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F3SJ-A2100P25-TS

F3SJ-A2100P25-TS

  • 厂商:

    OMRON(欧姆龙)

  • 封装:

    -

  • 描述:

    F3SJ-A2100P25-TS

  • 详情介绍
  • 数据手册
  • 价格&库存
F3SJ-A2100P25-TS 数据手册
Safety Light Curtain F3SJ-A High-functional ADVANCED type supports finger protection and special applications. • Detection capability supports finger protection. • Equipped with wide variety of functions such as partial muting and blanking functions. • The system status can be checked with PC tool. Ordering Information Main Units Safety Light Curtain Application Detection capability Beam gap Operating range Protective height (mm) Finger protection Dia. 14 mm 9 mm 0.2 to 9 m 245 to 1,271 Hand protection Dia. 20 mm 15 mm 0.2 to 9 m 245 to 1,505 0.2 to 9 m 245 to 1,620 Hand/arm protection Leg/body protection, presence detection Dia. 30 mm Dia. 55 mm 25 mm 0.2 to 7 m 1,745 to 2,495 0.2 to 9 m 270 to 1,570 50 mm 0.2 to 7 m 1,670 to 2,470 Model PNP output F3SJ-AP14 F3SJ-AP20 F3SJ-AP30 F3SJ-AP55 NPN output *2 *2 *1 *1 F3SJ-AN14 F3SJ-AN20 F3SJ-AN30 F3SJ-AN55 Note: Connection cables are not included in the products. You must purchase optional connector cable. *1. Models with S-mark certification have an "-S" at the end of the model number. Example: F3SJ-A0245P30-S *2. The F3SJ-A--TS series with the suffix "-TS" are auto reset fixed models. Function settings using the setting console F39-MC21 or PC tool F39-GWUM for F3SJ cannot be performed. (Models with ditection capability 25 mm dia. are also available.) 1 F3SJ-A Safety Light Curtain Model List F3SJ-A20 Series (15 mm gap) F3SJ-A14 Series (9 mm gap) Model PNP Output NPN Output F3SJ-A0245P14 F3SJ-A0245N14 F3SJ-A0263P14 F3SJ-A0263N14 F3SJ-A0299P14 F3SJ-A0299N14 F3SJ-A0317P14 F3SJ-A0317N14 F3SJ-A0389P14 F3SJ-A0389N14 F3SJ-A0461P14 F3SJ-A0461N14 F3SJ-A0551P14 F3SJ-A0551N14 F3SJ-A0623P14 F3SJ-A0623N14 F3SJ-A0695P14 F3SJ-A0695N14 F3SJ-A0731P14 F3SJ-A0731N14 F3SJ-A0803P14 F3SJ-A0803N14 F3SJ-A0875P14 F3SJ-A0875N14 F3SJ-A0983P14 F3SJ-A0983N14 F3SJ-A1055P14 F3SJ-A1055N14 F3SJ-A1127P14 F3SJ-A1127N14 F3SJ-A1199P14 F3SJ-A1199N14 F3SJ-A1271P14 F3SJ-A1271N14 * Protective Height (mm) = Total sensor length Number of Beams 26 28 32 34 42 50 60 68 76 80 88 96 108 116 124 132 140 Protective Height (mm) * 245 263 299 317 389 461 551 623 695 731 803 875 983 1,055 1,127 1,199 1,271 F3SJ-A30 Series (25 mm gap) Model Model PNP Output NPN Output F3SJ-A0245P20 F3SJ-A0245N20 F3SJ-A0275P20 F3SJ-A0275N20 F3SJ-A0305P20 F3SJ-A0305N20 F3SJ-A0395P20 F3SJ-A0395N20 F3SJ-A0455P20 F3SJ-A0455N20 F3SJ-A0545P20 F3SJ-A0545N20 F3SJ-A0605P20 F3SJ-A0605N20 F3SJ-A0635P20 F3SJ-A0635N20 F3SJ-A0695P20 F3SJ-A0695N20 F3SJ-A0785P20 F3SJ-A0785N20 F3SJ-A0815P20 F3SJ-A0815N20 F3SJ-A0875P20 F3SJ-A0875N20 F3SJ-A0935P20 F3SJ-A0935N20 F3SJ-A1025P20 F3SJ-A1025N20 F3SJ-A1115P20 F3SJ-A1115N20 F3SJ-A1205P20 F3SJ-A1205N20 F3SJ-A1265P20 F3SJ-A1265N20 F3SJ-A1445P20 F3SJ-A1445N20 F3SJ-A1505P20 F3SJ-A1505N20 * Protective Height (mm) = Total sensor length Number of Beams 16 18 20 26 30 36 40 42 46 52 54 58 62 68 74 80 84 96 100 Protective Height (mm) * 245 275 305 395 455 545 605 635 695 785 815 875 935 1,025 1,115 1,205 1,265 1,445 1,505 F3SJ-A55 Series (50 mm gap) Number of Beams Protective Height (mm) * PNP Output NPN Output F3SJ-A0245P30 F3SJ-A0245N30 10 245 F3SJ-A0295P30 F3SJ-A0295N30 12 295 F3SJ-A0395P30 F3SJ-A0395N30 16 395 F3SJ-A0470P30 F3SJ-A0470N30 19 470 F3SJ-A0520P30 F3SJ-A0520N30 21 520 F3SJ-A0545P30 F3SJ-A0545N30 22 545 F3SJ-A0570P30 F3SJ-A0570N30 23 570 F3SJ-A0620P30 F3SJ-A0620N30 25 620 F3SJ-A0720P30 F3SJ-A0720N30 29 720 F3SJ-A0795P30 F3SJ-A0795N30 32 795 F3SJ-A0870P30 F3SJ-A0870N30 35 870 F3SJ-A0920P30 F3SJ-A0920N30 37 920 F3SJ-A0945P30 F3SJ-A0945N30 38 945 F3SJ-A0995P30 F3SJ-A0995N30 40 995 F3SJ-A1020P30 F3SJ-A1020N30 41 1,020 F3SJ-A1095P30 F3SJ-A1095N30 44 1,095 F3SJ-A1120P30 F3SJ-A1120N30 45 1,120 F3SJ-A1195P30 F3SJ-A1195N30 48 1,195 F3SJ-A1270P30 F3SJ-A1270N30 51 1,270 F3SJ-A1395P30 F3SJ-A1395N30 56 1,395 F3SJ-A1620P30 F3SJ-A1620N30 65 1,620 F3SJ-A1745P30 F3SJ-A1745N30 70 1,745 F3SJ-A1870P30 F3SJ-A1870N30 75 1,870 F3SJ-A1995P30 F3SJ-A1995N30 80 1,995 F3SJ-A2245P30 F3SJ-A2245N30 90 2,245 F3SJ-A2370P30 F3SJ-A2370N30 95 2,370 F3SJ-A2495P30 F3SJ-A2495N30 100 2,495 Model PNP Output NPN Output F3SJ-A0270P55 F3SJ-A0270N55 F3SJ-A0320P55 F3SJ-A0320N55 F3SJ-A0370P55 F3SJ-A0370N55 F3SJ-A0470P55 F3SJ-A0470N55 F3SJ-A0570P55 F3SJ-A0570N55 F3SJ-A0620P55 F3SJ-A0620N55 F3SJ-A0720P55 F3SJ-A0720N55 F3SJ-A0770P55 F3SJ-A0770N55 F3SJ-A0870P55 F3SJ-A0870N55 F3SJ-A0920P55 F3SJ-A0920N55 F3SJ-A0970P55 F3SJ-A0970N55 F3SJ-A1020P55 F3SJ-A1020N55 F3SJ-A1120P55 F3SJ-A1120N55 F3SJ-A1170P55 F3SJ-A1170N55 F3SJ-A1270P55 F3SJ-A1270N55 F3SJ-A1320P55 F3SJ-A1320N55 F3SJ-A1420P55 F3SJ-A1420N55 F3SJ-A1570P55 F3SJ-A1570N55 F3SJ-A1770P55 F3SJ-A1770N55 F3SJ-A1920P55 F3SJ-A1920N55 F3SJ-A2070P55 F3SJ-A2070N55 F3SJ-A2220P55 F3SJ-A2220N55 F3SJ-A2370P55 F3SJ-A2370N55 F3SJ-A2470P55 F3SJ-A2470N55 * Protective Height (mm) = Total sensor length Number of Beams 6 7 8 10 12 13 15 16 18 19 20 21 23 24 26 27 29 32 36 39 42 45 48 50 Protective Height (mm) * 270 320 370 470 570 620 720 770 870 920 970 1,020 1,120 1,170 1,270 1,320 1,420 1,570 1,770 1,920 2,070 2,220 2,370 2,470 * Protective Height (mm) = Total sensor length 2 F3SJ-A Accessories (Sold separately) Single-Ended Cable (2 cables per set, one for emitter and one for receiver) * For wiring with safety circuit such as single safety relay, safety relay unit, and safety controller Appearance Cable length Specifications Model 3m F39-JD3A 7m F39-JD7A 10 m M12 connector (8-pin) F39-JD10A 15 m F39-JD15A 20 m F39-JD20A * The cable for emitter and the cable for receiver are available separately. Add '-L' for emitter or '-D' for receiver to the end of the model number when you order. Single-Ended Cable for Emitter: F39-JDA-L, Single-Ended Cable for Receiver: F39-JDA-D Note: To extend the cable length to 20 m or more, add the F39-JDB Double-Ended Cable. Example: When using a cable of 30 m, connect the F39-JD10A Single-Ended Cable with the F39-JD20B Double-Ended Cable. Double-Ended Cable (2 cables per set, one for emitter and one for receiver) * Control unit for connection with F3SP-B1P, to extend the length under series connection (*) Appearance Cable length 0.5 m 1m 3m 5m 7m 10 m 15 m 20 m Specifications Model F39-JDR5B F39-JD1B F39-JD3B F39-JD5B F39-JD7B F39-JD10B F39-JD15B F39-JD20B M12 connector (8-pin) * The cable for emitter and the cable for receiver are available separately. Add '-L' for emitter or '-D' for receiver to the end of the model number when you order. Double-Ended Cable for Emitter: F39-JDB-L, Double-Ended Cable for Receiver: F39-JDB-D Note: To extend the cable length to 20 m or more, use the Double-Ended Cables in combination. Example: When using a cable of 30 m, connect the F39-JD10B Double-Ended Cable with the F39-JD20B Double-Ended Cable. Emitter Cable is grey F39-JDB-L (Grey) F39-JDA-L (Grey) Single-Ended Cable F39-JDA Double-Ended Cable F39-JDB Cable is black Receiver F39-JDB-D (Black) F39-JDA-D (Black) Power cable (included in the main unit. 2 cables per set, one for emitter and one for receiver) Appearance Cable Length Model F39-JJR3K 0.3 m Note: This product is for F3SJ-A only. Series-connection Cable (2 cables per set, for emitter and receiver) Type Appearance Cable Length Model 0.3 m F39-JJR3W *1 0.06 m F39-JJR06L *1 0.15 m F39-JJR15L *1 Series connection cable Side-by-side Series connection cable Application For series connection *2 When using the Water-resistant Case. *3 Dedicated cable to materialize series connection with minimum length without connector cable of the main sensor unit *1. This product is for F3SJ-A only. *2. For series connection with minimum length, use F39-JJR06L or F39-JJR15L. *3. When using the F39-EJ-L/D Water-resistant Case in series connection configurations, use the special series connection cables for the Water-resistant Case. Refer to page 8 for details. Note: The Double-Ended Cable (up to 15 m: F39-JD15B) can be added to extend the cable length between the series-connected sensors. Cable length between sensors: 15 m max. (not including series connection cable (F39-JJR3W or F39-JJRL) and power cable) Emitter Remove the cap Cable is grey F39-JD@B-L (Grey) Double-Ended Cable F39-JD@B Receiver Cable is black F39-JD@B-D (Black) Emitter Series connection cable for extension F39-JJR3W Receiver Remove the cap 3 Cable is grey Cable is black F3SJ-A Simple wiring connector system (Order the F39-CN5 and Cables for Simple Wiring.) Simple wiring connector Appearance Model F39-CN5 Application F3SJ-A Receiver F3SJ-A Emitter To reduce wiring Simple Wiring Connector F39-CN5 Double-Ended Cable F39-JD@B-L(Gray) Single-Ended Cable F39-JD@A-D(Black) Cable for simple wiring * (2 cables per set, one double-ended cable and one single-ended cable) Appearance Contents Cable length Model Double-Ended Cable F39-JD3B-L 3m F39-JD0303BA Single-Ended Cable F39-JD3A-D 3m Double-Ended Cable F39-JD3B-L 3m F39-JD0307BA Single-Ended Cable F39-JD7A-D 7m Double-Ended Cable F39-JD3B-L 3m F39-JD0310BA Single-Ended Cable F39-JD10A-D 10 m Double-Ended Cable F39-JD5B-L 5m F39-JD0503BA Single-Ended Cable F39-JD3A-D 3m Double-Ended Cable F39-JD5B-L 5m F39-JD0507BA Single-Ended Cable F39-JD7A-D 7m Double-Ended Cable F39-JD5B-L 5m F39-JD0510BA Single-Ended Cable F39-JD10A-D 10 m Double-Ended Cable F39-JD10B-L 10 m F39-JD1003BA Single-Ended Cable F39-JD3A-D 3m Double-Ended Cable F39-JD10B-L 10 m F39-JD1007BA Single-Ended Cable F39-JD7A-D 7m Double-Ended Cable F39-JD10B-L 10 m F39-JD1010BA Single-Ended Cable F39-JD10A-D 10 m Note: A double-ended cable and single-ended cable with other cable lengths than those listed above can also be used in combination. Please contact your OMRON sales representative for details. * Although the double-ended cable for the emitter is used for the emitter in the above figure, it can also be used for the receiver. 4 F3SJ-A Relays with Forcibly Guided Contacts Type Appearance Specifications • Nodes: 4 • Contact type: 2A2B • Rated switch load: 250 VAC 6 A, 30 VDC 6 A • Nodes: 4 • Contact type: 3NO+1NC • Rated switch load: 250 VAC 6 A, 30 VDC 6 A • Nodes: 6 • Contact type: 4NO+2NC • Rated switch load: 250 VAC 10 A, 30 VDC 10 A • Nodes: 6 • Contact type: 3NO+3NC • Rated switch load: 250 VAC 10 A, 30 VDC 10 A G7SA Relays with Forcibly Guided Contacts G7S--E Relays with Forcibly Guided Contacts Model G7SA-2A2B G7SA-3A1B G7S-4A2B-E G7S-3A3B-E Remarks For details on other models or socket models, refer to the OMRON's website. For details on other models or socket models, refer to the OMRON's website. Control Unit (Can not be used as a muting system) (Dedicated PNP output type) * Appearance Output Relay, 3NO+1NC Model Remarks F3SP-B1P * For connection with F3SJ-A, use a double-ended cable F39-JDB. * F3SJ for NPN output type cannot be connected. Wire-saving Devices Type Appearance Connector Terminal Box/ Muting Terminals Safety Terminal Relays Specifications Model with PNP Muting Sensor Output Model with PNP Override Input Model with NPN Muting Sensor Output Model with NPN Override Input PNP output relay, SPDT-NO Model Remarks F39-TC5P01 F39-TC5P02 F39-TC5N01 Significantly reduces amount of wiring between Safety Light Curtains and Muting Sensors. IP67 model for mounting at Sensor installation site. For details, refer to the OMRON's website. F39-TC5N02 F3SP-T01 * * F3SJ for NPN output type cannot be connected. Significantly reduces amount of wiring between Safety Light Curtains and Muting Sensors. For details, refer to the OMRON's website. Note: Orders for F39-TC5 Series and F3SP-T01 have been discontinued at the end of May 2020. Laser Pointer Appearance 5 Output Model Laser Pointer for F3SJ F39-PTJ F3SJ-A Dedicated External Indicator Set (can be connected to either an emitter or a receiver) Appearance Color Model Remarks Red F39-A01PR-PAC Indicator (red), mounting bracket 1 set, and dedicated connection cable (0.1 m) Green F39-A01PG-PAC Indicator (green), mounting bracket 1 set, and dedicated connection cable (0.1 m) Yellow F39-A01PY-PAC Indicator (yellow), mounting bracket 1 set, and dedicated connection cable (0.1 m) Note: 1. For indication timing (operation mode), see "Specifications" on page 9. 2. This product is for F3SJ-A only. General External Indicator Cable Appearance Cable Length Specifications Model Cable to connect top of the main unit and an off-the-shelf external indicator (2-wire) 3m F39-JJ3N * * This product is for F3SJ-A only. Spatter Protection Cover (2 cables per set, one for emitter and one for receiver) (10% Operating Range Attenuation) Appearance Model F39-HJ *1 *2 *1. This product is for F3SJ-A only. *2. The same 4-digit numbers as the protective heights ( in the light curtain model names) are substituted by in the model names. Mirrors (12% Operating Range Attenuation) Appearance Mirror material Glass mirror Width (mm) 145 Thickness (mm) 32 Length L (mm) Model 445 F39-MLG0406 648 F39-MLG0610 749 F39-MLG0711 953 F39-MLG0914 1,105 F39-MLG1067 1,257 F39-MLG1219 1,499 F39-MLG1422 1,702 F39-MLG1626 1,905 F39-MLG1830 2,210 F39-MLG2134 Remarks 2 sets of cylinder mounting brackets and 4 screws are included. Test rod (Sold separately) Diameter 14mm dia. 20mm dia. 25mm dia. 30mm dia. Model F39-TRD14 F39-TRD20 F39-TRD25 F39-TRD30 6 F3SJ-A Sensor Mounting Brackets (Sold separately) Appearance Specifications Standard mounting bracket (for top/bottom) Model Application Remarks 2 for an emitter, 2 for a receiver, total of 4 per set F39-LJ1 (provided with the F3SJ) F39-LJ2 Use these small-sized brackets when performing side mounting 2 for an emitter, with standard mounting brackets, so 2 for a receiver, that total of 4 per set they do not protrude from the detection surface. F39-LJ3 Use these brackets for mounting on any place without using standard bracket. F39-LJ3-SN When replacing the F3SN with the F3SJ, the mounting hole pitches in the Intermediate Brackets are not the 1 set with 2 pieces same. This Spacer is placed between the mounting holes to mount the F3SJ. Top/bottom bracket B (Mounting hole pitch 19 mm) F39-LJ4 Mounting bracket used when replacing existing area sensors (other than F3SN or F3WN) with the 2 for an emitter, F3SJ. 2 for a receiver, For front mounting. total of 4 per set Suitable for mounting hole pitch of 18 to 20 mm. Bracket for replacing short-length F3SN F39-LJ5 Mounting bracket used when an F3SN with protective height of 300 mm or less is replaced by an F3SJ. Space-saving mounting bracket F39-LJ8 Use these brackets to mount facing 2 for an emitter, inward. Length is 12 mm shorter than 2 for a receiver, the standard F39-LJ1 bracket. total of 4 per set Mounting bracket used when replacing an F3W-C. F39-LJ9 Mounting bracket used when replacing existing F3W-C series area 2 for an emitter, sensors with the F3SJ. 2 for a receiver, For front mounting or side mounting. total of 4 per set Mounting hole pitch 16 mm. Top/bottom bracket C (mounting hole pitch 13 mm) F39-LJ11 Mounting bracket used when replacing existing area sensors having a mounting pitch of 13 mm with the F3SJ. Flat side mounting bracket Free-location mounting bracket (also used as standard intermediate bracket) F3SN Intermediate Bracket Replacement Spacers Two brackets per set (For details about the number of required brackets, refer to page 89.) 