Readers 5.5 RF350R ANT 30 The ANT 30 is designed for use in small assembly lines. In comparison to ANT 18, the maximum write/read distance is approximately 60 % larger. Due to its compact construction, the antenna can be easily positioned for any application using two plastic nuts (included in the package). The antenna cable can be connected at the reader end. With the RF320T, RF340T and RF350T tags, communication with the data storage unit is only possible in static mode. 5.5.10.
Readers 5.5 RF350R 5.5.10.3 Metal-free area The antennas ANT1, ANT18 and ANT30 can be flush-mounted on metal. Please allow for a possible reduction in the field data values.
Readers 5.
Readers 5.5 RF350R 5.5.10.4 Minimum distance between antennas 'D $17 $17 'E B PP 'D ! B PP 'E ! $17 Figure 5-14 'D 7KH UHDGHU HOHFWURQLFV FDQ EH PRXQWHG GLUHFWO\ DORQJVLGH HDFK RWKHU Minimum distance for ANT 1 'D 'D ุ PP Figure 5-15 114 Minimum distance for ANT 18 SIMATIC RF300 System Manual, 06/2008, A5E01642529-02
Readers 5.
Readers 5.5 RF350R 5.5.10.5 Technical data for antennas Table 5-6 Technical data for antennas ANT1, ANT18 and ANT30 Antenna ANT1 ANT18 ANT30 Read/write distance antenna to transponder (Sg) max 100 mm 15 mm 24 mm Enclosure dimensions in mm 75 x 75 x 20 (L x W x H) M18 x 1.0 x 55 (Ø x thread x L) M30 x 1.
Readers 5.5 RF350R Dimension drawings for antennas 5.5.10.
Readers 5.6 RF380R 5.6 RF380R 5.6.1 Features RF380R reader Features Design ① RS232 or RS422 interface Area of application Identification tasks on assembly lines in harsh industrial environments Read/write distance to transponder Max. 125 mm Data transmission rate • • ② Status display 5.6.2 Read: approx. 3,100 byte/s Write: approx.
Readers 5.6 RF380R 5.6.3 Display elements of the RF380R reader Color Meaning Green Operating voltage present, reader not initialized or antenna switched off Permanently on Operating voltage present, reader initialized and antenna switched on Yellow1) Transponder present Flashing red Error has occurred, the type of flashing corresponds to the error code in the table in Section "Error codes".
Readers 5.6 RF380R 5.6.
Readers 5.6 RF380R 5.6.7 Technical specifications of the RF380R reader Table 5-7 Technical specifications of the RF380R reader Inductive interface to the transponder Transmission frequency for power/data 13.56 MHz Antenna integrated Interface to communication module RS232 or RS422 (3964R protocol) Baud rate 19200 baud, 57600 baud, 115200 baud Cable length between reader and communication module RS422 data cable length: max. 1000 m RS232 data cable length: Max.
Readers 5.6 RF380R 5.6.8 FCC information Siemens SIMATIC RF380R FCC ID: NXW-RF380R This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference. (2) This device must accept any interference received, including interference that may cause undesired operation.
Readers 5.6 RF380R Dimension drawing 5.6.
Readers 5.
Transponders 6.1 6 Overview Transponders consist predominantly of logic, FRAM and/or EEPROM. If a transponder moves into the transmission window of the reader, the necessary power for all of the circuit components is generated and monitored by the power supply unit. The pulse-coded information is prepared in such a way that it can be processed further as pure digital signals. The handling of data, including check routines, is performed by the logic, which also manages the various memories.
Transponders 6.2 RF320T 6.2 RF320T 6.2.
Transponders 6.2 RF320T 6.2.2 Metal-free area Mounting of RF320T on metal Direct mounting of the RF320T on metal is not allowed. The following figures show the minimum distance between the RF320T and metal: K ! PP 'DWD PHPRU\ 0HWDO 1RQ PHWDO Figure 6-1 Mounting of an RF320T on metal with spacer Flush-mounting of RF320T in metal 0HWDO K ! PP 'DWD PHPRU\ 1RQ PHWDO D ! PP Figure 6-2 Flush-mounting of RF320T in metal with spacer At lower values, the field data change significantly, result
Transponders 6.2 RF320T 6.2.3 Technical data Table 6-1 Technical data for RF320T Memory size 20 bytes EEPROM (r/w), 4 bytes UID (ro) Memory organization Byte-oriented access, write protection possible in 4-byte blocks MTBF (Mean Time Between Failures) in years 1871 Read cycles Unlimited Write cycles, min.
