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UM EN PSI-WL-RS232-RS485/BT/2DO - Digi-Key

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1. Se mately 15 dB hwith an atte uation of approxi 24 7 7 1 Forest The forest illustrated below consists of dense undergrowth with a trunk diameter of approx imately 5 to 20 centimeters In our test the wireless signal was transmitted through a 25 m forest The attenuation was about 40 dB Pa Figure 7 12 Forest with an attenuation of about 40 dB PHOENIX CONTACT 49 PSI WL RS232 RS485 BT 2DO 50 PHOENIX CONTACT 105820 en 00 Detecting and removing errors 8 Detecting and removing errors your wireless system does not function properly proceed as follows e First ensure that you have a good wireless signal with two green bar graph LEDs Avoid contact between the antennas of two Bluetooth converters otherwise the receiver might become overloaded Ground loops are caused by grounding of the antenna via the antenna fixing unit ground ing of the power supply or grounding of the serial interface To avoid ground loops con nect these components to a single ground point 8 1 Loopback test during serial data transmission With an RS 232 interface you can use the loopback test to check the data path from the master to the slave and back again To do so short circuit two terminal points of the RS 232 interface on the slave Bluetooth converter It is then possible to transmit characters to the master Bluetooth converter using a terminal program e g H
2. a pr a 59 ACTION TTE 41 16 105820_ 00 DIN rail connector een 24 25 26 a LE 41 E ee 53 EIRP Equivalent Isotropically Radiated Power See Equivalent isotropically radiated power Energy saving mode l 73 Equivalent isotropically radiated 47 micis e A e 5 Example calculation See System calculation Free space path 1055 40 47 44 Function 5 17 ciel ag ue hte 35 Information command nn 69 Interface command 70 L uu DM E D IU LL NAME 38 Roro ojsr e dz rz a 51 M MATS E s MERE ER RR ETT HERUM A 18 Mounting Connection station 24 SINGLE VI EA i i tea TR 23 Multi drop connection 34 Multipath propagation 41 O Omnidirectional antenna 36 Opening the 19 Operating mode See Configuration mode PHOENIX CONTACT 101 PSI WL RS232 RS485 BT 2DO ING data M TN 7 te 60 Paring
3. 57 PIS 42 PG CAN CC 38 cca E RUND na UE 27 Planning of wireless systems 35 Point to multipoint network 18 85 Point to point connection 18 33 79 Power supply See Supply voltage F ractica test MH P 35 Froduct description 15 PROFIBUS kont l 79 PROFIBUS Caples 90 PROFIBUS 90 PROFIBUS network sees 33 Programming connection 33 R Radiated power See Equivalent isotropically radiated power Radio dead 43 Radio WAVES mer 41 mici TET TIUS 44 6 L E 46 Redundant power supply 26 FRETISC HON l i 42 Removal VPE eet women DUE 25 Hernovihg su a 51 FRESE 22 Resetting to the default settings 22 55 15 292 MCT ACS ox Rhe oss Rud aus 27 422 InterfdGO usce rabie de Re mad 28 H5 485 Inlertaee iu ni ce vasa SE sa 28 5 cH NOLS P 13 SECUN
4. 58 Serial data 33 Serial interface iv taiba di a 27 SOUS atras 18 Service profile eene ene 63 102 PHOENIX CONTACT SSNS eO 27 IGM SIFOHOLU 29 62 SIMATIC Manag is iii ki i g i ed 91 Single device 23 TATI 18 slide SWIC mi 20 21 Star See Point to multipoint network Supply voltage rna nn 26 System calculation nn rna 47 System configuration Renate p RE ens 18 System power 26 T TBUS See DIN rail connector IT 7 Termination network See Termination resistors Termination resistors 20 Transmission power See Equivalent isotropically radiated power Troubleshooting 51 TY DING GION pee 54 U 11 W Weather influences 44 WINO T A 44 Wireless performance diagnostics 29 105820 en 00
5. USC em cd 13 2 2 UL note for PSI WL RS232 RS485 BT 2DO and PSI WL PROFIB BT SET 2DO ONV mI E MT NU ENS 14 2 3 UL note for PSI WL RS232 RS485 BT HL with HazLoc approval only 14 3 Product aeseripUO pc tales 15 3 1 BIuetooth PROFIBUS SOL ettet 15 3 2 DIMENSIONS EE 16 3 3 BIO K GAG RAR TE 16 3 4 Connection and function elements 17 3 5 System COMMOULAUON d aaa 18 4 Setting switches on the device 19 4 1 Opening and closing the housing 19 4 2 Activating the termination network sess 20 4 3 setting COMMOUPATION o cs ecu tati 21 4 4 Resetting to the default 5 ener nnne 22 configuration HT TT m 23 5 1 MOUNTING AS single Lectus hs g at 23 5 2 Gombined assembliv t M 24 5 3 RE MOL ER 25 5 4 OWE SUDDIN iii e acon epa od 26 5 5 Serial uec e c ese preti DR ni et Sr ita eo 27 5 6 Antenna OFHEGHO MA ir 29 5 7 Diagnostics and status indicators sourr nn 29 5 8 Digital diaghosti s OULDUNS
6. Highest PROFIBUS Address Transmission Rate 3 6 Kbps 19 2 Kbps 45 45 31 25 Kbps 93 75 Kb Universal DP FMS User Defined Bus Parameters Cancel Help Figure A 22 Network Settings tab transmission speed e Inthe Cables tab deactivate the Take into account the following cable configuration checkbox Confirm with OK Constant Bus Cycle Time Network Stations Cables Figure A 23 Cables tab 92 PHOENIX CONTACT 105820 en 00 Configuring a PROFIBUS connection Inthe Network Settings tab select the User Defined profile and the Bus Parameters option Properties PROFIBUS General Network Settings Highest PROFIBUS Address Change Transmission Rate 9 6 Kbps 19 2 Kbps 5 45 31 25 Kbps W 05 Figure 24 Network Settings tab profile e Inthe Bus Parameters tab the most recently valid bus parameters are shown Enter the following values The value for the Tslot time and the telegram runtime of PROFIBUS depend on your ap plication Start with 13000 t bit in order to achieve the smallest possible telegram runtime Increase the value if bus errors occur Tslot Init 13000 t 16383 t bit Max Tsdr 60 Min Tsdr 11 Tset 1 Tqui 0 Gap Factor 10 Retry limit 5 105820 en 00 PHOENIX CONTACT 93 PSI WL RS232 RS485 BT 2DO e Confirm the entry with Recalculate PROFIBUS Bus Parameter
7. 58 PHOENIX CONTACT 105820_en_00 AT commands AGDD Device search The AGDD command searches for Bluetooth devices 1 x Limited request 2 Standard request X specification time specifies the length of the search Value range 8 48 times 1 28 seconds Example AT AGDD 2 10 A standard search of 12 8 seconds 15 started Feedback AGDD a OK AGDDE w y 2 Number of Bluetooth devices found w Bluetooth address x Device class see COD y y 0 gt Device name not available 1 gt Device name available Device name AGI Request The AGI command requests the Bluetooth devices in the area 1 x y Limited request 2 Standard request x Specification time x specifies the length of the search Value range 8 48 times 1 28 seconds y Number Maximum number of Bluetooth devices to be found Value range 1 255 0 no limit to the number Example AT AGI 2 10 5 A standard search of 12 8 seconds for a maximum of five devices is started Feedback AGI B uetooth address device class repeated accordingly for all devices found 105820 en 00 PHOENIX CONTACT 59 PSI WL RS232 RS485 BT 2DO AGB il AGUB AGBD AGFP 60 PHOENIX CONTACT Pairing The AGB command pairs the Bluetooth converter with the partner Example AT AGB 0080371DA128 The partner has the address 0080371DA128 The partner must accept pairing see AGPM pairing mode and both devices must ha
8. PSI Bluetooth converter User manual TTN OOO INSPIRING INNOVATIONS User manual PSI Bluetooth converter with two digital diagnostics outputs 2014 07 09 Designation UM EN PSI WL RS232 RS485 BT 2DO Revision 00 This user manual is valid for Designation Order No PSI WL RS232 RS485 BT 2DO 2313805 PSI WL PROFIB BT SET 2DO 2313876 PSI WL RS232 RS485 BT HL 2313795 PHOENIX CONTACT 105820_en_00 Internet Subsidiaries Published by Please observe the following notes User group of this manual The use of products described in this manual is oriented exclusively to qualified electricians persons instructed by them who are familiar with applicable standards and other regula tions regarding electrical engineering and in particular the relevant safety concepts Explanation of symbols used and signal words hazards Obey all safety measures that follow this symbol to avoid possible in This is the safety alert symbol It is used to alert you to potential personal injury jury or death There are three different categories of personal injury that are indicated with a signal word DANGER This indicates a hazardous situation which if not avoided will re sult in death or serious injury WARNING This indicates a hazardous situation which if not avoided could result in death or serious injury CAUTION This indicates a hazardous situation which if not avoided could result in minor or mo
9. AT ADDSP 0 1 The serial port profile is set and stored as the standard server profile 66 PHOENIX CONTACT 105820 en_00 ADMRP ADNRP 105820_en_00 il AT commands Maximum number of partners The ADMRP command requests the maximum possible number of partners of the Blue tooth converter Request The maximum number of partners is displayed Feedback ADMRP 7 The Bluetooth converter can communicate with a maximum of seven slaves Number of partners The ADNRP command specifies the number of partners If your device is not to act as the master enter Request The maximum number of partners is displayed Number of partners x 0 gt The setting is only valid until the next voltage interrupt x 1 gt The setting is stored Example AT ADNRP 2 1 Two partners are set and stored The number of partners ADMRP must not exceed the maximum number of partners ADNRP PHOENIX CONTACT 67 PSI WL RS232 RS485 BT 2DO ADWDRP Standard partner ADIT 68 The ADWDRP command specifies the standard partners a Partner ID is between 0 and Number of partners 1 b Bluetooth address Connection scheme C 1 gt connection to the partner is established in the event of data traffic 2 gt connection is established as soon as your device is in data mode 3 gt connection to the partner is established in the event of data traffi
10. 3 5 System configuration Point to Point Star Figure 3 4 Point to point connection point to multipoint network star A point to multipoint network must only consist of a master and up to seven slaves This net work structure is characterized by each slave that is directly connected to the master The more devices are connected to the master the higher the delay time of the wireless network The Bluetooth converter can perform the following functions Master The master Bluetooth converter is the central point in the network It coordinates initial ization and network specific functions Wireless connections cannot be established without the master The master in a wireless network is usuallv located at a central point e g in the control center The master PLC is connected to the master Bluetooth converter and is responsible for transmission management of the serial data There may only be one master PLC in the network Multi master systems are not permitted Slave Slaves are always an end point in the network and not able to transmit data to other de vices The slaves of the PLC are connected to the slave Bluetooth converters A slave Bluetooth converter only has subordinate rights Server roles or client roles can be assigned for a master or a slave This is required for mo bile applications for example if a slave is to connect to different masters Server The Bluetooth server accepts the connection that was initiate
11. AGPM command specifies the pairing option Request The current pairing mode is displayed 1 x Pairing not permitted Other Bluetooth devices cannot be paired with the Bluetooth converter 2 x Pairing permitted Other Bluetooth devices can be paired with the Bluetooth converter x 0 gt The setting is only valid until the next voltage interrupt x 1 gt The setting is stored Example AT AGPM 1 0 Pairing not permitted connection mode is set but not stored 105820_en_00 PHOENIX CONTACT 57 PSI WL RS232 RS485 BT 2DO AGSM Security mode The AGSM command specifies the security option Request The current security mode is displayed 1 x Security disabled Bluetooth security mode 1 data encryption disabled no connection authentica tion required 2 Security enabled Bluetooth security mode 3 data encryption enabled and connection authentica tion required x 0 gt The setting is only valid until the next voltage interrupt x 1 2 The setting is stored Example AT AGSM 2 1 Security enabled connection mode is set and stored Pairing and an identical password for the relevant Bluetooth devices are essential in order to establish a data connection when security is enabled AGND Name request The AGND command requests the Bluetooth device name of a partner The Bluetooth address of the partner must be known Example AT AGND 0080371DA128 The partner has the address 0080371DA128
12. HL product version with HazLoc approval WARNING Explosion hazard when used in potentially explosive areas Only use digital outputs 001 and 002 in the safe area They are not suitable for use in potentially explosive areas In addition the current signal quality can be read via digital outputs DO1 DO2 A coded sta tus of the bar graph LEDs is output here and can be processed externally The 24 V supply voltage is output via an optocoupler with a maximum current carrying capacity of 120 mA Diagnostics outputs Connection MINI COMBICON connector 2 05 1 5 2 maximum Function Digital output of current Bluetooth receive quality output of the supply voltage via optocoupler Maximum current carrying 120 capacity Separate potential levels VCC logic Test voltage 1 5 kV AC 50 Hz 1 minute between all potential levels according to EN 50178 and EN 61131 2 For PSI WL RS232 RS485 BT 2DO and PSI WL PROFIB BT SET 2DO only A 2 pos MINI COMBICON connector Order No 1803578 for outputs DO1 DO2 is sup plied as standard 30 PHOENIX CONTACT 105820 en 00 Installation and configuration 5 9 Configuration System requirements Windows operating system Windows XP or later Configuration interface USB RS 232 or Bluetooth For configuration the following is required Serial programming cable PSM KA9SUB9 BB 2METER Order 2799474 USB cable PSI CA USB A MINI B 1METER Order No 2313575 Configure t
