V680S-D8KF67
Contents
1. Communications speed Normal mode Communications speed high speed mode gt T 3 500 E E o o 3 500 H 3 000 Write with verification Cc w Write 2 500 k O A N oe Write 5 winan venieanon without verification 2 500 2 000 5 5 O 2 000 O 1 500 1 500 1 000 7 r 500 0 500 1 000 1 500 2 000 2 500 0 500 1 000 1 500 2 000 2 500 No of bytes byte No of bytes byte V680 HA63B V680 HSLIL V680 H01 V2 V680 D8KFLIL V680 D32KFL_IL Communications Command speed setting Normal mode Write with verification T 1 6N 459 Write without verification T 1 3 N 50 High speed mode Read T 0 8N 25 See note Write with verification T 1 1N 41 Write without verification Note When using multi access or FIFO communications options normal mode communications speed will be used regardless of the high speed mode setting Communications speed Normal mode Communications speed high speed mode 3 500 wW 2 500 2 a g 3 000 Write with verification E wn 2000 cation E 2 500 6 Write w without verification O aS 1 500 i Z 2 000 1 500 S 8 1 000 Reading 1 000 500 500 0 500 1 000 1 500 2 000 2 500 0 200 400 600 800 1 000 1 200 No of bytes byte No of bytes byte RFID System User s Manual Section 3 Communications Specifications V680 HA63B V680 HSL_IL V680S D8KFLIL2. 119 Section 4 Installation V680S D8KF68 E RF Tag Installation Direction Two M4 Secure the RF Tag with M4 screws Tighten the screws to a torque of 0 7 to 1 2 N m E Effect of Metal behind RF Tags Reference The V680S D8KF68 communications range is reduced if there is any metal material behind the RF Tag V680 HS63 amp V680S D8KF68 V 680 HS65 amp V680S D8KF68 100 199 90 90 5 v 80 v 80 o S 70 S 70 2 ose 60 oe 60 C S 2 50 r 50 i g 40 S 40 o o 95 20 95 20 D 83 ep 8 3 G fs C Fe N e E 0 50 100 150 i 250 mm 0 50 100 150 200 250 mm Distance to metal x Distance to metal x Asana z Antenna x i Tag 2 T 5 T E Commu S 5 nications 2 on S range nications aa range gt X _ V680 H01 V2 amp V680S D8KF68 100 90 v 80 Z 70 ns 60 co z gt 50 cp G a Eg 4 Eo 30 EE os 10 ES 0 50 100 150 200 250 mm Distance to metal x Antenna oe _ RF Tag Q 2 a iS 5 4 v n 2 Commu gS nications range c O Z _ gt X q 120 RFID System User s Manual Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS63 is Used 130mm min 130m
3. 5 Refer to the V680 Series User s Manual Cat No Z249 for details A CHECK E Setting the Write Protection Function Write protection is set in RF Tag addresses 0000H to 0003H The setting for the most significant bit of address 0000H specifies whether or not write protection is enabled mws S r ee aee e a 0000H ke Upper two digits of start address 00 to 7F 0001H Lower two digits of start address 00to FF 0002H Upper two digits of end address 00 to FF 0003H Lower two digits of end address 00 to FF e Write protect Bit Most significant bit of address 0000H 1 Write protected Yes 0 Not write protected No e Write Protection Setting Area Start address OOOOH to 7FFFH End address 0000H to FFFFH RFID System User s Manual Section 2 Specifications and Performance E Write Protection Setting Examples e Settings to write protect addresses 0008H through 03E7H Address 0000H JJ TI Q Q Address 0000H 5 The write protection function is a function of the V680 CA5DO0 VO Controller and the CO1W V680COC ID Sensor Co Unit It is not supported by reader writer units from other manufacturers CHECK RFID System User s Manual 45 e TI Co MEMO RFID System User s Manual Section 3 Communications Specifications Communications ranges 48
4. OMRON Lo I J MADEIN APN L J MADEIN J ea U XXXKXXK XXXXXX CHECK RFID System 40 User s Manual Section 2 Specifications and Performance e Dimensions V680S D2KF68 D2KF68M D8KF68 D8KF68M Two 4 5 dia Unit mm mounting holes Mounting Hole Dimensions JJ TI Q Q Mounting height 10 LILLE Case material PPS resin RFID System User s Manual 4 Section 2 Specifications and Performance Memory Map E V680 D2KF52 V680S D2KF67 D2KF67M D2KF68 D2KF68M m Data Address FRAM is used as memory in the RF Tags The memory capacity available to the user is 2 000 bytes including OOOOH to 0003H the m cave Write Protection Setting Area JJ TI j Q Q E V680 D8KF67 D8KF67M D8KF68 Address j Daa FRAM is used as memory in the RF Tags The memory capacity available to the user is 8 192 bytes including OOOOH to 0003H the m 1 byte gt Write Protection Setting Area E V680 D32KF68 Address i Data d E FRAM is used as memory in the RF Tags 7FE6 H The memory capacity available to the user is 7FE7 H 32 744 bytes including 0000H to 0003H the 1 byte Write Protection Setting Area 5 RF Tag memory is 1 block of 8 bytes ILILIO hex to OO007 hex O0O08 hex to OOOF hex The communication between RF Tag and the antenna of the V680 V680S series is a blocks described above ea
5. Communication Time Reference 76 RFID System User s Manual 47 Section 3 Communications Specifications Communications ranges V680 D2KF52M E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read 0 5 to 5 5 mm Axis offset 2 mm V680 HS51 V680 D2KF52M Write 0 5 to 5 5 mm Axis offset 2 mm j 0 5 to 3 5 mm Axis offset 2 mm metal steel 0 5 to 3 5 mm Axis offset 2 mm 0 to 8 0 mm Axis offset 2 mm V680 HA63B V680 HS52 V680 D2KF52M 0 to 8 0 mm Axis offset 2 mm V680 HS52 metal steel 0 to 3 0 mm Axis offset 2 mm Read 0 to 9 5 mm Axis offset 2 mm V680 HS63 V680 D2KF52M Write 0 to 9 5 mm Axis offset 2 mm 5 ae When embedding the V680 D2KF52M into a metal surface use the V680 HS51 HS52 Antenna V680 D2KF52M A Transmission will not be possible if the V680 HS63 Antenna is used Pa Metal Metal Non metallic material Metal V680 D2KF52M Examples Resin plastic wood etc P Metal T V680 HS52 i k CHECK V680 D2KF52M Non metallic material Non metallic material Non metallic material V680 D2KF52M i V680 HS52 7 Examples Resin plastic wood etc V680 D2KF52M embedded in 0 to 3 0 mm Axis offset 2 mm e Measurement Conditions O O 3 3 2 O D O 5 D 9 5 oO V680 HS63 Non metallic material a Examples Resin plastic wood etc V680 D2KF52M N
6. Material Mounting Hole Dimensions Toothed washer Securely tighten the screws to a maximum torque of 6 N m CHECK V680 HS52 Install the Antenna using the nuts and toothed washers that are provided on both sides of the mounting material as shown in the diagram below T mp 2 Q gt mp D 5 D o aul When the Antenna is mounted to a metal object the communications range will be reduced by approximately 10 compared with mounting to a non metallic object For details on the effect of metal surrounding the Antenna refer to Effect of Surrounding Metals on the Antenna Reference on page 85 CHECK M P85 Non metallic material Nuts Mounting Hole Dimensions Antenna CHECK 80 RFID System User s Manual Section 4 Installation V680 HS63 E Installation from the Front Coil center Two M4 holes fo ATT Pre ah 40 m me E installation from the Back Insert the nuts that come with the Antenna into sections A Coil center Two 4 5 dia holes i Tr ft 3 a a i v 27 Q gt F D au Securely tighten screws to a maximum torque of 1 2 N m Q A N CHECK RFID System User s Manual 8 Section 4 Installation V680 HS65 mm Use M4 screws and spring washers in four places for 9040 2 Four M4 Antenna installation mounting holes ane ees Tighten the screws to a torque of 0 7 to 1 2 N m There are no restr
7. O 5 D 9 5 oO Non metallic material L metallic material Examples Resin plastic wood etc Metal Examples Resin plastic wood etc Examples Resin plastic wood etc V680 H01 V2 V680S D8KF68 We Non metallic material Non material Examples Resin plastic wood etc RFID System 72 User s Manual E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 72 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS63 with Metal on Back Surface V680 HS63 with Metal on Back Surface and V680S D8KF68 and V680S D8KF68 Read Write Horizontal facing RF Tag Read Write Vertical facing RF Tag Y Y y 100 80 60 40 20 0 20 40 60 80 X 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface V680 HS65 with Metal on Back Surface and V680S D8KF68 and V680S D8KF68 BeadiNiite Horizontal facing RF Tag Read Write Vertical facing RF Tag 250 200 150 100 50 0 50 100 150 200 X 250 200 150 100 50 0 50 100 150 200 X V680 H01 V2 with Non Metal on Back Surface V680 H01 V2 with Non Metal on Back Surface and V680S D8KF68 and V680S D8KF68 Horizontal
8. RFID System V680 Series User s Manual for Amplifiers Antennas and RF Tags FRAM Amplifier and Antennas V680 HA63B V680 HS51 V680 HS52 V680 HS63 V680 HS65 V680 H01 V2 RF Tags V680 D2KF52M V680 D2KF52M BT01 V680 D2KF52M BT11 V680 D8KF67 D8KF67M V680 D8KF68 D32KF68 V680S D2KF67 D2KF67M V680S D2KF68 D2KF68M V680S D8KF67 D8KF67M V680S D8KF68 D8KF68M Man No Z248 E1 08 Introduction Thank you for purchasing a V680 V680S series RFID System This manual describes the functions perfor mance and application methods needed for optimum use of the V680 V680S series RFID System Please observe the following items when using the RFID System e Allow the RFID System to be installed and operated only by qualified specialist with a sufficient knowledge of electrical systems e Read and understand this manual before attempting to use the RFID System and use the RFID Sys tem correctly e Keep this manual in a safe and accessible location so that it is available for reference when required aceite READ AND UNDERSTAND THIS DOCUMENT 5 ie Q c O Oo gt ee Product Overview Seed opecifications and Performance Seeile lt Communications Specifications See Installation Se ea Chemical Resistance RFID System V680 HA63B Amplifier V680 HS51 Antenna V680 HS52 Antenna V680 HS63 Antenna V680 HS65 Antenna V680 H01 V2 Antenna V680 D2KF52M RF Tag V680 D2KF52M BT01 RF Tag V680
9. ASA ea er 7E V y S oO 3 LO qm 50 l Insulation cover Coaxial cable 5 3 dia standard length 2 m Case material ABS resin Filling resin Epoxy resin PVC ack gt E D N F gt ep D O Q r D gt 5 3 D RFID System 22 User s Manual Section 2 Specifications and Performance Antennas with Built in Amplifier V680 H01 V2 E General Specifications Item Model V680 H01 V2 Ambient operating temperature Ambient storage temperature 10 to 55 C with no icing 35 to 65 C with no icing Ambient operating humidity Insulation resistance 35 to 85 with no condensation 20 MQ min at 100 VDC between connector terminals and the rear plate Dielectric strength 1 000 VAC 50 60 Hz for 1 min between connector terminals and the rear plate Degree of protection IP63 IEC60529 Mounting direction Communications surface facing up Dielectric strength 10 to 150 Hz 0 35 mm single amplitude acceleration 50 m s 10 sweeps in each of 3 axis directions up down left right and forward backward for 8 minutes each Shock resistance Cable length 150 m s2 3 times each in 6 directions Total 18 times 0 5 m use an relay cable to connect to the Controller up to 30 5 m LED indicators RUN COMM NORM ERR CNT TYPE TAG TYPE Error Code Level Weight Approx 900 g Co
10. E V680 D8KF67 D8KF67M e General Specifications 10 years after writing 70 C or less 6 years after writing 70 to 85 C 10 billion times per block 85 C or less Access frequencySee Note 1 10 billion times Ambient operating 20 to 85 C with no icing temperature Ambient storage 40 to 85 C with no icing temperature Ambient operating 35 to 85 humidity Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 See Note 2 Vibration resistance 10 to 2 000 Hz 1 5 mm double amplitude acceleration 150 m s 10 sweeps each in X Y and Z directions for 15 minutes each JJ TI j Q Q Shock resistance 500 m s2 3 times each in X Y and Z directions Total 18 times Dimensions 40 x 40 x 4 5 mm Materials Case PBT resin Weight Approx 8 g Approx 8 5 g Note 1 The number of accesses is the total number of reads and writes 2 Oil resistance has been tested using a specific oil as defined in the OMRON test method Note The total communication frequency of the Read or Write is called an access frequency The V680 D8KF67M is designed to be mounted directly to metal The V680 D8KF67 and V680 D2KF67M markings are shown in the following diagrams 680 D8KF67M 680 D8KF67 Z METAL OMRON IID V680 D8KF67M OMRON V680 D8KF67 The side with the markings is the communications surface Mount the RF Tag with this s
11. O D O 5 D 9 5 D o 100 80 60 40 20 0 20 40 60 80 X 250 200 150 100 50 0 50 100 150 200 X RFID System User s Manual 5 Section 3 Communications Specifications V680 D8KF67M E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range V680 D8KF67M Read O to 16 0 mm Axis offset 2 mm V680 HS52 with metal on back surface steel Write O to 16 0 mm Axis offset 2 mm V680 D8KF67M 0 to 25 0 mm Axis offset 10 mm with metal on back surface steel 0 to 25 0 mm Axis offset 10 mm V680 HA63B V680 HS63 V680 D8KF67M 0 to 25 0 mm Axis offset 10 mm V680 HS65 with metal on back surface steel 0 to 25 0 mm Axis offset 10 mm e Measurement Conditions V680 D8KF67M V680 HS63 Metal S V680 HS52 i a V680 D8KF67M Non metallic material Metal Non metallic material O O 3 3 O D O 5 D 9 5 oO V680 HS65 Metal V680 D8KF67M Metal RFID System 54 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 54 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS52 Embedded in Non Me
12. V680S D2KF68 D2KF68M 1 2 N m V680S D8KF67 D8KF67M 0 6 N m V680S D8KF68 D8KF68M 1 2 N m e Do not pull the Antenna connector over the power of 30 N The Antenna connector may be broken e Transmission will not be possible if the front and back panels are mistakenly reversed and the Unit is mounted to a metallic surface V680 D8KF67M V680S D2KF67M V680S D2KF68M V680S D8KF67M V680S D8KF68M RFID System User s Manual 5 Introduction e The transmission distance will be reduced when the Unit is not mounted to a metallic surface mounted to a metallic surface V680 D8KF67M V680S D2KF67M V680S D2KF68M V680S D8KF67M V680S D8KF68M e f multiple Antennas are mounted near each other communications performance may decrease due to mutual interference Refer to nstalling Antennas on page 80 and check to make sure there is no mutual interference e Depending on the operating environment the case surface may become fogged but basic perfor mance will not be affected eWhen Antenna only V680 H01 V2 is used in the United States and Canada the ferrite core ZCAT3035 1330 of the antenna s attachment is installed on controller s V680 CA5D01 VL DC power cable e The communications range is adversely affected if there is any metal material around the RF Tag e The maximum communications range can be obtained when the Antenna faces the RF tag directly When the RF tag is installed at a tilt the communications range is reduced Consider t
13. e V680 H01 V2 and V680S D8KF68 e V680 H01 V2 and V680S D8KF68 Horizontal facing RF Tag Vertical facing RF Tag Antenna Antenna 6 i RF Tag RF Tag Non metallic material Non metallic material 122 RFID System User s Manual Section 4 Installation V680S D8KF68M E RF Tag Installation Direction Secure the RF Tag with M4 screws Tighten the screws to a torque of 0 7 to 1 2 N m E Effect of Surrounding Metals The V680S D8KF68M can be surface mounted or it can be embedded in metal If it is embedded in metal the height of the metal casing must not exceed that of the RF Tag RF Tag RF Tag Embedded j Surface mounted 5 10mm max n i 3 Metal Metal Co Zz V680 HS63 and V680S D8KF68M V680 HS65 and V680S D8KF68M 7 _ _ Q z 100 5 100 90 90 amp 80 amp 80 70 70 2 ol 7 g 60 60 5 00 S 50 co co 50 40 50 40 ES Eo Ey 30 E Y 30 w 20 w 20 oO gt oO gt Ee 10 Ee 40 0 0 20 40 60 80 100 mm Distance to metal x Distance to metal x au RF Tag ative Metal RFID System User s Manual 123 Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS63 is Used 110mm min 110mm min e When V680 HS65 is Used 110mm min 110mm min 5
