Switch Mode Power Supply S8VK-T (120/240/480/960 W Models) T59I-E-04 Worldwide 3-phase Power Supply Resistant in tough environments Easy and fast installation The most compact class on the market * Wide input range for worldwide applications: 380 to 480 VAC (320 to 576 VAC) * Possible for 2-phase input usage*: 380 to 480 VAC (340 to 576 VAC) *When using the 960 W at 2-phase input, the power rating is 768 W. * DC input can be available*: 450 to 600 VDC (450 to 810 VDC) *Excluding 960 W * High efficiency 91% typ. at 480 W model * Wide operation temperature range: -40 to 70C * Power Boost function at 120% * Meets LR maritime standards * EMS: Conforms to EN 61204-3 EMI: EN61204-3 Class B * RoHS Compliant * Three year warranty ! Refer to Safety Precautions for All Power Supplies and Safety Precautions on page 12. Note: Three year warranty conditions: Rated input voltage, 80% load, Ambient operating temperature: 40C, Standard mounting Model Number Structure Model Number Legend S8VK- T@@@@@ 1 2 1. Power Ratings 120: 120 W 240: 240 W 480: 480 W 960: 960 W 2. Output voltage 24: 24 V Ordering Information Note: For details on normal stock models, contact your nearest OMRON representative. Power ratings 120 W 240 W 480 W 960 W Input voltage 2-phase and 3-phase 380 to 480 VAC 450 to 600 VDC Output Voltage 24 V Output current 5A Boost Current 6A Model number S8VK-T12024 24 V 10 A 12 A S8VK-T24024 24 V 20 A 24 A S8VK-T48024 3-phase 380 to 480 VAC 24 V 40 A 48 A 2-phase 380 to 480 VAC 24 V 32 A - S8VK-T96024 1 S8VK-T Specifications Ratings, Characteristics, and Functions Power rating Item Efficiency 3-phase, 400 VAC input *11 Frequency *1 Current Reliability Construction 3.5 mA max./1.4 mA typ. Inrush current (for a cold start at 25C) *2 3-phase, 400 VAC input 28 A typ. 29 A typ. Rated output current 5A 10 A Boost current 6A 12 A Voltage adjustment range *3 22.5 to 29.5 VDC (with V.ADJ) (guaranteed) Ripple & Noise voltage *4 160 mV p-p max. at 20 MHz of bandwidth 3-phase, 400 VAC input *11 Input variation influence *13 190 mV p-p max. at 20 MHz of bandwidth 0.5% max. Load variation influence *12 1.5% max. Temperature variation influence 3-phase, 400 VAC input 0.05%/C max. Start up time *2 3-phase, 400 VAC input *11 700 ms typ. 600 ms typ. Hold time *2 3-phase, 400 VAC input *11 30 ms typ. 20 ms typ. Yes, automatic reset Yes, automatic reset Yes, 130% or higher of rated output voltage, power shut off (shut off the input voltage and turn on the input again) *5 Yes (For up to two Power Supplies, external diodes are required.) Parallel operation Yes (Refer to Engineering Data) (For up to two Power Supplies) Output indicator Yes (LED: Green), lighting from 80% to 90% or more of rated voltage Withstand voltage 3.0 kVAC for 1 min. (between all input terminals and output terminals) cutoff current 20 mA 2.5 kVAC for 1 min. (between all input terminals and PE terminal) cutoff current 20 mA 1.0 kVAC for 1 min. (between all output terminals and PE terminal) cutoff current 30 mA Insulation resistance 100 M min. (between all output terminals and all input terminals / PE terminal) at 500 VDC Ambient operating temperature -40 to 70C (However, only startup is guaranteed for between -40C to -25C. (3-phase only)) (Derating is required according to the temperature.) (with no condensation or icing) Storage temperature -40 to 85C (with no condensation or icing) Ambient operating humidity 0% to 95% (Storage humidity: 0% to 95%) Vibration resistance 10 to 55 Hz, 0.375-mm half amplitude for 2 h each in X, Y, and Z directions Shock resistance 150 m/s2, 3 times each in X, Y, and Z directions MTBF 135,000 hrs min. Life expectancy *10 10 years min. Weight 700 g max. Cooling fan No Degree of protection IP20 by EN / IEC 60529 EMI 1,000 g max. Conforms to EN 61000-3-2 Conducted Emission Conforms to EN 61204-3 Class B EN 55011 Class B Radiated Emission Conforms to EN 61204-3 Class B EN 55011 Class B EMS Conforms to EN 61204-3 high severity levels Approved Standards *6 UL Listed: UL 508 *7 EN: EN 50178 Lloyd's standards *9 ANSI/ISA 12.12.01 *7 Conformed Standards SELV (EN 60950-1/EN 50178/UL 60950-1) SELV (EN 50178), PELV(EN 60204-1, EN 50178) PELV (EN 60204-1, EN 50178) Safety of Power Transformers (EN 61558-2-16) Safety of Power Transformers (EN 61558-2-16) EN 50274 for Terminal parts EN 50274 for Terminal parts SEMI Conforms to F47-0706 (3-phase, 380 to 480 VAC input) Note: Refer to page 4 for notes 1 to 13. 2 0.69 A typ. 3.5 mA max./1.3 mA typ. Harmonic current emissions Standards 0.38 A typ. 3-phase, 400 VAC input Overvoltage protection Additional functions Series operation Environment 24 V 89% typ. Leakage current Overload protection Insulation 89% typ. 50/60 Hz (47 to 63 Hz) 3-phase, 400 VAC input *11 Power factor Output 240 W 24 V 3-phase, 380 to 480 VAC (allowable range: 320 to 576 VAC) 2-phase, 380 to 480 VAC (allowable range: 340 to 576 VAC) 450 to 600 VDC (allowable range: 450 to 810 VDC) *8 Voltage range *1 Input 120 W Output voltage UL Listed: UL 508 *7 UL UR: UL 60950-1 (Recognition) cUR: CSA C22.2 No.60950-1 CSA: CSA C22.2 No.60950-1 EN: EN 50178, EN 60950-1 Lloyd's standards *9 ANSI/ISA 12.12.01 *7 S8VK-T Power rating Item Efficiency 3-phase, 400 VAC input *11 Voltage range *1 Input