: 48W (L/R = 7 ms) 250V AC 3A, 24V DC 3A 250V AC 3A (cos ø = 0.3 to 0.4) 24V DC 2A (L/R = 7 ms) 0.1V DC, 0.1 mA (reference value) 50 mΩ maximum (initial value) 12 ms maximum (rated voltage) 10 ms maximum (rated voltage) 20,000,000 operations minimum (at 18,000 operations/hour, without load) 100,000 operations minimum (at 1,800 operations/hour, rated load) None 24V DC 30V DC 100 mA (connector model: 15 mA) 0.1 mA maximum 1.5 V maximum 33V (1W) 0.5A maximum (1 sec) 0.1 ms maximum (resistive load) 0.4 ms (typical) (resistive load) None Note: Values in ( ) are those approved by TIIS (Technology Institution of Industrial Safety, Japan). Description Aluminum (1m long) Steel (1m long) For fastening EB3C units on the DIN rail. Polyester 20 (W) x 6 (H) mm NK KR Explosion Protection Class I, II, III Div. 1 Group A, B, C, D, E, F, G Class I, Zone 0 AEx [ia] II C Class I, II, III, Div. 1 Group A, B, C, D, E, F, G Class I, Zone 0 AEx [ia] II C [Exia] II C: Gas, Vapour [Exia] III C: Dust [Exia] II C: Gas, Vapour [Exia] III C: Dust [Exia Ga] II C [Exia] II C Relay barrier: [Exia] II C Switch (EB9Z-A): Exia II CT6 Switch (EB9Z-A1): Exia II BT6 [Exia] II C [Exia] II C Certification No. FM16US0364X E234997 PTB09 ATEX2046 IECEx PTB10.0015 CNEx14.0047 14-AV4B0-0373 TC20539 TC15758 TC15961 TA18437M TYK17821-EL003 Note: For details about switches, see “Switch Explosion-Protection Specifica­tions” on page 6 and “3. Switches in the Hazardous Area” on page 10. General Specifications Power Voltage Rated Power Voltage Allowable Voltage Range Rated Frequency Inrush Current Dielectric Strength (1 minute, 1 mA) Operating Temperature Storage Temperature Operating Humidity Atmosphere Pollution Degree Insulation Resistance Vibration Resistance (damage limits) Shock Resistance (damage limits) Terminal Style Mounting Power Consumption (approx.) AC Power DC Power 100 to 240V AC 24V DC –15 to +10% ±10% 50/60 Hz — (allowable range: 47 to 63 Hz) 10A (100V AC) 10A 20A (200V AC) Between intrinsically safe circuit and non-intrinsically safe circuit: 1526.4V AC Between AC power and output terminal: 1500V AC Between DC power and transistor output terminal: 1000V AC (screw terminal model only) –20 to +60°C (no freezing) –20 to +60°C (no freezing) 45 to 85% RH (no condensation) 800 to 1100 hPa 2 (IEC60664) 10 MΩ minimum (500V DC megger, between the same poles as the dielectric strength) Panel mounting: 10 to 55 Hz, amplitude 0.75 mm DIN rail mounting: 10 to 55 Hz, amplitude 0.35 mm Panel mounting: 500 m/s2 (3 times each on X, Y, Z) DIN rail mounting: 300 m/s2 (3 times each on X, Y, Z) M3 screw terminal 35-mm-wide DIN rail or panel mounting (M4 screw) 9.6 VA (EB3C-R10AN at 200V AC) 4.8W (EB3C-R16CDN at 24V DC) 5 EB3C Relay Barrriers Switch Explosion-Protection Specifications (Japan only) Simple apparatuses in accordance with relevant standards of each country can be installed in the hazardous area and connected to the EB3C located in the safe area. In Japan, any switches, though regarded as simple apparatuses, must be certified for explosion-proof devices. EB9Z-A and EB9Z-A1 are IDEC’s generic Part No. of any single apparatuses certified by TIIS for use with the EB3C, therefore simple appa­ratuses with specifications shown below can be used as those approved by the Japanese explosion-proof certification. Switch Part No. Explosion Proof (Note 1) Operating Temperature Operating Humidity Degree of Protection Dielectric Strength Intrinsic Safety Ratings and Parameters EB9Z-A EB9Z-A1 Exia II CT6 Exia II BT6 –20 to +60°C (no freezing) 45 to 85% RH (no condensation) IP20 500V AC, 1 mA 1-channel Separate Wiring 16-channel Common Wiring Maximum input voltage (Ui): 13.2V Maximum input voltage (Ui): 13.2V Maximum input current (Ii): 14.2 mA Maximum input current (Ii): 227.2 mA Maximum input power (Pi): 46.9 mW Maximum input power (Pi): 750 mW Internal capacitance (Ci): ≤ 2 nF Internal capacitance (Ci): ≤ 32 nF Internal inductance (Li): ≤ 5 µH Internal inductance (Li): ≤ 80 µH Metallic: Magnesium content must be 7.5% or less (steel and aluminum are acceptable) Caution Plastic: Switch operator exposed area IIC: 20 cm2 maximum IIB: 100 cm2 maximum When the switch has a wider exposed area, attach a caution label as shown at right. Enclosure Material To prevent electrostatic charges, do not rub the switch surface during operation. Use a soft cloth dipped with water for cleaning. Caution Label Example Contact rating: Ui, Ii minimum Contact resistance: 0.5Ω maximum Cross sectional area of wire: 0.000962 mm2 minimum Printed circuit board: Thickness 0.5 mm minimum Copper foil width 0.15 mm minimum Thickness 18 µm minimum one/both side(s) A resistor to prevent contact welding and an LED can be connected to 1-channel separate wiring circuits. Consult IDEC for details. Switch Ratings (Note 2) Note 1: See “Precautions for Operation” on page 10. Note 2: For details, see “3. Switches in the Hazardous Area” on page 10. Internal Circuit Block Diagram AC Power, Relay Output DC Power, Transistor Output Connector Wiring, Sink Output Hazardous Area •••••••• P1 N1 P2 N2 P3 N3 P1 N1 P2 N2 P3 N3 Green Yellow Yellow Yellow Green Yellow Yellow N + A1 C1 A2 C2 A3 C3 Yellow Green ~ ~ ~ ~ L Yellow P1 • • • • P16 N1 N2 Safe Area (Non-hazardous Area) Yellow ~ ~ ~ – A1 C1 A2 C2 A3 C3 + – A1 • • • • A16 C1 C2 Dimensions Connector Model EB3C-T16C-CN M3 ø6 Applicable Crimping Terminal 75 ø3.2 min. 6 max. 4-ø4.4 hole 65 171.5 3 max. 5.4 min. Stripping the Wire End Solid Wire (4) 83.5 77.5 65 6 to 8 mm 4-M4 or 4-4.5 holes Stranded Wire (Ferrule) 6 6 to 8 mm 10 97 6 10 97 Mounting Hole Layout All dimensions in mm. EB3C Relay Barrriers EB3C-∗03N EB3C-∗02N 110.5 77.5 171.5 65 65 EB3C-∗10N EB3C-∗08N EB3C-∗16CN 61 75 42 EB3C-∗06N EB3C-∗05N EB3C-∗08CN ø4.4 Screw Terminal EB3C-∗01N 4 6 77.5 (4) M3 ø6 hole 10 10 10 10 10 Mounting Hole Layout (Screw Mounting) 2-M4 tapped or 2-ø4.5 mounting holes 28 2-M4 tapped or 2-ø4.5 mounting holes 51 4-M4 tapped or 4-ø4.5 mounting holes 97 65 65 2-M4 tapped or 2-ø4.5 mounting holes 97 External Wiring Examples Transistor Output (Ex.: EB3C-T06AN) P5 P6 P7 P8 N1 N2 A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 24V DC + – A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 Load Power 24V DC P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P9 P10 P 11 P12 P13 P14 P15 P16 N3 N4 A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 A9 A10 A 11 A12 A13 A14 A15 A16 C3 C4 24V DC Load Load Power 24V DC – Load Load Load Load Load Load Load P4 C6 + 100 to 240V AC P3 Load A6 P2 Load C5 P1 Load A5 N6 Load C4 P6 Load A4 N5 Load C3 P5 Load A3 N4 Transistor Source Output (Ex.: EB3C-T08CSDN) Load C2 P4 Load A2 N3 Load C1 P3 Load A1 N2 Load N P2 Load L N1 Load P1 Transistor Sink Output (Ex.: EB3C-T08CKDN) Load Power 24V DC Note: On the sink/source transistor output model, ter­minals A can be used as a positive common line. Relay Output Common Wiring (Ex.: EB3C-R16CDN) Relay Output (Ex.: EB3C-R06AN) – 24V DC Load Load Load Load Load 100 to 240V AC Load + Load Load Power AC/DC Load C6 Load A6 Load C5 Load A5 N6 Load C4 P6 Load A4 N5 Load C3 P5 Load A3 N4 Load C2 P4 Load A2 N3 Load C1 P3 Load A1 N2 Load N P2 Load L N1 Load P1 Load Power AC/DC 7 EB3C Relay Barrriers Connector Model Output Wiring Diagram EB3C-T16CKD-CN (Sink) Wiring Example with IDEC’s MicroSmart PLC Input Modules EB3C-T16CKD-CN CH9 CH10 CH11 CH12 CH13 CH14 CH15 CH16 A9 A10 A11 A12 A13 A14 A15 A16 NC NC CHn 19 1 20 2 A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 CH1 CH2 CH3 CH4 CH5 CH6 CH7 CH8 +V COM EB3C PLC COM Internal Circuit Internal Circuit +V (C1) + – COM + An A1-A16 Input I0-I15 COM (C2) EB3C-T16CSD-CN (Source) CH9 CH10 CH11 CH12 CH13 CH14 CH15 CH16 A9 A10 A11 A12 A13 A14 A15 A16 NC NC 19 1 20 2 A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 CH1 CH2 CH3 CH4 CH5 CH6 CH7 CH8 –V COM EB3C CHn – An + COM PLC FC4A-N16B3 Input Terminal Terminal Output Input Terminal 20 A1 I0 20 20 A1 I0 20 19 A9 I10 19 19 A9 I10 19 18 A2 I1 18 18 A2 I1 18 17 A10 I11 17 17 A10 I11 17 16 A3 I2 16 16 A3 I2 16 15 A11 I12 15 15 A11 I12 15 14 A4 I3 14 14 A4 I3 14 13 A12 I13 13 13 A12 I13 13 12 A5 I4 12 12 A5 I4 12 11 A13 I14 11 11 A13 I14 11 10 A6 I5 10 10 A6 I5 10 9 A14 I15 9 9 A14 I15 9 8 A7 I6 8 8 A7 I6 8 7 A15 I16 7 7 A15 I16 7 6 A8 I7 6 6 A8 I7 6 5 A16 I17 5 5 A16 I17 5 4 +V COM 4 4 –V COM 4 3 NC COM 3 3 NC COM 3 2 COM NC 2 2 COM NC 2 1 NC NC 1 1 NC NC 1 Input I0-I15 Internal Circuit Internal Circuit A1-A16 EB3C-T16CSD-CN Output Note: The wiring in dashed line does not affect the operation of the EB3C. Applicable connector is IDEC’s JE1S-201. Input power for PLC inputs is supplied by the EB3C, therefore the PLC input does not need an external power supply. COM (C2) + FC4A-N16B3 Terminal COM Wiring Example of Intrinsically Safe External Inputs 1. Common Wiring (Maximum 16 circuits) P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 L N A1 C1 A2 C2 A3 C3 A4 C4 A5 C5 A6 C6 N N N P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P1 N1 P2 N2 P3 N3 L N A1 C1 A2 C2 A3 C3 N L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 P1 N1 N2 L N A1 C1 C2 N L N A1 P1 C1 N1 A2 P2 C2 N2 A3 P3 C3 N3 A4 P4 C4 N4 A5 P5 C5 N5 A6 P6 C6 N6 A7 P7 C7 N7 A8 P8 C8 N8 A9 P9 C9 N9 A10 P10 C10 N10 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 N4 L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 A9 A10 A11 A12 A13 A14 A15 A16 C3 C4 All input lines are wired to a common line inside the intrinsically safe switch (one common line per intrinsically safe circuit). N N N N P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 L N A1 C1 A2 C2 A3 C3 A4 C4 A5 C5 A6 C6 N L N A1 P1 C1 N1 A2 P2 C2 N2 A3 P3 C3 N3 A4 P4 C4 N4 A5 P5 C5 N5 A6 P6 C6 N6 A7 P7 C7 N7 A8 P8 C8 N8 A9 P9 C9 N9 A10 P10 C10 N10 P1 N1 P2 N2 P3 N3 P1 N1 N2 L N A1 C1 C2 N L N A1 C1 A2 C2 A3 C3 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 N4 L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 A9 A10 A11 A12 A13 A14 A15 A16 C3 C4 Some input lines are wired to a common line inside the intrinsically safe switches, while others are outside switches (one common line per intrinsically safe circuit). N P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 L N A1 C1 A2 C2 A3 C3 A4 C4 A5 C5 A6 C6 N 2. Separate Wiring Each input line of the EB3C makes up one independent intrinsically safe circuit. 