PUSH-PULL SOLENOIDS 1. Design and Features 2. Stroke and Force The push-pull solenoid design utilizes a coil with the maximum amount of magnet wire in the smallest amount of space. This coil assembly is then packaged in a metal housing using highly permeable steel thus obtaining maximum force and minimum size and weight. The armature design utilizes a secondary magnetic circuit, which provides an increasd output of force of 20-50% (comparison is made of a 491C with a stroke of 3 mm). The push design is meant for applications that require relatively short strokes (0-8mm). In general, the solenoid height is half the outside diameter. The output shaft is attached to the armature and can be attached to either end of the solenoid. Thus, attaching to the shaft on the base side actuates as a push solenoid. Attaching to the shaft on the armature side actuates the solenoid in the pull mode. The push-pull solenoid is available with 2 standard pole piece configurations. The conical pole (Fig. 1) is meant for medium strokes (3-8mm). The flat pole piece (Fig. 2) is designed for short strokes (0-3mm), and where high holding force is required. Force-stroke curves for each size and configuration are shown in the catalog. For the best performance and efficiency the stroke should be kept to a minimum. Fig. 1 Conical pole piece Fig. 2 Flat pole piece 26 3. Operational Considerations A) Temperature The coil data of push-pull solenoids shows the values at ambient temperature 20°C and with a standard heat sink. If a solenoid is used at a rating shown in the coil data, it is designed so that the coil temperature rises and reaches equilibrium at approximately 85°C. In applications where the ambient temperature is higher than 20°C or the heat sink is smaller than indicated in the catalog, possible thermal damage can occur. Temperature rise tests should be performed by the customer to assure that the coil does not reach 120°C. Coils can be constructed to operate at temperatures higher than 120°C without thermal damage. Please consult the factory for details. B) Air Gap Spacer The push-pull solenoid uses an air gap spacer between the armature and the case. This spacer is installed to prevent the armature and base from coming into mechanical contact with each other, which would cause residual magnetism. C) Return Spring The push-pull solenoid does not include a return spring. Therefore, the application must include a return spring. D) Shaft Modification It is not recommended that the customer modify the shaft, as the shafts are fabricated before assembly. Any special configuration can be supplied. Please consult the factory for details. E) Installation of Solenoid The size 191C and 191F use tapped holes for mounting in the base. Caution needs to be observed that the mounting screws used to attach these