Frequency *1 Current Reliability Construction 3-phase, 380 to 480 VAC (allowable range: 320 to 576 VAC) 2-phase, 380 to 480 VAC (allowable range: 340 to 576 VAC) 450 to 600 VDC (allowable range: 450 to 810 VDC) *8 3-phase, 380 to 480 VAC (allowable range: 320 to 576 VAC) 2-phase, 380 to 480 VAC (allowable range: 340 to 576 VAC) 1.2 A typ. 2.1 A typ. - 3.5 mA max./1.2 mA typ. 3.5 mA max./1.0 mA typ. Inrush current (for a cold start at 25C) *2 3-phase, 400 VAC input 28 A typ. Rated output current 20 A 40 A at 3-phase (32 A at 2-phase) Boost current 24 A 48 A at 3-phase (Not possible at 2-phase) Voltage adjustment range *3 22.5 to 29.5 VDC (with V.ADJ) (guaranteed) 22.5 to 29.5 VDC (with V.ADJ) (guaranteed) *14 Ripple & Noise voltage *4 3-phase, 400 VAC input *11 130 mV p-p max. at 20 MHz of bandwidth 90 mV p-p max. at 20 MHz of bandwidth Input variation influence *13 0.5% max. Load variation influence *12 1.5% max. Temperature variation influence 3-phase, 400 VAC input 0.05%/C max. Start up time *2 3-phase, 400 VAC input *11 500 ms typ. 700 ms typ. Hold time *2 3-phase, 400 VAC input *11 20 ms typ. 20 ms typ. Yes, automatic reset Yes, 130% or higher of rated output voltage, power shut off (shut off the input voltage and turn on the input again) *5 Yes (For up to two Power Supplies, external diodes are required.) Parallel operation Yes (Refer to Engineering Data) (For up to two Power Supplies) Output indicator Yes (LED: Green), lighting from 80% to 90% or more of rated voltage Withstand voltage 3.0 kVAC for 1 min. (between all input terminals and output terminals) cutoff current 20 mA 2.5 kVAC for 1 min. (between all input terminals and PE terminal) cutoff current 20 mA 1.0 kVAC for 1 min. (between all output terminals and PE terminal) cutoff current 30 mA Insulation resistance 100 M min. (between all output terminals and all input terminals / PE terminal) at 500 VDC Ambient operating temperature -40 to 70C (However, only startup is guaranteed for between -40C to -25C. (3-phase only)) (Derating is required according to the temperature.) (with no condensation or icing) Storage temperature -40 to 85C (with no condensation or icing) Ambient operating humidity 0% to 95% (Storage humidity: 0% to 95%) Vibration resistance 10 to 55 Hz, 0.375-mm half amplitude for 2 h each in X, Y, and Z directions Shock resistance 150 m/s2, 3 times each in X, Y, and Z directions MTBF 135,000 hrs min. Life expectancy *10 10 years min. Weight 1,600 g max. Cooling fan No Degree of protection IP20 by EN / IEC 60529 Harmonic current emissions EMI Standards 92% typ. 3-phase, 400 VAC input Overvoltage protection Additional functions Series operation Environment 24 V 91% typ. Leakage current Overload protection Insulation 960 W (768 W *18) 24 V 50/60 Hz (47 to 63 Hz) 3-phase, 400 VAC input *11 Power factor Output 480 W Output voltage 2,700 g max. Conforms to EN 61000-3-2 *15 Conducted Emission Conforms to EN 61204-3 Class B EN 55011 Class B *16 Radiated Emission Conforms to EN 61204-3 Class B EN 55011 Class B *16 EMS Conforms to EN 61204-3 high severity levels Approved Standards *6 UL Listed: UL 508 *7 UL UR: UL 60950-1 (Recognition) cUR: CSA C22.2 No.60950-1 CSA: CSA C22.2 No.60950-1 EN: EN 50178, EN 60950-1 Lloyd's standards ANSI/ISA 12.12.01 *7 Conformed Standards SELV (EN 60950-1/EN 50178/UL 60950-1) PELV (EN 60204-1, EN 50178) Safety of Power Transformers (EN 61558-2-16) EN 50274 for Terminal parts SEMI Conforms to F47-0706 (3-phase, 380 to 480 VAC input) *17 Note: Refer to page 4 for notes 1 to 18. 3 S8VK-T *1. Do not use an inverter output for the Power Supply. Inverters with an output frequency of 50/60 Hz are available, but the rise in the internal temperature of the Power Supply may result in ignition or burning. *2. For a cold start at 25C. Refer to Engineering Data on page 7 to 8 for details. *3. If the output voltage adjuster (V. ADJ) is turned, the voltage will increase by more than 29.5 VDC of the voltage adjustment range. When adjusting the output voltage, confirm the actual output voltage from the Power Supply and be sure that the load is not damaged. *4. A characteristic when the ambient operating temperature is between -25 to 70C. *5. Refer to Overvoltage Protection on page 8 for the time when input voltage shuts off and input turns on again. *6. To meet safety standards, the S8VK-T must be protected with an external circuit-breaker or a fuse. Be sure to use an external circuit-breaker or a fuse. Refer to Precautions for Safe Use on page 13 for details. *7. The following supplementary Fuse/Circuit Breaker must be installed in accordance with NEC.: Model FAZ-D5/3-NA, FAZ-D5/3-RT or FAZ-D5/3-DU, EATON INDUSTRIES (AUSTRIA) GMBH (E235139), Model KLKD5, LITTELFUSE INC. (E10480) *8. Safety Standards for a DC Input The following standards apply to a 450 to 600 VDC input: UL 60950-1, EN 50178, EN 60950-1, and Lloyd's standards. *9. In the case of using side-mounting bracket (S82Y-VK10S, S82YVK20S), Lloyd's Standards are not applicable. *10. The value is when rated output current is 50% or less, the ambient operating temperature is 40C or less, standard mounting, and rated input voltage. *11. The value is when both rated output voltage and rated output current are satisfied. *12. 