8 N N P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P1 N1 P2 N2 P3 N3 L N A1 C1 A2 C2 A3 C3 N L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 P1 N1 N2 L N A1 C1 C2 N L N A1 P1 C1 N1 A2 P2 C2 N2 A3 P3 C3 N3 A4 P4 C4 N4 A5 P5 C5 N5 A6 P6 C6 N6 A7 P7 C7 N7 A8 P8 C8 N8 A9 P9 C9 N9 A10 P10 C10 N10 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 N4 L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 A9 A10 A11 A12 A13 A14 A15 A16 C3 C4 All input lines are wired to a common line outside the intrinsically safe switch (one common line per intrinsically safe circuit). N P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 L N A1 C1 A2 C2 A3 C3 A4 C4 A5 C5 A6 C6 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P1 N1 P2 N2 P3 N3 L N A1 C1 A2 C2 A3 C3 N L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 P1 N1 N2 L N A1 C1 C2 N N L N A1 P1 C1 N1 A2 P2 C2 N2 A3 P3 C3 N3 A4 P4 C4 N4 A5 P5 C5 N5 A6 P6 C6 N6 A7 P7 C7 N7 A8 P8 C8 N8 A9 P9 C9 N9 A10 P10 C10 N10 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 N4 L N A1 A2 A3 A4 A5 A6 A7 A8 C1 C2 A9 A10 A11 A12 A13 A14 A15 A16 C3 C4 N EB3C Relay Barrriers N N 2. Separate Wiring P1 N1 P2 N2 P3 N3 P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 L N A1 C1 A2 C2 A3 C3 L N A1 C1 A2 C2 A3 C3 A4 C4 A5 C5 A6 C6 N L N A1 P1 C1 N1 A2 P2 C2 N2 A3 P3 C3 N3 A4 P4 C4 N4 A5 P5 C5 N5 A6 P6 C6 N6 A7 P7 C7 N7 A8 P8 C8 N8 A9 P9 C9 N9 A10 P10 C10 N10 P1 N1 N2 L N A1 C1 C2 Each input line of the EB3C makes up one independent intrinsically safe circuit. N N Diagram Symbols N Serial-Parallel Connection of Switches Contacts in one switch (EB9Z-A or EB9Z-A1) L N A1 C1 C2 P1 N1 N2 One intrinsically safe circuit (maximum 16 circuits) Notes • As shown in the diagram on the left, a required number of “contacts in one switch” (3 contacts in the example at left) can be added to the “contacts in one switch” connected to one input channel. • Similarly, a required number of “contacts in one switch” can be added to a common line connected to multiple input channels. • The capacitance and inductance of the added “contacts in one switch” must be included in the calculation of the wiring capacitance and inductance in “Precautions for Operation, 5. Wiring for Intrinsic Safety, (7)” on page 11. • In addition, a required number of contacts can be added in the enclosure of “contacts in one switch.” In this case, however, do not include the capacitance and inductance in the calculation of the wiring capacitance and inductance on page 11. Instead, make sure that the internal capacitance (Ci) and internal inductance (Li) are within the values shown in the table “Switch Explosion-Protection Specifications (Japan only)” on page 6. Recommended Connector Cable for Connector Models Description No. of Poles Length (m) 1 2 BX9Z-H200E4 3 BX9Z-H300E4 1 BX9Z-H100L 2 BX9Z-H200L 3 BX9Z-H300L 1 With Shield 2 I/O Terminal Cable 3 0.5 1 Without Shield 2 3 20 Cable with Crimping Terminal Part No. FC9Z-H050A20 FC9Z-H100A20 FC9Z-H200A20 FC9Z-H300A20 FC9Z-H050B20 FC9Z-H100B20 FC9Z-H200B20 FC9Z-H300B20 BX9Z-H100E4 0.5 Shape Applicable Model IDEC MicroSmart I/O Module IDEC MicroSmart I/O Module 200 Screw Terminal 2 1 40-pin Cable for PLC FC9Z-HA, FC9Z-HB Internal Connection Fujitsu Connecto IDEC Connector FCN-367J024-AU/F JE1S-201 19 20 17 18 15 13 16 14 11 12 9 10 7 8 5 6 3 1 4 2 (Connecting Side) IDEC Connector IDECJE1S-20111 Connector JE1S-201 19 20 17 18 15 16 13 14 11 12 9 10 IDEC Connector JE1S-201 IDEC Connector JE1S-201 1 2 3 4 5 6 7 8 9 10 11 12 13 14 8 15 16 5 6 17 18 3 4 2 (Connecting Side) 19 20 0 Connector A Mitsubishi A Series Input Module (positive common) ↓ EB3C-T16CKD-CN BX9Z-HL Internal Connection Y-shaped Compression Terminal Y-shaped Compresion (Marking Tube No.) Terminal 1 3 5 7 9 11 13 15 17 19 Fujitsu Connector FCN-367J040-AU/F B A 1 1 2 2 3 3 2 4 4 4 5 5 6 6 6 7 7 8 8 9 9 (Marking Tube No.) 8 10 12 Connector A IDEC JE1S-201 14 2 1 16 4 3 18 6 5 20 8 7 10 9 (Connecting Side) Connector B 10 BX9Z E4 Internal Connection 7 1 350 12 11 14 13 16 15 18 17 20 19 (Connecting Side) Connector B IDEC JE1S-201 10 10 11 11 2 1 12 12 4 3 13 13 6 5 14 14 8 7 15 15 10 9 16 16 12 11 17 17 14 13 18 18 16 15 19 19 18 17 20 20 20 19 (Connecting Side) (Connecting Side) 9 EB3C Relay Barrriers Operating Instructions 1. Installation of EB3C Relay Barriers Applicable Switches (1) The EB3C can be installed in any direction. (2) Install the EB3C relay barrier in a safe area (non-hazardous area) in accordance with intrinsic safety ratings and param­eters. To avoid mechanical shocks, install the EB3C in an enclosure which suppresses shocks. Control Switches (3) When installing or wiring the EB3C, prevent electromagnetic and electrostatic inductions in the intrinsically safe circuit. Also prevent the intrinsically safe circuits from contacting with another intrinsically safe circuit and any other circuits. Maintain at least 50 mm clearance, or provide a metallic separating board between the intrinsically safe circuit and non-intrinsically safety circuit. When providing a metallic separating board, make sure that the board fits closely to the enclosure (top, bottom, and both sides). Allowable clear­ance between the enclosure and board is 1.5 mm at the maximum. Sensing Switches The clearance of 50 mm between the intrinsically safe cir­cuit and non-intrinsically safe circuit may not be sufficient when a motor circuit or high-voltage circuit is installed nearby. In this case, provide a wider clearance between the circuits referring to 5 (3) “Minimum Parallel Distance between the Intrinsically Safe Circuit and Other Circuits.” (4) In order to prevent contact between intrinsically safe circuits and nonintrinsically safe circuits, mount EB3C units with terminals arranged in the same direction. Intrinsically Safe Circuit EB3C Pushbutton, Foot, Trigger, Rocker, Grip Twisting Switches Rotary, Selector, Cam, Drum, Thumb wheel Lever and Slide Switches Toggle, Multidirectional, Wobble stick, Lever, Slide switch Displacement Switches Microswitch, Limit, Magnetic proximity, Door, Reed, Mercury Level Switches Liquid level Others Pressure, Temperature Note: For installation in hazardous areas and connection to the EB3C, use switches which are certified, approved, or considered to be simple apparatus in relevant standards in each country. (2) When the switch has internal wiring or lead wire, make sure that the values of internal inductance (Li) and capacitance (Ci) are within the certified values. (3) Enclose the switch contact’s bare live part in an enclosure of IP20 or higher protection. (4) Depending on the explosion-protection specifications according to TIIS, the exposed area of plastic switch opera­tor is limited as follows: • Exia II CT6 (EB9Z-A): 20 cm2 maximum • Exia II BT6 (EB9Z-A1): 100 cm2 maximum (5) Attach the certification mark supplied with the EB3C on the EB9Z-A or EB9Z-A1 switch (for Japan application). (6) When the switch operator of plastic enclosure has a wider exposed area than the following limits, attach a caution label as shown below. Caution EB3C EB3C To prevent electrostatic charges, do not rub the switch surface during operation. Use a soft cloth dipped with water for cleaning. 