Size: 2 (200), Valve Type: 1 (N.C.), Seal Material: B (FKM), Pressure Range: 70 (0 to 7 MPa), Thread: T (NPTF), Port Size: 15 (1/2, SGH200), Pilot Valve: Y (V116, for 7 MPa), Voltage: 5 (24VDC), Electrical Entry: D (DIN Terminal), Light/Surge Suppressor: Z (Light/Surge Suppressor, Non-polar)
Size: 200, Valve Type: N.C., Seal Material: FKM, Pressure Range: 0 to 7 MPa, Thread: NPT, Port Size: 1/2, SGH200, Pilot Valve: V116, for 7 MPa, Voltage: 110VAC/115VAC, 50/60 Hz, Electrical Entry: DIN Terminal, Light/Surge Suppressor: Light/Surge Suppressor, Non-polar, Manual Override: -, Bracket: -
Size: 200, Valve Type: N.C., Seal Material: FKM, Pressure Range: 0 to 7 MPa, Thread: NPT, Port Size: 1/2, SGH200, Pilot Valve: V116, for 7 MPa, Voltage: 24VDC, Electrical Entry: DIN Terminal, Light/Surge Suppressor: Light/Surge Suppressor, Non-polar, Manual Override: -, Bracket: -
Size: 200, Valve Type: N.C., Seal Material: FKM, Pressure Range: 0 to 7 MPa, Thread: NPTF, Port Size: 1/2, SGH200, Pilot Valve: V116, for 7 MPa, Voltage: 24VDC, Electrical Entry: DIN Terminal, Light/Surge Suppressor: Light/Surge Suppressor, Non-polar, Manual Override: -, Bracket: -
10% of rated voltageClass B2 W(0.08 A)InrushHolding50 dB
Fieldbus system EtherNet/IP compatible SI Unit EX600-DX#C1 (8 inputs) 0Dh 5 EX600-DY#B (8 outputs) 08h 9 Digital output unit EX600-DY#E (16 outputs) 18h 15 EX600-DY#F (16 outputs) 1Ah 15 EX600-DM#E (8 inputs/8 outputs) 1Ch 10 Digital I/O unit EX600-DM#F (8 inputs/8 outputs) 1Eh 10 EX600-AXA (2 inputs) 20h 14 Analogue input unit EX600-AXB (4 inputs) 24h 25 Analogue output unit EX600-AYA (2 outputs) 22h 21 Analogue I/O unit EX600-AMB (b2
Brackets Accessary i Symbol Contents B1 EXW1-NT1 For the following EX600-W models EX600-WEN1/2 EX600-WPN1/2 EX600-WSV1/2 EXW1-AB1 B2 EXW1-NT1 For the EXW1 series EXW1-AB2 As the brackets and the NFC Reader/Writer worsen the performance of wireless communication in the 2.4 GHz band, use them only during configuration and remove them during normal operation.
1993: *2) , 1. 2. 3. 1. 2. 3. 4. 4/11 FGX-OM-L007-C / 1 1.5 () 5/11 FGX-OM-L007-C FGD Series FGD , 0.5MPa 4080 oC 40 oC IN/OUT 0.1MPa , U IN/OUT 6/11 FGX-OM-L007-C 1. 1-1. 1 2 (1) 3 (2) 4 (3) (4) 5 (5) 6 (6) 7 (7) 8 (8) 9 (9) (10) (2 FGD*B ) 10 (11) (12) 18 (13) (14) 11 (15) (16) (17) 12 (18) 13 14 15 1-2. 16 17 FGD-KT001 FGDC 1 FGD-KT002 FGDE (1)(2)(3)(4) (FGD*B2
CR ,, (EE ) 2ROM E 2ROM (100 ,E ), 2ROM E (3) : # : ASCII ,, 30H ) # 0 0 V R 23H 30H 30H 56H 52H 23H+30H+30H+56H+52H=12BH 2B ,30H 32H 3BH : # 0 0 V R 2 ; [CR] 23H 30H 30H 56H 52H 32H 3BH 0DH )ASCII ASCII 09 A B C D E F ASCII 30H39H 41H 42H 43H 44H 45H 46H 30H39H 3AH 3BH 3CH 3DH 3EH 3FH 27 - (4) 1bit () bit (ON 1) b7 b6 b5 b4 b3 b2 b1 1 0 () ON () (5) VR # 0 0 V R [CR] No. #
Allowable load Table 7 0.044mAllowable moment OK Moment of inertia Find inertial moment of load to calculate I=m(a2+b2)/12+m2 I=0.15(0.062+0.042)/12+0.150.032 energy. Find I.
