2736767

FLM BT DIO 8/8 M12 Fieldline Modular Bluetooth Input and Output Device Data Sheet 7293_en_01 © PHOENIX CONTACT - 08/2007 Description s. Bluetooth 1.2, HID profile Frequency range 2.402 GHz to 2.480 GHz, ISM band Features of the Fieldline Modular Bluetooth I/O Device – Connections for eight digital sensors and eight digital actuators using M12 connectors Connection of power supply using M12 connectors Connections with SPEEDCON rapid interlock system Outputs each with a load capacity of 500 mA (nominal current) IP65 protection ne The Bluetooth device uses wireless transmission to send eight digital input signals and eight digital output signals to the relevant Bluetooth base station. – – nt The Fieldline Modular Bluetooth I/O device (FLM BT DIO 8/8 M12) is used to acquire and output digital signals. co Bluetooth Features m AUTOMATIONWORX – – on l in ec om po – – This data sheet is only valid in association with the FLS FLM SYS INST UM E user manual and the Fieldline user manual for your bus system (see "Ordering Data" on page 2). Please note the maximum permissible transmission power for the country of use. Make sure you always use the latest documentation. It can be downloaded at www.download.phoenixcontact.com. A conversion table is available on the Internet at www.download.phoenixcontact.com/general/7000_en_00.pdf. This data sheet is valid for the products listed on the following page: FLM BT DIO 8/8 M12 Ordering Data Type Order No. Pcs./Pkt. Fieldline Modular Bluetooth input and outputdevice FLM BT DIO 8/8 M12 2736767 1 Base Stations Description Type Order No. Pcs./Pkt. Fieldline Modular Bluetooth base station FLM BT BS3 M12 2736770 1 Factory Line Bluetooth base station FL MT MOD IO AP 2884758 1 Accessories Description Type Order No. Pcs./Pkt. Protective caps (for unused female connectors) IBS IP PROT-IO Protective caps (for unused connectors) PROT-M12-M Markers ZBF 12:UNBEDRUCKT m Wireless I/O Products Description 5 2736194 5 0809735 10 co 2759919 s. Additional accessories for connecting the sensors and actuators can be found in the Phoenix Contact PLUSCON catalog. Type Antenna cable, SMA male connectors at both ends, 3 m RAD-CAB-EF142-3M 2884512 1 Antenna cable, SMA male connectors at both ends, 5 m RAD-CAB-EF142-5M 2884525 1 RAD-ADP-SMA/F-SMA/F 2884541 1 Pcs./Pkt. ne nt Antenna Accessories Description Antenna feed-through, SMA female connectors at both ends po Additional antenna accessories on request. Documentation Description Order No. Pcs./Pkt. Order No. FLS FLM SYS INST UM E 2698834 1 "Configuring an INTERBUS System Using Devices in the Fieldline Product Range" user manual FLS FLM IB SYS PRO UM E 2699024 1 "Configuring a PROFIBUS-DP System Using Devices in the Fieldline Product Range" user manual FLS FLM PB SYS PRO UM E 2699037 1 "Configuring a DeviceNetTM System Using Devices in the Fieldline Product Range" user manual FLS FLM DN SYS PRO UM E 2699040 1 "Configuring a CANopen System Using Devices of the Fieldline Product Range" user manual FLS FLM CO SYS PRO UM E 2699053 1 on l in ec om Type "Installation of Devices in the Fieldline Product Range" user manual 7293_en_01 PHOENIX CONTACT 2 FLM BT DIO 8/8 M12 Technical Data Dimensions 1 6 8 m m 6 8 m m ID 7 0 m m - 1 7 8 m m General Data 70 mm x 178 mm x 68 mm Weight 310 g, approximately co Housing dimensions (width x height x depth) 2, 3 or 4-wire technology Connection method for actuators 2 or 3-wire technology s. Connection method for sensors -25°C to +60°C Permissible temperature (storage/transport) -25°C to +85°C Permissible humidity (storage/transport) 95% ne For a short period, slight condensation may appear on the housing. 