2 II C: 20 cm maximum II B: 100 cm2 maximum EB3C Non-intrinsically Safe Circuit Push-pull Switches EB3C Intrinsically Safe Circuit (5) Maintain at least 6 mm (or 3 mm according to IEC60079-11: 1999) clearance between the terminal of intrinsically safe circuit and the grounded metal part of a metal enclosure, and between the relay terminal block of an intrinsically safe circuit and the grounded metal part of a metal enclosure. (6) For installing the EB3C, mount on a 35-mm-wide DIN rail or directly on a panel using screws. Make sure to install securely to withstand vibration. When mounting on a DIN rail, push in the clamp completely. Use the BNL6 end clips on both sides of the EB3C to prevent from moving sideways. Caution Label Example (7) For the 1-circuit separate wiring, a resistor to prevent reed switch contact welding and an LED miniature pilot lights can be connected in series with the contact. See below. Use the terminal screw of M3 or larger. Applicable Resistor Ratings Resistance 100Ω maximum Rated Wattage 0.5 to 3W Model Metal (oxide) film resistors R (7) Excessive extraneous noise may cause malfunction and damage to the EB3C. When extraneous noise activates the voltage limiting circuit (thyristor), remove the noise source and restore the power. Reed Switch Terminal Block 2. Terminal Wiring (1) Using a ø5.5 mm or smaller screw driver, tighten the termi­nal screws (including unused terminal screws) to a torque of 0.6 to 1.0 N·m (recommended value). (2) Make sure that IP20 is achieved when wiring. Use insulation tubes on bare crimping terminals. (3) To prevent disengaged wires from contacting with other intrinsically safe circuits, bind together the wires of one intrinsically safe circuit. (4) When the adjacent terminal is connected to another intrinsi­cally safe circuit, provide an insulation distance of at least 6 mm. 10 EB3C Applicable LED IDEC’s IPL1 series LED miniature pilot lights. See pages 14 and 17. EB3C Relay Barrriers Operating Instructions 4. Output Specifications (1) When wiring the output from the EB3C, connect the non-intrinsically safe circuit to terminals A and C. The EB3C out­put circuit is not equipped with short-circuit protection. If required, provide a protection in the external circuit. (2) Relay Output Some types of loads generate reverse emf (such as sole­noids) or cause a large inrush current (incandescent lamps), resulting in a shorter operation life of output relay contacts. The operation life of contacts can be extended by preventing the reverse emf using a diode, RC, or varistor, or by suppressing the inrush current using a resistor or RL. Voltage and Current of Other Circuits Over 440V 440V or less 220V or less 110V or less   60V or less Over 100A 100A or less 50A or less 2000 2000 2000 2000 2000 2000  600  600  600  500 10A or less 2000  600  600  500  300 2000  600  500  300  150 (4) When identifying intrinsically safe circuits by color, use light blue terminal blocks and cables. Contacts are made of gold-clad silver. When using at a small current and a low voltage (reference value: 0.1 mA, 0.1V), test the contact on the actual circuit in advance. (5) When using two or more EB3C’s to set up one intrinsically safe circuit in the common wiring configuration, interconnect two neutral terminals (N1 through N10) on each EB3C between adjacent EB3C’s in parallel. (3) Transistor Output When connecting a small load, the load may not turn off because of a leakage current, even though the transistor output is turned off. If this is the case, connect a resistor in parallel with the load to bypass the leakage current. When an excessively high voltage (clamps at 33V, 1W) or a reverse voltage is applied to the output terminals, the clamping circuit or output transistor may be damaged. (6) Make sure that the power of the EB3C and contact are turned off before starting inspection or replacement. (7) When wiring the intrinsically safe circuit, determine the dis­tance to satisfy the wiring parameters shown below. Note that parameters are different between separate wiring and common wiring. When driving an inductive load, be sure to connect a diode across the load to absorb reverse emf. An Load ∗ Cn ∗: Surge Absorber Example of Overvoltage Absorption Circuit (4) In the common wiring only models, the output terminals are not isolated from each other. (5) When connecting the connector model EB3C’s in parallel, use one power supply to power the EB3C’s. Do not connect any wiring to the C1 and C2 terminals. 5. Wiring for Intrinsic Safety (1) The voltage applied on the general circuit connected to the nonintrinsically safe circuit terminals of the EB3C relay bar­rier must be 250V AC, 50/60Hz, or 250V DC at the maxi­mum under any conditions, including the voltage of the input power and the internal circuit. (2) When wiring, take into consideration the prevention of elec­tromagnetic and electrostatic charges on intrinsically safe circuits. Also, prevent intrinsically safe circuits from contact­ing with other circuits. (3) The intrinsically safe circuits must be separated from non-intrinsically safe circuits. Contain intrinsically safe circuits in a metallic tube or duct, or separate the intrinsically safe cir­cuits referring to the table below. Note: Cables with a magnetic shield, such as a metallic sheath, prevent electromagnetic induction and electrostatic induction, however, a nonmagnetic shield prevents electrostatic induction only. For non-magnetic shields, take a preventive measure against electro­magnetic induction. Finely twisted pair cables prevent electromagnetic induc­tion. Adding shields to the twisted pair cables provides pro­tection against electrostatic induction. a) Wiring capacitance Cw ≤ Co – (Ci + N × 2 nF) Co: Maximum external capacitance of the EB3C Ci: Internal capacitance of the switch N: The number of switches connected in series or parallel (the number is infinite) b) Wiring inductance Lw ≤ Lo – (Li + N × 5 µH) Lo: Maximum external inductance of the EB3C Li: Internal inductance of the switch N: The number of switches connected in series or parallel (the number is infinite) c) Wiring resistance ≤ Rw Rw: Allowable wiring resistance d) Allowable wiring distance D (km) is the smallest value of those calculated from the capacitance, inductance, and resistance. D ≤ Cw/C D ≤ Lw/L D ≤ Rw/2R C (nF/km): Capacitance of cable per km L (mH/km): Inductance of cable per km R (Ω/km): Resistance of cable per km Note: For the details of wiring the intrinsically safe circuits, refer to a rel­evant test guideline for explosion-proof electric equipment in each country. (8) Applicable Wire Size 0.5 to 2.0 mm2 (AWG20 to AWG14): two wires However, one wire for 2.0 mm2 (AWG14) Mounting Bracket The following mounting brackets can be used to install the EB3C relay barriers and EB3L lamp barriers on the mounting holes of IBRC contact signal transducer, IBPL pilot relay barrier, and IBZ buzzer. No. of Channels Part No. 1 2 3 5 6 10 EB9Z-K01 EB9Z-K02 EB9Z-K03 EB9Z-K05 EB9Z-K06 EB9Z-K10 A 28.0 51.0 51.0 97.0 97.0 97.0 Dimension (mm) B C 44.0 61.0 59.5 76.0 75.0 91.5 105.0 122.0 120.0 137.0 181.0 198.0 Dimensions C B A 7 ø5 (four) M4 (two or four) ∗ 140 126 90 65 Minimum Parallel Distance between the Intrinsically Safe Circuit and Other Circuits (mm) ∗ ∗: EB9Z-K10 only All dimensions in mm. 11 EB3L Lamp Barriers 126 types of pilot lights and buzzers can be connected and used in Zone 0 areas. Illuminated pushbuttons and illuminated selector switches can be connected by combining with the EB3C relay barrier. Lamp Barrier Pilot Light (separate wiring) Pilot Light (common wiring) Illuminated Pushbutton Illuminated Selector Switch Buzzer (separate wiring)* Explosion protection [Exia] II C Exia II CT6 Exia II CT4 Exia II CT4 Exia II CT4 Exib II CT6 • IEC60079 compliant. • 8- and 16-channel are available in common wiring, ideal for connection to PLCs. 16-circuit also available with a connector. • Universal AC power voltage (100 to 240V AC) • No grounding required. • IDEC’s original spring-up terminal minimizes wiring time. • Installation 35-mm-wide DIN rail mounting or direct screw mounting. • ø6, ø8, ø10, ø22 and ø30 pilot lights available. • Illuminated pushbuttons and illuminated selector switches can be connected by combining with the EB3C relay barrier. Illumination colors: Amber, blue, green, red, white, and yellow (pushlock turn reset: red only) • Buzzers are available in intermittent and continuous sounds. ø30 mountConnector Model ing hole. • Global usage IECEx USA: FM, UL Europe: CE marking, ATEX * Buzzers are certified by TIIS only. Other ex-proof certifications pending. China: CQST * Buzzers cannot be used in Zone 0 areas. Korea: KCS Taiwan: TS Japan: TIIS • Ship class: NK (Japan), KR (Korea) 12 EB3L Lamp Barrriers Lamp Barriers Power Voltage Connection to Non-intrinsically Safe Circuit Input Source 100 to 240V AC Input Wiring Method (Note) Number of Channels Separate/Common Wiring Compatible Common Wiring Only Screw Terminal Sink Separate/Common Wiring Compatible Common Wiring Only Source Separate/Common Wiring Compatible Common Wiring Only Screw Terminal 24V DC Sink Separate/Common Wiring Compatible Common Wiring Only Connector Source Sink Common Wiring Only Part No. Weight (g) 1 EB3L-S01SAN 150 2 EB3L-S02SAN 180 3 EB3L-S03SAN 190 5 EB3L-S05SAN 250 6 EB3L-S06SAN 260 8 EB3L-S08SAN 330 10 EB3L-S10SAN 360 8 (∗) 1 EB3L-S08CSAN 260 EB3L-S01KAN 150 2 EB3L-S02KAN 180 3 EB3L-S03KAN 190 5 EB3L-S05KAN 250 6 EB3L-S06KAN 260 8 EB3L-S08KAN 330 10 EB3L-S10KAN 360 8 (∗) 1 EB3L-S08CKAN 260 EB3L-S01SDN 130 2 EB3L-S02SDN 160 3 EB3L-S03SDN 170 5 EB3L-S05SDN 240 6 EB3L-S06SDN 250 8 EB3L-S08SDN 310 10 EB3L-S10SDN 250 8 (∗) EB3L-S08CSDN 340 16 (∗) 1 EB3L-S16CSDN 350 EB3L-S01KDN 130 2 EB3L-S02KDN 160 3 EB3L-S03KDN 170 5 EB3L-S05KDN 240 6 EB3L-S06KDN 250 8 (∗) 10 EB3L-S08KDN 310 EB3L-S10KDN 340 8 EB3L-S08CKDN 250 16 (∗) EB3L-S16CKDN 350 16 (∗) EB3L-S16CSD-CN 350 16 (∗) EB3L-S16CKD-CN 350 ∗ Buzzers cannot be connected in common wiring. Note: Source input model can be connected with sink output PLC. Sink input model can be connected with source output PLC. Accessories Name DIN Rail End Clip Part No. BAA1000 BAP1000 BNL6 Ordering No. BAA1000PN10 BAP1000PN10 BNL6PN10 Package Quantity 10 10 10 Description Aluminum (1m long) Steel (1m long) For fastening