User manual CARLO GAVAZZI PQT-90 CONFIGURATION

[. . . ] OUR SALES NETWORK Carlo Gavazzi GmbH Wien - AUSTRIA Carlo Gavazzi NV/SA Vilvoorde - BELGIUM Carlo Gavazzi Inc. Mississauga, ON - CANADA Montreal, PQ - CANADA Carlo Gavazzi Handel A/S Hadsten - DENMARK Carlo Gavazzi OY AB Helsinki - FINLAND Carlo Gavazzi Sarl Roissy - FRANCE Carlo Gavazzi GmbH Weiterstadt - GERMANY Carlo Gavazzi UK Ltd Aldershot - GREAT BRITAIN Carlo Gavazzi SpA Lainate (MI) - ITALY Carlo Gavazzi Automation Sdn Bhd Petaling Jaya, Selangor - MALAYSIA Carlo Gavazzi BV Beverwijk - NETHERLANDS Carlo Gavazzi AS Porsgrunn - NORWAY Carlo Gavazzi Lda Lisboa - PORTUGAL Carlo Gavazzi SA Leioa (Bizkaia) - SPAIN Carlo Gavazzi AB Karlstad - SWEDEN Carlo Gavazzi AG Steinhausen - SWITZERLAND Carlo Gavazzi Inc. Buffalo Grove IL - USA CARLO GAVAZZI Automation Components PqtSoft Network-Remote PQT-90 INSTRUCTION MANUAL OUR PRODUCTION SITES Carlo Gavazzi Industri A/S Hadsten - DENMARK Carlo Gavazzi Ltd Zejtun - MALTA Carlo Gavazzi Controls SpA Belluno - ITALY SAIET Elettronica SpA Castel Maggiore (BO) - ITALY Inductive and Capacitive Proximity Sensors in full metal and plastic housings. Level Sensors: Optical, Conductive and Capacitive. [. . . ] Before powering the instrument, make sure that the power supply voltage correspond to the values on the label of the power supply module. 2 3 4 The last module to be placed will be the central module whose function is to lock all other modules. s Overall dimensions and DIN-rail mounting 90mm 138mm 1 1 Release the central module levering on the fixing tabs by means of a screwdriver. 52 Available modules 42 42 Installation PQT-90 Instruction manual PQT-90 Instruction manual Installation 43 s Position of the slots and relevant modules DESCRIPTION Single analogue output Dual analogue output RS485 serial output A B PU C D RS232 serial output Single relay output Open collector single output Dual relay output PS IM Dual open collector output Quadruple open collector output 3 digital inputs 3 digital inputs + AUX Power supply Inputs A B C D PU PS IM s Available modules Analogue output modules Single analogue output AO1050 (20mADC) AO1051 (10VDC) AO1052 (±5mADC) AO1053 (±10mADC) Dual analogue output AO1026 (20mADC) AO1027 (10VDC) AO1028 (±5mADC) AO1029 (±10mADC) AO1054 AO1055 AO1056 AO1057 (±20mADC) (±1VDC) (±5VDC) (±10VDC) Digital output open collector modules AO1030 AO1031 AO1032 AO1033 (±20mADC) (±1VDC) (±5VDC) (±10VDC) AO1058 Single relay output AO1035 Dual relay output AO1059 Single open collector output AO1036 Dual open collector output 40 52 Optional modules connection 45 44 Installation PQT-90 Instruction manual PQT-90 Instruction manual Installation s Optional modules connections Digital inputs 45 Digital input modules AQ1038 3 digital inputs AQ1042 3 digital inputs + aux Connection by means of NPN transistor. AQ1042 Digital inputs module. Serial output modules Connection by means of PNP transistor. AR1041 RS232 Interface + RTC+ 2Mb Data Memory AR1034 RS485 Interface Power supply modules AP1020 90-260 VAC/DC Power supply AP1021 18-60VAC/DC Power supply Connection by contacts. Digital inputs module AQ1042. Connection by contacts. Digital inputs module AQ1038. 42 40 Modules position 52 Electrical connections 49 46 Installation PQT-90 Instruction manual PQT-90 Instruction manual Installation Analogue outputs 47 Relay outputs AO1058 Single relay outputs. AO1035 Dual relay outputs. 