SIMATIC RF620T Operating Instructions SIMATIC Sensors RFID systems SIMATIC RF620T Operating Instructions 04/2008 A5E01602431-02 1 Safety Guidelines This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger. DANGER indicates that death or severe personal injury will result if proper precautions are not taken. WARNING indicates that death or severe personal injury may result if proper precautions are not taken. CAUTION with a safety alert symbol, indicates that minor personal injury can result if proper precautions are not taken. CAUTION without a safety alert symbol, indicates that property damage can result if proper precautions are not taken. NOTICE indicates that an unintended result or situation can occur if the corresponding information is not taken into account. If more than one degree of danger is present, the warning notice representing the highest degree of danger will be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to property damage. Qualified Personnel The device/system may only be set up and used in conjunction with this documentation. Commissioning and operation of a device/system may only be performed by qualified personnel. Within the context of the safety notes in this documentation qualified persons are defined as persons who are authorized to commission, ground and label devices, systems and circuits in accordance with established safety practices and standards. Prescribed Usage Note the following: WARNING This device may only be used for the applications described in the catalog or the technical description and only in connection with devices or components from other manufacturers which have been approved or recommended by Siemens. Correct, reliable operation of the product requires proper transport, storage, positioning and assembly as well as careful operation and maintenance. Trademarks All names identified by (R) are registered trademarks of the Siemens AG. The remaining trademarks in this publication may be trademarks whose use by third parties for their own purposes could violate the rights of the owner. Disclaimer of Liability We have reviewed the contents of this publication to ensure consistency with the hardware and software described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions. Siemens AG Automation and Drives Postfach 48 48 90327 NURNBERG GERMANY A5E01602431-02 04/2008 Copyright (c) Siemens AG 2008. Technical data subject to change Table of contents 1 SIMATIC RF620T Operating Instructions .................................................................................................. 5 1.1 Characteristics ...............................................................................................................................5 1.2 Ordering data .................................................................................................................................6 1.3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.3.7 1.3.8 Planning the use ............................................................................................................................6 Reading range when mounted on non-metallic carriers ................................................................6 Directional radio pattern of the transponder on non-metallic surfaces ..........................................7 Optimum antenna/transponder positioning with plane mounting of the transponder on metal ............................................................................................................................................10 Reading range on flat metallic carrier plates ...............................................................................11 Influence of conducting walls on the reading range.....................................................................12 Directional radio pattern of the transponder on metallic surfaces ...............................................14 Reading range when mounted on ESD carrier materials ............................................................15 Communication with multiple transponders .................................................................................16 1.4 Mounting instructions ...................................................................................................................17 1.5 Memory configuration ..................................................................................................................18 1.6 1.6.1 1.6.2 1.6.3 1.6.4 1.6.5 Technical Specifications ..............................................................................................................21 Mechanical data ...........................................................................................................................21 Electrical data...............................................................................................................................21 Memory specifications .................................................................................................................22 Environmental conditions.............................................................................................................22 Chemical resistance of the transponder RF620T ........................................................................22 1.7 1.7.1 Certificates and approvals ...........................................................................................................26 Certificates and approvals ...........................................................................................................26 1.8 Dimension drawing ......................................................................................................................27 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 3 Table of contents 4 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 1 SIMATIC RF620T Operating Instructions 1.1 Characteristics The SIMATIC RF620T Transponder is passive and maintenance-free, based on the UHF Class 1 Gen2 technology for storing 96-bit electronic product codes (EPC) The container tag for industrial applications is rugged and highly resistant to detergents. It is designed for easy attachment onto plastic, wood, glass, e.g. containers, palettes, and trolleys The optimum functionality/range of the RF620T on metal is achieved by means of the spacer. Since the plastic is food safe, it is also suitable for use in the food-processing industry. This container tag is designed for the frequency ranges 868 MHz (Europe) and 915 MHz (USA) and can be operated in combination with our UHF system RF660. SIMATIC RF620T Transponder Characteristics Area of application Transponder for rugged, industrial requirements such as RF identification in warehouses and the logistics and transport area. Frequency versions Europe USA / Canada 868 MHz 915 MHz Polarization Linear Memory EPC 96 bit Read/write range * with non-metallic carriers * direct on metallic carriers * with spacer on metallic carriers SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 * typically 0.2 to 6 m * typically 0.2 to 2 m * typically 0.2 to 4 m Mounting * * screw, bond on metal by means of spacers Labeling area You can inscribe the transponder itself using laser, or adhere a label to position . Possible types of labeling: * Barcode * Inscription in plain text * Data matrix code Housing color Anthracite 5 SIMATIC RF620T Operating Instructions 1.2 Ordering data 1.2 Ordering data Ordering data Order No. SIMATIC RF620T * Frequency 865 MHz to 928 MHz, * UHF Class 1 Gen2 technology (96 bit) * -25 C to +80 C operating temperature * Dimensions (L x W x H) 127 x 38 x 6 mm * IP 67 degree of protection 6GT2810-2HC80 Spacer for SIMATIC RF620T * For attaching to metal surfaces * Dimensions (L x W x H) 155 x 38 x 12 mm 6GT2898-2AA00 1.3 Planning the use 1.3.1 Reading range when mounted on non-metallic carriers The transponder is generally designed for mounting on metallic objects which provide the conditions for the maximum reading ranges Table 1-1 Reading range on non-metallic carriers Carrier plate material Reading range Transponder on wooden carrier (dry, degree of moisture < 15%) typ. 6 m Transponder on plastic carrier typ. 6 m Transponder on glass typ. 6 m Transponder on plastic mineral water bottle typ. 1.2 m 100% reading range is achieved when mounted in empty, anechoic rooms. 