SV FG SD FG SD FG SD FG CANL Twisted pair wire with shield FG BDL Type 3 ground Type 3 ground Type 3 ground Type 3 ground CANH V + Connect the shielding wire to the SD terminal.
FG SD FG SD FG SD FG CANL Twisted pair wire with shield FG BDL Class 3 ground Class 3 ground Class 3 ground Class 3 ground CANH V+ Connect the shielding wire to the SD terminal.
New Products Guide 2 Air Preparation Equipment, Modular F. R. L., Air Tanks Fittings and Tubing Flow Control Equipment, Exhaust Filters Switches/Sensors Process Valves High Vacuum Equipment Temperature Control Equipment Pneumatic Instrumentation Process Gas Equipment Equipment CAT.E00-7A INDEX New Products Guide 2 Air Preparation Equipment/ Modular F. R. L./Air Tanks Refrigerated Air Dryer
-X 20High load shock absorber MY2HT Bore size Stroke H G Data (Shock absorber stroke) T S TT E SD EY EA EC Stroke adjusting unit Shock absorber FA EB W SD 27.3 23.6 24 E 14.4 19.7 29.1 EC 8 11.2 17.2 EY 27 36.2 57 FA 46.5 64.8 74.5 T 12 15 25 TT 5.6 (MAX. 11.2) 4.9 (MAX. 16.4) 5.9 (MAX. 21.9) EA 7 10.7 15.1 EB 21 26.6 37 S 67.3 73.2 99 W 28.6 37.2 51.6 Applicable cylinder MY2HT16 MY2HT25
If the shielding wire is not connected to the SD terminal, normal transmission will be impossible even for short distances. Furthermore, do not ground the shielding wire (SD).
DG DG Uni-wire System Uni-wire H System S-LINK System Send unit: SD-120 Send unit: SD-H2 S-LINK controller: SL-CU1 16 outputs 16 outputs 16 outputs (Type SDJ1) 8 outputs (Type SDJ2) 16 Series SQ1000 Kit (Serial Transmission Kit) S Type SDV Mitsubishi Electric Corporation CC-LINK System Type SDR1, SDR2 OMRON Corporation CompoBus/S Type SDQ DeviceNet Terminal block LED description Note
If it is not connected to the SD terminal, normal transmission is impossibile even for a short distance.
Function Upper level device 1 NC NC White 2 SD+ (Transmit data +) pcs. 3 SD+ SD+ 4 SDSDSD(Transmit data -) Black 5 NC SG (Signal ground) 6 NC 7 NC GND (0 V power supply) 8 NC CN1 No. Function 1 DC1 (-) DC1 (+) 2 pcs. A wiring example of multiple controllers (3 pcs.) connected to an upper level device is shown below.
Terminal resistance 1 1 1 9 5 9 5 9 5 SD SD+ SD SG SD+ SD+ SD+ SG SD SG SD SG Termina resistance l 120 ? Master This product This product This product (first slave) (second slave) st (31 slaves) Do not connect any wire to other PIN numbers. Fig 3-8 Connection of RS-485 [Tips] Both ends of the communication connection (the end nodes) need to be connected to the host computer.
Terminal resistance 1 1 1 9 5 9 5 9 5 SD SD+ SD SG SD+ SD+ SD+ SG SD SG SD SG Termina resistance l 120 ? Master This product This product This product (first slave) (second slave) st (31 slaves) Do not connect any wire to other PIN numbers. Fig 3-7 Connection of RS-485 [Tips] Both ends of the communication connection (the end nodes) need to be connected to the host computer.
Terminal resistance 1 1 1 9 5 9 5 9 5 SD SD+ SD SG SD+ SD+ SD+ SG SD SG SD SG Termina resistance l 120 ? Master This product This product This product (first slave) (second slave) st (31 slaves) Do not connect any wire to other PIN numbers. Fig 3-11 Connection of RS-485 [Tips] Both ends of the communication connection (the end nodes) need to be connected to the host computer.
UL/C-ULK5 2. 80ms 11 24 11 11.7 (1) (a) () SD 1 (3.12) (b) ( ) (c) () 11 25 11 M 1. 2. 3. () 4. 5. 1. 2. 3. () 4. 1.()(FR-BIF-(H)) 2.
The system comes in an SA (generic for small scale systems) for equipment with a small number of I/O points, or 32 points Max., SB (applicable to Mitsubishi Electric models), for controlling 512 I/O points Max., SC (applicable to OMRON models), and SD (applicable to Sharp models; 504 points Max.). 8 stations Max. Optional 16 stations possible.
DE 2-JU FD BC FA H Q AW (UU) SD BH DF (through) JD AY 2-P BG AX DG Front port (Plugged with a hexagon socket head set screw when side ports are used.) SF AV AU BB (Max. approx.
7 10.7 15.1 EB 21 26.6 37 EC 8 16.2 17.2 EY 27 36.2 57 FA 46.5 64.8 74.5 S 46.7 67.3 73.2 SD 6.7 17.7 T 7 12 15 TT 5.6 (MAX. 11.2) 4.9 (MAX. 16.4) 5.9 (MAX. 21.9) W 28.6 37.2 51.6 E 14.4 19.7 29.1 High load shock absorber MY2HT Bore size Stroke H G (Shock absorber stroke) T S TT E SD EY EA EC Stroke adjusting unit Shock absorber FA EB W Applicable cylinder MY2HT16 MY2HT25 MY2HT40 SD 27.3
D DDE 202-JU FD BC FA H Q AW (UU) SD BH DF (through) JD AY 2-P BG AX DG Front port (Plugged with a hexagon socket head set screw when side ports are used.) SF AV AU BB (Max. approx.
-X 20High load shock absorber MY2HT Bore size Stroke H G Data (Shock absorber stroke) T S TT E SD EY EA EC Stroke adjusting unit Shock absorber FA EB W SD 27.3 23.6 24 E 14.4 19.7 29.1 EC 8 11.2 17.2 EY 27 36.2 57 FA 46.5 64.8 74.5 T 12 15 25 TT 5.6 (MAX. 11.2) 4.9 (MAX. 16.4) 5.9 (MAX. 21.9) EA 7 10.7 15.1 EB 21 26.6 37 S 67.3 73.2 99 W 28.6 37.2 51.6 Applicable cylinder MY2HT16 MY2HT25
MY2H L unit S (Absorber stroke) T EY EC EA E Shock absorber SD Stroke adjustment unit FA FB W Adjustment bolt ED TT h E EA EC ED EY FA FB h S T SD TT W Shock absorber model Adjustment range Adjusting bolt Applicable cylinder MY2H16 MY2H25 MY2H40 RB0806 5.6 M5 x 0.8 x 25L 15.8 8.4 6.2 5 28 12.4 30 3.2 40.8 6 1.3 4.2 (Max. 9.8) 34.5 RB1007 11.5 M8 x 1.0 x 35L 19.6 10.6 10 5.5 37 19.3 44.8 4
+ SD SG 1 SD+ 9 SD 5 SG 1 SD+ 9 SD 5 SG Circuit diagram Terminal resistance 120 Master This product This product (1st slave) (31st slave) Be sure to wire to the correct pin numbers according to the diagram.