14. etc Non metallic material i Examples Resin plastic wood etc O O 3 3 O D O 5 D 9 5 oO Non metallic material V680 HO1 V2 V680 HS65 Non metallic material Examples Resin plastic wood etc V680S D2KF67 V680S D2KF67 I Metal Non metallic material Non metallic material RFID System 60 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 60 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS52 Embedded in Non Metal and V680S D2KF67 V680 HS63 with Non Metal on Back Surface and V680S D2KF67 Read Write Read Write 100 80 60 40 20 0 20 40 60 80 X 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface and V680S D2KF67 V680 H01 V2 with Non Metal on Back Surface and V680S D2KF67 Read Write Read Write RFID System User s Manual O O 3 3 2A O D O 5 D 9 5 D o 61 Section 3 Communications Specifications V680S D2KF67M E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range a Read O to 16 0 mm
15. mp 2 Q JJ TI Q Q 124 RFID System User s Manual Section 4 Installation E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680S D8KF68M RF Tag angle 0 30 40 60 V680 HS63 and V680S D8KF68M Horizontal facing RF Tag Metal on back Steel V680 HS63 and V680S D8KF68M Vertical facing RF Tag Metal on back Steel V680 HS65 and V680S D8KF68M Horizontal facing RF Tag Metal on back Steel V680 HS65 and V680S D8KF68M Vertical facing RF Tag Metal on back Steel eV680 HS63 and V680S D8KF68M e V680 HS63 and V680S D8KF68M 5 Horizontal facing RF Tag Vertical facing RF Tag c 7 E 2 g 3 Q RF Tag N RF Tag Antenna Antenna eV680 HS65 and V680S D8KF68M e V680 HS65 and V680S D8KF68M Horizontal facing RF Tag Vertical facing RF Tag z z g RF Tag RF Tag Antenna Antenna RFID System User s Manual 125 gt D 5 Q JJ TI j Q Q MEMO 126 RFID System User s Manual Section 5 Chemical Resistance Chemical Resistance of the Antennas Chemical Resistance of
16. to 95 humidity Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 See Note 2 Vibration resistance 10 to 2 000 Hz 1 5 mm double amplitude acceleration 150 m s2 10 sweeps each in X Y and Z directions for 15 minutes each Shock resistance 500 m s2 3 times each in X Y and Z directions Total 18 times Dimensions 8 dia x 5mm Materials Case PPS resin Filling resin Epoxy resin Weight Approx 0 5 g Note 1 The number of accesses is the total number of reads and writes 2 Oil resistance has been tested using a specific oil as defined in the OMRON test method e Dimensions RO 2 8 01 dia Ch __ Case material PPS resin 0 5 0 1 Filling resin Epoxy resin Unit mm 5 u When embedding the V680 D2KF52M into a metal surface use the V680 HS51 HS52 Antenna Transmission will not be possible if the V680 HS63 Antenna is used z CHECK gx S v The side with the markings is the communications surface Mount the RF Tag with this side facing the Antenna ww CHECK RFID System User s Manual 31 JJ TI j Q Q 32 Section 2 Specifications and Performance E V680 D2KF52M BT01 General Specifications 10 years after writing 55 C or less 2 9 years after writing 55 to 85 C 10 billion times per block 85 C or less Access frequency See note 10 billion times Ambient operatin
17. CS CJ1W V680C1L or V680 CA5DO0L1 V2 of production after October 2014 RFID System User s Manual 13 Section 1 Product Overview E Using a V680 H01 V2 Antenna with Built in Amplifier Personal computer Programmable Controller SYSMAC CS CJ Series 8 gt O D O I D O Q c O F V680 CA5D01 VO CS1W V680C11 CJ1W V680C 11 3 a D Q c c a S 5 es D 5 Z 2 V700 A40 W OM Always use the specified Cable to connect a fa O V680 H01 V2 Antenna The V680 H01 V2 Antenna cannot be connected without using the specified Cable V680 H01 V2 m S E N E c o SE When the V6800 DOKFO Dis used the V680 CA1D CA2D cannot be used V680 D8KF67 V680 D8KF68 D32KF68 V680S D2KF67 D8KF67 V680S D2KF68 D8KF68 N gt fF LL oc 5 When using a V680 D8KF LIL to use the CS CJ1W V680C1Ll or V680 CA5D0L V2 of production after October 2014 A kl A CHECK RFID System 14 User s Manual Section 2 Specifications and Performance Antennas with Separate Amplifier Antennas with Built in Amplifier x Amplifier RF Tags 23 28 31 RFID System User s Manual 15 Section 2 Specifications and Performance Antennas with Separate Amplifier V680 HS51 E General Specifications Item V680 HS51 Ambient operating 10 to 60 C with no icing temperature Ambient storage 25 to 75 C with no icing temperature Ambient operating 35 t
18. ES 30 TI EE EE o 4 o5 20 95 20 Q 33 FE 8 25 10 25 10 N E3 Ez a 0 50 100 150 200 250 mm 0 50 100 150 200 250 mm Distance to metal x Distance to metal x Ama RF Tag Antenna x RF Tag 5 J ox Oo T Y 5 T 2 _ _ Cc D Commu amp D Y la nications 2 Commu 5 range nications X range gt x _ V680 H01 V2 amp V680S D2KF68 100 90 o 80 Cc 70 fs 28 60 ae 50 N o gp Eo 30 EE 25 10 0 50 100 150 200 250 mm Distance to metal x Antenna lt lt _ RF Tag a Q 2 5 x 2 Commu S nications range c O Z X 7 RFID System User s Manual 10 Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS63 is Used 130mm min 130mm min e When V680 HS65 is Used 140mm min 140mm min 5 mp 2 Q JJ TI Q Q e When V680 H01 V2 is Used 250mm min 250mm min 110 RFID System User s Manual Section 4 Installation E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the commun
19. Installation Direction 1 Turn the RF Tag clockwise attach to the Mounting holes RF Ta A u V680 D2KF52M BT01 is attached to the mounting holes in the M10 A V680 D2KF52M BT11 to the mounting holes in the M8 CHECK Mounting Hole Pa 2 Secure by tightening the bolts of the RF Tag RF Tag x When mounting the RF Tag tighten the bolts to the following torques A7 V680 D2KF52M BT01 24 5 N m V680 D2KF52M BT11 11 N m CHECK mp 2 Q JJ TI Q Q E Mutual Interference with RF Tags Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave sufficient space between them as shown in the following diagram 25mm min 25mm min RFID System User s Manual 9 Section 4 Installation E Influence of Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be shortened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680 D2KF52M BT01 D2KF52M BT11 RF Tag 8 V680 HS51 M and V680 D2KF52M BT01 D2KF52M BT11 a ae 50 V680 HS52 and V680 D2KF52M BT01 D2KF52M BT11 ve 32 42 The measurement is no possible because the RF Tag comes in contact with the Antenna eV
20. RF Tags Degree of Protection 128 129 132 RFID System User s Manual 127 Section 5 Chemical Resistance Chemical Resistance of the Antennas Applicable Models V680 HS51 V680 HS52 W R V680 HS63 W R V680 HS65 W R V680 H01 V2 ABS resin is used for case material and epoxy resin for filling material Refer to the following lists and do not use chemicals that affect ABS and epoxy resin E Chemicals That Cause Deformations Cracks Etc Trichlene acetone xylene toluene gasoline creosol Aqua regia chromic acid sulfuric acid 90 RT methylene chloride phenol cyclohexane aqua regia nitric acid 60 RT ammonia solution acetone chromic acid sulfuric acid 90 RT methyl ethyl methylene chloride phenol ketone aniline nitrobenzine monochlorobenzine pyridine nitric acid 60 RT formic acid 80 RT E Chemicals That May Cause Discoloration Swelling Etc Hydrochloric acid alcohol Freon sodium hydroxide Sulfuric acid 10 RT nitric acid 10 RT hydrochlo hydrogen peroxide benzine sulfuric acid 10 RT ric acid 80 RT acetic acid 50 RT oxalic acid nitric acid 10 RT phosphoric acid 85 RT calcium hydroxide benzine creosol alcohol cyclohex ammonia solution ane toluene xylene benzine grease E Chemicals That Do Not Affect ABS Resin or Epoxy Resin Ammonia kerosine mineral oil developer Yushiroken Ammonia hydrochloric acid 10 RT potassium S50 Chemi
21. extent of changes in PPS resin exposed to each chemical at room temperature and at 90 C If actual chemicals concentrations and temperatures are different from those shown in the tables always conduct tests under the actual conditions in which the RF Tags are to be used RFID System User s Manual 131 UO Q p O D O F O 132 Section 5 Chemical Resistance Degree of Protection Ingress protection degrees IP LILI are determined by the following tests Be sure to check the sealing capa bility under the actual operating environment and conditions before actual use IP indicates the ingress protection symbol E JEC International Electrotechnical Commission Standards IEC 60529 2001 IP B A First Digit Degree of Protection from Solid Materials Degree Degree 50 mmda Protects against penetration of any solid object such as a hand that is 50 mm or more in diameter _i L l 125mmdia Protects against penetration of any solid object such as a finger that is 12 5 mm or more in diame ter Protects against penetration of any solid object such as a wire that is 2 5 mm or more in diameter Protects against penetration of any solid object such as a wire that is 1 mm or more in diameter Protects against penetration of dust of a quantity that may cause malfunction or obstruct the safe operation of the product Protects against penetration of
22. facing RF Tag Y Read Write 200 V680 HS65 with Metal on Back Surface and V680 D8KF68 D32KF68 with Attachment V680 A81 i Read Write Metal on back Steel Vertical facing RF Tag 250 200 150 100 50 0 50 100 150 200 X V680 H01 V2 with Non Metal on Back Surface Read Write and V680 D8KF68 D32KF68 Horizontal facing RF Tag V 680 H01 V2 with Non Metal on Back Surface and V680 D8KF68 D32KF68 Vertical facing RF Tag Read Write 250 200 150 100 50 0 50 100 150 200 X RFID System User s Manual O O 3 3 O D r O 5 D 9 D o 59 Section 3 Communications Specifications V680S D2KF67 E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read 0 to 17 0 mm Axis offset 2 mm V680 HS52 V680S D2KF67 Write 0 to 17 0 mm Axis offset 2 mm 7 0 to 30 0 mm Axis offset 10 mm 7 0 to 30 0 mm Axis offset 10 mm 0 to 42 0 mm Axis offset 10 mm 0 to 42 0 mm Axis offset 10 mm Read 0 to 100 0 mm Axis offset 10 mm V680 H01 V2 V680S D2KF67 Write 0 to 100 0 mm Axis offset 10 mm e Measurement Conditions V680 HA63B V680 HS63 V680S D2KF67 V680 HS65 V680S D2KF67 V680S D2KF67 V680 HS63 V680 HS52 j O ana Non metallic material V680S D2KF67 Examples Resin plastic wood
23. oO N O O O O O 10 20 30 40 50 mm Distance to metal x 10 20 30 40 50 mm Distance to metal x V680 HS65 and V680S D8KF67M The communications range without metal is 100 Distance to metal x RF Tag Metal 118 RFID System User s Manual Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS52 V680 HS63 and V680 HS65 are Used 80mm 80mm E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680S D8KF67M RF Tag angle 0 0 V680 HS52 and V680S D8KF67M Metal on back Steel V680 HS63 and V680S D8KF67M Metal on back Steel V680 HS65 and V680S D8KF67M Metal on back Steel 0 e V680 HS52 and V680S D8KF67M a RF Tag a Antenna Non A material eV680 HS65 and V680S D8KF67M Metal RF Tag Antenna RFID System User s Manual mp 2 Q JJ TI j Q Q
24. oil as defined in the OMRON test method e Dimensions V680 D2KF68 D2KF68M Two 4 5 dia Unit mm mounting holes Mounting Hole Dimensions Ps 44 Two M4 76 Case material PBT resin Filling resin Epoxy resin 1 The side with the markings is the communications surface Mount the RF Tag with this side facing the Antenna g CHECK RFID System 36 User s Manual Section 2 Specifications and Performance V680 A81 Attachment Unit mm Two 4 5 dia mouting holes Mounting Hole Dimensions Ps 44 Two M4 76 JJ TI Q Q RFID System User s Manual Section 2 Specifications and Performance E V680S D2KF67 D2KF67M D8KF67 D8KF67M e General Specifications Item Model V680S D2KF67 V680S D2KF67M V680S D8KF67 V680S D8KF67M Memory capacity 2 000 bytes user area 8 192 bytes user area Memory type FRAM Data Retention 10 years after writing 85 C or less Write Endurance One trillion writes for each block 85 C or less Access frequency See notet One trillion writes Ambient operating 20 to 85 C with no icing temperature Ambient storage 40 to 125 C with no icing temperature Ambient operating 35 to 85 humidity Degree of protection IP68 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0820 2003 Appendix 1 See note2 IPX9K DIN 40 050 JJ TI j Q Q Vibration resistance 10 to 2 0
25. range is shown below Percentage Drop in Communications Range According to Angle of V680S D8KF67 Section 4 Installation RF i 0 V680 HS52 and V680S D8KF67 0 1 9 V680 HS63 and V680S D8KF67 0 1 12 V680 HS65 and V680S D8KF67 0 1 12 V680 H01 V2 and V680S D8KF67 0 e V680 HS52 and V680S D8KF67 Antenna e V680 HS65 and V680S D8KF67 Metal RF Tag Antenna 1 e V680 HS63 and V680S D8KF67 15 RF Tag Antenna Non A material e V680 H01 V2 and V680S D8KF67 Non ral material l RFID System User s Manual spel J4 Buljeysu 117 Section 4 Installation V680S D8KF67M E RF Tag Installation Direction Mount the V680S D8KF67M to a metal surface and secure the RF Tag with M3 screws Tighten the screws to a torque of 0 6 N m or less 2 M3 E Effect of Surrounding Metals The V680S D8KF67M can be surface mounted or it can be embedded in metal If it is embedded in metal the height of the metal casing must not exceed that of the RF Tag fl RF Tag RF Tag D Embedded j Surface mounted OOo 5mm max Bites e Metal Metal JJ TI D 9 V680 HS52 and V680S D8KF67M V680 HS63 and V680S D8KF67M 100 100 90 90 80 80 70 70 60 60 50 50 D O The communications range without metal is 100 ie O The communications range without metal is 100 N W O
26. 0 2 Q 40 28 20 5 2 20 og 10 FE 0 100 150 A mm Distance to metal x Antenna il Tag Metal Metal on back tions range Le The communications range without metal is 100 The communications range without metal is 100 Section 4 Installation 2 M3 100 mp 2 Q JJ TI Q Q Distance to yrds Antenna Metal i Metal on back e tions range ce V680 H01 V2 and V680S D8KF67 100 90 80 70 60 50 40 30 20 10 0 100 150 Distance to metal x x Antenna RF Tag Y gt Metal on back Communica tions range Non metallic material ele RFID System User s Manual 115 Section 4 Installation E Mutual Interference with RF Tags Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS52 V680 HS63 and V680 HS65 are Used 100mm 100mm e When V680 H01 V2 are Used 200mm 5 mp 2 Q JJ TI j Q Q 116 RFID System User s Manual E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications
27. 0 mm 0 to 42 0 mm Axis offset 10 mm V680 HS65 V680 D8KF67 0 to 42 0 mm Axis offset 10 mm Read 0 to 100 0 mm Axis offset 10 mm V680 H01 V2 V680 D8KF67 Write 0 to 100 0 mm Axis offset 10 mm e Measurement Conditions V680 D8KF67 V680 HS63 Non metallic material Examples Resin plastic wood etc V680 HS52 i Z i Non metallic material V680 D8KF67 Non metallic material Examples Resin plastic wood etc V680 H01 V2 Non metallic material V680 HS65 Non metallic material Examples Resin plastic wood etc V680 D8KF67 V680 D8KF67 1 Metal Non metallic material Non metallic material RFID System User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 52 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V 680 HS52 Embedded in Non Metal and V680 D8KF67 V680 HS63 with Non Metal on Back Surface and V680 D8KF67 Read Write Read Write 100 80 60 40 20 0 20 40 60 80 X 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface and V680 D8KF67 V680 H01 V2 with Non Metal on Back Surface and V680 D8KF67 Read Write Read Write O O 3 3 2A