solenoids are the correct length so as not to damage the coil. www.shindengen.co.jp/smt/ PUSH-PULL SOLENOIDS 6. Ordering Information 4. General Characteristics Insulation class 5. How to Select a Solenoid Before selecting a push-pull solenoid, the following information must be determined : A) Force The actual force required in the application should be increased using a safety factor multiplier of 1.5 to arrive at the force value that should be used in your specification. B) Duty Cycle Use the aforementioned formula to calculate duty cycle. Also note the maximum on time. (See page 2) C) Stroke Stroke is determined by application requirements. D) Operating Voltage Operating DC voltage is determined by the application and voltage available. After determining these specifications, one can find the correct size solenoid for the application, using the force stroke characteristic tables and graphs. The coil data is also shown for different sizes of magnet wire. If the exact operating voltage is not in the coil data table, use the nearest voltage shown in the table. NOTE : When the operating voltage falls between 2 coil sizes, always use the higher AWG numbered coil so as to prevent potential thermal damage. To determine the force output of the solenoid after temperature rise, please use the amp-turn force graphs (pages 42, 43) after calculating the amp-turns. #When ordering a push-pull solenoid, the correct part number needs to be determined, from the following combination of characteristics (1-5) : (1) M-Metric Thread F-SAE Thread (2) Solenoid Size (example-341) (3) C-Conical plunger F-Flat plunger (4) Coil Wire Size (AWG) (5) P-Standard Life Bearing PE-Extended Life Bearing (191C, 191F, 874C, and 874F have standard life bearings only.) #Example of a complete part number: (1) (2) (3) (4) (5) F 341 C 30 P This part number is for a solenoid with 臼 SAE threads, 渦 size 341, 嘘 with a conical plunger, 唄 with 30 Awg. coil wire, 欝 and standard life bearings. 7. Labeling For push-pull solenoids the part number labeling is as follows : A) Standard Solenoid (no modifications). The solenoid label will have the part number and the date code. Example : F 341 C 30 P 9401 SAE Thread Solenoid Size Conical Plunger Coil Wire AWG Push-Pull & Bearing life Date Code (year and week) B) Special Configuration (required for any modification to a standard design) Any change from the standard catalog design requires that a custom part number be assigned, which will also include the date code of manufacture. Example : F93010P 9401 Special Part Number Date Code (year and week) www.shindengen.co.jp/smt/ 27 Push-Pull Solenoids Class E (120°C) Lead wire class A (105°C) Dielectric strength AC 1000V 50/60 Hz 1 min. (at normal temperature and normal humidity) Insulation resistance More than 100 Mohm at DC 500V megger (at normal temperature and normal humidity) Expected life Standard life : 2 million cycles Extended : 10 million cycles (Solenoid cycle life is very dependent upon side load, frequency of use, and environmental conditions. Cycle life tests should be performed by the customer.) SIZE191C, 191F PUSH PULL SOLENOID UNIT : mm SHOWN ENERGIZED AT20°C 20 AT20°C 50 10 45W 10% 1 18W 25% 0.5 0.2 FORCE [N] FORCE [N] 5 0 1 2 3 STROKE [mm] 4 5 45W 10% 1 9W 50% 4.5W 100% 10 0.5 5 4.5W 100% 1 2 STROKE [mm] 0 STROKE-FORCE (191C) 9W 50% 3 18W 25% STROKE-FORCE (191F) AT20°C 12 WEIGHT : 22g PLUNGER(C): 4g PLUNGER(F) : 4g 4.5W 100% 9W 50% RESPONSE TIME [ms] 10 8 18W 25% 6 45W 10% 4 2 21.3±1.0 0 φ19.3MAX. 10.2±0.5 0 1 2 STROKE [mm] 3 4 STROKE-RESPONSE TIME φ3±0.03 12.5±0.3 13MAX. 2-M2.6 P0.45 DEPTH 2MAX. LEADS 250MIN. (UL1430 AWG28) COIL DATA duty cycle= Heat sink : 50K50K3mm aluminum “on” time K100% “on” time + “off” time 100% continuous MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C AWG no. 30 31 32 33 34 35 36 37 38 39 40 28 resistance Ω±10%(at 20˚C) 4.02 5.61 9.09 14.95 24.06 37.1 58.51 75.68 118 199 328 50% or less 25% or less 10% or less 100 9 403 36 18 570 7 45 901 ∞ 4.5 285 no. turns 288 324 420 544 684 840 1056 1109 1370 1761 2283 volts DC 4.1 5 6.3 8 10.2 12.8 16.1 19.8 25 33 42 www.shindengen.co.jp/smt/ 5.7 7.1 8.9 11.3 14.4 18.1 23 28 35 46 59 8 9.9 12.4 15.7 20 25 32 39 49 64 82 12.1 15.8 19.7 25 32 40 50 62 78 103 131 SIZE250C, 250F PUSH PULL SOLENOID AT20°C 40 UNIT : mm SHOWN ENERGIZED AT20°C 70 50 50W 10% 10 5 50W 10% 20W 25% 1 0.5 0.4 FORCE [N] 5 5W 100% 0 1 2 3 STROKE [mm] 4 10W 5W 50% 100% 1 2 STROKE [mm] 1 10W 50% 0.7 5 0 STROKE-FORCE (250C) 20W 25% 3 STROKE-FORCE (250F) AT20°C 24 WEIGHT : 47g PLUNGER(C): 11g PLUNGER(F) : 9g 5W 100% RESPONSE TIME [ms] 20 10W 50% 16 12 20W 25% 8 50W 10% 4 0 27.8±1.0 φ26MAX. 1 2 3 STROKE [mm] 4 5 STROKE-RESPONSE TIME 16.7±0.3 9.5±0.5 φ3.97±0.03 11.1±0.5 15.5MAX. 0 2-M2.3 P0.4 LEADS 250MIN. (UL1430 AWG24) COIL DATA Heat sink : 80K80K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 25 0.85 26 1.42 27 1.90 28 3.21 29 5.11 30 8.03 31 12.95 32 20.25 33 29.97 34 49.60 35 82.64 36 110 37 157 38 237 39 426 40 698 100% continuous ∞ 5 340 50% or less 100 10 480 2.1 2.6 3.3 4.0 5.1 6.2 7.9 10 12.1 15.4 20 24 30 37 47 62 3.0 3.7 4.6 5.7 7.2 8.8 11.1 14.1 17.1 22 28 34 42 52 66 88 no. turns 138 184 197 272 340 439 560 690 839 1097 1396 1551 1776 2180 3110 3802 25% or less 36 20 680 10% or less 7 50 1075 4.2 5.2 6.6 8.0 10.2 12.4 15.7 20 24 31 40 48 60 74 93 125 6.6 8.3 10.4 12.7 16.2 19.7 25 32 38 49 64 76 95 117 147 197 volts DC www.shindengen.co.jp/smt/ 29 Push-Pull Solenoids FORCE [N] 10 SIZE301C, 301F PUSH PULL SOLENOID AT20°C 70 UNIT : mm SHOWN ENERGIZED AT20°C 200 50 100 FORCE [N] FORCE [N] 50 10 5 70W 10% 1 28W 25% 14W 50% 10 0.7 7W 100% 