2 for an emitter, 2 for a receiver, total of 4 per set 2 for an emitter, 2 for a receiver, total of 4 per set End Cap Appearance Model F39-CN9 Remarks For both emitter and receiver. The End Cap can be purchased if lost. * (Case: Black) * This product is for F3SJ-A only. Key Cap for Muting Appearance Model F39-CN6 * This product is for F3SJ-A only. 7 Remarks A cap to be attached to the main unit to enable muting function. * Attach it to either an emitter or a receiver.(Case: orange) F3SJ-A Setting Tools *1 Type Appearance Model "SD Manager" Setting Support Software for the F3SJ Setting Console Remarks F39-GWUM *2 Accessories: SD Manager CD-ROM (1), F39-CN1 Branch Connector (1), Connector Cap (1), 2-m Dedicated Cable (1), 0.3-m Dedicated Cable with Plug (1), Instruction Manual F39-MC21 *3 Accessories: F39-CN1 Branch Connector (1), Connector Cap (1), 2-m Dedicated Cable (1), 0.3-m Dedicated Cable with Plug (1), Instruction Manual *1. The setting tools described above can be connected only to F3SJ-A models with built-in software of Ver. 2 or later. Note that the setting tools cannot be used with products shipped prior to December 2005. The setting tools cannot be used for setting parameters on the F3SJ-A-TS series, but the monitoring function can be used. *2. The PC tool supports Windows XP/7. *3. This product is for use only with the F3SJ-A.It cannot be connected to conventional models of the F3SJ-E/B or F3SN-A series. Protective Bar *1 *2 Type Appearance Protective Bar Intermediate brackets for side mounting Model Remarks F39-PJ-S *3 Main unit bracket (1), rear mounting brackets (2), including intermediate brackets to match protective height (0 to 2). F39-PJ-MS For side mounting, order to suit the desired protective height. Protective height of up to 1,000 mm: 0 intermediate brackets Protective height of 1,001 to 2,000 mm: 1 intermediate bracket Protective height of 2,001 mm or more: 2 intermediate brackets *1. This product is for F3SJ-A only. *2. When using for both emitter and receiver, order two sets. *3. The same four digits indicating protective height that are used in the Sensor model number () are used in the part of the Protector model number. Water-resistant Case (Set of 1 tube, packing, and dedicated connector cable) *1 *2 *3 Appearance --*1. *2. *3. *4. *5. Specifications Model Remarks For emitter F39-EJ-L *4 Includes gray cable for emitter. For receiver F39-EJ-D *4 Includes black cable for receiver. Rear Mounting Brackets F39-EJ-R *5 Top/bottom 1 each, total of 2 Side Mounting Brackets F39-EJ-S *5 Top/bottom 1 each, total of 2 Series connection cable (for emitter) F39-JJR3WE-L Series connection cable (for receiver) F39-JJR3WE-D Purchase additionally for series connection when using the Water-resistant Case. This product is for F3SJ-A only. When using for both emitter and receiver, order two sets. There are restrictions to the application conditions depending on the protective height of the Curtain. Refer to the Water-resistant Case on page 12. The same four digits indicating protective height that are used in the Sensor model number () are used in the part of the Protector model number. Be sure to purchase brackets with the Case to match the mounting direction (rear or side). 8 F3SJ-A Specifications (For details, refer to the instruction manual or User's manual.) F3SJ-AP14/P20/P30/P55/N14/N20/N30/N55 Model PNP Output F3SJ-AP14 F3SJ-AP20 F3SJ-AP30 F3SJ-AP55 NPN Output F3SJ-AN14 F3SJ-AN20 F3SJ-AN30 F3SJ-AN55 Sensor type Type 4 safety light curtain Version Ver. 2 Setting tool connection Connectable Safety category Safety purpose of category 4, 3, 2, 1, or B Detection capability Opaque objects 14 mm in diameter Opaque objects 20 mm in diameter Opaque objects 30 mm in diameter Opaque objects 55 mm in diameter Beam gap (P) 9 mm 15 mm 25 mm 50 mm Number of beams (n) 26 to 140 16 to 100 10 to 100 6 to 50 Protective height (PH) 245 to 1,271 mm 245 to 1,505 mm 245 to 2,495 mm 270 to 2,470 mm Lens diameter Diameter 5 mm Operating range * 0.2 to 9 m (protective height 1,640 mm max.), 0.2 to 7 m (protective height 1,655 mm min.) (Depending on the setting tool, the detection distance can be shortened to 0.5 m.) Response time ON to OFF (under stable light incident condition) (For details, see "Response Time" OFF to ON on page 76.) Startup waiting time 1 set, 0245 to 983: 11 ms to 17.5 ms max. 1,055 or higher: 20 ms to 25 ms max. 1 set, 0245 to 1205: 10 ms to 15 ms max. 1 set: 10 ms to 17.5 ms 1235 or higher: 17.5 ms to 22.5 ms max. max. 1 set, 0245 to 983: 44 ms to 70 ms max. 1,055 or higher: 80 ms to 100 ms max. 1 set, 0245 to 1205: 40 ms to 60 ms max. 1235 or higher: 70 ms to 90 ms max. 1 set: 10 ms to 13 ms max. 1 set: 40 ms to 70 ms max. 1 set: 40 ms to 52 ms max. 2 s max. (2.2 s max. for series connection) Power supply voltage (Vs) 24 VDC ±20% (ripple p-p10% max.) Current consumption (no load) Emitter To 50 beams: 76 mA max., 51 to 100 beams: 106 mA max., 101 to 150 beams: 130 mA max., 151 to 180 beams: 153 mA max., 201 to 234 beams: 165 mA max. Receiver To 50 beams: 68 mA max., 51 to 100 beams: 90 mA max., 101 to 150 beams: 111 mA max., 151 to 180 beams: 128 mA max., 201 to 234 beams: 142 mA max. Light source (emitted wavelength) Infrared LED (870 nm) Effective aperture angle (EAA) Safety outputs (OSSD) Auxiliary output 1 (Non-safety output) Based on IEC 61496-2.Within ±2.5° for both emitter and receiver when the detection distance is 3 m or over PNP outputs Two PNP transistor outputs, load current 300 mA max., residual voltage 2 V max. (except for voltage drop due to cable extension), allowable capacity load 2.2 F, leak current 1 mA max. (This can be different from traditional logic (ON/OFF) because safety circuit is used.) NPN Output Two NPN transistor outputs, load current 300 mA max., residual voltage 2 V max. (except for voltage drop due to cable extension), allowable capacity load 2.2 F, leak current 2mA max. (This can be different from traditional logic (ON/OFF) because safety circuit is used.) PNP outputs One PNP transistor output, load current 300 mA max., residual voltage 2 V max. (except for voltage drop due to cable extension), leak current 1 mA max. NPN output One NPN transistor output, load current 300 mA max., residual voltage 2 V max. (except for voltage drop due to cable extension), leak current 1 mA max. Auxiliary output 2 PNP outputs (Non-safety output. Function for Basic System.) NPN output External indicator output (Non-safety output) One PNP transistor output, load current 50 mA max., residual voltage 2 V max. (except for voltage drop due to cable extension), leak current 1 mA max. One NPN transistor output, load current 50 mA max., residual voltage 2 V max. (except for voltage drop due to cable extension), leak current 1 mA max. Available indicators • Incandescent lamp: 24 VDC, 3 to 7 W • LED lamp: Load current 10 mA to 300 mA max., leak current 1 mA max. (To use an external indicator, an F39-JJ3N universal indicator cable or an F39-A01P-PAC dedicated external indicator kit is required.) Receiver Safety output 1, 2: ON when receiving light Auxiliary output 1: Inverse of safety output signals (Operation mode can be changed with the setting tool.) External indicator output 1: Inverse of safety output signals for a basic system (Operation mode can be changed with the setting tool.), ON when muting/override for a muting system (Operation mode can be changed with the setting tool.) Emitter Auxiliary output 2: Turns ON when the point of 30,000 operating hours is reached (Operation mode can be changed with the setting tool.) External indicator output 2: ON when lock-out for a basic system (Operation mode can be changed with the setting tool.) ON when muting/override for a muting system (Operation mode can be changed with the setting tool.) Output operation mode * Use of the Spatter Protection Cover causes a 10% maximum sensing distance attenuation. 9 F3SJ-A Model PNP output NPN output PNP output Input voltage NPN output Emitter Indicator Receiver Mutual interference prevention function Series connection Test function Safety-related functions Connection method Protection circuit Ambient temperature Ambient humidity Operating ambient light intensity Insulation resistance Withstand voltage Degree of protection Vibration resistance Shock resistance Material Net Weight *1 Gross Weight *1 F3SJ-AP14 F3SJ-AP20 F3SJ-AP30 F3SJ-AP55 F3SJ-AN14 F3SJ-AN20 F3SJ-AN30 F3SJ-AN55 Test input, Interlock select input, Reset input, Muting input: ON voltage: 9 V to Vs (short circuit current: approx. 2.0 mA), OFF voltage: 0 to 1.5 V, or open External device monitoring input: ON voltage: 9 V to Vs (short circuit current: approx. 3.5 mA), OFF voltage:open Note: The Vs indicates a voltage value in your environment. Test input, Interlock select input, Reset input, Muting input: ON voltage: 0 to 1.5 V (short-circuit current: approx. 1.5 mA), OFF voltage: 9 V to Vs, or open External device monitoring input: ON voltage: 0 to 1.5 V (short-circuit current: approx. 4.0 mA), OFF voltage:open Note: The Vs indicates a voltage value in your environment. Light intensity level indicators (green LED x 2, orange LED x 3): ON based on the light intensity Error mode indicators (red LED x 3): Blink to indicate error details Power indicator (green LED x 1): ON while power is on Interlock indicator (yellow LED x 1): ON while under interlock, blinks at lockout. External device monitoring indicator (muting input 1 indicator), Blanking/test indicator (muting input 2 indicator) (green LED x 2): ON/flash according to function Light intensity level indicators (green LED x 2, orange LED x 3): ON based on the light intensity Error mode indicators (red LED x 3): Blink to indicate error details OFF output indicator (red LED x 1): ON when safety output is OFF, blinks at lockout. ON output indicator (green LED x 1): ON while safety output is ON Muting error indicator, Blanking /test indicator (green LED x 2): ON/flash according to function Interference light prevention algorithm, sensing distance change function Time division emission by series connection • Number of connections: up to 4 sets (F3SJ-A only) F3SJ-E, F3SJ-B and F3SJ-TS cannot be connected. • Total number of beams: up to 400 beams • Cable length between sensors: 15 m max. (not including series connection cable (F39-JJR3W or F39-JJRL) and power cable) • Response time under connection: Refer to page 76 • Self test (at power-ON and at power distribution) • External test (emission stop function by test input) • Start interlock, restart interlock (Must be set with a setting tool when the muting function is used.) • External device monitor • Muting (Lamp burnout detection, override function included. F39-CN6 key cap for muting is required.) • Fixed blanking (must be set by a setting tool) • Floating blanking (must be set by a setting tool) Connector method (M12, 8-pin) Output short-circuit protection, and power supply reverse polarity protection Operating: -10 to 55°C (no icing), Storage: -30 to 70°C Operating: 35% to 85% (no condensation), Storage: 35% to 95% Incandescent lamp: receiving-surface light intensity of 3,000 lx max., Sunlight: receiving-surface light intensity of 10,000 lx max. 20 M min. (at 500 VDC) 1,000 VAC 50/60 Hz, 1 min IP65 (IEC 60529) Malfunction: 10 to 55 Hz, Multiple amplitude of 0.7 mm, 20 sweeps in X, Y, and Z directions Malfunction: 100 m/s2, 1,000 times each in X, Y, and Z directions Casing (including metal parts on both ends): Aluminum, zinc die-cast Cap: ABS resin, Optical cover: PMMA resin (acrylic), Cable: Oil resistant PVC Calculate using the following expressions: (1) For F3SJ-A14, weight (g) = (protective height) x 1.67 + 215 (2) For F3SJ-A20, weight (g) = (protective height) x 1.5 + 217 (3) For F3SJ-A30, weight (g) = (protective height) x 1.41 + 220 (4) For F3SJ-A55, weight (g) = (protective height) x 1.3 + 220 Calculate using the following expressions: (1) For F3SJ-A14, weight (g) = (protective height) x 1.7 +  (2) For F3SJ-A20/F3SJ-A30, weight (g) = (protective height) x 1.5 +  (3) For F3SJ-A55, weight (g) = (protective height) x 1.4 +  The values for  are as follows: Protected height 245 to 596 mm: = 1,100 protected height 1,660 to 2,180 mm: = 2,400 Protected height 600 to 1,130 mm: = 1,500 protected height 2,195 to 2,500 mm: = 2,600 Protected height 1,136 to 1,658 mm: = 2,000 *1. The net weight is the weight of an emitter and a receiver. *2. The gross weight is the weight of an emitter, a receiver, included accessories and a package. 