13. Range Minimum receiver sensitivity Bluetooth multipoint master slave Operating mode 105820_en_00 Plug in screw connection Serial asynchronous UART NRZ 8 data 1 2 stop 1 parity 10 11 bit character length 390 180 390 can be configured 1 2 2 4 4 8 7 2 9 6 19 2 31 25 38 4 57 6 75 93 75 115 2 136 187 5 kbps lt 1200 Automatic control Mini USB B socket Bluetooth 2 1 EDR 2 402 GHz 2 48 GHz ISM band External MCX socket 1 MHz 79 MHz 79 1 6 kHz FHSS 28 dBm can be set via software 14 dBm can be set via software lt 150 m 14 dBm 91 dBm 1 7 GAP Generic Access Profile method for authentication and connection estab lishment SDAP Service Discovery Application method for requesting supported ser vices SPP Serial Port Profile COM port emulation method DUN Dial Up Networking Profile modem dialing method LAP LAN Access Point Profile network connection method PHOENIX CONTACT 9 PSI WL RS232 RS485 BT 2DO General data Degree of protection Dimensions W H D Weight Housing material Free fall according to IEC 60068 2 32 Vibration resistance according to EN 60068 2 6 IEC 60068 2 6 Shock according to EN 60068 2 27 IEC 60068 2 27 MTTF Mean Time To Failure SN 29500 standard temperature 25 C operating cycle 2196 5 days per week 8 hours per day MTTF Mean Time To Failure SN 29500 standard temperature 40 C operating cycle 34 25 5 d
14. a ane ieee 30 5 9 UP ease at lashes 31 JADDl ucalonrexatmpleS eaten 33 f planning wIreless SyStelTIS 35 7 1 Planning wireless ja 35 Pra tical TU 35 7 3 Selecting antenna cables and 36 7 4 antennas tentatus 37 105820 en 00 PHOENIX CONTACT 5 PSI WL RS232 RS485 BT 2DO 8 9 7 5 Level and attenuation of the Bluetooth converter and accessories 38 7 6 Free path m t 40 7 7 Propagation of radio waves 41 7 8 Fresnel ZOMG M T cT l 44 7 9 Rangone A 46 7 10 Equivalent isotropically radiated power 47 7 11 System calculation free Space ss nanna nn n nn nanna nn arana 47 7 12 49 removing OG OL Sii a ia a 51 8 1 Loopback test during serial data 51 mil GOrAMIANAS emm 53 9 1 Com
15. and measure distances by means of way points You can use the GPS devices as a direction indicator when later aligning the anten nas Theoretical planning The following questions should be taken into account when doing the theoretical planning Which data is to be transmitted What points are the signals to be transmitted between What is the distance between these points there any topographic or structural obstacles Are you able to circumnavigate these obstacles e g by means of a higher mast When evaluating the data a system calculation can be carried out to determine whether the wireless path is theoretically possible A calculation example can be found from page 47 7 2 Practical test To check the theoretical results you should carry out an on site practical test before pur chasing a wireless system Check the location for the master and slave modules on the basis of the following criteria in order to achieve the optimum wireless connection The antenna is positioned such that a line of sight and sufficient signal strength is en sured A primary power source for energy supply is available Protection of devices against any influences of weather and extreme ambient condi tions A Adequate access to the antenna surge protection interface and other required cables These requirements can be quickly assessed in most applications However it is often dif ficult to position the
16. antenna Of course a connection path without any obstacles would be perfect However small obstacles in the Fresnel zone will not necessarily disturb commu nication In general obstacles on long wireless paths have a greater influence than on short ones 105820 en 00 PHOENIX CONTACT 35 PSI WL RS232 RS485 BT 2DO 7 3 Selecting antenna cables and antennas Antenna cable When installing a wireless system it is very important that you use low loss coaxial cables Using an unsuitable cable may lead to considerable loss in performance which can neither be compensated by a high antenna gain nor by high transmission power For every 3 dB of coaxial cable loss half the transmission power will be lost before reaching the antenna The received signal will also be reduced Consider the following factors when selecting the cable Cable length to the antenna Acceptable signal loss Options for routing the cables Antenna Table 7 1 Antenna selection Short range and direct line of sight without Small omnidirectional antenna any obstacles Medium range Large omnidirectional antenna observe the vertical apex angle Wide range Panel antenna observe the small horizon tal apex angle For additional information on omnidirectional and panel antennas please refer to the DB EN WIRELESS ACCESSORIES data sheet The latest documentation can be down loaded under the product at phoenixcontact net products 36 PHOENIX CONT
17. cable Attenuation Length No Pigtail adapter EF316 Antenna cable EF393 RAD CAB EF393 5M 2867652 RAD CAB EF393 15M N m Adapter RAD ADP SMA F SMA F SMA f SMA f 2884541 0 3dB RAD ADP N M SMA F SMA f N m 2917086 0 3dB J RADADENENF Non 2667848 osa Surge protection CN LAMBDA 4 5 9 BB N f N f 2838490 0 15 dB bo 105820_en_00 Planning wireless systems Table 7 4 Antenna gain Connec Order tion No Omnidirectional antenna RAD ISM 2400 ANT OMNI 2 1 RSMA m 2701362 2 1 dBi 2 1 dB RSMA 1 5 m cable RAD ISM 2400 ANT VAN 3 1 MCX m 2885702 1 5 dBi 3 dBi 1 5 dB MCX 1 5 m cable Panel antenna RAD ISM 2400 ANT PAN 8 0 SMA f 2867610 RAD ISM 2400 ANT CIR 8 0 SMA f 2864936 IBNI jer _____ RAD ISM 2459 ANT FOOD 6 0 AT 2692526 6dBi RAD ISM 2400 ANT OMNI 6 0 N f 2885919 6 N f SW RAD ISM 2400 ANT OMNI 9 0 N f 2867623 9dBi 105820 en_00 PHOENIX CONTACT 39 PSI WL RS232 RS485 BT 2DO 40 PHOENIX CONTACT 7 6 Free space path loss When using wireless transmission technology the signal between transmitter and receiver is attenuated by the air The following table lists attenuation values for different distances with a free Fresnel zone and 2 4 GHz Table 7 5 Free space path loss Distance attenuation General formula free space path loss dB 32 4 20 x log f 20 x log d Formula at 2 4 GHz free space los
18. from the front toward the mounting surface until it engages with a click 105820 en 00 PHOENIX CONTACT 23 PSI WL RS232 RS485 BT 2DO 5 2 Combined assembly 919191919 Figure 5 2 Combined assembly For the modular electronics housing of the ME TBUS series DIN rail connectors of vari ous widths are required in a connection station The DIN rail connector is used to bridge the power supply and communication When using the device in a connection station use a 22 5 mm wide DIN rail bus connector Order No 2707437 Configure two 17 5 mm DIN rail bus connectors for the system power supply unit e g MINI SYS PS 100 240AC 24DC 1 5 Order No 2866983 NOTE Device damage The maximum current load in a connection station must not exceed 2 A A connection station must not consist of more than 20 devices The snap in direction of the device and DIN rail connector must be observed snap on foot on the bottom and connector on the left The device is mechanically secured only via the DIN rail e To forma connection station connect the DIN rail connectors TBUS together e the connected DIN rail connectors onto the DIN rail e Place the device onto the DIN rail from above e Push the device from the front toward the mounting surface until it engages with a click 24 PHOENIX CONTACT 105820 en 00 Installation and configuration 5 3 Removal 2 4 2 2 7 4 4 2 2 AE 2 7 2
19. it can only receive reflections or dif fracted waves Figure 7 7 Radio dead spot 105820 en_00 PHOENIX CONTACT 43 PSI WL RS232 RS485 BT 2DO 44 PHOENIX CONTACT Weather influences Snow rain or hail only have a small effect on the wireless signal in the 2 4 GHz range Heavy rain for example only has a minimal effect on the wireless signal With a rainfall of 50 liters per square meter i e a cloudburst attenuation of around 0 02 dB km occurs at a frequency of 2 4 GHz Strong wind does not influence the wireless signal however it places high requirements on the secure fixing of the antenna In particular when using panel antennas with a small apex angle you should ensure that the antenna cannot be shifted by the wind If the antenna is moved by just 1 cm from its original position this may result in a partial loss of the wireless signal especially in the case of a long transmission path Figure 7 8 Wireless path with strong wind 7 8 Fresnel zone A certain area between the transmitting and receiving antennas on the wireless path is re ferred to as the Fresnel zone There should be a line of sight especially in the event of lon ger distances between the antennas To adhere to the Fresnel zone it might be required to install the antennas at a height of a few meters This area should also be free from any other obstacles The ideal wireless path with a direct line of sight between transmitter and receiver is not
20. specify a range due to the influence of various factors Based on practical tests itis possible to provide guide values They may be clearly higher or lower depending on the actual application The range depends on the following Antenna cable length Antenna used Table 7 8 Ranges for different antennas Antenna Range fr Inside buildings 2 dBi omnidirectional antenna Outside buildings with a free line of sight 2 dBi omnidirectional antenna 6 dBi omnidirectional antenna 8 dBi or 9 dBi panel antenna 105820_en_00 Planning wireless systems 7 10 Equivalent isotropically radiated power EIRP The equivalent isotropically radiated power EIRP is a gauge of the radiation power of an antenna The EIRP value is the sum of the transmission power in dBm and the antenna gain in dBi Example Transmission power 14 dBm Antenna gain 8 dBi Attenuation by a 3 m long cable 2 85 dB EIRP 14 8 2 85dBm 19 15 dBm 7 11 System calculation free space PHOENIX PHCENIX CONTACT CONTACT Figure 7 10 Free space path loss Antenna gain per antenna 8 dBi Transmission power per Bluetooth converter 14 dBm Cable attenuation per cable 3 m EF 142 2 85 dB Free space path loss 150 m 83 5 dB 105820 en 00 PHOENIX CONTACT 47 PSI WL RS232 RS485 BT 2DO 48 PHOENIX CONTACT Example calculation with optimum free space Wireless technology Bl
21. u u 7 u 7 u 7 u u 7 U AE u 2 u u 7 2 u u 7 u 7 u 7 2 Figure 5 3 Removal e down the locking latch using a screwdriver needle nose pliers or similar e Slightiv pull the bottom edge of the device away from the mounting surface e Pullthe device diagonally upwards from the DIN rail e When removing a complete connection station also remove the DIN rail connectors 105820 en 00 PHOENIX CONTACT 25 PSI WL RS232 RS485 BT 2DO 5 4 Power supply 24V OV T A T B Figure 5 4 Power supply The device is operated using a 24 V DC SELV Operation as a single device e Supply voltage to the device via the 24 V and 0 V terminals Operation in a connection station NOTE Device damage The maximum current load in a connection station must not exceed 2 A A connection station must not consist of more than twenty devices When the devices are operated in a connection station the supply voltage must only be supplied to the first device in the station The remaining devices are supplied via the DIN rail connector A second power supply unit can be used to create a redundant supply concept Using the system power supply unit Alternatively the connection station can be connected to a system power supply unit e Connect the MINI SYS PS 100 240AC 24DC 1 5 system power supply unit Order No 2866983 using two DIN rail connectors Order No 270956
22. wireless transmission RS 232 RS 422 RS 485 PSI WL RS232 RS485 BT HL 2313795 1 2 wire mounting on EN DIN rails MCX connection for external antenna integrated path diagnostics bar graph cross wiring of 24 V DC and RS 485 2 wire UL HazLoc approval Accessories Type Order No Pcs RS 232 cable D SUB 9 socket to D SUB 9 socket 9 wire 1 1 PSM KA9SUB9 BB 0 5METER 2708520 1 RS 232 cable D SUB 9 socket to D SUB 9 socket 9 wire 1 1 PSM KA9SUB9 BB 2METER 2799474 1 D SUB connector 9 pos socket one cable entry lt 35 universal type for SUBCON 9 F SH 2761499 1 all systems pin assignment 1 2 3 4 5 6 7 8 9 to screw connection ter minal block RS 232 null modem connector PSM AD D9 NULLMODEM 2708753 1 USB 2 0 cable USB A connector to Mini USB socket length 1 PSI CA USB A MINI B 1METER 2313575 1 USB connecting cable USB connector type A to USB connector type CABLE USB MINI USB 3 0M 2986135 1 Mini B length 3 m D SUB 9 data cable to USB with adapter D SUB 9 to D SUB 25 CM KBL RS232 USB 2881078 1 RS 232 cable D SUB 9 socket to D SUB 25 socket PSM KA 9 SUB 25 BB 2METER 2761059 1 Adapter cable to connect the IB IL RS232 and IB IL RS232 PRO Inline PSM KAD IL RS232 9SUB B 0 8M 2319200 1 communication terminals to the interface converter e g modem Com server Bluetooth or fiber optics DIN rail connector for DIN rail mounting Universal for T BUS housing ME 17 5 TBUS 1 5 5 ST 3 81 GN 2709561 10 Gold plated contac