80 kPa to 106 kPa (up to 2000 m above sea level) po Permissible air pressure (operation) Permissible air pressure (storage/transport) 70 kPa to 106 kPa (up to 3000 m above sea level) Degree of protection IP65 according to IEC 60529 om Class of protection Bluetooth Interface Frequency range Channel distance Modulation on l Number of channels in ec Physical interface Protocol chip nt Permissible temperature (operation) Profile m 7 2 9 3 A 0 0 2 Maximum transmission power at antenna connection Class 3 according to VDE 0106, IEC 60536 Bluetooth 1.2 Modified HID profile (Human Interface Device) BlueCore3 multimedia 2.402 GHz ... 2.480 GHz 1 MHz 79 GFSK (Gaussian Frequency Shift Keying) 8 dBm (6.3 mW) Receiver sensitivity -88 dBm Antenna connection SMA Antenna λ/4 omni antenna Antenna gain 0 dBi Range 20 m to 50 m, approximately, in industrial halls The range depends on the ambient conditions. Wherever possible, there should be a line of sight between the devices. 7293_en_01 PHOENIX CONTACT 3 FLM BT DIO 8/8 M12 Mechanical Requirements Vibration test; sinusoidal vibrations according to EN 60068-2-6 5g load in each space direction Shock test according to EN 60068-2-27 30g load, half sinusoidal wave positive and negative in each space direction For additional information on mechanical requirements and ambient conditions, please contact Phoenix Contact. Nominal value 24 V DC Tolerance ± 25% Current consumption at UL at 24 V DC 30 mA Current consumption at US at 24 V DC 10 mA + sensor supply Current consumption at UA at 24 V DC 2 mA + digital outputs co Digital Inputs m Power Supply 8 Input design According to IEC 61131-2 Type 1 Definition of switching thresholds ULmax < 5 V Minimum high-level voltage UHmin > 11 V nt Maximum low-level voltage s. Number 24 V DC Range -30 V DC < UIN < +30 V DC ne Nominal input voltage Nominal input current 5 mA Linear in the range 2 V < UIN < 30 V Current flow ton = 50 µs, typical toff = 650 µs, typical < 100 m Permissible cable length to the sensor Typical Input Current (mA) 0 0.4 in ec 3 om Input Characteristic Curve Input Voltage (V) -30 < UIN < 0.7 po Delay time 0.8 9 1.4 12 2.1 15 2.9 18 3.6 21 4.3 24 5.1 27 5.8 30 6.6 on l 6 Sensor Supply Minimum sensor voltage US – 1 V Nominal current per channel 60 mA, typical Nominal current per device 500 mA, maximum Overload protection Electronic per device Short-circuit protection Electronic per device Digital Outputs Number 8 Nominal output voltage UOUT UA – 1 V Differential voltage at Inom ≤1V 7293_en_01 PHOENIX CONTACT 4 FLM BT DIO 8/8 M12 Digital Outputs (Continued) Nominal current Inom per channel 500 mA Total current 4A Overload protection Electronic per channel Short-circuit protection Electronic per channel Single chip structure, i.e., all channels are thermally coupled. An error in one channel can affect the other channels. The outputs have separate overload protection. Nominal load per channel 48 Ω/12 W Inductive 12 VA (1.2 H, 48 Ω) Lamp 12 W m Ohmic co The behavior of the output voltage depends on the switched load. s. The switching frequency is limited by the number of bus devices, the bus configuration, the software used, and the control or computer system used. 0.5 Hz (1.2 Hz, 50 Ω), maximum Overload response Auto restart nt Switching frequency with nominal inductive load Output may be damaged ne Response with inductive overload Reverse voltage protection against short pulses Protected against reverse voltages Resistance to permanently applied reverse voltages