Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Alternating current wikipedia , lookup
Mains electricity wikipedia , lookup
Buck converter wikipedia , lookup
Switched-mode power supply wikipedia , lookup
Telecommunications engineering wikipedia , lookup
Power inverter wikipedia , lookup
Power over Ethernet wikipedia , lookup
Power electronics wikipedia , lookup
Solar micro-inverter wikipedia , lookup
Data logger for plant monitoring RADIUS LOGBASIC / PRO / PRO PLUS .... Operating Instructions Information about this manual This manual describes the RADIUS LOG, an advanced plant monitoring system, and the relative options. It includes instructions on assembly, wiring and commissioning and also provides detailed information about keypad and web-based configuration. General information Before using the product, read the safety instruction section carefully. Keep the manual in a safe place and available to engineering and installation personnel during the product functioning period. Gefran S.p.A has the right to modify products, data and dimensions without notice. The data can only be used for the product description and they can not be understood as legally stated properties. Thank you for choosing this Gefran product. We will be glad to receive any possible information which could help us improving this manual. The e-mail address is the following: [email protected]. All rights reserved 2 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Contents 1. Safety Instructions.................................................................................................................................5 1.1 Symbols used in the manual...........................................................................................................................5 1.2 Notes on using the Operating Instructions......................................................................................................6 1.3 Safety instructions..........................................................................................................................................6 1.3.1 Intended use..................................................................................................................................................................6 1.3.2 Safety instructions for operation....................................................................................................................................6 2. Transportation, Storage and Disposal.................................................................................................7 2.1 Transportation and storage.............................................................................................................................7 2.2 Disposal..........................................................................................................................................................7 3. Overview of the device..........................................................................................................................8 3.1 3.2 3.3 3.4 3.5 3.6 Front view.......................................................................................................................................................8 Rear view........................................................................................................................................................9 Assignment of connections.............................................................................................................................9 Default settings.............................................................................................................................................10 Buttons.......................................................................................................................................................... 11 Rating plate................................................................................................................................................... 11 4. Technical description, connections and bus communication.........................................................12 4.1 Status LEDs..................................................................................................................................................12 4.2 Connections..................................................................................................................................................13 4.2.1 Modem .......................................................................................................................................................................13 4.2.2 Ethernet.......................................................................................................................................................................14 4.2.3 Analog inputs...............................................................................................................................................................15 4.2.4 Digital inputs................................................................................................................................................................16 4.2.5 Digital output...............................................................................................................................................................16 4.2.6 24 V voltage input / 24 V voltage output......................................................................................................................16 4.2.7 Power supply...............................................................................................................................................................17 4.3 Monitoring system, fundamentals.................................................................................................................18 4.3.1 Bus communication.....................................................................................................................................................18 4.3.2 Cabling........................................................................................................................................................................18 4.3.3 Shield..........................................................................................................................................................................18 4.3.4 Repeaters....................................................................................................................................................................19 4.3.5 Termination (impedance matching).............................................................................................................................19 4.4 Connection diagram......................................................................................................................................20 4.4.1 Analog input: irradiance sensor...................................................................................................................................20 4.4.2 Digital input: energy meter..........................................................................................................................................20 4.4.3 Digital output: digital display........................................................................................................................................21 4.4.4 Digital output: signaling device....................................................................................................................................21 4.4.5 24 V voltage input / 24 V voltage output......................................................................................................................21 4.4.6 Power supply...............................................................................................................................................................22 4.5 Bus communication......................................................................................................................................23 4.6 Kit di connessione Radius Log ....................................................................................................................25 5. Installation............................................................................................................................................27 5.1 5.2 5.3 5.4 Safety instructions for installation.................................................................................................................27 Cables and wiring.........................................................................................................................................27 Summary of work steps................................................................................................................................28 Installing the RADIUS LOG..........................................................................................................................29 5.4.1 Installation on a top-hat rail.........................................................................................................................................29 5.4.2 Wall mounting using screws........................................................................................................................................29 5.5 Installing the SIM card (GSM / GPRS) ........................................................................................................30 6. Configuration.......................................................................................................................................31 6.1 Summary of work steps................................................................................................................................31 6.2 Establishing a connection to the RADIUS LOG............................................................................................31 6.2.1 Preconditions...............................................................................................................................................................31 6.2.2 Dial-up connection.......................................................................................................................................................32 6.2.3 Ethernet connection (LAN)..........................................................................................................................................33 7. Operation..............................................................................................................................................35 7.1 Menu structure on the device.......................................................................................................................36 7.1.1 Menu structure for RADIUS LOG-BASIC, RADIUS LOG-PRO...................................................................................36 7.1.2 Menu structure for RADIUS LOG-PRO PLUS.............................................................................................................37 7.2 Configuration via web browser.....................................................................................................................38 7.2.1 Browser requirements.................................................................................................................................................38 7.2.2 RADIUS LOG start screen..........................................................................................................................................38 7.2.3 “Online values” menu..................................................................................................................................................40 7.2.4 “Status” menu..............................................................................................................................................................42 7.2.5 “Configuration” menu...................................................................................................................................................44 7.2.6 “Admin Monitoring” menu............................................................................................................................................47 7.2.7 “Admin Measurement” menu.......................................................................................................................................57 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 3 7.3 7.4 7.5 7.6 Menu structure in the web browser...............................................................................................................64 Abbreviations................................................................................................................................................65 Time zones...................................................................................................................................................66 Configuration examples................................................................................................................................67 7.6.1 Analog inputs...............................................................................................................................................................67 7.6.2 Digital inputs................................................................................................................................................................68 7.6.3 Alarm criteria...............................................................................................................................................................69 8. Format of internal memory