HRX-OM-W002 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.
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.
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.
SET MODE Operation keys SD SG RD RS-232C COM S.STOP OUT1 OUT2 OUT3 OUT4 OUT5 100 to 240 VAC Power supply Output terminal Communication terminals Display detail Upper limit Functions (PRESCL, OFFSET, STOP, OUTPUT, INPUT, BACKUP, RS-232, UNIT) Mode indicators COUNT PRESET FUNC. BANK NO.
AU MU CRQ2 MSQ MSZ B CRQ2X MSQX SOL.1 Rc1/4 (Port size) (Opposite side) D (g6) DD (h9) MRQ W K b SC F H l U VJ 35 44.5 SE SD BA 37 76 107 S VL SB 49 (Max.) BA VH VK A C Drawing shows the appearance for rotation of 90 and 100. * ( ) are the dimensions for rotation of 180 and 190. Drawing shows that SOL.1 is in the de-energized state.
RUN RD SD RUN/ERR ERR. T unit Can be connected with PLC I/O card for serial transmission. EX300-TMB1For models of Mitsubishi Electric Corporation EX300-TTA1For models of OMRON Corporation EX300-TFU1 For models of Fuji Electric Co., Ltd. EX300-T001 For general models Up to 32 points per unit.
29.1 EA 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 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 23.6 24
SET MODE SD SG RD RS-232C COM S.STOP OUT1OUT2OUT3OUT4OUT5 100 to 240 VAC MVGQ CC Please consult with SMC separately for a BCD cable with connector.
SET MODE SD SG RD RS-232C COM S.STOP OUT1OUT2OUT3OUT4OUT5 100 to 240 VAC MVGQ CC Please consult with SMC separately for a BCD cable with connector.
SET MODE SD SG RD RS-232C COM S.STOP OUT1OUT2OUT3OUT4OUT5 100 to 240 VAC MVGQ CC Please consult with SMC separately for a BCD cable with connector.
stroke end 2 m or less DOCOM 47 Upper limit setting P15R 1 Analog torque limit +10 V/Maximum torque TLA 27 LG 28 SD plate 2 m or less PC LEC-MR-SETUP221 CN5 USB cable + Note 1) PE Note 1) For preventing electric shock, be sure to connect the servo amplifier,s protective earth (PE) terminal to the control panel,s protective earth (PE).
Signal contents RS-232C RS-485 1 Unused BUS+ 2 RD Unused 3 SD Unused 4 Unused Unused 5 SG SG 6-8 Unused Unused 9 Unused BUS 8 Contact b for output cutoff alarm (closed when alarm occurs) 3 9 Contact a for upper/lower temp. limit alarm (open when alarm occurs) 10 Common for upper/lower temp. limit alarm 4 11 Contact b for upper/lower temp. limit alarm (closed when alarm occurs) 12-14 Unused
Terminal resistance 1 1 1 9 5 9 5 9 5 SDSD+ SDSG SD+ SD+ SD+ SG SDSG SDSG Terminal resistance120 Master This product This product This product (first slave) second slave 31st slaves Do not connect any wire to other PIN numbers. Fig. 3-9 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 SDSD+ SDSG SD+ SD+ SD+ SG SDSG SDSG Terminal resistance120 Master This product This product This product (first slave) second slave 31st slaves Do not connect any wire to other PIN numbers. Fig. 3-9 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 SDSD+ SDSG SD+ SD+ SD+ SG SDSG SDSG Terminal resistance120 Master This product This product This product (first slave) second slave 31st slaves Fig. 3-10 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 SDSD+ SDSG SD+ SD+ SD+ SG SDSG SDSG Terminal resistance120 Master This product This product This product (first slave) second slave 31st slaves Do not connect any wire to other PIN numbers. Fig. 3-10 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 SDSD+ SDSG SD+ SD+ SD+ SG SDSG SDSG Terminal resistance120 Master This product This product This product (first slave) second slave 31st slaves Do not connect any wire to other PIN numbers. Fig. 3-10 Connection of RS-485 Tips Both ends of the communication connection (the end nodes) need to be connected to the host computer.
Terminal resistance Terminal resistance 2 2 2 7 5 7 5 7 5 SDSD+ SDSG SD+ SD+ SD+ SG SDSG SDSG Controller This product (First device) This product This product (31st device) (Second device) Do not connect any wire to other PIN numbers.