380 to 480 VAC input, in the range of 0 A to the rated output current. *13. This is the maximum variation in the output voltage when the input voltage is gradually changed within the allowable input voltage range at the rated output voltage and rated output current. *14. Use at 26.4 VDC or lower for 2-phase input. *15. The S8VK-T Power Supply conforms to EN 61000-3-2 under the following conditions for 2-phase input. 480 W: rated output voltage, and 65% or less of rated output current 960 W: rated output voltage, and 45% or less of rated output current *16. The S8VK-T Power Supply conforms to EMI under the following conditions for 2-phase input. 480 W: Conforms to class B: rated output voltage, and 65% or less of rated output current/ Conforms to class A: rated output voltage, and 65% to 100% of rated output current 960 W: Conforms to class B: rated output voltage, and 45% or less of rated output current/ Conforms to class A: rated output voltage, and 45% to 100% of rated output current *17. 480 W: rated output voltage, and 50% or less of rated output current. 960 W: rated output voltage, and 92.5% or less of rated output current. *18. When using 2-phase input. Refer to 2-Phase Input Operation For 960 W Model in Precautions for Safe Use on page 16 for details. 4 S8VK-T Connections Block Diagrams S8VK-T12024 (120 W) S8VK-T24024 (240 W) L1 +V INPUT L2 L3 DC OUTPUT Noise filter Rectifier lnrush Smoothing current circuit protection Rectifier/ smoothing circuit -V Drive control circuit Voltage detection circuit Overcurrent detection circuit Overvoltage detection circuit Photocoupler S8VK-T48024 (480 W) S8VK-T96024 (960 W) L1 +V INPUT L2 L3 DC OUTPUT Noise filter Rectifier lnrush Smoothing current circuit protection Rectifier/ smoothing circuit -V Drive control circuit Voltage detection circuit Overcurrent detection circuit Overvoltage detection circuit Photocoupler 5 S8VK-T Construction and Nomenclature Nomenclature 120 W Model 240 W Model 480 W Model S8VK-T12024 S8VK-T24024 S8VK-T48024 3 1 3 4 4 4 5 5 5 2 1 2 1 2 3 960 W Model S8VK-T96024 4 5 1 2 3 6 No. 1 2 3 4 5 6 *1. *2. *3. *4. 6 Name Input terminals (L1), (L2), (L3) Protective Earth terminal (PE) / Ground DC Output terminals (-V), (+V) Output indicator (DC ON: Green) Output voltage adjuster (V.ADJ) Operation Switch *3 *4 Note: A: The output current can use 100% of the rated output current. B: Overcurrent protection limits the output current to 80% of the rated output current. Function Connect the input lines to these terminals. *1 Connect the ground line to this terminal. *2 Connect the load lines to these terminals. Lights while a direct current (DC) output is ON. Use to adjust the voltage. To operate in parallel or 2-phase input, set the switch to the "B" side. (960 W model only). For wiring, refer to Wiring in Precautions for Safe Use on page 13. This is the protective earth terminal specified in the safety standards. Always ground this terminal. For parallel operation, refer to Parallel Operation in Precautions for Safe Use on page 15. For 2-phase input, refer to 2-Phase Input Operation For 960 W Model in Precautions for Safe Use on page 16. S8VK-T Engineering Data 120 W (S8VK-T12024) 960 W (S8VK-T96024): Standard mounting Load ratio (%) Load ratio (%) Derating Curve 120 100 A B 80 C 120 B A 80 60 60 40 40 20 20 0 -40 -25 C 100 0 -40 -10 0 10 20 30 40 50 60 70 80 -25 Ambient temperature (C) Note: Ambient temperature (C) This is the guaranteed value for startup. (3-phase only) Note: A. Standard mounting B. Face-up mounting at 480 VAC or lower or 678 VDC or lower C. Face-up mounting at 576 VAC or lower or 810 VDC or lower A B C 960 W (S8VK-T96024): Face-up mounting Load ratio (%) Load ratio (%) 120 80 60 40 This is the guaranteed value for startup. (3-phase only) A. 3-Phase (340 VAC or over to 576 VAC or lower) For less than 340 VAC, it is possible to use with output voltage at 28.5 VDC or lower and load rate 60% or lower. B. 2-Phase (380 VAC or over to 576 VAC or lower, and output voltage 26.4 VDC or lower) C. 2-Phase (360 VAC or over to 380 VAC or lower, and output voltage 26.4 VDC or lower) For 340 VAC or over to less than 360 VAC, it is possible to use with output voltage at 26.4 VDC or lower, and whichever is the smaller of the load rate 60% or lower or the value of C. 240 W (S8VK-T24024) 100 -10 0 10 20 30 40 50 60 70 80 120 D 100 E F 80 20 60 0 -40 -25 -10 0 10 20 30 40 50 60 70 80 40 Ambient temperature (C) Note: This is the guaranteed value for startup. (3-phase only) A. Standard mounting B. Face-up mounting at 480 VAC or lower or 678 VDC or lower C. Face-up mounting at 576 VAC or lower or 810 VDC or lower Load ratio (%) 480 W (S8VK-T48024) 20 0 -40 -25 -10 0 10 20 30 40 50 60 70 80 Ambient temperature (C) Note: This is the guaranteed value for startup. (3-phase only) 120 100 A 80 C B 60 D. 3-Phase (340 VAC or over to 576 VAC or lower) For less than 340 VAC, it is possible to use with output voltage at 28.5 VDC or lower and load rate 60% or lower. E. 2-Phase ( 380 VAC or over to 480 VAC or lower, and output voltage 26.4 VDC or lower) F. 2-Phase (Over 480 VAC to 576 VAC or lower) For 340 VAC or over to less than 380 VAC, it is possible to use with output voltage at 26.4 VDC or lower, and whichever