0 1 2 3 4 STROKE [mm] 5 5 2 6 70W 10% 7W 100% 0 STROKE-FORCE (301C) 1 14W 50% 28W 25% 2 STROKE [mm] 3 STROKE-FORCE (301F) WEIGHT : 56g PLUNGER(C): 16g PLUNGER(F) : 14g AT20°C 24 7W 100% RESPONSE TIME [ms] 20 16 14W 50% 12 28W 25% 8 70W 10% 4 27.0±1.0 φ30MAX. 11.1±0.5 15.2MAX. 0 0 1 2 ±0.5 3 4 STROKE [mm] 5 6 (UL1430 AWG24) LEADS 250MIN. STROKE-RESPONSE TIME 18.3±0.3 φ3.97±0.03 9.5 2-M2.3 P0.4 COIL DATA Heat sink : 90K90K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 26 1.96 27 3.16 28 5.1 29 6.94 30 11 31 16.9 32 28.3 33 42.8 34 69.6 35 112 36 148 37 221 38 352 39 568 40 882 30 100% continuous ∞ 7 425 50% or less 100 14 602 no. turns 231 296 378 423 530 649 858 1036 1312 1674 1765 2090 2650 3380 4200 25% or less 36 28 849 10% or less 7 70 1350 7.1 8.9 11 14 18 22 28 35 45 56 71 89 112 141 178 11 14 18 22 28 36 45 56 71 89 112 142 178 224 283 volts DC 3.5 4.5 5.6 7.1 8.9 11 14 18 22 28 35 45 56 71 89 www.shindengen.co.jp/smt/ 5 6.3 8 10 13 16 20 25 32 39 50 63 80 100 126 SIZE341C, 341F PUSH PULL SOLENOID AT20°C 100 UNIT : mm SHOWN ENERGIZED AT20°C 300 50 5 FORCE [N] 0W 10% 10 36W 25% 5 W 100% 0 1 2 3 4 STROKE [mm] 5 0W 10% 10 18W 50% 1 50 3 6 36W 25% 18W 50% W 100% 0 1 STROKE-FORCE (341C) 2 STROKE [mm] 3 STROKE-FORCE (341F) AT20°C 24 WEIGHT : 97g PLUNGER(C): 23g PLUNGER(F) : 16g RESPONSE TIME [ms] 20 W 100% 16 18W 50% 12 36W 25% 8 0W 10% 4 29.8±1.0 18MAX. φ34MAX. 15.9±0.5 0 0 1 2 16.7±0.5 3 4 STROKE [mm] 5 6 (UL1430 AWG24) LEADS 250MIN. 22.2±0.3 φ4.76±0.03 STROKE-RESPONSE TIME 2-M3 P0.5 COIL DATA Heat sink : 120K120K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 25 1.97 26 3.26 27 5.04 28 8.02 29 12.21 30 19.2 31 31.8 32 47 33 75.3 34 120.5 35 198 36 280 37 426 38 648 39 1020 40 1667 100% continuous ∞ 9 535 50% or less 100 18 756 4.2 5.3 6.7 8.4 10 13 17 21 26 33 42 53 67 84 105 133 5.9 7.5 9.4 12 15 19 24 30 37 47 59 75 94 118 149 187 no. turns 252 328 405 510 627 780 1008 1215 1530 1900 2486 2700 3350 4050 5050 6590 25% or less 36 36 1070 10% or less 8 90 1690 8.4 11 13 17 21 26 33 42 53 67 84 106 133 168 211 265 13 17 21 26 33 42 53 66 84 105 133 167 210 264 333 419 volts DC www.shindengen.co.jp/smt/ 31 Push-Pull Solenoids FORCE [N] 100 SIZE401C, 401F PUSH PULL SOLENOID AT20°C 200 UNIT : mm SHOWN ENERGIZED AT20°C 500 100 50 100 FORCE [N] FORCE [N] 125W 10% 50W 25% 125W 10% 50 50W 25% 10 25W 50% 5 2 12.5W 100% 0 1 2 3 4 STROKE [mm] 5 25W 50% 10 5 6 0 1 STROKE-FORCE (401C) 12.5W 3 100% 2 STROKE [mm] STROKE-FORCE (401F) AT20°C 24 WEIGHT : 200g PLUNGER(C): 40g PLUNGER(F) : 34g RESPONSE TIME [ms] 20 12.5W 100% 16 25W 50% 12 50W 25% 125W 10% 8 4 0 φ41MAX. 19.1±0.5 18.8±0.5 0 1 2 3 4 STROKE [mm] 5 6 φ5.56±0.03 (UL1430 AWG22) LEADS 250MIN. STROKE-RESPONSE TIME 27.0±0.3 33.5±1.0 22MAX. 2-M4 P0.7 COIL DATA Heat sink : 160K160K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 