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Progres AGRONIC 4000 Instruction Manual
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Section
Theme
1.
INDEX/PRESENTATION
2.
BASIC FUNCTIONAL DESCRIPTION
Sections for the installer
3.
DIMENSIONS
4.
INSTALLATION
4.1.
Placing the unit
4.2.
Connection placing
4.3.
Connection
Charts to write down the relay outputs
4.4.
Extensions
4.5.
Maintenance
4.6.
Codification of inputs and outputs
4.7.
Installer's configuration
5.
TECHNICAL CHARACTERISTICS
6.
PARAMETERS
6.1.
Fertilization parameters
6.2.
Filter cleaning parameters
6.3.
General outputs parameters
6.4.
Input parameters
6.5.
Flow parameters
6.6.
Sectors parameters
6.7.
Programs parameters
6.8.
Communication parameters
6.9.
Miscellaneous parameters
PRESENTATION
We wish to take this opportunity to thank you for the confidence in us which you have demonstrated in expressing in-
terest or acquiring the AGRÓNIC 4000.
This confidence, for our part, stimulates our efforts to meet and surpass the expectations of our clients to justify the
traditional quality of our products.
This manual will explain the specification of the equipment as well as its installation and use.
However, if after reading this you still have any doubts, contact us and we will happily answer them.
INSTRUCTION
MANUAL
VERSION 2 AT 220 Vac (or 115 Vac)
INDEX
Page
1
7.
PROGRAMS
2
8.
READINGS
8.1.
Totals readings
8.2.
Anomalies readings
5
8.3.
History readings
5
8.4.
Sensors readings
5
8.5.
Agrónic Radio 868 readings
6
8.6.
Agrónic Radio 2,4 readings
7
8.7.
Agrónic Monocable readings
9
9.
ERASURE
12
10.
MANUAL
12
11.
CLOCK
12
12.
VIEW
13
12.1.
General view
15
12.2.
Programs view
16
16
Notes
17
GENERAL SUMMARY
18
19
22
22
23
25
29
Sections for the user
1
30
33
33
34
35
36
36
36
36
37
37
38
39
39
40
41
42

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Summary of Contents for Progres AGRONIC 4000