is the smaller of the load rate 60% or lower or the value of F. 40 20 0 -40 -25 -10 0 10 20 30 40 50 60 70 80 Ambient temperature (C) Note: This is the guaranteed value for startup. (3-phase only) A. Standard mounting Over 528 VAC: the derating is 0.21%/VAC Over 746 VAC: the derating is 0.16%/VDC B. Face-up mounting at 480 VAC or lower or 678 VDC or lower C. Face-up mounting at 576 VAC or lower or 810 VDC or lower 7 S8VK-T Overvoltage Protection (A) Standard (Vertical) mounting (B) Face-up mounting Overload Protection Output voltage (V) The load and the power supply are automatically protected from overcurrent damage by this function. Overload protection is activated if the output current rises above 121% of the rated current. When the output current returns within the rated range, overload protection is automatically cleared. Consider the possibility of an overvoltage and design the system so that the load will not be subjected to an excessive voltage even if the feedback circuit in the Power Supply fails. If an excessive voltage that is approximately 130% of the rated voltage or more is output, the output voltage is shut OFF. Reset the input power by turning it OFF for at least five minutes and then turning it back ON again. Output voltage (V) Mounting Overvoltage protection operating +30% (approx.) 29.5 V Rated output voltage 22.5 V Variable range 0V The values shown in the above diagram is for reference only. Note: Do not turn ON the power again until the cause of the overvoltage has been removed. Inrush Current, Startup Time, Output Hold Time Intermittent operation Input ON 0 50 100 Output current (%) Input OFF AC input voltage The values shown in the above diagrams are for reference only. Note: 1. Internal parts may occasionally deteriorate or be damaged if a short-circuited or overcurrent state continues during operation. 2. Internal parts may possibly deteriorate or be damaged if the Power Supply is used for applications with frequent inrush current or overloading at the load end. Do not use the Power Supply for such applications. Inrush current on input application AC input current 96.5% 90% Output voltage Startup time Hold time Note: Twice the input current or above will flow during the parallel operation or redundant system. Therefore, check the fusing characteristics of fuses and operating characteristics of breakers making sure that the external fuses will not burn out and the circuit breakers will not be activated by the inrush current. Reference Value Value Reliability (MTBF) 8 120 W: 390,000 h 240 W: 350,000 h 480 W: 280,000 h 960 W: 260,000 h Definition MTBF stands for Mean Time Between Failures, which is calculated according to the probability of accidental device failures, and indicates reliability of devices. Therefore, it does not necessarily represent a life of the product. Life expectancy 10 years. Min. Definition The life expectancy indicates average operating hours under the ambient temperature of 40C and a load rate of 50%. Normally this is determined by the life expectancy of the built-in aluminum electrolytic capacitor. S8VK-T Dimensions (Unit: mm) S8VK-T12024 (120 W) 122.21 (1) 401 117.8 112.2 6.35 (4) 104.6 1251 6.35 4.7 (Sliding: 7.5 max.) Rail Stopper 19.8 S8VK-T24024 (240 W) (10) 1501 (1) 601 145.6 140 6.35 104.6 (4) 1251 6.35 4.7 (Sliding: 7.5 max.) Rail Stopper 19.8 (10) 1501 (1) S8VK-T48024 (480 W) 145.6 140 951 (4) 1251 52.3 6.35 6.35 19.8 (26.8) 30 4.7 (Sliding: 7.5 max.) (10) Rail Stopper 25 S8VK-T96024 (960 W) (1) 1801 175.6 170 1351 (4) 1251 47.9 10.16 10.16 19.8 (36.7) 41.78 4.7 (Sliding: 7.5 max.) 32.95 (10) Rail Stopper 9 S8VK-T DIN Rail (Order Separately) Note: All units are in millimeters unless otherwise indicated. Mounting Rail (Material: Aluminum) PFP-100N PFP-50N 7.30.15 4.5 350.3 15 25 10 25 25 10 1,000 (500) * 25 270.15 15(5) * 1 * Values in parentheses are for the PFP-50N. Mounting Rail (Material: Aluminum) PFP-100N2 16 4.5 350.3 27 15 25 10 25 25 10 1,000 25 15 24 29.2 1 1.5 End Plate PFP-M 10 6.2 M4x8 panhead screw 1.8 1 50 1.8 35.5 35.5 11.5 10 M4 spring washer 1.3 4.8 Note: If there is a possibility that the Unit will be subject to vibration or shock, use a steel DIN Rail. Otherwise, metallic filings may result from aluminum abrasion. 10 S8VK-T Mounting Brackets Name Model Qty used Front-mounting bracket (for 120, 240 and 480 W models) S82Y-VK10F 1 Front-mounting bracket (for 960 W model) S82Y-VK10F 2 Side-mounting bracket (for 120 W model) S82Y-VK10S 1 Side-mounting bracket (for 240 W model) S82Y-VK20S 1 Note: Be sure to use the accessory screws. Mounting screw tightening torque (recommended): 4.43 to 5.31 lb-in (0.5 to 0.6 N*m) Type Model Dimensions Appearance 120 W model 240 W model For 960W type 4-4.5 dia.0.1 Front-mounting bracket (for 120, 240, 480 W and 960 W models) 1400.1 150 S82Y-VK10F 960 W model 250.1 5.4 640.1 38 t = 2.0 Left-side mounting Right-side mounting 73 40 49 500.1 15.50.1 4-4.5 dia.0.1 Side-mounting bracket S82Y-VK10S (For 120 W model) 1400.1 125 150 Left-side mounting (DIN Rail) * Right-side mounting (DIN Rail) * Left-side mounting Right-side mounting Left-side mounting (DIN Rail) * Right-side mounting (DIN Rail) * t = 2.0 40 59 73 500.1 15.50.1 4-4.5 dia.0.1 Side-mounting bracket S82Y-VK20S (For 240 W model) 1400.1 125 150 t = 2.0 * You can mount the side of the Power Supply to a DIN Rail by removing the DIN Rail Back-mounting Bracket and then attaching a Side-mounting Bracket to the Power Supply. 