Yes, maximum permissible current 2 A The output follows the supply voltage without delay. po Response upon power down Validity of output data after connecting the power supply (power up) Limitation of the voltage induced on circuit interruption -41 V, approximately 1J om One-time unsolicited energy 1 ms, typical Protective circuit type Overcurrent shutdown 0.7 A, minimum 10 µA, maximum in ec Output current when switched off Integrated free-wheeling diode in the output chip When not loaded, a voltage can be measured even at an output that is not set. on l Typical Power Dissipation With 24 V Supply Voltage Formula to Calculate the Power Dissipation of the Electronics Where PEL IS n ILn m 7293_en_01 8 8 n=0 m=0 Total power dissipation of the module Current from the sensor supply Index of the number of set outputs (n = 0 to 8) Load current of output n Index of the number of set inputs (m = 0 to 8) PHOENIX CONTACT 5 FLM BT DIO 8/8 M12 Simultaneity, Derating No limitation of simultaneity Output Derating Ambient Temperature (TA) Total Current (Itot) -25°C to +50°C 4A +50°C to +60°C 4 A - ((TA - 50°C) x 0.08 A/°C) A 4 t 3 .2 0 m I to 0 5 0 T co -2 5 7 2 0 2 A 0 1 1 Yes Sensor supply overload Yes Yes Overload of outputs Yes ne Short circuit of outputs A nt Sensor supply short circuit ° C s. Error Messages to the Base Station 6 0 po If an error is triggered by an overload or short circuit of the sensor supply, the device switches off the sensor supply of all the channels and reports an I/O error message to the master. Interface om Radio interface Bluetooth in ec Electrical Isolation/Isolation of the Voltage Areas For device connection, please note the instructions and regulations in the "Installation of the Devices in the Fieldline Product Range" user manual FLS FLM SYS INST UM E (Order No. 2698834). Separate Potentials - Test Distance on l 24 V supply (UL) / FE - Test Voltage 500 V AC, 50 Hz, 1 min 24 V supply (UL) / digital inputs (sensor supply / I/O) 500 V AC, 50 Hz, 1 min 24 V supply (UL) / digital outputs (actuator supply) 500 V AC, 50 Hz, 1 min 24 V supply (UL) / ID-PLUG, antenna 500 V AC, 50 Hz, 1 min Digital inputs (sensor supply / I/O) / FE 500 V AC, 50 Hz, 1 min Digital inputs (sensor supply / I/O) / digital outputs (actuator supply) 500 V AC, 50 Hz, 1 min Digital inputs (sensor supply / I/O) / ID-PLUG, antenna 500 V AC, 50 Hz, 1 min Digital outputs (actuator supply) / FE 500 V AC, 50 Hz, 1 min Digital outputs (actuator supply) / ID-PLUG, antenna 500 V AC, 50 Hz, 1 min ID-PLUG, antenna / FE 500 V AC, 50 Hz, 1 min 7293_en_01 PHOENIX CONTACT 6 FLM BT DIO 8/8 M12 Usage Notes Connection Assignment The use of products described in this data sheet is oriented exclusively to qualified electricians or persons instructed by them, who are familiar with applicable national standards and relevant electrical regulations, in particular with the pertinent safety concepts. Phoenix Contact accepts no liability for erroneous handling or damage to products from Phoenix Contact or third-party products resulting from disregard of information contained in this data sheet. 1 ANT ID LINK QUALITY 2 4 U LS IN US E m co O1 O2 nt UA ne po om in ec on l This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operations. 