  • Page 1 INSTRUCTION MANUAL VERSION 2 AT 220 Vac (or 115 Vac) INDEX Section Theme Page Sections for the user INDEX/PRESENTATION PROGRAMS BASIC FUNCTIONAL DESCRIPTION READINGS 8.1. Totals readings Sections for the installer 8.2. Anomalies readings DIMENSIONS 8.3. History readings INSTALLATION 8.4. Sensors readings 4.1.
  • Page 2 The time or volume of application of every fertilizer 2. BASIC FUNCTIONAL DESCRIPTION can be programmed independently for every sub-program. The use of mixers can be configured, with pre-mixing Electronic unit for the control of irrigation, fertiliza- and intermittent or non-stop mixing. tion, pH, pumping and filter cleaning, plus malfunction Fertilizers can be applied in two different ways: detection and with the possibility of telemanaging the data...
  • Page 3 Stop; start or stop the filter cleaning; end of alarms and Punctual information of the controller (recording, in- malfunctions; direct activation of the outputs. cidences, situation of the irrigation, etc.) can be obtained from the PC, giving the opportunity of acting on the READINGS Agrónic, modifying parameters, programs, ranks, etc., from It can have the following records which are always up-...
  • Page 4 ▪ WARRANTY Option control pH and reading EC with alarm. ▪ The irrigation controller Agrónic 4000 meets all the Option conditioning of programs by sensors. norms set by the CE. ▪ Option diesel engine. The products created by PROGRÉS enjoy a two-year ▪...
  • Page 5 3. DIMENSIONS 4. INSTALLATION In the “built-in mo- del”, a hole is to be done in the frontal part of the 4.1. PLACING THE UNIT wall or desk, according to Place the unit at the right position and height. mea-sures section DIMENSIONS.
  • Page 6 The wardrobe must have a double isolation with In the version with "box", the equipment is provided protection for the operation relationship to the net power in a hermetically sealed (box IP65) with a transparent front supply circuit. cover for the keyboard/display and an opaque cover for the In the “box”...
  • Page 7 It is also used to protect the unit by directing all electrical 4.3. CONNECTION sparks through the internal gas discharger to the earth. The unit has to be installed following the prevailing These sparks can come in through the output cables when regulations for electrical installations.
  • Page 8 Connect the solenoids, relays, etc. between the out- The maximum number of sectors to be controlled by put common “COMMON” and the corresponding output. the Agrónic 4000 is 99. Do not exceed the maximum power by output of 1 Every output can be assigned to an irrigation sector Amp and the general of 6,3 Amp.
  • Page 9 Charts to write down the relay outputs to generals and sectors: Relay Relay Relay Relay Relay 00000001 00000021 00000041 00000061 00000081 00000002 00000022 00000042 00000062 00000082 00000003 00000023 00000043 00000063 00000083 00000004 00000024 00000044 00000064 00000084 00000005 00000025 00000045 00000065 00000085 00000006 00000026...
  • Page 10 Relay Relay Relay Relay Relay 06000101→ 06000701→ 06001301→ 06001901→ 06002501→ 06000115 06000715 06001315 06001915 06002515 06000201→ 06000801→ 06001401→ 06002001→ 06002601→ 06000215 06000815 06001415 06002015 06002615 06000301→ 06000901→ 06001501→ 06002101→ 06002701→ 06000315 06000915 06001515 06002115 06002715 06000401→ 06001001→ 06001601→ 06002201→ 06002801→ 06000415 06001015 06001615...
  • Page 11 Relay Relay Relay Relay Relay 08100501→ 08101801→ 08103101→ 08104401→ 08105701→ 08100516 08101816 08103116 08104416 08105716 08100601→ 08101901→ 08103201→ 08104501→ 08105801→ 08100616 08101916 08103216 08104516 08105816 08100701→ 08102001→ 08103301→ 08104601→ 08105901→ 08100716 08102016 08103316 08104616 08105916 08100801→ 08102101→ 08103401→ 08104701→ 08106001→ 08100816 08102116 08103416...
  • Page 13 4.4. EXTENSIONS tics as it may damage the unit if this is not taken into ac- count. On installing extensions in the Agrónic 4000, protect- The fuse marked as “Output fuse” protects the out- ing measures have to be taken in order not to damage the puts from short-circuits.
  • Page 14 Examples: 00000008: digital input 8 of the Base 01000402: digital input 2 of the Expansion module 4 (ME4) 08101502: digital input 2 of the Agrónic Radio 868-16, Agrónic Radio module 15 (MAR15) 09102301: digital input 1 of the Agrónic Radio 2.4, Agrónic Radio module 23 (MAR023) 07109007: digital input 7 of the Agrónic Monocable 120, Agrónic Monocable module 90 (MAM90) 4.6.3.
  • Page 15 • • If the model selected is the Agrónic Monocable Agrónic Radio 868-16?. Responding yes indi- cates that the model connected to the equip- ment is 868-16 (with 16 outputs), no indicates Module attempts: number of communica- that it is model 868 (8 outputs). tion attempts before displaying error with •...
  • Page 16 5. TECHNICAL CHARACTERISTICS Power supply Tension 230 Vac or 115 Vac+5% -10% CAT II Frequency 50-60 Hz Energy consumption Below to 43 VA Fuses Input 0,800 A, T type, 250 V (slow) Output 6,3 A, F type, 250 V (fast) Keeping the memory which can be erased Lithium Battery, at 3 V.
  • Page 17 This symbol indicates that the electrical and electronic equipment should not be disposed of as general house- hold waste at its end-of-life. Instead, the product should be handed over to the applicable collection point for the recycling of electrical and electronic equipment for proper treatment, recovery and recycling in accordance with your national legislation.
  • Page 18 programmed water/fertilizer proportion, when the fertilizer The filters cleaning is another important service of the units conclude, it will wait until the irrigation units of the Agrónic range which allows to clean periodical and auto- proportion conclude and it will apply another proportional matically the four possible groups of filters by means of a cycle.
  • Page 19 ordered. If the value is set at 0, the output activation is Answering affirmatively to the “Stop sectors when immediate. cleaning” request, the sectors which have common irriga- The stop temporization keeps the output activated as tion pumps assigned with those assigned to the filters long as programmed here when the order of stop arrives.
  • Page 20 When applying water is necessary for the fertilizer in- The alarm outputs can act intermittently by giving jector cleaning, an output relay will be assigned. start or stop temporization, or fixed by giving them when working. The alarm output can be normally open (YES) or nor- Fertilizer general output : 00000000 mally closed (NO) configured, in order to have the chance Fertilizer cleaning output : 00000000...
  • Page 21 • When a malfunction has taken place and then it has Code 14: Irrigation counter 4, pulses been repaired, the “Manual Function” has to be used in -Pulse value: 01000 L order to finish it and continue with the irrigation proceed- -Maximum time between pulses: 240”...
  • Page 22 cycles per liter in relation to the diameter of the pipe line Sensor 15 will be indicated. Measure unit : 02 For the Fertilizers counters (codes 15 to 22 and 27 to 34), the operation philosophy is the same as that for the The codes corresponding to each unit of measure are irrigation ones, with the difference that the pulse value is in defined below:...
  • Page 23 In the radio modules (100 ohms) is from 400 which is taking place, and that have any sector as- to 2000 mV. signed to the counter to go to the next one. • With "definitive (2)" it will definitively stop the irri- In order to calibrate the sensor when its reading is gations of the controller.
  • Page 24 the sector is activated the stop inputs (temporary, condi- First of all, the program number has to be chosen. tional or definitive) marked with “YES” will be taken into account. Program number: 03 Each sector can be related to one of the four irrigation counters “IC”;...
  • Page 25 2. At the beginning or at the determiner factor in each program. Immediately, if the stop is conditional a differential (dead band) from which, more in type 6 or less in type 5, Type 1 and 2 determiners: Having the option installed, depending on the programmed reference, the irrigation will irrigation programs will be started when the sensor level be reactivated, will be asked.
  • Page 26 At the irrigation program, next to the manual factor Etc = Eto * Kc and pressing the “mode” key, the integration value since Etc = Evapotranspiration of crop the previous irrigation will be asked. Eto = Evapotranspiration Kc = Crop constant Example: 6.8.
  • Page 27 - Port 2: Link RS485, in two wires and galvanically iso- The “Services centre” number which has been con- lated. tracted to the GSM modem card connected to the A-4000 - Port 3: Link RS232 (option). has to be entered. - Port 0: Null, the communication remains disabled.
  • Page 28 o Unit series number (4 digits) o Blank space “Esp” o Access code (4 digits: entered by the user at miscellaneous parameters) o Blank space o Operation code “OP1, 2 ..”(separated by a blank space between them) .. . Series number Esp.
  • Page 29 “Start configuration sending” it is used to update a GSM modem checking: module configuration when answering “YES”. It is nec- Look if net. Available?: YES essary that the module to be configured has the bridge installed to indicate it that it will receive these special data.
  • Page 30 Communication with the MicroIsis is always through port 2 (RS485). In this case, the RS485 port only it may be shared with the µMetos. 6.8.10. Communication with Metos This allows activation or deactivation of communica- tion with uMetos. Communication is always through port 2 (RS485).
  • Page 31: Table Of Contents