11 S8VK-T Safety Precautions Warning Indications CAUTION Indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury or in property damage. Precautions for Safe Use Supplementary comments on what to do or avoid doing, to use the product safely. Precautions for Correct Use Supplementary comments on what to do or avoid doing, to prevent failure to operate, malfunction or undesirable effect on product performance. Meaning of Product Safety Symbols Used to warn of the risk of electric shock under specific conditions. Used to warn of the risk of minor injury caused by high temperatures. Used for general mandatory action precautions for which there is no specified symbol. Used to indicate prohibition when there is a risk of minor injury from electrical shock or other source if the product is disassembled. !CAUTION Minor electric shock, fire, or Product failure may occasionally occur. Do not disassemble, modify, or repair the Product or touch the interior of the Product. Minor burns may occasionally occur. Do not touch the Product while power is being supplied or immediately after power is turned OFF. Fire may occasionally occur. Tighten terminal screws to the specified torque. S8VK-T12024, S8VK-T24024, S8VK-T48024: 4.43 to 5.31 lb-in (0.5 to 0.6 N*m) S8VK-T96024: 10.62 to 13.28 lb-in (1.2 to 1.5 N*m) Minor injury due to electric shock may occasionally occur. Do not touch the terminals while power is being supplied. Minor electric shock, fire, or Product failure may occasionally occur. Do not allow any pieces of metal or conductors or any clippings or cuttings resulting from installation work to enter the Product. If the external breaker or fuse is tripped, the equipment may have been seriously damaged. Do not turn ON the input again. 12 S8VK-T Precautions for Safe Use Wiring * Connect the ground completely. A protective earthing terminal stipulated in safety standards is used. Electric shock or malfunction may occur if the ground is not connected completely. * Minor fire may possibly occur. Ensure that input and output terminals are wired correctly. * Do not apply more than 75-N force to the terminal block when tightening it. * Be sure to remove the sheet covering the Product for machining before power-ON so that it does not interfere with heat dissipation. * To comply with safety standards and to ensure equipment safety, connect the input to the S8VK-T through one of the following Breakers or Fuses. * Use the following material for the wires to be connected to the S8VK-T to prevent smoking or ignition caused by abnormal loads or phase failure. * Wire the input as shown in the following figures depends on your power distribution system. Do not connect the neutral line in a 3-phase, 4-wire system. TN-C TN-S 2-phase Power circuit-breakers Model Input Power circuit-breakers Circuit breaker Conforming UL/CE 3-phase 480 V, 5 A, characteristic D, 3-pole, or S8VK-T12024 equivalent breaker S8VK-T24024 Fuse Conforming UL/CE 600 V, 5 A 2-phase/DC Fast Acting or identical function fuse Circuit breaker Conforming UL/CE 3-phase 480 V, 5 A, characteristic D, 3-pole, or S8VK-T48024 equivalent breaker S8VK-T96024 Fuse Conforming UL/CE 600 V, 10 A 2-phase/DC Fast Acting or identical function fuse Note: Do not use the S8VK-T96024 with a DC input. FUSE L1 L2 (L3) PE L1 L2 L3 PEN L1 L2 L3 N PE TT DC IT FUSE L1 L2 L3 N + L1 L2 L3 PE Recommended Wire Type/Cross-sectional Area and Stripping Length Model S8VK-T12024 S8VK-T24024 S8VK-T48024 S8VK-T96024 INPUT Solid Wire /Stranded Wire 0.35 to 6 mm2 AWG22 to 10 /0.35 to 4 mm2 0.35 to 6 mm2 AWG22 to 10 /0.35 to 4 mm2 0.5 to 6 mm2 AWG20 to 10 /0.5 to 4 mm2 1.5 to 16 mm2 AWG16 to 6 /1.5 to 16 mm2 American Wire Gauge OUTPUT American Solid Wire Wire Gauge /Stranded Wire 0.75 to 6 mm2 AWG18 to 10 /0.75 to 4 mm2 2.5 to 6 mm2 AWG14 to 10 /2.5 to 4 mm2 4 to 6 mm2 AWG12 to 10 /4 mm2 10 to 16 mm2 AWG8 to 6 /10 to 16 mm2 PE / Ground Wire tripping American Solid Wire Length Wire Gauge /Stranded Wire AWG14 to 10 2.5 to 6 mm2 /2.5 to 4 mm2 8 to 10 mm AWG14 to 6 2.5 to 16 mm2 /2.5 to 16 mm2 13 to 16 mm * The wire insertion hole, and applicable screwdriver of the terminal block are as follows. Wire Insertion Hole (Refer to the diagram on the right) Model S8VK-T12024 S8VK-T24024 S8VK-T48024 S8VK-T96024 Applicable Screwdriver W L No. Driver Diameter Length 2.9 2.9 #2 4.9 mm max. 10 mm min. 5.4 5 #2 5.1 mm max. 12 mm min. L Installation Environment * Do not use the Power Supply in locations subject to shocks or vibrations. In particular, install the Power Supply as far away as possible from contactors or other devices that are a vibration source. For usage onboard a ship, always attach an End Plate (PFP-M) to both sides of the Power Supply to hold the Power Supply in place. * Install the Power Supply well away from any sources of strong, high-frequency noise and surge. Operating Life * The life of a Power Supply is determined by the life of the electrolytic capacitors used inside. Here, Arrhenius Law applies, i.e., the life will be cut in half for each rise of 10C or the life will be W doubled for each drop of 10C. The life of the Power Supply can thus be increased by reducing its internal temperature. Ambient Operating and Storage Environments * Store the Power Supply at a temperature of -40 to 85C and a humidity of 0% to 95%. * Do not use the Power Supply in areas outside the derating curve otherwise, internal parts may occasionally deteriorate or be damaged. * Use the Power Supply at a humidity of 0% to 95%. * Do not use the Power Supply in locations subject to direct sunlight. * Do not use the Power Supply in locations where liquids, foreign matter, or corrosive gases may enter the interior of Products. 