7293_en_01 8 Figure 1 IN 6 I7 I8 O3 O4 s. 7 5 LS I3 I4 O5 O6 FCC ID: PVH071902 IC: 5325A-0719X OUT U I1 I2 6 This device meets the basic requirements and additional corresponding specifications of directive 1999/5/EU. This device contains: 3 UL I5 I6 The wireless system must only be operated in the following countries: Austria, Belgium, Canada, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Great Britain, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway (not including Spitzbergen), Poland, Portugal, Slovakia, Slovenia, Spain, Sweden, Switzerland, USA ID PLUG FS 7 O7 O8 UA11 EA11 UA OUT 9 BT DIO 8/8 7293A006 Connections of the FLM BT DIO 8/8 M12 No. 1 2 3 4 Desig. FE ANT ID-PLUG ULS IN 5 ULS OUT 6 7 8 I1 to I8 O1 to O8 UA IN 9 UA OUT Meaning Functional earth ground Antenna ID-PLUG interface Power supply IN (logic and sensors) with voltage ULS Power supply OUT (logic and sensors) for additional devices Inputs 1 through 8 Outputs 1 through 8 Power supply IN (outputs O1 to O8) with voltage UA11 Power supply OUT (outputs) for additional devices In general, the maximum current load of 4 A per contact must not be exceeded. PHOENIX CONTACT 7 FLM BT DIO 8/8 M12 Pin Assignment of the Power Supply ULS IN O U T Pin IN OUT 1 2 3 4 5 UL +24 V US GND UL GND US +24 V Not used UL +24 V US GND UL GND US +24 V Not used 6 9 7 2 A 0 0 6 Pin assignment of the power supply ULS m Figure 2 O U T Pin IN OUT UA11 +24 V UA11 GND UA11 GND UA11 +24 V Not used UA11 +24 V UA11 GND UA11 GND UA11 +24 V Not used Pin Female Input Connector Female Output Connector 1 2 3 4 5 US +24 V Input x+1 GND Input x FE GND Output x+1 GND Output x FE Pin assignment of the power supply UA of the outputs in ec om Pin Assignment of the Inputs and Outputs po Figure 3 6 6 2 5 A 0 0 6 Pin assignment of the inputs and outputs on l Figure 4 ne 6 9 7 2 B 0 0 7 nt 1 2 3 4 5 s. IN co Pin Assignment of the Power Supply UA of the Outputs 7293_en_01 PHOENIX CONTACT 8 FLM BT DIO 8/8 M12 Local Diagnostic and Status Indicators ANT FS LINK QUALITY LINK QUALITY Desig. ID (contd.) IDPLUG FS ID ID UL UL U LS IN US E OUT U LS I7 I8 m I5 I6 Attention Please observe Section "Delete and Reprogramming Function". UL O3 O4 O1 O2 Green LED ON: nt O1-O8 co I3 I4 s. I1 I2 I1-I8 OFF: O5 O6 O7 O8 UA11 UA11 EA11 UA ne UA US EA11 OUT IN BT DIO 8/8 po 7293A005 om Diagnostic and status indicators of the FLM BT DIO 8/8 M12 Meaning Quality of the Bluetooth connection (bit error rate, BER) BER 0% - 0.05% BER 0.05% - 0.1% on l in ec Desig. Color LINK 2 green/ QUALITY yellow LEDs Green/green: Green/ yellow: Green, OFF OFF/yellow: OFF/OFF: FS Red LED ON: ID Green/ yellow/red LED Green ON: Yellow ON: Red ON: OFF: 7293_en_01 Meaning ID-PLUG status (delete operation / Bluetooth network log-on) Ready for Bluetooth network log-on Ready for deleting/ programming the ID-PLUG E US Figure 5 Color Green/ yellow/red LED Green flashing Yellow flashing BER 0.1% - 1.7% BER > 1.7% No Bluetooth connection established Failsafe Inputs disabled Outputs set to "0" ID-PLUG status (normal operation) ID-PLUG was read successfully Reading ID-PLUG ID-PLUG cannot be read ID-PLUG not present E Green LED ON: OFF: Red LED ON: OFF: Yellow LED ON: OFF: O1 to O8 Yellow LED ON: OFF: Green LED UA11 I1 to I8 ON: EA11 OFF: Green LED ON: OFF: Communications power Communications power present Communications power not present Power supply for inputs IN1 to IN8 Power supply present Power supply too low Overload/short circuit of the power supply US Power supply overloaded Power supply not overloaded Status indicators of the inputs Input active Input not active Status indicators of the outputs Output active Output not active Power supply for OUT1 to OUT8 Power supply present Power supply too low Short circuit/overload at one of the outputs Short circuit/overload has occurred at one of the outputs No short circuit, no overload PHOENIX CONTACT 9 FLM BT DIO 8/8 M12 