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60

A-96.250.321 / 191015

AMI Solicon4

Program List and Explanations

As control

output

Signal outputs can be used for driving control units. We distinguish 

different kinds of controls:

P-controller:

 The controller action is proportional to the devia-

tion from the setpoint. The controller is characterized by the 

P-Band. In the steady-state, the setpoint will never be 

reached. The deviation is called steady-state error.

Parameters: setpoint, P-Band

PI-controller:

 The combination of a P-controller with an

I-controller will minimize the steady-state error. If the reset 

time is set to zero, the I-controller is switched off.

Parameters: setpoint, P-Band, reset time.

PD-controller:

 The combination of a P-controller with a 

D-controller will minimize the response time to a fast change 

of the process value. If the derivative time is set to zero, the 

D-controller is switched off.

Parameters: setpoint, P-Band, derivative time.

PID-controller: 

The combination of a P-, an I - and a D-con-

troller allows a proper control of the process.

Parameters: setpoint, P-Band, reset time, derivative time.

Ziegler-Nichols method for the optimization of a PID controller:

Parameters

: Setpoint, P-Band, Reset time, Derivative time

The point of intersection of the tangent with the respective axis will 

result in the parameters a and L.
Consult the manual of the control unit for connecting and program-

ming details. Choose control upwards or downwards.

A
B
X

Response to maximum control output
Tangent on the inflection point
Time

Xp
Tn
Tv

= 1.2/a
= 2L
= L/2

X

Y

B

A

L

a

Summary of Contents for AMI Solicon4

Page 1: ...AMI Solicon4 Version 6 00 and higher A 96 250 321 191015 Operator s Manual ...

Page 2: ...e world For any technical question contact your nearest SWAN representative or the manufacturer SWAN ANALYTISCHE INSTRUMENTE AG Studbachstrasse 13 8340 Hinwil Switzerland Internet www swan ch E mail support swan ch Document Status Title Monitor AMI Solicon4 Operator s Manual ID A 96 250 321 Revision Issue 00 April 2005 First Edition 01 April 2013 Update to FW Release 5 30 02 October 2015 Update to...

Page 3: ...on Checklist Monitors 18 3 2 Mounting of Instrument Panel 19 3 3 Connecting Sample Inlet and Outlet 19 3 4 Install Swansensor deltaT Option 20 3 4 1 Mount the deltaT Sensor and Connect the Sample Inlet 21 3 4 2 Connect the Sensor Cable to the Transmitter 22 3 4 3 Change Firmware Settings 23 3 4 4 Adjust the deltaT sensor 24 3 5 Electrical Connections 25 3 5 1 Connection Diagram 27 3 5 2 Power Supp...

Page 4: ...nsor 41 6 3 1 Remove the Sensor form the Flow Cell 41 6 3 2 Install the Sensor into the Flow Cell 41 6 4 Calibration 42 6 5 Replacing Fuses 43 6 6 Longer Stop of Operation 44 7 Error List 45 8 Program Overview 48 8 1 Messages Main Menu 1 48 8 2 Diagnostics Main Menu 2 49 8 3 Maintenance Main Menu 3 50 8 4 Operation Main Menu 4 50 8 5 Installation Main Menu 5 51 9 Program List and Explanations 53 1...

Page 5: ...instructions are given throughout this manual at the respective locations where observation is most important Strictly follow all safety instructions in this publication Target audience Operator Qualified person who uses the equipment for its intended purpose Instrument operation requires thorough knowledge of applications instrument functions and software program as well as all applicable safety ...

Page 6: ... the prevention instructions carefully WARNING Severe injuries or damage to the equipment can occur if such warnings are ignored Follow the prevention instructions carefully CAUTION Damage to the equipment minor injury malfunctions or incor rect process can be the consequence if such warnings are ig nored Follow the prevention instructions carefully Mandatory Signs The importance of the mandatory ...

Page 7: ...icon4 Safety Instructions A 96 250 321 191015 5 Warning Signs The importance of the warning signs in this manual Electrical shock hazard Corrosive Harmful to health Flammable Warning general Attention general ...

Page 8: ...lity for any claim resulting from unauthorized modification or alter ation WARNING Risk of Electrical Shock If proper operation is no longer possible the instrument must be disconnected from all power lines and measures must be taken to prevent inadvertent operation To prevent from electrical shock always make sure that the ground wire is connected Service shall be performed by authorized personne...

Page 9: ...leteness of ion analysis Signal Outputs Two signal outputs programmable for measured values freely scal able linear bilinear log or as continuous control output control parameters programmable Current loop 0 4 20 mA Maximal burden 510 Ohm Third signal output with the same specifications as option Only possible if no communication interface is used Relays Two potential free contacts programmable as...

Page 10: ...ured simultaneous by an integrated Pt1000 temperature sensor and the conductivity is compensated to 25 C Measuring principle When a voltage is set between two electrodes in an electrolyte so lution the result is an electric field which exerts force on the charged ions the positively charged cations move towards the neg ative electrode cathode and the negatively charged anions to wards the positive...

Page 11: ...e enters at the sample inlet F It flows through the del taT flow sensor C if installed and then through the flow cell block into the calibration vessel D were the conductivity is measured The sample leaves the calibration vessel via flow cell block through the sample outlet E and flows into the drain G A B C D Conductivity sensor Flow cell block deltaT flow sensor option Calibration vessel E F G S...

Page 12: ...le requirements Flow rate Temperature Inlet pressure Outlet pressure 4 to 15 l h up to 50 C up to 1 bar pressure free On site The analyzer site must permit connections to requirements Sample inlet Sample outlet Max Altitude Flow celll with elbow hose nozzle 1 4 diam 10 mm or deltaT sensor with hose nozzle diam 10 mm 1 2 hose nozzle for flexible tube diam 20 x 15 mm 2000 m above sea level Measuring...