23. 1 to the left of the device 26 PHOENIX CONTACT 105820 en_00 Installation and configuration 5 5 Serial pin assignments e Connect the I O device via the serial interface 5 5 1 Shielding NOTE Damage to the interface Faulty connection of the shield in combination with permanent external interference can lead to damage of the RS 422 RS 485 interface Observe the polarity of the RS 422 RS 485 2 wire cable and correct connection of the shield connection e Connect the shield of the RS 422 RS 485 bus line correctly to the device 5 5 2 RS 232 interface il The RS 232 interface of the device as a DCE Data Communication Equipment type PSI WL RS232 Peripherals side e g PC RS485 BT 2DO SUB D male RS 232 SUB D 9 25 Figure 5 5 RS 232 interface 105820_en_00 PHOENIX CONTACT 27 PSI WL RS232 RS485 BT 2DO 28 5 5 3 RS 422 interface In RS 422 mode a point to point connection can be established When connecting the I O device use a common shielded twisted pair bus line Activate the termination resistors on each device see Activating the termination network on page 20 pe COMBICON eee D B 170 D B D A 160 L D A T B 150 T B T A 140 T A GND 110C 3 i io Figure 5 6 RS 422 interface 5 5 4 RS 485 interface In RS 485 mode a network with several I O devices can be created When connecting the I O de
24. 3 gt 2400 bps 4 gt 4800 bps 5 gt 9600 bps 6 gt 19200 bps 7 gt 38400 bps 8 gt 57600 bps 9 gt 115200 bps Special 17 gt 7200 bps 18 gt 31250 bps 19 gt 75000 bps 20 gt 93750 bps 21 gt 136000 bps 22 gt 187500 bps Data bits b 1 gt 8 data bits Stop bits 1 gt 1 stop bit cC 2 gt 2stop bits Parity d 1 gt None d 2 gt QOdd 3 gt Even Flow control e 1 gt RTS CTS 2 gt None Update settings f 0 gt Following the next voltage interrupt f 1 gt Immediately after confirming by pressing ENTER 0 gt The setting is only valid until the next voltage interrupt X 1 gt The setting is stored AT AMRS 4a 0 d f 105820 00 AMSIT 105820 en 00 AT commands Example AT AMRS 5 1 1 3 1 1 1 The interface is set to 9 6 kbps 8 data bits 1 stop bit even parity and RTS CTS flow con trol This setting is accepted and stored immediately Request AT AMRS Feedback AMRS a b Interface type The AMSIT command specifies your interface type RS 232 RS 485 or RS 422 Request The interface parameters are displayed a Interface 1 gt RS 232 2 gt RS 422 a 3 gt RS 485 x 0 gt The setting is only valid until the next voltage interrupt 1 gt The setting is stored AT AM
25. 333 56250 0 087376000 500000 0 000002000 150000 0 032766000 9600 0 000104167 3360 1 706562500 19200 0 000052083 6720 0 853281250 E 0 35 93750 0 000010667 32813 0 174752000 187500 0 000005333 65625 0 087376000 500000 0 000002000 175000 0 032766000 Max TBit according to Simatic Manager 16383 105820 en 00 PHOENIX CONTACT PSI WL RS232 RS485 BT 2DO 96 PHOENIX CONTACT 105820 en 00 B Appendixes 105820_en_00 1 Figure 3 1 Figure 3 2 Figure 3 3 Figure 3 4 Figure 4 1 Figure 4 2 Figure 4 3 Figure 4 4 Figure 5 1 Figure 5 2 Figure 5 3 Figure 5 4 Figure 5 5 Figure 5 6 Figure 5 7 Figure 5 8 Figure 7 1 Figure 7 2 Figure 7 3 Figure 7 4 Figure 7 5 Figure 7 6 Figure 7 7 Figure 7 8 Figure 7 9 Figure 7 10 Figure 7 11 Figure 7 12 Figure 8 1 Figure 8 2 Figure A 1 Figure A 2 Figure A 3 List of figures Dimensions MM MET 16 tir bU 16 BITS a E DELE 17 Point to point connection point to multipoint network star 18 Opening the NOUSIN tav touto bs 19 Slide switch for termination network 20 CONF RUN slide switch 21 misuse cer erc CSS 22 Mounting ona DIN Tall eren eae perii pa dens paces x et 23 Combined assembly 24
26. 7 incl ANT DIR 2459 01 2701186 1 mounting bracket and mast clips for 25 85 mm diameter stainless steel 105820 en 00 PHOENIX CONTACT 7 PSI WL RS232 RS485 BT 2DO Accessories Panel antenna IP55 protection 8 dBi gain linear vertical SMA female 50 impedance h v 75 70 apex angle Antenna cable 3 m length SMA male gt SMA male attenuation approx 0 93 dB m at 2 4 GHz 50 O impedance Antenna cable 5 m length SMA male gt SMA male attenuation approx 0 93 dB m at 2 4 GHz 50 O impedance Antenna cable 3 m length N male gt N male attenuation approx 0 45 dB m at 2 4 GHz 50 O impedance Antenna cable 5 m length N male gt N male attenuation approx 0 45 dB m at 2 4 GHz 50 O impedance Antenna cable 10 m length N male gt N male attenuation approx 0 45 dB m at 2 4 GHz 50 O impedance Antenna extension cable 15 m length male gt male attenuation approx 0 45 dB m at 2 4 GHz 50 O impedance Vulcanizing sealing tape for external protection of adapters cable connections etc against the effects of weather roll length 3 m Adapter cable pigtail 100 cm MCX male gt SMA male insertion loss 1 5 dB at 2 4 GHz 50 O impedance Adapter cable pigtail 50 cm MCX male N male insertion loss 1 5 dB at 2 4 GHz 50 O impedance Adapter cable pigtail 30 cm N female gt SMA male insertion loss 1 5 dB at 2 4 GHz 50 O impedance Adapter cabl
27. ACT 105820 en_00 105820_en_00 Planning wireless systems 7 4 Installing antennas Please also observe the installation instructions for the antenna as well as Section For your safety on page 13 Observe the maximum permissible emitted transmission power of 20 dBm The transmis sion power can be calculated from device transmission power antenna gain cable attenuation Reduce the device transmission power if necessary The following recommendations apply to all antenna installations Mount the antenna outside the control cabinet Observe the installation instructions for the antenna used Install the antenna in an open area as far away as possible from any obstacles such as buildings dense deciduous forest or metal objects Choose a location that provides a clear signal path in the direction of the opposite antenna fseveral antennas are located in the same place they should have a distance between them of at least 0 6 m in the vertical direction and 1 m in the horizontal direction Pay attention to antenna polarization Most systems use a vertically polarized omnidi rectional antenna at the master station The opposite antennas must therefore also be polarized vertically Vertical polarization means that the elements are aligned vertically to the horizon Crossing polarization between the stations results in a signal loss of 20 dB minimum Figure 7 1 Antenna polarization 7 4 1 Alignin
28. DO 3 2 Dimensions CONTACT PSI WL RS232 RS485 BT 2DO Ord N lo 23 13 805 Figure 3 1 Dimensions mm 3 3 Block diagram DCE Termination 3900 1800 3900 ues COMBICON RS 422 RS 485 2 wire 24V LED re 001 Backplane Figure 3 2 Block diagram 16 PHOENIX CONTACT 105820_en_00 105820_en_00 3 4 11 4 16 OSS ae Product description Connection and function elements 12 13 14 15 PSI WL RS232 RS485 BT 2DO Ord No 23 13 80 Figure 3 3 Design 10 11 12 13 14 15 16 17 18 19 20 21 22 D SUB 9 RS 232 interface pin strip Red LED SER ERR flashes during every serial error e g parity transmission speed LED bar graph Mini USB type B USB interface Green LED RD receive data Yellow LED TD transmit data Green LED VCC Shield connection same potential as FE GND 24V 24 V DC supply voltage OV 0 V DC supply voltage T A RS 422 connection negative T B RS 422 connection positive D A RS 422 485 connection negative D B RS 422 485 connection positive Antenna connection MCX socket 001 002 Digital output of the wireless signal strength only for use in safe areas Slide switch for RS 422 RS 485 termination network CONF RUN slide switch for configuration mode Reset button PHOENIX CONTACT 17 PSI WL RS232 RS485 BT 2DO 18 PHOENIX CONTACT
29. Gazette No 26464 dated March 16 2007 Operation of the wireless system is only permitted if accessories available from Phoenix Contact are used The use of other accessory components may invalidate the operating li cense Please observe that the maximum permissible transmission power of the device can be ex ceeded in combination with antennas RAD ISM 2400 ANT PAN 8 0 and ANT DIR 2459 01 set the transmission power via the software Hungary this combination may not be used PHOENIX CONTACT 13 PSI WL RS232 RS485 BT 2DO 2 2 UL note for PSI WL RS232 RS485 BT 2DO and PSI WL PROFIB BT SET 2DO only Wire Range 30 12 AWG C US Torque 5 7 Lbs Ins LISTED Maximum Ambient Temperature 60 C Environmental designation Open Type Device 2 3 UL note for PSI WL RS232 RS485 BT HL with HazLoc approval only WARNING Explosion hazard when used in potentially explosive areas Only use digital outputs DO1 and DO2 in the safe area They are not suitable for use in potentially explosive areas 9 INDUSTRIAL CONTROL EQUIPMENT 11AE 10 30 V DC 170 mA 24 V AC x20 110 mA Class 2 Wire Range 30 12 AWG Torque 5 7 Lbs Ins Maximum Ambient Temperature 60 C Environmental designation Open Type Device PROCESS CONTROL EQUIPMENT FOR HAZARDOUS LOCATIONS 31ZN A This equipment is suitable for use in Class Zone 2 AEx nA T6 Class Zone 2 Ex nA Gc X and Class Division 2 Groups A B C Dor non haza
30. PSI CONF 2 13 23 File Language Extras Device Selection Point to Point with PSI WL BT Connection Mode Step 2 Step 3 Step 4 Step 5 Device 1 Device 2 Device 2 Point to Point Online Remote RUN mode prepare configure ready Offline General Settings Configuration max 229 characters Point to Point with other BT devices Password max 16 characters Multipoint with PSI WL BT 1123456 Individual Settings Serial Settings Diagnostic z A Bolle Transfer h Interface type Baud rate 187500 vi Data bits Parity Stop bits 1 Flow control CONTACT None Figure A 10 PSI CONF software Point to point with PSI WL BT step 1 82 PHOENIX CONTACT 105820 en 00 Configuring a PROFIBUS connection e Follow the software wizard with Step 2 and Step 3 4 enter name and confirm with Next B Online Mode PSI CONF 2 13 File Language Extras Device Selection Point to Point with PSI WL BT Connection Mode Step 1 Step 2 Step 3 Step 5 Device 1 Device 1 Device 2 Point to Point Online Remote configure RUN mode prepare ready Offline Configuration Point to Point with other BT devices Multipoint with PSI WL BT Individual Settings Serial Settings Diagnostic Interface type Transfer Baud rate Data bits Parity Stop bits Flow control contact Figure A 11 PSI CONF software
31. Point to point with PSI WL BT step 4 105820 en 00 PHOENIX CONTACT 83 PSI WL RS232 RS485 BT 2DO e Configuration is now complete Confirm with Finish e Exitthe software File Exit and follow the instructions D Online Mode PSI CONF 2 13 Sele File Language Extras Point to Point with PSI WL BT Connection Mode Step 1 Step 2 Step 3 Step 4 Device 1 Device 1 Device 2 Device 2 Online Remote configure RUN mode prepare configure Offline The devices have been successfully configured and can now be put into operation _ Configuration Point to Point with other BT devices Multipoint with PSI WL BT Individual Settings Diagnostic Blue O Blue Transfer Device 1 Device 2 Name PtP_Server_ PtP_Client_ Bluetooth function Server Client Bluetooth address 00123042586 001 317 44 Senal interface RS 485 RS 485 Password 123456 123456 Baud rate 187500 187500 Data bits 8 8 Parity Even Even Stop bits 1 1 Flow control None None Figure A 12 PSI CONF software Point to point with PSI WL BT step 5 84 PHOENIX CONTACT 105820 en 00 Configuring a PROFIBUS connection 2 2 Configuring a point to multipoint network star Start the PSI CONF software PSI CONF Configuration Software Copyright 2010 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany For the latest software version and updates visit www phoenixcontact com
32. ROFIBUS via Bluetooth converter 95 PHOENIX CONTACT 99 PSI WL RS232 RS485 BT 2DO 100 PHOENIX CONTACT 105820 en 00 B3 Index A ACCOSSOL GS t eed 7 75 AdaplerGable 75 Antenna AlgAMEN 37 Installation sens ennnnnenznenznnnnnnnnnnnnnnnnznn net 37 Selecon ta 36 Antenna cable 36 Antenna connection eese 29 AT command Cha Ua a le Re RE 59 ATO nator 38 tc 29 GIAGKAIN 16 Bus termination See Termination resistors C Checking the 35 Circuit diagram See Block diagram Gg sce 18 Coaxial Cable i inta tc aacra me a 36 Command Mod E ac Eee e 53 CONF RUN slide switch ees 21 COMM QUT QUOI ae died des 31 Gorifig ratorn rode inh 21 Cornnecuor Mode 57 Connection station 24 26 COMMECIONS T 17 27 OSSIA a a a at 18 D Data Communication Equipment DCE 27 Data OCG a 65 UIA Gs o 22 Delivery state See Resetting to the default settings Detectlom INO 56
33. SIT a x Example AT AMSIT 1 1 The interface is set to RS 232 and stored Request AT AMSIT Feedback AMSIT a PHOENIX CONTACT 71 PSI WL RS232 RS485 BT 2DO ACACF ACDF 72 PHOENIX CONTACT 9 7 Additional commands Read device list favorites The ACF command reads your device list a Number of devices favorites X Bluetooth address y Device name Example AT ACF Feedback ACF a OK y Add device The ACACF command adds a device to the device list favorites A maximum of ten de vices is permitted X Bluetooth address y Device name 240 characters maximum AT ACACFzx y Example AT ACACF 0080371DA11E Converter5 The device with address 0080371DA11E and the name Converter5 is added to the device list If the Bluetooth address already exists in the device list under another name only the name is modified Delete device The ACDF command deletes a device from the device list favorites X Bluetooth address AT ACDF x Example AT ACDF 0080371DA11E The device with address 0080371DA11E is removed from the device list 105820_en_00 AT commands ACCB Configuration via Bluetooth The ACCB command enables device configuration via Bluetooth Request The interface parameters are displayed a Interface a 0 gt Configuration is not possible via Bluetooth 1 gt Configuration is also possible via Bluetooth x 0 gt The setting is only
34. able and D is valid D Name of the service found The name of the service found is displayed G Service description available 0 gt service description is not available and H is invalid G 1 gt Aservice description is available and is valid H Service description Service parameter available 1 0 gt service parameter is not available and J is invalid 1 1 gt service parameter is available and J is valid J Service parameter Subnet IP available 0 gt subnet IP address is not available and L is invalid 1 gt subnet IP address is available and L is valid L Subnet IP Subnet IP address under which the partner can be reached in the LAN network 105820_en_00 ADDM ADCP ADCC 105820_en_00 AT commands 9 4 Data mode Data mode The ADDM command switches the Bluetooth converter from command to data mode Establish a serial data connection The ADCP command establishes a serial data connection to the partner AT ADCP A x y Z A Bluetooth address The Bluetooth address of the partner is displayed x Bluetooth service profile 0 gt Serial port profile 1 gt Dial up networking profile 2 gt access profile y RFCOMM server channel 0 can be entered for automatic selection Experienced users can select a chan nel between 1 and 30 2 2 0 gt The partner decides whether it is a client o