28. 0 years after writing 85 C or less Write Endurance One trillion writes for each block 85 C or less Access frequency See notet One trillion writes Ambient operating 20 to 85 C with no icing temperature Ambient storage 40 to 125 C with no icing temperature Ambient operating 35 to 85 humidity Degree of protection IP68 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0820 2003 Appendix 1 See note2 IPX9K DIN 40 050 JJ TI j Q Q Vibration resistance 10 to 500 Hz 1 5 mm double amplitude acceleration 100 m s2 10 sweeps each in X Y and Z directions for 11 minutes each Shock resistance 500 m s2 3 times each in X Y and Z directions Total 18 times Materials Exterior PPS resin Approx 44 g pene 46g Approx 44 g pee 46g Metal countermeasures None None Note 1 The number of accesses is the total number of reads and writes 2 Oil resistance has been tested using a specific oil as defined in the OMRON test method The V680S D2KF68M D8KF68M is designed to be mounted directly to metal The V680S D2KF68 D2KF68M D8KF68 and V680S D8KF68M markings are shown in the following diagrams 680S D2KF68M D8KF68M 680S D2KF68 D8KF68 J IOl lor gt J A i 1E V680S D2ZKF68M V68OS D2KFE8 METAL l RUBEN Saupe S D SHEN Serarator OOO 0000X Te E Pe ees en ee J L lou D D V680S DSKF68M VE80S DSKFES
29. 00 Hz 1 5 mm double amplitude acceleration 150 m s2 10 sweeps each in X Y and Z directions for 15 minutes each Shock resistance 500 m s2 3 times each in X Y and Z directions Total 18 times Materials Exterior PPS resin Approx 11 5 g pene 12g Approx 11 5 g pee 12g Metal countermeasures None None Note 1 The number of accesses is the total number of reads and writes 2 Oil resistance has been tested using a specific oil as defined in the OMRON test method The V680S D2KF67M D8KF6 7M is designed to be mounted directly to metal The V680S D2KF67 D2KF67M D8KF67 and V680S D8KF67M markings are shown in the following diagrams 680S D2KF67M D8KF67M 680S D2KF67 D8KF67 ID SS V680S D2KFS7 a a ee iS CHECK 5 When using a V680 D8KFOL to use the CS CJ1W V680C10O or V680 CA5D00 V2 of production after October 2014 S v zs CHECK RFID System 38 User s Manual Section 2 Specifications and Performance e Dimensions V680S D2KF67 D2KF67M D8KF67 D8KF67M Unit mm Two 3 5 dia mounting holes Mounting Hole Dimensions JJ TI Q Q Mounting height 5 RFID System User s Manual 3 Section 2 Specifications and Performance E V680S D2KF68 D2KF68M e General Specifications Item Model V680S D2KF68 V680S D2KF68M V680S D8KF68 V680S D8KF68M Memory capacity 2 000 bytes user area 8 192 bytes user area Memory type FRAM Data Retention 1
30. 3 RFID System User s Manual 11 Section 1 Product Overview Features The V680 series RFID System actively supports many different types of system such as distributed control systems and many product small lot production systems with non contact data communications using electromagnetic induction TI D Q me c D r E Non contact Data Communications The V680 V680S Series uses electromagnetic induction to enable non contact bi directional data communications between Antennas and RF Tags E FRAM Memory FRAM non volatile memory is used for RF Tag memory No battery is required so there is no need to be concerned about battery service life E CRC Used for Transmission Error Detection A bi directional 16 bit CRC Cyclic Redundancy Check has been added as the error detection method for wire transmissions between ID Controllers and Antennas and for wireless transmissions between Antennas and RF Tags This method maintains superior communications reliability even where prob lems such as noise occur E Memory Capacity of 2 000 8K or 32K Bytes RF Tags have a memory capacity of 2 000 8K or 32K bytes In addition to the ID data required on site data such as model numbers and inspection information can be input E Long service life 10 billion accesses The FRAM memory can be accessed up to 10 billion times or more in units of single 8 byte blocks V680 series 10 billion times V680S series one trillion times E
31. 4 Installation E Mutual Interference with RF Tags Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS52 V680 HS63 and V680 HS65 are Used 100mm 100mm e When V680 H01 V2 are Used 200mm mp 2 Q JJ TI Q Q RFID System User s Manual 105 Section 4 Installation E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680S D2KF67 RF Tag angle 0 VERE HSPE ANU VORIS ener 0 1 2 3 5 9 15 V680 HS63 and V680S D2KF67 V680 HS65 and V680S D2KF67 Veet eine ane VOROS DAREG 0 1 2 5 9 15 23 35 eV680 HS52 and V680S D2KF67 e V680 HS63 and V680S D2KF67 D 6 D 0 z f p f JJ i gt Antenna mle pe ie Q Antenna Non metallic material eV680 HS65 and V680S D2KF67 e V680 H01 V2 and V680S D2KF67 natal 0 material 9 See Metal RF Tag RF Tag Antenna Antenna 106 RFID System User s Manual Section 4 Installation V680S D2KF67M E RF Tag Installati
32. 67 Read Write Read Write V 680 HS65 with Metal on Back Surface and V680S D8KF67 V 680 H01 V2 with Non Metal on Back Surface and V680S D8KF67 Read Write Read Write O O 3 3 2A O D O 5 D 9 5 D o 250 200 150 100 50 0 50 100 150 200 X 250 200 150 100 50 0 50 100 150 200 X RFID System User s Manual 69 Section 3 Communications Specifications V680S D8KF67M E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read O to 16 0 mm Axis offset 2 mm V680 HS52 V680S D8KF67M with metal on back surface steel Write 0 to 16 0 mm Axis offset 2 mm V680S D8KF67M 6 0 to 25 0 mm Axis offset 10 mm V680 HA63B V680 HS63 with metal on back surface steel 6 0 to 25 0 mm Axis offset 10 mm V680S D8KF67M 0 to 25 0 mm Axis offset 10 mm V680 HS65 with metal on back surface steel 0 to 25 0 mm Axis offset 10 mm e Measurement Conditions V680S D8KF67M V680S HS63 f Metal fT V680 HS52 i iz V680S D8KF67M Non metallic material Metal Non metallic material O O 3 3 2 O D O 5 D 9 5 o V680 HS65 Metal V680S D8KF67M Metal RFID System 70 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogatio
33. 680 HS51 e V680 HS52 and V680 D2KF52M BT01 D2KF52M BT11 and V680 D2KF52M BT01 D2KF52M BT11 Steel RF Tag RF Tag A Nuts sat FE 5 Ah ian f JJ q D ii Toothed Y Metallic material Metallic material a washer Non Metallic material Antenna 9 Non Metallic material User s Manual V680 D8KF67 E RF Tag Installation Direction Secure the RF Tag with M3 screws Tighten the screws to a torque of 0 6 N m or less Section 4 Installation 2 M3 32 E Effect of Metal behind RF Tags Reference The V680 D8KF67 communications range is reduced if there is any metal material behind the RF Tag V680 HS63 and V680 D8KF67 The communications range without metal is 100 The communications range without metal is 100 V680 HS52 and V680 D8KF67 100 90 80 70 60 50 40 30 20 10 0 peer gt mele RF a Antenna Metal on back Y Communica tions range pe X ee V680 HS65 and V680 D8KF67 100 90 80 70 60 50 40 30 20 10 m 0 m pace ts E Antenna Tag Metal Metal on back tions range n lt The communications range without metal is 100 The communications range without metal is 100 100 90 80 70 60 50 40 30 20 10 0 ess to ete Antenna RF a y Metal on back Communica tions _ x ran
34. Axis offset 2 mm V680 HS52 V680S D2KF67M with metal on back surface steel Write 0 to 16 0 mm Axis offset 2 mm V680S D2KF67M 6 0 to 25 0 mm Axis offset 10 mm V680 HA63B V680 HS63 with metal on back surface steel 6 0 to 25 0 mm Axis offset 10 mm V680S D2KF67M 0 to 25 0 mm Axis offset 10 mm V680 HS65 with metal on back surface steel 0 to 25 0 mm Axis offset 10 mm e Measurement Conditions V680S D2KF67M V680S HS63 f Metal fT V680 HS52 i r V680S D2KF67M Non metallic material Metal Non metallic material O O 3 3 2 O D O 5 D 9 5 o V680 HS65 Metal V680S D2KF67M Metal RFID System 62 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 62 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS52 Embedded in Non Metal and V680S D2KF67M V680 HS63 with Non Metal on Back Surface and V680S D2KF67M Read Write with Metal on Back Surface Steel 4 awrite with Metal on Back Surface Steel 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface and V680S D2KF67M Read Write with Metal on Back Surface
35. Communications Command speed setting Normal mode Write with verification Write without verification T 0 6 N 101 High speed mode Read T 0 6N 47 See note Write with verification T 1 2N 128 Write without verification T 0 6 N 101 Note When using V680S D8KFULI RF Tags the Normal Mode communications speed will be used even if the High speed Mode is set Communications speed Normal mode Communications speed high speed mode Write with verification 2 000 1 500 without verification Communications time ms Communications time ms 1 000 N Reading i W 0 500 1 000 1 500 2 000 2 500 0 500 1 000 1 500 2 000 2 500 No of bytes byte No of bytes byte O 3 3 c O fa O 3 JJ p gt O RFID System User s Manual T7 Section 3 Communications Specifications Calculating RF Tag Speed When communicating with a moving RF Tag specify an AUTO command or POLLING command The maximum speed for communicating with the RF Tag can be calculated simply using the following formula D Distance travelled in interrogation zone Maximum speed T Communications time D Distance travelled in interrogation zone is calculated from the actual measurement or the interroga tion zone between the Antenna and RF Tag Y f X Communications area N Y y mo a A Unit mm Calculation Exa
36. Cool Z Velocity No 3 Yushiroken EEE hydroxide petroleum gasoline Yushiroken S50 30Y petroleum grease acetic acid oxalic acid cal Chemi Cool Z Velocity No 3 Yushiroken EEE 30Y cium hydroxide phosphoric acid 80 RT hydrochlo ric acid 10 RT potassium hydroxide Note The above results are from tests conducted a room temperature 23 C Even if the chemicals do not affect the ABS or epoxy resins at room temperature they may affect the resins at higher or lower temperatures Check the chemicals carefully in advance O gt 3 a JJ p D r Q gt O gt p gt F pe V RFID System 128 User s Manual Section 5 Chemical Resistance Chemical Resistance of RF Tags Applicable Model V680 D2KF52M V680 D2KF52M BT01 V680 D2KF52M BT11 PPS resin is used for case material and epoxy resin for filling material Refer to the following lists and do not use chemicals that affect PPS and epoxy resin RF Tags cannot be used in applications with explosion proof specifications E Chemicals That Cause Deformations Cracks Etc Aqua regia Aqua regia chromic acid sulfuric acid 90 RT nitric acid 60 RT ammonia solution acetone methylene chloride phenol E Chemicals That May Cause Discoloration Swelling Etc Nitric acid 60 RT Sulfuric acid 10 RT nitric acid 10 RT hydrochlo ric acid 80 RT acetic acid 50 RT oxalic acid calcium hy
37. D2KF52M BT11 RF Tag V680 D8KF67 RF Tag V680 D8KF67M RF Tag V680 D8KF68 RF Tag V680 D32KF68 RF Tag V680S D2KF67 RF Tag V680S D2KF67M RF Tag V680S D2KF68 RF Tag V680S D2KF68M RF Tag V680S D8KF67 RF Tag V680S D8KF67M RF Tag V680S D8KF68 RF Tag V680S D8KF68M RF Tag User s Manual ie Q O Oo gt Introduction READ AND UNDERSTAND THIS DOCUMENT Please read and understand this document before using the products Please consult your OMRON representative if you have any questions or comments WARRANTY OMRON s exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year or other period if specified from date of sale by OMRON OMRON MAKES NO WARRANTY OR REPRESENTATION EXPRESS OR IMPLIED REGARDING NON INFRINGEMENT MERCHANTABILITY OR FIT NESS FOR PARTICULAR PURPOSE OF THE PRODUCTS ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE OMRON DISCLAIMS ALL OTHER WARRANTIES EXPRESS OR IMPLIED LIMITATIONS OF LIABILITY OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS WHETHER SUCH CLAIM IS BASED ON CONTRACT WARRANTY NEGLIGENCE OR STRICT LIABIL ITY In no event shall responsibility of OMRON for any act exceed the individual price of the product on which l
38. Do not pull the Antenna connector over the power of 30 N lt The Antenna connector may be broken CHECK 90 RFID System User s Manual Installing RF Tags V680 D2KF52M E RF Tag Installation Direction Mount RF Tags as shown in the diagram on the right The epoxy adhesives listed in the following table are recom mended for the given temperature ranges Ambient operat Product name Manufacturer ing temperature 40 to 70 C 40 to 85 C Two part Epoxy com pound Resin TB2001 main agent TB2105C curing agent One part Moisture cur ing Elastic Adhesive TB1530 One part Epoxy Resin TB2285 Three Bond Co Lid Three Bond Co Lid Three Bond Co Lid Two part Epoxy Resin TB2087 Three Bond Co Lid Section 4 Installation V680 D2KF52M RO 2 max J gt Marked side 5 uy When embedding the V680 D2KF52M into a metal surface use the V680 HS51 HS52 Antenna A Transmission will not be possible if the V680 HS63 Antenna is used 5 e mp 2 Q JJ TI Q Q ww CHECK E Differences in Surrounding Metals Communications ranges are affected by the type of metal in back of or surrounding the RF Tag as shown in the following table V680 D2KF52M 100 80 to 85 80 to 85 75 to 80 The values for steel are set to 100 E Mutual Interference with RF Tags Reference Provide the mounting distances indicated below to prevent malfunctions due t
39. F68M Horizontal facing RF Tag o 0 om 0 Metal on back Steel V680 HS63 and V680S D2KF68M Vertical facing RF Tag Metal on back Steel 0 5 V680 HS65 and V680S D2KF68M Horizontal facing RF Tag Metal on back Steel V680 HS65 and V680S D2KF68M Vertical facing RF Tag 0 1 6 Metal on back Steel 12 eV680 HS63 and V680S D2KF68M e V680 HS63 and V680S D2KF68M a Horizontal facing RF Tag Vertical facing RF Tag 5 g o Q S E g gt T Q N RF Tag RF Tag Antenna Antenna eV680 HS65 and V680S D2KF68M e V680 HS65 and V680S D2KF68M Horizontal facing RF Tag RF Tag Metal Metal ep Antenna Antenna 114 RFID System User s Manual Vertical facing RF Tag RF Tag V680S D8KF67 E RF Tag Installation Direction Secure the RF Tag with M3 screws Tighten the screws to a torque of 0 6 N m or less E Effect of Metal behind RF Tags Reference The V680S D8KF67 communications range is reduced if there is any metal material behind the RF Tag V680 HS63 and V680S D8KF67 V680 HS52 and V680S D8KF67 100 J g 90 80 70 60 S 50 Qs 40 2S 30 E o 20 owas og 10 FE 0 Distance to metal x 7 Tao Antenna Metal on back zm tions range x Le V680 HS65 and V680S D8KF67 gt 100 g 90 80 ab 70 60 2 5
40. Metallic material Non metallic material Metallic material Non metallic material V680 D2KF52M BT 11 V680 D2KF52M BT11 epee IT aC A ese Metallic material Non metallic material O O 3 3 2 O D O 5 D 9 5 oO Metallic material Non metallic material Metallic material Non metallic material RFID System 50 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 50 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system 680 HS51 Embedded in Metal V 680 HS52 Embedded in Non Metal and V680 D2KF52M BT01 D2KF52M BT11 and V680 D2KF52M BT01 D2KF52M BT11 Read Write Read Write O O 3 3 2A O D O 5 D 9 5 D o RFID System User s Manual 51 O O 3 3 O D O 5 D 9 5 oO 52 Section 3 Communications Specifications V680 D8KF67 E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read 0 to 17 0 mm Axis offset 2 mm Write 0 to 17 0 mm Axis offset 2 mm V680 HS52 V680 D8KF67 0 to 30 0 mm Axis offset 10 mm V680 HA63B V680 HS63 V680 D8KF67 0 to 30 0 mm Axis offset 1