1 analogue output (mA) 2 analogue outputs (mA) Open collector outputs AO1059 open collector single output. AO1036 open collector dual output. This diagram is valid also for the single output open collector module. The value of the load resistances (Rc) must be chosen so that the short circuit current is lower than 100 mA; the VDC voltage must be lower than or equal to 30VDC. 1 analogue output (V) 2 analogue outputs (V) 40 52 Output modules specifications 61 48 Installation PQT-90 Instruction manual PQT-90 Instruction manual Installation s Electrical diagrams Three-phase, 3/4 wires, Balanced load 49 RS485/422 (AR1034) Serial port 4-wire connection. Additional devices provided with RS485/422 (that is RS 1, 2, 3, . . . N) are connected in parallel. Direct connection (3-wire system) CT connection (3-wire system) 2-wire connection. Additional devices provided with RS485/422 (that is RS 1, 2, 3, . . . N) are connected in parallel. The termination of the serial output is carried out only on the last instrument of the network, by means of a jumper between (Rx+) and (T). We recommend you to use the 4-wire connection: by means of the serial port the data are exchanged faster. CT and VT connection (3-wire system) Direct connection (4-wire system) 45 40 Optional modules connections 52 Input features 59 50 Installation PQT-90 Instruction manual PQT-90 Instruction manual Installation 51 Three-phase, 4-wire connection, balanced Load Three-phase, 3/4 wire connection, unbalanced load CT connection (4-wire system) CT and VT connection (4-wire system) CT and VT connection (4-wire system) CT and VT connection (3-wire system) Three-phase, 4-wire connection, unbalanced load ARON connection, Three-phase, 3 wires, Unbalanced load Direct connection (4-wire system) CT connection (4-wire system) ARON CT connection (3-wire system) ARON CT and VT connection (3-wire system) 40 58 52 Installation PQT-90 Instruction manual PQT-90 Instruction manual Useful info Single phase connect. 53 3-phase, 3-wire conn. s Data logging operating principle and duration The data logging duration depends on the number of variables that you want to log (from 1 to 8), from the selected integration time (from 1 to 60 minutes) and from the activation, if any, of the max. /min. The following table simplifies the duration of the data logging according to the selections. The datum logged in the selected time interval (ti as shown in the graph below) results from the continuous average of the measured values (samples). The average value is calculated with an interval of approx. 200 ms between two subsequent measurements (samples); as a result, the historical data value will be extremely accurate. 3 CT and 3 VT connection (3-wire system) Direct connection Average value of the "n" sample Max "n" Average value of the "n+1" sample Max "n+1" Average value of the "n+2" sample Max "n+2" Single-phase connection Min "n" Min "n+1" Min "n+2" ti ti ti ti= time interval (programmable from 1 to 60 minutes) CT connection CT and VT connection 40 58 Data logging duration 54 54 Avg values Useful info PQT-90 Instruction manual PQT-90 Instruction manual Useful info 4 Sel. variables 6 Selected variables Data logging duration DAYS 61 305 610 915 WEEKS 9 44 87 131 174 218 262 305 349 392 436 479 523 YEARS 1. 7 2. 5 3. 4 4. 2 5 5. 9 6. 7 7. 5 8. 4 9. 2 10. 