35. al ways possible In applications obstacles that affect the wireless channel often have to be taken into account The wireless path may also work if obstacles house tree etc are within the Fresnel zone The decisive factor is the number of obstacles and the area they occupy in the Fresnel zone In this case test measurements should be carried out Inside buildings e g in conventional automation environments there is a predominance of reflections They contribute to a good wireless connection even if the Fresnel zone is not free from obstacles The following figure shows the Fresnel zone between two antennas The required mounting height for the antennas depends on the radius of the Fresnel zone 105820 en 00 Planning wireless systems MAMMA ot J ma SS Figure 7 9 Fresnel zone Table 7 7 Radius of the Fresnel zone depending on the distance Wireless path distance Radius of the Fresnel d zone r at 2 4 GHz General formula for calculating the diameter of the Fresnel zone r 05xvVAxd r radius of the Fresnel zone wavelength 0 125 m at 2 4 GHz d distance between the antennas in km Radius of the Fresnel zone with d 100 m r 1 8m Result The radius of the Fresnel zone is 1 8 ata wavelength of 0 125 2 4 GHz anda distance of 100 m between the antennas 105820 en 00 PHOENIX CONTACT 45 PSI WL RS232 RS485 BT 2DO 46 PHOENIX CONTACT 7 9 Range Itis very difficult to
36. ault settings Delivery state 9 6 kbps no parity 1 stop bit hardware handshake il Prior to reset set the CONF RUN slide switch to the RUN position Do not reset the device during operation as otherwise configuration data is lost Switch the supply voltage off and open the housing as described in Section Opening and closing the housing on page 19 Hold the reset button down for approximately three seconds while switching on the sup ply voltage 22 PHOENIX CONTACT 105820 en_00 Installation and configuration 5 Installation and configuration CAUTION Electrical voltage The device is only intended for operation in the control cabinet and with SELV according to IEC 60950 EN 60950 VDE 0805 The device may only be connected to devices which meet the requirements of EN 60950 NOTE Malfunction Establish an electrically conductive connection between the DIN rail and protective earth ground using a grounding terminal block The device is grounded when it is snapped onto the DIN rail installation according to PELV Make a low resistance connection to protec tive earth ground 5 1 Mounting as single device Figure 5 1 Mounting on a DIN rail To avoid contact resistance only use clean corrosion free 35 mm DIN rails according to DIN EN 60715 e Install an end bracket next to the left hand device to prevent the devices from slipping e Place the device onto the DIN rail from above e Push the device
37. ays per week 12 hours per day MTTF Mean Time To Failure SN 29500 standard temperature 40 C operating cycle 10096 7 days per week 24 hours per day Noise emission according to Noise immunity according to Electromagnetic compatibility Ambient conditions Ambient temperature operation Ambient temperature storage transport Permissible humidity operation Permissible humidity storage transport Approvals Conformance Free from substances that would hinder coating with paint or varnish UL USA Canada Standards regulations 10 PHOENIX CONTACT IP20 22 5 mm x 99 mm x 116 mm 120g PA 6 6 FR green 1m 5g 150 Hz 2 5h in XYZ direction 15g 11 ms period half sine shock pulse 2115 years 850 years 346 years EN 55011 EN 61000 6 2 2005 Conformance with R amp TTE directive 1999 5 EC 20 C 60 C 40 C 85 C 10 95 non condensing 5 95 non condensing CE compliant According to P VW 3 10 7 57 65 0 VW AUDI Seat central standard cULus listed UL 508 FCC Part 15 247 ISC RSS 210 105820_en_00 Conformance with R amp TTE directive 1999 5 EC Noise immunity according to EN 61000 6 2 Electrostatic discharge Electromagnetic HF field Fast transients burst Surge current loads surge Conducted influence EN 61000 4 2 Contact discharge Air discharge Remark EN 61000 4 3 Frequency range Field strength Remark EN 61000 4 4 Input Signal Remark EN 61000 4 5 Inpu
38. c or as soon as the device is in data mode d Partner update d 0 gt The partner is not updated automatically d 1 gt Anew device that connects to your device is automatically added and stored in the address list This function is only available for a partner e x Device name The Bluetooth device name is displayed 240 characters maximum 0 gt The setting is only valid until the next voltage interrupt 1 gt is stored Partner specification AT ADWDRPza b Partner request Example AT ADRDRP a Feedback ADRDRP 2B Inactivity timer The ADIT command determines the automatic shutdown time in the event of inactive data traffic Request The shutdown time is displayed shutdown time in minutes 255 maximum a 0 gt No automatic shutdown 0 gt The setting is only valid until the next voltage interrupt 1 gt setting is stored Example AT ADIT 10 1 If there is no data flow after ten minutes the connection is interrupted This setting is stored PHOENIX CONTACT 105820 en 00 AILBA 105820_en_00 AT commands Multi drop configuration The ADWM command activates or deactivates the Wireless multi drop function In multi drop operation the master sends its serial data to all the slaves The multi drop function on slaves must always be deactivated only the master is configured for multi d
39. case the characters only appear once check the HyperTerminal settings for hid den outgoing characters The following options must be enabled under File Properties Settings ASCII Setup Echo typed characters locally and Append line feeds to incoming line ends ASCII Setup ASCII Sending Send line ends with line feeds Echo typed characters locally Line delay 0 milliseconds Character delay 0 milliseconds ASCII Receiving Force incoming data to 7 bit ASCII Wrap lines that exceed terminal width Figure 8 2 Settings in HyperTerminal 105820 en 00 AT commands 9 AT commands The Bluetooth converter stores its operating characteristics in a non volatile memory EEPROM You can overwrite these characteristics using commands and can thus modify the method of operation of the device The device executes commands as long as it is in command mode You can enter commands for the Bluetooth converter using appropriate communication software e g HyperTerminal Make sure that the baud rate setting for the COM port in your communication software corresponds to the set speed of the Bluetooth converter If the CONF RUN slide switch is in the CONF position the interface is always set to HS 232 57 6 kbps 8 data bits no parity 1 stop bit and hardware handshake Switching to command mode The device is directly in data mode when it is switched on e Enter the Escape string default to acc
40. ce Selection Configuration Mode Please choose the configuration mode Online Local Online Remote Configure local connected device Local configuration Configure remote device via the local device Remote configuration Create or edit a configuration file Configuration file Figure A 8 PSI CONF software Local configuration 80 PHOENIX CONTACT 105820 en 00 Configuring a PROFIBUS connection Follow the installation instructions and confirm with Next e Select the With PSI WL BT option in the Point to Point Wizard I Online Mode PSI CONF 2 13 3 File Language Extras Device Selection B Configuration Connection Mode g Which configuration would you like to realize Point to Point Wizard Multipoint Wizard Individual With PSLWL _ BT Online Remote Offline ci mm Point to Point with PSI WL BT Point to Point with other BT devices Multipoint with PSI WL BT Individual Settings Diagnostic gt r Transfer With other Bluetooth device C Bluetooth Figure A 9 PSI CONF software Configuration 105820_en_00 PHOENIX CONTACT 81 PSI WL RS232 RS485 BT 2DO e Enter a name and a password e Select the PROFIBUS connection profile and set a baud rate of 187500 Confirm with Next The set parameters are now transmitted to the device D Online Mode
41. ction 76 PHOENIX CONTACT 97 PSI WL RS232 RS485 BT 2DO 98 PHOENIX CONTACT Figure A 4 Figure A 5 Figure A 6 Figure A 7 Figure A 8 Figure A 9 Figure A 10 Figure A 11 Figure A 12 Figure A 13 Figure A 14 Figure A 15 Figure A 16 Figure A 17 Figure A 18 Figure A 19 Figure A 20 Figure A 21 Figure A 22 Figure A 23 Figure A 24 Figure A 25 Figure A 26 Omnidirectional antenna 6 dBi with outdoor surge protection 77 Panel antenna 9 dBi with outdoor surge protection 78 PSI CONF software 79 PSI CONF software Device selection 2 80 PSI CONF software Local configuration 80 PSI CONF software Configuration 81 PSI CONF software Point to point with PSI WL BT step 1 82 PSI CONF software Point to point with PSI WL BT step 4 83 PSI CONF software Point to point with PSI WL BT step 5 84 PSIEGONF RN E ea A 85 PSI CONF software Device selection 2 85 PSI CONF software Local configuration 86 PSI CONF software Configuration 87 i 87 PSI CONF software Multipoint with PSI WL BT step 1 88 PSI CONF sof
42. d adapter cables Omnidirectional antenna 6 dBi with outdoor surge protection 2 Figure A 4 Omnidirectional antenna 6 dBi with outdoor surge protection ltems 2 and 3 are optional Item Product Description Connection Order No RAD ISM 2400 ANT OMNI 6 0 Omnidirectional antenna 2 4 GHz 6 dBi gain female 2885919 linear vertical polarization h v 360 30 apex angle IP55 protection 1 Alternative RAD 2400 ANT OMNI 6 0 SW Omnidirectional antenna 2 4 GHz 6 dBigain N female 2903219 linear vertical polarization h v 360 20 apex angle IP65 protection salt water resistant RAD CAB EF393 Antenna cable 3 m length N male gt 2867649 insertion loss approx 0 45 dB m at 2 4 GHz male Alternative 2 RAD CAB EF393 5M Antenna cable 5 m length N male gt 2867652 insertion loss approx 0 45 dB m at 2 4 GHz N male opt RAD CAB EF393 10M Antenna cable 10 m length N male gt 2867665 insertion loss approx 0 45 dB m at 2 4 GHz N male RAD CAB EF393 15M Antenna extension cable 15 m length male gt 2885634 insertion loss approx 0 45 dB m at 2 4 GHz N male 3 CN LAMBDA 4 5 9 BB Attachment plug with Lambda 4 technology as female 2838490 opt surge protection for coaxial signal interfaces N female 4 RAD PIG EF316 MCX N Antenna cable 0 5 m length MCX male 2867681 insertion loss 0 95 dB at 2 4 GHz N
43. d by a Bluetooth client Af ter successful connection establishment it is not important which device is the server and which device is the client Data transmission is transparent Client The Bluetooth client initiates the connection to a Bluetooth server After successful con nection establishment it is not important which device is the server and which device is the client Data transmission is transparent The client server settings are important if several devices are installed in the immediate vicinity e g in a control cabinet A client establishes the connection to a server and in creases the transmission power for this connection establishment The transmission power is then reduced again automatically If several clients are installed directly next to one an other crosstalk may occur for a short time This may lead to interferences or even a failure of the wireless connection To avoid this only servers must be installed next to one another 105820 en 00 Setting switches on the device 4 Setting switches on the device NOTE Electrostatic discharge The device contains components that can be damaged or destroyed by electrostatic dis charge When handling the device observe the necessary safety precautions against electrostatic discharge ESD according to EN 61340 5 1 and IEC 61340 5 1 4 1 Opening and closing the housing For configuration purposes the housing must be opened Figure 4 1 Opening th
44. data rate not possible Table A 1 Theoretical delay times PROFIBUS via Bluetooth converter Bluetooth PROFIBUS Bidirectional Data rate Bit time s Min TBit in relation to the Max x bit time 1 data rate Bluetooth delay TBit 5 delay 5 bps delay bit time 9600 0 000104167 1 706562500 19200 0 000052083 9800 0 853281250 93750 0 000010667 4688 0 174752000 PtP 0 05 187500 0 000005333 9375 0 087376000 500000 0 000002000 25000 0 032766000 1500000 0 000000667 75000 0 010922000 owwony eso __ AM 0 1 93750 0 000010667 9375 0 174752000 187500 0 000005333 18750 0 087376000 500000 0 000002000 50000 0 032766000 9600 0 000104167 1 706562500 19200 0 000052083 0 853281250 ipm 93750 0 000010667 0 174752000 187500 0 000005333 0 087376000 500000 0 000002000 0 032766000 9600 0 000104167 1920 1 706562500 19200 0 000052083 3840 0 853281250 X 93750 0 000010667 18750 0 174752000 187500 0 000005333 37500 0 087376000 500000 0 000002000 100000 0 032766000 9600 0 000104167 2400 1 706562500 19200 0 000052083 4800 0 853281250 93750 0 000010667 23438 0 174752000 187500 0 000005333 46875 0 087376000 500000 0 000002000 125000 0 032766000 9600 0 000104167 2880 1 706562500 19200 0 000052083 5760 0 853281250 M 93750 0 000010667 28125 0 174752000 187500 0 000005