10 F3SJ-A PNP output NPN output Model Accessories Applicable standards * F3SJ-AP14 F3SJ-AP20 F3SJ-AP30 F3SJ-AP55 F3SJ-AN14 F3SJ-AN20 F3SJ-AN30 F3SJ-AN55 Instruction manual, standard mounting bracket (F39-LJ1 bracket for top/bottom mounting), mounting brackets (intermediate) (*), error mode label, Quick Installation Manual (QIM) *. Number of intermediate brackets depends on protective height of F3SJ. • For protective height from 600 to 1,130 mm : 1 set for each of the emitter and receiver is included • For protective height from 1,136 to 1,658 mm : 2 sets for each of the emitter and receiver are included • For protective height from 1,660 to 2,180 mm : 3 sets for each of the emitter and receiver are included • For protective height from 2,195 to 2,500 mm : 4 sets for each of the emitter and receiver are included IEC 61496-1, EN 61496-1, UL 61496-1, Type 4 ESPE (Electro-Sensitive Protective Equipment) IEC 61496-2, EN 61496-2, UL 61496-2, Type 4 AOPD (Active Opto-electronic Protective Devices) IEC 61508-1 to -3, EN 61508-1 to -3 SIL3 ISO 13849-1: 2015, EN ISO 13849-1: 2015 (PLe/Safety Category 4) UL 508, UL 1998, CAN/CSA C22.2 No.14, CAN/CSA C22.2 No.0.8 * Refer to Safety Precautions for information about Legislation and Standards. Response Time Model F3SJ-A14 Series F3SJ-A20 Series F3SJ-A30 Series F3SJ-A55 Series Response time ms (ON to OFF) Response time ms (OFF to ON) 245 to 263 Protected Height (mm) 26 to 28 Number of Beams 11 44 281 to 389 30 to 42 12 48 407 to 497 44 to 54 13 52 515 to 605 56 to 66 14 56 623 to 731 68 to 80 15 60 767 to 983 84 to 108 17.5 70 1,055 to 1,271 116 to 140 20 80 245 16 10 40 275 to 425 18 to 28 11 44 455 to 635 30 to 42 12 48 665 to 815 44 to 54 13 52 845 to 995 56 to 66 14 56 1,025 to 1,205 68 to 80 15 60 1,235 to 1,505 82 to 100 17.5 70 245 to 395 10 to 16 10 40 420 to 720 17 to 29 11 44 745 to 1,045 30 to 42 12 48 1,070 to 1,295 43 to 52 13 52 1,395 to 1,620 56 to 65 14 56 1,745 to 1,995 70 to 80 15 60 2,120 to 2,495 85 to 100 17.5 70 270 to 770 6 to 16 10 40 820 to 1,420 17 to 29 11 44 1,470 to 2,070 30 to 42 12 48 2,120 to 2,470 43 to 50 13 52 Note: Use the following expressions for series connection. For 2-set series connection: Response time (ON to OFF): Response time of the 1st unit + Response time of the 2nd unit - 1 (ms), Response time (OFF to ON): Response time calculated by the above x 4 (ms) For 3-set series connection: Response time (ON to OFF): Response time of the 1st unit + Response time of the 2nd unit + Response time of 3rd unit - 5 (ms), Response time (OFF to ON): Response time calculated by the above x 5 (ms) (For models with the "-TS" suffix, multiply the response time obtained by the above x 5 (ms), or use 200 ms, whichever is less.) For 4-set series connection: Response time (ON to OFF): Response time of the 1st unit + Response time of the 2nd unit + Response time of the 3rd unit + Response time of the 4th unit - 8 (ms) Response time (OFF to ON): Response time calculated by the above x 5 (ms) Cable Extension Length Total cable extension length must be no greater than the lengths described below. When the F3SJ and an external power supply are directly connected, or when the F3SJ is connected to a G9SA-300-SC. Condition Using incandescent lamp for auxiliary output and external indicator output Not using incandescent lamp * 45 m 100 m 1 set 40 m 60 m 2 sets 30 m 45 m 3 sets 20 m 30 m 4 sets When connected to the F3SP-B1P Condition Using incandescent lamp for external indicator output 2 Using incandescent lamp for external indicator output 1 Using incandescent lamp for auxiliary output 1 Not using incandescent lamp * 40 m 1 set 30 m 2 sets 25 m 3 sets 20 m 60 m 45 m 30 m 20 m 100 m 60 m 45 m 30 m 4 sets Note: Keep the cable length within the rated length. Failure to do so is dangerous as it may prevent safety functions from operating normally. * The F39-A01P-PAC Dedicated External Indicator Set uses LEDs. Refer to the cable extension lengths for "Not using incandescent lamp". 11 F3SJ-A Accessories Control Unit Item Model Applicable sensor Power supply voltage Power consumption Operation time Response time Number of contacts Relay output Rated load Rated current Between sensors Connection type Others Weight (packed state) Accessories F3SP-B1P F3SJ-B/A (Only for PNP output type) * 24 VDC±10% DC1.7 W max. (not including sensor's current consumption) 100 ms max. (not including sensor's response time) 10 ms max. (not including sensor's response time) 3NO+1NC 25 VAC 5 A (cos  = 1), 30 VDC 5 A L/R = 0 ms 5A M12 connector (8-pin) Terminal block Approx. 280 g Instruction manual * NPN output type cannot be connected. Also, the system cannot be used as a muting system. Laser Pointer Item Model Applicable sensor Power supply voltage Battery Battery life * Light source Spot diameter (typical value) Ambient temperature Ambient humidity Material Weight Accessories F39-PTJ F3SJ Series 4.65 or 4.5 VDC Three button batteries (SR44 or LR44) SR44: 10 hours of continuous operation, LR44: 6 hours of continuous operation Red semiconductor laser (wavelength: 650 nm, 1 mW max. JIS class 2, EN/IEC class 2, FDA class II) 6.5 mm at 10 m Operating: 0 to 40°C Storage: -15 to 60°C (with no icing or condensation) Operating and storage: 35% to 85% (with no condensation) Laser module case: aluminum Mounting bracket: aluminum and stainless Approx. 220 g (packed) Laser safety standard labels (EN: 1, FDA: 3) Button batteries (SR44: 3), instruction manual * Battery life varies depending on a battery used. Dedicated External Indicator Set Item Model Applicable sensor Light source Power supply voltage Consumption current Connection type Set details F39-A01PR-PAC F39-A01PG-PAC F39-A01PY-PAC F3SJ-A (Common for PNP/NPN output type. Can be attached to emitters and/or receivers) Red LED Green LED Yellow LED 24 VDC±10% (supplied by sensor) 50 mA max. (supplied by sensor) Dedicated accessory connector cable (Sensor side: Dedicated 10-pin connector, Indicator side: M12 8-pin connector) Indicator (yellow), Indicator (green), Indicator (red), Dedicated connector cable (0.1 m), Dedicated connector cable (0.1 m), Dedicated connector cable (0.1 m), Dedicated mounting bracket (1 for each) Dedicated mounting bracket (1 for each) Dedicated mounting bracket (1 for each) Water-resistant Case Item Applicable sensor Ambient temperature Mounting direction Operating range Degree of protection Material Weight (packed state) Model F39-EJ-L, F39-EJ-D F3SJ-A Series Curtains with a protective height of 600 F3SJ-A Series Curtains with a protective height of 605 mm or shorter. mm or longer. -10 to 55°C (operation and storage) 13 to 33°C (operation and storage) No restrictions Vertical direction only (see following diagram) 0.2 to 7 m (for a protective height of 1,631 mm max.), 0.2 to 5 m (for a protective height of 1,655 mm min.) IP67 (IEC 60529) (When assembled according to the application precautions) Case: Acrylic resin, Rubber: Nitrile rubber, M5 bolt: SUSXM7, M4 bolt: SUS316L, Cable: Oil-resistant PVC, Plate: SUS304, Mounting Bracket (optional): SUS304 Calculation formula: Weight (g) = 1.5 x + 300 (  stands for the four digits of the model number (protective height)) (The optional Mounting Brackets come in a set of two, and weigh 120 g. This weight is not included in the above formula.) Note: 1. Vibration When using Curtains with a protective height of 605 mm or more, the vibration performance of the applicable sensor is reduced. Do not use these Curtains in locations that are subject to vibration. 2. Operating range When using these cases, the operating range of the applicable sensor is reduced. Check the specifications prior to use. 3. Mounting direction Mounting direction (the cable end and terminating end can be posiWhen using Curtains with a protective height of 605 mm or more, tioned in either direction) some slackness occurs due to the weight of the Curtain. Horizontal direction Vertical direction Terminating end For this reason, mount these Curtains only in the vertical direction. Terminating end Cable end Cable end 12 F3SJ-A Connections Basic Wiring Diagram [PNP Output] Wiring when using manual reset mode, external device monitoring KM1 K1 S2 *1 KM1 Shield 0 V (Blue) Safety output 1 (Black) Auxiliary output 1 (Yellow) KM2 +24 VDC Power supply 0V K2 *1. Use a switch for small loads (Input specifications: 24 V, 1.0 mA max.). *2. F3SJ operates even when K2 is not connected. *2 S1 *1 K1 KM1 Shield 0 V (Blue) Safety output 1 (Black) +24 V (Brown) +24 V (Brown) Reset input (Yellow) Test input (Black) Interlock select input (White) 0 V (Blue) Auxiliary output 2 (Red) (Pink) Communication line (−) External device monitoring input (Red) Emitter (Gray) Communication line (+) Shield * F3SJ can operate even if K1 is not connected. If K1 is not required, connect auxiliary output 1 to external device monitoring input only. (Gray) Communication line (+) (Pink) Communication line (−) Wiring for auto reset mode • The auto reset mode will be enabled when the emitter is wired as shown below. S1 : External test switch (connect to 0 V if a switch is not required) S3 : Lockout reset switch (connect to 24 V if a switch is not required) K2 : Load or PLC, etc. (for monitoring) KM1, KM2 : Safety relay with force-guided contact (G7SA) or magnetic contactor : Load or PLC, etc. (for monitoring) K1 Receiver KM2 *2 Safety output 2 (White) +24 V (Brown) External device monitoring input (Red) +24 V (Brown) Test input (Black) S1 *1 (Pink) Communication line (−) Wiring when the external device monitoring function will not be used • Use a setting tool to set the external device monitoring function to "Disabled." • When using an auxiliary output 1 that has not been changed (output operation mode is "Safety Output Information," and reverse output mode is "Enabled), the external device monitoring function will be disabled when auxiliary output 1 and the external device monitoring input are connected as shown below. Auxiliary output 1 (Yellow) *2 Reset input (Yellow) Auxiliary output 2 (Red) K2 Interlock select input (White) Shield 0 V (Blue) (Gray) Communication line (+) Safety output 2 (White) Emitter Receiver S1 : External test switch (connect to 0 V if a switch is not required) S2 : Interlock/lockout reset switch KM1, KM2 : Safety relay with force-guided contact (G7SA) or magnetic contactor K1, K2 : Load or PLC, etc. (for monitoring) *1. Use a switch for small loads (input specifications: 24 V, 1.0 mA max.). *2. F3SJ operates even when K1 and K2 are not connected. KM2 * +24 VDC Power supply 0V S3 *1 +24 VDC Power supply 0V [NPN Output] Shield KM2 KM2 *2 +24 VDC Power supply 0V * F3SJ can operate even if K1 is not connected. If K1 is not required, connect auxiliary output 1 to external device monitoring input only. (Gray) Communication line (+) *1. Use a switch for small loads (Input specifications: 24 V, 1.0 mA max.). *2. F3SJ operates even when K2 is not connected. 13 K2 *2 S1 *1 +24 V (Brown) Reset input (Yellow) Test input (Black) 0 V (Blue) Interlock select input (White) S1 : External test switch (connect to 24 V if a switch is not required) S3 : Lockout reset switch (connect to 0 V if a switch is not required) K2 : Load or PLC, etc. (for monitoring) Auxiliary output 2 (Red) Shield (Pink) Communication line (−) K1 KM1 Shield 0 V (Blue) Safety output 2 (White) Safety output 1 (Black) +24 V (Brown) (Gray) Communication line (+) (Pink) Communication line (−) Emitter Wiring for auto reset mode • The auto reset mode will be enabled when the emitter is wired as shown below. KM1, KM2 : Safety relay with force-guided contact (G7SA) or magnetic contactor K1 : Load or PLC, etc. (for monitoring) Receiver KM1 0 V (Blue) Safety output 1 (Black) KM1 K1 Auxiliary output 1 (Yellow) S2 *1 Auxiliary output 1 (Yellow) External device monitoring input (Red) +24 V (Brown) +24 V (Brown) Reset input (Yellow) Test input (Black) S1 *1 (Pink) Communication line (-) Wiring when the external device monitoring function will not be used • Use a setting tool to set the external device monitoring function to "Disabled." • When using an auxiliary output 1 that has not been changed (output operation mode is "Safety Output Information," and reverse output mode is "Enabled), the external device monitoring function will be disabled when auxiliary output 1 and the external device monitoring input are connected as shown below. External device monitoring input (Red) K2 *2 Interlock select input (White) Auxiliary output 2 (Red) Shield 0 V (Blue) (Gray) Communication line (+) S1 : External test switch (connect to 24 V if a switch is not required) S2 : Interlock/lockout reset switch KM1, KM2 : Safety relay with force-guided contact (G7SA) or magnetic contactor K1, K2 : Load or PLC, etc. (for monitoring) *1. Use a switch for small loads (input specifications: 24 V, 1.0 mA max.). *2. F3SJ operates even when K1 and K2 are not connected. Safety output 2 (White) Emitter Receiver Wiring when using manual reset mode, external device monitoring KM2 * +24 VDC Power supply 0V S3 *1 +24 VDC Power supply 0V F3SJ-A Basic Wiring Diagram for Muting System [PNP Output] Wiring when using muting and external device monitoring functions *4 M1 Emitter Receiver *4 S2 *1*2 KM1 K1 KM1 KM2 *3 *4 Shield 0 V (Blue) Safety output 2 (White) Safety output 1 (Black) Auxiliary output 1 (Yellow) +24 V (Brown) +24 V (Brown) Reset input (Yellow) Test input (Black) A1 S1 *5 *1 (Pink) Communication line (-) External device monitoring input (Red) B1 *5 Muting input 1 (White) 0 V (Blue) Muting input 2 (Red) Shield (Gray) Communication line (+) When external device monitoring function is not required • Use