41. S52 HS63 HS65 H01 V2 HA63B V680 D2KF52M D2KF52M BT01 D2KF52M BT11 D8KF67 D8KF67M D8KF68 D32KF68 V680S D2KF67 D2KF67M D2KF68 D2KF68M D8KF67 D8KF67M D8KF68 and V680S D8KF68M The precautions provided here contain important safety informa tion Be sure to observe these precautions The following signal words are used in this manual Indicates a potentially hazardous situation which if not avoided will result in minor or mod erate injury or may result in serious injury or death Additionally there may be significant property damage Meanings of Alert Symbols S Indicates general prohibitions for which there is no specific symbol Warning These Products are not designed to be used either directly or indirectly in applications that detect human presence for the purpose of maintaining safety Do not use these Products as a sensing means for protecting human lives RFID System User s Manual 3 5 ie Q O Oo gt Introduction Precautions for Safe Use Be sure to observe the following precautions to ensure safe use of the Products 1 Do not use the Products in environments with flammable explosive or corrosive gasses 2 Do not attempt to disassemble repair or modify any Product 3 Tighten mounting screws securely 4 Because a cable has a locking mechanism make sure that it has been locked before using the cable 5 Do not allow water or pieces of wire to enter from ope
42. Steel O O 3 3 2A O D O 5 D 9 5 D o 100 80 60 40 20 0 20 40 60 80 X RFID System User s Manual 63 Section 3 Communications Specifications V680S D2KF68 E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read 0 to 45 0 mm Axis offset 10 mm V680 HS63 V680S D2KF68 Write 0 to 45 0 mm Axis offset 10 mm V680 HA63B 0 to 75 0 mm Axis offset 10 mm V680 HS65 V680S D2KF68 i 0 to 75 0 mm Axis offset 10 mm O to 150 0 mm Axis offset 10 mm O to 150 0 mm Axis offset 10 mm V680 H01 V2 V680S D2KF68 e Measurement Conditions V680S D2KF68 We V680 HS63 V680 HS65 V680S D2KF68 Non metallic material O O 3 3 2 O D O 5 D 9 5 oO Non metallic material L metallic material Examples Resin plastic wood etc Metal Examples Resin plastic wood etc Examples Resin plastic wood etc V680 H01 V2 V680S D2KF68 jle Non metallic material Non AN material Examples Resin plastic wood etc RFID System 64 User s Manual E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 64 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when in
43. Superior Environmental Resistance and High Reliability Antennas and RF Tags now have greater environmental resistance and are not affected by vibration oil or water RFID System User s Manual Section 1 Product Overview Product Configuration A V680 series RFID System consists of an ID Controller one or more Amplifiers one or two Antennas and RF Tags Select the models suitable for the application E Using Antennas with Separate Amplifiers Personal computer Programmable Controller SYSMAC CS CJ Series Host device D O Q O mp O Q c D O V680 CA5D01 V2 V680 CA5D02 V2 CS1W V680C1 1 12 CJ1W V680C11 12 ID Controller ID Sensor Units V680 HA63B lt V680 HS52 Antennas with Separate Amplirier V680 D2KF52M V680 D2KF52M BT01 _ V680 D8KF67 D8KF67M V680 D8KF68 D32KF68 V680S D2KF67 D2KF67M V680S D2KF68 D2KF68M D2KF52M BT11 D8KF67 D8KF67M D8KF68 D8KF68M 5 ut When embedding the V680 D2KF52M into a metal surface use the V680 HS51 HS52 Antenna Co Transmission will not be possible if the V680 HS63 Antenna is used 5 Use the V680 D2KF52M D2KF52M BT01 D2KF52M BT11 D8KF67 D8KF67M D8KF68 V680S D2KF67 D2KF67M Co D2KF68 D2KF68M D8KF67 D8KF67M D8KF68 and V680S D8KF68M RF Tags in combination with only the V680 HA63B Amplifier Do not use these RF Tags together with the V680 HA63A Amplifier svi When using a V680 D8KFLIL to use the
44. Tag Communications range Read 0 to 17 0 mm Axis offset 2 mm V680 HS52 V680S D8KF67 Write 0 to 17 0 mm Axis offset 2 mm 7 0 to 30 0 mm Axis offset 10 mm 7 0 to 30 0 mm Axis offset 10 mm 0 to 42 0 mm Axis offset 10 mm 0 to 42 0 mm Axis offset 10 mm Read 0 to 100 0 mm Axis offset 10 mm V680 H01 V2 V680S D8KF67 Write 0 to 100 0 mm Axis offset 10 mm e Measurement Conditions V680 HA63B V680 HS63 V680S D8KF67 V680 HS65 V680S D8KF67 V680S D8KF67 V680 HS63 V680 HS52 j M ana Non metallic material V680S D8KF67 Examples Resin plastic wood etc Non metallic material i Examples Resin plastic wood etc O O 3 3 O D O 5 D 9 5 oO Non metallic material V680 HO1 V2 V680 HS65 Non metallic material Examples Resin plastic wood etc V680S D8KF67 V680S D8KF67 I Metal Non metallic material Non metallic material RFID System 68 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 68 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS52 Embedded in Non Metal and V680S D8KF67 V680 HS63 with Non Metal on Back Surface and V680S D8KF
45. There is a possibility to which data is mistaken with the block unit when the writing error occurs RFID System 42 User s Manual Section 2 Specifications and Performance E V680S D8KF67 D8KF67M D8KF68 D8KF68M i Data Address FRAM is used as memory in the RF Tags The memory capacity available to the user is 8 192 bytes including OOOOH to 0003H the Write Protection Setting Area JJ TI Q Q 1 byte RF Tag memory is 1 block of 32 bytes _JLJ00 hex to LILI1F hex L120 hex to LILISF hex LILJ20 hex to LILISF hex alo _ The communication between RF Tag and the antenna of the V680 V680S series is a blocks described above apecn There is a possibility to which data is mistaken with the block unit when the writing error occurs RFID System User s Manual JJ TI j Q Q Section 2 Specifications and Performance Write Protection Function The write protection function prevents important data such as product information stored in memory in a RF Tag from being inadvertently overwritten After important data has been written to memory it can be write protected using the following method i The write protection function can be switched with SW4 7 Write Protection Function Setting of the V680 CA5DLIL VL Controller or with word Write Protection Function Setting in the DM m 2 CH Area words allocated to the CLI1W cHe V680CO0 ID Sensor Unit
46. V680 HA63B E Mounting to DIN Track DIN Track End Plate See note 1 10 mm min See note 2 Mounting hook O 5 5 gt 3 oO D T Note 1 Consider the height of the DIN Track 2 Provide a space of at least 10 mm i e at least two spacers and attach them securely DIN Track End Plate Spacer PFP 100N2 PFP M PFP S Z e ay 1 When mounting the Amplifier to a DIN Track first hook section A to the Track and then press in direction B 2 To remove the Amplifier from the DIN Track first pull out the mounting hook Mounting hook RFID System User s Manual 8 Section 4 Installation Amplifier Cable Bending Radius Do not bend the cable past a bending radius of 35 mm O c gt 5 gt Attaching Removing Amplifire and Antenna Connectors E E Attaching the Connector S 1 Hold the Antenna connector align the key 2 Turn the connector clockwise to lock it in place and insert the connector into the Amplifier connector Antenna connector E Removing the Connector 1 Turn the connector counterclockwise to 2 Pull the Antenna connector straight out release the lock Antenna connector wil The connector will not come out unless the lock is first released by turning the connector To remove the cable release the lock and pull on the connector Pulling the cable without releasing the lock may break or damage the cable CHECK alo
47. al Introduction Meanings of Symbols 5 Oo Q c Oo e est Indicates particularly important points related to a function including precautions and application advice zs CHECK Indicates page numbers containing relevant information sjoqwAs jo sbhuluesjj RFID System User s Manual 7 O Lu Introduction Meanings of Symbols RFID System User s Manual Table of Contents Safety Precautions Precautions for Safe Use Precautions for Correct Use Meanings of Symbols Table of Contents Section 1 Product Overview Features Product Configuration Section 2 Specifications and Performance Antennas with Separate Amplifier Antennas with Built in Amplifier Amplifier RF Tags Section 3 Communications Specifications communications ranges Communication Time Reference Section 4 Installation Installing Antennas Mounting Amplifiers Installing RF Tags Section 5 Chemical Resistance Chemical Resistance of the Antennas Chemical Resistance of RF Tags Degree of Protection Revision History Introduction Or rN OW A 11 12 13 15 16 23 28 31 45 48 76 79 80 89 91 127 128 129 132 134 RFID System User s Manual 9 ie Q O Oo gt 5 O Q c O e gt MEMO RFID System User s Manual Section 1 Product Overview Features 12 Product Configuration 1
48. all dust No protection Not protected against water No test Protection against water Protects against vertical drops Water is dropped vertically towards the product from of water towards the product the test machine for 10 min Protects against drops of Water is dropped for 2 5 min each i e 10 min in total water approaching at a maxi towards the product inclined 15 to the left right back mum angle of 15 Lito the left and front from the test machine right back and front from ver tical towards the product RFID System User s Manual Section 5 Chemical Resistance Protection Test method with pure water Protection against sprin Protects against sprinkled Water is sprinkled for 10 min at a maximum angle of kled water water approaching at a maxi 60 to the left and right from vertical from the test a ladda mum angle of 60 from verti machine cal towards the product Water rate is 0 07 liter min per hole Protection against water Protects against water spray Water is sprayed at any angle towards the product for approaching at any angle 10 min from the test machine towards the product olen tale E 007 liter min per hole Eo E T ee ae an oe gt 4 E Protection against water jet Protects against water jet Water is jet sprayed at any angle towards the product spray spray approaching at any for 1 min per square meter for at least 3 min in total T angle towards
49. allic material Non metallic material RFID System User s Manual 103 Section 4 Installation V680S D2KF67 E RF Tag Installation Direction Secure the RF Tag with M3 screws Tighten the screws PET to a torque of 0 6 N m or less E Effect of Metal behind RF Tags Reference The V680S D2KF67 communications range is reduced if there is any metal material behind the RF Tag V680 HS52 and V680S D2KF67 tions range X ii V680 HS65 and V680S D2KF67 V680 HS63 and V680S D2KF67 5 al 100 100 O 2 3 e 90 amp 90 z z ro 80 a 80 o 70 C 70 a 60 o 60 gt S 50 S 50 Co o 2 o 40 x 40 58 28 2S 30 ES 30 E 2 20 o2 20 O 7T o 10 2o 10 E FE O 20 40 60 80 100 mm 0 100 150 200 Distance to metal x Distance to metal x RF Tag Antenna in Antenna Metal on back Metal on back Communica Metal a F tions range V680 H01 V2 and V680S D2KF67 100 100 mD 2 90 2 90 80 z 80 eb eb 70 3 70 o 680 60 E 50 z 50 oC 2 40 s x8 40 30 EO 30 6 2 20 S 2 20 Q 10 Q z 10 FE FE 0 100 150 A mm 0 Distance to metal x Distance to metal x Antenna il Tag oe T Metal Metalon back Metal on back Communica Non metallic Communica tions material tions range range aly a A 104 RFID System User s Manual Section
50. ance has been tested using a specific oil as defined in the OMRON test method E Dimensions e V680 HS52 W Mounting Hole Dimensions Antenna Two toothed washers Two lock nuts M22 x 1 Operation indicator Ferrite core Insulation cover Coaxial cable 5 5 dia standard length 2 m Case material Communications ABS resin surface Filling resin Epoxy resin PVC gray RFID System User s Manual gt gt rmp D gt N F gt ep D O Q F D gt 5 3 h D 17 Section 2 Specifications and Performance e V680 HS52 R 22 5 dia ae Two toothed washers Two lock nuts Mounting Hole Dimensions M22 x 1 Antenna Operation indicator Ferrite core Insulation cover Connector A _ S7 To a O Vya z dip i 47 6 s0 Coaxial cable 5 3 dia Insulation cover of standard length 2 m 65 Case material Brass Communications ABS resin surface Filling resin Epoxy resin gt E D N F gt ep D O Q r D gt 5 3 D Cable PVC black RFID System 18 User s Manual Section 2 Specifications and Performance V680 HS63 E General Specifications Item Model V680 HS63 W V680 HS63 R Standard cable waterproof connector Flexible cable non waterproof connector Ambient operating 10 to 60 C with no icing temperature Ambient storage 25 to 75 C with
51. ase gt 3 s Dielectric strength 1 000 VAC 50 60 Hz for 1 minute between cable terminals and case Degree of protection IP67 IP65 IEC 60529 IP40 IEC 60529 Note Not including connector at Controller end When V680 HS51 V680 HS52 R V680 When V680 HS52 W V680 HS63 W and V680 HS65 W HS63 R and V680 HS65 R is connected is connected Dielectric strength 10 to 500 Hz 1 5 mm double amplitude acceleration 100 m s2 10 sweeps in each of 3 axis directions up down left right and forward backward for 11 minutes each Shock resistance 500 m s2 3 times each in 6 directions Total 18 times Dimensions 25 x 40 x 65 mm Not including protrusions Materials PC Weight Approx 650 g with 10 m cable Cable length Standard lengths of 5 and 10 m Note The maximum total cable extension is 50 m including the Amplifier cable A maximum of two extension cables can be connected E Dimensions 5 51 00 36 q ISS p e S Connector Round vinyl insulated cable 5 8 dia standard length 5 m aeei 41 0 16 dia 2 conductors 17 0 08 dia 8 conductors Case material PC resin Cable PVC RFID System 28 User s Manual Section 2 Specifications and Performance Nomenclature Antenna connection port LV6 7D LV5 7A LV4 76 LV3 72 LV2 71 LV 1 70 gt E 3 5 E Antenna Connection Port The Antenna connection port is connected a V680 series Antenna E Controll
52. ation cover Coaxial cable 5 5 dia standard length 2 m Note Mounting Hole Dimensions Two M4 or 4 5 dia holes o g io E Filing resi Cable PVC gray Coil center RFID System User s Manual 1 gt E D N F gt ep D O Q r D gt 5 3 D Section 2 Specifications and Performance e V680 HS63 R Antenna Ferrite core Unit mm 39 5 Connector enemy BRUL 2 Se ee rT 2 8 50 Coaxial cable 5 3 dia Insulation cover standard length 2 m Note Mounting Hole Dimensions Two M4 or 4 5 dia holes Coil center Yo Cable PVC black k RFID System User s Manual V680 HS65 E General Specifications Item Ambient operating temperature Ambient storage temperature Model V680 HS65 W Standard cable waterproof connector 25 to 70 C with no icing 40 to 85 C with no icing Section 2 Specifications and Performance V680 HS65 R Flexible cable non waterproof connector Ambient operating humidity Insulation resistance 35 to 95 with no condensation 20 MQ min at 500 VDC between cable terminals and case Dielectric strength 1 000 VAC 50 60 Hz for 1 min between connector terminals and case Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 Antenna portion See Note 1 IP67 IEC 60529 2001 Oil resistance