data.........................................................................................................72 8.1 Format of data records in the flash memory.................................................................................................72 9. Technical data......................................................................................................................................77 9.1 9.2 9.3 9.4 9.5 Dimensions...................................................................................................................................................77 RADIUS LOG-PRO PLUS............................................................................................................................78 RADIUS LOG-PRO . ....................................................................................................................................79 RADIUS LOG-BASIC . .................................................................................................................................80 Battery..........................................................................................................................................................81 10.Troubleshooting...................................................................................................................................82 11.Terms and abbreviations.....................................................................................................................83 4 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 1. Safety Instructions 1.1 Warning! Symbols used in the manual Indicates a procedure, condition, or statement that, if not strictly observed, could result in personal injury or death. Indicates a procedure, condition, or statement that, if not strictly observed, could result in damage to or destruction of equipment. Caution Indicates that the presence of electrostatic discharge could damage the appliance. When handling the boards, always wear a grounded bracelet. Important Indicates a procedure, condition, or statement that should be strictly followed in order to optimize these applications. Note ! Indicates an essential or important procedure, condition, or statement. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 5 1.2 Notes on using the Operating Instructions These Operating Instructions are intended for end customers without portal utilization and provide the basis for safe operation of the RADIUS LOG. Installation and commissioning must be carried out by an installation technician. The personnel must have access to the Operating Instructions at all times. The personnel responsible for installation, operation and maintenance must have read and understood these Operating Instructions. Gefran spaaccepts no liability for personal injury, damage to property, or malfunctions and their consequences, insofar as these result from non-observance of these Operating Instructions. 1.3 1.3.1 Safety instructions Intended use RADIUS LOG is a data logger for measuring and storing electrical values and is used, for example, in photovoltaic systems. Only the permissible signals and signal strengths may be applied to the connections on the device. → Chapter 8, Technical data Any other use of the device is considered contrary to its intended use. The manufacturer shall not be liable for any damage resulting from such use. Installation is only permitted indoors. For installation outdoors or in a dusty environment, the device must be installed in a suitable protective enclosure. Protection rating → Chapter 8, Technical data 1.3.2 • • • • • • 6 Safety instructions for operation he memory card (Compact Flash) or SIM card must not be removed while the device is in operation T The device must not be opened The device must not be modified in any way Damaged devices must be taken out of operation immediately and checked by a qualified electrician The local regulations must be observed when using the device The safety of the device and the operator cannot be guaranteed if the device is operated in contravention of the described safety instructions Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 2. Transportation, Storage and Disposal 2.1 Transportation and storage On delivery, inspect the device for any damage caused during transportation, and notify the haulage contractor if necessary. A damaged device must not be put into operation! • Only transport the device if it is well packaged • Protect the device from dust and moisture • Only store the device in a dry, dust-free environment Permissible storage conditions → Chapter 8, Technical data 2.2 Disposal Do not dispose of old devices or batteries together with ordinary household refuse! The device and its packaging and accessories are made from recyclable materials and should be disposed of accordingly. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 7 3. Overview of the device 3.1 Front view 6 7 5 4 3 8 2 1 9 10 11 12 13 14 15 16 17 18 Fig. 1: Overview of the device, front view (RADIUS LOG-BASIC / PRO) Fig. 2: Overview of the device, front view (RADIUS LOG-PRO PLUS) RADIUS LOG-BASIC, RADIUS LOG-PRO (1) (2) (3) (4) (5) (6) (7) (8) Power LED (9) Status LED (10) Modem LED (11) Alarm LED (12) [Exit], [Down], [Up], [Enter] buttons (13) Display (14) Digital and analog input (15) Memory card (Compact Flash) Changeover switch RS485 / RS422 Digital output RS485 / RS422 Ethernet 24 V input/output Telephone socket (PSTN, ISDN) RADIUS LOG power supply RADIUS LOG-PRO PLUS (1) (2) (3) (4) (5) (6) (7) (8) (9) 8 Display [Exit], [Down], [Up], [Enter] buttons Power LED Status LED Modem LED Alarm LED Analog and digital inputs Memory card (Compact Flash) Changeover switch RS232 / RS422 (10) (11) (12) (13) (14) (15) (16) (17) (18) SIM card slot (only for RADIUS LOG-PRO GSM/GPRS) Antenna socket (GSM/GPRS) Digital output RS232 / RS422 RS485 Ethernet 24 V input/output Telephone socket (analog, ISDN) RADIUS LOG power supply Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 3.2 Rear view 2 1 3 3 2 1 4 4 5 5 6 6 Fig. 3: Overview of the device, rear view (RADIUS LOG-BASIC / PRO) Fig. 4: Overview of the device, rear view (RADIUS LOG-PRO PLUS) RADIUS LOG-BASIC / PRO (1) (2) (3) Digital input Analog input Reset button (4) (5) (6) Holder for wall mounting Holder for installation on top-hat rail Clamp (4) (5) (6) Holder for wall mounting Holder for installation on top-hat rail Clamp RADIUS LOG-PRO PLUS (1) (2) (3) Digital inputs Reset button Analog inputs 3.3 Assignment of connections RADIUS LOG-BASIC Pin 8 PSTN RS485 1 — 2 a2 (out) 3 1 2 RS422 Ethernet RS changeover switch +24 V DC — TX+ RS485 RS485 A TX+ TX- RS422 a1 (in) — RX+ RX+ 4 b1 (in) RS485 B TX- — 5 b2 (out) — RX- — 6 — GND GND RX- 7,8 — — — — RADIUS LOG-PRO Pin 1 8 8 1 PSTN ISDN RS485 RS422 Ethernet — — +24 V DC — TX+ Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 2 RS changeover switch RS485 9 2 a2 (out) — RS485 A TX+ TX- 3 a1 (in) 2a RX+ — RX+ RX+ 4 b1 (in) 1a TX+ RS485 B TX- — 5 b2 (out) 1b TX- — RX- — 6 — 2b RX- GND GND RX- 7,8 — — — — — RS422 RADIUS LOG-PRO PLUS Pin 8 8 PSTN ISDN RS485 1 — — 2 — — 3 a2 (out) 4 a1 (in) 1 Ethernet +24 V DC — TX+ RS422 RS485 A TX+ TX- RS232 2a RX+ — RX+ RX+ 1a TX+ RS485 B TX- — b1 (in) 1b TX- — RX- — 6 b2 (out) 2b RX- GND GND RX- 7,8 — — — — — 3.4 RS changeover switch RS422 5 2 Default settings • Default setting for the modem connection: IP address Remote IP Subnet mask 192.168.200.1 192.168.200.51 255.255.255.255 • For the Ethernet connection, the setting “DHCP” is recommended DHCP ON 1) • A manual network configuration is only necessary if no DHCP server is present IP address Subnet mask Gateway 192.168.30.40 255.255.255.0 0.0.0.0 • The following ports are used for communication within the network: Communication web portal e-mail Port 80 (HTTP) Port 25 (SMTP) • On delivery, the GSM PIN for the device is preset to “4321” 1) Note! 10 DHCP takes priority over a manual network configuration Further information about this topic see paragraph 6.2 Establishing a connection to the RADIUS LOG. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 3.5 Buttons Log - PRO-PLUS Enter Exit Fig. 5: Buttons, RADIUS LOG-PRO PLUS Log - PRO Exit Enter Fig. 6: Buttons, RADIUS LOG-BASIC/PRO Button Navigation in the display menu EXIT Cancel input Back one menu level (UP) Select menu item above Increase the selected number by 1 (DOWN) Select menu item below Decrease the selected number by 1 ENTER One menu level further Confirm input Jump to the next settable number RESET Restarts the device 3.6 Rating plate The rating plate for identification of the device is attached to the left-hand end of the device. 1 2 Pro 2 421.147 Type GSM/GPRS Item No. 300657 2909 002 YOM 2009 IMEI: 300657 2909 002 Monitoring System 354064030003402 MADE IN GERMANY Fig. 7: Rating plate (1) (2) Device type and variant Modem type, serial number and year of manufacture Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 11 4. Technical description, connections and bus communication - 110 V N L 230 V AC + AI4 Phone - + AI3 - + 24 V + AI2 - + AI1 RESET RADIUS LOG is a data logger for measuring and storing electrical values and is used, for example, in photovoltaic systems. The device measures physical variables such as voltages, currents and resistances. If required, an alarm can be triggered and sent to a receiver via e-mail, text message (SMS) or fax. Ethernet - + DI1 RS485 - + DI1 - + DI1 RS232 - + DI1 + DO1 Fig. 8: RADIUS LOG-PRO PLUS 4.1 Status LEDs Symbol LED Power Status Connect Alarm Meaning (1) Green Voltage is supplied to the device. (2) Green Device is in the start phase (3) Off Power supply fault (1) Green System loaded successfully, normal operation (3) Off System has booted successfully, normal mode. (1) Yellow Connection set up successfully. (2) Yellow Setting up the connection to the called distant terminal. (3) Off No connection via analog modem, ISDN or GSM at the moment. (1) Red The device will trigger an alarm signal via the output D01 which has been configured as alarm output. (2) Red Fault detected (3) Off Normal operation (1) Permanently illuminated (2) Blinking (3) Not illuminated The Alarm LED flashes in the following cases: • System alarm, measured value alarm, status alarm • Inverter alarm state detected • Inverter Ini file missing • Failure of current sensor or inverter 12 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 4.2 Connections 4.2.1 Modem 4.2.1.1 PSTN / ISDN Depending on the version, the RADIUS LOG is equipped with a PSTN or ISDN modem. RADIUS LOG-BASIC, PRO Pin assignment, PSTN: 1 – 2 a2 (out) 3 a1 (in) 4 b1 (in) 5 b2 (out) 6 –– RADIUS LOG-PRO PLUS 8 Note: Pin assignment, PSTN: Pin assignment, ISDN: 1 – 1 – 2 – 2 – 3 a2 (out) 3 2a (RX+) 4 a1 (in) 4 1a (TX+) 5 b1 (in) 5 1b (TX-) 6 b2 (out) 6 2b (RX-) 7 – 7 – 8 – 8 – A connecting cable for connecting the RADIUS LOG to the PSTN is supplied with the device. Pin assignment, TAE-N connector (looking toward the contacts): 4 3 1 a1 (in) 5 2 2 b1 (in) 6 1 3 – 4 – 5 b2 (out) 6 a2 (out) 4.2.1.2 Mobile radio antenna (GSM / GPRS) For connecting a mobile radio antenna to the RADIUS LOG. The signal strength is indicated on the display in the form of vertical bars. Optimal reception No reception Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 13 4.2.2 Ethernet In addition to the integrated modem, there is a network connection for direct connection to a LAN (Local Area Network). Pin assignment 8 1 TX+ 2 TX- 3 RX+ 4 – 5 – 6 RX- 7 – 8 – - + AI4 - + AI3 - + AI2 - + AI1 RESET • For direct connection to a computer, use a crossed network (“crossover”) cable. - + DI1 - + DI1 - + DI1 - + DI1 1 110 V N L 230 V AC Phone + 24 V Ethernet RS485 + DO1 RS232 3 2 Fig. 9: Crossed network cable (1) (2) (3) RADIUS LOG Crossed network cable Computer / laptop RESET • For connection to a hub or switch, use an uncrossed network cable (assignment 1:1). - + AI4 - + DI1 RS485/ RS422 + DO1 1 V N L 110 230 V AC Phone + 24 V Ethernet 3 2 4 2 4 Fig. 10: Uncrossed network cable (1) (2) (3) (4) RADIUS LOG Uncrossed network cable Hub / switch Computer / laptop RS485 For communication with external bus devices such as inverters and current sensors. Pin assignment, RS485:: 1 24 V DC Supply voltage 1) 2 RS485 A Data line Plus 3 – 4 RS485 B 5 – 6 GND Data line Minus Reference potential 2) 1) The 24 V DC supply voltage is only required with use of current sensors. The integrated power unit can supply power to a maximum of three sensors. 14 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 2) Note: GND is required for current sensors and certain inverter types. Further information can be found in the separate connection diagram. The RS changeover switch must be set to the RS485 position. Further information about inverters can be found in → Section 4.5, Bus communication. RS changeover switch For switching between RS232, RS422, RS485. Note: Only operate the RS changeover switch if necessary. Only operate the RS changeover switch when the device is switched off. 1 (1) Left-hand position RS485 (2) Right-hand position RS422 2 Fig.11: RS changeover switch, RADIUS LOG-BASIC, RADIUS LOG-PRO 1 (1) Left-hand position RS422 (2) Right-hand position RS232 2 Fig. 12: RS changeover switch, RADIUS LOG-PRO PLUS 4.2.3 Analog inputs There are either one analog input (RADIUS LOG-PRO, RADIUS LOG-BASIC) or four analog inputs (RADIUS LOG-PRO PLUS) available. Voltages of 0 ... 10 V, currents of 0 ... 20 mA and temperatures (PT 1000 direct measurement) can be measured via the analog inputs. Pin assignment: + – + – AI1 AI4 + Connection Plus - Connection Minus … Damage due to overvoltage! Caution If voltages of more than 10 V DC are applied to the analog inputs, or if currents of more than 20 mA flow, this can destroy the affected measuring inputs. - Ensure that only voltages of up to 10 V DC are applied and only currents of up to 20 mA flow. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 15 4.2.4 Digital inputs There are either one digital input (RADIUS LOG-PRO, RADIUS LOG-BASIC) or four digital inputs (RADIUS LOG-PRO PLUS) available. The inputs can be used as pulse inputs or status inputs. The inputs are optically isolated and can detect counting pulses up to 14 Hz. An interface in accordance with specification S0 must be available. Pin assignment: + – + – DI1 DI4 + Connection Plus - Connection Minus … Damage due to overvoltage! Caution If voltages of more than 24 V DC are applied to the digital inputs, this can destroy the affected measuring inputs. - Ensure that only voltages of up to 24 V DC are applied. 4.2.5 Digital output The digital output DO1 can be configured as: 1) Alarm output (e.g. signaling device: buzzer) 2) Pulse output for display connection Pin assignment: + – + Connection Plus - Connection Minus DO1 For configuration, a connection must be established between the RADIUS LOG and the browser. The output is designed as an optocoupler (make contact) and can be connected to a maximum voltage of 70 V DC and a maximum current of 50 mA DC if required. Observe the correct polarity! 4.2.6 24 V voltage input / 24 V voltage output The RADIUS LOG can be supplied with 24 V DC via the voltage input. Damage due to overvoltage! Caution If the 110 ... 230 V power supply and 24 V voltage input are connected at the same time, this will damage the device. - Ensure that either the 110 ... 230 V power supply or the 24 V voltage input is used. If the RADIUS LOG is connected to the voltage supply, 24 V is applied to the voltage output. The maximum load rating is 230 mA. 16 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Pin assignment: + – + Connection Plus - Connection Minus 24 V 4.2.7 Power supply The RADIUS LOG can be supplied with a voltage of 110-230 V AC. The device must not be operated with voltages lying outside the range of 110 ... 230 V AC. Pin assignment: + – L Phase (black) N Neutral conductor (blue) 24 V Damage due to overvoltage! Caution Overvoltage or voltage peaks can damage or destroy the device. - Protect the power supply against overvoltage. Damage due to voltage input! Caution If the 110 ... 230 V power supply and 24 V voltage input are connected at the same time, this will damage the device. - Ensure that either the 110 ... 230 V power supply or the 24 V voltage input is used. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 17 4.3 Monitoring system, fundamentals When planning and installing monitoring systems with inverters and current sensors, it is necessary to observe a number of points in order to ensure correct operation. Note: During installation, the operating instructions and data sheets of the individual components must be observed. All operating conditions (current consumption, voltage supply and ambient conditions) of the individual components must be complied with. 4.3.1 Bus communication The bus devices (inverters or current sensors) may be connected in any order. All devices must be connected in series to a single RS485 bus. As a rule, no operating voltage may be connected to the communication interfaces of inverters. Current sensors, such as the String Box, are powered via an external power supply unit. (The 24 V DC voltage output of the RADIUS LOG may be connected to a maximum of three String Box with short cable lengths.) 4.3.2 Cabling For error-free data transmission, all bus cables must have twisted wires and be completely shielded. Cable type • For the data cables “RS485 A” and “RS485 B”, a shielded and twisted wire pair plus cable for equipotential connection must be used. 4.3.3 Shield The cable shield must be grounded at one end of the connection only, in order to prevent ground loops. At the opposite end of each bus section, the shield must be completely interrupted in the vicinity of the bus device. 1 3 4 2 3 2 4 3 2 4 Fig. 13: Example: shielding (1) (3) (2) Note: RADIUS LOG Data cable Current sensor or inverter (4) Shield of data cable If it is impractical to ground each section individually, the uncut shield (cable only slit) can also be routed onward. However, the overall shield must always be grounded in at least one place. Routing Alternating current signals can cause interference despite correct shielding. Particularly AC cables in the medium voltage range are responsible for this. For this reason, ensure as great a distance as possible from AC cables. 18 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 4.3.4 Repeaters Repeaters must be used in the following cases: • After every 31 bus devices • In the case of long cable lengths leading to the bus devices, in order to reinforce the signal 4.3.5 Termination (impedance matching) To prevent reflections in the cables, the bus must be terminated with a terminator. 4 5 3 1 2 Fig. 14: Example: termination (1) (2) (3) RADIUS LOG (4) Last device (5) Data bus Integrated terminator External terminator First device (RADIUS LOG): An internal terminator is preinstalled in the RADIUS LOG. No additional external resistor must be connected to this device. Repeaters: The data bus must be fitted with a terminator before and after each repeater. 1 4 2 5 5 3 5 Fig. 15: Example: repeaters (1) (2) (3) RADIUS LOG (4) Repeater (5) Last device Integrated terminator External terminator Last device: The data cables “RS485 A” and “RS485 B” are terminated with a resistance of 120 ohm. Determining the resistance: The size of the terminator resistance varies depending on local conditions. The correct value of the terminator resistance can be determined using an oscilloscope. 1 2 3 Fig. 16: Signal edges on the oscilloscope (1) (3) Resistance correct (2) Resistance too high Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Resistance too low 19 4.4 Connection diagram 4.4.1 Analog input: irradiance sensor The analog input AI1 is preconfigured for the irradiance sensor. 2 RESET 1 - + AI4 - + DI1 3 4 V N L 110 230 V AC + 24 V Phone + DO1 RS485/ RS422 Ethernet Fig. 17: Irradiance sensor, RADIUS LOG-BASIC, RADIUS LOG-PRO Irradiance (orange) 24 V DC (red) (3) (4) 1 - + AI4 - + AI3 - GND (black) PE shield (black) 3 2 + AI2 - + AI1 RESET (1) (2) - + DI1 - + DI1 - + DI1 - + DI1 4 5 110 V N L 230 V AC + 24 V Phone Ethernet RS485 RS232 + DO1 Fig. 18: Irradiance sensor, RADIUS LOG-PRO PLUS (1) (2) (3) Temperature, optional (brown) Irradiance (orange) 24 V DC (red) 4.4.2 (4) (5) GND (black) PE shield (black) Digital input: energy meter - + AI4 - + AI3 - + AI2 - + AI1 RESET The digital input DI1 is preconfigured for the energy meter. - + DI1 - + DI1 - + DI1 - + DI1 1 110 V N L 230 V AC Phone + 24 V Ethernet RS485 RS232 + DO1 2 (-) 21 (+) 20 Fig. 19: Energy meter (1) 20 S0 interface: minus (21) (2) S0 interface: plus (20) Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Digital output: digital display - + AI4 - + AI3 - + AI2 - + AI1 RESET 4.4.3 - + DI1 - + DI1 - + DI1 - + DI1 2 1 + - 6485 W 15164 kWh 110 V N L 230 V AC + 24 V Phone Ethernet RS485 RS232 + DO1 Fig. 20: Digital display 24 V DC (red) 4.4.4 (2) GND (black) Digital output: signaling device - 110 V N L 230 V AC + AI4 - + AI3 - + 24 V Phone + AI2 - + AI1 RESET (1) - Ethernet + DI1 - RS485 + DI1 - + DI1 RS232 - + DI1 1 2 + DO1 Fig. 21: Signaling device (1) GND (black) 4.4.5 (2) 24 V DC (red) 24 V voltage input / 24 V voltage output - 110 V N L 230 V AC + AI4 - + AI3 Phone - + 24 V + AI2 - + AI1 Ethernet RESET The voltage supply is 24 V DC. - + DI1 RS485 - + DI1 - + DI1 RS232 - + DI1 + DO1 1 2 Fig. 22: 24 V voltage input/output (1) 24 V DC (red) (2) GND (black) Damage due to voltage supply! Caution If the 110 ... 230 V power supply and 24 V DC voltage input are connected at the same time, this will damage the device. - Ensure that either the 110 ... 230 V power supply or the 24 V voltage input is used. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 21 4.4.6 Power supply - 110 V N L 230 V AC N 1 + AI4 Phone - + AI3 - + 24 V + AI2 - + AI1 Ethernet RESET The power supply is 110 ... 230 V AC. A 6 A fuse must be provided. - + DI1 - RS485 + DI1 - + DI1 RS232 - + DI1 + DO1 2 L Fig. 23: 230 V power supply (1) Neutral conductor (blue) (2) Phase (black) with 6 A fuse Damage due to voltage supply! Caution 22 If the 110 ... 230 V power supply and 24 V voltage input are connected at the same time, this will damage the device. - Ensure that either the 110 ... 230 V power supply or the 24 V voltage input is used. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 4.5 Bus communication For communication with inverters, the RADIUS LOG must be equipped with the appropriate driver. Note: The required driver is installed by the manufacturer before shipment. For inverters and current sensors, only the information required for connection is given. • Observe the maximum permissible number of devices • Connect the RADIUS LOG to the first device with the data cable • The order of the bus devices is unimportant • The use of a repeater is necessary for every 32nd bus device and for long cable lengths • As a rule, no operating voltage may be connected to the communication interfaces of inverters. • The String Box requires a power supply of 24 V DC • The shield of the bus cable must be grounded at one end of the connection only • When routing the bus cabling, ensure as great a distance as possible from AC cables • To prevent reflections, the bus must always be terminated with a parallel terminator. Note: A maximum of five inverters with a combined power of 20 kWp may be connected to the RADIUS LOG-BASIC. Note: For RADIUS LOG-PRO / PRO-PLUS: Maximum of 31 inverters and 19 String Box per device. • Connect the cable shield to the ground terminal at the RADIUS LOG end • Set the inverter bus address (see inverter documentation) Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 23 Standard “Connect cable” As standard the RADIUS LOG is equipped with a pre-assembled data cable for connecting the RADIUS LOG and the RADIUS LOG-INT card. RADIUS Industrial, APV-...-.... ON RADIUS Industrial, APV-...-.... AFE200-PV Terminazione attiva Termination active AFE200-PV RADIUS LOG-... OFF OFF Terminazione non attiva Termination not active Log - PRO-PLUS Enter Exit OPT-RS485-ADV OPT-RS485-ADV OFF S1 110Vac 230Vac Phone + 24V- Ethernet 1 2 S1 EQP 3 A B ON 4 1 2 EQP 3 4 Ethernet 230Vac RS232 RS422 RS485 OFF A B ON NL Fuse ON + D01- RS485 Configuration via PC M1 M3 J2 RADIUS LOG-INT J1 J1 M2 LOCALE RS485 Fig. 24: RADIUS APV inverter BUS Connection (1) (2) (3) (4) (5) RJ11 connector (RADIUS LOG), RS485 J1 connector on RADIUS LOG-INT card M1 connector on RADIUS LOG-INT card Bus connector on OPT-RS485 (M1 on inverter) M2 connector on RADIUS LOG-INT card (6) (7) (8) (9) First inverter Subsequent inverters S1 Terminator for last inverter (on OPT-RS485) Bus connection to String Box (terminator JP7) A B 1 654321 - RS485 1 2 3 4 5 6 A B GND bus 2 EQP 3 4 654321 - J1 1 2 3 4 5 6 - M1 - M2 - M1 +24V A 4 A 4 A 4 SH B 3 2 1 B GND bus SH 3 2 1 B GND bus SH 3 2 1 B A GND bus Fig. 25: BUS Connectors Note! 24 Termination The last device in the Modbus chain must have the termination resistor activated: - if it is an APV inverter, switch S1 = ON (on the OPT-RS485-ADV card, in the AFE200-PV power supply unit) - if it is a string box Jumper JP7 must be connected (on the JBX-COM string box regulation card) Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 4.6 Kit di connessione Radius Log Qualora il data logger RADIUS LOG sia stato acquistato separatamente dall’inverter e quindi non sia stato già pre-cablato all’interno dell’inverter da parte di GEFRAN, è necessario ordinare in abbinamento al Radius Log l’opzione “CONNECTION KIT DATA LOGGER” (cod. SL605) che identifica il “Connection kit-Data Logger” . Il kit di connessione è indipendente dalla versione del data logger essendo compatibile con RADIUS LOGBASIC/PRO/PRO PLUS. Il kit contiene: • Scheda Radius Log-Int (scheda di interfaccia tra data logger e i dispositivi connessi alla rete Modbus) • Fusibili (0,5A / 600V) e portafusibili • Terminale per connessione cavo di terra e rondella grower per connessione terra su piastra • Cavo RJ11 (per connessione tra scheda Radius Log-Int e data logger Radius Log) • Guida DIN e Viti M6 x 12 Prima di effettuare le relative connessioni occorre fissare sulla guida DIN il data logger RADIUS LOG, la scheda Radius Log Int e i porta fusibili (con relativi fusibili), utilizzando le viti fornite di serie con il kit. Di seguito elenchiamo i passi operativi per connettere il Data Logger con la scheda Radius Log-int. BIANCO 8S7B26 D3.6 GIALLO OPT_RS485_ADV S1 ON OFF M1 XS -L6 AWG 18 Red X -L7 AWG 18 Brown L7 X Rimuovere coppia twistata bianco / grigio 2 1 L6 Altri inverter in paralello (M1 - OPT_RS485_ADV) String Box in parallelo (RS485) -AT3.11 RADIUS_LOG_INT M1 M2 -P3.6 2 4 - + - + - + - + DI4 DI3 DI2 DI1 RADIUS LOG 230V L N 24V Phone + - Ethernet J2 AWG 18 Brown D3.1 X AWG 18 Red X 0,5A 600V - + - + - + - + AI4 AI3 AI2 AI1 3 D3.2 -FU3.3 1 RS RS 485 232 DO1 + - M3 J1 Cavo RJ11 1) Collegare i cavi dell’alimentatore esterno ai morsetti L-N (230 V) del Data Logger 2) Inserire i fusibili sulla linea di alimentazione 3) Effettuare il collegamento, tramite cavo con connettore RJ11, tra la porta RS485 del RADIUS LOG e il connettore J1 della scheda Radius Log-Int 4) Effettuare la comunicazione della scheda Radius Log-Int con i dispositivi connessi alla rete Modbus (Inverter, String Box, ...) utilizzando le morsettiere M1 e/o M2 (è possibile utilizzare per la comunicazione seriale anche un solo canale M1 o M2). Tenendo presente che è preferibile utilizzare il morsetto M1 per le reti Modbus corte, ed il morsetto M2 per le linee lunghe, utilizzare la connessione idonea al proprio impianto secondo quanto segue: Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 25 • dispositivi connessi tramite il solo morsetto M1, posizionare lo switch TM (S2) della scheda Radius Log-Int su “ON” • dispositivi connessi ad entrambi i morsetti M1 e M2, posizionare lo switch TM (S2) della scheda Radius Log-Int su “OFF” • dispositivi connessi al solo morsetto M2, posizionare lo switch TM (S2) della scheda Radius Log-Int su “OFF”. M1 M2 J2 RS485 RADIUS LOG-INT LOCALE M3 J1 Pinatura morsetti su RADIUS LOG-INT J1 Collegamento con uscita rs485 RadiusLog. Cavo RJ11 a 6 poli. M3.1 Massa alimentazione da RadiusLog M3.2 +24 V da RadiusLog M3.3 M3.4 Collegamento schermo a massa Uscita verso rete RS485 M2.1 Schermo (SH) M2.2 Massa di riferimento Bus M2.3 Canale B M2.4 Canale A Uscita verso inverter locale M1.1 Schermo (SH) M1.2 Massa di riferimento Bus M1.3 Canale B M1.4 Canale A J2 RS232 su Ds-SUB 9 poli per collegamento PC. Quando viene effettuata la configurazione il deviatore MC (S1) deve essere posto in posizione OFF. Durante la fase operativa (Data logger attivo) MC (S1) invece sarà in posizione 0N. MC (S1) Selettore linea seriale verso PC (J2) o data logger. Vedi J2 TM (S2) Resistenze terminazione bus. X inserite Y escluse 5) 26 Collegare il terminale 4 della morsettiera M3 sulla scheda Radius Log-Int alla terra del quadro, utilizzando quanto in dotazione nel kit. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 5. Installation 5.1 Safety instructions for installation • T he data logger must only be connected by a qualified electrician. • All cables must be connected or disconnected only when de-energized Electric shock hazard! Danger to life and limb! Warning! There is a risk of electric shocks when connecting the device to the power supply. This can result in lifethreatening injuries. - De-energize the power cable and take measures to prevent it from being re-energized. I Caution Damage due to incorrectly connected cables! If cables are connected incorrectly, this can damage or destroy the measuring inputs and the device. - Connect cables only to the correct locations. - Ensure the correct polarity of the cables being connected. • U se suitable wire end ferrules with flexible cables • Tighten all clamped connections with a suitable tool and check that contact is made and that the connection is secure • Only use the specified cables 5.2 Cables and wiring Cable types • Bus cabling (inverters, current sensors) Data cable, twisted and shielded: 2×2×0.5 mm2 Network cable: CAT 7 • Sensors (irradiance sensor, temperature sensor) Sensor cable: 2×2×0.5 mm2 • Meters (energy meters) Telephone cable: 2×0.6 mm2 • Ethernet network Network cable: CAT 5e / CAT 6 / CAT 7 Maximum permissible cable lengths • • • • Bus cabling Data cable RS485 Sensors Meters Ethernet Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 1200 m 1) 2) 100 m 200 m 100 m 2) 27 Terminals We recommend the use of terminals for the wiring. If a terminal block is used, the Connect cable can be cut off and used to connect the RADIUS LOG to the terminal block. Shield The cable shield must be grounded at one end of the connection only. 1) For longer cable lengths, repeaters must be used. 2) A hub is necessary if a number of separate cables of this length are used. 5.3 Summary of work steps Installation • Mount the device on a top-hat rail; alternatively, the device can be mounted on a wall. PSTN, ISDN and GSM connection 1. Test the PSTN telephone connection for outgoing and incoming calls (e.g. provider number; if necessary, include external call prefix and ensure there are no dialing restrictions). Set the telephone system as described in the manufacturer’s instructions. 2. Test the ISDN telephone connection with an S0 tester before installation. Set the telephone system as described in the manufacturer’s instructions. 3. For PSTN or ISDN, connect the device and the telephone connection with the supplied cable. If the cable needs to be extended, ensure secure contact and correct polarity. 4. For GSM, connect the supplied mobile radio antenna to the antenna socket. 5. The GSM data card must be set to the same PIN number as the device. To do this, set the PIN number of the data card using a cell phone. Insert the GSM data card into the device until you feel it click into place. Ethernet connection 1. Direct connection from network card and PC / laptop via crossed network cable. 2. Connection to a switch / hub via an uncrossed network cable. Analog input / digital input • M aximum input voltage: analog 10 V DC, digital 24 V DC • The analog input AI1 is preconfigured for the irradiance sensor • The digital input DI1 is preconfigured for the energy meter Power supply 1. Protect the power supply (230 V AC) with a fuse (e.g. B6A), or alternatively use the voltage input (24 V DC). 2. A maximum of three current sensors (String Box) can be powered via the integrated power unit. The power is supplied via the RS485 interface. Use an external power supply if more than three current sensors are used. Commissioning and cabling 1. Check the polarity of the connecting cables and correct if necessary. 2. Connect the mains voltage in order to switch on the RADIUS LOG. Status LED flashes. RS485 interface Further information → Section 4.5, Bus communication. 28 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 5.4 Installing the RADIUS LOG The device can be installed as follows: • Installation on a 35 mm × 7.5 mm top-hat rail acc. to EN 50022 • Wall mounting using screws (maximum head diameter 7.5 mm) 5.4.1 Installation on a top-hat rail Hook the device over the upper edge of the top-hat rail and press it on until the clamp snaps into place at the bottom. To remove the device, pull the clamp down with a screwdriver and take the device off the top-hat rail. 3 1 1 2 4 2 7 6 5 Fig. 26: Installation on a top-hat rail (1) (2) (3) (4) Device (5) Top-hat rail (6) Upper edge of top-hat rail (7) Pressing on the device 5.4.2 Screwdriver Releasing the clamp Removing the device Wall mounting using screws Insert two screws 90 mm apart on the wall. Mount the device so that the screws lie in the recesses of the device. Push the device down a short way and check that it is seated correctly. To remove the device, push it up a short way and take it off to the front. 2 3 4 2 6 1 5 1 Fig. 27: Wall mounting using screws (1) (2) (3) Device Fastening screws Mounting the device Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS (4) (5) (6) Securing the device Releasing the device Removing the device 29 5.5 Installing the SIM card (GSM / GPRS) For radio operation (GSM / GPRS), a corresponding SIM card is required. The PIN number of the SIM card must be identical with the GSM PIN in the device. Note: Only insert or remove the SIM card when the device is switched off. 3 3 2 1 2 Fig. 28: Inserting the SIM card (1) (2) (3) SIM card slot SIM card Inserting the SIM card 1 Fig. 29: Removing the SIM card (1) (2) (3) SIM card slot SIM card Removing the SIM card Inserting the SIM card: The contact side of the SIM card must face forward, and the slanted edge of the SIM card must be at the top right. • Carefully insert the SIM card into the card slot until the SIM card clicks into place Removing the SIM card: Carefully press the SIM card further into the card slot to release the lock. The card is pushed out a short way by spring pressure. Pull out the SIM card. 30 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 6. Configuration 6.1 Summary of work steps Preconditions 1. The RADIUS LOG is installed and the cables elements of the bus connections (inverters and String Boxes) are correctly connected. 2. Switch on the power supply and wait until the device has finished booting. 3. Check that the string box and inverter configuration have been successfully completed, see the string box and inverter manual. Configuring the RADIUS LOG (Local monitoring) • • • • Connect the computer to the RADIUS LOG via Ethernet Carry out configuration via web browser Send a test message via the established communication channel Check the measured values via the display or web browser 6.2 6.2.1 Establishing a connection to the RADIUS LOG Preconditions • PSTN variant: The RADIUS LOG is connected to the telephone network. The computer is connected to the telephone network via a PSTN modem • ISDN variant: The RADIUS LOG is connected to the ISDN. The computer is connected to the ISDN via an ISDN card • GSM / GPRS variant: The RADIUS LOG is connected to the mobile radio network. The computer is connected to the telephone network via an analog modem • Ethernet variant: The RADIUS LOG is connected to the computer via a network cable In the following examples, Windows XP is used as the operating system. The set-up procedure for other operating systems or other operating system versions may diverge from the following examples. To establish a connection, the required modem must be connected to the computer and the necessary driver installed. Administrator rights are required to set up the network connection on the computer. Note! Possibility of damaging an existing configuration! Changes to a configured dial-up connection or Ethernet connection can render the existing configuration unusable. - If making changes to a dial-up or Ethernet connection, ensure that the correct connection settings are used. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 31 6.2.2 Dial-up connection For a connection between the computer and the PSTN or ISDN telephone network. If a dial-up connection is already configured, it is only necessary to change the properties of the dial-up connection and, where appropriate, the properties of the TCP/IP settings. 1. Select the menu sequence “Start” > “Settings” > “Network Connections” > “New Connection Wizard”. Note: 2. Select “Connect to the network at my workplace” as the network connection type. 3. Select the option “Dial-up connection” as the network connection. 4. Assign a name to the dial-up connection under “Connection name”. 5. Enter the required telephone number for the dial-up under “Phone Number to Dial”. Depending on the telephone system, it may be necessary to include an external call prefix (e.g. “0”) and a dialing pause (comma after the “0”). 6. Complete the wizard. 7. Select the menu sequence “Start” > “Settings” > “Network Connections” > [Name of the network connection]. Fig. 30: Configuring a connection 8. Select the “Networking” tab and double-click on the entry “Internet protocol (TCP/IP)”. If the computer is operated in a network with a DHCP server, select the option “Obtain an IP address automatically”. Alternatively, enter e.g. “192.168.200.51” as IP address and DNS server (depending on the network), and confirm with “OK”. 32 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Fig. 31: IP address, DNS server 9. Select “Dial” to establish a connection. To log on, enter the user name and password. User name: admin Password: admin 6.2.3 Ethernet connection (LAN) For a connection between the computer and the RADIUS LOG via a network cable. 1. Select the menu sequence “Start” > “Settings” > “Network Connections” > “LAN Connection”. 2. In the dialog window, click on “Properties”. 3. Then double-click on the entry “Internet protocol (TCP/IP)”. The next dialog window displays the settings for the network card of the computer. Fig. 32: LAN properties, TCP/IP properties 4. If the computer is operated in a network with a DHCP server, select the option “Obtain an IP address automatically”. Alternatively, set the relevant entries under “IP address” and “Subnet mask”. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 33 Note: The IP address of the computer must not be the same as the IP address of the RADIUS LOG. The IP address of the computer must be in the same address space as that of the RADIUS LOG. In the example, the IP address of the computer must begin with “192.168.30”. Example of fixed IP address: IP address of computer IP address of RADIUS LOG Subnet mask of computer and RADIUS LOG: 34 192.168.30.1 192.168.30.40 255.255.255.255 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 7. Operation The RADIUS LOG display offers the following features: • Polling current measured values • Retrieving stored energy yield values • Retrieving and changing communication settings • Functions restricted to specific user groups Important The device is password-protected. The standard passwords are: User group “End customer” User group “Installer” User group “Administrator” Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Password “0030” Password “0020” Password “0010” 35 7.1 7.1.1 Menu structure on the device Menu structure for RADIUS LOG-BASIC, RADIUS LOG-PRO Survey Ethernet Current IP Address Current Subnet Mask Current Gateway Settings Communication Ethernet DHCP Static IP Address Subnet Mask Gateway Modem / ISDN / GSM Local IP Address Remote IP Address Subnet Mask ISDN MSN PIN Code Language English Data logger Inverter settings *3 Scan Process Current Values Analog Values AI1 Digital Values DI1 Current Sensors *2 IS1 Inverters *3 INV1 System Energy DI / INV *3 Actual power Daily energy Energy (yesterday) Energy (month) Energy (year) Energy (total) Alarm / error Communication * Current network settings ** DHCP server ON/OFF Fixed IP address, no DHCP Fixed subnet mask, no DHCP Gateway address, no DHCP RADIUS LOG IP address in the WAN Caller IP address in the WAN Subnet mask in the WAN MSN setting GSM PIN setting Display language * Display analog measured values Display digital measured values Display measured values from current sensors Display measured values from inverters Display the system output Display current power Display of the daily energy yield Display of the energy yield of the previous day Display of the monthly energy yield Display of the annual energy yield Display of the total energy