a setting tool to set the external device monitoring function to "Disabled." • When using an auxiliary output 1 that has not been changed (output operation mode is "Safety Output Information," and reverse output mode is "Enabled), the external device monitoring function will be disabled when auxiliary output 1 and the external device monitoring input are connected. KM2 +24 VDC Power supply 0V S1 S2 A1 B1 KM1, KM2 K1 M1 : External test switch (connect to 0 V if a switch is not required) : Lockout reset switch (connect to 24 V if a switch is not required) : Contact by muting sensor A1 : Contact by muting sensor B1 : Safety relay with force-guided contact (G7SA) or magnetic contactor : Load or PLC, etc. (for monitoring) : Muting lamp *1. Use a switch for small loads (input specifications: 24 V, 1.0 mA max.). *2. When using the interlock function, this also functions as an interlock reset switch. (Must be set with a setting tool.) *3. F3SJ operates even when K1 is not connected. *4. Connect the muting lamp to either the external indicator output or auxiliary output 1 for the emitter or the receiver. When connecting the muting lamp to auxiliary output 1, the parameter must be changed with a setting tool. *5. Two-wire type muting sensor cannot be used. [NPN Output] Wiring when using muting and external device monitoring functions *4 M1 Emitter Receiver *4 S1 S2 A1 B1 KM1, KM2 K1 M1 A1 S1 *5 *1 Shield 0 V (Blue) Safety output 2 (White) Auxiliary output 1 (Yellow) Safety output 1 (Black) +24 V (Brown) Reset input (Yellow) S2 *1*2 (Pink) Communication line (-) +24 V (Brown) External device monitoring input (Red) B1 *5 Test input (Black) 0 V (Blue) Muting input 2 (Red) Muting input 1 (White) Shield (Gray) Communication line (+) When external device monitoring function is not required • Use a setting tool to set the external device monitoring function to "Disabled." • When using an auxiliary output 1 that has not been changed (output operation mode is "Safety Output Information," and reverse output mode is "Enabled), the external device monitoring function will be disabled when auxiliary output 1 and the external device monitoring input are connected. KM1 K1 KM1 KM2 KM2 *3 *4 +24 VDC Power supply 0V : External test switch (connect to 24 V if a switch is not required) : Lockout reset switch (connect to 0 V if a switch is not required) : Contact by muting sensor A1 : Contact by muting sensor B1 : Safety relay with force-guided contact (G7SA) or magnetic contactor : Load or PLC, etc. (for monitoring) : Muting lamp *1. Use a switch for small loads (input specifications: 24 V, 1.0 mA max.). *2. When using the interlock function, this also functions as an interlock reset switch. (Must be set with a setting tool.) *3. F3SJ operates even when K1 is not connected. *4. Connect the muting lamp to either the external indicator output or auxiliary output 1 for the emitter or the receiver. When connecting the muting lamp to auxiliary output 1, the parameter must be changed with a setting tool. *5. Two-wire type muting sensor cannot be used. 14 F3SJ-A Wiring Diagram When Using Simple Wiring System Internal wiring of F39-CN5 simple wiring connector F39-CN5 simple wiring connector Emitter PIN No. 1 7 2 8 6 5 3 4 Female (Gray) Receiver 1 24 VDC 2 Safety output 1 3 Auxiliary output 1 4 Communication line (+) Communication line (+) 5 6 Communication line (-) Communication line (-) 6 7 0V 0V 7 8 Auxiliary output 2 External device monitoring input 8 Interlock select input 2 24 VDC 3 Test input 4 Reset input 5 Safety output 2 24 VDC Safety output 1 Reset input Communication line (+) Communication line (-) 0V Test input PIN No. 1 2 3 4 5 6 7 8 2 3 Emitter [PNP Output] F39-CN5 F39-JD@A-D Shield 0 V (Blue) Safety output 1 (Black) Safety output 2 (White) Test input (Red) Reset input (Yellow) *2 +24 V (Brown) Communication line (+) (Gray) *3 Communication line (-) (Pink) *3 F39-JD@B-L S1 *1 6 2 3 8 5 4 Female (Black) 1 8 5 7 6 S1 : External test switch (connect 0 V if a switch is not required) *1. Use a switch for small loads (input specifications: 24 V, 1.0 mA max.). *2. When the lockout reset function is used, connect to 24 V via a lockout reset switch (N.C. contact). *3. Make sure the Communication lines are insulated. If the lines are shorted, the F3SJ-A enters the lockout state. Controllers connectable with PNP output F3SJ series Safety controller Model Safety Network Controller NE1A series Safety Controller G9SP series Flexible Safety Unit G9SX series Safety Relay Unit G9SA series Emitter Receiver Safety controller etc. [NPN Output] 1 7 Receiver 4 +24 VDC Power supply 0V PIN No. Safety output 2 1 F39-CN5 F39-JD@A-D Safety controller etc. +24 V (Brown) Safety output 2 (White) S1 *1 Safety output 1 (Black) Test input (Red) Reset input (Yellow) *2 Communication line (-) (Pink) *3 Communication line (+) (Gray) *3 Shield 0 V (Blue) F39-JD@B-L S1 : External test switch (connect 24 V if a switch is not required) *1. Use a switch for small loads (input specifications: 24 V, 1.0 mA max.). *2. When the lockout reset function is used, connect to 0 V via a lockout reset switch (N.C. contact). *3. Make sure the Communication lines are insulated. If the lines are shorted, the F3SJ-A enters the lockout state. +24 VDC Power supply 0V Controller connectable with NPN output F3SJ series Safety controller Model Safety Relay Unit G9SA-301-P Note: When using the Simple Wiring Connector (F39-CN5), the following functions are not available. • Manual Reset • External Device Monitoring • Auxiliary Outputs 1, 2 • Muting/Override When using the setting tools, make sure to keep the settings in the factory default. 15 F3SJ-A Input/Output Circuit Diagram Entire Circuit Diagram [PNP Output] The numbers in circles indicate the connectors' pin numbers. The black circles indicate connectors for series connection. The words in brackets ([ ]) indicate the signal name for muting system. Indicator External indicator output 2 Brown 2 3 Emitter Main Circuit Blue 1 4 Brown White Test input Interlock selection input [Muting input 1] *1 Yellow Reset input Black Auxiliary output 2 [Muting input 2] *2 8 Red 7 5 6 5 6 Gray +24 VDC Blue Shield Pink Communication line (−) Communication line (+) Gray Pink 2 External indicator output 1 8 Brown Receiver Main Circuit 2 1 Brown Red External device monitoring input White Safety output 2 Black Safety output 1 Blue Load 3 Receiver Main Circuit 1 Load 4 Auxiliary output 1 Yellow Load Indicator 7 0V Blue Shield *1. Open or muting input 1 for models with the "-TS" suffix. *2. Open or muting input 2 for models with the "-TS" suffix. [NPN Output] The numbers in circles indicate the connectors' pin numbers. The black circles indicate connectors for series connection. The words in brackets ([ ]) indicate the signal name for muting system. Indicator External indicator output 2 Brown 2 3 Emitter Main Circuit Blue 1 4 8 7 Gray 5 6 5 6 Communication line (+) Gray +24 VDC Brown Black Test input White Interlock selection input [Muting input 1] Yellow Reset input Auxiliary output 2 [Muting input 2] Red Blue Shield Pink Communication line (−) Pink 2 Brown Load White External indicator output 1 1 Brown Safety output 2 Load Receiver Main Circuit 2 Black 3 Blue Safety output 1 Load Yellow Receiver Main Circuit 1 4 8 Indicator 7 Auxiliary output 1 Red External device monitoring input Blue 0V Shield 16 F3SJ-A Connection Circuit Examples Wiring for single F3SJ-A application [PNP Output] Highest achievable PL/ safety category Model Stop category Safety Light Curtain F3SJ-AP Safety Relay G7SA PLe/4 equivalent 0 Reset Manual Note: The above PL is only the evaluation result of the example. The PL must be evaluated in an actual application by the customer after confirming the usage conditions.  Application Overview • The power supply to the motor M is turned OFF when the beam is blocked. • The power supply to the motor M is kept OFF until the beams are unblocked and the reset switch S2 is pressed. - Using external device monitoring function Receiver Emitter S1 : External test switch (connect to 0 V if a switch is not required) S2 : Interlock/lockout reset switch KM, KM2 : Safety relay with force-guided contact (G7SA) or magnetic contactor K1 : Load, PLC (for monitor) KM3 : Solid state contactor (G3J) M : Motor PLC : Programmable controller (Used for monitoring -- not related to safety system) F39-JD@A-L F39-JD@A-D KM2 KM1 Unblocked Blocked External test switch (S1) Shield 0 V (Blue) Safety output 2 (White) Safety output 1 (Black) KM1 Auxiliary output 1 (Yellow) +24 V (Brown) (Pink) Communication line (-) KM3 External device monitoring input (Red) +24 V (Brown) Interlock selection input (White) 0 V (Blue) Auxiliary output 2 (Red) S1 Test input (Black) S2 Reset input (Yellow) Shield (Gray) Communication line (+) Reset switch (S2) KM2 KM1 Safety output KM2 KM1,KM2 N.O. contact KM1,KM2 N.C. contact K1 PLC input * +24 VDC Power supply 0V 17 IN PLC OUT M PLC output * Auxiliary output 1 gives inverted signal of safety output (default setting). F3SJ-A Wiring for connection with a controller F3SP-B1P [PNP Output] Highest achievable PL/ safety category Model Stop category Safety Light Curtain F3SJ-AP Control Unit F3SP-B1P Safety Relay G7SA PLe/4 equivalent Reset 0 Manual Note: The above PL is only the evaluation result of the example. The PL must be evaluated in an actual application by the customer after confirming the usage conditions.  Application Overview • The power supply to the motor M is turned OFF when the beam is blocked. • The power supply to the motor M is kept OFF until the beams are unblocked and the reset switch S2 is pressed. Wiring for auto reset mode - Using external device monitoring function S1 Emitter S2 Receiver H1 L1 J1 H1 Interlock Test selection IN1 F39-JD@B-D Reset Wiring when the external device monitoring function will not be used PLC F39-JD@B-L X1 IN2 External device monitoring OUT T31 KM3 S1 T32 Included short bar S2 A1 H1 L1 J1 Interlock selection Test Safety Safety output 1 output 2 H1 X1 P1 13 23 33 Unblocked Blocked 41 Reset Auxiliary output 1 External test switch (S1) KM1 Reset switch (S2) K1 KM2 K2 K1 A2 +24 VDC Power supply 0 V K2 Safety output External device monitoring T31 PE F3SP-B1P T32 K1,K2 N.O. contact 14 34 42 M KM1 KM2 24 +24V KM1 KM2 KM1,KM2 N.O. contact K1,K2 N.C. contact S1 : External test switch S2 : Interlock/lockout reset switch KM1,KM2 N.C. contact KM1, KM2 : Safety relay with force-guided contact (G7SA) or magnetic contactor KM3 : Solid state contactor (G3J) PLC input 1 * M : Motor PLC : Programmable controller PLC input 2 (Used for monitoring -- not related to safety system) PLC output * Auxiliary output 1 gives inverted signal of safety output (default setting). Note: It cannot be used as a muting system when F3SP-B1P is used. 18 F3SJ-A Wiring for connection with a controller G9SX-AD322-T15 [PNP Output] Highest achievable PL/ safety category Model Stop category Safety Light Curtain F3SJ-AP Flexible Safety Unit G9SX-AD322-T15 Safety Relay G7SA PLe/4 equivalent Reset M1: 0 M2: 1 Auto Note: The above PL is only the evaluation result of the example. The PL must be evaluated in an actual application by the customer after confirming the usage conditions.  Application Overview • The power supply to the motor M1 is turned OFF immediately when the beam is blocked, and stop command is sent to the motor controller for the motor M2. • The power supply to the motor M2 is turned OFF after OFF-delay time. • The power supply to the motor M1 and M2 is kept OFF until the beams are unblocked. Emitter - F3SJ settings - Auto reset mode - Not using external device monitoring - G9SX-AD322-T15 settings - Auto reset mode - Using feedback loop Receiver F39-JD@A-L Wiring for manual reset mode Feedback loop S1 :External test switch (connect to 0 V if a switch is not required) S2 : Lockout reset switch (connect to 24 V if a switch is not required) KM1 to KM4 : Safety relay with force-guided contact (G7SA) or magnetic contactor M1, M2 : Motor PLC : Programmable controller (Used for monitoring -- not related to safety system) F39-JD@A-D KM1 KM2 S3 KM3 KM4 Shield 0 V (Blue) Safety output 2 (White) Safety output 1 (Black) Auxiliary output 1 (Yellow) (Pink) Communication line (−) +24 V +24 V (Brown) External device monitoring input (Red) +24 V (Brown) Interlock selection input (White) Reset input (Yellow) S2 Auxiliary output 2 (Red) S1 Open Test input (Black) Shield 0 V (Blue) (Gray) Communication line (+) T31 T32 S3: Reset switch KM1 KM2 Motor controller KM3 KM4 +24 V A1 +24 VDC Power supply 0 V T11 Open T12 T21 T22 T33 Y1 Feedback loop +24 V T31 T32 T33 Y1 Open KM1 KM3 KM2 KM4 S34 AND T41 M1 T42 Open Open M2 OFF Safety output Control circuit KM1,KM2 N.C. contact KM3,KM4 N.C. contact A2 S14 S24 S34 S44 S54 L1 X1 X2 G9SX-AD322-T15 KM1 KM2 KM3 KM4 PLC, etc. KM1,KM2 N.O. contact KM3,KM4 N.O. contact Motor operation command Motor controller (operation command) Motor rotation OFF-delay time 19 F3SJ-A Wiring for single F3SJ-A application [NPN Output] Highest achievable PL/ safety category Model Stop category Safety Light Curtain F3SJ-AN Safety Relay G7SA PLe/4 equivalent 0 Reset Manual Note: The above PL is only the evaluation result of the example. The PL must be evaluated in an actual application by the customer after confirming the usage conditions.  