Transponders 6.2 RF320T 6.2.
Transponders 6.3 RF340T 6.3 RF340T 6.3.1 Features Transponder RF340T Features Field of application Memory Identification tasks on small assembly lines in harsh industrial environments Read-only area (4 bytes UID) Read/write memory (8 KB) OTP 1) memory (20 bytes) 1) OTP: 130 Read/write range See Section Field data for transponders, readers and antennas (Page 39) Mounting on metal Direct mounting on metal is possible.
Transponders 6.3 RF340T 6.3.2 Metal-free area Direct mounting of the RF340T on metal is permitted. Mounting of RF340T on metal 0HWDO Figure 6-4 Mounting of RF340T on metal Flush-mounting of RF340T in metal: D D 0HWDO Figure 6-5 Flush-mounting of RF340T in metal The standard value for a is ≥ 20 mm. At lower values, the field data change significantly, resulting in a reduction in the range.
Transponders 6.3 RF340T 6.3.
Transponders 6.3 RF340T 6.3.
Transponders 6.4 RF350T 6.4 RF350T 6.4.1 Features Transponder RF350T Features Field of application Memory Identification tasks on small assembly lines in harsh industrial environments Read-only area (4 bytes UID) Read/write memory (32 KB) OTP 1) memory (20 bytes) 1) OTP: 134 Read/write range See Section Field data for transponders, readers and antennas (Page 39) Mounting on metal Direct mounting on metal is possible.
Transponders 6.4 RF350T 6.4.2 Metal-free area Direct mounting of the RF350T on metal is permitted. Mounting of RF350T on metal Figure 6-7 Mounting of RF350T on metal Flush-mounting of RF350T in metal: Figure 6-8 RF350T flush-mounted in metal The standard value for a is ≥ 20 mm. At lower values, the field data change significantly, resulting in a reduction in the range.
Transponders 6.4 RF350T 6.4.
Transponders 6.4 RF350T 6.4.
Transponders 6.5 RF360T 6.5 RF360T 6.5.1 Features Transponder RF360T Features Area of application Memory Identification tasks on small assembly lines in harsh industrial environments Read-only area (4 bytes UID) Read/write memory (8 KB) OTP 1) memory (20 bytes) 1) 138 Read/write range Refer to SectionField data for transponders, readers and antennas (Page 39) Mounting on metal Not possible; recommended distance from metal ≥ 20 mm OTP.
Transponders 6.5 RF360T 6.5.2 Metal-free area Direct mounting of the RF360T on metal is not allowed. A distance ≥ 20 mm is recommended. This can be achieved using the spacer 6GT2190-0AA00 in combination with the fixing pocket 6GT2190-0AB00. Mounting of RF360T on metal 'DWD VWRUDJH XQLW 0HWDO 1RQ PHWDO K Figure 6-10 Mounting of RF360T with spacer The standard value for h is ≥ 20 mm.
Transponders 6.5 RF360T Dimensions of spacer and fixing pocket for RF360T 'LPHQVLRQ VNHWFK )L[LQJ SRFNHW *7 $% 6SDFHU *7 $$ (DUV +ROGLQJ NQREV +ROGLQJ FOLS 0DWHULDO 3$ 7KH VSDFHU FDQ EH GLUHFWO\ PRXQWHG RQ PHWDO ,Q FRPELQDWLRQ ZLWK WKH IL[LQJ SRFNHW D QRQ PHWDO GLVWDQFH RI PP UHVXOWV EHWZHHQ WKH WUDQVSRQGHU DQG PHWDO 0RXQWLQJ :LWK RU VFUHZV 0 :LWK UXEEHUV RQ WKH KROGLQJ FOLSV H J RQ PHVK ER[HV
Transponders 6.5 RF360T 6.5.