yield ** Display alarms and errors * User group “End customer” *2 ** User group “Installer” *3 *1 With devices with GSM / GPRS 36 Only with current sensors Only with inverters Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 7.1.2 Menu structure for RADIUS LOG-PRO PLUS Survey Network Current IP Address Current Subnet Mask Current Gateway GSM / GPRS *1 Signal quality Current Values Analog Values AI1 * ** *1 Current network settings Display analog measured values Digital Values DI1 Display digital measured values Current Sensors *2 IS1 Display measured values from current sensors Inverters *3 INV1 Display measured values from inverters Energy DI / INV *3 Actual power Daily energy Energy (yesterday) Energy (month) Energy (year) Energy (total) Display the system output Display current power Display of the daily energy yield Display of the energy yield of the previous day Display of the monthly energy yield Display of the annual energy yield Display of the total energy yield User group “End customer” User group “Installer” With devices with GSM / GPRS Settings Data logger Network DHCP Static IP Address Subnet Mask Gateway Modem / ISDN / GSM Call acceptance *6 Local IP Address Remote IP Address Subnet Mask ISDN MSN *5 PIN Code *1 Language English Set date Set time Display Contrast Brightness Reset System Inverter Scan *3 Current Sensor Scan *2 * ** *1 *2 * User group “End customer” User group “Installer” With devices with GSM / GPRS Only with current sensors Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS *2 *3 Only with current sensors Only with inverters ** DHCP server ON/OFF Fixed IP address, no DHCP Fixed subnet mask, no DHCP Gateway address, no DHCP Call acceptance ON/OFF RADIUS LOG IP address in the WAN Caller IP address in the WAN Subnet mask in the WAN MSN setting GSM PIN setting Display language Show / change system date Show / change system time Show / change contrast of display Show / change brightness of display Restart RADIUS LOG Search for inverters Search for current sensors *3 *4 *5 *6 Only with inverters ISDN and GSM / GPRS modem Only with ISDN devices Only with analog devices 37 7.2 7.2.1 Configuration via web browser Browser requirements • Internet Explorer, version 6.0 or higher • Firefox, version 2.0 or higher 7.2.2 RADIUS LOG start screen After successfully setting-up the modem or ethernet connection you can access the RADIUS LOG menu structure via a browser. Enter and confirm the IP address of the RADIUS LOG in the address line of the browser. Fig. 33: Browser address line Default address of the RADIUS LOG: Modem connection : Ethernet connection: http: \\192.168.200.1 http: \\192.168.30.40 If, for example, the IP address of the RADIUS LOG is 192.168.200.1, enter and confirm “http://192.168.200.1” in the address line. - The browser then displays the RADIUS LOG start screen. Fig. 34: Start screen The following menu items are accessible for standard users: See chapter 38 General Online values Status Configuration 7.2.3 7.2.4 7.2.5 7.2.6 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS the administrator can access the following menu items: See chapter General Online values Status Configuration Admin Monitoring Admin Measurement 7.2.3 7.2.4 7.2.5 7.2.7 7.2.8 7.2.6 “General” menu Menu for administrator login and calling the start screen. Login The functions of the “Administrator” user group are password-protected. Fig. 35: Administrator login Note: The administrator password is “ist02”. Start screen Fig. 36: Start screen The start screen displays the most important information about the system. Hardware Monitoring System Parameters Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Overview of assigned inputs and available bus devices Displays the most recent alarm with its date and time, and the amount of free memory. For devices with GSM / GPRS, the signal strength is also shown. Information about the photovoltaic system 39 7.2.3 “Online values” menu Displays the measured values from the sensors, meters and inverters connected to the analog and digital inputs. Analog / Digital Fig. 37: Measured values from the analog and digital inputs Sum of Selected Digital Inputs: • Energy production of the system The calculation of the total output can be defined via the menu “Admin Measurement” > “Digital Channel Energy”. Select Add-On Module: • Displays the measured data for connected add-on modules Add-on modules are defined via the menu “Admin Measurement” > “Digital Channel Energy”. Example: A system consists of two subsystems, whose separate meters are connected to the RADIUS LOG. For correction calculation, the subsystem meters must be activated under “Digital Channel Energy”. Details Digital Inputs: Displays the measured values for each digital input. • Current power: The counting pulses are converted over a defined period to a power value (kW) using the pulse constant. • Minimum: The smallest current daily value • Maximum: The largest current daily value • Meter reading: Sum total of measured pulses. The display can be compared with the actual value on the energy meter Details Analog Inputs: Displays the measured values for each analog input. • Value: Current online value (refreshed every ten seconds) • Minimum: The smallest current daily value • Maximum: The largest current daily value 40 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Current Sensors Measured values from the current sensors. Fig. 38: Measured values, current sensors Inverter Survey Measured values from the inverters. Depending on the type of inverters connected, the available values are displayed. Fig. 39: Measured values, inverters Inverter Details Shows details of a selected inverter. Fig. 40: Inverter details Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 41 The entries depend on the inverter concerned. 7.2.4 “Status” menu Plant Messages Overview of the possible alarm statuses. Fig. 41: Plant Messages Measured Value Alarms: A measured value alarm is triggered as soon as one of the monitoring criteria is met. • Designation: Name as defined under “Admin Monitoring” > “Formulas” • Status: Specifies whether the criterion is monitored • Upper limit: Upper limit of the monitoring criterion • Actual value: Current value of the monitoring criterion • Lower limit: Lower limit of the monitoring criterion • Alarm Counter: Displays how often a limit value has been violated • Transfer Status: Displays the e-mails waiting to be sent • Info: Time of the most recent alarm Plant Alarms: Plant alarms refer to error messages of the monitoring system. • Designation: Reason for the alarm • Alarm Type: Type of alarm message (e-mail, text message [SMS], fax) • Alarm target: Address for sending the alarm message • Alarm Counter: Number of alarms triggered • Transfer Status: Displays the alarms waiting to be sent • Info: Time of the most recent alarm Status Alarms: Overview of alarms triggered. 42 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS • • • • • • Designation Status Source 1 Operation Source 2 Alarm Counter • Transfer Status • Info Name as defined under “Admin Monitoring” > “Formulas” Specifies whether the criterion is monitored Comparison criterion 1 Condition for comparison between Source 1 and Source 2 Comparison criterion 2 Displays how often a limit value has been violatedor how often a criterion has not been met Displays the e-mails waiting to be sent Time at which the alarm occurred E-Mail Transfer Status: Indicates whether there are e-mails waiting to be sent. Reset all alarms incl. local output: Reset all alarm messages (including local output). Note: Plant alarms are not reset. Inverters Shows fault messages and brief information about the inverters. Fig. 42: Status, inverters Failure Messages • • • • Designation: Alarm Type: Alarm target: Alarm Counter: • Transfer Status: • Info: Type of fault message Type of alarm message (e-mail, text message [SMS], fax) Address for sending the alarm message Displays how often a limit value has been violated, or the number of alarms triggered Displays the e-mails waiting to be sent Time of the most recent alarm Quick Info • • • • Address: Serial Number: Type: Status: Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Bus address of the inverter Serial number of the inverter Inverter type Status of the inverter 43 7.2.5 “Configuration” menu Plant Data Entries from the Plant Data are required by various elements in the system. The entries contain data relating to the operator, system power, module types, orientation, transfer of error messages, scan rate, etc. Fig. 43: Plant Data • • • • • • • • • • • • • • • Plant Designation: Operator: Installed Power: Module area (total): Module Efficiency: Inverter Efficiency: Number of Subsystems: Storage Interval: Orientation: Tilt: Module Type: Inverter Type: E-mail contact for data transfer: Data transfer: External call prefix: • DTMF or pulse dialing: • Timeout after bell signals: • Language: 44 Appears on the start screen and in all alarms Operator of the system * Calculation of the alarm criteria Calculation of the alarm criteria Calculation of the alarm criteria Calculation of the alarm criteria Calculation of the alarm criteria Data compression every 300 ... 3,600 s Orientation of the system * Angle of inclination of the modules * Type of modules used * Type of inverters used * Address for sending the measured data Activate or deactivate data transfer Entry for external call prefix and wait time (dependent on the telephone system) Dialing method Maximum time between two bell signals Language used Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS • Call Acceptance: • Bell signals: • • • • Contact for daily file transfer: Transfer time: Cancel: Save: Activate or deactivate for parallel operation of other devices on a single telephone connection Number of bell signals until the RADIUS LOG accepts the call (1 ... 5 bell signals) Address for sending the daily file Time for sending the daily file Discards the changes Saves the changes * For information only. The entry is not used in any other place. Additional settings for “Call Acceptance Off” (analog modem) Fig. 44: Call Acceptance “Off” • Connection acceptance start-up time: • Connection acceptance stop time: • Bell signals when accepting connection: Time from which the RADIUS LOG accepts calls Time from which the RADIUS LOG stops accepting calls Number of bell signals until the RADIUS LOG accepts the call (1 ... 5 bell signals) • Connection acceptance period after reset: After a reset, the RADIUS LOG can be reached by call acceptance for the set time. Default Contact Alarm messages and measured values are sent by default to the default contact. Changes can be made in the alarm criteria, the plant messages or the system parameters. Fig. 45: Example: Default Contact • • • • • • Company / Person: Street address: Postal code: Location: Phone: Mobile phone: • Contact person: Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Name of the contact Additional information * Additional information * Additional information * Additional information * Alarm via text message (SMS). The mobile phone number may contain only numbers and spaces Additional information * 45 • Fax: • Email: • Cancel: • Save: Alarm via fax. The fax number may contain only numbers and spaces Alarm via e-mail. Several e-mail addresses must be separated from each other by a comma and a space Discards the changes Saves the changes * For information only. The entry is not used in any other place. Date / Time Setting the date and time. Fig. 46: Date and time The date is entered using the format Day, Month, Year (dd.mm.yy). The time is entered using the format Hour, Minutes, Seconds (hh:mm:ss). Note: Changing the date and time has a direct effect on data logging. Deviations in the seconds range should therefore not be corrected. • Cancel: Discards the changes • Save: Saves the changes 46 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 7.2.6 “Admin Monitoring” menu Network The network is subdivided into the areas “Settings”, “Internet”, “Email” and “SMS”. Network > Settings Settings for PPP, LAN, ISDN and Alarm Modes. Fig. 47: Network settings PPP Server Settings: Settings for the web server of the RADIUS LOG. • Server IP address: IP address of the RADIUS LOG for dial-up via PSTN modem, ISDN and GSM. Default setting: IP address: Network Mask: • Server Network Mask: • Caller IP Address: • Server telephone number: Specifies the network prefix for the network In accordance with dial-up settings 192.168.200.51 Specifies the telephone number via which the server can be reached * 192.168.200.1 255.255.255.255 * For information only. The entry is not used in any other place. LAN Interface Settings (Ethernet): RADIUS LOG Ethernet settings. • Current IP address: • Boot protocol: • Static IP Address: • Net mask: • Gateway: • DNS server: Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Current IP address of the RADIUS LOG Select from “None”, “DHCP”, “BOOTP” and “RARP” Enter the IP address if no boot protocol is used Enter the subnet mask if no DHCP or BOOTP server is selected Enter the gateway address if no DHCP or BOOTP server is selected Enter the DNS servers used 47 ISDN Terminal Adapter Settings: For an ISDN terminal adapter, the corresponding connection number must be entered. • MSN: MSN number for ISDN without prefix.This is usually the number of the extension, e.g. 3466615 Check of Alarm Modes: For testing the connection to the RADIUS LOG. Testing is possible via e-mail, fax and text message (SMS). • Test contact: Select an existing contact • Email, Fax, SMS: Select one or more alarm types • Reset: Restores the default settings • Save: Saves the changes Network > Internet Defines the Internet Service Providers (ISPs) which the RADIUS LOG uses to dial into the Internet. The designation, dial-in number, user name and password must be specified. Fig. 48: Internet settings • Reset: Restores the default settings • Save: Saves the changes Network > Email Defines the e-mail settings. 