Application Overview • The power supply to the motor M is turned OFF when the beam is blocked. • The power supply to the motor M is kept OFF until the beams are unblocked and the reset switch S2 is pressed. - Using external device monitoring function Emitter Receiver S1 : External test switch (connect to 24 V if a switch is not required) S2 : Interlock/lockout reset switch KM1, KM2: Safety relay with forcibly-guided contacts (G7SA) or magnetic contactor K1 : Load, PLC (for monitor) KM3 : Solid state contactor (G3J) M : Motor PLC : Programmable controller (Used for monitoring -- not related to safety system) F39-JD@A-L F39-JD@A-D KM2 Shield 0 V (Blue) Reset switch (S2) Safety output KM1 KM1 KM1,KM2 N.O. contact KM2 KM2 KM1,KM2 N.C.contact PLC input * M +24 VDC Power supply 0V Unblocked Blocked External test switch (S1) Auxiliary output 1 (Yellow) KM1 Safety output 2 (White) +24 V (Brown) Safety output 1 (Black) Communication line (−) (Pink) KM3 External device monitoring input (Red) K1 +24 V (Brown) Interlock selection input (White) Auxiliary output 2 (Red) Test input (Black) Reset input (Yellow) S2 S1 0 V (Blue) Shield Communication line (+) (Gray) IN OUT PLC output * Auxiliary output 1 gives inverted signal of safety output (default setting). PLC 20 F3SJ-A Wiring for connection with a controller G9SA-301-P [NPN Output] Highest achievable PL/ safety category Model Stop category Safety Light Curtain F3SJ-AN Safety Relay Unit G9SA-301-P 24V DC Safety Relay G7SA Emergency Stop Switch A165E/A22E PLe/4 equivalent Reset 0 Manual Note: The above PL is only the evaluation result of the example. The PL must be evaluated in an actual application by the customer after confirming the usage conditions.  Application Overview • The power supply to the motor M is turned OFF when the beam is blocked. • The power supply to the motor M is turned OFF when the emergency stop switch is pressed. • The power supply to the motor M is kept OFF until the beams are unblocked and the reset switch S2 is pressed while the emergency stop switch is released. Emitter - F3SJ settings - Auto reset mode - Does not use external device monitoring function - G9SA-301-P settings - Manual reset mode - Using feedback loop - Using emergency stop switch Receiver Wiring for auto reset mode KM1 KM2 T31 T32 F39-JD@A-L F39-JD@A-D K1 K2 IN1 Shield 0 V (Blue) Auxiliary output 1 (Yellow) Safety output 1 (Black) Safety output 2 (White) +24 V (Brown) Communication line (−) (Pink) PLC External device monitoring input (Red) +24 V (Brown) Interlock selection input (White) Test input (Black) Reset input (Yellow) S4 S1 Open Auxiliary output 2 (Red) Shield 0 V (Blue) Communication line (+) (Gray) Control Circuit IN2 OUT A KM3 12 +24 VDC Power supply 0 V *1 22 11 21 KM1 Unblocked Blocked KM2 External test switch (S1) S3 KM1 S2 Interlock reset switch (S2) Emergency stop switch (S3) KM2 A1 A2 T11 T12 a 13 T31 T32 33 M 41 Safety output K1 K2 K1 23 3 4 6 K2 K1 b K2 a b Control Circuit JP 2 5 1 PE T21 G9SA-301-P T23 T22 A B B 14 KM1 24 34 KM2 42 1 2 3 4 5 6 *1. If an emergency stop switch is not used, connect safety output 1 to T12 terminal and safety output 2 to T23 directly. S1 : External test switch (connect to 24 V if a switch is not required) S2 : Interlock reset switch S3 : Emergency stop switch (direct opening contacts) (A165E, A22E) S4 : Lockout reset switch (connect to 0 V if a switch is not required) KM1, KM2: Safety relay with force-guided contact (G7SA) or magnetic contactor KM3 : Solid state contactor (G3J) M : Motor PLC : Programmable controller (Used for monitoring -- not related to safety system) K1,K2 N.O. contact KM1,KM2 N.O. contact K1,K2 N.C. contact KM1,KM2 N.C. contact PLC input 1 *2 PLC input 2 PLC output *2 Auxiliary output 1 gives inverted signal of safety output (default setting). 21 F3SJ-A Dimensions (Unit: mm) Main Units When Using Standard Mounting Brackets Backside mounting Mounting screw holes 30 20 2-Top/bottom mounting brackets 5.5 2-Mounting holes (13.75) 4-M5 20 16.5 1 3.75 6.25 Top/bottom mounting bracket (F39-LJ1) 30 24 31 22 7 Intermediate mounting bracket 22 2-M5 5.5 Intermediate mounting bracket (F39-LJ3) B A C (Protective height) B 42 D 53 42 C (protective height): 4-digit number in the table A = C + 74, B = C + 46.5 D = C - 20, E = See table below. 2-Mounting holes Beam F39-LJ3 Horizontal angle: ±10° 10 37 300 E E 4-Mounting holes 6 dia. 6.5 dia. 13.75 2-Mounting holes 43 9 dia. M12 Waterproof connector 15 dia. Number of intermediate brackets 245 to 596 0 --- 600 to 1,130 1 E = B/2 E* 1,136 to 1,658 2 E = B/3 1,660 to 2,180 3 E = B/4 2,195 to 2,500 4 E = B/5 * Use E = 530 or less when none of the E values shown above are used. 26 Side mounting Protective height 46 30 20 2-Top/bottom mounting brackets 2-Mounting holes Mounting screw holes 5.5 (13.75) 35 4-M5 20 30 16.5 3.75 6.25 24 5.5 31 B 15 53 15 A B D C (Protective height) 11 36 43 2-M5 31 Beam E E 5 10 4-Mounting holes 10 300 37 6 dia. 13.75 6.5 dia. 2-Mounting holes 43 9 dia. F39-LJ3 Horizontal angle: ±10° M12 Waterproof connector C (protective height): 4-digit number in the table A = C + 74, B = C + 46.5 D = C - 20, E = See table below. Protective height Number of intermediate brackets 245 to 596 0 --- 600 to 1,130 1 E = B/2 E* 1,136 to 1,658 2 E = B/3 1,660 to 2,180 3 E = B/4 2,195 to 2,500 4 E = B/5 * Use E = 530 or less when none of the E values shown above are used. 51 53 F39-LJ1 Detailed Dimensions of Bracket 16 10 9 13.5 11.5 A 9 dia. 19.6 A 12 dia. A-A 30 9 dia. 2 5.5 Material: Brass 6.5 dia. 16.5 8 5.6 14.5 2-M3 Through holes 18 36.5 11 21 5.5 30 21 19.6 Material: Stainless steel 10 2- 3.5 dia . Material: 22 F3SJ-A Using Side Flat Mounting Bracket (F39-LJ2) F39-LJ2 Material: Stainless steel Use standard brackets 5.5 (17.25) 37.6 20 27 Mounting screw holes 35 4-M5 25.5 C (Protective height) A B B 5 19 0.3 Dimensions A to C 37 9.7 17.25 6.5 dia. 9 dia. 20 44 2 35 Using Free Location Mounting Bracket (F39-LJ3) Backside mounting C + 74 B C + 39.5 C 4-digit number of the model name (protective height) Mounting screw holes 31 22 1 A 6-M5 45 42 F39-LJ3 Material: Zinc die-cast Horizontal angle: ±10° 7 5.5 B B C (Protective 42 height) 16 F F 53 42 42 45 Side mounting 24 25 46 43 36 Mounting screw holes 45 6-M5 11 F39-LJ3 Material:Zinc die-cast/ stainless Horizontal angle: ±10° 15 5.5 B C (Protective height) 15 F 16 F 5 15 53 45 51 2 30 24 43 23 5 B 15 F3SJ-A Dimensions B, C, and F Dimensions F B C - 90 C 4-digit number of the model name (protective height) F Depends on the protective height. See the table on the right. Protective height 245 to 440 443 to 785 794 to 1,140 1,145 to 1,490 1,495 to 1,840 1,845 to 2,180 2,195 to 2,500 Number of intermediate brackets 2 3 4 5 6 7 8 F* --B/2 B/3 B/4 B/5 B/6 B/7 * Use F = 350 or less when none of the F values shown above are used. When only F39-LJ3 free-location mounting brackets are used without standard brackets, allow a space of at least 350 mm between the brackets. The number of brackets required varies according to the protective height. For details about the number of required brackets, refer to the table below. The standard included intermediate brackets are the same as the F39-LJ3 free-location mounting brackets. Purchase brackets as necessary if there are fewer intermediate brackets than required. When intermediate brackets are included, they can be used as free-location mounting brackets. Required number of F39-LJ3 free-location mounting brackets for 1 F3SJ set (emitter/receiver) (2 pieces are included with F39-LJ3) Number of included free location brackets as intermediate brackets Number of free location brackets to mount F3SJ Number of free location bracket sets to be purchased (pcs) 245 to 440 0 4 2 sets (4) 443 to 596 0 6 3 sets (6) 600 to 785 2 6 2 sets (4) 794 to 1,130 2 8 3 sets (6) 1,136 to 1,140 4 8 2 sets (4) 1,145 to 1,490 4 10 3 sets (6) 1,495 to 1,658 4 12 4 sets (8) 1,660 to 1,840 6 12 3 sets (6) 1,845 to 2,180 6 14 4 sets (8) 2,195 to 2,500 8 16 4 sets (8) Protective height Using Top/Bottom Bracket B (F39-LJ4) Backside mounting 30 19 F39-LJ4 Material: Stainless steel 2 Mounting screw holes 6 6 4-M5 (21.5) Use standard brackets 37 1 A Dimensions A to C A C + 109 B C + 66 C 4-digit number of the model name (protective height) C (Protective height) B B 45 Note: Refer to the User's Manual for the dimensions for side mounting. 19(*) 21.5 30 26 * Using M5 bolt, available range for mounting is 18 to 20 24 F3SJ-A Using Top/Bottom Bracket C (F39-LJ11) 30 13 26 2 F39-LJ11 Material: Stainless steel Mounting screw holes 6 3 4-M5 (20) 34 (54.5) Use standard brackets 1 C (Protective height) B A B 54.5 Dimensions A to C A C + 109 B C + 69 C 4-digit number of the model name (protective height) 20 13 4-Mounting holes Using Space-saving Mounting Bracket (F39-LJ8) Backside mounting 30 20 5.5 F39-LJ8 Material: Stainless steel Mounting screw holes 5.5 4-M5 (16.65) 7 Use standard brackets 2 B C (Protective height) A B 8 25.65 11.5 16.65 20 Dimensions A to C 25 A C + 23 B C - 10.3 C 4-digit number of the model name (protective height) 33 Note: Because the F39-LJ8 cannot be mounted together with an intermediate bracket, keep the protective height at 600 mm max. F3SJ-A Guide to Replacing F3SJ-A with F3SJ-E/B (Including models whose production will be discontinued) F3SJ-A to F3SJ-E/B replacement correspondence table (F3SJ-A mounting holes can be used without modification) To check available brackets for replacement, refer to the table below. To check dimensions when mounting brackets, refer to page 93. The values in the table correspond to in the model name, meaning the protective height (mm) of a sensor. F3SJ-A Replacement F3SJ-E/B P(N)20 P(N)25 P(N)30 0245 0260 0275 0290 0260 0280 0245 0270 0295 0305 0320 0335 0350 0365 0320 0340 0360 0380 0380 0395 0410 0425 0440 0455 0400 0420 0440 0470 0485 0500 0515 0530 0480 0500 0520 0545 0560 0575 0590 0605 0560 0580 0600 0545 0570 0595 0620 0620 0620 0635 0650 0665 0680 0695 0640 0660 0680 0645 0670 0695 0710 0725 0740 0755 0770 0720 0740 0760 0785 0800 0815 0830 0845 0800 0820 0840 0860 0860 0875 0890 0905 0920 0935 0880 0900 0920 0950 0965 0980 0995 01010 0960 0980 01000 1020 1020 1025 1040 1055 1070 1085 1100 1040 1060 1080 1045 1070 1095 1115 1130 1145 1160 1175 1120 1140 1160 P(N)25 Available bracket for replacement Top/bottom bracket Compatible bracket (F39-LJB1) (F39-LJB4) • 0225 • 0300 0320 0345 0370 0305 • • 0395 0420 0445 0385 0470 0495 0520 0465 0545 0625 0705 0795 0820 0845 0785 0865 0945 0970 0995 0945 1025 1105 • • • 1120 1145 1170 • • • 1100 • • • 0940 • • • 0870 0895 0920 • • • 0780 • • • 0720 0745 0770 • • • 0700 • • • 0540 • • • 0460 • • • 26 F3SJ-A F3SJ-A P(N)20 P(N)25 Replacement F3SJ-B P(N)30 P(N)25 Available bracket for replacement Top/bottom bracket Compatible bracket (F39-LJB1) (F39-LJB4) • 1180 1190 1205 1220 1235 1250 1200 1220 1240 1265 1280 1295 1310 1325 1280 1300 1320 1340 1340 1355 1370 1385 1400 1415 1360 1380 1400 1420 1420 1430 1445 1460 1475 1490 1440 1460 1480 1445 1470 1495 1505 1520 1535 1550 1565 1520 1540 1560 1580 1580 1595 1610 1625 1640 1655 1600 1620 1640 1670 1685 1700 1715 1730 1680 1700 1720 1745 1760 1775 1790 1805 1760 1780 1800 1745 1770 1795 1820 1820 1820 1835 1850 1865 1880 1895 1840 1860 1880 1845 1870 1895 1910 1925 1940 1955 1970 1920 1940 1960 1985 2000 2015 2030 2045 2000 2020 2040 2060 2060 2075 2090 2105 2120 2135 2080 2100 2120 1195 1220 1245 1185 • • 1260 1270 1295 1320 1265 1345 1425 1505 1585 1670 1695 1720 1665 1745 1825 1905 1980 1985 2065 • • • 2070 2095 2120 • • • 1995 2020 2045 • • • 1920 1945 1970 • • • 1900 • • • 1740 • • • 1660 • • • 1595 1620 1645 • • • 1520 1545 1570 • • • 1500 • • • 1345 1370 1395 • • • Note: 1. Protective height and detection capability vary according to replacement. Check the safe design of your device before use. 2. The maximum protective height of F3SJ-E is 1,105 mm. Only the F3SJ-B can be replaced for the protective height of 1,185 or more. 27 F3SJ-A Change of Dimensions due to Replacement (1) Replacement by backside mounting F3SJ-A (Using standard bracket) F3SJ-E/B (Top/bottom bracket used) F3SJ-E/B (Compatible bracket used) 26 43 43 Protective height + 74 Protective height + 69 Protective height + 159 Dimensions (mm) from mounting wall surface to optical surface (mm) Total length including bracket (mm) Dimensional drawing from mounting wall surface to optical surface Optical surface Optical surface 26 43 F3SJ-A F3SJ-E/B (2) Replacement by side mounting F3SJ-A (Using standard bracket) F3SJ-E/B (Top/bottom bracket used) F3SJ-E/B (Compatible bracket used) 51 46 46 Protective height +74 Protective height +69 Protective height +159 Dimensions of a protrusion from mounting wall (mm) Total length including bracket (mm) Dimensional drawing of a protrusion from mounting wall Optical surface 51 Optical surface 46 F3SJ-A F3SJ-E/B Replacement using intermediate brackets For backside mounting, the F3SJ-A and F3SJ-E/B can be used without modification due to compatibility in mounting hole pitch. For side mounting, a new hole needs to be made due to the different mounting hole pitch. Mounting hole pitch for side mounting using intermediate bracket F3SJ-A (Free-location bracket used) F3SJ-E/B (Intermediate bracket used) 15 42 Mounting hole pitch (mm) Dimensional drawing of mounting hole for side mounting using intermediate bracket Optical surface 53 42 5.5 11 53 15 Optical surface 7 5.5 34 34 F3SJ-A F3SJ-E/B Change of Dimensions due to Replacement Dimensions (mm) from mounting wall surface to optical surface (mm) F3SJ-A (Free-location bracket used) F3SJ-E/B (Intermediate bracket used) 26 43 28 F3SJ-A Using mounting bracket for short-length F3SN (F39-LJ5) Inward-facing mounting F39-LJ5 Material: Stainless steel 44.9 5.5 30 20 Mounting screw holes 5.5 4-M5 (16.5) Use standard brackets 6.5 dia. 9 dia. 2 44 B C (Protective height) A B 19.9 32 21 16.5 11.5 20 Dimensions A to C Outward-facing mounting A C + 23 B C - 10 C 4-digit number of the model name (protective height) 30 F39-LJ5 Material: Stainless steel 44.9 2 5.5 Use standard brackets 30 20 Mounting screw holes 5.5 4-M5 (15.5) 21 44 B C (Protective height) A B 6.5 dia. 32 5.8 15.5 9 dia. 4.2 20 Dimensions A to C 19.9 A C + 65 B C + 34 C 4-digit number of the model name (protective height) 30 Inward + outward-facing mounting Use standard brackets F39-LJ5 Material: Stainless steel 30 20 5.5 44.9 Mounting screw holes 5.5 4-M5 (11.5) 21 (16.5) 2 44 C (Protective height) B B A 6.5 dia. 5.8 32 32.5 4.2 19.9 30 29 15.5 9 dia. 20 Dimensions A to C A C + 44 B C + 12 C 4-digit number of the model name (protective height) F3SJ-A Accessories Single-Ended Cable F39-JD3A (L = 3 m) F39-JD7A (L = 7 m) F39-JD10A (L = 10 m) F39-JD15A (L = 15 m) F39-JD20A (L = 20 m) L* 39.5 15 dia. Cable color: Gray for emitter Black for receiver Waterproof connector Insulated vinyl round cable 6.6 dia. with braided shield 8-wire (4-pair) (Cross section of conductor: 0.3 mm2/insulator diameter: 1.15 mm) Standard length L * Cables with L=3, 7, 10, 15, and 20 m are available. Double-Ended Cable F39-JDR5B (L = 0.5 m) F39-JD1B (L = 1 m) F39-JD3B (L = 3 m) F39-JD5B (L = 5 m) F39-JD7B (L = 7 m) F39-JD10B (L = 10 m) F39-JD15B (L = 15 m) F39-JD20B (L = 20 m) 39.5 L 43 15 dia. 15 dia. Waterproof connector Waterproof connector Insulated vinyl round cable 6.6 dia. with braided shield 8-wire (4-pair) (Cross section of conductor: 0.3 mm2/insulator diameter: 1.15 mm) Standard length L Cable color: Gray for emitter Black for receiver Simple Wiring Connector F39-CN5 (52) 13.6 24.7 13.6 8 dia. (SPOT FACING 2) 12 4.5 dia. 10 32.1 17.7 18 Control Unit F3SP-B1P Emitter Receiver 91 24-M3 10.5 Mounting screw holes 5.9 4.6 dia. 7 × 5=35 2-4.2 dia. or M4 13 max. 9 76 max. 63 43 84±0.3 5.6 9 45 max. Laser Pointer F39-PTJ 111 max. 2.3R 5 35±0.3 32.7 40.6 101±5 76 Power button Optical axis 23.1 50 40 15.9 dia. 32 30 F3SJ-A Dedicated External Indicator Set F39-A01-PAC 54 30 dia. 20 173 90 9 dia. 6.5 dia. 18 16 2 6 6 Material: Stainless steel 32 19 34 Spatter Protection Cover F39-HJ Assembled dimensions 32 32 10 Four digits in the model number (protective height) − 10 29.5 Material: PC (transparent area) ABS (non-transparent area) Mirrors F39-MLG 8-7 dia. 145 102 52 Model 4-1/4 inch screws × 63 32 L 24 70 K 61 (contact mounting) M 30.5 Cylindrical mounting rod (42 dia. ±1) (accessory). 