Circuit Diagram Bluetooth BC3/MM 24 V UL IN US IN UL OUT US OUT 2 2 co 8 2 s. 2 m 3,3 V 2 2 UA IN po UA OUT ne 2 nt 8 2 Circuit diagram for the FLM BT DIO 8/8 M12 in ec Figure 6 om 7293A003 Key: BC3-MM x x x X X X on l Functional earth ground Radio unit Power supply unit with electrical isolation Optocoupler LED Transistor 7293_en_01 PHOENIX CONTACT 10 FLM BT DIO 8/8 M12 Startup Using the Fieldline Modular Base Station • • Please observe the compatibility table. Plug in the programmed ID-PLUG before switching on the I/O device. • Switch on the supply voltage. The connection data is then read from the ID-PLUG. The ID-PLUG is programmed on the base station. For additional information, refer to the data sheet for the FLM BT BS 3. ne po om • In case the Factory Line base station is changed or replaced in the existing Bluetooth network, the IDPLUG must be reprogrammed for Bluetooth log-on. Remove the ID-PLUG from the I/O device and connect the power supply. The ID LED flashes yellow for approximately 10 seconds. Within this time plug in the ID-PLUG. The ID-PLUG is deleted and then reprogrammed. Green flashing of the ID LED indicates successful programming. The I/O devices is ready again for Bluetooth network log-on. on l Attention in ec • Switch on the power supply. Bluetooth log-on is then triggered. If the ID plugs have already been programmed, the connection data is read from the ID-PLUG. nt After connection establishment the ID-PLUG is programmed by the base station via the I/O device. For additional information, refer to the data sheet for the FL BT MOD IO AP. Delete and Reprogramming Function • co Please observe the compatibility table. Plug in the provided ID-PLUG before switching on the I/O device. s. • • m Startup Using the Factory Line Base Station In general: If the ID-PLUG is not plugged in the I/O device when connecting the power supply, the delete and reprogramming function starts for a short period. Plugging in the ID-PLUG within this period, deletes it and reprograms it for Bluetooth network log-on mode. Previous connection data is lost. 7293_en_01 PHOENIX CONTACT 11 FLM BT DIO 8/8 M12 Diagnostics Error Table With Diagnostic Data and Status Indicators Diagnostic Data None None None I/O error message I/O error message I/O error message None m Error Type Sensor supply US too low Sensor supply UL too low Sensor supply UA11 too low Short circuit/overload of a sensor supply Short circuit/overload of a digital output Wireless connection interrupted Inputs and outputs disabled (device in failsafe state) co Compatibility Table 01 / 1.20 / 1.10 Yes Yes 00 / 2.00 No 00 / 1.00 Yes 00 / 1.10 Yes 00 / 2.00 No 00 / 1.00 Yes 00 / 1.10 00 / 2.00 00 / 1.00 Yes No Yes, but limited functions and diagnostics of the I/O device in ec 01 / 1.30 / 2.00 po 01 / 1.10 / 1.10 00 / 1.00 00 / 1.10 om 00 / 1.10 / 1.10 Compatibility 00 / 1.10 Yes, but limited functions and diagnostics of the I/O device 00 / 2.00 Yes on l nt I/O Device FLM BT DIO 8/8 M12 Imprinted Revision HW / FW ne Base Station s. Fieldline Modular Bluetooth Base Station FLM BT BS3 M12 Imprinted Revision HW / FW / FW Status Indicator US LED is off UL LED is off UA11 LED is off E LED is red EA11 LED is red FS LED is red FS LED is red Factory Line Bluetooth Base Station Base Station I/O Device FL BT MOD IO AP Imprinted Revision HW / FW FLM BT DIO 8/8 M12 Imprinted Revision HW / FW 1.0 / 1.xx 00 / 1.00 7293_en_01 Compatibility No 00 / 1.10 No 00 / 2.00 Yes PHOENIX CONTACT 12 FLM BT DIO 8/8 M12 Typical connection of sensors and actuators IN8 OUT4 m IN7 +24 V O3 O4 OUT3 O1 O2 co