25 3.5 26 5.67 27 8.76 28 13.8 29 22.6 30 34.8 31 56.7 32 88.3 33 138 34 216 35 351 36 480 37 720 38 1150 39 1920 40 3000 32 100% continuous ∞ 12.5 714 50% or less 100 25 1000 6.6 8.4 11 13 17 21 27 35 43 53 67 85 105 132 166 210 9.5 12 16 18 23 30 38 49 60 75 95 119 147 185 232 300 no. turns 384 486 600 748 975 1190 1520 1908 2360 2904 3725 4000 4950 6200 8350 10000 25% or less 36 50 1425 10% or less 9 125 2250 13 17 22 26 33 42 54 70 86 106 132 169 210 264 332 21 27 35 42 52 67 85 110 138 168 213 268 332 volts DC www.shindengen.co.jp/smt/ SIZE491C, 491F PUSH PULL SOLENOID AT20°C 500 UNIT : mm SHOWN ENERGIZED AT20°C 700 500 50 84W 25% 100 210W 10% 50 84W 25% FORCE [N] 210W 10% 42W 50% 42W 50% 21W 100% 10 5 0 1 2 3 4 STROKE [mm] 5 21W 100% 10 7 6 0 1 STROKE-FORCE (4 1C) 2 STROKE [mm] 3 STROKE-FORCE (4 1F) WEIGHT : 265g PLUNGER(C): 70g PLUNGER(F) : 60g AT20°C RESPONSE TIME [ms] 24 20 21W 100% 16 42W 50% 84W 25% 210W 10% 12 8 4 38.5±1.0 φ49MAX. 19.1±0.5 0 0 1 27.5MAX. 18.2 ±0.5 2 3 4 STROKE [mm] 5 6 LEADS 250MIN. (UL1430 AWG22) 31.8±0.3 φ6.35±0.03 STROKE-RESPONCE TIME 2-M4 P0.7 COIL DATA Heat sink : 190K190K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 21 1 22 1.68 23 2.7 24 4.3 25 6.66 26 10.3 27 15.7 28 26.6 29 38 30 62.1 31 96.1 32 157 33 241 34 364 35 566 36 910 37 1224 100% continuous ∞ 21 1015 no. turns 228 301 384 486 590 737 900 1190 1380 1768 2166 2816 3432 4108 4920 6340 6800 50% or less 100 42 1440 25% or less 36 84 2030 10% or less 10 210 3210 8.9 11.4 14.3 18 23 28 35 45 56 71 90 113 143 180 234 292 366 14.1 17.9 23 28 36 44 56 72 89 113 143 179 226 285 370 462 volts DC 4.5 5.7 7.2 9 11.5 14 17.7 23 28 36 45 57 71 90 117 146 183 6.4 8.1 10.1 12.7 16.2 20 25 32 40 51 64 80 101 128 166 207 260 www.shindengen.co.jp/smt/ 33 Push-Pull Solenoids FORCE [N] 100 SIZE590C, 590F PUSH PULL SOLENOID AT20°C 500 UNIT : mm SHOWN ENERGIZED AT20°C 1000 500 2 0W 10% 50 FORCE [N] FORCE [N] 100 100 116W 25% 10 58W 50% 5 2 W 100% 12 0 2 4 6 8 STROKE [mm] 10 2 0W 10% 50 20 116W 25% 0 1 STROKE-FORCE (5 0C) 2 3 4 STROKE [mm] 5 58W 50% 2 W 6 100% STROKE-FORCE (5 0F) WEIGHT : 506g PLUNGER(C): 120g PLUNGER(F) : 95g AT20°C 40 RESPONSE TIME [ms] 35 2 W 100% 30 58W 50% 25 20 116W 25% 15 2 0W 10% 10 5 φ59MAX. ±0.5 25.0 41.8±1.0 0 0 2 ±0.5 30.5MAX. 19.2 4 6 8 STROKE [mm] 10 12 LEADS 250MIN. (UL1430 AWG20) 36.5±0.3 φ7.94±0.03 STROKE-RESPONSE TIME 2-M5 P0.8 COIL DATA Heat sink : 310K310K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 22 2.23 23 3.6 24 5.24 25 9.51 26 14.4 27 23.7 28 38.2 29 54.7 30 93.7 31 143 32 223 33 338 34 550 35 790 36 1233 34 100% continuous ∞ 29 1240 50% or less 87 58 1760 no. turns 336 432 500 708 858 1110 1411 1638 2184 2645 3328 4004 5088 5860 7260 25% or less 36 116 2490 10% or less 13 290 3920 16 21 26 33 41 52 66 83 104 131 165 208 262 330 26 33 