13 Setting Support Software for the F3SJ F39-GWUM L (mm) K (mm) 445 487 --- F39-MLG0610 648 690 --- F39-MLG0711 749 792 --- F39-MLG0914 953 995 --- F39-MLG1067 1,105 1,148 --- F39-MLG1219 1,257 1,300 --- F39-MLG1422 * 1,499 1,541 749 F39-MLG1626 * 1,702 1,744 851 F39-MLG1830 * 1,905 1,948 952 F39-MLG2134 * 2,210 2,252 1,054 * Following May 2018 production, products will include a two-piece mirror. "K" indicates the distance to the mirror seam. 34 (625.7) 67.9 (46) (11.8) (12) (16) 35.8 Insulated vinyl round cable 4.6 dia. Standard length: 0.5 m 31 M (mm) F39-MLG0406 F3SJ-A Protective Bar F39-PJ-S Backside mounting 24 9 dia. 6.5 dia. Mounting screw holes 30 20 3-M5 bolts with hexagonal holes and attached washers Mounting bracket (2) 5.5 When using M5 20 (13.75) When using M6, M8 2-M8 16.5 4-M5 (6) 3.75 6.25 (37) 1 2-M6 D Sensor D D 16 5.5 dia. 8 10 23 39 39 43 B C (Protective height) B A B M5 M5 Mounting hole Intermediate brackets (3) (37) 3.75 20 2-Mounting holes 2-Mounting holes (13.75) 4-M3 bolts with hexagonal holes and attached washers (6) 4-Mounting holes Mounting bracket (1) C (protective height): 4-digit number in the table A = C + 74, B = C + 46.5 Protective height 245 to 995 1,001 to 2,000 2,009 to 2,500 15 64 20 69 9 dia. 6.5 dia. Number of intermediate brackets used (3) 0 1 2 D --B/2 B/3 Note: For reference, D is the dimension that will not interfere with the intermediate bracket on the Safety Light Curtain body. Side mounting 30 20 5.5 6.25 20 Protective support Mounting screw holes 24 4 Mounting bracket (2) 3-M5 bolts with hexagonal holes and attached washers (13.75) 16.5 20 When using M5 When using M6, M8 2-M8 4-M5 (6) 3.75 6.25 (37) 5 2-M6 D 23 D 10 20 B C (Protective height) 39 39 B A B M5 5.5 dia. 36 D Intermediate brackets (4) for side mounting * 8 M5 Mounting hole Sensor (37) (6) 2-Mounting holes 2-Mounting holes 20 (13.75) 4-Mounting holes Protective support 4-M3 bolts with hexagonal holes and attached washers Mounting bracket (1) * The four intermediate brackets (F39-PJ-MS) for side mounting are not provided. 3.75 20 6.25 C (protective height): 4-digit number in the table A = C + 74, B = C + 46.5 Intermediate brackets for side mounting D Number of intermediate brackets used (4) 245 to 995 0 --1,001 to 2,000 1 B/2 2,009 to 2,500 2 B/3 Note: For reference, D is the dimension that will not interfere with the intermediate bracket on the Safety Light Curtain body. Protective height 69 20 32 15 64 32 F3SJ-A Water-resistant Case F39-EJ-L(D) Backside mounting 32 Mounting screw holes When using M5 60.5 dia. 9 dia. 6.5 dia. 8 20 5.5 (16) When using M6, M8 2-M8 4-M5 8 13.5 2 2 2-M6 B A B C D (Protective height) B Dimensions A to D 22 2 32 16 20 2-Mounting Brackets (F39-EJ-R) * 20 8 * The Mounting Brackets (F39-EJ-R) are sold separately. A C + 108 B C + 76 C 4-digit number of the model name (protective height) D C + 44 Side mounting 32 Mounting screw holes When using M5 9 dia. 6.5 dia. 8 (16) When using M6, M8 20 5.5 60.5 dia. 2-M8 4-M5 8 13.5 2 2 2-M6 B A B C (ProtectiveD height) B 22 2 32 16 20 2-Mounting Brackets (F39-EJ-S) * 20 * The Mounting Brackets (F39-EJ-S) are sold separately. 33 8 Dimensions A to D A C + 108 B C + 76 C 4-digit number of the model name (protective height) D C + 44 F3SJ-E/F3SJ-B/F3SJ-A Function List Functions that can be used on F3SJ are shown as follows: Refer to the F3SJ User's Manual for details. For manual number, check the "Related Manuals" at the end of the catalog. ✓: Can be used. X: Cannot be used. Basic functions Function F3SJ-E (EASY) F3SJ-B (BASIC) F3SJ-A (ADVANCED) Self-test function ✓ ✓ ✓ External test function ✓ ✓ ✓ External device monitoring function X ✓*1 ✓ Interlock function X ✓*1 ✓ Auxiliary output function X ✓ ✓ Muting function *2 X ✓ ✓ *1. Cannot be used at muting. *2. The muting time for the F3SJ-A can be set via the software tool. The muting time for the F3SJ-B cannot be changed. Functions for individual applications Override function X ✓ ✓ Partial muting function X X ✓ Position detection muting function X X ✓ Fixed blanking function X X ✓ Floating blanking function X X ✓ Warning zone function X X ✓ Use of setting tools X X ✓ Series connection function X ✓ ✓ Dead space less (single connection) ✓ ✓ ✓ Dead space less (series connection) X X ✓ Response time integration (15 ms) *3 ✓ ✓ X Simple wiring ✓ X X Connector cable X ✓ Quick mounting ✓ ✓ X TOP/BOTTOM indicator for beam adjustment ✓ ✓ X Laser Pointer ✓ ✓ ✓ External indicator output X ✓*4 ✓ *5 Muting error display X ✓ X Wiring/mounting related function *3. Convenient to calculate safety distance. Indicator related functions Note: The specifications of the models with the suffixes "-01TS", "-02TS" or "-TS" are different. Refer to the Specifications. *4. An external Indicator can be connected to the F3SJ-B auxiliary output . *5. An external Indicator can be connected to the F3SJ-A auxiliary output 1 and 2, external Indicator 1 and 2 . 34 F3SJ-E/F3SJ-B/F3SJ-A Self-test Function Fixed Blanking Function External Test Function Floating Blanking Function A self-test is performed to check for errors when the power is turned ON. Also, the self-test is regularly performed (within the response time) while operating. This function stops the emission using an external signal. It can be used to verify that a safety system should properly stop when F3SJ is interrupted. External Device Monitoring Function This function detects malfunctions, such as welding, in external relays (or contactors) that control the hazardous part of a machine. This function constantly monitors that a specified voltage is applied to the receiver's external device monitoring input line, and the system enters lockout state when an error occurs. The relay's operational delay can be up to 300 ms without being evaluated as an error. For example, if the normally closed N.C. contact does not close within 0.3 s after the safety outputs turn from ON to OFF, and a specified voltage is not applied to the external device monitoring line, it is evaluated as an error and the system enters a lockout state. To utilize this function properly, use safety relays and contactors that have force guided or mechanically linked contact structure. Interlock Function The F3SJ turns the safety outputs OFF when its power is turned on or its beam is interrupted and holds this state until reset input is applied. This state is called "interlock". Two methods can be used to reset the interlock state: "auto reset that automatically turns safety outputs ON when the interrupting object is removed" and "manual reset mode that keeps safety outputs OFF until a reset signal is provided, if the interrupting object is removed". Auto Reset When the interrupting object is removed from the detection zone, the safety outputs automatically turn ON. Auto reset is used on machines where a worker is not able to enter the area between the detection zone and the hazardous part of the machine. Manual Reset When a reset input is given while no interrupting object exists in a detection zone, the safety outputs turn ON. This allows the machine to be manually reset using a reset switch after ensuring safety, preventing unexpected startup. Auxiliary Output Function The auxiliary output is used to monitor the status of the F3SJ. This output can be connected to a device such as programmable controller. Muting Function Muting function temporarily disables safety function of the F3SJ, keeping safety output ON even if beams are interrupted. This makes it possible to install safety light curtains for AGV passage, enabling both safety and productivity. Override Function The override function turns the safety outputs ON when the muting start condition is not satisfied. If a workpiece stops while passing through the F3SJ, as shown below, causing a muting error, the normal state cannot be recovered unless the workpiece is removed from the muting sensors and the detection field of the F3SJ. However, the override function will mute the safety outputs of the F3SJ so that the conveyor can be restarted to move the workpiece out of the muting sensors and detection zone. Partial Muting Function Partial muting function secures safety without enabling muting except for beams when a workpiece passes. Position Detection Muting A limit switch or other means is used to detect when the robot is in a safe position, and muting is then applied. 35 Fixed blanking function disables a specific beam of the F3SJ. This function keeps safety output ON even when part of machinery equipment exists within a detection zone. Floating blanking function increases the diameter of the F3SJ's detection capability and turns OFF the safety output when multiple objects are detected. When there is a moving object with a fixed width in the detection area that we do not want to detect, the detection function can be disabled. Warning Zone Function When an individual enters, a warning lamp lights or buzzer sounds without stopping the equipment by dividing the detection zone into the detection zone and a warning zone. Setting Tool The following setting tools (sold separately) can be purchased in order to change or confirm various F3SJ-A parameters. • F39-MC21 Setting Console • F39-GWUM SD Manager Setting Support Software for the F3SJ Series Connection Function Up to 3 sets of the F3SJ-Bs or up to 4 sets of F3SJ-As can be seriesconnected. Series connection allows them to be used as a safety light curtain, requiring only one set to be wired to a controller and preventing mutual interference. F3SJ-E/F3SJ-B/F3SJ-A Safety Precautions Description shown below is only a guideline to choose a safety sensor. To use the product properly, you must read its instruction manual that comes with the product. Legislation and Standards 1. Application of a sensor alone cannot receive type approval provided by Article 44-2 of the Industrial Safety and Health Act of Japan. It is necessary to apply it in a system. Therefore, when using the F3SJ in Japan as a "safety system for pressing or shearing machines" prescribed in Article 42 of that law, the system must receive type approval. 2. The F3SJ is electro-sensitive protective equipment (ESPE) in accordance with European Union (EU) Machinery Directive Index Annex V, Item 2. 