Table of Contents (Example) 40D-A3C-4, 63D-A3C-6, 100D-A3C-10 50D-A3C-5, 80D-A3C-8 1.08 0.32 0.38 0.38 0.73 Double knuckle Accessory bracket 0.19 0.05 0.05 0.05 0.14 Knuckle pin 10-12-49 7 Series CE2 Dimensions: 40 to 100 RC 1/4 Pressurized locking port RC P Rod side cylinder port RC P Head side cylinder port Basic style RC 1/4 Unlocking port Unlocked when pressurized 7 (6 core twisted pair shielded wire)
(Example) 40: D-A3C-4, 50: D-A3C-5, 63: D-A3C-6, 80: D-A3C-8, 100: D-A3C-10 Low Speed D-Z7/Z80 D-Y59/Y69 D-Y7P/Y7PV D-Y7W/Y7WV D-Y7BA MQ BA4-040 BA4-040 BA4-063 BA4-080 BA4-080 [Stainless Steel Mounting Screw] The following stainless steel mounting screw kit (including set screws) is also available. Use it in accordance with the operating environment.
Model: 504 (0.5 to 4.0 L/min), Thread Type: N (NPT), Port Size: 03 (3/8), I/O Specifications: A3 (IN1: 0-10 VDC, IN2: External Control Input, OUT1: 0-10 VDC), Lead Wire: C (Lead Wire with M12 connector, 3m, Bracket: R (with Bracket), Operation Manual: Y (None)
Model: 520 (2.0 to 16.0 L/min), Thread Type: N (NPT), Port Size: 03 (3/8), I/O Specifications: A1 (IN1: 1-5 VDC, IN2: External Control Input, OUT1: 1-5 VDC), Lead Wire: C (Lead Wire with M12 connector, 3m, Bracket: R (with Bracket), Operation Manual: Y (None)
Model: 520 (2.0 to 16.0 L/min), Thread Type: N (NPT), Port Size: 03 (3/8), I/O Specifications: A2 (IN1: 4-20mA, IN2: External Control Input, OUT1: 4-20mA), Lead Wire: C (Lead Wire with M12 connector, 3m, Bracket: R (with Bracket), Operation Manual: Y (None)
Model: 520 (2.0 to 16.0 L/min), Thread Type: R (Rc), Port Size: 04 (1/2), I/O Specifications: A2 (IN1: 4-20mA, IN2: External Control Input, OUT1: 4-20mA), Lead Wire: N (None), Bracket: R (with Bracket), Operation Manual: Y (None)
)F RY(n1)F RX(n+2)0 RY(n+2)0 RX(n+2)1 RY(n+2)1 RX(n+2)2 1 RY(n+2)2 RX(n+2)3 2 RY(n+2)3 6 RX(n+2)4 3 RY(n+2)4 7 RX(n+2)5 4 RY(n+2)5 8 RX(n+2)6 5 RY(n+2)6 RX(n+2)7 6 RY(n+2)7 RX(n+2)8 7 RY(n+2)8 RX(n+2)9 8 RY(n+2)9 RX(n+2)A RY(n+2)A RY(n+2)B RX(n+3)9 RY(n2)C 1 RX(n+3)A RY(n2)D 2 RX(n+3)B Ready RY(n2)E 3 RX(n+3)C RY(n+2)F RX(n+3)F RY(n+3)9 RY(n+3)A RY(n+3)B RY(n+3)F . n 15 5 15
No. output 8 PT7 RY(n 2)9 Reserved RX(n 2)A RY(n 2)A Position/speed specifying system selection to Reserved RX(n 2)F selection RX(n 3)0 RY(n 2)B Absolute value/incremental value to Reserved RY(n 2)C RX(n 3)9 to Reserved RX(n 3)A Problem ALM 15 RY(n 2)F RX(n 3)B Remote station communication ready CRD RY(n 3)0 to Reserved RX(n 3)C RY(n 3)9 to Reserved RY(n 3)A Reset RES RX(n 3)F Note.
No. output 8 PT7 RY(n 2)9 Reserved RX(n 2)A RY(n 2)A Position/speed specifying system selection to Reserved RX(n 2)F selection RX(n 3)0 RY(n 2)B Absolute value/incremental value to Reserved RY(n 2)C RX(n 3)9 to Reserved RX(n 3)A Problem ALM 15 RY(n 2)F RX(n 3)B Remote station communication ready CRD RY(n 3)0 to Reserved RX(n 3)C RY(n 3)9 to Reserved RY(n 3)A Reset RES RX(n 3)F Note.
Ry: U (1 ) BK RLS EMG Ry C 24V 24V M 24V 0V 0V (2 ) BK RLS Ry EMG C 24V 24V M 24V 0V 0V (3 ) BK RLS Ry EMG C 24V 24V M 24V 0V 0V OFF 24 - 3() DC24V M24V EMG () 0V DC24V Ry Ry: U (1 ) BK RLS EMG C 24V Ry 24V M 24V 0V 0V (2 ) BK RLS EMG C 24V Ry 24V M 24V 0V 0V (3 ) BK RLS EMG C 24V Ry 24V M 24V 0V 0V (1) DC24V M24V EMG 2M24V(SETUP ON) (M24V) 3M24VBK RLS 25 - 7.