Grease application (Seal band part) Motor option Nil With Nil Without option B With lock N Without (Roller specification) Driver type Cable type Size Compatible Power supply Nil Without cable drivers voltage [V] 25 32 40 S Standard cable Nil Without driver R Robotic cable A1 LECSA1-S 100 to 120 (Flexible cable) A2 LECSA2-S 200 to 230 Cable length[m] B2 LECSB2-T 200 to 240 Nil Without cable
Select cable type and len gth surely. e xamp le S2S2Standard c able 2m+ d river LEC SS2 S2 Standard c able2m Nil Witho ut cab le and driver 100 to 120 LECSB1S B1 200 to 230 LECSB2S B2 100 to 120 LECSC1-S C1 *5 Mo tor cable and enc o der cable are included as a ccessories.
150 (10)I/O cable length * (9)Driver type * [m] (8)Cable length * [m] Power supply Without cable Nil Nil Without cable Compatible driver voltage(V) Without cable (Connector only) H 2 2 Nil Without driver 1 1.5 5 5 100 to 120 200 to 230 200 to 240 200 to 230 200 to 240 200 to 240 200 to 240 200 to 240 200 to 240 A1 LECSA1-S A 10 A2 LECSA2-S * The length of the encoder, motor and lock B2
LECP,LECA LECPA Output pin Output pin0 B1 12 Output pin0 Output pin1 B2 13 keykey Output pin2 B3 14 Output pin1 Output pin3 B4 15 Output pin4 B5 16 Output pin5 B6 17 Output pin6 B7 18 Output pin7 B8 19 Output pin8 B9 20 Last output pin Output pin9 B10 Output pin10 B11 Output pin11 B12 Output pin12 B13 (6-3-5) Input pin monitor It is possible to monitor the input pin of the controller with
solenoid valve status OFF and ON (0: OFF, 1: ON), and the output number starts at zero from LSB (least significant bit). (3) Fuse disconnection details The power supply fuse disconnection for the SI unit solenoid valves can be monitored by the link special register of the master station. 0: Normal 1: Fuse disconnected Buffer area of master station Example: QJ61BT11N b15 b14 b13 b12 b3 b2
Meaning of each bit (ON: 1) b7 b6 b5 b4 b3 b2 b1 in HOLD inputting Indication overflow 1 : fixed Indication underflow Counter overflow (reset is required) 0 : fixed Output of cylinder stop (Count Mode) (5) Communication format details Reading counts VR Command Block # 0 0 V R [CR] Unit No. Command Check sum code Response Block # 0 0 V R [CR] Unit No.
Driver type* I/O cable length[m] I/O [m] Compatible driver Power supply Nill Without cable voltage H Without cable (Connector only) Without driver Nill 1 1.5 B2 LECSB2-T9/Pulse input Absolute encoder 200V240V *When "Without driver" is selected for driver type, only "Nil: Without cable" can be selected. If I/O cables are required, please refer to the catalog.
Parallel I/O plug terminal table LATH2LATH5L A T H Terminal Insulator Insulator number colour Dot Dot colour colour A1 Red Light brown Red A2 Grey Black A3 Grey Yellow Red A4 Grey Black Cable length(L) I/O cable type A5 Green Light green Red A6 Grey Black 1 1m 2 Without shield A7 Grey Gray Red A8 Grey Black 3 3m 5 With shield A9 Grey White Red A10 Green Black 5 5m B1 Red Light brown Red B2
A2 Blue 0 V IN B2 A3 Green F.G. Make sure to ground with a resistance of 100 or less to use it as a reference electric potential for Ionizer. Signal input to turn ON/OFF the ventilation with fan and ion generation. NPN specification: Ventilation and ion generation is stopped by connecting to 0 V.
A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)