I7 I8 s. IN6 I5 I6 72020007 nt Figure 7 OUT2 IN5 OUT1 +24 V Connection Example po Meet noise immunity requirements ne Connection Notes om Connect FE using a mounting screw or a cable connection to the FE connection latch (when mounting on a non-conductive surface). in ec Ensure degree of protection To ensure IP65 protection, cover unused female connectors with protective caps. on l Avoid damage to the electronics Only supply the sensors with voltage US provided at the terminal points. Avoid polarity reversal Avoid polarity reversal of the supply voltages UL, US, and UA in order to prevent damage to the device. Observe connection assignment When connecting the sensors and actuators, observe the assignment of the connection points to the IN and OUT process data. 7293_en_01 PHOENIX CONTACT 13 FLM BT DIO 8/8 M12 Process Data The process data for Fieldline Modular Bluetooth I/O devices is integrated into the process data for the base station. 2 1 0 4 3 2 1 0 10 9 8 6 5 nt Not used 7 co 11 OUT 1 12 s. 13 OUT 6 14 OUT 7 Assignment Bit 15 OUT 8 Assignment of the Connection Points to the OUT Process Data m 3 IN 1 4 IN 2 5 OUT 2 6 IN 3 Not used 7 OUT 3 8 IN 4 9 OUT 4 10 IN 5 11 OUT 5 12 IN 6 13 IN 7 14 Assignment Bit 15 IN 8 Assignment of the Connection Points to the IN Process Data on l in ec om po ne For the assignment of the illustrated (byte.bit) view to your INTERBUS control or computer system, please refer to the DB GB IBS SYS ADDRESS data sheet, Order No. 9001276. 7293_en_01 PHOENIX CONTACT 14 FLM BT DIO 8/8 M12 Antennas The aim of Phoenix Contact wireless transmission solutions is to provide users with the simplest possible access to the "wireless" transmission medium. This is why the complex area of antenna technology is restricted to a minimum. In order to set up reliable systems, some basic features of antenna technology need to be taken into consideration. Antenna Alignment Figure 8 Ideal antenna installation m During installation, please observe that there should be a line of sight between two antennas because each obstacle between them deteriorates the connection. nt s. co Furthermore, please observe that the Fresnel zone expands around the direct connecting line between the transmitting and receiving antennas. If this zone is affected by obstacles or the terrain, the wireless connection is deteriorated. Figure 9 Fresnel zone adversely affected by the terrain Figure 10 Fresnel zone adversely affected by obstacles Figure 11 Radius R of the Fresnel zone over distance D ne Figure 8 illustrates an ideal installation with undisturbed connection. po In Figure 9, the Fresnel zone is adversely affected by the terrain. Although there still is a line of sight between the lowin-height antenna masts, the Fresnel zone cannot be formed completely. om In Figure 10, the connection is attenuated by obstacles in the Fresnel zone, even though there is a line of sight. in ec The radius of the Fresnel zone depends on the transmission frequency and the distance between the transmitting and receiving antennas. on l The radius corresponds to the minimum height of the antenna mast (if the terrain is level). For a 2.4 GHz system, the mast height R/m, depending on the distance to be covered D/m, is given in the characteristic curve in Figure 11. Example (Figure 11): For a distance of 100 m, the antenna should be installed at a minimum height of 1.80 m to provide a clear Fresnel zone. 7293_en_01 PHOENIX CONTACT 15 FLM BT DIO 8/8 M12 on l in ec om po ne nt s. co m Declaration of Conformity © PHOENIX CONTACT 08/2007 7293_en_01 PHOENIX CONTACT 16