Ry U (1 ) RG+ RG0V M 24V C 24V EMG BK RLS Ry 24V 0V (2 ) RG+ RG0V M 24V C 24V EMG BK RLS Ry 24V 0V (3 ) RG+ RG0V M 24V C 24V EMG BK RLS Ry 24V 0V OFF 21 - (3) () DC24V M24V EMG () DC24V 0V Ry Ry U (1 ) RG+ RG0V M 24V C 24V EMG BK RLS Ry 24V 0V (2 ) RG+ RG0V M 24V C 24V EMG BK RLS Ry 24V 0V (3 ) RG+ RG0V M 24V C 24V EMG BK RLS Ry 24V 0V DC24V M24V EMG M24V(SETUP ON) (M24V
Ry U (1 ) BK RLS EMG Ry C 24V 24V 0V 0V M 24V (2 ) BK RLS Ry EMG C 24V 24V 0V M 24V 0V (3 ) BK RLS Ry EMG C 24V 24V 0V M 24V 0V OFF 21 - 3() DC24V M24V EMG () DC24V 0V Ry Ry U (1 ) BK RLS EMG C 24V Ry 24V 0V M 24V 0V (2 ) BK RLS EMG C 24V Ry 24V 0V M 24V 0V (3 ) BK RLS EMG C 24V Ry 24V 0V M 24V 0V DC24V M24V EMG M24V(SETUP ON) (M24V) M24VBK RLS 22 - 6.
U Ry LK RLS6 Ry (1 ) (3) EMG (2) M 24V (1) C 24V 0V4 DC24V 0V LK RLS6 Ry (2 ) (3)EMG (2)M 24V (1)C 24V 0V4 DC24V 0V LK RLS(6) Ry 3 (3)EMG (2)M 24V (1)C 24V 0V(4) DC24V 0V OFF 28 - 32 DC24V M24V EMG () 0V DC24V Ry (1 ) (3)EMG LK RLS6 Ry (1)C 24V (2)M 24V 0V4 DC24V 0V (2 ) (3)EMG LK RLS6 Ry (1)C 24V (2)M 24V 0V4 DC24V 0V (3 ) (3)EMG LK RLS6 Ry (1)C 24V (2)M 24V 0V4 DC24V
Ry: U LK RLS (6) Ry (1 ) (3) EMG (2) M 24V (1) C 24V 0V (4) DC24V 0V LK RLS (6) Ry (2 ) (3) EMG (2) M 24V (1) C 24V 0V (4) DC24V 0V LK RLS (6) Ry (3 ) (3) EMG (2) M 24V (1) C 24V 0V (4) DC24V 0V OFF -28- (3)((2)) DC24V M24V EMG () 0V DC24V Ry (1 ) (3) EMG LK RLS (6) Ry (1) C 24V (2) M 24V 0V (4) DC24V 0V (2 ) (3) EMG LK RLS (6) Ry (1) C 24V (2) M 24V 0V (4) DC24V 0V (3 )
Bit area Input (RX) Output (RY) RDX EXW1-RDX* (16 points) 16 0 RDY EXW1-RDY* (16 points) 0 16 Compact wireless Remote RDM EXW1-RDM* (8 points) 16*1 16*1 *1: The number of inputs/outputs is fixed at 16 (16 bits), and only the lower 8 bits are valid. -72No.EX-OMZ0016-C EX600-W Series Unit name Model Unit product no.
FLOW CONTROLLER FOR WATER. Flow Controller for Water. 0.73000 lb. Q54.
Flow Controller for Water, FLOW CONTROLLER FOR WATER, Q54, 0.68000 lb
32 28 1401 to 1800 58 RY 40 28 1401 to 1800 65 50 33 1401 to 1800 75 63 43 1501 to 1800 90 80 100 Applicable to the CH2E, CH2F and CH2H series.
CN4 CN2 EMG+ EMG24V 0V (CN2SW)ON EMG+,EMG-(LEC)OFF (LEC)(EMG+,EMG-) 22 - (LEC) ()LEC6 DC24V 0V Ry EMG+ Ry EMG(1 ) BK RLS EMG Ry C 24V 24V M 24V 0V 0V (2 ) BK RLS EMG Ry C 24V 24V M 24V 0V 0V (3 ) BK RLS EMG Ry C 24V 24V M 24V 0V 0V (LEC)OFF 23 - 7.CN3 1 1 DA CC-Link A 2 2 DB CC-Link B 3 3 DG CC-Link 4 4 SLD CC-Link 5 5 FG CC-Link CC-Link CC-Link 1105%, 1/2W CC-Link
CN2TB/PC () 19 - .CN4 6.1 1 EMG+ EMG 2 EMGEMG 3 24V 5 4 3 2 () 4 0V 5 FG FG (LEC)(0V) ULUL1310Class2 6.2 2) AWG20(0.5mm (24V0V) 60 2) EMG AWG20(0.5mm (EMG+,EMG-) 60 8mm 20 - D(100) D 6.3 (CN2SW)ON(EMG+,EMG-) (LEC)EMG (CN2SW) RY CN4 CN2 EMG+ EMG24V 0V (CN2SW)ON EMG+,EMG-(LEC) OFF (LEC)(EMG+,EMG-) 21 - (LEC) ( LEC6) DC24V 0V Ry EMG+ Ry EMG(1) BK RLS EMG Ry C 24V 24V