41 52 66 83 104 131 165 207 261 329 volts DC 8.3 10 13 16 21 26 33 41 52 66 83 104 131 165 208 www.shindengen.co.jp/smt/ 12 15 18 23 29 37 47 59 74 93 117 147 185 233 294 SIZE591C, 591F PUSH PULL SOLENOID AT20°C 500 UNIT : mm SHOWN ENERGIZED AT20°C 1000 500 FORCE [N] 320W 10% 50 128W 25% 100 320W 10% 50 128W 25% 64W 50% 10 5 64W 50% 32W 100% 0 2 4 6 8 STROKE [mm] 10 10 12 32W 100% 0 1 STROKE-FORCE (5 1C) 2 3 4 STROKE [mm] 5 6 STROKE-FORCE (5 1F) WEIGHT : 620g PLUNGER(C): 145g PLUNGER(F) : 140g AT20°C 40 32W 100% RESPONSE TIME [ms] 35 64W 50% 30 25 128W 25% 20 320W 10% 15 10 5 0 2 4 6 8 STROKE [mm] 10 12 LEADS 250MIN. STROKE-RESPONSE TIME 36.5±0.3 19.2 ±0.5 φ7.94±0.03 36MAX. 0 φ59MAX. 25.0±0.5 (UL1430 AWG20) 47.7±1.0 2-M5 P0.8 COIL DATA Heat sink : 310K310K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 20 1.23 21 1.75 21 2.79 23 4.54 24 6.93 25 12.5 26 18.4 27 33.4 28 46.3 29 74.5 30 125.5 31 199 32 302 33 417 100% continuous ∞ 32 1480 50% or less 87 64 2080 no. turns 295 340 446 567 690 910 1120 1500 1750 2232 2940 3611 4350 5010 25% or less 36 128 2940 10% or less 13 320 4620 12.3 15.1 18.4 24 30 40 48 65 78 98 126 162 204 245 19.3 24 29 37 46 63 76 103 122 154 197 255 321 385 volts DC 6.2 7.6 9.3 11.9 14.9 20.0 24 33 39 49 63 82 103 123 8.7 10.7 13 16.7 21 29 34 46 55 69 89 115 144 173 www.shindengen.co.jp/smt/ 35 Push-Pull Solenoids FORCE [N] 100 SIZE700C, 700F PUSH PULL SOLENOID AT20°C 1000 UNIT : mm SHOWN ENERGIZED AT20°C 2000 500 1000 350W 10% 100 140W 25% 50 FORCE [N] FORCE [N] 500 100 70W 50% 10 35W 100% 0 2 4 6 8 STROKE [mm] 10 350W 10% 50 20 12 35W 100% 0 2 STROKE-FORCE (700C) 70W 50% 4 6 STROKE [mm] 140W 25% 10 8 STROKE-FORCE (700F) AT20°C 40 WEIGHT : 1,013g PLUNGER(C): 268g PLUNGER(F) : 285g 35W 100% RESPONSE TIME [ms] 35 30 70W 50% 25 140W 25% 20 350W 10% 15 10 5 ±1.0 57.0 22.2±0.5 38.5MAX. 23.0±0.5 φ71MAX. 0 0 2 4 6 8 STROKE [mm] 10 12 LEADS 250MIN. (UL1430 AWG20) 44.5±0.3 φ9.53±0.03 STROKE-RESPONSE TIME 2-M6 P1.0 COIL DATA Heat sink : 390K390K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 20 1.88 21 3.01 22 4.82 23 8.1 24 12.3 25 19 26 30.8 27 48.8 28 81.1 29 121 30 190 31 275 32 440 33 735 34 995 36 100% continuous ∞ 35 1570 50% or less 80 70 2230 no. turns 368 468 580 780 949 1148 1472 1854 2436 2944 3650 4175 5792 7000 7600 25% or less 38 140 3150 10% or less 16 350 5000 16 20 26 33 41 52 66 83 105 130 166 209 240 331 26 32 41 52 65 83 105 132 166 206 264 331 volts DC 8 10 13 16 20 26 33 41 52 64 82 104 119 165 204 www.shindengen.co.jp/smt/ 11 14 18 23 29 37 46 59 75 92 118 147 170 235 288 SIZE870C, 870F PUSH PULL SOLENOID AT20°C 2000 UNIT : mm SHOWN ENERGIZED AT20°C 3000 1000 1000 500 50 FORCE [N] 164W 25% 100 82W 50% 0 2 4 6 8 10 STROKE [mm] 12 164W 25% 50 41W 100% 10 410W 10% 100 82W 50% 41W 100% 20 14 0 2 STROKE-FORCE (870C) 4 6 STROKE [mm] 