EB3L units on the DIN rail. 13 EB3L Lamp Barrriers Pilot Lights, Illuminated Pushbuttons, Illuminated Selector Switches, and Buzzers Unit Series (Note 1) Size ø30 N Pilot Light TW ø22 HW Miniature Pilot Light LW ø10 ø8 UP ø6 ø30 N Shape Dome Square Rectangular w/Metal Bezel Dome w/Diecast Sleeve Flush Flush (Marking Type) Dome Square Flush (Marking Type) Round Flush Dome Square Flush Round Square Round w/Square Bezel Extended Coned Flush Extended Coned Flush Extended Coned Illuminated Pushbutton HW Round Round LW Square Buzzer Illuminated Selector Switch (Note 3) ø30 N Round TW Round HW Round LW Round Round w/Square Bezel — — ø22 ø30 Ordering No. (Note 2) — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — EB3P-LAN1-∗ EB3P-LUN3B-∗ EB3P-LUN4-∗ EB3P-LAD1-∗ EB3P-LAW1-∗ EB3P-LAW1B-∗ EB3P-LAW2-∗ EB3P-LUW1B-∗ EB3P-LHW1-∗ EB3P-LHW2-∗ EB3P-LHW4-∗ EB3P-LLW1-∗ EB3P-LLW2-∗ EB3P-LLW3-∗ IPL1-18-∗ IPL1-19-∗ IPL1-87-∗ IPL1-88-∗ IPL1-89-∗ IPL1-67-∗ IPL1-68-∗ IPL1-69-∗ Momentary 1NO-1NC EB3P-LBAN211-∗ Maintained 1NO-1NC EB3P-LBAON211-∗ Pushlock Turn Reset 1NO-1NC EB3P-LBAVN311-R Momentary 1NO-1NC EB3P-LBAW211-∗ Maintained 1NO-1NC EB3P-LBAOW211-∗ Pushlock Turn Reset Momentary Maintained Momentary Maintained Momentary Maintained 2-position 3-position 2-position 2-position, return from right 3-position 3-position, return from right 3-position, return from left 3-position, 2-way return 2-position 3-position 2-position 3-position 1NO-1NC 1NO 1NO DPDT DPDT DPDT DPDT 1NO-1NC 2NO 1NO-1NC 1NO-1NC 2NO 2NO 2NO 2NO 1NO-1NC 2NO DPDT DPDT Continuous sound — EB3P-LBH1W110-∗ EB3P-LBHA1W110-∗ EB3P-LBL1W1C2-∗ EB3P-LBLA1W1C2-∗ EB3P-LBL2W1C2-∗ EB3P-LBLA2W1C2-∗ EB3P-LSAN211-∗ EB3P-LSAN320-∗ EB3P-LSAW211-∗ EB3P-LSAW2111-∗ EB3P-LSAW320-∗ EB3P-LSAW3120-∗ EB3P-LSAW3220-∗ EB3P-LSAW3320-∗ EB3P-LSHW211-∗ EB3P-LSHW320-∗ EB3P-LSL1W2C2-∗ EB3P-LSL3W3C2-∗ EB3P-ZUN12CN Intermittent sound (approx. 3 Hz) — EB3P-ZUN12FN Extended Mushroom ø22 Contact Extended Mushroom TW Operation Mode EB3P-LBAVW411-R Lens Color/ Illumination Color Code∗ Operation A: Amber G: Green R: Red S: Blue W: White Y: Yellow — A: Amber G: Green R: Red W: White Y: Yellow — A: Amber G: Green R: Red S: Blue W: White Y: Yellow Red only A: Amber G: Green R: Red S: Blue W: White Y: Yellow Red only A: Amber G: Green R: Red S: Blue W: White Y: Yellow — — (Note 3) (Note 4) (Note 5) (Note 3) (Note 4) (Note 5) (Note 3) (Note 4) (Note 3) (Note 4) (Note 3) (Note 4) Maintained Maintained Maintained Spring return from right Maintained Spring return from right Spring return from left 2-way spring return Maintained Maintained Maintained Maintained Approx. 3 Hz Note 1: Codes N, TW, HW, LW, and UP are the series names of IDEC’s switches and pilot lights. Note 2: Specify a color code in place of ∗. Note 3: Momentary operation mode—the contact operates when the button is pressed. When the button is released, the contact goes back to the original position. Note 4: Maintained operation mode—the contact operates when the button is pressed, and maintains the position even when the button is released. Re-pressing the button releases the contact. Note 5: Pushlock turn reset operation mode—the button is held depressed when pressed, and released by turning clockwise. Note 6: Illuminated selector switches have a knob operator. Note 7: Lamp barrier and relay barrier need to be connected when using the illuminated pushbutton and illuminated selector switch. Accessories Name Ordering No. Package Quantity Remarks LED Lamp EB9Z-LDS1-∗ 1 Specify a color code in place of ∗ in the Ordering No. A: amber, G: green, R: red, S: blue, W: white Static Electricity Caution Plate EB9Z-N1PN10 10 Polyester 20 (W) x 6 (H) mm Note: Use a pure white (PW) LED lamp for yellow (Y) illumination. 14 EB3L Lamp Barrriers Explosion-Protection and Electrical Specifications of Lamp Barrier Lamp Barrier Safe indoor place (non-hazardous area) Pilot Light, Illuminated Switch For zone 0, 1, 2 hazardous areas Buzzer For zone 1, 2 hazardous areas 250V AC 50/60Hz, 250V DC Operation Input ON, Output ON (1:1) Intrinsically Safe Circuits (Output) Non-intrinsically Safe Circuit Maximum Voltage (Um) Wiring Method 1-channel Separate Wiring Rated Operating Voltage 12V DC Rated Operating Current 10 mA DC ±20% Maximum Output Voltage (Uo) 13.2V DC 16-channel Common Wiring Maximum Output Current (lo) 14.2 mA 227.2 mA Maximum Output Power (Po) 46.9 mW 750 mW 470 (470) nF 490 (365) nF 87.5 (87.5) mH 0.6 (0.425) mH Maximum External Capacitance (Co) (Note) Maximum External Inductance (Lo) (Note) Allowable Wiring Resistance (Rw) Maximum Channels per Common Line Voltage and Current when Connecting Control Units Non-intrinsically Safe Circuits (Signal Input) 200/(n+1)Ω (n = number of common channels) 8 (16 maximum) Pilot light: 3.5V, 8.5 mA Miniature pilot light: 2V, 10 mA Illuminated switch: 3.5V, 8.5 mA Buzzer: 6.5V, 5.5 mA Rated voltage: 24V DC Rated current: 5 mA (connector model: 4 mA) Note: Values in ( ) are those approved by TIIS (Technology Institution of Industrial Safety, Japan). General Specifications of Lamp Barrier Power Voltage Type AC Power DC Power Rated Power Voltage 100 to 240V AC (–15 to +10%) 24V DC (±10%) Allowable Voltage Range 85 to 264V AC 21.6 to 26.4V DC Rated Frequency Inrush Current Dielectric Strength (1 minute, 1 mA) 50/60 Hz — (allowable range: 47 to 63 Hz) 10A (100V AC) 10A 20A (200V AC) Between AC power and signal input: 1500V AC Between intrinsically safe circuit and non-intrinsically safe circuit: 1526.4V AC (except for DC power and signal input) Operating Temperature –20 to +60°C (no freezing) Storage Temperature –20 to +60°C (no freezing) Operating Humidity 45 to 85% RH (no condensation) Atmosphere 800 to 1100 hPa Pollution Degree 2 (IEC60664) Insulation Resistance Vibration Resistance (damage limits) 10 MΩ minimum (500V DC megger, between the same poles as the dielectric strength) Panel mounting: 10 to 55 Hz, amplitude 0.75 mm (2 hours each on X, Y, Z) DIN rail mounting: 10 to 55 Hz, amplitude 0.35 mm (2 hours each on X, Y, Z) –20 to +60°C (no freezing) 45 to 85% RH (no condensation) EB3P: 1000V AC Dielectric Strength IPL1:   500V AC (1 mA, 1 minute) (between intrinsically safe circuit and dead parts) 10 MΩ minimum (500V DC megger, between the same Insulation Resistance poles as the dielectric strength) IP65 (IEC60529) (except for terminals) Degree of Protection EB3P-LU/IPL1: IP40 Pilot light: Amber, blue, green, red, white, yellow Lens/Illumination Color Miniature pilot light: Amber, green, red, white, yellow 1-channel Separate Wiring Maximum input voltage (Ui): 13.2V Maximum input current (Ii): 14.2 mA Maximum input power (Pi): 46.9 mW Internal capacitance (Ci): ≤ 2 nF Intrinsic Safety Internal inductance (Li): ≤ 5 µH Ratings and 16-channel Common Wiring Parameters Maximum input voltage (Ui): 13.2V Maximum input current (Ii): 227.2 mA Maximum input power (Pi): 750 mW Internal capacitance (Ci): ≤ 32 nF Internal inductance (Li): ≤ 80 µH IP65 (IEC60529) (except for terminals) Degree of Protection EB3P-LSAW∗∗: IP54 Illumination Color Amber, blue, green, red, white, yellow Contact 12V DC ±10%, 10 mA ±20% Voltage/Current (when connecting to the EB3C) 16-channel Common Wiring Maximum input voltage (Ui): 13.2V Intrinsic Safety Maximum input current (Ii): 227.2 mA Ratings and Maximum input power (Pi): 750 mW Parameters Internal capacitance (Ci): ≤ 32 nF Internal inductance (Li): ≤ 80 µH Degree of Protection IP20 (IEC60529) (except for terminals) Sound Volume 75 dB minimum (at 1 m) Sound Source Piezoelectric oscillator (continuous or intermittent) 1-channel Separate Wiring Maximum input voltage (Ui): 13.2V Intrinsic Safety Ratings Maximum input current (Ii): 14.2 mA and Parameters Maximum input power (Pi): 46.9 mW Internal capacitance (Ci): ≤260 nF Internal inductance (Li): ≤80 mH Weight 100g Pilot Light and Miniature Pilot Light Operating Temperature Operating Humidity Illuminated Switch IP20 (IEC60529) Buzzer Intrinsic safety type Degree of Protection Installation Location Explosion Protection General Specifications of Pilot Light, Illuminated Pushbutton, Illuminated Selector Switch, and Buzzer Note: Connect buzzers in separate wiring. Buzzers cannot be used in common wiring. Certification No. Certification Organization FM c-UL PTB (ATEX) PTB (IECEx) CQST KCs Panel mounting: 500 m/s2 (3 times each on X, Y, Z) Shock Resistance (damage limits) DIN rail mounting: 300 m/s2 (3 times each on X, Y, Z) Terminal Style M3 screw terminal Mounting 35-mm-wide DIN rail or panel mounting (M4 screw) Power Consumption (approx.) 8.8 VA (EB3L-S10SAN at 200V AC) 5.2 W (EB3L-S16CSDN at 24V DC) TIIS NK KR Explosion Protection Class I, II, III Div. 1 Group A, B, C, D, E, F, G Class I, Zone 0 AEx [ia] II C Class I, II, III Div. 1 Group A, B, C, D, E, F, G Class I, Zone 0 [AEx ia] II C Lamp barrier: [Exia] II C Buzzer: Exib II CT6 Lamp barrier: [Exia] II C Lamp barrier: [Exia Ga] II C Buzzer: Exib II CT6 Lamp barrier: [Exia] II C Buzzer: Exib II CT6 Lamp barrier: [Exia] II C Pilot light/Miniature pilot light: (separate wiring:) Exia II CT6 Pilot light/Miniature pilot light: (common wiring:) Exia II CT4 Illuminated switch: Exia II CT4 Buzzer: Exib II CT6 Lamp barrier: [Exia] II C Buzzer: Exib II CT6 Lamp barrier: [Exia] II C Buzzer: Exib II CT6 Certification No. FM16US0364X E234997 (except buzzer) PTB09 ATEX2046 15 ATEX 6163X IECEx PTB10.0015 CNEx 14.0047 CNEx 15.2108X 14-AV4B0-0375 17-AV4B0-0355X TC20541 TC16361 TC16360 TC16362 TC20797 TA18437M TA17025M TYK17821-EL003 TYK17821-EL002 Note: Illuminated switches, pilot lights, and miniature pilot lights are certified by TIIS and NK only. Other certification organizations regard these units as simple apparatus, and require no certification. Buzzers are certified by TIIS only. Other ex-proof certifications pending. 