    7. PROGRAMS To accede to the irrigation programming press the Programs : 1 Readings : 2 Erasure: 3 “FUN” (functions) key, choose number 1and then press Parameters: 4 Manual : 5 Clock : 6 "Enter". Look at an example of a program resume: The Agrónic 4000 has 40 independent programs with the sub-program 0, the values of this screen correspond to 12 sub-programs or irrigation sequences at each of them.
  • Page 32: P01-00 Smtwtfs Start = 15:10 Pre/Post = 010/030 F=+04% 00/00 To

    • ing initially 8 days: “Frequency02(08)”, once 8 days have Having the determiners option installed, an irrigation been taken away, the counter will take the programmed by integration of a sensor (solar radiation normally) in ones. relation to the time lasted since the previous irrigation can be started.
  • Page 33: I02:17 F1 0023 F2 0108 L

    o F=-05% 02300 Wh/m , diminish the fertilizer At the first line the sector or sectors to be activated a 5% per each 2300 watts of solar radiation are asked. Each sub-program has the possibility to accept accumulated since the previous irrigation. up to a maximum of 10 sectors or irrigation valves.
  • Page 34 If operation at both values by volume, the previous 8. READINGS example would be: per each 10 m of water, 3 liters, decili- ters or centiliters of “fertilizer 1”, and for the second 13 The READINGS function will be used whenever we liters, deciliters or centiliters of “fertilizer 2”...
  • Page 35: Programs

    In the irrigation units, the time format is hours, When there is a power cut longer than 1 minute and minutes and seconds, and the volume is cubic meters with shorter than 24 hours it records the date and the time three decimals.
  • Page 36 • No control filters cleaning anomaly. [AL-G] [MSG] 8.3. HISTORY READINGS When one cleaning after another is completed in a The Agrónic 4000 records, independently of the cur- number configured at “Parameters-Filters” [6.2.], it is an rent day and the last 29 days, the starts each program has anomaly and stops cleaning until it is restarted at “Func- made, the number of filter cleanings, the rain, the integra- tion–Manual–Malfunctions”.
  • Page 37 8.4. SENSORS READINGS MAR01 Active: yes Com.: 1111111111111111 rssi EAR: 50 rssi MAR: 50 battery: 3.6V In case the Agrónic 4000 had a sensor connected in order to measure climatic values that affect the crop or the installation, they can be read in this section, with a screen The status of the last 16 receptions is shown on the per sensor.
  • Page 38: Readings: 2