13 S8VK-T Mounting Power Boost Function * Take adequate measures to ensure proper heat dissipation to increase the long-term reliability of the Product. Be sure to allow convection in the atmosphere around devices when mounting. Do not use in locations where the ambient temperature exceeds the range of the derating curve. * When cutting out holes for mounting, make sure that cuttings do not enter the interior of the Products. *1 For All Models Power Boost is a function that can output the temporary repeated boost current larger than the rated current. However, it should meet the following four Boost current conditions. 1. Time that the boost current flows: t1 2. The maximum value of the boost current: lp 3. The average output current: lave 4. The time ratio of the boost current flow: Duty Note: Boost current conditions * t1 10 s * Ip Rated boost current * lave Rated current Duty= *1. Convection of air *2. 20 mm min. *1 * Improper mounting will interfere with heat dissipation and may occasionally result in deterioration or damage of internal parts. Use the Product within the derating curve for the mounting direction that is used. [A] output current *2 t1 x 100 [%] 30% t1 + t2 Ip: Boost current Rated current lave: Average current t1 t2 Overload Protection * Internal parts may possibly deteriorate or be damaged if a short-circuited or overcurrent state continues during operation. * Internal parts may possibly deteriorate or be damaged if the Power Supply is used for applications with frequent inrush current or overloading at the load end. Do not use the Power Supply for such applications. * The DC ON indicator (green) flashes if the overload protection function operates. Charging a Battery If you connect a battery as the load, install overcurrent control and overvoltage protection circuits. Output Voltage Adjuster (V.ADJ) Series Operation Two power supplies can be connected in series. L1 +V L2 L3 -V L1 +V Load * The output voltage adjuster (V.ADJ) may possibly be damaged if it is turned with unnecessary force. Do not turn the adjuster with excessive force. * After completing output voltage adjustment, be sure that the output capacity or output current does not exceed the rated output capacity or rated output current. * Do not allow the boost current to continue for more than 10 seconds. Also, do not let the duty cycle exceed the boost current conditions. These conditions may damage the Power supply. * Ensure that the average current of one cycle of the boost current does not exceed the rated output current. This may damage the Power Supply. * Lessen the load of the boost load current by adjusting the ambient temperature and the mounting direction. * Power Boost Function is not possible for the S8VK-T 960 W at 2-phase input or in parallel operation. DIN Rail Mounting To mount the Block on a DIN Rail, hook portion (A) of the Block onto the rail and press the Block in direction (B). L2 L3 -V (A) (B) To dismount the Block, pull down portion (C) with a flat-blade screwdriver and pull out the Block. Note: 1. The diode is connected as shown in the figure. If the load is short-circuited, a reverse voltage will be generated inside the Power Supply. If this occurs the Power Supply may possibly deteriorate or be damaged. Always connect a diode as shown in the figure. Select a diode having the following ratings. Type Schottky Barrier diode Dielectric strength (VRRM) Twice the rated output voltage or above Twice the rated output current or above Forward current (IF) 2. Although Products having different specifications can be connected in series, the current flowing through the load must not exceed the smaller rated output current. 30 mm min. (C) Rail stopper 14 S8VK-T * The outputs are floating outputs (i.e., the primary circuits and secondary circuits are separated). You can therefore make positive and negative outputs by using two Power Supplies. You can make positive and negative outputs with any of the models. If positive and negative outputs are used, connect Power Supplies of the same model as in the following figure. (Combinations with different output capacities or output voltages can be made. However, use the lower of the two maximum rated output currents as the current to the loads.) +V +V L3 -V L1 +V Load L2 Load 0V L2 L3 -V -V * Depending on the model, internal circuits may be damaged due to startup failure when the power is turned ON if loads such as a servomotor or operational amplifier may operate in series. Therefore, connect bypass diodes (D1, D2) as shown in the following figure. If the list of models that support series connection of outputs says that an external diode is not required, an external diode is also not required for positive/negative outputs. Parallel operation is used when the output current from one Power Supply is insufficient for the load. Power Supplies are connected in parallel to increase the output current. Two Power Supplies can be connected in parallel. 