45. derate injury This symbol together with the signal word NOTE and the accompanying text alert the reader to a situation which may cause damage or malfunction to the D device hardware software or surrounding property This symbol and the accompanying text provide the reader with additional in formation or refer to detailed sources of information How to contact us Up to date information on Phoenix Contact products and our Terms and Conditions can be found on the Internet at phoenixcontact com Make sure you always use the latest documentation It can be downloaded at phoenixcontact net products If there are any problems that cannot be solved using the documentation please contact your Phoenix Contact subsidiary Subsidiary contact information is available at phoenixcontact com PHOENIX CONTACT GmbH amp Co KG Flachsmarktstraf3e 8 32825 Blomberg GERMANY Should you have any suggestions or recommendations for improvement of the contents and layout of our manuals please send your comments to tecdoc phoenixcontact com PHOENIX CONTACT Please observe the following notes PHOENIX CONTACT General terms and conditions of use for technical documentation Phoenix Contact reserves the right to alter correct and or improve the technical documen tation and the products described in the technical documentation at its own discretion and without giving prior notice insofar as this is reasonable for the user The
46. dividual Device settings Point to Point with PSI WL BT Multipoint with PSI WL BT Individual Settings Diagnostic Tradit Point to Point with other BT devices gt C Bluetooth Figure A 16 PSI CONF software Configuration Selecting the Multipoint network type increases the delay time The delay time depends on the number of slaves in the network e Enter the number of slaves and select the master role see page 18 Multipointoptions Cu Number of slaves A Master role Server Figure A 17 Multipoint options 105820_en_00 PHOENIX CONTACT 87 PSI WL RS232 RS485 BT 2DO Configure the following in step 1 Password Connection profile PROFIBUS Baud rate 93750 The baud rate depends on the number of slaves in the network The more devices in the network the lower the baud rate must be set see Theoretical delay times PROFIBUS via Bluetooth converter on page 95 D Online Mode PSI CONF 2 03 Sel File Language Extras ee Multipoint with PSI WL BT Connection Mode Step 2 Step 3 Step 4 Step 5 Master Slave 1 Slave 1 Slave 1 Online Remote RUN mode prepare configure RUN mode Offline lt General Settings Configuration Name max 229 characters Point to Point with PSI WL BT Point to Point with other BT devices Password max 16 characters 123455 Individual Settings Serial Setti
47. e pigtail 50 cm N female gt N female insertion loss 1 5 dB at 2 4 GHz 50 O impedance Attachment plug with LAMBDA 4 technology as surge protection for coaxial signal interfaces Connection N connectors socket socket Adapter SMA female gt SMA female insertion loss 0 3 dB at 2 4 GHz Adapter N male gt SMA female insertion loss 0 3 dB at 2 4 GHz Supply Supply voltage range Nominal supply voltage Typical current consumption Electrical isolation Test voltage data interface power supply Type RAD ISM 2400 ANT PAN 8 0 RAD CAB EF142 3M RAD CAB EF142 5M RAD CAB EF393 3M RAD CAB EF393 5M RAD CAB EF393 10M RAD CAB EF393 15M RAD TAPE SV 19 3 RAD PIG EF316 MCX SMA RAD PIG EF316 MCX N RAD PIG EF316 N SMA RAD PIG EF316 N N CN LAMBDA 4 5 9 BB RAD ADP SMA F SMA F RAD ADP N M SMA F Order No 2867610 2884512 2884525 2867649 2867652 2867665 2885634 2903182 2867678 2867681 2867694 2867704 2838490 2884541 2917036 Pcs Pkt 1 10 V 30 V DC COMBICON plug in screw terminal block 19 V 29 V AC 50 60 Hz 24 V DC 20 alternative or redundant via backplane bus contact and system power supply lt 100 mA 24 V DC VCC Bluetooth RS 232 RS 422 RS 485 USB 1 5 kV AC 50 Hz 1 min RS 232 interface according to ITU T V 28 EIA TIA 232 DIN 66259 1 Connection method Data format coding Serial transmission speed Tran
48. e by factor x 105820_en_00 Configuring a PROFIBUS connection The Tslot_Init parameter is expressed in t_bit The maximum value for a Siemens S7 PLC is 16383 t_bit S5 9999 t_bit The maximum wait time for receipt is therefore 187 5 kbps 87 ms In this case value 13000 t bit corresponds to a value of 69 ms minimum delay time of the Bluetooth converter reserve e Start the SIMATIC Manager and open you user project Select Options Configure Network from the pull down menu 1 SIMATIC Manager Demo Bluetooth Profibus C Programme Siemens Step 5 Proj Demo_B_ 1 Bp File Edit Insert PLC View Options Window Help 151 289 Demo Bluetooth Profibus CPU 315 2 DP 7 S Programm h gt Quelen Bausteine fly Hardware fi CPU 315 2 DP Figure A 20 SIMATIC Manager In the NetPro window right click the PROFIBUS line In the context menu open Object Properties ie NetPro Demo Bluetooth Profibus Network C Programme Step S Proj Demo_B_ 1 ae Network Edit Insert PLC View Options Window Help gy Eu Eb Ha MPI 1 MPI SIMATIC 300 IL PB BK DP V1 DIP8 ON Figure 21 NetPro window 105820 en 00 PHOENIX CONTACT 91 PSI WL RS232 RS485 BT 2DO Inthe Network Settings tab select a transmission speed of 187 5 kbps e Click on Options Properties PROFIBUS General Network Settings
49. e housing e Open the housing cover using a suitable screwdriver A e Carefully pull the PCB out of the housing as far as possible e Following configuration carefully reinsert the PCB as far as it will go e Snap the housing cover into place 105820 en_00 PHOENIX CONTACT 19 PSI WL RS232 RS485 BT 2DO 20 PHOENIX CONTACT 4 2 Activating the termination network The device can be operated on a 2 wire or 4 wire bus line as required Switchable termina tion resistors are integrated into the device to terminate the RS 422 RS 485 bus line Figure 4 2 Slide switch for termination network Depending on the position of the device on the bus line the termination resistors must be activated or deactivated RS 485 The termination resistors at the two furthest ends of the bus must be acti vated RS 422 All termination resistors must be activated Table 4 1 Slide switch for termination network 105820_en_00 Setting switches on the device 4 3 Setting configuration mode Figure 4 3 CONF RUN slide switch e Prior to configuration set the CONF RUN slide switch to the CONF position Table 4 2 CONF RUN slide switch Operating mode Switch position 105820 en 00 PHOENIX CONTACT 21 PSI WL RS232 RS485 BT 2DO 4 4 Resetting to the default settings EN LE 2 Figure 4 4 Reset button The reset button can be used to reset the device to the def
50. e lli No RAD ISM 2400 ANT OMNI 2 1 Omnidirectional antenna 2 4 GHz 2 dBi gain MCX male 2867461 1 5 m cable length linear vertical polarization h v 360 75 apex angle IP65 protection 105820_en_00 PHOENIX CONTACT 75 PSI WL RS232 RS485 BT 2DO Omnidirectional antenna with protection against vandalism 2 5 dBi Figure A 2 Omnidirectional antenna with protection against vandalism 2 5 dBi Me RAD ISM 2400 ANT VAN 3 1 MCX Omnidirectional antenna with protection MCX male 2885702 against vandalism 2 4 GHz 3 dBi gain IP55 protection 1 5 m cable length h v 360 85 apex angle Appropriate mounting material is available for wall mounting Omnidirectional antenna 6 dBi without surge protection 1 2 Figure A 3 Omnidirectional antenna 6 dBi without surge protection Item Product Description Connection Order No RAD ISM 2400 ANT OMNI 6 0 Omnidirectional antenna 2 4 GHz 6 dBigain N female 2885919 linear vertical polarization h v 360 30 apex angle IP55 protection 1 Alternative RAD 2400 ANT OMNI 6 0 SW Omnidirectional antenna 2 4 GHz 6 dBi gain female 2903219 linear vertical polarization h v 360 20 apex angle IP65 protection salt water resistant 2 RAD PIG EF316 MCX N Antenna cable 0 5 m length MCX male 2867681 insertion loss 0 95 dB at 2 4 GHz N male 76 PHOENIX CONTACT 105820_en_00 Typical combinations of antennas an
51. ers and is based on the international license free Bluetooth standard This wireless standard meets high requirements for inter ference free data transmission in particular through the use of the FHSS method Fre quency Hopping Spread Spectrum with the 2 4 GHz ISM band Features Mounted on EN DIN rails 24V DC or AC supply Transmission speed can be set up to 187 5 kbps Either RS 232 RS 422 or RS 485 Supports all common 10 11 bit UART data formats 3964R compatible External antenna connection for optimum antenna positioning Bluetooth access protected by password fixed device pairing or device access list Scalable transmission power for specific spatial containment of the wireless cell Integrated Bluetooth path diagnostics via LED bar graph Two digital diagnostics outputs not in the case of the PSI WL RS232 RS485 BT HL product version R amp TTE device class Class 2 Bluetooth device class Class 1 14 dBm 79 channels bandwidth 79 MHz 3 1 Bluetooth PROFIBUS set The PSI WL PROFIB BT SET 2DO Bluetooth PROFIBUS set consists of two permanently paired Bluetooth converters and two omnidirectional antennas The devices are preconfig ured for an invisible password protected point to point connection Features Transmission speed 187 5 kbps Ready to use unpack connect switch on and you have a working wireless path PHOENIX CONTACT 15 PSI WL RS232 RS485 BT 2
52. ess command mode Command mode is used to configure the Bluetooth converter An interval of at least one second must be observed before and after sending the Escape string The Escape string must be entered within one second Intervals can be set using the AT AMET command The Escape string can be modified using the ATS2 command e Enter AT ADDM to return to data mode once configuration is complete and confirm by pressing ENTER The device only transmits data to the partner once it is in data mode 105820 en 00 PHOENIX CONTACT 53 PSI WL RS232 RS485 BT 2DO Command structure All commands transmitted to the Bluetooth converter must start with AT and must be con firmed by pressing ENTER The commands can be entered in upper case or lower case however not in a combination of both Unlike a modem several commands cannot be writ ten in one command line AT deletes the last command line executed by your Bluetooth converter if present and prepares your device for the new command line Correcting a typing error When entering a wrong command character it can be corrected using the backspace key Pressing the backspace key deletes the character entered last However AT at the start of the command line will not be deleted 54 PHOENIX CONTACT 105820_en_00 AT commands 9 1 Command descriptions AT Attention string AT is the prefix of a command line and must be entered at the start of each command line except for the Esca
53. finding your Bluetooth converter Request The current detection mode is displayed 1 x Undiscoverable Other Bluetooth devices cannot find the Bluetooth converter when perform ing a search A Other Bluetooth devices cannot be connected to the Bluetooth converter 2 X Discoverable but connectable Other Bluetooth devices cannot find the Bluetooth converter when perform ing a search A Other Bluetooth devices can be connected to the Bluetooth converter 3 X Discoverable and connectable Other Bluetooth devices can find the Bluetooth converter when performing a search Other Bluetooth devices can be connected to the Bluetooth converter x 0 gt The setting is only valid until the next voltage interrupt x 1 2 The setting is stored Example AT AGDM 3 1 Discoverable and connectable detection mode is set and stored 56 PHOENIX CONTACT 105820_en_00 AT commands AGCM Connection mode The AGCM command specifies the connection option Request The current connection mode is displayed 1 x Connection not permitted Other Bluetooth devices cannot be connected to the Bluetooth converter 2X Connection permitted Other Bluetooth devices can be connected to the Bluetooth converter x 0 gt The setting is only valid until the next voltage interrupt 1 gt The setting is stored Example AT AGCM 2 1 Connection permitted connection mode is set and stored AGPM Pairing mode The
54. fter entry Request The waiting time before and after the Escape string is displayed a Waiting time before the string Value range 50 2000 ms b Waiting time after the string Value range 50 2000 ms x 0 gt The setting is only valid until the next voltage interrupt xz1 Thesetting is stored AT AMET a 6 x Example AT AMET 1000 1000 1 The waiting time before and after the Escape string is set to one second and stored Specify the factory settings The AMSF command specifies the current configuration of the Bluetooth converter as the factory settings The AT amp F command can be used to restore these settings at any time Example AT AMSF Feedback OK 105820 en 00 Technical appendix 1 Typical combinations of antennas and adapter cables In this section you will find typical combinations of Bluetooth converters antennas and adapter cables for the installation with or without a control cabinet Install the antenna outside the control cabinet or building Please also observe the installation instructions for the antenna as well as Section For your safety on page 13 Observe the maximum permissible emitted transmission power of 20 dBm The transmis sion power can be calculated from device transmission power antenna gain cable attenuation Reduce the device transmission power if necessary Omnidirectional antenna 2 dBi Figure A 1 Omnidirectional antenna 2 dBi a pan