6 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.3 Planning the use 1.3.2 Directional radio pattern of the transponder on non-metallic surfaces Preferably, align the data carrier parallel to the transmitting antenna. If, however, the data carrier including the metallic carrier plate is tilted, the reading range will be reduced. Rotation about the polarization axis 3RODUL]DWLRQD[LV Figure 1-1 Rotation of the transponder about the polarization axis Generally the range does not change when the transponder without carrier material is rotated about the polarization axis. SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 7 SIMATIC RF620T Operating Instructions 1.3 Planning the use Rotation orthogonal to the polarization axis 100 90 80 70 5DQJH 60 50 40 30 20 10 0 -180 -160 -140 -120 -100 -80 -60 -40 -20 0 20 40 60 80 100 120 140 160 180 $QJOHGHJUHHV Figure 1-2 8 Transponder characteristics when rotated orthogonally to the polarization axis (within the tag plane) SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.3 Planning the use If the transponder is positioned orthogonally to the transmitting antenna, it normally cannot be read. Therefore the data carrier is preferably to be aligned parallel to the transmitting antenna. The following figure illustrates this situation. Figure 1-3 Application example for possible orientations of the transponder. SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 9 SIMATIC RF620T Operating Instructions 1.3 Planning the use 1.3.3 Optimum antenna/transponder positioning with plane mounting of the transponder on metal 5[DQWHQQD 5HFHSWLRQ 5HFHLYHILHOG 'LVWDQFHFP 0HWDOFDUULHU 5HDGLQJGLVWDQFH VHHWHFKQLFDOVSHFLILFDWLRQV 7UDQVSRQGHU 5)7 7[DQWHQQD Figure 1-4 10 7UDQVPLWILHOG 6HQGLQJ Example of optimum antenna/transponder positioning SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.3 Planning the use 1.3.4 Reading range on flat metallic carrier plates The transponder generally has linear polarization. The polarization axis runs as shown in the diagram below. If the tag is centrically mounted on a flat metal plate, which may either be almost square or circular, it can be aligned in any direction since the transmitting and receiving RF660A antennas operate with circular polarization. 6TXDUH PHWDOVXSSRUW &LUFXODUPHWDO FDUULHUSODWH 3RODUL]DWLRQD[LV r Figure 1-5 Optimum positioning of the transponder on a (square or circular) metal carrier plate Table 1-2 Reading range with metallic, plane carriers without spacer Carrier plate material Reading range Europe Reading range USA Metal plate at least 300 x 300 mm typ. 2 m typ. 1.5 m Metal plate 150 x 150 mm typ. 1.5 m typ. 1 m Table 1-3 Reading range with metallic, plane carriers with spacer Carrier plate material Reading range Europe Reading range USA Metal plate at least 300 x 300 mm typ. 4 m typ. 6 m Metal plate 150 x 150 mm typ. 2 m typ. 4.5 m The use of spacers on metallic surfaces is therefore recommended. On rectangular carrier plates, the reading distance depends on the mounting orientation of the transponder A 90 rotation of the transponder about the axis of symmetry may result in greater reading distances SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 11 SIMATIC RF620T Operating Instructions 1.3 Planning the use 1.3.5 Influence of conducting walls on the reading range If there are conducting walls or restrictions in the vicinity that could shade the radio field, a distance of approx. 10 cm is recommended between the transponder and the wall In principle, walls have least influence if the polarization axis is orthogonal to the conducting wall. A spacer must be used in any case. Reading range: One conducting wall &RQGXFWLQJZDOO Dependence of the reading distance when positioned orthogonally to the conducting wall 3RODUL]DWLRQD[LV G Top view Distance d 20 mm 50 mm 100 mm Reading range Approx. 100% Approx. 100% Approx. 100% Wall height 20 mm Approx. 100% Approx. 100% Approx. 100% Wall height 50 mm Approx. 80% Approx. 100% Approx. 100% Wall height 100 mm Dependence of the reading distance when positioned parallel to the conducting wall 3RODUL]DWLRQD[LV G &RQGXFWLQJZDOO Top view 12 Distance d 20 mm 50 mm 100 mm Reading range Approx. 70 % Approx. 100% Approx. 100% Wall height 20 mm Approx. 60 % Approx. 90 % Approx. 100% Wall height 50 mm Approx. 30 % Approx. 70 % Approx. 100% Wall height 100 mm SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.3 Planning the use Reading range: Two conducting walls G &RQGXFWLQJZDOO 3RODUL]DWLRQD[LV :DOOKHLJKW &RQGXFWLQJZDOO Influence on reading range when positioned against two conducting walls G G &RQGXFWLQJZDOO &RQGXFWLQJZDOO Top view Side view Distance d 20 mm 50 mm 100 mm Reading range Approx. 