8 10 STROKE-FORCE (870F) AT20°C 50 WEIGHT : 1,885g PLUNGER(C): 495g PLUNGER(F) : 480g 41W 100% RESPONSE TIME [ms] 40 82W 50% 164W 25% 30 410W 10% 20 10 φ87MAX. 68.6±1.0 22.2 0 0 2 4 6 8 10 STROKE [mm] 12 14 STROKE-RESPONSE TIME LEADS 250MIN. 2-M6 P1.0 (UL1430 AWG18) 54.0 ±0.3 φ11.11±0.03 47MAX. ±0.5 COIL DATA Heat sink : 520K520K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 18 1.47 19 2.3 20 3.64 21 5.57 22 9.5 23 14.3 24 23.3 25 37.1 26 58.6 27 89.8 28 139 29 227 30 376 31 515 32 785 33 1130 100% continuous ∞ 41 1910 50% or less 72 82 2750 no. turns 368 459 580 704 936 1134 1456 1836 2300 2816 3456 4480 5792 6600 7850 9050 25% or less 43 164 3810 10% or less 20 410 5950 15 19 24 30 39 48 61 77 97 121 153 193 248 297 385 24 30 37 47 60 75 95 120 152 189 239 300 387 volts DC 7.6 9.6 12 15 19 24 30 39 49 61 76 98 124 148 188 237 11 14 17 22 28 35 44 56 70 88 111 138 177 212 275 339 www.shindengen.co.jp/smt/ 37 Push-Pull Solenoids FORCE [N] 500 410W 10% SIZE874C, 874F PUSH PULL SOLENOID AT20°C 2000 UNIT : mm SHOWN ENERGIZED AT20°C 3000 1000 1000 500 FORCE [N] 500 100 50 41W 100% 10 0 5 10 15 20 STROKE [mm] 410W 10% 410W 10% 100 164W 25% 164W 25% 50 82W 50% 82W 50% 30 25 20 0 2 STROKE-FORCE (874C) 4 6 8 10 STROKE [mm] 12 41W 100% 14 STROKE-FORCE (874F) WEIGHT : 3,000g PLUNGER(C): 500g PLUNGER(F) : 535g AT20°C 41W 100% 140 RESPONSE TIME [ms] 120 100 82W 50% 80 164W 25% 410W 10% 60 40 20 φ87MAX. 105±1.0 22.2±0.5 54±0.3 0 0 5 10 15 20 STROKE [mm] 25 30 STROKE-RESPONSE TIME 54±0.3 φ11.11±0.03 82.5MAX. 4-M6 P1.0 DEPTH 10MAX. LEADS 250MIN. (UL1430 AWG18) COIL DATA Heat sink : 520K520K3mm aluminum “on” time duty cycle= K100% “on” time + “off” time MAX. “on” time in seconds watts at 20˚C ampere-turns at 20˚C resistance AWG no. Ω±10%(at 20˚C) 18 2.54 19 4.15 20 6.38 21 11.14 22 16.8 23 25.8 24 42.5 25 66.3 26 105 27 165 28 261 29 422 30 664 31 968 32 1520 38 100% continuous ∞ 41 2590 50% or less 72 82 3663 no. turns 630 828 1047 1408 1723 2046 2711 3279 4151 5190 6500 8340 10230 12410 15200 25% or less 43 164 5180 10% or less 20 410 8190 21 26 32 41 51 65 81 105 131 165 208 262 336 33 41 50 65 80 103 128 166 207 260 329 volts DC 10 13 16 20 25 33 41 52 66 82 104 131 168 202 259 www.shindengen.co.jp/smt/ 15 18 22 29 36 46 57 74 93 116 147 185 238 286 366 CHARACTERISTICS TABLES FOR PUSH PULL SOLENOIDS(CONICAL) PERFORMANCE CURVES ARE AT 20˚C Push-Pull Solenoids www.shindengen.co.jp/smt/ 39 CHARACTERISTICS TABLES FOR PUSH PULL SOLENOIDS(FLAT) 40 www.shindengen.co.jp/smt/ PERFORMANCE CURVES ARE AT 20˚C PUSH PULL SOLENOID AMPERE-TURN V.S. FORCE(CONICAL) S 2 FORCE[N] S 4 1 0.5 S 3 5 S 4 S 5 S 5 S 6 5 600 800 1000 200 400 800 1000 400 600 1350 0.3 200 1200 800 1000 1200 1400 AMPERE-T RNS AMPERE-T RNS SIZE341C 100 600 84 680 480 0 602 400 0.5 425 200 1 1075 01 570 0 0.2 AMPERE-T RNS SIZE401C 