55. g panel antennas e First align the antennas roughly Use the following Topographic map GPS device or compass LED bar graph on the Bluetooth converter Even if there is no direct line of sight you can find the alignment point e You always have to align both antennas with each other because the radio waves need to radiate into the antennas e particular with regard to panel antennas it is important to ensure that the antenna is properly fixed If the antenna sways in the wind the transmission or reception beam can move out of its target area PHOENIX CONTACT 37 PSI WL RS232 RS485 BT 2DO 38 PHOENIX CONTACT 7 5 Level and attenuation of the Bluetooth converter and accessories Keep the connection between the Bluetooth converter and the antenna as short as possible Every extension or adapter cable pigtail will cause higher attenuation A 10 m long RAD CAB EF393 10M extension cable results in a loss of 5 dB The connectors have a typ ical attenuation of 0 2 dB i e the attenuation value is 0 4 dB cable length per extension or adapter cable You can calculate the levels and attenuation of the Bluetooth converter and accessories using the following table Table 7 2 Level Wireless Bluetooth con Connec Max power level Can be set to technology verter tion at the antenna connection Bluetooth PSI WL f 28 14 dBm in steps of 1 dB Table 7 3 Attenuation of accessories Adapter
56. he device with the PSI CONF configuration software via the RS 232 or USB in terface Either configure the directly connected device or the device that is connected via Bluetooth Delivery state 9 6 kbps no parity 1 stop bit hardware handshake e Download the latest PSI CONF software from the Internet at phoenixcontact net products e Install the software on your computer e Prior to configuration set the CONF RUN slide switch to the CONF position see Set ting configuration mode on page 21 105820 en 00 PHOENIX CONTACT 31 PSI WL RS232 RS485 BT 2DO 32 PHOENIX CONTACT 105820 en 00 Application examples 6 Application examples System limitations APROFIBUS network must only contain one PROFIBUS master at the maximum Noother PROFIBUS devices must be connected to the local PROFIBUS master Deactivate the Commissioning Test operation function when using a PROFIBUS CPU asa slave If this function is activated the interface becomes an active PROFIBUS device Multi master systems are not permitted Observe the following for multi drop connections The transmission time increases with the number of Bluetooth devices Reduce the data rate if necessary Table 6 1 Without termination device addressing RS 232 RS 422 etc Exemple peer mene NET Direct programming connection be tween a laptop and a programmable logic controller PLC Programming device and PLC PDA and PLC Data links bet
57. ignal strength The AGRSS command requests the received signal strength from a partner The Bluetooth address of the partner must be known Example AT AGRSS 0080371DA128 The partner has the address 0080371DA128 Feedback AGRSS 128 128 optimum signal strength For this request the Bluetooth converter must have already established a data link with the partner but still be in command mode PHOENIX CONTACT 105820_en_00 ARSS 105820_en_00 9 3 AT commands Reading the service profile The service profile does not have to be read in normal applications This section is there fore only aimed at users with well established knowledge of Bluetooth Request the Bluetooth service profile The ARSS command reads the Bluetooth service profile of the Bluetooth partner AT ARSS x 2 X Bluetooth address The Bluetooth address of the opposite station is displayed Bluetooth service profile 0 gt Serial port profile 71 gt Dial up networking profile y 2 gt LAN access profile Maximum number of results The maximum number of search results is specified Feedback for Serial port profile ARSS N OK ARSRSP A B C D N Number of services found A Bluetooth address The Bluetooth address of the opposite station is displayed B RFCOMM server channel Number of the RFCOMM server channel on which the service was found value range 1 30 C Service name 0 gt Service name n
58. less signal being re flected at the same angle In certain applications the reflection may have a positive effect e g if there is no line of sight Reflections mainly occur in buildings Figure 7 4 Reflection on a metal surface Penetration The type of wall encountered also influences the attenuation of the wireless signal The fol lowing constructions adversely affect the wireless signal for example Hollow lightweight walls with aluminum lined insulation False ceilings with metal or carbon fiber panels Lead glass Insulation glass Thermopen Glass with a metal coating Steel objects Fire walls Elevator shafts and staircases Each material has a different degree of attenuation However the following typical values provide a rough orientation Table 7 6 Attenuation with regard to different materials Obstacle Typical attenuation at 2 4 GHz dB ot Figure 7 5 Reduction of radio waves when penetrating a wall 105820_en_00 Planning wireless systems Also observe the angle between transmitter and receiver Depending on the angle the radio waves have to penetrate more or less material Figure 7 6 Angle of the transmitter and receiver Radio dead spot Radio dead spots are caused by impenetrable obstacles in the wireless path The radio dead spot can be compared to the shadow cast by the sun If the receiver is located ina radio dead spot no direct radio waves can reach it but
59. male 105820_en_00 PHOENIX CONTACT 77 PSI WL RS232 RS485 BT 2DO Panel antenna 9 dBi with outdoor surge protection Figure A 5 2 3 T Panel antenna 9 dBi with outdoor surge protection Items 2 and 3 are optional Item Product Description Connection Order No ANT DIR 2459 01 Panel antenna 2 4 5 GHz 9 dBi gain linear N female 2701186 1 vertical polarization h v 75 70 apex angle at 2 4 GHz IP67 protection RAD CAB EF393 3M Antenna cable 3 m length N male gt 2867649 insertion loss approx 0 45 dB m at 2 4 GHz N male Alternative 2 RAD CAB EF393 5M Antenna cable 5 m length male gt 2867652 f insertion loss approx 0 45 dB m at 2 4 GHz male opt RAD CAB EF393 10M Antenna cable 10 m length male gt 2867665 insertion loss approx 0 45 dB m at 2 4 GHz N male RAD CAB EF393 15M Antenna cable 15 m length N male gt 2885634 insertion loss approx 0 45 dB m at 2 4 GHz N male 3 CN LAMBDA 4 5 9 BB Attachment plug with LAMBDA 4 technology N female gt 2838490 opt as surge protection for coaxial signal interfaces female 4 RAD PIG EF316 MCX N Antenna cable 0 5 m length MCX male 2867681 insertion loss 0 95 dB at 2 4 GHz N male 78 PHOENIX CONTACT 105820_en_00 Configuring a PROFIBUS connection A2 Configuring a PROFIBUS connection In order to configure a point to point connection or point
60. mand 4 endi hasc 55 9 2 Connection 56 9 3 Reading the service profile zz zz 63 9 4 Bye ii Wag l A A ee ee en eerie reece eer eet tree rere 65 9 5 Information 69 9 6 lnteriace ccc 70 9 7 FAGGITIOMAN COMMIMGING S a e E ia 72 p EE 75 1 Typical combinations of antennas and adapter cables 75 A2 Configuring a PROFIBUS E 79 eee c T TL MR 97 B 1 p 97 2 LSE OM tables 99 T 101 6 PHOENIX CONTACT 105820_en_00 Technical data 1 Technical data Description Type Order No Pcs Pkt Bluetooth converter wireless transmission RS 232 RS 422 RS 485 PSI WL RS232 RS485 BT 2DO 2313805 1 2 wire mounting on EN DIN rails MCX connection for external antenna integrated path diagnostics bar graph two digital outputs cross wiring of 24 V DC and RS 485 2 wire Bluetooth PROFIBUS SET pre configured PROFIBUS point to point PSI WL PROFIB BT SET 2DO 2313876 1 PROFIBUS baud rate 187 5 kbps integrated path diagnostics bar graph two digital outputs cross wiring of 24 V DC and RS 485 2 wire contents 2 x Bluetooth converter 2 x antenna Bluetooth convertor
61. misto mE MA 25 FOWGFSUDDIV baie 26 RS 232 INMGNACC EET 27 122 m 28 S485 INCH ACC ETT b nr bt a E 28 Diagnostics indicators during normal operation 29 Antenna polarization a outs 37 Dispersion on a rough surface 41 Diffraction an edge REB on Marx REOS rnnt ereenn nn 41 Reflection on a metal surface 42 Reduction of radio waves when penetrating a wall 42 Angle of the transmitter and receiver 43 Radio dead SDOLD b a a tus used Ue cwn 43 Wireless path with strong wind 44 Fresnel ZoNe CE 45 Free space path IOSS B fa 47 Bush with an attenuation of approximately 15 dB 49 Forest with an attenuation of about 40 49 Loopback test on an RS 232 51 Settings INAV OST SiN 2 2 toc uto red oh o o 52 Omnidirectional antenna 2 dBi eee 75 Omnidirectional antenna with protection against vandalism 2 5 dBi 76 Omnidirectional antenna 6 dBi without surge prote
62. n or the connection may be terminated completely In the case of a poor connection the Blue tooth converter would not discard PROFIBUS telegrams but try to repeatedly transmit them e For the wireless connection consider the following PROFIBUS situations Inthe PROFIBUS master minimum delay time of 50 ms Tslot_Init parameter maximum wait time for receipt Inthe PROFIBUS master short interruption of the wireless connection Retrylimit parameter maximum number of connection retries Inthe PROFIBUS slave permanent interruption of the wireless connection Response monitoring time watchdog parameter You have two options for setting the Tslot_Init parameter maximum wait time for re ceipt Automatically Enter the number of repeaters and the cable length under Options Cables Manually Directly enter the bus parameters under User defined Bus Parame ters In this case deactivate the automatic calculation otherwise the sum of auto matic and manual entry will be used We recommend that you use manual entry Entry Tslot_Init gt 13000 t_bit Entry Retry limit gt 3 Recalculate Entry Response monitoring time depending on the application Under certain circumstances it may be required that the Tslot_Init value is greater than 13000 t_bit This may occur for example if there is a poor wireless connection or if the com ponents are connected in series The value of 50 ms will increas
63. ngs Connection profile IPROFIBUS v Interface type Diagnostic Transfer Baud rate 187500 Data bits Parity Stop bits Flow control Current device PSI WL RS232 RS485 BT Order 2313805 2708517 2313795 Connection E Port COM10 Hardware version 22 Firmware version 400 Bluetooth address 0012f31b62ba Device name PtP_Server_ Figure A 18 PSI CONF software Multipoint with PSI WL BT step 1 The set parameters are now transmitted to the device 88 PHOENIX CONTACT 105820 en 00 e Follow the software wizard from Step 2 to Step 7 Online Mode PSI CONF 2 13 MtP_Master_ Bluetooth function Server Bluetooth address 001231 23 1 Multipoint with PSI WL BT8 Step 3 Step 4 Step 5 Slave 1 Slave 1 Slave 1 prepare configure RUN mode Configuring a PROFIBUS connection Soe x Name MtP_Slave1_ Bluetooth function Client Bluetooth address 0012312233 Name MtP_Slave2_ Bluetooth function Client Bluetooth address 0012f31b614d Serial interface RS 485 Serial interface RS 485 Serial interface RS 485 Current device PSI WL RS232 RS485 BT Order 2313805 2708517 2313795 Connection Port USB Hardware version 22 Firmware version 400 Bluetooth address 0012f31b614d Device name MtP_Slave2_ Figure A 19 PSI CONF software Multipoint with PSI WL BT step 8 Configurati
64. o 4 Figure A 13 __ PSI CONF software e Inthe Wireless folder select the device B PSI CONF 2 13 3 File Language Extras 2 Device Selection Welcome Please select the device to be configured DeviceNet Modem Wireless WLAN 2313559 2313805 2708517 2313795 2901540 FL COMSERVER WL PSI WL RS232 RS485 BT RAD S00 FS TRUSTE WIRELESS 2901541 RAD 2400 IFS Figure 14 PSI CONF software Device selection 105820 en_00 PHOENIX CONTACT 85 PSI WL RS232 RS485 BT 2DO e Select Configuration Mode Local configuration PSI CONF 2 13 Sees File Language Extras Device Selection Configuration Mode Please choose the configuration mode Online Local Online Remote Configure a local connected device Local configuration Configure a remote device via the local device Remote configuration Create or edit a configuration file Configuration file Figure A 15 PSI CONF software Local configuration 86 PHOENIX CONTACT 105820 en 00 Configuring a PROFIBUS connection Follow the installation instructions and confirm with Next Select the With PSI WL BT option in the Multipoint Wizard B Online Mode PSI CONF 2 13 3 File Language Extras 2 Device Selection Configuration Connection Mode Which configuration would you like to realize Point to Point Wizard Online Remote Offline In
65. on is now complete Confirm with Finish e gt the software File Exit and follow the instructions 105820 en 00 PHOENIX CONTACT 89 PSI WL RS232 RS485 BT 2DO 90 PHOENIX CONTACT A 2 3 Connecting the PROFIBUS cable e Connect the PROFIBUS cable to both Bluetooth converters Negative data wire green to terminal D A Positive data wire red to terminal D B e Activate bus termination if the Bluetooth converter is located at the start or the end of the electrical PROFIBUS segment Set the slide switch to the ON position see Acti vating the termination network on page 20 A 2 4 Configuring the PROFIBUS master e Adjust the timing in the PROFIBUS master to the signal runtime over the wireless path This setting is shown here using the SIMATIC Manager Version 5 x as an example The Bluetooth converters do not modify the PROFIBUS telegram transparent transmission Tunneling They only modify the PROFIBUS cycle time In the case of an optimum wire less connection the Bluetooth converters will cause a delay time of approximately 50 ms unidirectionally approximately 25 ms If the Bluetooth converter is connected in series with other components that also cause a delay time the delay times must be added together Remember to take into account long cables repeaters fiber optics other wireless components etc The additional delay time may be increased in the event of a poor wireless connectio