1. Parallel operation is possible only if the standard mounting and 3-phase input is used. Maintain an ambient temperature of between -25 and 40C. 2. For parallel operation, always use two Power Supplies with the same capacity. 3. Use the output voltage adjusters (V. ADJ) to adjust the difference in the output voltages between the two Power Supplies to 50 mV or less. 4. If the output current from the two Power Supplies is not balanced, the Power Supply with the higher output voltage will operate in an overcurrent protection state, which will extremely reduce its service life. After you adjust the difference in the output voltages between the two Power Supplies, make sure that the currents are well balanced. 5. The length and thickness of each wire connected to the load and each unit must be the same so that there is no difference in the voltage drop value between the load and the output terminals of each Power Supply. 6. For Parallel Operation with units 120 W, 240 W S8VK-T Power Supplies, connect diodes or S8VK-R to the outputs of each unit if sudden load variation influence occurs in the ambient operation environment. Refer to the S8VK-R datasheet (Catalog No.: T059) for S8VK-R specifications and the model number for each capacity. S8VK-T L1 L2 L3 +V D1 L2 -V L1 +V L2 L3 D2 Load L1 -V * Use the following information as a guide to the diode type, dielectric strength, and current. Type IN 1 -V -V +V L2 Load L3 +V S8VK-T Load L1 S8VK-R +V L3 IN 2 -V 7. The internal parts may occasionally be deteriorated or broken. Be sure to set the OPERATION SWITCH to B when using S8VK-T 480 W, 960 W for Parallel Operation. For Parallel Operation with units 960 W S8VK-T Power Supplies, connect diodes to the outputs of each unit if sudden load variation influence occurs in the ambient operation environment. Schottky Barrier diode L1 +V Load L1 Parallel Operation Load Making Positive/Negative Outputs Dielectric strength (VRRM) Twice the rated output voltage or above L2 Forward current (IF) L3 -V L1 +V Twice the rated output current or above L2 L3 -V * Use the following information as a guide to the diode type, dielectric strength, and current. Type Schottky Barrier diode Dielectric strength (VRRM) Twice the rated output voltage or above Forward current (IF) Twice the rated output current or above 15 S8VK-T Backup Operation In Case There Is No Output Voltage Backup operation is possible if you use two Power Supplies of the same model. Even if one Power Supplies fails, operation can be continued with the other Power Supply. Make sure that the maximum load does not exceed the capacity of one Power Supply. For backup operation, connect the S8VK-R for 120 W, 240 W, and 480 W. Refer to the S8VK-R datasheet (Catalog No.: T059) for S8VK-R specifications and the model number for each capacity. The possible cause for no output voltage may be that the overcurrent or overvoltage protection has operated. The internal protection may operate if a large amount of surge voltage such as a lightening surge occurs while turning ON the power supply. In case there is no output voltage, please check the following points before contacting us: * Checking overload protected status: Check whether the load is in overload status or is short-circuited. Remove wires to load when checking. * Checking overvoltage or internal protection: Turn the power supply OFF once, and leave it OFF for at least 5 minutes. Then turn it ON again to see if this clears the condition. S8VK-T S8VK-R +V L2 Load +V L1 IN 1 -V L3 -V S8VK-T L2 IN 2 -V L3 For 960 W, always connect diodes to the output sides of the two Power Supplies as shown in the following diagram. A D1 +V Load L1 L2 -V L3 B D2 +V L2 L3 -V * Use the following information as a guide to the diode type, dielectric strength, and current. Type Schottky Barrier diode Dielectric strength (VRRM) Twice the rated output voltage or above Forward current (IF) Twice the rated output current or above * Increase the output voltage setting of Power Supply A and Power Supply B by the drop in the forward voltage (VF) of diodes D1 and D2 . Also, the diodes will cause a power loss equivalent to the Power Supply output current (IOUT) times the diode forward voltage (VF). Therefore, cooling measures must be implemented so that the temperature of the diodes decreases to the catalog value or lower. * Because of the load power and power loss due to the diodes, do not exceed the rated power of one Power Supply (rated output voltage x rated output current). 16 The internal parts may occasionally be deteriorated or broken. Be sure to set the OPERATION SWITCH to B when using S8VK-T 960 W at 2-phase input. +V L1 L1 2-Phase Input Operation For 960 W Model Note: A: The output current can use 100% of the rated output current. B: Overcurrent protection limits the output current to 80% of the rated output current. S8VK-T Period and Terms of Warranty Warranty Period The product warranty is valid for a period of three years from the date of shipment from the factory. Terms of Warranty The warranty is valid only for the following operating conditions. 