3. The F3SJ-E/B is in conformity with the following standards: (1) EC legislation Machinery Directive 2006/42/EC EMC Directive 2014/30/EU (2) European standards EN 61496-1 (type 4 ESPE), EN 61496-2 (type 4 AOPD), EN 61508-1 through -3 (SIL3), EN 61000-6-4, EN ISO 13849-1:2015 (PLe/Safety Category 4) (3) International standards IEC 61496-1 (type 4 ESPE), IEC 61496-2 (type 4 AOPD), IEC 61508-1 through -3 (SIL3), ISO 13849-1:2015 (PLe/Safety Category 4) (4) JIS standards JIS B 9704-1 (type 4 ESPE), JIS B 9704-2 (type 4 AOPD) (5) North American standards: UL 61496-1 (type 4 ESPE), UL 61496-2 (type 4 AOPD), UL 508, UL 1998, CAN/CSA C22.2 No.14, CAN/CSA C22.2 No.0.8 4. The F3SJ-A is in conformity with the following standards: (1) EC legislation Machinery Directive 2006/42/EC EMC Directive 2014/30/EU (2) European standards EN 61496-1 (type 4 ESPE), EN 61496-2 (type 4 AOPD), EN61508-1 through -3 (SIL3) EN ISO 13849-1:2015 (PLe/Safety Category 4) (3) International standardsI EC 61496-1 (type 4 ESPE), IEC 61496-2 (type 4 AOPD), IEC 61508-1 through -3 (SIL3) ISO13849-1: 2015 (PLe/Safety Category 4) (4) (5) JIS standards JIS B 9704-1 (type 4 ESPE), JIS B 9704-2 (type 4 AOPD) North American standards: UL 61496-1 (type 4 ESPE), UL 61496-2 (type 4 AOPD), UL 508, UL 1998, CAN/CSA C22.2 No.14, CAN/CSA C22.2 No.0.8 5. The F3SJ received the following certification from the EUaccredited body, TÜV SÜD Product Service GmbH: • EC type test based on machinery directive Type 4 ESPE (EN 61496-1), Type 4 AOPD (EN 61496-2) 6. The F3SJ is scheduled to received certificates of UL listing for US and Canadian safety standards from the Third Party Assessment Body UL. • Type 4 ESPE (UL 61496-1), Type 4 AOPD (UL 61496-2) 7. The F3SJ is designed according to the standards listed below. To make sure that the final system complies with the following standards and regulations, you are asked to design and use it in accordance with all other related standards, laws, and regulations. If you have any questions, consult with specialized organizations such as the body responsible for prescribing and/or enforcing machinery safety regulations in the location where the equipment is to be used. • European standards: EN 415-4, EN 692, EN 693 • US Occupational Safety and Health Standards: OSHA 29 CFR 1910.212 • US Occupational Safety and Health Standards: OSHA 29 CFR 1910.217 • American National Standards: ANSI B11.1 to B11.19 • American National Standards: ANSI/RIA 15.06 • Canadian Standards Association CSA Z142, Z432, Z434 • SEMI Standards SEMI S2 • Japan Ministry of Health, Labour and Welfare "Guidelines for Comprehensive Safety Standards of Machinery" 8. We have obtained S-Mark Certification from Legislation and Standards Korea Occupational Safety & Health Agency (KOSHA). (F3SJ-EP25-S/F3SJ-BP25-S/ F3SJ-AP-S) 36 F3SJ-E/F3SJ-B/F3SJ-A Precautions on Safety Indication and meaning for safe use This instruction manual describes notification and/or waning with indication and symbols as shown below for safe use of F3SJ. This notification describes very important details for safety. You must follow the description. Shown below are indication and symbols. WARNING CAUTION Indicates a potentially hazardous situation which, if not avoided, will result in minor or moderate injury, or may result in serious injury or death. Additionally there may be significant property damage. If you fail to use a product properly, it may result in injuries or damage on property. Meanings of Alert Symbols Inhibited Indicates general inhibition. Alert Statements in this Manual F3SJ-E . . . . . Description applied to F3SJ-E models. F3SJ-B . . . . . Description applied to F3SJ-B models. F3SJ-A . . . . . Description applied to F3SJ-A models. For users WARNING F3SJ-E F3SJ-B F3SJ-A The FS3J must be installed, set, and integrated into the mechanical control system by a qualified technician who has received the appropriate training. Failure to make correct settings may prevent detection of people and result in serious injury. F3SJ-A When changing parameters with a setting tool (F39-GWUM or F39-MC21), the change must be made and the contents of the change must be managed by the person in charge of the system. Unintentional or mistaken parameter changes may prevent detection of people and result in serious injury. For machines WARNING F3SJ-E F3SJ-B F3SJ-A Do not use this sensor for machines that cannot be stopped by electrical control. For example, do not use it for a pressing machine that uses full-rotation clutch. Otherwise, the machine may not stop before a person reaches the hazardous part, resulting in serious injury. F3SJ-B F3SJ-A Do not use the auxiliary output or external indicator output for safety applications. Human body may not be detected when F3SJ fails, resulting in serious injury. 37 For installation WARNING F3SJ-E F3SJ-B F3SJ-A Make sure to test the operation of the F3SJ after installation to verify that the F3SJ operates as intended. Make sure to stop the machine until the test is complete. Unintended function settings may cause a person to go undetected, resulting in serious injury. F3SJ-E F3SJ-B F3SJ-A Make sure to install the F3SJ at the safe distance from the hazardous part of the equipment. Otherwise, the machine may not stop before a person reaches the hazardous part, resulting in serious injury. F3SJ-E F3SJ-B F3SJ-A Install a protective structure so that the hazardous part of a machine can only be reached by passing through the sensor's detection zone. Install the sensors so that part of the person is always present in the detection zone when working in a machine's hazardous zones. If a person is able to step into the hazardous zone of a machine and remain behind the 's detection zone, configure the system with an interlock function that prevents the machine from being restarted. Otherwise it may result in heavy injury. F3SJ-B F3SJ-A Install the interlock reset switch in a location that provides a clear view of the entire hazardous area and where it cannot be activated from within the hazardous area. F3SJ-E F3SJ-B F3SJ-A The F3SJ cannot protect a person from a projectile exiting the hazardous zone. Install protective cover(s) or fence(s). F3SJ-A When detection of an area has been disabled by the fixed blanking function, provide a protective structure around the entire area that will prevent a person from passing through it and reaching the hazardous part of the machinery. Failure to do so may prevent detection of people and result in serious injury. F3SJ-A After setting the fixed blanking function, be sure to confirm that a test rod is detected within all areas that require detection. Failure to do so may prevent detection of people and result in serious injury. F3SJ-A When the fixed blanking function or the floating blanking function is used, the diameter for the smallest detectable object becomes larger. Be sure to use the diameter for the smallest detectable object for the fixed blanking function or the floating blanking function when calculating the safety distance. Failure to do so may prevent the machinery from stopping before a person reaches the hazardous part of the machinery, and result in serious injury. F3SJ-B F3SJ-A The muting and override functions disable the safety functions of the device. Additional safety measures must be taken to ensure safety while these functions are working. F3SJ-E/F3SJ-B/F3SJ-A F3SJ-B F3SJ-A Install muting sensors so that they can distinguish between the object that is being allowed to be pass through the detection zone and a person. If the muting function is activated by the detection of a person, it may result in serious injury. F3SJ-B F3SJ-A Muting lamps (external indicators) that indicate the state of the muting and override functions must be installed where they are clearly visible to workers from all the operating positions. F3SJ-E F3SJ-B F3SJ-A Do not use the sensor system with mirrors in a regressive reflective configuration. Doing so may hinder detection. It is possible to use mirrors to "bend" the detection zone to a 90degree angle. Reflector F3SJ-A Muting times must be precisely set according to the application by qualified personnel who have received appropriate training. In particular, if the muting time limit is to be set to infinity, the person who makes the setting must bear responsibility. F3SJ-B F3SJ-A Use two independent input devices for the muting inputs. F3SJ-B F3SJ-A Install the F3SJ, Muting Sensors, or a protective wall so that workers cannot enter hazardous areas while muting is in effect, and set muting times. F3SJ-B F3SJ-A Position the switch that is used to activate the override function in a location where the entire hazardous area can be seen, and where the switch cannot be operated from inside the hazardous area. Make sure that nobody is in the hazardous area before activating the override function. F3SJ-E F3SJ-B F3SJ-A Install the sensor system so that it is not affected by reflective surfaces. Failure to do so may hinder detection, resulting in serious injury. F3SJ-E F3SJ-B F3SJ-A When using more than 1 set of F3SJ, install them so that mutual interference does not occur, such as by configuring series connections or using physical barriers between adjacent sets. F3SJ-E F3SJ-B F3SJ-A Make sure that the F3SJ is securely mounted and its cables and connectors are properly secured. F3SJ-E F3SJ-B F3SJ-A Make sure that no foreign material, such as water, oil or dust, enters the inside of the F3SJ while the cap is removed. Reflector Position with retro-reflection Position with detection zone bent at 90° F3SJ-E F3SJ-B F3SJ-A When using series connections, perform inspection of all connected F3SJs as instructed in the User's Manual. For wiring WARNING F3SJ-E F3SJ-B F3SJ-A [For PNP output] Connect the load between the output and 0V line. [For NPN output] Connect the load between the output and +24V line. If +24 V and 0 V are connected, it is dangerous because operation mode is inversed to "ON when interrupted". F3SJ-E F3SJ-B F3SJ-A [For PNP output] Do not short-circuit an output line to +24 V line. Otherwise, the output is always ON. Also, 0 V of the power supply must be grounded so that output should not turn ON due to grounding of the output line. [For NPN output] Do not short-circuit an output line to 0 V line. Otherwise, the output is always ON. Also, +24 V of the power supply must be grounded so that output should not turn ON due to grounding of the output line. F3SJ-E F3SJ-B F3SJ-A Configure the system by using the optimal number of safety outputs that satisfy the requirements of the necessary safety category. F3SJ-E F3SJ-B F3SJ-A Do not connect each line of F3SJ to a DC power supply higher than 24 V+20%. Also, do not connect to an AC power supply. Failure to do so may result in electric shock. 38 F3SJ-E/F3SJ-B/F3SJ-A F3SJ-E F3SJ-B F3SJ-A For F3SJ to comply with IEC 61496-1 and UL 508, the DC power supply unit must satisfy all of the following conditions: • Must be within rated power voltage (24 VDC±20%). • Must have tolerance against the total rated current of devices if it is connected to multiple devices. • Must comply with EMC directives (industrial environment) • Double or enhanced insulation must be applied between the primary and secondary circuits • Automatic recovery of overcurrent protection characteristics (reversed L sagging) • Output holding time must be 20 ms or longer • Must satisfy output characteristic requirements for class 2 circuit or limited voltage current circuit defined by UL 508 • Must comply with EMC, laws, and regulations of a country or a region where F3SJ is used. (Ex: In EU, the power supply must comply to the EMC Low Voltage Directive) F3SJ-E F3SJ-B F3SJ-A Double or enhanced insulation from hazardous voltage must be applied to all input and output lines. Failure to do so may result in electric shock. F3SJ-E F3SJ-B F3SJ-A Note: Keep the cable length within the rated length. Failure to do so is dangerous as it may prevent safety functions from operating normally. Installation Conditions Detection Zone and Approach F3SJ-E F3SJ-B F3SJ-A WARNING Install a protective structure so that the hazardous part of a machine can only be reached by passing through the sensor's detection zone. Install the sensors so that part of the person is always present in the detection zone when working in a machine's hazardous zones. If a person is able to step into the hazardous zone of a machine and remain behind the F3SJ's detection zone, configure the system with an interlock function that prevents the machine from being restarted. Failure to do so may result in serious injury. Install the interlock reset switch in a location that provides a clear view of the entire hazardous zone and where it cannot be activated from within the hazardous zone. The F3SJ cannot protect a person from a projectile exiting the hazardous zone. Install protective cover(s) or fence(s). Right positions The hazardous zone of a machine can be reached only by passing through the sensor's detection zone. F3SJ-E F3SJ-B F3SJ-A Make sure to perform wiring while the power supply is OFF. Others F3SJ-E F3SJ-B F3SJ-A WARNING To use the F3SJ in PSDI mode (Reinitiation of cyclic operation by the protective equipment), you must configure an appropriate circuit between the F3SJ and the machine. For details about PSDI, refer to OSHA1910.217, IEC 61496-1, and other relevant standards and regulations. While working, a person is inside the sensor's detection zone. Do not try to disassemble, repair, or modify this product. Doing so may cause the safety functions to stop working properly. Do not use the F3SJ in environments where flammable or explosive gases are present. Doing so may result in explosion. Perform daily and 6-month inspections for the F3SJ. Otherwise, the system may fail to work properly, resulting in serious injury. Do not use radio equipment such as cellular phones, walkietalkies, or transceivers near the F3SJ. Incorrect installation It is possible to reach the hazardous zone of a machine without passing through the sensor's detection zone. Note: For customers using the F3SJ-BP25-01TS: The functions available are external test, lockout reset, auxiliary output and series connection. A person is between the sensor's detection zone and the hazardous zone of a machine. 