200 0 1 2 3 4 5 50 S 6 10 S S S S S S S 100 FORCE[N] S S S S S S 50 FORCE[N] S 3 S 4 10 1 0.5 403 0.1 S 1 S 2 S 2 10 S 3 S 0 5 0 1 2 3 4 5 6 10 1 800 1000 1200 1400 1600 1800 500 1000 AMPERE-T RNS SIZE591C 2000 3000 3 4000 500 100 3000 4000 AMPERE-T RNS 5000 2 40 4620 5000 0 2 4 6 8 10 12 14 2000 1000 S 0 S 1 S 2 S 4 S 6 S 8 S 10 11 S 15 500 12 S 20 13 S 25 100 14 S 30 2000 3000 4000 5000 6000 AMPERE-T RNS www.shindengen.co.jp/smt/ 10 5180 3810 2750 10 1000 5 50 50 5000 3150 2230 2000 4000 SIZE874C S S S S S S S S 50 1000 3000 AMPERE-T RNS 1 10 0 2 4 6 8 10 12 FORCE[N] 1570 S S S S S S S 50 5 2000 SIZE870C 1000 100 10 1000 AMPERE-T RNS SIZE700C 500 2080 1760 1000 AMPERE-T RNS 1000 5 2000 4000 81 0 3000 10 FORCE[N] 2000 3 0 1 2 4 6 8 10 12 50 3660 24 0 10 S S S S S S S S 100 S 12 50 5 1000 0 1 2 4 6 8 10 3 20 3210 FORCE[N] 100 1015 1440 10 S S S S S S S FORCE[N] 0 1 2 3 4 5 6 500 1240 S S S S S S S 2030 FORCE[N] 2250 SIZE590C 50 FORCE[N] 2500 500 100 3 2000 1480 SIZE491C 200 5 1500 AMPERE-T RNS 25 0 600 1425 1000 1070 756 400 714 0.5 535 1 16 0 5 6000 8000 AMPERE-T RNS 41 Push-Pull Solenoids FORCE[N] 5 SIZE301C 70 50 S 0 S 0.5 S 1 340 285 10 SIZE250C 50 S 0 S 0.5 S 1 FORCE[N] SIZE191C 20 PERFORMANCE CURVES ARE AT 20˚C PUSH PULL SOLENOID AMPERE-TURN-FORCE(FLAT) S 0.5 S 2 S 0.5 S 2 S 1 S 1.5 S 2 10 S 3 S 3 5 1 200 400 600 800 0 200 400 600 800 1000 1350 0.3 1000 1 1200 200 400 600 AMPERE-T RNS AMPERE-T RNS SIZE341F SIZE401F 535 S 0 S 2 S 0 S 0.5 S 1 S 2 100 FORCE[N] S 1.5 1400 S 1 S 1 50 1200 700 500 S 0 S 0.5 S 0.5 100 1000 SIZE490F 714 500 300 800 AMPERE-T RNS S 2 50 100 FORCE[N] 0 680 0.5 570 0.2 S 3 1075 1 01 0.5 FORCE[N] S 0 50 10 5 84 100 FORCE[N] FORCE[N] 5 S 0.5 S 1 FORCE[N] S 1 10 200 602 340 403 285 SIZE301F S 0 425 SIZE250F 70 50 S 0 480 SIZE191F 50 PERFORMANCE CURVES ARE AT 20˚C S 3 S 3 50 S 3 800 1000 1200 1400 1600 1800 500 1000 1500 2000 500 50 1000 S 0 S 0.5 S 2 1000 S 8 S 10 100 4000 AMPERE-T RNS 42 5000 2000 3000 4000 5000 6000 AMPERE-T RNS www.shindengen.co.jp/smt/ 1685 842 2080 10 2000 4000 81 0 5 50 3810 10 1000 2750 5000 3000 100 50 50 10 500 S 6 S 10 50 5000 S 0 5180 100 4000 1000 S 4 500 FORCE[N] S 8 3000 SIZE874F 25 0 0 0.5 1 2 S 6 2000 2000 2000 1 10 S S S S S 4 1000 1000 AMPERE-T RNS 500 FORCE[N] 5 4000 SIZE870F 3000 3150 2230 1570 3000 AMPERE-T RNS SIZE700F 1000 2000 10 3660 3000 50 3 20 5 1760 10 S 6 100 4620 S 6 0 0.5 1 2 S 3 S 4 2 40 100 24 0 FORCE[N] S 4 AMPERE-T RNS 2000 S S S S 500 S 3 3210 2030 1015 1440 FORCE[N] 50 2500 S 2 S 3 100 2000 SIZE591F 1000 S 0 S 0.5 S 1 S 2 2000 1500 1480 S 0 S 0.5 S 1 1000 1000 SIZE590F 1000 3 500 AMPERE-T RN 1240 SIZE491F 700 500 5 3 2500 AMPERE-T RNS AMPERE-T RNS 10 11 0 2250 5 FORCE[N] 600 3 FORCE[N] 400 1425 16 0 1070 5 10 1000 2 10 756 5 2660 10 6000 AMPERE-T RNS 8000 S S S S 0.5 1 2 4 S S S S S 6 8 10 12 14