48 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Fig. 49: E-mail settings SMTP Server: • SMTP Server IP Address: • Datalogger Email Address: • Group Email Address: Note: The address of the SMTP server used Valid e-mail address of the RADIUS LOG Optional service offered by Gefran spa For e-mail transfer, the Gefran spaservice can be utilized. The following data must be used: SMTP Server IP Address: Datalogger Email Address: Group Email Address: “213.179.128.176” “[email protected]” “[email protected]” POP3 Server: Optional data for the e-mail account. • POP3 Authentification required: • POP3 Server IP Address: • POP3 User name: • POP3 Password: If authentification is required for the e-mail account, the following data must be entered The address of the POP3 server used User name for the POP3 login Password for the POP3 login Dial-in services: Selection of providers and their priority. • Left-hand box: • Upward, Downward: • «: • »: • Right-hand box: Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Selected providers in order of priority from top to bottom. If one provider is not available, the next one in the list is dialed Increase or reduce the priority of the selected provider Transfers an available provider (right-hand selection box) to the list of selected providers (left-hand selection box) Removes a selected provider from the left-hand selection box All the providers available for selection 49 Note: If e-mails are to be sent via an Ethernet connection, there must be no provider in the left-hand box. Database Synchronization Settings: If this option is set, synchronization is carried out with the database server. Note: If the option is set to “Yes”, local alarms are displayed in the web portal. • Reset: • Save: Restores the default settings Saves the changes Network > SMS Definition of the SMS server data for sending text messages 1). Fig. 50: SMS settings • Prefix(es): • • • • SMSC Telephone Number (analog): SMSC telephone number (ISDN): Reset: Save: Prefixes of the SMS server. Separate multiple entries with a semicolon Analog telephone number of the SMS server ISDN telephone number of the SMS server Restores the default settings Saves the changes 1) Only with analog, ISDN and GSM/GPRS modems Contact Addresses In addition to the default contact address, up to four further contact addresses can be defined. In the event of an error, each of these addresses is sent an alarm. 50 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Fig. 51: Settings, contact addresses Note: The contact addresses are filled out in the same way as the → Default Contact. Switching Output Determines the use of the digital output. • Start test: Sends signals to the digital output to test the function of connected devices such as signaling devices or displays Inactive: The digital output is not used. Fig. 52: Switching output (inactive) Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 51 Alarm output: Select plant alarms and criterion alarms. Fig. 53: Switching output (alarm output) Meter output: If a display is connected, a pulse constant must be specified. The pulse constant specifies how many pulses per kWh are sent to DO1 by the RADIUS LOG. Fig. 54: Switching output (meter output) 52 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Plant Messages Plant messages are information and errors from the monitoring system. Fig. 55: Plant Messages • Designation: • Status: • Alarm Type: • • • • Alarm target: Alarm Counter: Current information: Reset Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Type of message Activate or deactivate monitoring Transmission of the alarm message as e-mail, fax or text message (SMS) Contact address in the event of an alarm Number of alarms triggered Time and date of the last alarm Resets the corresponding alarm counter 53 Inverters Monitoring of various functions and sending alarms in the event of an error. Fig. 56: Plant Messages • Designation: • Status: • Alarm Type: • • • • • 54 Alarm target: Alarm Counter: Current information: Reset: Monitoring Settings: Monitoring function Activate or deactivate monitoring Transmission of the alarm message as e-mail, fax or text message (SMS) Contact address in the event of an alarm Number of alarms triggered Time and date of the last alarm Resets the corresponding alarm counter Dependent on the inverter concerned Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Formulas Criteria for monitoring the system. Fig. 57: Formulas Settings: • • • • • Designation: Status: Date/Time: Alarm target: Message type: • Delay: • Reset Counter: Name of criterion Activate or deactivate monitoring Analysis on an interval or daily basis Contact address in the event of an alarm Transmission of the alarm message as e-mail, fax or text message (SMS) Wait time after an alarm is signaled. The unit corresponds to the entry selected under “Date/Time” Sets the number of alarms triggered to “0” Formula Settings: To enter a formula, select a measured value and press the “<-” button. To enter an operator, press the corresponding button (+, -, * /). Available Measured Values: • Selection box: • Operation: Measured values (operands) for the calculation Operators for the calculation Note: Formulas must be entered in Reverse Polish Notation (RPN). Example: (a+b)*2 in RPN: a;b;+;2;* Status Alarms Definition of different alarm levels for monitoring the system. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 55 Fig. 58: Status Alarms Settings: • • • • Status: Designation: Alarm target: Message type: • • • • Alarming delay: Alarm reactivation: Number of triggered alarms: Reset Counter Activate or deactivate alarm Name of alarm Contact address in the event of an alarm Transmission of the alarm message as e-mail, fax or text message (SMS) Wait time in the alarm status until the alarm is signaled Delays retriggering of an alarm after “Reset all alarms” Shows how many alarms have been triggered Sets the number of alarms triggered to “0” Formula Settings The following relational operators can be selected: <= (less than or equal to), == (equal to) and >= (greater than or equal to). Fig. 59: Function: Analog • Function: Analog: • Limit value: • Operation: 56 If the defined limit value is exceeded, a message is sent to the contact address Value for operation Calculation for the alarm Example: Measurement on channel 1 >= Limit value of 0.8 V Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Fig. 60: Function: Status • Function: Status: If the defined status is reached, a message is sent to the contact address Value for operation (“Low”, “High”) Calculation for the alarm • Failure level: • Operation: Fig. 61: Function: Pulse meter • Function: Pulse meter: • Limit value: • Operation: If the defined limit value is exceeded, a message is sent to the contact address Value for operation Calculation for the alarm Example: Meter 1 <= Limit value of 1.0 kW. 7.2.7 “Admin Measurement” menu Analog inputs Fig. 62: Analog inputs • Add-On Module: • Type: • Status: • Designation: • Abbreviation: Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Measured values from the RADIUS LOG or from an external add-on module Voltage, current or temperature measurement from the RADIUS LOG or from a connected add-on module Activate or deactivate measurement Name of channel Channel abbreviation for use in file names. The abbreviation 57 • Unit: • Decimal places: • Gradient: • Offset: must be taken from the predefined “List of abbreviations” in order to enable synchronization with the Internet database. → Section 10, List of abbreviations Unit of measurement for the online display Number of decimal places for the online display Relationship between the physical full-scale value and the channel full-scale value → Section 7.6, Configuration examples Value added to or subtracted from the measured value → Section 7.6, Configuration examples Digital inputs Fig. 63: Digital inputs • Add-On Module: • Status: • Designation: • Abbreviation: • Unit: • Decimal places: • Pulse Constant: • Current power interval: • Meter reading 58 Measured values from the RADIUS LOG or from an external add-on module Activate or deactivate channel measurement Name of channel Channel abbreviation for use in file names. The abbreviation must be taken from the predefined “List of abbreviations” in order to enable synchronization with the Internet database → Section 10, List of abbreviations Unit of measurement for the online display Number of decimal places for the online display Conversion of the measured pulses to physical values. Unit: Pulses / kWh Mean value for a given time interval. The shorter the interval chosen, the greater the impact of fluctuations on the measurement (e.g. clouds in the case of photovoltaic systems) Current power measurement value. Manual entry of values is possible Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Add-On Modules Fig. 64: Add-On Modules • • • • • Request Interval: Status: Designation: IP Address: Port: The add-on modules are polled at this interval Activate or deactivate measurement Name of add-on module Network address of add-on module Port address of add-on module Default setting: Port 502 Device type: Type of add-on module io_081:8 digital inputs 1 digital output io_441: 4 digital inputs 4 analog inputs 1 digital output Note! The communication link between the add-on module and the RADIUS LOG must have been set up. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 59 Current Sensors (String Boxs) Fig. 65: Current Sensors Note! If the parameters “Measuring range (AC/DC)” and “Measuring range (final value)” are changed, the corresponding sensor must be recalibrated. Otherwise the measured values of the affected sensor will no longer be correct. Only use the function “Set zero value” if no current is flowing at the corresponding input. Otherwise the measured values of the sensor will no longer be correct. Address list: • New address list: • Previous address list: • Interval: Enter the bus address of the relevant sensor in the input box. Add or delete the sensor. Then accept the address list Shows the currently valid bus addresses. The list changes as soon as a new address list is added or deleted Defines the wait time between the request and the reply of the current sensors Programming of a sensor: • • • • • Select address: Change bus address: Measuring range (AC/DC): Measuring range (final value): Alarming (period): • Alarming (threshold value): • Set zero value: 60 Sensor address of the relevant sensor Change bus address of the selected sensor Measuring range AC or DC Maximum measurable current value Alarm sent after the specified time if the threshold value is exceeded Alarm sent if the threshold value is exceeded If a value is displayed for the input even when no current is Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS • Read-Out: • Write: flowing, the value for this sensor can be set to zero Read out the data for a sensor Save the changed sensor data Note! The corresponding checkbox must be activated for each value to be changed. Note! In order to be able to program the sensors with the specified values, the sensors must support the relevant options. Inverters Fig. 66: Inverters (example) Setting of Protocol - Idle Time: • Polling of 1 inverter: • Polling of 2 inverters: • Save: Idle time between two protocols Idle time between response from the first inverter and sending to the next inverter Accepts the changes Scan: • Scan: Starts a new scan process for inverters Program or delete an Inverter: • Read-Out: • Write: • Delete: Note! Read out the address and installer code of the selected inverter Save the changed data Remove the selected inverter from the list The corresponding checkbox must be activated for each value to be changed. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 61 Note! The options of the inverters vary greatly (depending on the manufacturer). For this reason, the descriptions are displayed directly in the browser. Digital Channel Energy Fig. 67: Digital Channel Energy Sum of Selected Digital Inputs: The energy values in the online display can be corrected to the relevant value. Digital Inputs considered when summing up: • Select Add-On Module: Considers measured values from the RADIUS LOG or from an external add-on module Inverter Energy Fig. 68: Inverter Energy Sum of all Inverters: The energy values in the online display can be corrected to the relevant value. 