39 F3SJ-E/F3SJ-B/F3SJ-A Safety Safety Distance F3SJ-E F3SJ-B F3SJ-A The safety distance is the distance that must be set between the F3SJ and a machine's hazardous part to stop the hazardous part before a person or object reaches it. The safety distance varies according to the standards of each country and the individual specifications of each machine. In addition, the calculation of the safety distance differs if the direction of approach is not vertical to the detection zone of the F3SJ. Always refer to relevant standards. Safety distance (S) How to calculate the safety distance specified by International Standard ISO 13855 (European Standard EN ISO 13855) (Reference) Detection Zone Orthogonal to Direction of Approach S = K x T + C . . . Formula (1) • S: Safety distance • K: Approach speed to the detection zone • T: Total response time of the machine and F3SJ • C: Additional distance calculated by the detection capability of the F3SJ Use K = 2,000 mm/s and C = 8 x (d - 14 mm) in equation (1) for the calculation. S = 2,000 mm/s x (Tm + Ts) + 8 x (d - 14 mm) • S = Safety distance (mm) • Tm = Machine's response time (s) • Ts = Response time of the F3SJ from ON to OFF (s) • d = Size of F3SJ's detection capability (mm) Hazard WARNING Make sure to secure the safety distance (S) between the F3SJ and the hazardous part. Failure to do so may prevent the machinery from stopping before a person reaches the hazardous part of the machinery, and result in serious injury. Note: The response time of a machine is the time period from when the machine receives a stop signal to when the machine's hazardous part stops. Measure the response time on the actual system. Also, periodically check that the response time of the machine has not changed. [Calculation example] When Tm = 0.05 s, Ts = 0.01 s, and d = 14 mm: S = 2,000 mm/s x (0.05 s + 0.01 s) + 8 x (14 mm - 14 mm) = 120 mm . . . Formula (2) If the result is less than 100 mm, use S = 100 mm. If the result exceeds 500 mm, use the following formula where K = 1,600 mm/s. S = 1,600 mm/s x (Tm + Ts) + 8 x (d - 14 mm) . . . Formula (3) If the result of this Formula (3) is less than 500 mm, S = 500 mm Use K = 1,600 mm/s and C = 8 x (d - 850 mm) in equation (1) for the calculation. S = 1,600 mm/s x (Tm + Ts) + 850 x (d - 14 mm) ... Formula (4) • S = Safety distance (mm) • Tm = Machine's response time (s) • Ts = Response time of the F3SJ from ON to OFF (s) [Calculation example] When Tm = 0.05 s, Ts = 0.01 s: S = 1,600 mm/s x (0.05 s + 0.01 s) + 850 mm = 946 mm 40 F3SJ-E/F3SJ-B/F3SJ-A Possible Circumventing by Reaching Over the Detection Zone If access to the hazardous zone by reaching over the detection zone of vertically mounted F3SJ cannot be excluded, the height and the safety distance, S, of the F3SJ shall be determined. S shall be determined by comparison of the calculated values in Detection Zone Orthogonal to Direction of Approach. The greater value resulting from this comparison shall be applied. Hazard S=(K × T) + Cro . . . Formula (5) • S: Safety distance • K: Approach speed to the detection zone • T: Total response time of the machine and F3SJ • Cro: Approach distance based on the distance which personnel can move towards the hazardous zone of a machine by reaching over the detection zone. The distance is determined in the table below based on the height of the hazardous zone, a, and the height of the upper edge of the detection zone, b. Safety distance (S) Note: Lower edge of the detection zone above 300 mm in relation to the reference plane does not offer sufficient protection against crawling below. b a First, use K = 2,000 mm/s in formula (5) for the calculation. If the result of this calculation is less than 100 mm, use S = 100 mm. If the result exceeds 500 mm, use K = 1,600 mm/s to recalculate it. If the result of the recalculation is less than 500 mm, use S = 500 mm. 300 mm max. Reference plane Height of upper edge of detection zone, b Height of hazardous zone, a 900 1000 1100 1200 2600 0 0 0 0 0 0 0 0 0 0 0 0 2500 400 400 350 300 300 300 300 300 250 150 100 0 1300 1400 1600 1800 2000 2200 2400 2600 Additional distance to hazardous zone, Cro 2400 550 550 550 500 450 450 400 400 300 250 100 0 2200 800 750 750 700 650 650 600 550 400 250 0 0 2000 950 950 850 850 800 750 700 550 400 0 0 0 1800 1100 1100 950 950 850 800 750 550 0 0 0 0 1600 1150 1150 1100 1000 900 850 750 450 0 0 0 0 1400 1200 1200 1100 1000 900 850 650 0 0 0 0 0 1200 1200 1200 1100 1000 850 800 0 0 0 0 0 0 1000 1200 1150 1050 950 750 700 0 0 0 0 0 0 800 1150 1050 950 800 500 450 0 0 0 0 0 0 600 1050 950 750 550 0 0 0 0 0 0 0 0 400 900 700 0 0 0 0 0 0 0 0 0 0 200 600 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Note: 1. Upper edge of the detection zone below 900 mm is not included since they do not offer sufficient protection against circumventing or stepping over. 2. When determining the values of this table, it shall not be interpolated. If the known values a, b or Cro are between two values of this table, the greater safety distance shall be used. [Calculation example] • T: Tm + Ts (s) • Tm: Machine's response time (s) • Ts: Response time of the F3SJ from ON to OFF (s) • a: Height of machine hazardous zone (mm) • b: Height of upper edge of detection zone (mm) When Tm = 0.05 s, Ts = 0.01 s, a = 1,400 mm, b = 1,500 m: From the table above, Cro = 850 mm. Since b is between 1,400 mm and 1,600 mm, b = 1,400 mm which has the greater Cro value, shall be used. S = 2,000 mm/s × (0.05 s + 0.01 s) + 850 mm = 970 mm Since 970 mm is greater than 500 mm, use K = 1,600 mm/s and recalculate it. S = 1,600 m/s × (0.05 s + 0.01 s) + 850 mm = 946 mm 41 Compare S = 946 mm with the calculation in Detection Zone Orthogonal to Direction of Approach, and choose the larger value as the safety distance. For the system with a detection capability of 40 mm max., the safety distance S is 946 mm since this is larger than S = 120 mm calculated in the calculation example of Detection Zone Orthogonal to Direction of Approach. For the system with a detection capability larger than 40 mm, the safety distance S is 946 mm since this is the same value as S = 946 mm calculated in the calculation example of Detection Zone Orthogonal to Direction of Approach. F3SJ-E/F3SJ-B/F3SJ-A Detection Zone Parallel to Direction of Approach Use K = 1,600 mm/s and C = (1200 - 0.4 x H) in formula (1) for calculation. Note that C must not be less than 850 mm. S = 1,600 mm/s x (Tm + Ts) + 1200 - 0.4 x H • S = Safety distance (mm) • Tm = Machine's response time (s) • Ts = Response time of F3SJ from ON to OFF (s) • H = Installation height (mm) Note that H must satisfy: 1000 ≥ H ≥ 15 (d - 50 mm) ≥ 0 mm Hazard Safety distance (S) H Also, you must include a hazardous condition under which a person may go through under a detection zone if H exceeds 300 mm (200 mm for other purpose than industrial use) into risk assessment. [Calculation example] When Tm = 0.05 s, Ts = 0.01 s, and d = 14 mm: S = 1,600 mm/s x (0.05 s + 0.01 s) + 1200 - 0.4 x 500 mm = 1096 mm When a warning zone is configured as in the figure, you must calculate L, a distance from an end of casing to a detection zone, using a formula below: How to calculate the safety distance specified by American standard ANSI B11.19 (Ref.) If a person approaches the detection zone of the F3SJ orthogonally, calculate the safety distance as shown below. S = K x (Ts + Tc + Tr + Tbm) + Dpf • S: Safety distance • K: Approach speed to the detection zone (the value recommended by OSHA standard is 1,600 mm/s) Approach speed K is not specified in the ANSI B.11.19 standard. To determine the value of K to apply, consider all factors, including the operator's physical ability. • Ts = Machine's stop time (s) • Ts = Response time of the F3SJ from ON to OFF (s) • Tc = Machine control circuit's maximum response time required to activate its brake (s) • Tbm = Additional time (s) If a machine has a brake monitor, "Tbm = Brake monitor setting time - (Ts + Tc)". If it has no brake monitor, we recommend using 20% or more of (Ts + Tc) as additional time. • Dpf = Additional distance According to ANSI's formula, Dpf is calculated as shown below: Dpf = 3.4 x (d - 7.0): Where d is the detection capability of the F3SJ (unit: mm) [Calculation example] When K = 1,600 mm/s, Ts + Tc = 0.06 s, brake monitor setting time = 0.1 s, Tr = 0.01 s, and d = 14 mm: Tbm = 0.1 - 0.06 = 0.04 s Dpf = 3.4 x (14 - 7.0) = 23.8 mm S = 1,600 mm/s x (0.06 s + 0.01 s + 0.04 s) + 23.8 mm = 199.8 mm L = (Total number of F3SJ beams - number of warning zone beams - 1) x P + 10 • P: Beam Gap (mm) • F3SJ-AP14/N14 . . . 9 mm • F3SJ-AP20/N20 . . . 15 mm • F3SJ-AP25/N25 . . . 20 mm • F3SJ-AP30/N30 . . . 25 mm • F3SJ-AP55/N55 . . . 50 mm Hazard Safety distance (S) Detection zone Warning zone H Distance L from casing end to detection zone Refer to the F3SJ User's Manual for details. For manual number, check the "Related Manuals" at the end of the catalog. 42 F3SJ-E/F3SJ-B/F3SJ-A Distance from Reflective Surface F3SJ-E F3SJ-B F3SJ-A Mutual Interference Prevention F3SJ-E F3SJ-B F3SJ-A WARNING WARNING Install the sensor system so that it is not affected by reflection from a reflective surface. Failure to do so may hinder detection, resulting in serious injury. Install the sensor system at distance D or further from highly reflective surfaces such as metallic walls, floors, ceilings, or workpieces, as shown below. Reflective ceiling D Emitter Do not use the sensor system with mirrors in a regressive reflective configuration. Doing so may hinder detection. It is possible to use mirrors to "bend" the detection zone to a 90degree angle. When using more than 1 set of F3SJ, install them so that mutual interference does not occur, such as by configuring series connections or using physical barriers between adjacent sets. Mutual interference from other F3SJ is prevented in up to 3 sets without series connection. Receiver Detection zone L For series connection F3SJ-B F3SJ-A Series connection can prevent mutual interference when multiple sensors are used. Up to 3 sets with 192 beam for F3SJ-B series, or up to 4 sets with 400 beams for F3SJ-A series can be seriesconnected. Emission of series-connected F3SJ is time-divided, ensuring safety without occurring mutual interference. Emitter 1 Receiver 1 Emitter 2 Receiver 2 Emitter 3 Receiver 3 D Reflective floor Reflective surface Emitter D 5° 5° Receiver L Distance between emitter and receiver (operating range L) For 0.2 to 3 m For 3 m or more 43 Allowable installation distance D 0.13 m L/2 x tan5° = L x 0.044 (m) F3SJ-E/F3SJ-B/F3SJ-A No series connections F3SJ-B F3SJ-A Mutual interference is prevented in up to three sets, using interference light detection and cycle shift algorithm. If 4 or more sets of F3SJs are installed and are not connected to each other, arrange them so that mutual interference does not occur. If two sets are installed near each other, reflection from the surface of the F3SJ may cause mutual interference. When mutual interference occurs, the safety outputs are turned OFF momentarily or the F3SJ enters lockout state. Combining countermeasures 1 to 3 shown below is effective. Aligned horizontally Emitter 1 Aligned vertically Receiver 1 Emitter 2 Receiver 2 Emitter 1 Receiver 1 Emitter 2 Receiver 2 1. Install a physical barrier Emitter 1 Receiver 1 Emitter 2 Receiver 2 Aligned fore and aft Emitter 1 Receiver 1 Emitter 2 Receiver 2 2. Alternate the direction of emission (alternation) Aligned vertically Aligned horizontally Receiver 1 Emitter 1 Emitter 2 Receiver 2 Emitter 1 Receiver 1 F3SJ-A If two sets are installed near each other, reflection from the surface of the F3SJ may cause mutual interference. Use of F3SJ-A can improve the condition by shortening operating range with the setting tool. < Before the change > Emitter Receiver 2 Receiver Emitter 2 Interference light Aligned fore and aft Receiver 1 Emitter 1 Emitter 2 Receiver 2 Emitter < After the change > Emitter 3. Keep sufficient distance between the F3SJs so that mutual interference does not occur Emitter Receiver Receiver Interference light Emitter Receiver Emitter Receiver Receiver 5° D Emitter D Receiver Emitter 5° Receiver L Distance between emitter and receiver (operating range L) For 0.2 to 3 m For 3 m or more Allowable installation distance D 0.26 m L x tan5° = L x 0.088 (m) Installation shown below may cause mutual interference. When mutual interference occurs, the safety outputs are turned OFF momentarily or the F3SJ enters lockout state. 44 F3SJ-E/F3SJ-B/F3SJ-A Related Manuals Man. No. 45 Model Manual name SCHG-718 F3SJ-AP F3SJ-AP (Ver.2) Safety Light Curtain User's Manual SCHG-720 F3SJ-AP-TS F3SJ-AP-TS Safety Light Curtain User's Manual SCHG-722 F3SJ-AP-01TS F3SJ-AP-01TS Safety Light Curtain User's Manual SCHG-719 F3SJ-AN F3SJ-AN(Ver.2) Safety Light Curtain User's Manual SCHG-726 F3SJ-AN-01T F3SJ-AN-01T(Ver.2) Safety Light Curtain User's Manual SCHG-716 F3SJ-AMP F3SJ-AMP(Ver.2) Multi-beam Safety Sensor User's Manual SCHG-734 F3SJ-BP25-01TS F3SJ-BP25-01TS Safety Light Curtain User's Manual SCHG-733 F3SJ-EN25/BN25 F3SJ-EN25/BN25 Safety Light Curtain User's Manual SCHG-732 F3SJ-EP25/BP25 F3SJ-EP25/BP25 Safety Light Curtain User's Manual SCHG-712 F39-MC21 F39-MC21 F39-MC21 Setting Console Instruction Sheet SCHG-736 F3SJ-BP25-02TS F3SJ-BP25-02TS Safety Light Curtain User's Manual OMRON AUTOMATION AMERICAS HEADQUARTERS • Chicago, IL USA • 847.843.7900 • 800.556.6766 • automation.omron.com OMRON CANADA, INC. • HEAD OFFICE Toronto, ON, Canada • 416.286.6465 • 866.986.6766 • automation.omron.com OMRON ELETRÔNICA DO BRASIL LTDA • HEAD OFFICE São Paulo, SP, Brasil • 55 11 5171-8920 • automation.omron.com OMRON ELECTRONICS DE MEXICO • HEAD OFFICE Ciudad de México • 52.55.5901.4300 • 01.800.386.6766 • mela@omron.com OMRON ARGENTINA • SALES OFFICE Buenos Aires, Argentina • +54.11.4521.8630 • +54.11.4523.8483 mela@omron.com OMRON ELECTRONICS DE MEXICO • SALES OFFICE San Pedro Garza García, N.L. • 81.12.53.7392 • 01.800.386.6766 • mela@omron. com OTHER OMRON LATIN AMERICA SALES +54.11.4521.8630 • +54.11.4523.8483 • mela@omron.com OMRON ELECTRONICS DE MEXICO • SALES OFFICE Eugenio Garza Sada,León, Gto • 01.800.386.6766 • mela@omron.com 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 F23I-E-03 Note: Specifications are subject to change. © 2020 Omron. 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F3SJ-A2100P25-TS
物料型号: - 安全光幕F3SJ-A系列,包括不同检测能力和保护高度的型号。

器件简介: - F3SJ-A系列安全光幕是一种高功能型ADVANCED级别设备,支持手指保护和特殊应用。 - 设备具备多种功能,如部分消隐和消隐功能,可以通过PC工具检查系统状态。

引脚分配: - 未在文档中明确列出,但通常涉及PNP或NPN输出,以及可能的辅助输出或控制输入。

参数特性: - 检测能力支持手指保护。 - 光束间隙和操作范围根据型号有所不同,例如F3SJ-AP14型号的光束间隙为9mm,操作范围为0.2至9米。

功能详解: - 提供自检功能、外部测试功能、外部设备监控功能、联锁功能、辅助输出功能和消隐功能。

应用信息: - 适用于需要手指保护和特殊应用的场合,如机械臂保护、危险区域防护等。

封装信息: - 提供了详细的安装信息,包括标准安装支架和侧安装支架的尺寸,以及如何根据保护高度选择合适的支架。
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