66. ot available C 1 gt Service name available D Name of the service found The name of the service found is displayed Feedback for Dial up networking profile ARSS N OK ARSRDUN A 8B C D E F N Number of services found A Bluetooth address The Bluetooth address of the opposite station is displayed B RFCOMM server channel Number of the RFCOMM server channel on which the service was found value range 1 30 PHOENIX CONTACT 63 PSI WL RS232 RS485 BT 2DO 64 PHOENIX CONTACT Service name available C 0 gt Service name not available and D is invalid Cz 1 gt Service name available and D is valid Name of the service found The name of the service found is displayed Information about audio feedback available 0 gt Information about audio feedback is not available and is invalid E 1 gt Information about audio feedback is available and F is valid Audio feedback il The Audio feedback function is not supported by the Bluetooth con verter Feedback for LAN access profile ARSS N OK ARSRLAN A B 0 G H LJ K L Number of services found A Bluetooth address The Bluetooth address of the opposite station is displayed B RFCOMM server channel Number of the RFCOMM server channel on which the service was found value range 1 30 Service name available C 0 gt Service name not available and D is invalid 1 gt Service name avail
67. pe string Entry of AT without a subsequent command line is confirmed by the Bluetooth converter with OK If you attempt to execute a command line that is unknown or does not start with AT an ERROR message is generated except for the Escape string AT Command list The AT command is used to display a list of supported AT commands E Echo The Bluetooth converter is set by default to display commands on the PC screen in com mand mode echo This feature can only be used if your PC is configured for full duplex mode Most systems operate in full duplex mode In this case you can activate the echo function using the E1 command If you are working in half duplex mode disable the echo function with the EO command 52 Escape string This command specifies the ASCII value of the Escape character Default setting 43 This value corresponds to ASCII character Example ATS2 43 Z Dummy command The ATZ command has no function However it is used by some controllers to determine whether a modem is connected to the interface Therefore the Bluetooth converter re sponds to an ATZ with Factory configuration The AT amp F command restores the factory settings The factory settings can be modified using the AT AMSF command 105820_en_00 PHOENIX CONTACT 55 PSI WL RS232 RS485 BT 2DO 9 2 Connection commands AGDM Detection mode The AGDM command permits or prohibits other Bluetooth devices from
68. r a server Z 1 gt The Bluetooth converter becomes the client Feedback AT ADCP K K Connection ID ID of the current connection This ID is required to interrupt the connection using the ADCC command Interrupt the serial data connection The ADCC command interrupts a serial data connection to the partner AT ADCC K K Connection ID The ID of the connection to be interrupted This ID was displayed when the con nection was established If there is only one connection this is displayed as 1 PHOENIX CONTACT 65 PSI WL RS232 RS485 BT 2DO ADDCP Standard client profile The ADDCP command specifies the standard client profile of the Bluetooth converter Request The standard client profile is displayed 0 x Serial port profile 1 x Dial up networking profile 2 LAN access profile 255 x profile x 0 gt The setting is only valid until the next voltage interrupt x 1 gt The setting is stored Example AT ADDCP 0 1 The serial port profile is set and stored as the standard client profile ADDSP Standard server profile The ADDSP command specifies the standard server profile of the Bluetooth converter Request The standard client profile is displayed 0 x Serial port profile 1 x Dial up networking profile 2 LAN access profile 255 x profile x 0 gt The setting is only valid until the next voltage interrupt x 1 gt The setting is stored Example
69. r and stored Individual device class COD The AGLC command is used to read and specify the device class of the Bluetooth con verter Request The individual device class COD Code of Device is requested C Specify device class x 0 gt The setting is only valid until the next voltage interrupt x 1 2 The setting is stored Read client server role The AGGMSR command reads the client server role of the partner Example AT AGGMSR 0080371DA128 The partner has the address 0080371DA128 Feedback AGGMSR x 0 The partner is a server X21 The partner is a client Specify the client server role The AGCMSR command specifies the client server role of the partner Example AT AGCMSR 0080371DA128 x The partner has the address 0080371DA128 0 The partner is a server 1 The partner is a client PHOENIX CONTACT 61 PSI WL RS232 RS485 BT 2DO AGMSP AGRSS 62 Client server method The AGMSP command specifies the individual client server method of the Bluetooth con verter Request The current client server method is displayed 1 x Partner may choose The partner may decide whether it would like to be a client or a server Client Your device always attempts to be a client partner always a Server x 0 gt The setting is only valid until the next voltage interrupt 1 2 The setting is stored Example AT AGMSP 1 1 The partner may choose method is set and stored S
70. rdous locations only B Conductor temperature rating must be 65 C or higher Product must be installed in Class Zone 2 certified and least 54 enclosure D Product must be used in no more than a pollution degree 2 environment as defined by IEC 60664 1 Provisions must be made to provide transient protection to the product so that vol tage levels do not exceed 40 of the rated voltage at the power supply terminals F The product has to be installed in an enclosure with tool removable cover or door Ambient temperature 20 C 60 C 24 lt 100 mA 24 VDC lt 170 mA Wire Range 30 12 AWG Torque 5 7 Lbs Ins 14 PHOENIX CONTACT 105820 en 00 Product description 3 Product description 105820_en_00 The PSI WL RS232 RS485 BT 2DO PSI Bluetooth converter provides a quick and easy wireless connection between serial interfaces of the RS 232 RS 422 and RS 485 2 wire standard Data connections can be established to third party devices or the PSI WL PLUG RS232 BT Bluetooth RS 232 adapter Programming or diagnostic access to controllers or a wireless master slave network can easily be implemented in fieldbus systems regardless of the location The PSI Bluetooth converter has been specially designed to meet the requirements of in dustrial environments and supports operation without software drivers thanks to its fully in tegrated protocol stacks The wireless connection can extend up to 150 met
71. rop If the multi drop function of the master is deactivated it is only possible to connect to one slave Request The multi drop function is displayed a Multi drop active az0 Multi drop deactivated 1 gt activated b Forwarding b 0 gt The data received by a master is only forwarded to the serial interface bz1 The data received by a master is forwarded to all other connected slaves and to the serial interface The Forwarding function is not supported by the Bluetooth converter x 0 gt The setting is only valid until the next voltage interrupt 1 gt The setting is stored AT ADWMw a D x Example AT 7ADWM 1 0 1 Multi drop is activated and the data received by a master is only forwarded to the serial in terface This setting is stored Request ATTADWM Feedback ADWM a 6 9 5 Information commands Bluetooth address The AILBA command requests the individual local Bluetooth address of the Bluetooth con verter Request The individual local Bluetooth address is displayed PHOENIX CONTACT 69 PSI WL RS232 RS485 BT 2DO AMRS 70 PHOENIX CONTACT 9 6 Interface commands RS 232 settings The AMRS command sets the parameters of your RS 232 interface These settings are also used for the RS 485 and RS 422 interfaces Request The interface parameters are displayed Transmission speed Standard 2 gt 1200 bps
72. s Tum on cyclic distribution of the bus parameters Tslot_Init f 13000 Tslot 13000 t bit Max Tsdr 604 t bit Tid2 t bit Min Tsdr Trdy 11 t bit Tset 7 t bit Taui 0 t bit Ttr 221551 t bit 1181 6 ms Gap Factor 10 EI Ttr typically 26571 t bit z 141 7 ms Retry limit 5 Watchdog 635584 t bit 3389 8 ms Figure A 25 Bus Parameters tab e Recalculating the bus parameters also modifies the response monitoring watchdog value Enter 187500 t_bit here to achieve a response monitoring watchdog time of 1 second for the PROFIBUS slave Confirm with Gap Factor 10 Ttr typically 26571 t bit z 141 7 ms Retry limit 5 Watchdog Recalculate Cancel Help Figure A 26 Bus Parameters tab watchdog e Go back to the NetPro view Save and compile the changes e Transfer all settings to the PROFIBUS master e Test whether the PROFIBUS devices are available the wireless path Evaluating PROFIBUS errors If the wireless connection is interrupted for a longer period a PROFIBUS error is triggered This may stop the CPU or the PLC If you set up the OB86 in STEP7 and program the han dling of PROFIBUS errors in it you can bypass the stop state In addition the errors can be evaluated in this way 94 PHOENIX CONTACT 105820 en_00 Configuring a PROFIBUS connection Green fields data rate possible Redfields
73. s path dB 100 20 x log d f transmission frequency in MHz d distance between the antennas in km The free space path loss is later included in the system calculation see Section Equivalent isotropically radiated power EIRP on page 47 105820_en_00 105820_en_00 Planning wireless systems 7 7 Propagation of radio waves In addition to the free space path loss there are other factors which influence the wireless path Dispersion diffraction and reflection represent types of interference that occur when the wireless signal encounters obstacles They result in multipath propagation Dispersion The dispersion of the wireless signal e g at a tree means that the wireless signal is dis persed in several directions A tree without any leaves virtually allows all signals to com pletely pass through whereas a tree with foliage results considerable degree of disper sion The leaf surfaces disperse the wireless signal in many different directions Figure 7 2 Dispersion on a rough surface Diffraction Diffraction of the wireless signal on edges and obstacles involves the signal being re fracted around the edge The signal then changes its direction This is similar to the refrac tion of light in a crystal Figure 7 3 Diffraction on an edge PHOENIX CONTACT 41 PSI WL RS232 RS485 BT 2DO 42 PHOENIX CONTACT Reflection Reflection on a smooth metal surface involves virtually the entire wire
74. same applies to any technical changes that serve the purpose of technical progress The receipt of technical documentation in particular user documentation does not consti tute any further duty on the part of Phoenix Contact to furnish information on modifications to products and or technical documentation You are responsible to verify the suitability and intended use of the products in your specific application in particular with regard to observ ing the applicable standards and regulations All information made available in the technical data is supplied without any accompanying guarantee whether expressly mentioned im plied or tacitly assumed In general the provisions of the current standard Terms and Conditions of Phoenix Contact apply exclusively in particular as concerns any warranty liability This manual including all illustrations contained herein is copyright protected Any changes to the contents or the publication of extracts of this document is prohibited Phoenix Contact reserves the right to register its own intellectual property rights for the product identifications of Phoenix Contact products that are used here Registration of such intellectual property rights by third parties is prohibited Other product identifications may be afforded legal protection even where they may not be indicated as such Table of contents RE UT MER cod ete UA EK 13 2 1
75. served e Installation should be carried out as described in the installation notes Access to cir cuits within the device is not permitted e The device is maintenance free Repairs may only be carried out by the manufacturer e The device is only intended for operation in the control cabinet and with SELV accord ing to IEC 60950 EN 60950 VDE 0805 The device may only be connected to devices which meet the requirements of EN 60950 2 1 Intended use This device is licensed for operation with a maximum transmission power of 100 mW 20 dBm in the following countries Austria Belarus Belgium Bulgaria Cyprus Czech Republic Denmark Estonia Finland France Germany Great Britain Greece Hungary Iceland Italy Ireland Latvia Liechten stein Lithuania Luxembourg Malta the Netherlands Norway Poland Portugal Roma nia Sweden Slovakia Slovenia Spain Switzerland Turkey approvals for other countries available on request This device complies with R amp TTE device class 2 with the following restrictions on use ac cording to ERC recommendation 70 03 April 2004 Belarus Maximum transmission power outside buildings of 25 mW 14 dBm Norway The device must not be operated within 20 km of the Ny Alesund town center Turkey The device must only be operated with Phoenix Contact antennas see Wireless accessories data sheet document no 101580 according to the Short Range Radio Devices SRD Regulations