62 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Time Synchronization Synchronizes the clock time of the RADIUS LOG with the network or the Internet. Fig. 69: No Synchronization • No Synchronization No synchronization takes place. Fig. 70: Internet Synchronization • IP address of Internet time server: • Port number of Internet time server: • Current time zone: IP address of Internet time server Port number of Internet time server Specifies the time zone that applies to the RADIUS LOG → Section 7.5, List of time zones Fig. 71: Network Synchronization • IP address of network time server: • Port number of network time server: • Current time zone: • Time: Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS IP address of network time server Port number of network time server Specifies the time zone that applies to the RADIUS LOG → Section 7.5, List of time zones Network synchronization is carried out at the time defined 63 7.3 Menu structure in the web browser In the browser, the measured values of the RADIUS LOG can be viewed and parameters changed. The following menus are available: Menu Available for user group General User, Administrator Online values User, Administrator Status User, Administrator Configuration User, Administrator Admin Monitoring Administrator Admin Measurement Administrator General Login Start screen Administrator login and start screen Online values Analog / Digital Current Sensors Inverter Survey Inverter Survey Measured values from inputs, sensors, meters and inverters Status Plant Messages Inverters * ** ** Status of system and inverters ** Configuration Plant Data Default Contact Date / Time Details about system, contact information and date/time Admin Monitoring Network Settings Internet Email SMS Contact Addresses Contact 0 Monitoring settings Contact 4 Switching Output Plant Messages Inverters Formulas Criterion 0 ** Criterion 4 Status Alarms Alarm 0 Alarm 14 Admin Measurement Analog Channels Digital Channels Add-On Modules Current Sensors Inverters Digital Channel Energy Inverter Energy Time Synchronization * ** 64 Measurement settings * ** ** Option for current sensors Option for inverters Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 7.4 Note! Abbreviations Use the abbreviations when configuring the analog and digital inputs. Measured value Abbreviation Unit Grid infeed meter E_Z_EVU kWh Meter of subsystem 1 E_Z_PV1 kWh Meter of subsystem 2 E_Z_PV2 kWh Meter of subsystem 3 E_Z_PV3 kWh Irradiance in module plane 0 G_M0 W/m2 Irradiance in module plane, subsystem 1 G_M1 W/m2 Irradiance in module plane, subsystem 2 G_M2 W/m2 Irradiance in module plane, subsystem 3 G_M3 W/m2 Irradiance in horizontal plane G_H0 W/m2 Temperature, module T_M0 °C Temperature, module part 1 T_M1 °C Temperature, module part 2 T_M2 °C Ambient temperature T_U0 °C Ambient temperature 1 T_U1 °C Temperature, collector T_K0 °C Temperature, collector part 1 T_K1 °C Direct current I_DC_0 A Direct current, subsystem 1 I_DC_1 A Direct current, subsystem 2 I_DC_2 A Direct current, subsystem 3 I_DC_3 A Direct voltage U_DC_0 V Direct voltage, subsystem 1 U_DC_1 V Direct voltage, subsystem 2 U_DC_2 V Direct voltage, subsystem 3 U_DC_3 V Alternating current I_AC_0 A Alternating current, subsystem 1 I_AC_1 A Alternating current, subsystem 2 I_AC_2 A Alternating current, subsystem 3 I_AC_3 A Alternating voltage U_AC_0 V Alternating voltage, subsystem 1 U_AC_1 V Alternating voltage, subsystem 2 U_AC_2 V Alternating voltage, subsystem 3 U_AC_3 V Wind speed W_V0 m/s Wind direction W_R0 ° Air humidity F_L0 % Heat quantity, collector WM_K0 kWh Heat quantity, heating WM_H0 kWh Heat quantity, CHP WM_BHKW0 kWh Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 65 7.5 66 Time zones Zone Designation Applies to -9 AKST (Alaska Standard Time) USA: Alaska -8 PST (Pacific Standard Time) Canada, USA, Mexico -7 MST (Mountain Standard Time) Canada, USA, Mexico -6 CST (Central Standard Time) Canada, USA, Mexico -5 EST (Eastern Standard Time) Canada, USA, Brazil -4 AST (Atlantic Standard Time) Canada -3 Argentina, Brazil -2 Brazil -1 Greenland, Azores 0 WET (West European Time) Western Europe +1 CET (Central European Time) Central Europe +2 EET (East European Time) Eastern Europe +3 MSK (Moscow Time) Russia +4 Russia, United Arab Emirates +5 Russia +6 Russia +7 ICT (Indochina Time) Russia, Indonesia +8 CNST (China Standard Time) Australia, P. R. China, Russia +9 JST (Japan/Korea Standard Time) Japan, Korea, Russia, Indonesia +10 AEST (Australian Eastern Standard Time) Australia, Russia Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 7.6 7.6.1 Configuration examples Analog inputs Voltage input Calculation rule for the relationship between the measured value and the physical value: [ Physical value ] = [ IV ] × [ Gradient ] + [ Offset ] [ IV ] = Instantaneous channel value [ Gradient ] = [ Offset ] Physical full-scale value Channel full-scale value = Physical measured value Example 1: A sensor with the sensor constant 10 V=1,500 W/m2 is to be connected to an analog input. The full-scale value of the input is 10 V. This results in the gradient: [ Gradient ] = 1500 W/m² 10 = 150 If the channel shows no offset during calibration, this is entered as “0”. If the channel shows an offset (e.g. +15 W/m2) during calibration, the following offset results: [ Offset ] = -15 W/m² Example 2: A PT 1000 is to be connected to a cable via a measuring transducer. The measuring transducer supplies an output voltage of 0 V at -50 °C and an output voltage of 10 V at +100 °C. This results in a physical full-scale value of 150 °C. This results in the gradient: [ Gradient ] = 150 °C = 15 10 The temperature is measured from -50 °C, resulting in the following offset: [ Offset ] = -50 °C Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 67 Current input Calculation rule for the relationship between the measured value and the physical value: [ Physical value ] = [ IV ] × [ Gradient ] + [ Offset ] [ IV ] = Instantaneous channel value [ Gradient ] = [ Offset ] 7.6.2 Physical full-scale value Channel full-scale value = Physical measured value Digital inputs The following equation applies for the conversion: Physical measured value = ∑ pulses Meter constant Example : A meter supplies 6,000 pulses / kWh and is to be connected to a digital input. This meter constant is entered in the “Pulse constant” box in the browser. The desired time interval is entered in the “Interval for current power” box. The pulses are added up during the time interval and converted to the mean power for this time interval. 68 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 7.6.3 Alarm criteria An example is given here to explain how the RADIUS LOG can be used to implement simple and effective system monitoring. Example: A photovoltaic system is equipped with an irradiance sensor for measuring the irradiance at the module level, and a power generation meter with a pulse output. The system is to report a defect via an alarm call. Monitoring principle The relationship between irradiance and generated power is calculated: = [ Irradiance [ Generated power ] × Area Module × η Module × η Inverter ] For PV modules with an efficiency of 12%, an inverter efficiency of 91% and a module area of 10 m2, the idealized relationship can be represented graphically as follows: 1,1 1,0 0,9 0,8 0,7 Pac [kW] 0,6 0,5 0,4 0,3 0,2 0,1 0 0 100 200 300 400 500 600 700 800 900 1000 1100 Gmod [W/m²] Fig. 72: Relationship between irradiance and generated power Pac Power in kW Gmod Irradiance in W/m2 In practice, the relationship between irradiance and generated power is not exactly linear (lower irradiance > low efficiency). For this reason, a range is defined within which the measured values may vary. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 69 1,4 4 1,2 1,0 1 5 Pac [kW] 0,8 0,6 6 2 0,4 0,2 3 0 0 100 200 300 400 -0,2 500 600 Gmod [W/m²] 700 800 900 1000 -0,4 Fig. 73: Valid range for measured values Pac Gmod (1) (2) Power in kW Irradiance in W/m2 Upper limit exceeded Valid range (3) (4) (5) (6) Lower limit exceeded Upper limit Ideal relationship Lower limit To allow maximum flexibility in defining the range, the straight lines of the lower and upper limits can have different gradients. The offset of the straight lines by tupper and tlower is defined as an absolute quantity. The equations of the limit lines are defined as follows: Lower limit: Y < mlower X tlower Pac < mlower (GModule Upper limit Y > mupper X AArry ηPV ηINV) (tlower Pnom) AArry ηPV ηINV) (tupper Pnom) tupper Pac > mupper (GModule Gradient mlower = 0.85 mupper = 1.1 Offset tlower = -0.25 tupper = 0.15 Parameters Settings under “Admin Monitoring” > “Formulas” > “Criterion X”. 70 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Definition of the alarm criterion: • Designation “Power over irradiance” • Status “active” • Date/Time “Interval” • Alarm target “Datenbank-Server” • Message type “Email” • Delay “8” A delay of “8” results in an alarm delay of two seconds for a 15-minute measuring interval. Note! The relevant contact for the alarm target must be set up for sending the alarm message. Formula Settings: • • • • • • Y m (Lower limit) m (Upper limit) x c (Lower limit) c (Upper limit) Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Generation PVA (dig_0) 0.85 1.1 Irradiance module (ana_0);system area;*;ηPV;ηINV;* 200 200 71 8. Format of internal memory data Data stored in the internal memory of the data logger can be accessed directly via FTP over a local Ethernet network as described in chapter 4.2.2. 8.1 Format of data records in the flash memory The files can be read via FTP. User name : admin, password: admin. Recorded data are stored in the directory: \DATA For each day there is a directory called YYMMDD (year, month, day) This contains 3 files. 1. Int_ana_YYMMDD.txt (analog input data) 2. int_gefran_YYMMDD.txt (inverter data) 3. int_gefran_sb_YYMMDD.txt (string box data 1. String box data This file contains the measurements on analog inputs using the configured scale factors. The file comprises the following: Information section Content of file Remarks [info] Start of section Anlage= Name of plant Name of plant Datum= YYMMDD Date created Measurement section Content of file Remarks [messung] data description line; Ora;Interval;ID_an1; ID_an2; ID_an3; ID_an4; data description line; Ora: time saved Interval: Interval of time since previous recording ID_an1: identifier of variable connected to analog input 1 ID_an2: identifier of variable connected to analog input 2 … ;s;um_1; um_2; um_3; um_4; description of units of measure used in the various fields Ora (time) field format is hh:mm s: interval unit of measure (seconds) um_1:unit of measure of the variable connected to analog input 1 Data section 72 Content of file Remarks [Start] Start of section Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Content of file Remarks Info; Time Indicates a data logger restart. This field can be repeated several times in the data section 09:15:00;273;-49.5;462;22.3 09:30:00;900;-49.5;463;22.4 09:45:00;900;-49.5;465;22.6 10:00:00;900;-49.5;467;22.7 10:15:00;900;-49.4;469;22.8 10:30:00;900;-49.5;470;22.9 10:45:00;900;-49.5;471;23.0 11:00:00;900;-49.5;473;23.1 11:15:00;900;-49.4;474;23.3 Recorded values in the order described in the measurement section Where data are shown as: 09:30:00;900;;;22.4 the empty field after the separator indicates that no data were recorded. E.g. the inverter did not reply. 2. Format of data in the int_gefran.... .txt file This file contains measurements acquired by inverters. The file comprises the following: Information section Content of file Remarks [info] Start of section Anlage= Name of plant Name of plant Datum= YYMMDD Date created Measurement section Content of file Remarks [messung] Start of section ;s;Adresse;Typ;Inv_size;Inv_State;SPARE1;SPARE2;T_ WR;Seq_State;ALARM1;ALARM2;ALARM3;SPARE 3;P_AC;E_AC;E_DAY;SPARE5;I_AC;U_AC;F_AC;U_ LV;COS_PHI;U_GRID;I_GRID;I_DC;;E_int data description line ;s;;;;;;;°C;;;;;;kW;kWh;kWh;;A;V;Hz;V;;V;A;A;;kWh Unit of measure line n Name Meaning 1 Ora time saved (format: hh,mm.ss) 2 Interval Interval of time since previous recording 3 Addresse Inverter address 4 Typ Inverter type 5 Inv_size Inverter size 6 Inv_ state Inverter status (IPA 12...) 7 Spare1 Not used 8 Spare2 Not used 9 T_wr Heat sink temperature 10 Seq_State Conversion unit status (IPA ...) 11 Alarm1 See APV Solar Inverters manual, Alarm code 1 in chap. 10.2 12 Alarm2 See APV Solar Inverters manual, Alarm code 2 in chap. 10.2 13 Alarm3 See APV Solar Inverters manual, chap. 10.2 Application Alarm 14 Spare3 Not used 15 P_AC Conversion unit output power kW 16 E_AC Total AC energy kWh 17 E_Day Daily AC energy kWh 18 Spare5 Not used 19 I_AC AC conversion unit output current A 20 U_AC AC conversion unit output voltage V Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Unit of measure s °C 73 n Name Meaning Unit of measure 21 F_AC Frequency Hz 22 U_LV Voltage DC side V 23 COS_PHI Power factor 24 U_GRID Grid voltage V 25 I_GRID Grid current A 26 I_DC DC current A 27 - Not used E_int Energy produced kWh Data section Content of file Remarks [Start] Start of section Info; Time Indicates a data logger restart. This field can be repeated several times in the data section 17:00:00;388;1;100;4;6;10;129;30.. 17:15:00;900;1;100;4;6;10;129;30.. 17:30:00;900;1;100;4;6;10;129;30.. 17:45:00;900;1;100;4;6;10;129;30.. 18:00:00;900;1;100;4;6;10;129;30.. 18:15:00;900;1;100;4;6;10;128;30.. 18:30:00;900;1;100;4;6;10;129;30.. Recorded values in the order described in the measurement section Where data are shown as: 09:30:00;900;;;22.4 the empty field after the separator indicates that no data were recorded. E.g. the inverter did not reply. 3. Format of data in the int_gefran_sb.... .txt file Format of data in the int_gefran_sb.... .txt file Information section Content of file Remarks [info] Start of section Anlage= nome impianto Name of plant Datum= YYMMDD Date created Measurement section 74 Content of file Remarks [messung] Start of section ;s;Adresse;Typ;S_VERS;Thres_dev;Time_dev;Str_ State;;;SPARE1;;I_DC0;I_DC1;I_DC2;I_DC3;I_DC4;I_ DC5;I_DC6;I_DC7;T_AMB;T_PAN;T_CARD;v;Irr;DIG_ INPUT;SPARE2;SPARE3;SPARE4 Start of section ;s;;;;;;;;;;mA;mA;mA;mA;mA;mA;mA;mA;mA;°C;°C;°C ;m/s;;;;; Unit of measure line n Name Meaning Unit of measure 1 Ora time saved (format: hh,mm.ss) s 2 Interval Interval of time since previous recording 3 Addresse String box address 4 Typ Not used 5 S_VERS String box software version 6 Thres_dev % 7 Time_dev S Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS n Name Meaning 8 Str_State String box status 9 Not used 10 Not used 11 SPARE1 12 Unit of measure Not used Not used 13 I_DC0 String 1 current, the default value is averaged to 300 s mA 14 I_DC1 String 2 current, the default value is averaged to 300 s mA 15 I_DC2 String 3 current, the default value is averaged to 300 s mA 16 I_DC3 String 4 current, the default value is averaged to 300 s mA 17 I_DC4 String 5 current, the default value is averaged to 300 s mA 18 I_DC5 String 6 current, the default value is averaged to 300 s mA 19 I_DC6 String 7 current, the default value is averaged to 300 s mA 20 I_DC7 String 8 current, the default value is averaged to 300 s mA 21 T_AMB Ambient temperature °C 22 T_APN Module temperature °C 23 T_CARD Card temperature °C 24 V(wind) Wind speed m/s 25 Irr(aggiamento) Radiation W/mq 26 DIG_INPUT Digital input status 27 SPARE2 Not used 28 SPARE3 Not used 29 SPARE4 Not used 30 SPARE Not used Data section Content of file Remarks [Start] Start of section Info; Time Indicates a data logger restart. This field can be repeated several times in the data section 14:30:00;887;101;.. 