70 % Approx. 100% Approx. 100% Wall height 20 mm Approx. 60 % Approx. 90 % Approx. 100% Wall height 50 mm Approx. 30 % Approx. 70 % Approx. 100% Wall height 100 mm The values specified in the tables above are reference values. SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 13 SIMATIC RF620T Operating Instructions 1.3 Planning the use 1.3.6 Directional radio pattern of the transponder on metallic surfaces Preferably, align the data carrier parallel to the transmitting antenna. If, however, the data carrier including the metallic carrier plate is tilted, the reading range will be reduced. Rotation about the polarization axis or orthogonal to the polarization axis 100 90 5HDGLQJUDQJH 80 70 60 50 40 30 20 10 17 0 15 0 13 0 90 11 0 70 50 30 10 0 0 -1 -3 0 0 0 -5 -7 -9 10 30 50 -1 -1 -1 -1 70 0 $QJOHGHJUHHV 3RODUL]DWLRQD[LV r r 2UWKRJRQDOD[LV r r Figure 1-6 14 Characteristic of the transponder when rotated about the polarization axis or orthogonally to the polarization axis SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.3 Planning the use 1.3.7 Reading range when mounted on ESD carrier materials The transponder is generally designed for mounting on non-conductive objects which provide the conditions for the maximum reading ranges The conductive or dissipative surface of ESD materials limits the reading range depending on the surface resistance. Generally, dissipative materials with a surface resistance of 1 x 105 to 1 x 1011 ohm and conductive materials with 1 x 103 to 1 x 105 ohm are available. Table 1-4 Limited reading range with ESD materials Carrier plate material Reading range Transponder on electrostatic dissipative materials, dimensions 60 x 40 cm Approx. 4 m (surface resistance 2 x 109 ohm) Transponder on electrostatic conductive materials, dimensions 60 x 40 cm (surface resistance 1 x 104 ohm) Approx. 1 m Use of spacers Approx. 2 m 100% reading range is achieved when mounted in empty, anechoic rooms. With multi-tag capability, limitations may result in the reading range. 100 90 80 5HDGLQJUDQJH 70 60 50 40 30 20 10 0 1x100 1x101 1x102 1x103 1x104 1x105 1x106 1x107 1x108 1x109 1x1010 1x1011 6XUIDFHUHVLVWDQFHRKP Figure 1-7 Schematic representation of how the reading range depends on the surface resistance of the ESD material In the representation above, the two reading points with regard to the dependence of the reading range in % on the surface resistance are shown At the same time a linear dependence between the reading points is to be expected, however with measurement inaccuracies. The darker the hatching, the greater the probability that the reading point is found in the hatched area. SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 15 SIMATIC RF620T Operating Instructions 1.3 Planning the use 1.3.8 Communication with multiple transponders The RF600 system is multitag-capable. This means that the reader can detect and write to several transponders almost simultaneously. The minimum distance between the transponders is 50 mm. PP Figure 1-8 16 Multitag reading SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.4 Mounting instructions 1.4 Mounting instructions CAUTION Level mounting Please note that both the transponder and the spacer must be mounted on a level surface. CAUTION The screw fixing element was tested with the types of screws, spring washers and plain washers indicated below. Depending on the application area, the user must use similar, correspondingly certified screws, spring washers and plain washers (e.g. for the food processing industry). EJOT screws can be additionally etched and passivated in some areas of the food processing industry, e.g if they made of stainless steel A2. In other areas without special requirements, the screws can be, for example, zinc plated and blue passivated. Note In case of high mechanical loads (such as shocks or vibration), the transponder must be fixed onto the spacer by means of screws. SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 17 SIMATIC RF620T Operating Instructions 1.5 Memory configuration Properties Description * Screw mounting (e.g. 2 x M4 hexagon socket head cap screws ISO 4762, spring lock and grommet ISO 7092) or glued * Transponder on spacer * Clips or screw on the side of the clip, or 2 screws (e.g. z.B. EJOT PT (R) WN 5411 35x10 VZ crosshead srew/torx) * Spacer * Screw mounting (e.g. 2 x M4 hexagon socket head cap screws ISO 4762, spring lock and grommet ISO 7092) or glued or with adhesive tape Tightening torque 1.5 Graphics Transponder Mounting type * (at room temperature) < 1.2 Nm Memory configuration Memory banks The memory is divided logically into three different memory banks: Memory bank (decimal) Memory type Description MemBank 102 TID Is defined by the manufacturer, contains the class identifier of a tag MemBank 012 EPC Contains the EPC UID, the protocol and the CRC of a tag MemBank 002 RESERVED Contains the access and kill password The graphic below illustrates the exact memory utilization: Each box in the right part of the graphic represents one word (16 bit) in the memory. 18 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.5 Memory configuration 06% /6% K 7,'>@ )K K 7,'>@ )K 06% /6% (3&>@ K )K K (3&>@ )K 0HP%DQN 7,' K 3URWRFRO&RQWURO>@ )K 0HP%DQN (3& K &5&>@ )K 0HP%DQN 5(6(59(' 06% Color /6% K /2&.>@ .,//>@ )$&725<6(77,1*6>@ )K K $FFHVV3DVVZ>@ )K K $FFHVV3DVVZ>@ )K K .LOO3DVVZ>@ )K K .LOO3DVVZ>@ )K Access by SIMATIC RF660R / SIMATIC RF610M Read Write / read Reading the memory bit The EPC ID is automatically read during the sensing cycle of the stationary or mobile reader. (see "SIMATIC RF660R Parameterization Manual", Section "EPC Class 1 GEN 2 protocol settings" or "SIMATIC RF610M Instruction Manual"). In addition, the TID, the EPC ID, the protocol command bits, the CRC-16 bits, the access password and the kill password can be read using the "tagDataRead" XML command. (see "SIMATIC RF660R Function Manual", Section "Smart reader tag data reading" and Section "FCC channel ID settings"). SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 19 SIMATIC RF620T Operating Instructions 1.5 Memory configuration Reserved memory bank: programming or modifying memory areas The memory areas of the reserved memory bank can be programmed using the SIMATIC RF660R reader: Using the "tagDataWrite" XML command (see "SIMATIC RF660R Function Manual", Section "Smart reader tag data writing") Alternatively, the memory areas of the reserved memory bank can be modified using the mobile RF610M reader: Using the "Write" function in the data editor (see "SIMATIC RF610M Instruction Manual", Section "Write tag") EPC memory bank: programming or modifying EPC ID The EPC ID can be programmed using the SIMATIC RF660R reader: Using the "tagProgramID" XML command (see "SIMATIC RF660R Function Manual", Section "Smart reader tag ID programming") Alternatively, the EPC ID can be modified using the mobile RF610M reader: Using the "Write ID" function (see "SIMATIC RF610M" Instruction Manual, Section "Write ID" 20 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.6 Technical Specifications 1.6 Technical Specifications 1.6.1 Mechanical data Property Description Dimensions (L x W x H) * Transponder * Spacer * * 127 x 38 x 6 mm 157 x 39 x 12 mm Design Plastic enclosure (PP; food safe) Housing color Anthracite Weight * Transponder * Spacer * Transponder with spacer * * * Mounting on metal Preferably with spacer 1.6.2 Approx. 18 g Approx. 22 g Approx. 40 g Electrical data Property Description Europe USA / Canada Air interface According to ISO 18 000/ISO -6 Frequency range 865 ... 868 MHz 915 MHz Necessary2) transmit power 2 W (ERP) 4 W (EIRP) Read distance * non-metallic carriers * on conductive plastic * on metal using spacers1) * * * typ. 6 m typ. 1 m typ. 4 m Write distance * non-metallic carriers * on conductive plastic * on metal using spacers1) * * * typ. 4 m typ. 0.7 m typ. 3 m Polarization type Linear Minimum distance to transmitting antenna Approx. 0.2 m Energy source Radio field energy via antenna, without battery Multi-tag capability Yes, minimum distance between data carriers 50 mm 1) Metallic surface approx. 