1. Average ambient operating temperature of the product: 40C max. 2. Average load rate: 80% max. 3. Mounting method: Standard mounting * The maximum ratings must be within the derating curve. If the product fails for reasons attributable to OMRON within the above warranty period, OMRON will repair or replace the faulty part of the product at the place of purchase or the place where the product delivered without charge. This warranty does not cover the following types of failures. (1) Failures that result from handling or operation of the product under conditions or in environments that are not given in this document and not given in any other specifications exchanged between OMRON and the customer (2) Failures that originate in causes other than the delivered product itself (3) Failures caused by disassembly, modification, or repair of the product by anyone other than OMRON (4) Failures caused by applications or uses for which the product was not originally intended (5) Failures caused by factors that could not be anticipated with the scientific or technical knowledge available when the product was shipped (6) Failures caused by other causes for which OMRON is not responsible, such as natural disasters and other acts of God This warranty is limited to the individual product that was delivered and does not cover any secondary, subsequent, or related damages. Recommended Replacement Periods and Periodic Replacement for Preventive Maintenance The recommended replacement period for preventive maintenance is greatly influenced by the application environment of the product. As a guideline, the recommended replacement period is 7 to 10 years.* To prevent failures or accidents that can be caused by using a product beyond its service live, we recommend that you replace the product as early as possible within the recommended replacement period. However, bear in mind that the recommended replacement period is for reference only and does not guarantee the life of the product. Many electronic components are used in the product and the product depends on the correct operation of these components to achieve the original product functions and performance. However, the influence of the ambient temperature on aluminum electrolytic capacitors is large, and the service life is reduced by half for each 10C rise in temperature (Arrhenius law). When the capacity reduction life of the electrolytic capacitor is reached, the product failures or accidents may occur. We therefore recommend that you replace the product periodically to minimize product failures or accidents in advance. * The recommended replacement period applies under the following conditions: rated input voltage, load rate of 50% max., ambient temperature of 40C max., and the standard mounting method. (The fan is excluded for models with fans.) This product model is designed with a service life of 10 years minimum under the above conditions. 17 OMRON AUTOMATION AMERICAS HEADQUARTERS * Chicago, IL USA * 847.843.7900 * 800.556.6766 * www.omron247.com OMRON CANADA, INC. * HEAD OFFICE Toronto, ON, Canada * 416.286.6465 * 866.986.6766 * www.omron247.com OMRON ARGENTINA * SALES OFFICE Cono Sur * 54.11.4783.5300 OMRON ELECTRONICS DE MEXICO * HEAD OFFICE Mexico DF * 52.55.59.01.43.00 * 01-800-226-6766 * mela@omron.com OMRON CHILE * SALES OFFICE Santiago * 56.9.9917.3920 OMRON ELECTRONICS DE MEXICO * SALES OFFICE Apodaca, N.L. * 52.81.11.56.99.20 * 01-800-226-6766 * mela@omron.com OTHER OMRON LATIN AMERICA SALES 54.11.4783.5300 OMRON ELETRONICA DO BRASIL LTDA * HEAD OFFICE Sao Paulo, SP, Brasil * 55.11.2101.6300 * www.omron.com.br OMRON EUROPE B.V. * Wegalaan 67-69, NL-2132 JD, Hoofddorp, The Netherlands. * +31 (0) 23 568 13 00 * www.industrial.omron.eu Controllers & I/O * Machine Automation Controllers (MAC) * Motion Controllers * Programmable Logic Controllers (PLC) * Temperature Controllers * Remote I/O Authorized Distributor: Robotics * Industrial Robots * Mobile Robots Operator Interfaces * Human Machine Interface (HMI) Motion & Drives * Machine Automation Controllers (MAC) * Motion Controllers * Servo Systems * Frequency Inverters Vision, Measurement & Identification * Vision Sensors & Systems * Measurement Sensors * Auto Identification Systems Sensing * Photoelectric Sensors * Fiber-Optic Sensors * Proximity Sensors * Rotary Encoders * Ultrasonic Sensors Safety * Safety Light Curtains * Safety Laser Scanners * Programmable Safety Systems * Safety Mats and Edges * Safety Door Switches * Emergency Stop Devices * Safety Switches & Operator Controls * Safety Monitoring/Force-guided Relays Control Components * Power Supplies * Timers * Counters * Programmable Relays * Digital Panel Meters * Monitoring Products Switches & Relays * Limit Switches * Pushbutton Switches * Electromechanical Relays * Solid State Relays Software * Programming & Configuration * Runtime T59I-E-04 12/16 Note: Specifications are subject to change. 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