53. diminished In addition the height of metal casing must not exceed that of the Antenna Note 1 Do not bend the cable into a curve tighter than 22 mm in radius Metal casing 2 The communications range will be reduced significantly if the Antenna is installed closer than 30 mm to metal surfaces E V680 HS65 In addition to surface mounting it is also possible to embed the V680 HS65 in a metal casing to protect it from being struck by other objects To prevent malfunctioning allow a space of at least 100 mm between the Antenna and the sides of the metal casing If the space is less than 100 mm the read write distance will be greatly diminished In addition the height of metal casing must not exceed that of the Antenna T mp D Q gt mp D 5 D o Pe seth 100 mm min I Metal casing 60 mm min Metal casing Note 1 Do not bend the cable into a curve tighter than 22 mm in radius A f f 100 mm min 2 The communications range will be reduced significantly if the Antenna is installed closer than 100 mm to metal surfaces E V680 H01 V2 If the Antenna is mounted to a metal object the interrogation zone will be reduced by approximately 10 compared with mounting to a non metal object Consider this influence on performance when mount ing the Antenna 86 RFID System User s Manual Section 4 Installation Mutual Interference between Antennas Reference To prevent malfu
54. droxide benzine creosol alcohol cyclohex ane toluene xylene benzine grease E Chemicals that Do Not Affect PPS Resin or Epoxy Resin Hydrochloric acid 87 RT sulfuric acid 98 RT Ammonia hydrochloric acid 10 RT potassium nitric acid 40 RT Hydrogen fluoride solution hydroxide petroleum gasoline Yushiroken S50 40 RT chromic acid 40 RT hydrogen peroxide Chemi Cool Z Velocity No 3 Yushiroken EEE 30Y 28 RT sodium hydroxide solution 60 RT methyl ethyl ketone sodium hydroxide 10 RT ammonia solution 28 RT sodium chloride 10 RT sodium carbonate 20 RT sodium hypochlorite phenol solution 5 RT glacial acetic acid acetic acid oleic acid Methyl alcohol 95 RT ethyl alcohol 95 RT Ethyl acetate sebacic acid diethylhexyl acetone diethyl ether n heptane 2 2 4 trimethylpen tane benzine toluene aniline mineral oil gasoline insulating oil dichloroethylene carbon tetrachloride gt D 3 O J D 2i Q gt O D O i JJ TI Q Note The above results are from tests conducted a room temperature 23 C Even if the chemicals do not affect the PPS or epoxy resins at room temperature they may affect the resins at higher or lower temperatures Check the chemicals carefully in advance RFID System User s Manual 129 Section 5 Chemical Resistance Applicable Model V680 D2KF67 D2KF67M V680 D8KF67 D8KF67M D8KF68 D32KF68 Chemicals that affec
55. e Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680 D8KF68 V680 D32KF68 RF Tag angle 0 0 10 20 30 40 V680 HS63 and V680 D8KF68 or V680 D32KF68 Horizontal facing RF Tag V680 HS63 and V680 D8KF68 or V680 D32KF68 Vertical facing RF Tag V680 HS65 and V680 D8KF68 or V680 D32KF68 Horizontal facing RF Tag V680 HS65 and V680 D8KF68 or V680 D32KF68 Vertical facing RF Tag V680 H01 V2 and V680 D8KF68 or V680 D32KF68 Horizontal facing RF Tag V680 H01 V2 and V680 D8KF68 or V680 D32KF68 Vertical facing RF Tag V680 HS63 and V680 D8KF68 or V680 D32KF68 e V680 HS63 and V680 D8KF68 V680 D32KF68 D Horizontal facing RF Tag Vertical facing RF Tag 5 _ E 2 PN b Q O RF Tag RF Tag Anoma Antenna V680 HS65 and V680 D8KF68 or V680 D32KF68 e V680 HS65 and V680 D8KF68 V680 D32KF68 Horizontal facing RF Tag Vertical facing RF Tag RF Tag RF Tag Metal Metal aD Antenna Antenna e V680 H01 V2 and V680 D8KF68 or V680 D32KF68 e V680 H01 V2 and V680 D8KF68 V680 D32KF68 Horizontal facing RF Tag Vertical facing RF Tag Antenna Antenna 0 0 RF Tag RF Tag Non met
56. equivalent to IP67G JIS C 0920 2003 Appendix 1 Antenna portion see Note 2 Vibration resistance 10 to 500 Hz 1 5 mm double amplitude acceleration 100 m s2 10 sweeps in each of 3 directions up down left right and forward backward for 11 minutes each Shock resistance Dimensions Material Weight 500 m s2 3 times each in 6 directions Total 18 times 100 x 100 x 30 mm ABS resin case epoxy resin filler Approx 1 100 g with 12 5 m cable Cable length Standard lengths of 2 and 12 5 m Note 1 The degree of protection for the Connector is IP67 IP65 Oil resistance has been tested using a specific oil as defined in the OMRON test method 2 The Connector is not waterproof Oil resistance has been tested using a specific oil as defined in the OMRON test method E Dimensions e V680 HS65 W 90 0 2 Unit mm 4 4 5 dia Mounting holes Ferrite core 37 Connector 25 S Sl s a som CUO Q 8 Bushing 50 Insulation cover Coaxial cable 5 5 dia standard length 2 m ABS resin Epoxy resin PVC gray Case material Filling resin Cable RFID System User s Manual gt 5 F D 5 5 D oO O D Oo D 9 F D gt 3 pce D 21 Section 2 Specifications and Performance V680 HS65 R Unit mm 4 4 5 dia Operation indicator Mounting holes Ferrite core 39 5 Connector se Rae ee
57. er Connector The Controller connector is connected to Antenna connection port on the Controller E Operation Indicators LEDs Color Green Yellow Green Meaning Lit when the power is ON Lit when a command is being sent Lit when communications with a RF Tag are normal in Normal Communications Mode Red Lit when an error occurs in communications with a RF Tag in Normal Communications Mode LV6 7D LV5 7A Yellow Yellow Maintenance Mode Lit at distance or speed level 6 Normal Communications Mode Lit when a write protection error occurs Maintenance Mode Lit at distance or speed level 5 or higher Normal Communications Mode Lit when an address error occurs LV4 76 LV3 72 Yellow Yellow Maintenance Mode Lit at distance or speed level 4 or higher Normal Communications Mode Lit when a RF Tag memory error occurs Maintenance Mode Lit at distance or speed level 3 or higher Normal Communications Mode Lit when a no RF Tag error occurs LV2 71 LV 1 70 Yellow Yellow Maintenance Mode Lit at distance or speed level 2 or higher Normal Communications Mode Lit when a verification error occurs Maintenance Mode Lit at distance or speed level 1 or higher Normal Communications Mode Lit when a RF Tag communications error occurs lt 17 The distance level will vary greatly depending on the surrounding environment The setting position will serve as a i guide but u
58. er with the water pressure of 80 to 100BAR from a nozzle to the test piece me Amount of water is 14 to 16 liters minute rT The distance between the test piece and a nozzle is 10 to 15 cm and the directions of water y drainage are 0 degrees 30 degrees 60 degrees and 90 degrees horizontally m They are evaluated with the test piece is rotating on a horizontal plane by 30 seconds in each direction E Oil resistance OMRON in house standard Oil resistant No adverse affect from oil drops or oil spray approaching from any direction Oil proof Protects against penetration of oil drops or oil spray approaching from any direction Note Oil resistance has been tested using a specific oil as defined in the OMRON test method JIS C 0920 2003 Appendix 1 RFID System User s Manual 133 134 Revision History A manual revision code appears as a suffix to the catalog number at the bottom of the front and rear pages Man No Z248 E1 08 Revision code Date Revised contents October 2006 Original production May 2007 Added items for V680 D8KF68 D32KF68 RF Tags July 2007 September 2007 Added items for V680 A81 V680 HS65 Antenna and the overseas regulations and standards Added information on metal on back surface of the V680 HS65 corrected RF Tag specifications and made other minor corrections December 2007 July 2008 Added item for V680 HS51 Antenna the overseas regulations a
59. es not extend beyond the tip of the Antenna e metal Surrounding metal steel steel Fa 120 60 mm dia min 12 mm dia R18 min Antenna Communications distance reduced by 50 40mm min If the metal around the Antenna reaches the coil surface the communications range will be reduced significantly com Do not bend the cable into a curve tighter than pared with mounting to a non metallic surface 18 mm in radius m V680 HS52 When embedding the Antenna in metal be sure the metal does not extend beyond the tip of the Antenna T mp Q gt mp D D o a metal aoa metal ca steel A 130 65 mm dia min t 22 mm dia i Communications distance reduced by 50 R22 min Antenna 15 in a If the metal around the Antenna reaches the coil surface the communications range will be reduced significantly com Do not bend the cable into a curve tighter than pared with mounting to a non metallic surface 22 mm in radius RFID System User s Manual 85 Section 4 Installation E V680 HS63 In addition to surface mounting it is also possible to embed the V680 HS63 in a metal casing to protect it from being struck by other objects To prevent malfunctioning allow a space of at least 30 mm between the Antenna and the sides of the metal casing If the space is less than 30 mm the read write distance will be greatly
60. facing RF Tag Vertical facing RF Tag 300 250 200 150 100 50 0 50 100 150 200 250 X 300 250 200 150 100 50 0 50 100 150 200 250 X RFID System O O 3 3 O D i O 5 D 9 D o User s Manual 73 Section 3 Communications Specifications V680S D8KF68M E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read 0 to 35 0 mm Axis offset 10 mm AER V680S D8KF68M with metal on back surface steel Write O to 35 0 mm Axis offset 10 mm ial 680S D8KF68M Read 0 to 55 0 mm Axis offset 10 mm ea o 55 xis offset V680 HS65 y with metal on back surface steel Write O to 55 0 mm Axis offset 10 mm e Measurement Conditions V680 HS65 re 3 3 gt D V680S D8KF68M A V680S D8KF68M z V680 HS63 D 5 P H Metal Metal Non metallic material Metal Examples Resin plastic wood etc RFID System 74 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 74 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V 680 HS63 with Metal on Back Surface V680 HS63 with Metal on Back S
61. ference only For information on communications ranges refer to p 56 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS63 with Metal on Back Surface and V680 D8KF68 D32KF68 Read Write Horizontal facing RF Tag Y V680 HS63 with Metal on Back Surface and V680 D8KF68 D32KF68 with Attachment V680 A81 Read Write Metal i back Steel Horizontal facing RF Tag 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface and V680 D8KF68 D32KF68 Horizontal facing RF Tag Y Read Write 200 V680 HS65 with Metal on Back Surface and V680 D8KF68 D32KF68 with Attachment V680 A81 i Read Write Metal on a Steel Horizontal facing RF Tag 250 200 150 100 50 0 50 100 150 200 X RFID System User s Manual V680 HS63 with Metal on Back Surface and V680 D8KF68 D32KF68 Read Write Vertical facing RF Tag 100 80 60 40 20 0 20 40 60 80 X V680 HS63 with Metal on Back Surface and V680 D8KF68 D32KF68 with Attachment V680 A81 Read Write back Steel Vertical facing RF Tag 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface and V680 D8KF68 D32KF68 Vertical
62. g RF Tag RF Tag 5 Embedded Surface mounted o 10mm max D t Metal Metal m Q e V680 HS63 and V680S D2KF68M V680 HS65 and V680S D2KF68M Q _ _ o 100 35 100 90 90 2 80 amp 80 70 70 e e 5 60 5 60 6 30 z 50 Cc oO co E o 30 E y 30 Ox 20 o w 20 0 oO gt 10 e 10 0 20 40 60 80 100 mm 0 20 40 60 80 100 mm Distance to metal x Distance to metal x ae RF Tag ae Metal 112 RFID System User s Manual Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS63 is Used 110mm min 110mm min e When V680 HS65 is Used 110mm min 110mm min mp 2 Q JJ TI Q Q RFID System User s Manual 113 Section 4 Installation E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680S D2KF68M RF Tag angle 0 0 O 20 30 60 70 80 40 50 0 0 1 V680 HS63 and V680S D2K
63. g 25 to 85 C with no icing temperature Ambient storage 40 to 85 C with no icing temperature Ambient operating 35 to 95 humidity Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 See Note 2 Vibration resistance 10 to 2 000 Hz 1 5 mm double amplitude acceleration 150 m s 10 sweeps each in X Y and Z directions for 15 minutes each Shock resistance 500 m s2 3 times each in X Y and Z directions Total 18 times Dimensions Hex Head 17 HEX x 9 5 mm Screw M10 x 10 mm Materials Bolt SUS303 Case RF Tag PPS resin Filling resin RF Tag Epoxy resin Weight Approx 25 g Metal countermeasures Yes Note 1 The number of accesses is the total number of reads and writes 2 Oil resistance has been tested using a specific oil as defined in the OMRON test method Dimensions 15 30 Unit mm Bolt RF Ta 8 4 dia M10 P1 5 O Oo 17 0 1 9 5 10 21 6 Bolt material SUS303 Case material RF Tag PPS resin Filling resin RF Tag Epoxy resin 5 The side with the markings is the communications surface Mount the RF Tag with this side facing the Antenna S zs CHECK RFID System User s Manual Section 2 Specifications and Performance E V680 D2KF52M BT11 General Specifications ltem Model V680 D2KF52M BT 11 Memory capacity 2 000 bytes user area Memory type FRAM Data Retention 10 years af
64. ge V680 H01 V2 and V680 D8KF67 100 90 80 70 60 50 40 30 20 10 1 2 0 Metal Dunes A a Antenna RF Tag Y gt Metal on back Non metallic Communica material tions range RFID System User s Manual 5 e mp 2 Q JJ TI Q Q Section 4 Installation E Mutual Interference with RF Tags Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS52 V680 HS63 and V680 HS65 are Used 200mm 200mm e When V680 H01 V2 are Used 200mm 5 mp 2 Q JJ TI Q Q 96 RFID System User s Manual Section 4 Installation E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680 D8KF67 RF Tag angle 0 V680 HS52 and V680 D8KF67 V680 HS63 and V680 D8KF67 V680 HS65 and V680 D8KF67 V680 H01 V2 and V680 D8KF67 V680 HS52 and V680 D8KF67 e V680 HS63 and V680 D8KF67 o 7 9 y e 5 s4 A T RF Te RF T Antenna ag ee Antenna Non metallic mater
65. gram e When V680 HS52 V680 HS63 and V680 HS65 are Used 120mm 120mm E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680 D8KF67M 40 V680 HS52 and V680 D2FKP67M Metal Steel V680 HS63 and V680 D2FKP67M Metal Steel V680 HS65 and V680 D2FKP67M Metal Steel 0 eV680 HS52 and V680 D8KF67M y RF Tag Antenna Antenna Non A material e V680 HS65 and V680 D8KF67M Metal RF Tag Antenna RFID System User s Manual mp 2 Q JJ TI Q Q 99 Section 4 Installation V680 D8KF68 D32KF68 E RF Tag Installation Direction Secure the RF Tag with M4 screws Tighten the screws to a torque of 0 7 to 1 2 N m Two M4 E Effect of Metal behind RF Tags Reference Special Attachment V680 A81 Installation Direction M4 screw Spring washer The transmission distance will be reduced if there is metal in back of a RF Tag When mounting on a metal surface use the special Attachment V680 A81 of another sales or insert a non metallic spacer e g plastic wood etc The following diagrams show the relatio