14:30:00;887;102;.. 14:45:00;900;101;.. 14:45:00;900;102; .. Recorded values in the order described in the measurement section Where data are shown as: 09:30:00;900;;;22.4 the empty field after the separator indicates that no data were recorded. E.g. the inverter did not reply. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 75 Data logger commissioning IP used for connection to the outside. Scheme of communicatios ways between RADIUS LOG and RADIUS PORTAL E-Mail sending Mailbox Mailbox Stat Time synchronization smtp http ftp (ot of date) bidt (out of date) NTP or TIME 25 80 or 8572 20 and 21 5151 23 Ip adress 213.179.128.176 213.179.128.168 and 213.179.128.183 213.179.128.176 213.179.128.168 132.163.4.102 Function alarms, daily fils of data shortest contact to the portal 15 minutes shortest contact to the portal 60 minutes - ISDN, Analog, GSM, GPRS, DSL GPRS, DSL GPRS, DSL ISDN, Analog, GSM Protocoll Port Available at Fax SMS time update on the RADIUS LOG forwarding of daily data files and alarms forwarding of alarms always ISDN, Analog, GSM, GPRS ISDN, Analog, GSM, GPRS RADIUS LOG offers the following servers: server telnet ftp User admin admin Password admin admin ist02 admin Function using prompt for commands direct access to the compact flash storage graphical user interface connection via data telecommunication 76 http PPP-server admin Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 9. Technical data Dimensions 45,0 14,0 8,5 90,0 mm 8,5 14,0 9.1 26,5 21,5 25,0 68,0 73,0 mm Fig. 74: Dimensions, side view 89,40 35,30 35,0 27,0 90,0 mm 28,0 35,30 160,00 mm Fig. 75: Dimensions, rear view Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 77 9.2 RADIUS LOG-PRO PLUS AMBIENT TEMPERATURE Operation: 0 ... 55 °C Storage and transportation: -20 ... 65 °C Protection rating: IP20 TECHNICAL DATA Power supply: AC: 230 V (85 ... 260 V AC, 47 ... 63 Hz) or DC: 24 V Analog inputs (configurable): Number: 4 Voltage measurement: 0 ... 10 V DC (max. 24 V DC) Current measurement: 0 ... 20 mA (max. 40 mA / 3 V DC) Resistance measurement: PT1000 Digital inputs (configurable): Number: 4 Pulse input acc. to DIN 43864 (S0) DC: Low = 0 ... 7 V , High = 9 ... 24 V (function only via the device’s internal power supply!) Switchable to status input Digital output: Number: 1 Optocoupler output acc. to DIN 43864 (S0) Max. load 70 V DC / 50 mA (observe correct polarity!) Alarm output or pulse output Power consumption: AC: max. 9 W at 230 V (in meas. mode without sensors) DC: max. 3.5 W at 24 V (in meas. mode without sensors) DISPLAY Display 192×32 pixels LED 4 x LED indicators INTERFACES Modem (options): PSTN modem (analog) ISDN modem GSM/GPRS modem (Quad-band modem 900/1800/850/1900 MHz) Network: Ethernet connection (100 MBit) Communication: 1× RS485 / RS422, switchable MEASURING ACCURACY Voltage input: 1% of full scale (0.1 V) Current input: 1% of full scale (0.2 mA) VARIOUS MEMORY Compact Flash card BATTERY Lithium cell / type Li2032, clock back-up battery MECHANICAL DATA 78 Size: 160 × 110 × 63 mm (W×H×D) Installation: Installation on top-hat rail or on wall Weight: 436 g Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 9.3 RADIUS LOG-PRO AMBIENT TEMPERATURE Operation: 0 ... 55 °C Storage and transportation: -20 ... 65 °C Protection rating: IP20 TECHNICAL DATA Power supply: AC: 230 V (85 ... 260 V AC, 47 ... 63 Hz) or DC: 24 V Analog inputs (configurable): Number: 1 Voltage measurement: 0 ... 10 V DC (max. 24 V DC) Current measurement: 0 ... 20 mA (max. 40 mA / 3 V DC) Resistance measurement: PT1000 Digital inputs (configurable): Number: 1 Pulse input acc. to DIN 43864 (S0) DC: Low = 0 ... 7 V , High = 9 ... 24 V (function only via the device’s internal power supply!) Switchable to status input Digital output: Number: 1 Optocoupler output acc. to DIN 43864 (S0) at 24 V Max. load 70 V DC / 50 mA (observe correct polarity!) Alarm output or pulse output Power consumption in measurement mode: approx. 7.5 W at 230 V AC (without sensors) approx. 2.4 W at 24 V DC (without sensors) DISPLAY Display 2×16 characters LED 4 x LED indicators INTERFACES Modem (options): PSTN modem (analog) ISDN modem Network: Ethernet connection (100 MBit), Base100-TX Communication: 1× RS485 / RS422, switchable MEASURING ACCURACY Voltage input: 1% of full scale (0.1 V) Current input: 1% of full scale (0.2 mA) VARIOUS MEMORY Compact Flash card BATTERY Lithium cell / type Li2032, clock back-up battery MECHANICAL DATA Size: 160 × 110 × 63 mm (W×H×D) Installation: Installation on top-hat rail or on wall Weight: 436 g Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 79 9.4 RADIUS LOG-BASIC AMBIENT TEMPERATURE Operation: 0 ... 55 °C Storage and transportation: -20 ... 65 °C Protection rating: IP20 TECHNICAL DATA Power supply: AC: 230 V (85 ... 260 V AC, 47 ... 63 Hz) DC: 24 V Analog inputs (configurable): Number: 1 Voltage measurement: 0 ... 10 V DC (max. 24 V DC) Current measurement: 0 ... 20 mA (max. 40 mA / 3 V DC) Resistance measurement: PT1000 Digital inputs (configurable): Number: 1 Pulse input acc. to DIN 43864 (S0) DC: Low = 0 ... 7 V , High = 9 ... 24 V (function only via the device’s internal power supply!) Switchable to status input Digital output: Number: 1 Optocoupler output acc. to DIN 43864 (S0) Max. load 70 V DC / 50 mA (observe correct polarity!) Alarm output or pulse output Power consumption in measurement mode: approx. 7.5 W at 230 V AC (without sensors) approx. 2.4 W at 24 V DC (without sensors) DISPLAY Display 2×16 characters LED 4 x LED indicators INTERFACES Modem (options): PSTN modem (analog) Network: Ethernet connection (100 MBit), Base100-TX Communication: 1× RS485 / RS422, switchable Maximum of 5 inverters, 20 kWp MEASURING ACCURACY Voltage input: 1% of full scale (0.1 V) Current input: 1% of full scale (0.2 mA) VARIOUS MEMORY Compact Flash card BATTERY Lithium cell / type Li2032, clock back-up battery MECHANICAL DATA 80 Size: 160 × 110 × 63 mm (W×H×D) Installation: Installation on top-hat rail or on wall Weight: 436 g Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 9.5 Battery The battery serves to back up the clock time if no time synchronization via the network or Internet is used. Power is only drawn from the battery in the event of a power failure. If the battery is depleted and a power failure occurs, the clock time is lost. A lithium cell battery is used. The battery has a storage life of at least 10 years. The service life of the battery in the device is at least 5 years. To change the battery, the device must be sent in to the manufacturer. Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 81 10. Troubleshooting Fault Remedy No display Power LED does not light up Check the power supply Status LED does not flash No memory card (Compact Flash) inserted No data on the inserted memory card No IP address assigned to the device by the DHCP server Check the network connection Start the device once a network connection has been established If there is no DHCP server in the network, use manual network settings Internet connection via cable does The internet connection must be via a router. Direct connection to a cable modem is not possible not work 82 No signal strength indicated on the GSM / GPRS device The PIN number of the SIM card must be set to the same number as the GSM PIN in the device. Only if both numbers are the same can the device be connected to the mobile radio network via GSM / GPRS No inverter found Inverters must be switched on during scanning Check the bus cabling. Suitable data cable used? Set the bus address in the inverter (manufacturer-specific) Check the terminator to prevent signal reflections Connect the shield of the bus cabling Check the interfaces of the inverters Energy meter not detected Check the cabling (polarity) Check that the digital input is active Has the pulse constant been entered? No data or alarms sent via the telephone connection Check the function of the telephone connection using a telephone. Check that the connection is not subject to dialing restrictions (e.g. premium-rate numbers). Establish a test connection to an Internet provider (e.g. MSN 0193670). If necessary, cancel any dialing restrictions, or use a different Internet provider Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 11. Terms and abbreviations Term Meaning BOOTP (Bootstrap Protocol) Protocol used by a boot server to assign an IP address and other parameters to a device. CF (Compact Flash) Storage medium for electronic data Current sensor For measuring currents (direct or alternating current) DHCP (Dynamic Host Configuration Protocol) Protocol used by a DHCP server to set the network configuration of devices Ethernet Wired hardware for data exchange in a local network Gateway Connects different networks with each other. The networks can use different protocols. GSM (Global System for Mobile Communications) Digital mobile radio network GPRS (General Packet Radio Service) Service for data transmission in GSM networks HTML (Hypertext Markup Language) Text-based markup language with hyperlinks for display in a web browser Hyperlink Cross-reference to a place in the same or a different document Internet (interconnected networks) Worldwide computer network INV (inverter) Converts direct current into alternating current IP address Address for using a device on the Internet ISDN (Integrated Services Digital Network) Digital telephone network LAN (Local Area Network) Local network Login Service for logging on to a computer system Modem Device for modulating and demodulating signals for sending over telephone networks MSN (Multiple Subscriber Number) With an ISDN multiple-device connection, each ISDN terminal is assigned its own number (MSN number). PPP (Point-to-Point Protocol) Protocol for establishing data links via telephone networks Provider Service provider (e.g. Internet provider) PSTN (Public Switched Telephone Network) Analog telephone network RARP (Reverse Address Resolution Protocol) Protocol used by a RARP server to determine the IP address of a device Repeater Extends the maximum permissible cable length of a local network SIM card (Subscriber Identity Module) Chip card for identifying a mobile telephone in the telephone network SMS (Short Message Service) Service for transmitting short messages Switch / Hub Links computers to a local network Terminator Prevents reflections in bus cables, which could otherwise lead to errors in the data transmission. Web browser Program for viewing HTML files and images WWW (World Wide Web) Worldwide hypertext system readable with a web browser Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS 83 84 Data Logger • RADIUS LOG - BASIC / PRO / PRO PLUS Gefran worldwide GEFRAN SUISSE SA Rue Fritz Courvoisier 40 2302 La Chaux-de-Fonds Ph. +41 (0) 329684955 Fax +41 (0) 329683574 [email protected] GEFRAN DEUTSCHLAND Philipp-Reis-Straße 9a 63500 SELIGENSTADT Ph. +49 (0) 61828090 Fax +49 (0) 6182809222 [email protected] SIEI AREG - GERMANY Gottlieb-Daimler-Strasse 17/3 D-74385 Pleidelsheim Ph. +49 7144 89 736 0 Fax +49 7144 89 736 97 [email protected] GEFRAN ESPAÑA Josep Pla, 163 2°-6ª 08020 BARCELONA Ph. +34 934982643 Fax +34 932662713 [email protected] GEFRAN S.p.A. Via Sebina 74 25050 Provaglio d’Iseo (BS) ITALY Ph. +39 030 98881 Fax +39 030 9839063 [email protected] www.gefran.com www.radius-gefran.com GEFRAN SIEI Electric Pte Ltd Block B, Gr.Flr, No.155, Fu Te Xi Yi Road, Wai Gao Qiao Trade Zone 200131 Shanghai - CHINA Ph. +86 21 5866 7816 Ph. +86 21 5866 1555 [email protected] GEFRAN SIEI - UK Ltd. 7 Pearson Road, Central Park TELFORD, TF2 9TX Ph. +44 (0) 845 2604555 Fax +44 (0) 845 2604556 [email protected] GEFRAN SIEI Drives Technology No.1265, Beihe Road, Jiading District 201821 Shanghai - CHINA Ph. +86 21 69169898 Fax +86 21 69169333 [email protected] GEFRAN Inc. Sensors and Automation 8 Lowell Avenue WINCHESTER - MA 01890 Toll Free 1-888-888-4474 Ph. +1 (781) 7295249 Fax +1 (781) 7291468 [email protected] GEFRAN INDIA Pvt. Ltd. Survey No: 182/1 KH, Bhukum, Paud road, Taluka – Mulshi, Pune - 411 042. MH, INDIA Ph:+91-20-3939 4400 Fax: +91-20-3939 4401 [email protected] Motion Control 14201 D South Lakes Drive CHARLOTTE - NC 28273 Ph. +1 704 3290200 Fax +1 704 3290217 [email protected] Drive & Motion Control Unit Via Carducci 24 21040 Gerenzano [VA] ITALY Ph. +39 02 967601 Fax +39 02 9682653 [email protected] Technical Assistance : [email protected] Customer Service : [email protected] Ph. +39 02 96760500 Fax +39 02 96760278 1SL06EN GEFRAN BRASIL ELETROELETRÔNICA Avenida Dr. Altino Arantes, 377/379 Vila Clementino 04042-032 SÂO PAULO - SP Ph. +55 (0) 1155851133 Fax +55 (0) 1132974012 [email protected] GEFRAN SIEI - ASIA Blk. 30 Loyang way 03-19 Loyang Industrial Estate 508769 SINGAPORE Ph. +65 6 8418300 Fax. +65 6 7428300 [email protected] Rev. 0.0 -6-8-2010 GEFRAN FRANCE 4, rue Jean Desparmet - BP 8237 69355 LYON Cedex 08 Ph. +33 (0) 478770300 Fax +33 (0) 478770320 [email protected] Manuale RADIUS LOG -EN GEFRAN BENELUX Lammerdries-Zuid, 14A B-2250 OLEN Ph. +32 (0) 14248181 Fax. +32 (0) 14248180 [email protected]