Suction Guard (Produced upon receipt of order) FHG Series T dimension) 0 1 5 None Differential pressure indicator Differential pressure indication switch Note) 1 2 3 4 5 1 2 3 4 1 2 3 4 340 410 480 550 620 430 530 630 730 560 650 750 850 04 (1/2B) 06 (3/4B) 08 (1B) 30 FH FH Note) N.C. and N.O. common Note) When the differential pressure indication 1 or 5 is selected, the connection method is 2 to 5. (0 and 1 cannot be selected.)
LF Body Switch rail FG X A FH XA HL HB Note 1) Note 1) FF D' Floating block FE Note 1) Section D-D' 20, 25, 32, 40 D Attached from top with CAP bolt Floating block L LA A LF Attached from bottom with CAP bolt Bolt size: MD XB WF FG XA 2-SS (Helical insert thread) Body R S HL Note 1) Note 2) HB FF Note 1) Switch rail FC D' Section D-D' (mm) A BA BB CC FC FE (1) FG FH HB (1) HL L LA LF MD
Calculation procedure (1) Preload Fh (set 0xF as initial value ). (2) Exclusive OR the first byte of the transmitted message with the value in (1). (3) Shift the result of (2) by one bit toward the least significant bit, and fill a zero into the most significant bit position. (4) If the least significant bit was a 1, exclusive OR the result of (3) with A001h. (Example 1).
The received message is deleted if the calculated CRC is different from the received CRC. 3.10 Checksum calculation method HRLE Series 3-8 HRX-OM-Z015 Chapter 3 Serial communication Calculation procedure 1 Preload Fh (set 0xF as initial value ). 2 Execute ExOR of 1 Byte (1st value) value and 1) value from the beginning of the transmitted data. 3 Shift the result of (2) by 1 bit toward the
Construction/Dimensions 6, 10, 15 D 4-SS thread depth S (helical insert screw) HL Attached from bottom with CAP bolt XA FH L 4Counter bore dia.
Dimensions 15 D HL XA FH 4-SS thread depth S (Helical insert depth) Attached from bottom with CAP bolt Bolt size: MD Attached from top with bolt L 4-recessed area diameter BB 4-recessed area depth CC LA A X A FG 4-BA LF Body Switch rail FG X A FH XA HL HB Note 1) Note 1) FF D Floating block FE Note 1) Section D-D 20, 25, 32, 40 D Attached from top with CAP bolt Floating block L LA A LF Attached
Line Filter FH34/44/54/64 Series How to Order FH 03 3 40 0 0 0 P 005 L Made to Order Hydraulic filter Nil X0 None (Standard) Operating pressure (Max.)
(Blanking cap) 3/4B Note) N.C. and N.O. common 1B 1 1/4B Nominal filtration 1 1/2B 074 105 149 74 m 105 m 149 m 2B 2 1/2B 3B 3 1/2B M Micromesh Element 4B FH FH Note) For flange connection only.
PN01 SII Configured Station Alias Node address setting value 00h 0h 0001h to Fh The value set in SII Configured Station Alias via network is the node address. 00h 0001h to Fh 0h (Note) The value of [Pr. PN01] is set as the node address. 01h to FFh 0h to Fh 0h (Note) The set value of the rotary switch (SW2/SW3) is set as the node address. Note.
Dimensions 15 D HL XA FH 4-SS thread depth S (Helical insert depth) Attached from bottom with CAP bolt Bolt size: MD Attached from top with bolt L 4-recessed area diameter BB 4-recessed area depth CC LA A X A FG 4-BA LF Body Switch rail FG X A FH XA HL HB Note 1) Note 1) FF D Floating block FE Note 1) Section D-D 20, 25, 32, 40 D Attached from top with CAP bolt Floating block L LA A LF Attached
Construction/Dimensions 10, 15 D 4-SS thread depth S (helical insert thread) HL Attached from bottom with cap bolt XA FH L 4Counter bore dia. BB Attached from top with cap bolt Bolt size: MD LA A 4Counter bore depth CC XA FG 4-BA LF Body Switch rail FG X A FH XA High Precision Guide Type REAH HB Note 1) FF Note 1) HL D' FE Note 1) Floating block Section D-D' Max.
Calculation procedure (1) Preload Fh (set 0xF as initial value). (2) Exclusive OR the first byte of the transmitted message with the value in (1) (3) Shift the result of (2) by one bit toward the least significant bit, and fill a zero into the most significant bit position. (4) If the least significant bit was a 1, exclusive OR the result of (3) with A001h (Example 1).
Instance attribute1 (Explicit message) ID Access rule Description Value 1 Get State 2 Get Instance_type 00h 3 Get TransportClass_trigger 83h 4 Get DeviceNetTM_produced_connection_id 5 Get DeviceNetTM_consumed_connection_id 6 Get DeviceNetTM_initial_comm_characteristics 21h 7 Get Produced_connection_size Fh 8 Get Consumed_connection_size Fh 9 Get/Set Expected_packet_rate 12 Get/Set Watchdog_timeout_action
Instance attribute1 (Explicit message) ID Access rule Description Value 1 Get State 2 Get Instance_type 00h 3 Get TransportClass_trigger 83h 4 Get DeviceNet_produced_connection_id 5 Get DeviceNet_consumed_connection_id 6 Get DeviceNet_initial_comm_characteristics 21h 7 Get Produced_connection_size Fh 8 Get Consumed_connection_size Fh 9 Get/Set Expected_packet_rate 12 Get/Set Watchdog_timeout_action
It might response to PLC a very high numerical value such as Fh in around outlet pressure 0. It is because of recognition that pressure is a minus side due to the error, and this is not a failure.
It might response to PLC a very high numerical value such as Fh in around outlet pressure 0. It is because of recognition that pressure is a minus side due to the erro, and this is not a failure.
It might response to PLC a very high numerical value such as Fh in around outlet pressure 0. It is because of recognition that pressure is a minus side due to the erro, and this is not a failure. (The response data from 8000h to Fh shows a minus side.)
For details, refer to the WEB catalog or Best Pneumatics No. 3. 15-E649 Series MGP Series MGP Dimensions: 12 to 100 With Flange MGPF Flange FC FD H G FF FE 4 x FG through B + Stroke C + Stroke FB FA FH [mm] Bore size B C FA FB FC FD FE FF FG FH G H 12 42 29 7 6 80 89 18 25 4.5 5 26 58 16 46 33 7 6 88 98 22 32 5.5 5 30 64 20 53 37 8 8 102 112 24 38 5.5 6 36 83 25 53.5 37.5 9 7 114 126 30