15 EB3L Lamp Barrriers Internal Circuit Block Diagram AC Power Source Input DC Power Sink Input Connector Wiring Source Input Hazardous Area P1 N1 P2 N2 P3 N3 Yellow Green Yellow P1 N1 P2 N2 P3 N3 Yellow Green – Yellow Yellow Yellow L +– +– N S1 C1 S2 C2 S3 C3 + Safe Area (Non-hazardous Area) Yellow – ~ ~ ~ +– N2 – – – P16 N1 Yellow Green – – ~ P1 –+ – –+ ~ ~ ~ –+ S1 C1 S2 C2 S3 C3 + – S1 S16 C1 C2 Dimensions Terminal EB3L–S01  N 65 EB3L–S08 N EB3L–S10 N EB3L–S16C N 110.5 Intrinsic Safety Side: Light Blue 77.5 171.5 61 75 65 42 EB3L–S05 N EB3L–S06 N EB3L–S08C N N N ø4.4 EB3L–S02 EB3L–S03 (4) ø6 hole 4 6 77.5 Non-Intrinsic Safety Side: Yellow 10 10 10 10 10 2-M4 tapped or 2-ø4.5 mounting holes 28 2-M4 tapped or 2-ø4.5 mounting holes 4-M4 tapped or 4-ø4.5 mounting holes 97 97 51 65 2-M4 tapped or 2-ø4.5 mounting holes 65 Mounting Hole Layout (Screw Mounting) Connector EB3L-S16C-CN Applicable Crimping Terminal ø3.2 min. 3 max. 4-M4 or 4-ø4.5 holes 5.4 min. 65 75 4- ø4.4 holes 65 6 max. M36 ø 171.5 Stripping the Wire End Solid Wire (4) 83.5 97 Mounting Hole Layout 6 to 8 mm 77.5 Stranded Wire (Ferrule) 6 6 to 8 mm 10 16 97 10 All dimensions in mm. EB3L Lamp Barrriers 28.5 34.3 13 17 30 28.5 34.3 13 17 Panel Thickness 0.8 to 6 Gasket Locking Ring Flush Dome 36 52.2 34 ø40 13 25 M3.5 Terminal Screw 28.5 34.3 30 13 16 30 Marking Plate: 22 Panel Thickness 0.8 to 6 Gasket 7.2 Square Round/Dome EB3P-LUW1B ø22 Terminal Cover (supplied) Panel Thickness 1 to 6 APS-PVL EB3P-LLW1/EB3P-LLW2/EB3P-LLW3 ø22 Terminal cover attached. M3.5 Terminal Screw 28.5 34.3 30 Marking Plate: ø15.5 40 44 37 M3.5 Terminal Screw EB3P-LHW1/EB3P-LHW2/EB3P-LHW4 ø22 EB3P-LAW2 ø22 20 23 40 Terminal Cover (supplied) Panel Thickness 1 to 6 APS-PVL 37 M3.5 Terminal Screw 37 ø29 ø24 M3.5 Terminal Screw EB3P-LAW1B ø22 Terminal Cover (supplied) APS-PVL Panel Thickness 1 to 6 Terminal Cover (supplied) APS-PVL Panel Thickness 1 to 6 9 21.4 29.8 Panel Thickness 0.8 to 5.5 25 30 EB3P-LAW1 ø22 40 44 10.5 Terminal Cover: APN-PVL (sold separately) M3 Terminal Screw 37 29.5 40 ø29 23.5 Panel Thickness 0.8 to 7.5 36 52.2 34×40 36 ø35 21.5 M3.5 Terminal Screw Panel Thickness 0.8 to 4.5 EB3P-LUN3B ø30 Terminal Cover: APD-PVL (sold separately) ø24.8 ø35 M3 Terminal Screw Panel Thickness 0.8 to 7.5 EB3P-LAD ø30 Terminal Cover: APN-PVL (sold separately) ø24 M3 Terminal Screw EB3P-LUN4 ø30 Terminal Cover: APN-PVL (sold separately) ø23.6 ø29 Pilot Lights EB3P-LAN1 ø30 Square Round w/square bezel Round Locking Ring 9 ø2 IPL1-89 20.3 11.5 2.5 4.6 Terminal cover: N-VL4 (2 pcs.) (sold separately) M3.5 Terminal Screw M3.5 Terminal Screw 5.5 30 ø22 M3.5 Terminal Screw Adjustment Ring Panel Thickness 1 to 6 ø22 Terminal cover: LW-VL2M (sold separately) Panel Thickness 0.8 to 6 36 Panel Thickness 0.8 to 6 Locking Ring LO CK Lever Stop 9 ø2 49.4 13 29.4 EB3P-LBL2W1C2/LBLA2W1C2 Terminal cover: LW-VL2M (sold separately) Panel Thickness 0.8 to 6 23.2 23.2 K K C C LO M3 Terminal Screw M3.5 Terminal Screw 13 22.5 R18 EB3P-LBL1W1C2/LBLA1W1C2 R18 ø40 37 ø24 ø29 69.4 LO M3 Terminal Screw 13 19.5 30 Reset 75° EB3P-LBH1W110/LBHA1W110 Terminal cover attached. 41.4 Panel Thickness 1 to 6 EB3P-LBAVW411-R Terminal cover attached. 25 ø22 ø2 Adjustment Ring 40 23.5 37 EB3P-LBAW211/LBAOW211 69.4 ø22 23 63 Terminal cover attached. M3.5 Terminal Screw ø40 ø40 40 23.5 4 ø22 ø35 ø24 9 63 Panel Thickness 0.8 to 7.5 M3 Terminal Screw Panel Thickness 0.8 to 7.5 23 3 EB3P-LBAVN311-R ø30 Terminal cover: N-VL4 (2 pcs.) (sold separately) 5.5 Panel Thickness 0.6 to 4 7 11.3 19.8 3.5 18.5 Illuminated Pushbuttons EB3P-LBAN211/LBAON211 ø30 M3 Terminal Screw M6 P0.75 + Terminal 7 10 4.6 4.6 7 11.8 5 4.5 IPL1-69 ø6 Panel Thickness 0.6 to 4 M6 P0.75 + Terminal 9.2 11.5 6.1 9 11.8 19.8 IPL1-68 ø6 Panel Thickness 0.6 to 4 M6 P0.75 + Terminal ø8.1 ø10 + Terminal IPL1-67 ø6 Panel Thickness 0.6 to 4 M8 P0.75 3 9.2 ø8 21.8 5 9 11.5 19.5 9.2 5.5 20 9 13.8 6.1 12.8 20.8 Panel Thickness 0.6 to 4 M8 P0.75 + Terminal ø12 13.8 7 ø12 13.8 7 9 9 12 25.8 IPL1-88 ø8 Panel Thickness 0.6 to 4 M8 P0.75 + Terminal ø9.9 + Terminal + Terminal IPL1-87 ø8 Panel Thickness 0.6 to 4 25.8 ø6 ø7.5 M10 P1.0 Panel Thickness 0.6 to 4 6.1 P1.0 ø7.5 M10 9 11.5 Miniature Pilot Lights (Terminal cover not available) ø10 ø10 IPL1-18 IPL1-19 19 26.8 7.7 ø10 M3 Terminal Screw 29.6 ø10 17.5 7 ø7.5 0.5 43.3 5.8 X1 ø2 4.5 X2 5. 9 ø2 53.5 8 8.5 11.7 25.4 8.5 11.7 25.4 53.5 25.8 9 All dimensions in mm. 17 EB3L Lamp Barrriers Illuminated Selector Switches Terminal cover: N-VL4 (2 pcs.) (sold separately) M3.5 Terminal Screw Terminal cover attached M3.5 Terminal Screw Panel Thickness 0.8 to 7.5 Panel Thickness 1 to 6 69.4 40 9 Panel Thickness 0.8 to 6 K ø2 Terminal cover: LW-VL2M (sold separately) M3 Terminal Screw 23.2 41.4 25 CK .8 LO C LO Panel Thickness 0.8 to 6 30 EB3P-LSL1W2C2/EB3P-LSL3W3C2 ø22 Terminal cover attached 25 ø2 5 28 EB3P-LSHW211/EB3P-LSHW320 M3.5 Terminal Screw 37 13 9 63 R18 23 ø24 ø25 ø35 5.5 ø29 9 M3 Terminal Screw ø22 EB3P-LSAW ø22 EB3P-LSAN211/EB3P-LSAN320 ø40 ø30 8.5 11.7 25.4 7 69.4 9 17.5 21 Buzzer ø30 53.5 29.4 LED Lamp EB3P-ZUN12CN/EB3P-ZUN12FN Terminal cover: AZ-VL5 (sold separately) EB9Z-LDS1 Panel Thickness 0.8 to 3.5 20.4 Illumination Color 10.6 IDEC Exi ø50 M3.5 Terminal Screw Intrinsic Safety Identification: Light Blue 35.5 Illumination color is marked on the terminal. Polarity Identification Panel Cut-out Pilot Lights/Illuminated Pushbuttons/Illuminated Selector Switches Positive terminal: X1 Negative terminal: X2 Pilot Lights/Illuminated Pushbuttons/Illuminated Selector Switches/Buzzers ø22 R0.8 max. 0.5 R0.8 max. ∗4.8 +0.2 0 ∗3.2 ø22 +0 0 .5 .3 33 Pin Terminals +0.4 0 +0.2 0 24.1 Long pin terminal Short pin terminal ø3 +0.5 0 Miniature Pilot Lights Positive terminal: Negative terminal: ø30 +0.4 0 41 Positive Terminal Light Blue Marking Negative Terminal Buzzer Positive terminal: Negative terminal: Miniature Pilot Lights ø10 ø8 + – LED Lamp 1 8. 1 0. ø1 .3 +0 0 .3 +0 0 ø ø6 .3 +0 0 .1 ø6 + Positive − Negative ∗ The 4.8 or 3.2 recess is needed only when using an anti-rotation ring or a nameplate with an anti-rotation projec­tion. EB3P-LHW does not have an anti-rotation groove. Lamp Test When checking the lamp lighting without using the EB3L lamp barrier, first make sure that the atmosphere is free from explosive gases. Connect a 12V DC power supply and a pro­tection resistor of 1 kΩ in series to turn on the pilot light. 18 1 kΩ Pilot Light 12V DC EB3L Lamp Barrriers Non-intrinsically Safe External Input Wiring Examples 6-channel Source (Ex.: EB3L-S06SAN) 8-channel Common Wiring, Source (Ex.: EB3L-S08CSDN) P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 + L N – + – + – + – + – + + – + 100 to 240V AC + + + + + + + + L S1 S2 S3 S4 S5 S6 S7 S8 C1 C2 P2 P3 P4 + + + + S1 S2 S3 S4 P5 P6 P7 P8 + + + + S5 S6 S7 S8 N + + + + + S1 C1 S2 C2 S3 C3 S4 C4 S5 C5 S6 C6 100 to 240V AC 24V DC 16-channel Common Wiring, Source (Ex.: EB3L-S16CSDN) + P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 S1 C1 S2 C2 S3 C3 S4 C4 S5 C5 S6 C6 P1 6-channel Sink (Ex. EB3L-S06KAN) 16-channel Common Wiring, Sink (Ex.: EB3L-S16CKDN) N1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 C1 C2 S9 S10 S11 S12 S13 S14 S15 S16 C3 + + + + + + + N4 P1 P2 P3 P4 P5 P6 P7 P8 S1 S2 S3 S4 S5 S6 S7 S8 + N1 + + C4 C1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 + N4 + C2 + S9 S10 S11 S12 S13 S14 S15 S16 C3 C4 24V DC 24V DC Note: Source input model can be connected to PLC sink output model C terminal is the negative common line. Note: Sink input model can be connected to PLC source output model C terminal is the positive common line. Connector Wiring Terminal Arrangement Wiring Example with IDEC’s MicroSmart PLC Output Modules EB3L-S16CSD-CN CH9 S9 FC6A-T16K3 CH10 CH11 CH12 CH13 CH14 CH15 CH16 S10 S11 S12 S13 S14 S15 S16 NC Terminal NC 19 1 20 2 S1 S2 S3 S4 S5 S6 S7 S8 C1 C2 CH1 CH2 CH3 CH4 CH5 CH6 CH7 CH8 COM +V EB3L CHn Sn COM – + PLC + Output Q0-Q15 S1-S16 Internal Circuit Internal Circuit +V (C2) COM (C1) COM EB3L-S16CKD-CN S9 CH10 CH11 CH12 CH13 CH14 CH15 CH16 S10 S11 S12 S13 S14 S15 S16 NC NC 19 1 20 2 S1 S2 S3 S4 S5 S6 S7 S8 C1 C2 CH1 CH2 CH3 CH4 CH5 CH6 CH7 CH8 COM –V EB3L PLC Internal Circuit COM (C1) + CHn Sn COM + – COM S1-S16 Output Q0-Q15 Internal Circuit CH9 Output EB3L-S16CSD-C FC6A-T16P3 Input Terminal Terminal Output EB3L-S16CKD-C Input Terminal 20 Q0 S1 20 20 Q0 S1 20 19 Q10 S9 19 19 Q10 S9 19 18 Q1 S2 18 18 Q1 S2 18 17 Q11 S10 17 17 Q11 S10 17 16 Q2 S3 16 16 Q2 S3 16 15 Q12 S11 15 15 Q12 S11 15 14 Q3 S4 14 14 Q3 S4 14 13 Q13 S12 13 13 Q13 S12 13 12 Q4 S5 12 12 Q4 S5 12 11 Q14 S13 11 11 Q14 S13 11 10 Q5 S6 10 10 Q5 S6 10 9 Q15 S14 9 9 Q15 S14 9 8 Q6 S7 8 8 Q6 S7 8 7 Q16 S15 7 7 Q16 S15 7 6 Q7 S8 6 6 Q7 S8 6 5 Q17 S16 5 5 Q17 S16 5 4 COM (–) COM 4 4 COM (+) COM 4 3 COM (–) NC 3 3 COM (+) NC 3 2 +V +V 2 2 –V –V 2 1 +V NC 1 1 –V NC 1 Note: The wiring in dashed line does not affect the operation of the EB3L. Applicable connector is IDEC’s JE1S-201. Output power for PLC outputs is supplied by the EB3L, therefore the PLC output does not need an external power supply. 