66. he effect of the RF tag at tilt when installing the RF Tag e Provide the mounting distances between plural RF tags to prevent them from malfunctions due to mutual interference e f the central axis of an antenna and RF tag shifts a communications range will fall ie Q O Oo gt 3 Storage Do not store the Products in the following locations e Locations exposed to direct sunlight e Locations exposed to corrosive gases dust metallic powder or salts e Locations not within the specified storage temperature range e Locations subject to rapid changes in temperature or condensation e Locations not within the specified storage humidity range e Locations subject to direct vibration or shock outside the specified ranges e Locations subject to spray of water oil or chemicals e Locations subject to filled with steam 4 Cleaning e Using thinner benzene acetone or kerosene for cleaning may affect the resin parts and the surface of the case For detail refer Chemical Resistance of RF Tags on page 129 and do not use chemicals that affect the resin parts and the surface of the case 5 Combination of the Amplifier Use the V680 D2KF52M D2KF52M BT01 D2KF52M BT11 D8KF67 D8KF67M D8KF68 V680S D2KF67 D2KF67M D2KF68 D2KF68M D8KF67 D8KF67M D8KF68 and V680S D8KF68M RF Tags in combination with only the V680 HA63B Amplifier Do not use these RF Tags together with the V680 HA63A Amplifier RFID System User s Manu
67. iability is asserted INNO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY REPAIR OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON S ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED STORED INSTALLED AND MAINTAINED AND NOT SUBJECT TO CON TAMINATION ABUSE MISUSE OR INAPPROPRIATE MODIFICATION OR REPAIR SUITABILITY FOR USE THE PRODUCTS CONTAINED IN THIS DOCUMENT ARE NOT SAFETY RATED THEY ARE NOT DESIGNED OR RATED FOR ENSURING SAFETY OF PERSONS AND SHOULD NOT BE RELIED UPON AS A SAFETY COMPONENT OR PROTECTIVE DEVICE FOR SUCH PURPOSES Please refer to sep arate catalogs for OMRON s safety rated products OMRON shall not be responsible for conformity with any standards codes or regulations that apply to the combination of products in the customer s applica tion or use of the product At the customer s request OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the prod ucts This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product machine system or other application or use The following are some examples of applications for which particular attention must be given This is not intended to be an exhaustive list of all possible uses of the products nor is it intended to imply that the uses listed may be suitable for the products Outdoor use uses involving potent
68. ial eV680 HS65 and V680 D8KF67 e V680 H01 V2 and V680 D8KF67 natal 0 material 9 Metal RF Tag RF Tag Antenna Antenna RFID System User s Manual Section 4 Installation V680 D8KF67M E RF Tag Installation Direction Mount the V680 D8KF67M to a metal surface and secure the RF Tag with M3 screws Tighten the screws to a torque of 0 6 N m or less 2 M3 E Effect of Surrounding Metals The V680 D8KF67M can be surface mounted or it can be embedded in metal If it is embedded in metal the height of the metal casing must not exceed that of the RF Tag 5 RF Tag RF Tag o Embedded Surface mounted ee 4 5m max eee Metal Metal JJ TI a V680 HS52 and V680 D8KF67M V680 HS63 and V680 D8KF67M The communications range without O O metal is 100 amp O The communications range without metal is 100 Distance to metal x Distance to metal x V680 HS65 and V680 D8KF67M 100 90 80 The communications range without O O metal is 100 oe O N O O O ss O 20 30 40 50 mm Distance to metal x RF Tag r EE Metal 98 RFID System User s Manual Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following dia
69. ial chemical contamination or electrical interference or conditions or uses not described in this document Nuclear energy control systems combustion systems railroad systems aviation systems medical equipment amusement machines vehicles safety equipment and installations subject to separate industry or government regulations Systems machines and equipment that could present a risk to life or property Please know and observe all prohibitions of use applicable to the products NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS AND THAT THE OMRON PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM PERFORMANCE DATA Performance data given in this document is provided as a guide for the user in determining suitability and does not constitute a warranty It may represent the result of OMRON s test conditions and the users must correlate it to actual application requirements Actual performance is subject to the OMRON Warranty and Limitations of Liability CHANGE IN SPECIFICATIONS Product specifications and accessories may be changed at any time based on improvements and other reasons It is our practice to change model numbers when published ratings or features are changed or when significant construction changes are made However some specifications of the prod
70. ications range is shown below Percentage Drop in Communications Range According to Angle of V680S D2KF68 RF Tag angle 0 40 50 V680 HS63 and V680S D2KF68 Horizontal facing RF Tag V680 HS63 and V680S D2KF68 Vertical facing RF Tag V680 HS65 and V680S D2KF68 Horizontal facing RF Tag V680 HS65 and V680S D2KF68 Vertical facing RF Tag V680 H01 V2 and V680S D2KF68 Horizontal facing RF Tag V680 H01 V2 and V680S D2KF68 Vertical facing RF Tag A Q V680 HS63 and V680S D2KF68 e V680 HS63 and V680S D2KF68 Horizontal facing RF Tag Vertical facing RF Tag Q T T 2 a D 2 RF Tag RF Tag Antenna Antenna eV680 HS65 and V680S D2KF68 e V680 HS65 and V680S D2KF68 Horizontal facing RF Tag Vertical facing RF Tag Metal Metal am RF Tag RF Tag Antenna Antenna e V680 H01 V2 and V680S D2KF68 e V680 H01 V2 and V680S D2KF68 Horizontal facing RF Tag Vertical facing RF Tag Non metallic material Antenna Antenna 0 i i RF Tag RF Tag Non metallic material RFID System User s Manual 111 Section 4 Installation V680S D2KF68M E RF Tag Installation Direction Secure the RF Tag with M4 screws Tighten the screws to a torque of 0 7 to 1 2 N m Two M4 E Effect of Surrounding Metals The V680S D2KF68M can be surface mounted or it can be embedded in metal If it is embedded in metal the height of the metal casing must not exceed that of the RF Ta
71. ictions on the mounting direction or the direction of access to the RF Tag but if the Antenna bo is to be installed near a device such as a conveyance a a Foo 2 belt make sure there is no danger of the Antenna being accidentally struck wu Securely tighten screws to a torque of 0 7 to 1 2 N m S T CHECK E Mounting Bracket Dimensions Provided Only with the V680 HS65 Note When installing the Antenna mount it on the 900 1 gt Seo enclosed Mounting Bracket The Mounting Bracket is not necessary however if the Antenna is mounted on a metal base that is larger than the Antenna 100 x 100 mm m1000 2 T mp 2 Q gt mp D 5 D o Mounting base V680 HS65 Four 4 5 dia holes Mounting Bracket provided 82 RFID System User s Manual Section 4 Installation V680 H01 V2 Be sure to insert the provided fittings into the Antenna mounting holes and mount the Antenna with four M4 screws with spring washers and flat washers as shown below Spring washer T mp gt Q gt mp D D o Mounting Hole Dimensions M4 or 4 5 dia 235 0 2 Unit mm wu Securely tighten screws to a maximum torque of 1 2 N m S CHECK RFID System User s Manual 83 Section 4 Installation E Connecting and Disconnecting Relay Cables Mounting the Antenna 1 Align the key on the relay cable co
72. ide facing the Antenna Q CHECK RFID System 34 User s Manual Section 2 Specifications and Performance e Dimensions V680 D8KF67 D8KF67M Unit mm Two M3 Two 3 5 dia 16 i mounting holes L Mounting Hole Dimensions JJ TI Q Q 3240 2 Mounting reference surface Me 320 2 RFID System User s Manual Section 2 Specifications and Performance E V680 D8KF68 D32KF68 e General Specifications 10 years after writing 70 C or less 6 years after writing 70 to 85 C Write Endurance 10 billion times per block 85 C or less Access frequency ee Note 1 10 billion times Ambient operating 20 to 85 C with no icing temperature Ambient storage 40 to 85 C with no icing temperature Ambient operating 35 to 85 humidity Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 See Note 2 Vibration resistance 10 to 500 Hz 1 5 mm double amplitude acceleration 100 m s2 10 sweeps each in X Y and Z directions for 11 minutes each JJ TI j Q Q Shock resistance 500 m s2 3 times each in X Y and Z directions Total 18 times Materials Case PBT resin Filling resin Epoxy resin Weight Approx 50 g Metal countermeasures None Note 1 The number of accesses is the total number of reads and writes 2 Oil resistance has been tested using a specific
73. ions and Performance E General Specifications Item Ambient operating temperature Ambient storage temperature Model V680 HS52 W Standard cable waterproof connector 10 to 60 C with no icing V680 HS52 R Flexible cable non waterproof connector 25 to 75 C with no icing Ambient operating humidity Insulation resistance 35 to 95 with no condensation 20 MQ min at 500 VDC between cable terminals and the case Dielectric strength 1 000 VAC 50 60 Hz for 1 min between cable terminals and case Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 to IP67G JIS C 0920 2003 Appendix 1 Antenna portion See Note 1 Antenna portion see Note 2 Vibration resistance 10 to 500 Hz 1 5 mm double amplitude acceleration 100 m s2 1 sweep in each 3 directions up down left right and forward backward for 8 minutes each Shock resistance Dimensions Material Weight 500 m s2 3 times each in 6 directions Total 18 times M22 x 65 mm ABS resin brass and epoxy resin filler Approx 850 g with 12 5 m cable Cable length Standard lengths of 2 and 12 5 m Note 1 The degree of protection for the Connector is IP67 IP65 Oil resistance has been tested using a specific oil as defined in the OMRON test method 2 The Connector is not waterproof Oil resist
74. ions and Performance Meaning Lit when the power is ON Yellow Lit when a command is being sent ERR Green Red Lit when communications with a RF Tag are normal in Normal Communications Mode Lit when an error occurs in communications with a RF Tag in Normal Communications Mode CNT TYPE Yellow Lit when in V680 CA1D CA2D Controller connection mode SW1 1 setting ON TAG TYPE LV6 7D Yellow Yellow Lit when in V680L DLIKFL_IL RF Tag mode SW1 2 setting ON Maintenance Mode Lit at distance or speed level 6 Normal Communications Mode Lit when a write protection error occurs LV5 7A LV 4 76 Yellow Yellow Maintenance Mode Lit at distance or speed level 5 or higher Normal Communications Mode Lit when an address error occurs Maintenance Mode Lit at distance or speed level 4 or higher Normal Communications Mode Lit when a RF Tag memory error occurs LV3 72 LV2 71 Yellow Yellow Maintenance Mode Lit at distance or speed level 3 or higher Normal Communications Mode Lit when a no RF Tag error occurs Maintenance Mode Lit at distance or speed level 2 or higher Normal Communications Mode Lit when a verification error occurs LV1 70 Yellow Maintenance Mode Lit at distance or speed level 1 or higher Normal Communications Mode Lit when a RF Tag communications error occurs The distance level will vary greatly depending on the s
75. m min e When V680 HS65 is Used 140mm min 140mm min mp 2 Q JJ TI Q Q e When V680 H01 V2 is Used 250mm min 250mm min RFID System User s Manual 121 Section 4 Installation E Influence of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680S D8KF68 RF Tag angle 0 V680 HS63 and V680S D8KF68 o 1 1 1 1 1 3 Horizontal facing RF Tag J V680 HS63 and V680S D8KF68 4 Vertical facing RF Tag V680 HS65 and V680S D8KF68 Horizontal facing RF Tag V680 HS65 and V680S D8KF68 Vertical facing RF Tag V680 H01 V2 and V680S D8KF68 Horizontal facing RF Tag V680 H01 V2 and VOB0S DEKEOS o 1 2 5 32 47 Vertical facing RF Tag 1 3 T V680 HS63 and V680S D8KF68 e V680 HS63 and V680S D8KF68 a Horizontal facing RF Tag Vertical facing RF Tag z D Q gt lt i s O RF Tag RF Tag Antenna Antenna eV680 HS65 and V680S D8KF68 e V680 HS65 and V680S D8KF68 Horizontal facing RF Tag Vertical facing RF Tag RF Tag RF Tag Metal Metal fap Antenna Antenna
76. mm Axis offset 1 mmO V680 D32KF68 Write 0 to 75 0 mm Axis offset 10 mm V680 D32KF68 with ATTACHMENT V680 A81 0 to 55 0 mm Axis offset 10 mm with metal on back surface steel 0 to 55 0 mm Axis offset 10 mm 0 to 150 0 mm Axis offset 1 mm0 0 to 150 0 mm Axis offset 10 mm Read O to 150 0 mm Axis offset 1 mm0O Write 0 to 150 0 mm Axis offset 10 mm V680 D8KF68 with ATTACHMENT v680 A81 0 to 55 0 mm Axis offset 10 mm V680 HS65 O O 3 3 O D O 5 D 9 5 o V680 D8KF68 V680 H01 V2 V680 D32KF68 RFID System 56 User s Manual Section 3 Communications Specifications e Measurement Conditions V680 D8KF68 D32KF68 V680 D8KF68 D32KF68 V680 A81 ATTACHMENT V680 HS63 V680 HS63 Non metallic material Metal Metal Examples Resin plastic wood etc Metal O V680 HS65 V680 HS65 3 V680 A81 ATTACHMENT O gt ma Q Q D V680 D8KF68 V680 D8KF68 V680 D32KF68 V680 D32KF68 Non metallic material Metal Metal Examples Resin plastic wood etc Metal V680 H01 V2 V680 D8KF68 V680 D32KF68 Non metallic material Non metallic material Examples Resin plastic wood etc RFID System User s Manual 57 O O 3 3 O D O 5 D 9 5 oO 58 Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for re
77. mmunications Specifications Item Model Communications method Electromagnetic induction V680 H01 V2 Operating frequency Modulation 13 56 MHz 7KHz RFID System User s Manual gt 5 F D 5 5 D o mp gt Ww r a 5 gt 3 pod D 23 Section 2 Specifications and Performance E Dimensions MOUNTING SCREW HOLES 4 Unit mm Connector Senter of Coil pee EE Vinyl Insulated Round Cord 5 8 dia 41 0 16 dia 2 Cores 17 0 08 dia 8 Cores Standard Length 0 5 m 185 0 2 142 5 Four M4 or 4 5 dia holes Twelve Operation Indicator gt 235 0 2 Four 5 dia holes T Communications sufrace Mounting Holes O O TA Ferrite Core s O O gt Sia u A T o o O T O b O b ebah Aa o 6 fo debts gt x 3 6 Four Mounting bracket 30 38 D Setting switch protection Cover 142 5 235 7 5 17 250 500 3 45 Case material PC ASA resin Rear Panel Aluminum RFID System 24 User s Manual E Operation Indicator a N omron V680 H01 V2 RUN LV6 7D COMM LV5 7A _JNORM _ LV4 76 ERR LV3 72 L_JeNT TYPEL_JLV2 71 TAG TYPE _ LV1 70 A ce tt Green Section 2 Specificat
78. mple In this example diagram the V680 D2KF67 V680 HA63B and V680 HS63 are combined and 256 bytes are read O 3 3 c O as O 3 a JJ p _s 1 O D 100 80 60 40 20 0 20 40 60 80 X Unit mm 56mm This diagram shows the following Distance travelled in interrogation zone D 56 mm when Y communications range 20 mm Communications time T 1 2N 30 1 2 x 256 30 337 2 ms Accordingly the movement speed in this case will be as follows Distance travelled in interrogation zone _ _96 mm Communications time 337 2 ms 9 96 m min Note 1 The distance travelled in the interrogation zone depends on the read write distance and the axis offset Refer to the diagrams in Interrogation Zone 2 The speed of the RF Tag is provided as a guideline Before using the RFID System run a test to determine the speed under actual operating conditions 3 The above values do not take into account the processing of errors in communications with the host device or RF Tags RFID System User s Manual Section 4 Installation Installing Antennas Mounting Amplifiers a Installing RF Tags 80 89 91 RFID System User s Manual 79 Section 4 Installation Installing Antennas V680 HS51 Install the Antenna using the nuts and toothed washers that are provided on both sides of the mounting material as shown in the diagram below