Transponders 6.5 RF360T 6.5.4 6.5.5 Ordering data RF360T Order No. 8 KB FRAM (read/write) + 4 byte EEPROM (read only), IP 67, -25 °C to +75 °C, dimensions 85.8 x 54.8 x 2.
Transponders 6.6 RF370T 6.6 RF370T 6.6.1 Features The SIMATIC RF370T transponder is a passive (i.e. battery-free) data carrier in a square type of construction. SIMATIC RF370T transponder Features Area of application Identification tasks on assembly lines in harsh industrial environments, suitable for larger ranges, e.g.
Transponders 6.6 RF370T 6.6.2 Metal-free area Direct mounting of the RF370T on metal is permitted. Mounting of RF370T on metal Figure 6-14 Mounting of RF370T on metal Flush-mounting of RF370T in metal: D D Figure 6-15 RF370T flush-mounted in metal The standard value for a is ≥ 20 mm. At lower values, the field data change significantly, resulting in a reduction in the range.
Transponders 6.6 RF370T 6.6.3 Mounting instructions It is essential that you observe the instructions in the Section Installation guidelines (Page 57). Properties Description Type of installation Screw fixing (two M5 screws) Tightening torque < 1.
Transponders 6.6 RF370T 6.6.4 Technical specifications 6.6.4.
Transponders 6.6 RF370T 6.6.4.
Transponders 6.6 RF370T 6.6.5 Ordering data Order No. SIMATIC RF300 RF370T transponder 32 KB FRAM, -25 to +85 degrees C, IP68; 75 x 75 x 40 mm 6GT2800-5BE00 SIMATIC RF300 RF370T transponder 64 KB FRAM, -25 to +85 degrees C, IP68; 75 x 75 x 40 mm 6GT2800-6BE00 Dimensional drawing 6.6.
Transponders 6.7 RF380T 6.7 RF380T 6.7.1 Features The SIMATIC RF380T transponder is an extremely rugged and heat-resistant round data carrier suitable e.g. for applications in the automotive industry. SIMATIC RF380T transponder Features Area of application Identification tasks in applications (e.g.
Transponders 6.7 RF380T 6.7.2.1 Mounting instructions CAUTION You are strongly recommended to only use the tag with the original holder specified. Only this holder guarantees that the data memory observes the listed values for shock, vibration and temperature. A protective cover is recommendable for applications in paint shops.
Transponders 6.7 RF380T Assembly of data memory with support &RYHU RSWLRQDO *7 4% $QWHQQD VLGH RI WDJ Figure 6-17 Assembly of tag with support Scope of supply The support is provided with all mounting parts and a mounting diagram. Mounting screws for securing the support are not included. The mounting screws are of diameter M 10. The minimum length is 25 mm. The optional cover can be used for the long and short versions of the support.
Transponders 6.7 RF380T 6.7.2.2 Metal-free area Direct mounting of the RF380T on metal is permitted. Mounting of RF380T on metal Figure 6-18 Mounting of RF380T on metal Flush-mounting of RF380T in metal: D Figure 6-19 RF380T flush-mounted in metal The standard value for a is ≥ 40 mm. At lower values, the field data change significantly, resulting in a reduction in the range.
Transponders 6.7 RF380T 6.7.3 Configuring instructions 6.7.3.1 Temperature dependence of the transmission window The guidelines in Section "Planning the RF300 system" apply to configuration of heatresistant data memories, with the exception of the limit distance and field length at temperatures above 85 °C. Calculation of transmission window with heat-resistant data memories The factor 0.
Transponders 6.
Transponders 6.7 RF380T 6.7.3.2 Temperature response in cyclic operation At ambient temperatures (Tu) up to 110 °C, cyclic operation is not necessary, i.e. up to this temperature, the transponder can be in constant operation. Note Calculation of the temperature curves Calculation of the temperature curves or of a temperature profile can be carried out on request by Siemens AG. Exact knowledge of the internal temperature facilitates configuration for time-critical applications.