19 EB3L Lamp Barrriers Wiring Example of Intrinsically Safe External Outputs 1. Common Wiring (Maximum 16 circuits) (Buzzers cannot be wired in a common line.) N N N (+)(–) P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 (+)(–) L N S1 S2 S3 S4 S5 S6 S7 S8 C1 C2 L N P1 S1 N1 C1 P2 S2 N2 C2 P3 S3 N3 C3 P4 S4 N4 C4 P5 S5 C5 N5 S6 P6 C6 N6 P7 S7 C7 N7 S8 P8 C8 N8 S9 P9 C9 N9 S10 P10 C10 N10 S3 C3 S4 C4 S5 C5 S6 C6 P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 (+)(–) L N S1 C1 S2 C2 L N (+)(–) S1 C1 S2 C2 S3 C3 P1 N1 P2 N2 P3 N3 P1 N1 N2 S1 C1 C2 (+)(–) L N L N S1 S2 S3 S4 S5 S6 S7 S8 C1 C2 S9 S10 S11 S12 S13 S14 S15 S16 C3 C4 (+)(–) P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 N4 All output lines are wired to a common line inside the intrinsically safe equipment (one common line per intrinsically safe circuit). N N N N N (+)(–) N 2. Separate Wiring P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 (+)(–) N N L N P1 S1 N1 C1 P2 S2 N2 C2 P3 S3 N3 C3 P4 S4 N4 C4 P5 S5 C5 N5 S6 P6 C6 N6 P7 S7 C7 N7 S8 P8 C8 N8 S9 P9 C9 N9 S10 P10 C10 N10 (+)(–) L N S1 C1 S2 C2 S3 C3 L N S1 C1 C2 (+)(–) L N S1 C1 S2 C2 S3 C3 S4 C4 S5 C5 S6 C6 P1 N1 N2 P1 N1 P2 N2 P3 N3 Each output line of the EB3L makes up one independent intrinsically safe circuit of a pilot light or buzzer. (+)(–) N (A maximum of 16 channels of EB3L and EB3C can be wired to a common line.) The following example illustrates the wiring for a total of 10 contacts used by three illuminated pushbuttons (LB1 to LB3) and three illuminated selector switches (LS1 to LS3). LS1 LS2 LS3 L N S1 C1 S2 C2 S3 C3 S4 C4 S5 C5 S6 C6 (+)(ñ) N 20 LB1 LB2 LB3 LS1 LS2 LS3 L N P1 A1 N1 C1 P2 A2 N2 C2 P3 A3 N3 C3 P4 A4 N4 C4 P5 A5 C5 N5 A6 P6 C6 N6 P7 A7 C7 N7 A8 P8 C8 N8 A9 P9 C9 N9 A10 P10 C10 N10 LB3 P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 LB2 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 N Note: When using two or more EB3L's to set up one intrinsically safe circuit in the common wiring configuration, interconnect two neutral terminals (N1 through N10) on each EB3L between adjacent EB3L's in parallel. N 3. Wiring Illuminated Pushbuttons and Illuminated Selector Switches LB1 N (+)(–) L N S1 S2 S3 S4 S5 S6 S7 S8 C1 C2 L N P1 S1 N1 C1 P2 S2 N2 C2 P3 S3 N3 C3 P4 S4 N4 C4 P5 S5 C5 N5 S6 P6 C6 N6 P7 S7 C7 N7 S8 P8 C8 N8 S9 P9 C9 N9 S10 P10 C10 N10 (+)(–) L N S1 C1 S2 C2 S3 C3 S4 C4 S5 C5 S6 C6 L N S1 C1 S2 C2 S3 C3 N P1 N1 P2 N2 P3 N3 P4 N4 P5 N5 P6 N6 P1 N1 P2 N2 P3 N3 (+)(–) (+)(–) L N S1 C1 C2 L N S1 S2 S3 S4 S5 S6 S7 S8 C1 C2 S9 S10 S11 S12 S13 S14 S15 S16 C3 C4 (+)(–) P1 N1 N2 P1 P2 P3 P4 P5 P6 P7 P8 N1 N2 P9 P10 P11 P12 P13 P14 P15 P16 N3 N4 All input lines are wired to a common line outside the intrinsically safe equipment (one common line per intrinsically safe circuit). (+)(ñ) N Diagram Symbols EB3P consisting of one enclosure One intrinsically safe circuit One intrinsically safe circuit is a connection consisting of one or more illuminated units connected to a common line. EB3L Lamp Barrriers Recommended Connector Cable for Connector Models Description No. of Poles Length (m) Part No. 1 FC9Z-H050A20 FC9Z-H100A20 FC9Z-H200A20 FC9Z-H300A20 FC9Z-H050B20 FC9Z-H100B20 FC9Z-H200B20 FC9Z-H300B20 BX9Z-H100E4 2 BX9Z-H200E4 3 BX9Z-H300E4 1 BX9Z-H100B 2 BX9Z-H200B 3 BX9Z-H300B 0.5 1 With Shield 2 I/O Terminal Cable 3 0.5 1 Without Shield 2 20 Cable with Crimping Terminal 3 Shape Applicable Model IDEC MicroSmart I/O Module IDEC MicroSmart I/O Module 200 Screw Terminal 2 1 40-pin Cable for PLC 350 Connector B Mitsubishi A Series Output Module (sink) ↓ EB3L-S16CSD-CN 10 0 BX9Z-HB Internal Connection FC9Z-HE Internal Connection Fujitsu Connector FCN-367J040-AU/F IDEC Connector JE1S-201 B A Connector A IDEC JE1S-201 2 1 4 3 6 5 8 7 10 9 12 11 14 13 16 15 18 17 20 19 (Connecting Side) Connector A 1 1 2 2 1 2 3 3 3 4 4 4 5 6 5 5 7 8 6 6 9 10 7 7 8 8 9 9 Connector B IDEC JE1S-201 10 10 5 7 9 11 11 12 13 15 15 16 2 1 17 18 12 12 4 3 19 20 13 13 6 5 14 14 8 7 15 15 10 9 16 16 12 11 17 17 14 13 18 18 16 15 19 19 18 17 20 20 20 19 (Connecting Side) 1 3 13 14 11 11 (Connecting Side) Y-shaped Crimping Terminal (marking tube number) 17 19 (Connecting Side) 2 4 6 8 10 12 14 16 18 20 (Connecting Side) (Straight wire connection BX9Z-H   B: number of cable with crimping terminal) FC9Z-HA, FC9Z-HB Internal Connection IDEC Connector JE1S-201 19 20 17 18 15 16 13 14 11 12 9 10 7 8 5 6 3 4 1 2 (Connecting Side) IDEC Connector JE1S-201 19 20 17 18 15 16 13 14 11 12 9 10 7 8 5 6 3 4 1 2 (Connecting Side) 21 EB3L Lamp Barrriers Operating Instructions 1. Installation of EB3L Lamp Barriers 2. Terminal Wiring (1) The EB3L can be installed in any direction. (2) Install the EB3L lamp barrier in a safe area (non-hazard­ous area) in accordance with intrinsic safety ratings and parameters. To avoid mechanical shocks, install the EB3L in an enclosure which suppresses shocks. (3) When installing or wiring the EB3L, prevent electromag­netic and electrostatic inductions in the intrinsically safe circuit. Also prevent the intrinsically safe circuits from contacting with another intrinsically safe circuit and any other circuits. Maintain at least 50 mm clearance, or provide a metallic separating board between the intrinsically safe circuit and non-intrinsically safety circuit. When providing a metallic separating board, make sure that the board fits closely to the enclosure (top, bottom, and both sides). Allowable clearance between the enclosure and board is 1.5 mm at the maximum. The clearance of 50 mm between the intrinsically safe circuit and non-intrinsically safe circuit may not be suffi­cient when a motor circuit or high-voltage circuit is installed nearby. In this case, provide a wider clearance between the circuits referring to 6. (3) “Minimum Parallel Distance between the Intrinsically Safe Circuit and Other Circuits.” (4) In order to prevent contact between intrinsically safe cir­cuits and non-intrinsically safe circuits, mount EB3L units with terminals arranged in the same direction. (1) Using a ø5.5 mm or smaller screw driver, tighten the ter­minal screws (including unused terminal screws) to a torque of 0.6 to 1.0 N·m (recommended value). (2) Make sure that IP20 is achieved when wiring. Use insu­lation tubes on bare crimping terminals. (3) To prevent disengaged wires from contacting with other intrinsically safe circuits, bind together the wires of one intrinsically safe circuit. (4) When the adjacent terminal is connected to another intrinsically safe circuit, provide an insulation distance of at least 6 mm. Intrinsically Safe Circuit EB3L EB3L EB3L EB3L Non-intrinsically Safe Circuit EB3L Intrinsically Safe Circuit (5) Maintain at least 6 mm (or 3 mm according to IEC60079-11: 1999) clearance between the terminal of intrinsically safe circuit and the grounded metal part of a metal enclosure, and between the relay terminal block of an intrinsically safe circuit and the grounded metal part of a metal enclosure. (6) For installing the EB3L, mount on a 35-mm-wide DIN rail or directly on a panel using screws. The EB3L can be installed in any direction. Make sure to install securely to withstand vibration. When mounting on a DIN rail, push in the clamp completely. Use the BNL6 end clips on both sides of the EB3L to prevent from moving sideways. (7) Excessive extraneous noise may cause malfunction and damage to the EB3L. When extraneous noise activates the voltage limiting circuit (thyristor), remove the noise source and restore the power. 22 3. Signal Input (1) Connect the EB3L to the switches or output equipment which have a low leakage current (0.1 mA maximum). (2) The EB3L is equipped with power supply. Do not apply external power to the EB3L. (3) When connecting the EB3L’s of connector model in paral­lel, make sure that the same power supply is used. When using C1 and C2 terminals to supply power to out­side equipment, maintain the current at 50 mA maxi­mum. 4. Power Voltage (1) Do not apply an excessive power voltage, otherwise the EB3L may be damaged. (2) The EB3L of AC power type may operate at a low volt­age (approx. 20V). 