1 55 2 Sel. variables 8 Selected variables Data logging duration DAYS 49 244 488 732 976 WEEKS 7 35 70 105 139 174 209 244 279 314 349 384 418 YEARS 1. 3 2 2. 7 3. 4 4 4. 7 5. 4 6 6. 7 7. 4 8 Time Data logging duration Data logging duration intervals (min. ) DAYS WEEKS YEARS DAYS WEEKS YEARS 1 122 17 81 12 5 610 87 1. 7 407 58 1. 1 10 174 3. 4 814 116 2. 2 15 262 5. 0 174 3. 4 20 349 6. 7 232 4. 5 25 436 8. 4 291 5. 6 30 523 10. 1 349 6. 7 35 610 11. 7 407 7. 8 40 697 13. 4 465 8. 9 45 785 15. 1 523 10. 1 50 872 16. 8 581 11. 2 55 959 18. 4 639 12. 3 60 20. 1 697 13. 4 Avg+Min+Max Values 1 5 10 15 20 25 30 40 50 60 73 365 732 10 52 104 156 208 262 314 418 523 628 1 2 3 4 5 6 8 10. 1 12. 1 43 215 431 646 861 6 31 62 92 123 154 185 246 308 369 1. 2 1. 8 2. 4 3 3. 5 4. 7 5. 9 7. 1 31 153 305 458 610 763 915 - 4 22 44 65 87 109 131 174 218 262 1. 3 1. 7 2. 1 2. 5 3. 4 4. 2 5 24 118 236 354 472 591 709 945 - 3 17 34 51 67 84 101 135 169 202 1 1. 3 1. 6 1. 9 2. 6 3. 2 3. 9 53 53 Data Logging Principle 58 56 Useful info PQT-90 Instruction manual PQT-90 Instruction manual Useful info REQUIRED INFORMATION VL1, VL2, VL3, VL-N VL1-2, VL2-3, VL3-1, VL AL1, AL2, AL3, An WL1, WL2, WL3, W VAL1, VAL2, VAL3, VA varL1, varL2, varL3, var PFL1, PFL2, PFL3, PF Wdmd, VAdmd, vardmd, PFavg Log1, Log2, Log3, Log4, Log5, Log6, Log7, Log8 Total kWh+, kvarh+, kWh-, kvarhWinter kWh+, kvarh+, kWh-, kvarhSummer kWh+, kvarh+, kWh-, kvarhHolidays kWh+, kvarh+, kWh-, kvarhAlarm status QUESTION CODE PQT. xxx. VN PQT. xxx. VL PQT. xxx. A PQT. xxx. W PQT. xxx. VA PQT. xxx. VAR PQT. xxx. PF PQT. xxx. DMD PQT. xxx. LOG 57 REPLY s Application bar: meaning of the icon When the PC is going to start the connection with the remote instrument, one icon appears on the application bar [1] indicating the status of the connection. [1] Represents a modem where two "green LEDs" flash alternately during RX and TX between a PC and a PQT. PQT. xxx:[info] PQT. xxx:[info] PQT. xxx:[info] PQT. xxx:[info] PQT. xxx:[info] PQT. xxx:[info] PQT. xxx:[info] PQT. xxx:[info] PQT. xxx:[info] 1 s How to use SMS messages Once the instrument is enabled to send and receive SMS messages, the user may ask the instantaneous variables, the last available variables in the data logging, the energy meters and the alarm status. The table on next page identifies the codes to be entered in the mobile phone in order to obtain the desired information. Generic message to be sent to the instrument: "PQT. [code of required information]"; then confirm the message and send it (follow the instructions given by your mobile phone). "xxx": access password to read the variables via SMS messages. [. . . ] Clicking the "end" button, the relevant dialog box (see below) will be opened. To proceed, press the "Next" button. [2] For further information on the management of the contacts and the dialling properties see page 87. 71 72 Mode and connection type 83 84 Last functions PQTSoft Network PQTSoft Network Last functions 85 s Configuration of analogue modem and GSM s Contact management Selection of connections and setting of dialling properties This function allows the management of the contact list: cre- Automatic configuration of analogue modem: it allows the automatic configuration of the analogue modem. Follow the instructions given in the dialogue box, then verify that the connections related to the communication between modem and PC are ok and finally click the "OK" button. [. . . ]