    9. ERASURE 10. MANUAL The ERASURE function will be used to cancel the pro- By using the manual function, the following can be gramming or the totals values. To do so, press the “FUN” done: (functions) key, choose the function by its number (3) and ▪...
  • Page 39: Clock

    11. CLOCK General : 1 Program : 2 Out of general service (Y/N) : NO The CLOCK function will be used to set on the internal clock of the Agrónic 4000. To do so, press the “FUN” key, Before the out of service is carried out, the confirma- choose the function by its number (6) and then press “En- tion will be asked, yet once it is done the values of the irri- ter”.
  • Page 40 12. VIEW -> There is a “General view” and a “Programs view”. To move in between the view screens use the up and down To go into this section press the “View” key. We will arrow keys. To move from a general view to a programs find detailed information about what the controller is do- one or to do the opposite, use the right and left arrow keys.
  • Page 41 P01 03 S05 06 07 24 33 Communications: PC-yes SMS-yes RADIO-no F124 A12 Filter: 00 Microisis-yes METOS-yes MONOCABLE-yes The third screen indicates the digital functions acti- vated, whenever they have been configured. The first ones 12.2. PROGRAMS VIEW to be shown at the first line are the irrigation counters ones (IC1234), the fertilizers counters (FC12345678), the stop For each one of the 40 programs, there is an informa- functions...
  • Page 42 irrigation and to its right the “fertilizing factor”; in the event accumulated / integrated units from the previous irrigation; that there is more than one determiner to be modified, for in those modifying the value ratio of a sensor (Eto, ground example, the irrigation, it will be performed applying the moisture, etc.) they show the instantaneous value of the sum of the factors with its respective signs, the result is...
  • Page 43 VIEW SCREENS General malfunction Flow malfunction Irrigation counter malfunction VIEW No control fertilizer malfunction pH regulation malfunction Conductivity control malfunction OUT OF SERVICE General View IN STOP Sub-program pro- View Programs Pre-irrigation ceeding Date / New Anoma- Monday 12/07/02 18:49.33 P01-08 Pre.= 00:05 lies / Malfunc-...
  • Page 44 FUNCTIONS SCREENS SMTWTFS Start= 23:45 Frequency =02(00) Start= 99:03 FUNCTION Activa.=05—01:12 I.=08400 Wh/m READING Totals : 1 Anomalies : 2 New anomalies : 3 History: 4 Sensors: 5 READING Agronic Radio: 6 P01-00 SM. TT. S Start =23:45 Agronic Monocable: 7 Pre/Pos=005/012 F=+05% 01/05 to 15/07 P01-01 S08 09 12 23 ..
  • Page 45 PARAMETERS Programs : 1 Readings: 2 Erasure: 3 PARAMETERS Fertiliza.:1 Cleaning: 2 PARAMETERS Sectors: 6 Programs: 7 FUNCTION SCREEN Parameters: 4 Manual: 5 Clock: 6 Generals: 3 Inputs: 4 Flows: 5 Comunica.: 8 Miscellaneous: 9 Fertilizers parameters 1 Flow parameters 5 --->...
  • Page 46 PARAMETERS SCREENS PARAMETERS Fertiliza.: 1 Cleaning : 2 PARAMETERS Sectors : 6 Programs : 7 Generals : 3 Inputs : 4 Flows : 5 Communica. : 8 Miscellaneous: 9 Digital inputs parameters 4.1 ----> Analog inputs parameters 4.2 Code 25: Irrigation counter 3, frequency Function code number: 000 Code 26: Irrigation counter 4, frequency Input number: 00000001...
  • Page 47 PARAMETERS SCREENS PARAMETERS Fertiliza.: 1 Cleaning: 2 PARAMETERS Sectors: 6 Programs: 7 Commu- Generals: 3 Inputs: 4 Flows: 5 nica.: 8 Miscellaneous: 9 Sectors parameters 6 Programs parameters 7 Communication parameters 8 Sectors 1 to 99 Programs 1 to 40 Output relay: 00000001 Irrigation group: 1 PC communication: YES...
  • Page 48 READING SCREEN Programs: 1 Readings: 2 Erasure: 3 READINGS Totals: 1 Anomalies: 2 FUNCTION Parameters: 4 Manual: 5 Clock: 6 New anomalies: 3 History: 4 Sensors: 5 READINGS Agr. Radio 868: 6 Agr.Rad24 : 7 Last erasure Totals date 30 days Record history General totals...
  • Page 49 R-1146-7...