30 x 30 cm 2) Maximum read/write distances See also Reading range when mounted on ESD carrier materials (Page 15) Reading range on flat metallic carrier plates (Page 11) Reading range when mounted on non-metallic carriers (Page 6) SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 21 SIMATIC RF620T Operating Instructions 1.6 Technical Specifications 1.6.3 1.6.4 1.6.5 Memory specifications Property Description Type EPC Class 1 Gen2 Memory organization EPC code 96 bit Protocol ISO 18000-6C Data retention time 10 years Read cycles Unlimited Write cycles 100 000 min. Environmental conditions Property Description Temperature range during operation -25 C ... +80 C Temperature range during storage -40 C to +70 C Shock Vibration compliant with EN 60721-3-7 Class 7 M3 100 g, 50 g Torsion and bending load Not permissible Degree of protection IP 67 Chemical resistance of the transponder RF620T The following table provides an overview of the chemical resistance of the data memory made of polypropylene. Concentration 20 C 50 C Low Emissions containing hydrochloric acid Emissions containing sulphuric acid - Emissions alkaline/containing hydrogen fluoride /carbon dioxide Battery acid 38 Aluminum nitrate, w. Aluminum salts Aluminum acetate, w. Aluminum chloride 22 10 Formic acid 50 - Aminoacetic acid (glycocoll, glycine) 10 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.6 Technical Specifications Concentration Ammonia gas 20 C 50 C 25 conc. 10 Arsenic acid, w. Ascorbic acid, w. Petroleum spirit - - Ammonia Ammonia, w. Benzene - diluted / 20 50 - - - Prussic acid, w. Sodium hypochlorite solution Borax Boric acid, w. 10 Brake fluid Bromine Butane, gas, liquid techn. pure Butyl acetate (acetic acid butyl ester) Calcium chloride, w./ alcoholic Calcium chloride, Calcium nitrate, w. 50 Chlorine Chloroacetic acid Chloric acid 20 Chrome baths, tech. Chromium salts Chromic acid Citric acid 20 / 50 - - conc. 10 Diesel fuel Diesel oil - 10 Chromic acid, w Chromosulphuric acid 100 Diglycole acid 30 Iron salts, w. k. g. Vinegar Acetic acid 5 / 50 Ethanol 50 / 96 Ethyl alcohol 96 / 40 Fluoride SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 23 SIMATIC RF620T Operating Instructions 1.6 Technical Specifications Concentration Formaldehyde 50 C 10 40 Formaldehyde solution 30 Glycerin any Glycol Uric acid HD oil, motor oil, without aromatic compounds Fuel oil Isopropanol techn. pure 10 / 50 any saturated Potassium hydroxide, w. Potassium hydroxide Silicic acid Common salt Carbonic acid Lysol Magnesium salts, w. k. g. Magnesium salts any Machine oil 100 Sea water Methanol Methyl alcohol, w. 50 Lactic acid, w. Lactic acid 3 / 85 80 Engine oil Sodium carbonate, w. (soda) Sodium chloride, w. k. g. Sodium carbonate k. g. Sodium hydroxide, w. Sodium hydroxide solution, w. 30 / 45 / 60 k. g. saturated Sodium hydroxide solution Nickel salts, w. Nickel salts Nitrobenzol Oxalic acid Petroleum Phosphoric acid Phosphoric acid, w 24 20 C techn. pure 1-5 / 30 85 20 Propane liquid Propane gaseous SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.6 Technical Specifications Concentration 20 C 50 C Mercury pure Crude oil 100 Ammonium chloride 100 Ammonium chloride, w. Nitric acid Hydrochloric acid Sulphur dioxide Sulphuric acid Hydrogen sulphide Detergent - - 50 1-10 1-5 / 20 35 conc. Low moist liquid - - 1-6 / 40 / 80 20 60 95 - fuming - - Low/saturated High Water Hydrogen techn. pure Plasticizer Abbreviations Resistant Virtually resistant Limited resistance Less resistant Not resistant w. Aqueous solution k. g. Cold saturated SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 25 SIMATIC RF620T Operating Instructions 1.7 Certificates and approvals 1.7 Certificates and approvals 1.7.1 Certificates and approvals Table 1-5 6GT2810-2HC00 - RF620T UHF container tag Certificate Description CE Approval to R&TTE Table 1-6 6GT2810-2HC00 - RF620T UHF container tag Standards FCC Federal Communications Commission Passive labels or transponders comply with the valid regulations; certification is not required This product is UL-certified for the USA and Canada. It meets the following safety standard(s): UL 60950-1 - Information Technology Equipment Safety - Part 1: General Requirements CSA C22.2 No. 60950 -1 - Safety of Information Technology Equipment UL Report E 205089 26 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 SIMATIC RF620T Operating Instructions 1.8 Dimension drawing 1.8 Dimension drawing Figure 1-9 SIMATIC RF620T UHF container tag Units of measurement: All dimensions in mm Tolerances, unless indicated otherwise, are +-0.5 mm. Labeling area, see Section Characteristics (Page 5) SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02 27 SIMATIC RF620T Operating Instructions 1.8 Dimension drawing 28 SIMATIC RF620T Operating Instructions, 04/2008, A5E01602431-02