Transponders 6.7 RF380T Example of a cyclic sequence Table 6-8 Typical temperature profile of an application in the paint shop Start of tag at initial point Duration (min) Ambient temperature (°C) Electrolytic dip 20 30 Electrolytic dip dryer 60 200 Transport 60 25 PVC dryer 25 170 Transport 60 25 Filler dryer 60 160 Transport 60 25 Top coat dryer 60 120 Transport 60 25 Wax dryer 25 100 Transport 150 25 7HPSHUDWXUH >r&@ .7/ GU\HU 39& GU\HU )LOOHU GU\HU 7RS
Transponders 6.7 RF380T The simulation results in the following: Following a simulation time of 36.5 hours, a total of 3 cycles were carried out, and an internal temperature of 90 degrees Celsius was reached.
Transponders 6.7 RF380T 6.7.
Transponders 6.7 RF380T 6.7.5 Ordering data RF380T/ accessories • • • • Order No. Operating temperature -25 to +200 °C (cyclic) Dimensions (diam. x H in mm) 114 x 83 IP 68 degree of protection 32 KB FRAM (read/write) + 4 byte EEPROM Accessories • Support (short version) • Support (long version) • Covering hood 6.7.
Transponders 6.8 Memory configuration of the RF300 tags 6.8 Memory configuration of the RF300 tags ))) 8,' UHDG RQO\ 5) 7 5) 7 5) 7 5) 7 5) 7 5) 7 E\WHV ))) )) E\WHV 273 QRW ZLWK ,4 6HQVH 8VHU DUHD UHDG ZULWH ((3520 )) 5) 7 .% 5) 7 .% 5) 7 .% 5) 7 .% 5) 7 .% )) )) )) PD[ EORFNV RI E\WHV HDFK )()& 3K\VLFDOO\ LGHQWLFDO PHPRU\ :KHQ WKH 273 DUHD LV XVHG WKH FRUUHVSRQGLQJ XVHU DUHD )) )) FDQ QR ORQJHU EH PRGLILHG UHDG
Transponders 6.8 Memory configuration of the RF300 tags Memory areas The memory configuration of an RF300 tag always comprises an EEPROM memory that has 20 bytes for user data (read/write) and a 4 byte unique serial number (UID, read only). For reasons of standardization, the UID is transferred as an 8 byte value through a read command to address FFF0 with a length of 8. The unused 4 high bytes are filled with zeros. A high-speed FRAM memory (read/write) is available as an option.
Transponders 6.
Communication modules 7.1 7 Overview The communication modules (interface modules) are links between the RFID components (reader and transponder) and the higher-level control systems (e.g. SIMATIC S7) or PC or computers.
Communication modules 7.2 8xIQ-Sense 7.2 8xIQ-Sense 7.2.1 Features Field of application The 8xIQ-Sense module is the link between the RF310R with 8xIQ-Sense interface and SIEMENS S7-300 and functions in the same manner as the communication module (interface module). It can be operated centrally in an S7-300 or decentrally in an ET200M.
Communication modules 7.2 8xIQ-Sense 7.2.2 Indicators Status displays The 8xIQ-Sense module has the following LEDs: A green LED, which has no function for RFID devices, and a red SF LED (system fault LED), which indicates the diagnostic state of the module.
Communication modules 7.2 8xIQ-Sense 7.2.
Communication modules 7.
Communication modules 7.2 8xIQ-Sense Configuration of connecting cable from 8xIQ-Sense to RF310R 5HDGHU VLGH ,4 6HQVH VLGH EURZQ 6/* FRQQHFWRU 0 VRFNHW EOXH PD[ P Figure 7-4 7.2.4 Cable and pin assignment of RF300 with IQ-Sense Addressing The address range of the 8xIQ-Sense module is 16 bytes I/O. This is independent of the choice of channel profiles on the connected device (i.e. the IQ profile IDs in HW Config).
Communication modules 7.
Communication modules 7.2 8xIQ-Sense 7.2.5 Technical data Voltages and currents Rated supply voltage 24 V DC Reverse polarity protection yes Galvanic isolation • Between the channels • Between channels and backplane bus no yes Permissible potential difference Between different circuits 75 V DC / 60 V AC Insulation tested at 500 V DC Current input • from the backplane bus • from L+ power supply 120 mA typical Module power loss 2.5 W typical 500 mA max.