5. Pilot Lights, Illuminated Switches, and Buzzers in the Hazardous Area (1) EB3P and IPL1 units shown on page 14 can be used with the EB3L. Buzzers cannot be connected in common wiring. (2) Install the EB3P and IPL1 units on enclosures of IP20 or higher protection. Use a metallic enclosure with magne­sium content of 7.5% or less (steel and aluminum are acceptable). (3) When wiring, make sure of correct polarities of the EB3P and IPL1. (4) Certification mark is supplied with the units. Attach it on the visible area of the EB3P or IPL1 (for Japan applica­tion). (5) When connecting illuminated switches to the EB3L lamp barrier and the EB3C relay barrier, a maximum of 16 channels can be connected in common wiring. EB3L Lamp Barrriers Operating Instructions 6. Wiring for Intrinsic Safety (1) The voltage applied on the general circuit connected to the nonintrinsically safe circuit terminals of the EB3L lamp barrier must be 250V AC, 50/60Hz, or 250V DC at the maximum under any conditions, including the voltage of the power line and the internal circuit. (2) When wiring, take into consideration the prevention of electromagnetic and electrostatic charges on intrinsically safe circuits. Also, prevent intrinsically safe circuits from contacting with other circuits. (3) The intrinsically safe circuits must be separated from nonintrinsically safe circuits. Contain intrinsically safe circuits in a metallic tube or duct, or separate the intrinsi­cally safe circuits referring to the table at right. Note: Cables with a magnetic shield, such as a metallic sheath, prevent elec­tromagnetic induction and electrostatic induction, however, a non-mag­netic shield prevents electrostatic induction only. For non-magnetic shields, take a preventive measure against electromagnetic induction. Finely twisted pair cables prevent electromagnetic induc­tion. Adding shields to the twisted pair cables provides protection against electrostatic induction. Minimum Parallel Distance between the Intrinsically Safe Circuit and Other Circuits (mm) Voltage and Current of Other Circuits Over 100A 100A or less 50A or less 10A or less Over 440V 2000 2000 2000 2000 440V or less 2000  600  600  600 220V or less 2000  600  600  500 110V or less 2000  600  500  300   60V or less 2000  500  300  150 (7) When wiring the intrinsically safe circuit, determine the dis­tance to satisfy the wiring parameters shown below. Note that parameters are different between separate wiring and common wiring and depend on the connected units, such as pilot lights, illuminated pushbuttons, and buzzers. a) Wiring capacitance Cw ≤ Co – Ci Co: Maximum external capacitance of the EB3L Ci: Internal capacitance of the connected unit b) Wiring inductance Lw ≤ Lo – Li Lo: Maximum external inductance of the EB3L Li: Internal inductance of the connected unit c) Wiring resistance ≤ Rw Rw: Allowable wiring resistance d) Allowable wiring distance D (km) is the smallest value of those calculated from the capacitance, inductance, and resistance. D ≤ Cw/C C (nF/km): Capacitance of cable per km D ≤ Lw/L L (mH/km): Inductance of cable per km D ≤ Rw/2R R (Ω/km): Resistance of cable per km Note: For the details of wiring the intrinsically safe circuits, refer to a rel­evant test guideline for explosion-proof electric equipment in each country. (4) When identifying intrinsically safe circuits by color, use light blue terminal blocks and cables. (5) When using two or more EB3L’s to set up one intrinsi­cally safe circuit in the common wiring configuration, interconnect two neutral terminals (N1 through N10) on each EB3L between adjacent EB3L’s in parallel. (6) Make sure that the power of the EB3L, pilot lights, and other connected units are turned off before starting inspection or replacement. Safety Precautions • Do not use the EB3C Relay Barrier and EB3L Lamp Barrier for other than explosion protection purposes. • Read the user’s manual to make sure of correct operation before starting installation, wiring, operation, maintenance, and inspection of the EB3C Relay Barrier and EB3L Lamp Barrier. 23 EB3N Barriers EB3N Safety Safety Relay Relay Barriers Build a safety system in an explosive atmosphere. Safety relay barrier Switch (EB9Z-A) Switch (EB9Z-A1) Explosion Protection [Exia] II C Exia II CT6 Exia II BT6 Safety Performance Performance level e Category 4 • Ensures explosion protection safety and machine safety in an explosive atmosphere. • Machine safety system can be built in compliance with ISO13849-1 Category 4, Performance level e. • Safety input devices applicable in any explosive gas and hazardous areas are available. • Available with auxiliary inputs (5 points) used to monitor the operating status of safety input devices. • A wide variety of Japan TIIS-rated emergency stop switches and interlock switches are available. • Global usage Explosion protection: Japan (TIIS), USA (UL), Europe (ATEX), China (CQST),IEC Ex Machine safety: TÜV Rheinland • No grounding required. IEC Ex Safety Relay Barriers Safety Input Points Safety Output Points Auxiliary Input Points (Note 1) Auxiliary Output Points (Relay Output) 2 2NO Without Without 2 2NO 5 (1 common) 5NO (1 common) Reset (Start) (Note 2, Note 3) Auto reset (Auto start) Manual reset (Manual start) Auto reset (Auto start) Manual reset (Manual start) Part No. EB3N-A2ND EB3N-M2ND EB3N-A2R5D EB3N-M2R5D Note 1: A maximum of five monitor contacts from safety input devices can be connected to the auxiliary input terminals. In addition, non-safety input devices can also be connected to the auxiliary input terminals. Note 2: On auto reset (auto start) models, when the safety condition is met (two safety inputs are both on), safety outputs are turned on automatically. Connect the reset (start) input terminals Y1 and Y2 together except for the following cases: When connecting a contactor or force guided relay to the safety output of the EB3N, connect the NC contacts of the contactor or force guided relay to the reset (start) input terminals Y1 and Y2 of the EB3N for use as a backcheck input signal. Note 3: On manual reset (manual start) models, while the safety condition is met (two safety inputs are both on), safety outputs are turned on at the falling edge of the reset switch (start switch) signal (OFF ON OFF) (start off check). Manual reset (manual start) models have a monitoring function of reset switch contacts (detection of welded contacts). Use NO contacts of a momentary switch for the reset (start) input. When connecting a contactor or force guided relay to the safety output of the EB3N, connect the NC contacts of the contactor or force guided relay to the reset (start) input terminals Y1 and Y2 of the EB3N for use as a backcheck input signal. Selection Guide 1. Selecting the reset (start) function Auto reset (auto start): Select this model when connecting safety control devices, such as safety relay modules or safety controllers, to the EB3N safety outputs to set up a safety system, using the reset (start) function of the safety control device. Select this model when connecting contactors or force guided relays to the EB3N safety outputs to set up a safety system, and a risk assessment on the entire system has not found any safety problem in using auto reset (auto start). Manual reset (manual start): Select this model when connecting contactors or force guided relays to the EB3N safety outputs to set up a safety system, and a risk assessment on the entire system has found that manual reset (manual start) is necessary. 2. Selecting the auxiliary outputs Without auxiliary outputs: Select this model when the operating status of safety input devices are not monitored. With auxiliary outputs: Select this model when the operating status of safety input devices are monitored or when non-safety input devices are also connected. General Specifications Explosion-Protection Specifications Rated Power Voltage Power Voltage Range Operating Temperature Operating Humidity Power Consumption Safety Output Auxiliary Output Without auxiliary output With auxiliary output 13-14, Contacts 23-24 Resistive Rated Load Inductive Turn on Response (rated voltage) Turn off Contacts A* - C1 Rated Load Resistive Response (rated voltage) Turn on Turn off Mounting *: Channel Nos. 1 to 5 24 24V DC 20.4 to 26.4V DC –20 to +60°C (no freezing) UL: –20 to +40°C (no freezing) 45 to 85% RH (no condensation) 5.5W maximum 7.0W maximum 2NO 30V DC, 1A DC-13, 24V, 1A 100 ms maximum 20 ms maximum 5NO/1 common 24V DC, 3A, common terminal 5A max. 15 ms maximum 10 ms maximum DIN rail or panel mounting Explosion Protection Non-intrinsically Safe Circuit Maximum Voltage (Um) Intrinsically Safe Circuit Maximum Voltage (Uo) Intrinsically Safe Circuit Maximum Current (Io) Intrinsically Safe Circuit Maximum Power (Po) Intrinsically Safe Circuit Allowable Capacitance (Co) [Exia] II C 250V (UL: 125V) 13.2V 227.2 mA 750 mW 0.49 µF (TIIS: 0.28 μF) 0.60 mH Intrinsically Safe Circuit Allowable Inductance (Lo) (TIIS: 0.56 mH) Safety circuit (Note 1) Intrinsically Safe Circuit Wiring Resistance (Rw) Auxiliary circuit (Note 2) Note 1: 10Ω maximum (500m maximum using a 1.25 mm2 cable) Note 2: 600/(N+1)Ω maximum, where N = the number of common channels Safety Specifications Category 4 Performance Level (PL) e Mean Time to Dangerous Failure (MTTFd) 100 years Diagnostic Range 99% minimum Calculation conditions for MTTFd  tcycle: Mean operation cycle = 1 hour  hop: Mean operation hours per day = 24 hours  dop: Mean operation days per year = 365 days Note: When tcycle is shorter than 1 hour, MTTFd will decrease. EB3N Safety Relay Barrriers Certification No. Certification Organization Explosion Protection Certification No. Safety Relay Barriers [Exia] II C Switch (EB9Z-A) [Exia] II CT6 Switch (EB9Z-A1) [Exia] II BT6 [Exia] II C, [Exia D] II (1) G [Exia] II C II (1) D [Exia D] [Exia] II C Class I, Zone 0, [AExia] II C Class I, II, III, Div. 1, Grps A, B, C, D, E, F and G TIIS PTB CQST UL TC18753 TC15758 T15961 IEC Ex PTB 10.0015 PTB 09 ATEX 2046 CNEx 11.0038 E234997 Dimensions Terminal Functions     EB3N-A2ND     EB3N-M2ND M3 24V DC 110.5 M3 Y1-Y2 77.5 11-12 21-22 N1, N2 P*-N3 13-14 