79. n zone given here are for reference only For information on communications ranges refer to p 70 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V 680 HS52 Embedded in Non Metal and V680S D8KF67M V680 HS63 with Non Metal on Back Surface and V680S D8KF67M Read Write with Metal on Back Surface Steel awrite with Metal on Back Surface Steel Y 40 A 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface and V680S D8KF67M Read Write with Metal on Back Surface Steel O O 3 3 2A O D O 5 D 9 5 D o 100 80 60 40 20 0 20 40 60 80 X RFID System User s Manual 71 Section 3 Communications Specifications V680S D8KF68 E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read 0 to 45 0 mm Axis offset 10 mm V680 HS63 V680S D8KF68 Write 0 to 45 0 mm Axis offset 10 mm V680 HA63B 0 to 75 0 mm Axis offset 10 mm V680 HS65 V680S D8KF68 i 0 to 75 0 mm Axis offset 10 mm O to 150 0 mm Axis offset 10 mm O to 150 0 mm Axis offset 10 mm V680 H01 V2 V680S D8KF68 e Measurement Conditions V680S D8KF68 We V680 HS63 V680 HS65 V680S D8KF68 Non metallic material O O 3 3 2 O D
80. nce of RF Tag Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680S D2KF67M RF Tag angle 0 30 40 V680 HS52 and V680S D2KF67M Metal on back Steel V680 HS63 and V680S D2KF67M Metal on back Steel V680 HS65 and V680S D2KF67M Metal on back Steel 5 mp 2 Q JJ TI Q Q 0 e V680 HS52 and V680S D2KF67M e V680 HS63 and V680S D2KF67M a t Y fe f RETo RF Tag Antenna Antenna Non A material eV680 HS65 and V680S D2KF67M Metal RF Tag Antenna 108 RFID System User s Manual Section 4 Installation V680S D2KF68 E RF Tag Installation Direction Secure the RF Tag with M4 screws Tighten the screws to a torque of 0 7 to 1 2 N m E Effect of Metal behind RF Tags Reference The V680S D2KF68 communications range is reduced if there is any metal material behind the RF Tag V 680 HS63 amp V680S D2KF68 680 HS65 amp V680S D2KF68 100 109 90 90 _ o 80 v 80 N 70 c 70 D S S ne 60 ne 60 r co co 5 2S 50 22 50 To 6 2 6 2 eq 40 T5 40 JJ Eg 30
81. nctioning due to mutual interference when using more than one Antenna leave suffi cient space between them as shown in the following diagrams m V680 HS51 e Installing the Antennas Facing Each Other e Installing the Antennas in Parallel cl D Ol TH 80 mm min 80 mm min E V680 HS52 e Installing the Antennas Facing Each Other e Installing the Antennas in Parallel f Oe pem 180 mm min T mp Q gt mp D o E V680 HS63 e Installing the Antennas Facing Each Other e Installing the Antennas in Parallel 270 mm min 430 mm min E V680 HS65 e Installing the Antennas Facing Each Other e Installing the Antennas in Parallel a 400 mm min 700 mm min RFID System User s Manual 87 Section 4 Installation E V680 H01 V2 When installing multiple Read Write Antennas adjacently make sure that the Antenna interrogation zone do not overlap For details on the Antenna interrogation zone refer to Interrogation Zone Reference As a guide the following diagrams show the minimum distances required between two Antennas installed facing each other or in parallel Be sure to provide the distance between Antennas shown here e Installing the Antennas Facing Each Other e Installing the Antennas in Parallel 50cm min 1 2m min T mp D Q gt 5 mp 5 D o 88 RFID System User s Manual Section 4 Installation Mounting Amplifiers
82. nd standards and made other minor corrections Added item for the overseas regulations and standards and made other minor corrections February 2009 January 2012 February 2014 Added items for V680 D8KF67 D8KF67M RF Tags and V680 H01 V2 Antenna May 2009 The material of V680 D2KF67 D2KF67M is changed Added items for V680 D2KF52M BT01 D2KF52M BT11 RF Tags Deleted the related information on the overseas regulations and standards Made other minor corrections Added items for V680S D2KF67 D2KF67M D2KF68 D2KF68M RF Tags Deleted items for V680 D2KF67 RF Tags and made other minor corrections April 2014 October 2014 01 02 03 03A 04 04A 05 07 07A RFID System User s Manual The dimensions of V680S D2KF67 D2KF67M D2KF68 D2KF68M is changed Added items for V680S D8KF67 D8KF67M D8KF68 D8KF68M RF Tags and made other minor corrections Authorized Distributor
83. nditions V680 HS65 re 3 3 gt D V680S D2KF68M A V680S D2KF68M z V680 HS63 D 5 P H Metal Metal Non metallic material Metal Examples Resin plastic wood etc RFID System 66 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 66 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS63 with Metal on Back Surface V680 HS63 with Metal on Back Surface and V680S D2KF68 and V680S D2KF68 Read Write jee on back Steel Vertical facing RF Tag Read Write on back Steel Vertical facing RF Tag 100 80 60 40 20 0 20 40 60 80 X 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface V680 HS65 with Metal on Back Surface and V680S D2KF68 and V680S D2KF68 ReadAWrite Metal on back Steel Horizontal facing RF Tag Raadiiirite Metal on back Steel Vertical facing RF Tag RFID System User s Manual O O 3 3 2A O D O 5 D 9 5 D oO 67 Section 3 Communications Specifications V680S D8KF67 E Communications Range Specifications Guaranteed Amplifier Antenna RF
84. nings in the case Doing so may cause fire or electric shock 6 Turn OFF the Controller power supply before mounting or removing an Antenna or Amplifier 7 Turn OFF the power supply to the Controller before changing settings Attach a Setting switch protection Cover after setting Switch 8 If an error is detected in any Product immediately stop operation and turn OFF the power supply Consult with an OMRON representative 9 Dispose of the Products as industrial waste 10 Observe all warnings and precautions given in the body of this manual 11 Do not touch the product immediately after usage at high temperatures Doing so may occasionally result in burning 12 Do not open the back cover of the V680 H01 V2 antenna 13 Do not install the Products near equipment that generates a large amount of heat such as a heater transformer or high capacity resistor RFID System User s Manual Introduction ie Q O Oo gt Precautions for Correct Use Always observe the following precautions to prevent operation failures malfunctions and adverse effects on performance and equipment 1 Installation Environment Do not use the Products in the following locations e Locations exposed to direct sunlight e Locations exposed to corrosive gases dust metallic powder or salts e Locations not within the specified operating temperature range e Locations subject to rapid changes in temperature or condensation e Locati
85. nnector 2 Hold the flat surfaces on the Antenna connector with the key slot on the Antenna connector with a wrench and turn the connection ring clock and push the connector all the way in wise to secure the connector Relay cable connector Connection rin Antenna connector Removing the Antenna 1 Hold the flat surfaces on the Antenna con 2 Make sure that the connection ring is sufficiently nector with a wrench and turn the connec loose and then pull the connector straight out tion ring counterclockwise to loosen the connector Relay cable connector Connection ring Flat surface T mp 2 Q gt mp D 5 D o Antenna connector t When loosening the connection ring always hold the flat surfaces on the Antenna connector with a wrench If the con 3 nection ring is loosened without holding the Antenna connector the relay cable may be damaged or wire inside the relay cable may break 17 The connector cannot be pulled out without first loosening the connection ring Completely loosen the connection ring before pulling out the connector Pulling on the cable without sufficiently loosening the connection ring may cause the cable to be damaged or wire inside the cable may break CHECK 84 RFID System User s Manual Section 4 Installation Effect of Surrounding Metals on the Antenna Reference E V680 HS51 When embedding the Antenna in metal be sure the metal do
86. no icing temperature Ambient operating 35 to 95 with no condensation humidity Insulation resistance 20 MQ min at 500 VDC between cable terminals and case Dielectric strength 1 000 VAC 50 60 Hz for 1 min between cable terminals and case Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 to IP67G JIS C 0920 2003 Appendix 1 Antenna portion See Note 1 Antenna portion see Note 2 Vibration resistance 10 to 500 Hz 1 5 mm double amplitude acceleration 100 m s2 10 sweeps in each of 3 directions up down left right and forward backward for 11 minutes each Shock resistance 500 m s2 3 times each in 6 directions Total 18 times Dimensions 40 x 53 x 23 mm Weight Approx 850 g with 12 5 m cable Cable length Standard lengths of 2 and 12 5 m gt gt rmp D gt N F gt ep D O Q F D gt 5 3 h D Note 1 The degree of protection for the Connector is IP67 IP65 Oil resistance has been tested using a specific oil as defined in the OMRON test method 2 The Connector is not waterproof Oil resistance has been tested using a specific oil as defined in the OMRON test method E Dimensions e V680 HS63 W Antenna Ferrite core Unit mm nnector 37 Connecto EA H AT Afif iL S mi D H 14 5 dial 16 5 dia 50 Insul
87. nship between the distance between a RF Tag and metal surface and the transmission distance The Attachment is 10 mm thick 5 mp 2 Q JJ TI Q Q V680 HS63 amp V680 D8KF68 D32KF68 V680 HS65 amp V680 D8KF68 D32KF68 when anagem vesorket isuse eee ee a rd Distance to metal x Distance to metal x RF Tag Antenna Antenna RF Tag Metal on back M i Commu P nications range nications X T range X Metal Metal Metal on back 100 RFID System User s Manual Section 4 Installation V 680 H01 V2 amp V680 D8KF68 D32KF68 The communications range without metal is 100 Distance to metal x Antenna S _ RF Tag Q Q D e is 2 Le S o oO Commu E nications range c O Z X a 5 e mp 2 Q JJ TI Q Q RFID System User s Manual 101 Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS63 V680 HS52 are Used 120mm min 120mm min 120mm min e When V680 HS65 is Used 150mm min 150mm min 5 mp 2 Q JJ TI Q Q e When V680 H01 V2 is Used 250mm min 250mm min 102 RFID System User s Manual Section 4 Installation E Influence of RF Tag Angle Referenc
88. o 95 with no condensation humidity Insulation resistance 20 MQ min at 500 VDC between cable terminals and case Dielectric strength 1 000 VAC 50 60Hz for 1 min between cable terminals and case Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 Antenna portion see Note1 Vibration resistance 10 to 2 000 Hz 1 5 mm double amplitude acceleration 150 m s2 10 sweeps in each of 3 directions up down left right and forward backward for 15 minutes each Shock resistance 1 000 m s2 3 times each in 6 directions Total 18 times Dimensions M12 x 35 mm Material ABS brass and epoxy resin filling Weight Approx 55 g gt E D F gt ep D O Q r D gt 5 3 D Cable length Standard length of 2 m Note 1 The Connector is not waterproof Oil resistance has been tested using a specific oil as defined in the OMRON test method E Dimensions e V680 HS51 Unit mm da 429 po Toothed washer i C t Mounting Hole Dimensions Two lock nuts Ferrite core onnector M12x1 ee 5 ja HA oe ie il E CPN tale el TIAN FH o y a TUU Z 24 9 6 dia 14 5 dia 16 8 dia Coaxial cable 2 9 dia standard length 2 m Insulation cover Case material Communications ABS resin surface Cae Pve ac RFID System 16 User s Manual V680 HS52 Section 2 Specificat
89. o mutual interference when using more than one RF Tag e When V680 HS51 V680 HS52 and V680 HS63 are Used 25 mm min 25 mm min RFID System User s Manual 91 Section 4 Installation E Influence of Angle Reference Install Antennas and RF Tags as parallel to each other as possible Communications are possible even when an Antenna and a RF Tag are mounted at an angle but the communications range will be short ened The relation between the angle and the communications range is shown below Percentage Drop in Communications Range According to Angle of V680 D2KF52M RF Tag angle 0 V680 HS51 and V680 D2KF52M V680 HS51 and V680 D2KF52M Metal Steel V680 HS52 and V680 D2KF52M V680 HS52 and V680 D2KF52M Metal Steel V680 HS63 and V680 D2KF52M The measurement is no possible because the RF Tag comes in contact with the Antenna eV680 HS51 and V680 D2KF52M e V680 HS51 and V680 D2KF52M Metal Steel RF Tag 5 mp 2 Q JJ TI Q Q Antenna Toothed washer Non metallic Steel eV680 HS52 and V680 D2KF52M e V680 HS52 and V680 D2KF52M Metal Steel RF Tag RF Tag f f Non metallic Steel Antenna Antenna material V680 HS63 and V680 D2KF52M RF Tag T Non metallic material Antenna Non metallic material 92 RFID System User s Manual Section 4 Installation V680 D2KF52M BT01 D2KF52M BT11 E RF Tag
90. on Direction Mount the V680S D2KF67M to a metal surface and 2 M3 secure the RF Tag with M3 screws Tighten the screws to a torque of 0 6 N m or less 32 E Effect of Surrounding Metals The V680S D2KF67M can be surface mounted or it can be embedded in metal If it is embedded in metal the height of the metal casing must not exceed that of the RF Tag RF Tag RF Tag z Embedded i Surface mounted D C 5mm max O 5 Metal Metal JJ TI D V680 HS52 and V680S D2KF67M V680 HS63 and V680S D2KF67M r 100 100 90 90 80 80 70 70 60 60 The communications range without metal is 100 oO O N O O O The communications range without metal is 100 oe O N O O O 10 20 30 40 50 mm Distance to metal x Distance to metal x V680 HS65 and V680S D2KF67M z 100 90 2 80 70 5 60 8 50 SS 40 ee Ew 30 o w 20 b b E 0 10 20 30 40 50 mm Distance to metal x RF Tag Doan Metal RFID System User s Manual 107 Section 4 Installation E Mutual Interference with RF Tag Reference To prevent malfunctioning due to mutual interference when using more than one RF Tag leave suffi cient space between them as shown in the following diagram e When V680 HS52 V680 HS63 and V680 HS65 are Used 80mm 80mm E Influe
91. on metallic material RFID System 48 User s Manual Section 3 Communications Specifications E Interrogation Zone Reference The interrogation zone given here are for reference only For information on communications ranges refer to p 48 The interrogation zone depends on the type of RF Tags used the ambient temperature surrounding metals and noise Be sure to check carefully when installing the system V680 HS51 Embedded in Metal and V680 D2KF52M V680 HS51 Embedded in Metal and V680 D2KF52M Read Write Read Write Embedded in Metal Steel V 680 HS52 Embedded in Non Metal and V680 D2KF52M V680 HS52 Embedded in Non Metal and V680 D2KF52M Read Write Read Write Embedded in Metal Steel V 680 HS63 with Non Metal on Back Surface and V680 D2KF52M Read Write RFID System User s Manual O O 3 3 2A O D O 5 D 9 5 D o 49 Section 3 Communications Specifications V680 D2KF52M BT01 D2KF52M BT11 E Communications Range Specifications Guaranteed 0 5 to 2 5 mm Axis offset V680 HS51 V680 D2KF52M BT01 D2KF52M BT 11 0 5 to 2 5 mm Axis offset 0 5 to 2 0 mm Axis offset 0 5 to 2 5 mm Axis offset V680 HA63B V680 HS52 V680 D2KF52M BT01 D2KF52M BT11 e Measurement Conditions V680 D2KF52M BT01 V680 D2KF52M BT01 p AD tt Metallic material Non metallic material