76. smission length Data flow control protocols Pin assignment D SUB 9 connector Serial asynchronous UART NRZ 8 data 1 2 stop 1 parity 10 11 bit character length 1 2 2 4 4 8 7 2 9 6 19 2 31 25 38 4 57 6 75 93 75 115 2 kbps 15m Software handshake Xon Xoff hardware handshake RTS CTS 3964R compatible DCE Data Communication Equipment A The RS 232 interface and the USB interface cannot be used simultaneously 8 PHOENIX CONTACT 105820_en_00 Technical data RS 422 interface according to ITU T V 11 EIA TIA 422 DIN 66348 1 Connection method Data format coding Termination resistor Serial transmission speed Transmission length Data flow control protocols Plug in screw connection Serial asynchronous UART NRZ 8 data 1 2 stop 1 parity 10 11 bit character length 390 180 390 can be configured 1 2 2 4 4 8 7 2 9 6 19 2 31 25 38 4 57 6 75 93 75 115 2 136 187 5 kbps lt 1200 Automatic control RS 485 interface according to EIA TIA 485 DIN 66259 4 RS 485 2 wire Connection method Data format coding Termination resistor Serial transmission speed Transmission length Data flow control protocols USB 2 0 Connection method Wireless interface Interface description Frequency range Antenna Connection method Channel distance Bandwidth Number of channels Transmission method Minimum transmission power Maximum transmission power
77. t Signal Remark EN 61000 4 6 Voltage Remark Noise emission according to EN 61000 6 4 Emission Criterion A Criterion B R amp TTE directive 1999 5 EC 6 kV 8kV Criterion B 80 MHz GHz 10 V m Criterion A 2 kV 2 Criterion 2 1kV Criterion B 10V Criterion A EN 55022 Normal operating behavior within the specified limits Temporary impairment to operating behavior that is corrected by the device itself EMC immunity to interference electromagnetic compatibility of wireless sys EN 61000 6 2 tems Safety protection of personnel with regard to electrical safety Health limitation of exposure of the population to electromagnetic fields Wireless communication effective use of the frequency spectrum and pre vention of wireless communication interference 105820 en 00 EN 60950 1 Gazette of the European Communi ties 1999 519 EC ETSI EN 300328 V1 4 1 V1 2 1 Technical data Generic standard for the industrial sector Recommendation of the Council of the European Community from July 12 1999 PHOENIX CONTACT 11 PSI WL RS232 RS485 BT 2DO 12 PHOENIX CONTACT 105820 en 00 For your safety 2 For your safety 105820_en_00 A WARNING Observe the following safety notes when using the device Only qualified specialist personnel may install start up and operate the device Nation al safety and accident prevention regulations must be ob
78. to multipoint network for PROFIBUS transmission proceed as follows e Download the latest PSI CONF software from the Internet at phoenixcontact net products e install the software on your computer e Prior to configuration set the CONF RUN slide switch to the CONF position see Set ting configuration mode on page 21 For configuration the following is required Serial programming cable PSM KA9SUB9 BB 2METER Order No 2799474 USB cable PSI CA USB A MINI B 1METER Order No 2313575 A 2 1 Configuring a point to point connection e Start the PSI CONF software PSI CONF Configuration Software Copyright 2010 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany For the latest software version and updates visit www phoenixcontact com dq Ove 4 Figure 6 PSI CONF software 105820 en 00 PHOENIX CONTACT 79 PSI WL RS232 RS485 BT 2DO e Inthe Wireless folder select the device B PSI CONF 2 13 8 3 Extras File Language Device Selection Welcome Please select the device to be configured DeviceNet Modem Wireless 2313805 270851 7 2313795 2313559 2901540 FL COMSERVER WL PSl WL RS232 RS485 BT RAD S00 IFS TRUSTE WIRELESS 2901541 RAD 2400 IFS Figure A 7 PSI CONF software Device selection Select Configuration Mode Local configuration D PSI CONF 2 13 BEES File Language Extras Devi
79. ts 5 pos Header nominal current 8 A product with gold plated contacts bus connectors for connecting with electronic hous ings DIN rail connector for DIN rail mounting Universal for T BUS housing ME 22 5 TBUS 1 5 5 ST 3 81 GN 2707437 50 Gold plated contacts 5 pos Header nominal current 8 A pitch 3 81 mm product with gold plated contacts bus connectors for connecting with electronic housings DIN rail power supply unit primary switched slim design MINI SYS PS 100 240AC 24DC 1 5 2866983 1 output 24 V DC 1 5 A Omnidirectional antenna 2 4 GHz 2 dBi linear vertical 1 5 m cable RAD ISM 2400 ANT OMNI 2 1 2867461 1 MCX male IP65 degree of protection 50 O impedance Bluetooth USB adapter for direct installation on USB type A ports and wire PSI WL PLUG USB BT 2313083 1 less transmission from USB interfaces Omnidirectional antenna with protection against vandalism 2 4 GHz dBi RAD ISM 2400 ANT VAN 3 1 MCX 2885702 1 gain IP55 protection 1 5 m cable length MCX male connection h v 360 85 apex angle Appropriate mounting material is available for wall mounting Omnidirectional antenna 2 4 GHz 6 dBi linear vertical female IP55 RAD ISM 2400 ANT OMNI 6 0 2885919 1 50 impedance Omnidirectional antenna 2 4 GHz 6 dBi linear vertical h v 360 20 apex RAD 2400 ANT OMNI 6 0 SW 2903219 1 angle N female IP65 salt water resistant Panel antenna 2 4 5GHz 9 dBi linear vertical N female IP6
80. tware Multipoint with PSI WL BT step 8 89 SIMATIC Manage b 91 io oo TET 91 Network Settings tab transmission speed 92 Dables tab sine ii bia wi 92 Network Settings tab profile 93 Bus Parameters taD evel said a d e acter 94 Bus Parameters tab watchdog 94 105820 en 00 105820_en_00 B2 Table 4 1 Table 4 2 Table 5 1 Table 6 1 Table 6 2 Table 6 3 Table 7 1 Table 7 2 Table 7 3 Table 7 4 Table 7 5 Table 7 6 Table 7 7 Table 7 8 Table A 1 List of tables Slide switch for termination network 20 slide SWITC A itus hee t Eun at 21 E 29 Without termination device addressing RS 232 RS 422 etc 33 With termination device addressing RS 485 2 wire 34 eno nee 34 Antenna selection AM AM 36 38 Attenuation of a CessorjeS ei sette ide ipee anes 38 Qal c 39 Free space loss 40 Attenuation with regard to different 5 42 Radius of the Fresnel zone depending on the distance 45 Ranges for different 5 46 Theoretical delay times P
81. uetooth Wireless path length 150 m Device transmission power antenna gain cable attenuation EIRP lt 20 dBm 20 dBm must not be exceeded for legal reasons adapt the cable adapter or transmis sion power if required EIRP dBm transmitter power dBm gain of transmitting antennas dBi losses of the transmitter cable dB Incoming power for the receiver dBm transmitter power dBm losses of the transmitter cable dB gain of the transmitting antenna dBi free space path loss dB gain of the receiving antenna dBi attenuation of the antenna cable at the receiver dBm System reserve receiver sensitivity dBm incoming power for the receiver dBm recommended system reserve gt 10 dB EIRP 19 15 dBm Free space path loss dB 32 4 20 log f MHz 20 log R km 32 4 20 log 2400 20 log 0 2 83 5 dB Incoming power for the receiver 67 7 dBm Receiver sensitivity 91 dB System reserve 91 dB 67 7 dB 23 3 dB 105820_en_00 105820_en_00 Planning wireless systems 7 12 Practical examples It is not possible to provide basic calculation principles for obstacles in the wireless path as the obstacles and applications will vary too much The practical examples given below are for guidance only and cannot be directly transferred to other applications Bushes The bush illustrated below is two meters wide and has an attenuation of approximately 15 dB
82. valid until the next voltage interrupt 1 gt The setting is stored AT ACCBza x Example AT ACCB 1 1 Permission for configuration via Bluetooth is granted and stored AMPM Energy saving mode The AMPM command enables energy saving mode Request Energy saving mode is displayed a Mode 1 gt energy saving mode 2 gt Energy saving mode Sleep activated 3 gt Energy saving mode Sleep and Stop activated x 0 gt setting is only valid until the next voltage interrupt 1 gt The setting is stored AT AMAP a x Example AT AMSIT 1 1 Energy saving mode is disabled and this setting is stored AMMP Transmission power The AMMP command specifies the maximum transmission power Request The maximum transmission power is displayed a Transmission power Value range 98 158 128 gt 0 dBm x 0 gt The setting is only valid until the next voltage interrupt 1 gt The setting is stored AT AMMPza x Example AT AMSIT 738 1 The maximum transmission power is limited to 10 dBm and stored 105820 en 00 PHOENIX CONTACT 73 PSI WL RS232 RS485 BT 2DO AMET AMSF 74 PHOENIX CONTACT Escape string waiting time The AMET command specifies the waiting time before and after the Escape string To en sure that the Escape string default entry for switching to command mode is valid a data pause must be observed before and a
83. ve the same password Unpairing The AGUB command unpairs the Bluetooth converter from the partner Example AT AGUB 0080371DA128 The partner has the address 0080371DA128 Requesting the paired devices The AGBD command reads the list of paired Bluetooth partners from the Bluetooth con verter Example AT AGBD Feedback AGBD a OK y Z Number of paired Bluetooth devices Bluetooth address 0 gt Device name not available y 1 gt Device name available 7 Device name Password The AGFP command is used to read and write the password of your Bluetooth converter Request The current password is requested PW x Write password PW must not exceed 16 characters x 0 gt The setting is only valid until the next voltage interrupt x 1 gt The setting is stored Example AT AGFP 4711 1 Password 4711 is written to the Bluetooth converter and stored 105820_en_00 AGLN AGLC AGGMSR AGCMSR 105820_en_00 AT commands Individual name The AGLN command is used to read and write the name of the Bluetooth converter Request The current Bluetooth name is requested Write name N must not exceed 240 characters umlauts are not permitted x 0 gt The setting is only valid until the next voltage interrupt x 1 2 The setting is stored Example AT AGLN Packaging machine 1 The name Packaging machine is written to the Bluetooth converte
84. vice use a common shielded twisted pair bus line Activate the termination resistors at the two furthest ends of the bus see Activating the termination network on page 20 e Connect the single wires of the data cable to the COMBICON plug in screw terminal block Make sure the signal assignment is correct Figure 5 7 RS 485 interface il In a connection station D A and D B are output in parallel the DIN rail connectors PHOENIX CONTACT 105820_en_00 105820_en_00 Installation and configuration 5 6 Antenna connection The device is equipped with an MCX socket for connecting an external antenna A wide se lection of antennas and antenna cables can be found in Section Typical combinations of antennas and adapter cables on page 75 Please also observe the notes under Installing antennas on page 37 when installing the antenna 5 7 Diagnostics and status indicators A 3 stage LED bar graph displays the wireless reception quality during operation Figure 5 8 Diagnostics indicators during normal operation Table 5 1 Bar graph Bar LEDs Receive signal graph All LEDs light up Wireless signal very good Yellow LED and 1 Wireless signal good LED light up Yellow LED lights up Wireless signal available 29 PSI WL RS232 RS485 BT 2DO 5 8 Digital diagnostics outputs Note for the PSI WL RS232 RS485 BT
85. ween a third party de vice with integrated Bluetooth inter face PDA or cell phone and an indus trial controller 7065B006 PLC and operator interface Connection between a mobile opera tor interface and an industrial control ler No other PROFIBUS devices must be connected to the local PROFIBUS master 7065B007 105820 en 00 PHOENIX CONTACT 33 PSI WL RS232 RS485 BT 2DO Table 6 2 With termination device addressing RS 485 2 wire cee 722222000 RS 485 2 wire bus system Integration of a bus device into an ex isting bus system e g Modbus or PROFIBUS Maximum PROFIBUS data rate 187 5 kbps PROFIBUS parameters see Section Configuring a PROFIBUS connec tion on page 79 7065B009 Table 6 3 Multi drop connection 1 Bluetooth master Networking of automation compo up to 7 Bluetooth slaves nents Up to seven Bluetooth slaves can be connected to a Bluetooth mas ter Multi master systems are not permit ted 7065B008 34 PHOENIX CONTACT 105820 en 00 Planning wireless systems 7 Planning wireless systems 7 1 Planning wireless paths When planning wireless paths over large distances you need to consider elevation varia tions A topographic map or a GPS device are very helpful in this regard Using GPS de vices you can indicate variations in elevation
86. yperTerminal The characters are echoed back to the terminal program Note for Windows 7 users HyperTerminal is no longer available in Windows 7 Instead you can use any other termi nal program To carry out a loopback test proceed as follows e Close all programs on your PC including the PSI CONF software Connect the PC to the master Bluetooth converter and start HyperTerminal via Start All Programs Accessories Communication HyperTerminal The COM port settings on the PC must correspond to the interface settings on the master Bluetooth converter Insertaloopback test connector onto the RS 232 interface of the slave Bluetooth con verter RS 232 986 Figure 8 1 Loopback test RS 232 interface 105820_en_00 PHOENIX CONTACT 51 PSI WL RS232 RS485 BT 2DO 52 PHOENIX CONTACT Connect both Bluetooth converters to the power supply Check the wireless connection via the LED bar graph Enter several characters of your choice HyperTerminal transmits these characters over the wireless path On the slave side the characters are output and immediately read again using the bridge This returns the already transmitted characters and they appear twice on the HyperTerminal screen screen remains blank if the check was not successful Monitor the TX RX LEDs on every Bluetooth converter You can thereby determine the point up to which data has been transmitted In

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