23-24 A*-C1 75.0 75.0 65.0 EB3N-A2R5D EB3N-M2R5D Mounting Hole Layout *: 1 to 5 2-M4 tapped or 2-ø4.5 drilled holes 65 2-M4 tapped or 2-ø4.5 drilled holes EB3N-A2R5D EB3N-M2R5D 65     EB3N-A2ND     EB3N-M2ND Power Reset input (Start input) Safety input 1 Safety input 2 Signal ground Auxiliary input Safety output 1 Safety output 2 Auxiliary output 97 51 EB3N System Configuration Examples 1:1 connection with a safety input device, compliant with Category 4 Hazardous Area Safety Input Device Non-hazardous Area EB3N-A2ND Barrier Safety Output Safety Control Device Safety Output Safety Contactor • A safety relay module or safety controller is used to set up a safety circuit, using the reset (start) function of the safety relay module or safety controller. Backcheck Input Reset (Start) Input Safety Input Device EB3N-M2ND Barrier Safety Output • The reset (start) function is used to set up a safety circuit, without using a safety relay module or safety controller. Safety Contactor Backcheck Input Reset (Start) Input Connection with multiple safety input devices, capable of monitoring up to 5 contact operations, compliant with Category 3 For monitoring operating statuses of safety input devices located in a non-hazardous area Hazardous Area Non-hazardous Area Safety Control Device Safety Output Barrier Safety Output EB3N-A2R5D Safety Input Devices Connected in Series Backcheck Input Safety Contactor • A safety relay module or safety controller is used to set up a safety circuit, using the reset (start) function of the safety relay module or safety controller. PLC … Barrier Safety Output Safety Input Devices Connected in Series Reset (Start) Input Auxiliary Output (Monitor Output) Monitor Safety Contactor EB3N-M2R5D Backcheck Input Reset (Start) Input … Monitor • The manual reset (manual start) function of the EB3N is used to set up a safety circuit, without using a safety control device. PLC Auxiliary Output (Monitor Output) 25 EB3N Safety Relay Barrriers Installing a reset switch in a hazardous area, using auxiliary input and output Hazardous Area Non-hazardous Area Barrier Safety Output Safety Input Devices Safety Control Device … Safety Output Safety Contactor EB3N-A2R5D Reset (Start) Switch Reset (Start) Output Backcheck Input PLC Other Input Device Other Output Barrier Safety Output Safety Input Devices Safety Contactor EB3N-M2R5D Reset (Start) Switch Backcheck Input PLC Reset (Start) Input Other Input Device Other Output Safety Input Devices Connectable to Safety Input Terminals (Examples) Emergency stop switch: (Non-illuminated) XW1E-BV402MFRH, XN4E-BL412MRH Safety switch: HS6B-02B05, HS1B-02R Operating Instructions Notes for Operation 1. Do not disassemble, repair, or modify the EB3N safety relay barrier, otherwise the safety characteristics may be impaired. 2. Use the EB3N within its specification values. 3. The EB3N can be mounted in any direction. 4. Mount the EB3N on a 35-mm-wide DIN rail or directly on a panel surface using screws. When mounting on a DIN rail, push in the clamp and use end clips to secure the EB3N. When mounting on a panel surface, tighten the screws firmly. 5. Excessive noise may cause malfunction or damage to the EB3N. When the internal voltage limiting circuit (thyristor) has shut down the power due to noise, remove the cause of the noise before powering up again. 6. The internal power circuit contains an electronic fuse to suppress overcurrents. When the electronic fuse has tripped, shut down the power, remove the cause of the overcurrent before powering up again. 7. Use crimping terminals with insulation sheath for wiring. Tighten the terminal screws, including unused terminal screws, to a recommended tightening torque of 0.6 to N·m using a screwdriver of ø5.5 mm in diameter. 8. Before inspecting or replacing the EB3N, turn off the power. Notes for Machine Safety 1. Operate the safety input device to check the EB3N functionality everyday. 2. For safety input devices, such as safety switches or emergency stop switches, connected to the EB3N, use safety standard-compliant devices with direct opening action and 2NC contacts. 3. Do not use the auxiliary input as a safety input. 4. For safety control devices connected with the EB3N, use machine safety standard-compliant devices with a disparity detection function. 5. Use safety inputs and safety outputs in a circuit configuration compliant with safety requirements. 6. To calculate the safety distance, take into consideration the response time of all devices comprising the system, such as the EB3N and safety devices connected to the EB3N. 7. Separate the input and output wiring from power lines and motor lines. 8. When using multiple EB3N safety relay barriers, do not connect one switch to more than one EB3N. Use separate switches for each EB3N. 9. To ensure EMC, use shielded cables for safety inputs and auxiliary inputs. Connect the shield to the FG of the control panel on which the EB3N is mounted. 10. For protection against overcurrents, connect an IEC60127-2-compliant 2A fast-blow fuse (5 × 20 mm). 11. Evaluate the ISO 13849-1 category and performance level in consideration of the entire system. Notes for Explosion Protection Safety 1. Install the EB3N in an enclosure capable of protecting against mechanical shocks at a hazardous location in accordance with intrinsic safety ratings and parameters. 2. Install and wire the EB3N so that the EB3N is not subject to electromagnetic and electrostatic induction and does not contact with other circuits. For example, keep a minimum spacing of 50 mm between intrinsically safe and non-intrinsically safe circuits, or provide a metallic separating board between the intrinsically safe circuit and non-intrinsically safe circuit. When providing a metallic separating board, make sure that the board fits closely to the enclosure (top, bottom, and both sides). Allowable clearance between the board and the enclosure is 1.5 mm at the maximum. When a motor circuit or high-voltage circuit is installed nearby, keep a wider spacing than 50 mm between intrinsically safe and non-intrinsically safe circuits. 3. Keep a minimum spacing of 3 mm between the terminal or relay terminal block of the intrinsically safe circuit and the grounded metal parts of the metal enclosure. 4. Connect the terminals so that IP20 is ensured. 5. To prevent disengaged wires from contacting with other intrinsically safe circuits, bind together the end of wires. 6. Make sure that the voltage of the power supply for the devices connected to the non-intrinsically safe circuit or the internal voltage of such devices does not exceed 250V AC/DC 50/60 Hz or 250V DC under any normal and abnormal conditions. 7. Make sure that the wiring of intrinsically safe circuits does not contact with other circuits or is not subject to electromagnetic and electrostatic inductions, otherwise explosion protection is not ensured. 8. When identifying intrinsically safe circuits by color, use light blue terminal blocks and cables. 9. When wiring the intrinsically safe circuit, determine the distance to satisfy the wiring parameters shown below. a) Wiring capacitance Cw ≤ Co – Ci Co: Intrinsically safe circuit allowable capacitance Ci: Internal capacitance of switches b) Wiring inductance Lw ≤ Lo – Li Lo: Intrinsically safe circuit allowable inductance Li: Internal inductance of switches c) Wiring resistance ≤ Rw Rw: Allowable wiring resistance Switches in the Hazardous Area 1. A switch contains the switch contact, enclosure, and internal wiring. A switch contact refers to an ordinary switching device which consists of contacts only. 2. When the switch has internal wiring or lead wire, make sure that the values of internal capacitance (Ci) and inductance (Li) are within the certified values. 3. Enclose the bare live part of the switch contact in an enclosure of IP20 or higher protection. 4. Depending on the explosion-protection specifications of TIIS, the exposed area of plastic switch operator, when installed in Japan, is limited as follows: Certification Explosion Protection Exposed Area TC15758 TC15961 26 Exia II CT6 Exia II BT6   20 cm2 maximum 100 cm2 maximum EB3N Safety Relay Barrriers 27 www.idec.com Head Office 6-64, Nishi-Miyahara-2-Chome, Yodogawa-ku, Osaka 532-0004, Japan USA Germany Singapore Thailand Australia Taiwan IDEC Corporation APEM GmbH IDEC Izumi Asia Pte. Ltd. IDEC Asia (Thailand) Co., Ltd IDEC Australia Pty. Ltd. IDEC Taiwan Corporation Tel: +1-408-747-0550 Tel: +49-40-25 30 54 - 0 Tel: +65-6746-1155 Tel: +66-2-392-9765 Tel: +61-3-8523-5900 Tel: +886-2-2698-3929 opencontact@idec.com service@eu.idec.com info@sg.idec.com sales@th.idec.com sales@au.idec.com service@tw.idec.com Specifications and other descriptions in this brochure are subject to change without notice. Information in this catalog is current as of November, 2018. 2018 IDEC Corporation, All Rights Reserved. EP1597-2 Hong Kong China/Shanghai China/Shenzhen China/Beijing Japan IDEC Izumi (H.K.) Co., Ltd. IDEC (Shanghai) Corporation IDEC (Shenzhen) Corporation IDEC (Beijing) Corporation IDEC Corporation Tel: +852-2803-8989 Tel: +86-21-6135-1515 Tel: +86-755-8356-2977 Tel: +86-10-6581-6131 Tel: +81-6-6398-2527 info@hk.idec.com idec@cn.idec.com idec@cn.idec.com idec@cn.idec.com marketing@idec.co.jp