92. ons not within the specified humidity range e Locations subject to direct vibration or shock outside the specified ranges e Locations subject to spray of water oil or chemicals e Locations subject to filled with steam 2 Installation The Products communicate with RF Tags using the 13 56 MHz frequency band Some motors invert ers and switching power supplies generate noise that can affect communications with the RF Tags and cause errors If such devices are located near the RF Tags always test operation in advance to confirm whether the system will be affected e Observe the following precautions to minimize the effects of normal noise 1 Ground all metal objects in the vicinity of the Products to 100 or less 2 Do not use the Products near high voltage or high current lines e Do not use non waterproof Products in an environment where mist is present e Do not expose the Products to chemicals that adversely affect the Product materials e When mounting the Products tighten the screws to the following torques Do not apply screw loctite and any other organic solvent to any other parts than the screws The casing may get cracked V680 HS51 6 N m V680 HS52 40 N m V680 HS63 1 2 N m V680 HS65 1 2 N m V680 H01 V2 1 2 N m Use the Mounting bracket of the attachment article V680 D2KF52M BT01 24 5 N m V680 D2KF52M BT11 11 N m V680 D8KF67 D8KF67M 0 6 N m V680 D2KF68 D32KF68 1 2 N m V680S D2KF67 D2KF67M 0 6 N m
93. own in the following table Antenna setting Controller setting V680 H01 V2 V680 CA5D01 VL1 CS1W V680C11 CJ1W V680C11 SW1 1 OFF SW4 8 OFF DM20000 100 x m 3 0000 RFID System User s Manual Section 2 Specifications and Performance Cables V680 H01 V2 exclusive use E Specifications Item Model V700 A40 W Number of conductors 10 Insulation resistance 5 MQ min at 500 VDC between terminals and sheath Dielectric strength 500 VAC 1 min E Dimensions Item Model V700 A40 W 2M V700 A40 W 5M V700 A40 W 10M V700 A40 W 20M V700 A40 W 30M Length L1 Approx 2m Approx 5m Approx 10m Approx 20 m Approx 30m 30 m Weight Approx 150 g Approx 360 g Approx 700 g Approx 1 350 g CELE 2 000 g L1 2 000 5 000 10 000 20 000 30 000 gt rmp D feb N r gt WO a_i gt gt 3 3 D Unit mm 41 8 L1 100 49 S T Til E JO r e X Tf IN Io Connector Controller end Connector Antenna end Connection label Vinyl Insulated Round Cord 6 dia RFID System User s Manual 27 Section 2 Specifications and Performance Amplifier V680 HA63B E General Specifications V680 HA63B Ambient operating 10 to 55 C with no icing temperature Ambient storage 25 to 65 C with no icing temperature Ambient operating 35 to 85 with no condensation humidity Insulation resistance 20 MQ min at 500 VDC between cable terminals and c
94. se RUN mode to conduct a sufficient number of tests in the actual operating environment Values of distance level 4 or above may not be displayed but this will not affect the RUN mode performance and does CHECK es not indicate a malfunction RFID System User s Manual 29 Section 2 Specifications and Performance Cables V680 HA63 exclusive use E Specifications V700 A43 V700 A44 Number of conductors 10 Insulation resistance 5 MQ min at 500 VDC between terminals and sheath Dielectric strength 500 VAC 1 min E Dimensions Item Model V700 A43 V700 A44 A44 Length L1 Approx 10m a 20m Weight Approx 700 g Approx 1 350 g 51 _ L1 100 gt 3 s 15 5 dia Connector Amplifier end Connection label Casing material PVC Connector Controller end Unit mm RFID System 30 User s Manual Section 2 Specifications and Performance RF Tags Specifications and Dimensions E V680 D2KF52M e General Specifications V680 D2KF52M Memory capacity 2 000 bytes user area Memory type FRAM Data Retention 10 years after writing 55 C or less 2 9 years after writing 55 to 85 C Write Endurance 10 billion times per block 85 C or less Access frequency See Note 1 10 billion times Ambient operating 25 to 85 C with no icing temperature Ambient storage 40 to 85 C with no icing temperature Ambient operating 35
95. stalling the system V680 HS63 with Metal on Back Surface V680 HS63 with Metal on Back Surface and V680S D2KF68 and V680S D2KF68 Read Write V680 HS65 with Metal on Back Surface V680 HS65 with Metal on Back Surface and V680S D2KF68 and V680S D2KF68 Read Write Horizontal facing RF Tag Read Write Vertical facing RF Tag 250 200 150 100 50 0 50 100 150 200 X 250 200 150 100 50 0 50 100 150 200 X V 680 H01 V2 with Non Metal on Back Surface V 680 H01 V2 with Non Metal on Back Surface and V680S D2KF68 and V680S D2KF68 Read Write Horizontal facing RF Tag Read Write Vertical facing RF Tag Y Y 250 200 150 100 50 0 50 100 150 200 X 300 250 200 150 100 50 0O 50 100 150 200 250 X RFID System User s Manual O O 3 3 O D i O 5 D 9 D o 65 Section 3 Communications Specifications V680S D2KF68M E Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range E Read 0 to 35 0 mm Axis offset 10 mm on V680S D2KF68M with metal on back surface steel Write O to 35 0 mm Axis offset 10 mm ial 680S D2KF68M Read O to 55 0 Axis offset 10 mm ea o 55 0 mm Axis offset mm V680 HS65 y with metal on back surface steel Write O to 55 0 mm Axis offset 10 mm e Measurement Co
96. t RF Tags are shown below Polybutylene terephthalate PBT resin is used for case material and epoxy resin for filling material Refer to the following lists and do not use chemicals that affect PBT and epoxy resins RF Tags cannot be used in applications with explosion proof specifications E Chemicals That Cause Deformations Cracks Etc Acetone trichloroethylene ethylene dichloride sodium Aqua regia chromic acid sulfuric acid 90 RT nitric hydroxide and other alkaline substances acid 60 RT liquid ammonia acetone methylene chloride phenol E Chemicals That May Cause Discoloration Swelling Etc Hydrochloric acid 10 RT acetic acid 5 RT ben Sulfuric acid 10 RT nitric acid 10 RT concen zene trated hydrochloric acid acetic acid 50 RT nitric acid calcium hydroxide benzene cresol alcohol microhexanon toluene xylene benzene grease E Chemicals that Do Not Affect PPS Resin or Epoxy Resin Nitric acid 30 RT concentrated hydrochloric acid Ammonia hydrochloric acid 10 RT calcium hydrox acetic acid ethyl acetate 100 RT potassium perma ide petroleum gasoline Yushiroken S50 Chemi cool ganate 5 RH ethyl acetate carbon tetrachloride Z Velocity No 3 Yushiroken EEE 30Y methyl ethyl methanol ethanol gasoline ketone sodium hydroxide Note The above results are from tests conducted at room temperature 23 C Even if the chemicals do not affect the PPS or epo
97. tal and V680 D8KF67M V 680 HS63 with Non Metal on Back Surface and V680 D8KF67M Read Write with Metal on Back Surface Steel gs anit with Metal on Back Surface Steel 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface and V680 D8KF67M Read Write with Metal on Back Surface Steel O O 3 3 2A O D O 5 D 9 5 D o 100 80 60 40 20 0 20 40 60 80 X RFID System User s Manual 55 Section 3 Communications Specifications V680 D8KF68 D32KF68 Communications Range Specifications Guaranteed Amplifier Antenna RF Tag Communications range Read 0 to 45 0 mm Axis offset 10 mm V680 D8KF68 Write 0 to 45 0 mm Axis offset 10 mm V680 D8KF68 with ATTACHMENT v680 A81 0 to 35 0 mm Axis offset 10 mm with metal on back surface steel 0 to 35 0 mm Axis offset 10 mm V680 HS63 0 to 45 0 mm Axis offset 10 mm V680 D32KF68 0 to 45 0 mm Axis offset 10 mm V680 D32KF68 with ATTACHMENT veso ast Read 0 to 35 0 mm Axis offset 10 mm with metal on back surface steel Write 0 to 35 0 mm Axis offset 10 mm 0 to 75 0 mm Axis offset 10 mm V680 HA63B V680 D8KF68 0 to 75 0 mm Axis offset 10 mm with metal on back surface steel O to 55 0 mm Axis offset 10 mm Read 0 to 75 0
98. ter writing 55 C or less 2 9 years after writing 55 to 85 C Write Endurance 10 billion times per block 85 C or less Access frequencySee Note 1 10 billion times Ambient operating 25 to 85 C with no icing temperature Ambient storage 40 to 85 C with no icing temperature Ambient operating 35 to 95 humidity Degree of protection IP67 IEC 60529 2001 Oil resistance equivalent to IP67G JIS C 0920 2003 Appendix 1 See Note 2 Vibration resistance 10 to 2 000 Hz 1 5 mm double amplitude acceleration 150 m s 10 sweeps each in X Y and Z directions for 15 minutes each JJ TI Q Q Shock resistance 500 m s2 3 times each in X Y and Z directions Total 18 times Dimensions Hex Head 13 HEX x 7 mm Screw M8 x 10 mm Materials Bolt SUS3803 Case RF Tag PPS resin Filling resin RF Tag Epoxy resin Weight Approx 10 g Metal countermeasures Yes Note 1 The number of accesses is the total number of reads and writes 2 Oil resistance has been tested using a specific oil as defined in the OMRON test method Dimensions Unit mm RF Tag eal 15 Bolt material SUS303 Case material RF Tag PPS resin Filling resin RF Tag Epoxy resin 5 The side with the markings is the communications surface Mount the RF Tag with this side facing the Antenna S zs CHECK RFID System User s Manual 33 Section 2 Specifications and Performance
99. the product from the test machine 12 5 liter min 2 5to3m Discharging nozzle 6 3 dia Protection against high Protects against high pres Water is jet sprayed at any angle towards the product pressure water jet spray sure water jet soray approach for 1 min per square meter for at least 3 min in total PEE ing at any angle towards the from the test machine product 25to3m 100 liter min Discharging nozzle 6 3 dia Protection underwater Resists the penetration of The product is placed 1 m deep in water if the product water when the product is is 850 mm max in height for 30 min sa placed underwater at speci E fied pressure for a specified time g D Q D D O h D O F D O O m 8 Protection underwater Can be used continuously The test method is determined by the manufacturer and See note underwater user Note OMRON Test Method Usage condition 10 m or less under water in natural conditions 1 No water ingress after 1 hour under water at 2 atmospheres of pressure 2 Sensing distance and insulation resistance specifications must be met after 100 repetitions of half hour in 5 C water and half hour in 85 C water About IPX9K IPX9K is a protection standard regarding high temperature and high pressure water which is defined by the German standard DIN 40050 PART9 Water is sprayed on 80 C hot wat
100. uct may be changed without any notice When in doubt special model numbers may be assigned to fix or establish key spec ifications for your application on your request Please consult with your OMRON representative at any time to confirm actual specifications of purchased prod ucts DIMENSIONS AND WEIGHTS Dimensions and weights are nominal and are not to be used for manufacturing purposes even when tolerances are shown ERRORS AND OMISSIONS The information in this document has been carefully checked and is believed to be accurate however no responsibility is assumed for clerical typographical or proofreading errors or omissions PROGRAMMABLE PRODUCTS OMRON shall not be responsible for the user s programming of a programmable product or any consequence thereof COPYRIGHT AND COPY PERMISSION This document shall not be copied for sales or promotions without permission This document is protected by copyright and is intended solely for use in con junction with the product Please notify us before copying or reproducing this document in any manner for any other purpose If copying or transmitting this document to another please copy or transmit it in its entirety RFID System User s Manual Introduction 5 pes ie Q c Oo Safety Precautions Alert Symbols for Safe Use The following symbols are used in this manual to indicate precautions that must be observed to ensure safe use of the V680 HS51 H
101. urface and V680S D8KF68 and V680S D8KF68 Read Write Metal on back Steel Vertical facing RF Tag s Read Write Metal on back Steel Vertical facing RF Tag 100 80 60 40 20 0 20 40 60 80 X 100 80 60 40 20 0 20 40 60 80 X V680 HS65 with Metal on Back Surface V680 HS65 with Metal on Back Surface and V680S D8KF68 and V680S D8KF68 Read Write Metal on back Steel Horizontal facing RF Tag Read Write Metal on back Steel Vertical facing RF Tag 250 200 150 100 50 0 50 100 150 200 X 250 200 150 100 50 0 50 100 150 200 X RFID System User s Manual O O 3 3 2A O D O 5 D 9 5 D oO 15 O 3 3 c O as O 3 a JJ p _s 1 O D 76 Section 3 Communications Specifications Communication Time Reference Communications Time Reference Communications Time V680 HA63B V680 HSL IL V680 HO1 V2 V680S D2KFL1 Communications Command speed setting N No of bytes processed Write with verification T 2 4N 449 Write without verification T 1 2 N 49 High speed mode Read T 0 9N 427 See note Write with verification T 1 7N 49 Write without verification T 0 9 N 41 Note When using multi access or FIFO communications options normal mode communications speed will be used regardless of the high speed mode setting
102. urrounding environment The setting position will serve as a guide but use RUN mode to conduct a sufficient number of tests in the actual operating environment z CHECK Values of distance level displays 6 from 3 Values of distance level not displays 1 and 2 au When the V680 CA1D CA2D is used the V680U DUKFULI cannot be used When the V680 CA5D01 VLI CS1W V680C11 and CJU1W V680C11 is used set SW1 1 of the antenna to turning off ww CHECK RFID System User s Manual gt 5 F D 5 5 D o mp gt Ww a 5 gt 3 pod D 25 gt 5 F D 5 D oO mp 5 U al 5 gt 3 oS D 26 Section 2 Specifications and Performance E Setting Switch Note Please attach a setting switch protection cover after setting switch Setting Function Default setting Controller selection OFF V680 CA5D01 VL CS1W V680C11 or CU1W V680C1 1 ON V680 CA1D CA2D See Note RF Tag selection OFF V680 D1KPLIL EEPEOM RF Tags ON V680LI DLIKFLIL FRAM RF Tags SW1 3 Reserved by System Always set this Switch to OFF SW1 4 Reserved by System Always set this Switch to OFF Note When the V680 CA1D CA2D is used the V680L DLIKFLIL cannot be used When the V680 CA5D01 VL_I CS1W V680 C11 and CJ1W V680C11 is used set SW1 1 of the antenna to turning off Set SW1 1 on the V680 H01 V2 Antenna and the Controller as sh
103. xy resins at room temperature they may affect the resins at higher or lower temperatures Check the chemicals carefully in advance gt D 3 O JJ M o P Q gt D O i JJ TI j Q N RFID System 130 User s Manual Section 5 Chemical Resistance Applicable Models V680S D2KF67 D2KF67M D2KF68 D2KF68M D8KF67 D8KF67M D8KF68 D8KF68M PPS resin is used for case material Refer to the following lists and do not use chemicals that affect PPS and epoxy resin RF Tags cannot be used in applications with explosion proof specifications At room At tempere 90 C Chemical Hydrochloric acid A A Sodium hypochlorite A A A A Phenol solution A A Sulfuric acid A B Glacial acetic acid A A A A Acetic acid A A A A Oleic acid A A S Nitric acid 60 B C Ethyl alcohol 9 A A 40 A B Ethyl acetate A A 10 A A Sebacic acid diethylhexyl A A Hydrogen fluoride solution 40 B B Acetone A A Chromic acid 40 A A Diethyl ether A A 3 A A 2 2 4 trimethylpentane A A 5 Sodium hydroxide solution 60 A A Benzene A A Bu 10 A A Toluene A A O 1 A A Aniline A A 5 A B Mineral oil A A 2 A B Gasoline A A 9 Sodium chloride 10 A A Insulating oil A A J Sodium carbonate 20 A A Dichloroethylene A A D 2 A A Carbon tetrachloride A A A Has no adverse effect B May cause discoloration swelling etc C Causes deformation cracks etc Note The above table shows the
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