Page 13: ...t Description A 96 250 321 191015 11 Dimensions Panel Dimensions Screws Weight white PVC 280x850x150 mm 5 mm or 6 mm diameter 9 0 kg AMI Solicon4 850 mm 33 13 mm 6 x dia 6 5 mm 254 mm 10 280 mm 11 412 mm 16 824 mm 32 7 16 ...

Page 14: ...AMI Solicon4 Product Description 2 3 Instrument Overview A B C D E Transmitter Panel Conductivity sensor Flow cell block Calibration vessel F G H I Sample outlet DeltaT flow sensor option Drain Sample inlet A B C D E F G H I ...

Page 15: ...ter Electronic transmitter and controller for conductivity measurement 140 4 5 180 165 103 18 5 7 5 Dimensions Width Height Depth Weight 140 mm 180 mm 70 mm 1 5 kg Specifications Electronics case Protection degree Display Electrical connectors Cast aluminum IP 66 NEMA 4X backlit LCD 75 x 45 mm screw clamps ...

Page 16: ...r Shurecon S 60 102 23 23 161 10 33 38 90 142 9 Sample connections Inlet Outlet G 1 4 thread G 1 4 thread Each equipped with an elbow hose nozzle for 10 mm tube Sample Only valid for the flow cell without sensor conditions Flow rate Temperature Inlet pressure Sample outlet Particle size 4 to 15 l h up to 50 C up to 1 bar 25 C Pressure free outlet below 0 5 mm No strong acids and bases No organic s...

Page 17: ... electrodes and built in Pt1000 temperature sensor 16 5 12 46 43 Sensor adapter 16 mm PG 13 5 PG 13 5 120 2 Specifications Measuring range Accuracy Temperature sensor Operating conditions Electrical connection Process connection 0 1 S cm to 100mS cm 1 5 or 0 2 S cm whichever is greater Pt 1000 50 C Max temperature short time 90 C Max pressure 10 bar at 25 C Sensor with integrated cable PG 13 5 mm ...

Page 18: ...nnector with cable must be ordered separately 94 25 164 258 G 1 thread 108 Specifications Measuring range Accuracy Temperature sensor Operating conditions Electrical connection Process connection Space around sensor tip 0 1 S cm to 100mS cm 1 or 0 2 S cm whichever is greater Pt 1000 Max temperature 120 C at 6 5 bar Max pressure 12 bar at 20 C Sterilizable at 120 C 5 bar 30 min Plug M16 male IP 67 ...

Page 19: ...based on heat dissipation For applications in potable water surface water treatment and effluent 250 80 70 12 4 5 175 163 Specifications Measuring range Flow rate Accuracy Response time t90 Sample temperature Sample inlet and outlet Max cable length 0 40 l h 20 ca 1 min 5 35 C for tubing diam 10 11 mm 1 m ...

Page 20: ...ount the instrument in vertical position Display should be at eye level Connect sample and waste Electrical Wir ing Connect all external devices like limit switches current loops and pumps Connect power cord do not switch on power yet Power up Turn on the sample flow and wait until the flow cell is completely filled Switch on power Instrument set up Adjust sample flow Program all parameters for se...

Page 21: ...x60 mm 6 Dowels 6 Washers 6 4 12 mm Mounting requirements The instrument is only intended for indoor installation dimensions see Dimensions p 11 3 3 Connecting Sample Inlet and Outlet Sample inlet Use a plastic tube FEP PA or PE 10x12 mm to connect the sam ple inlet at the flow cell If a deltaT senor is installed push the plastic tube over the hose nozzle of the deltaT sensor Sample outlet Connect...

Page 22: ...mmissioning of the monitor Install the deltaT sensor in vertical position with the sample inlet F and cable gland looking downwards To ensure laminar flow the sample inlet must not be restricted e g any fitting which creates turbulences A B C Panel Tube connection Elbow hose nozzle D E F Hose nozzle at deltaT sensor outlet deltaT sensor Hose nozzle at deltaT sensor inlet C E F D B A ...

Page 23: ...eltaT sensor E in vertical position to the panel A 3 Remove the plastic tube from the elbow hose nozzle at the flow cell 4 Connect the plastic tube to the hose nozzle F of the deltaT sensor inlet 5 Rotate the elbow hose nozzle of the flow cell by 180 degree 6 Install the hose connection B enclosed in the installation kit from the hose nozzle D at the deltaT sensor outlet to the elbow hose nozzle C...

Page 24: ...anipulating electric parts Grounding requirements Only operate the instrument from an power outlet which has a ground connection Make sure the power specification of the instrument corresponds to the power on site 1 Remove the plug A from the cable gland B 2 Open the AMI transmitter housing 3 Feed the sensor cable through the cable gland B into the transmitter housing 4 Connect the cable to the te...

Page 25: ...nter 3 Select deltaT 4 Press Enter 5 Press 2 x Exit 6 Press Enter to confirm with Yes 7 Press Exit until the display shows the measuring values 5 1 4 1 Flow Flow measurement deltaT Q Flow Flow measurement deltaT none 5 1 4 1 Flow Flow measurement deltaT Slope 1 00 5 1 4 Standard 1 1 ppm Flow Standard 2 10 ppm Sensors Type of sensor NH4 No Save Yes ...

Page 26: ...ple outlet of the instrument for 10 min into a mea suring cup with a sufficient volume 2 To get the flow rate in l h multiply the amount of water con tained in the measuring cup with factor 6 The flow rate in l h results from the multiplication of the amount of water after 10 min by 6 Adjust slope 1 Navigate to Installation Sensors Flow choose Slope and press Enter 2 If the calculated flow rate is...

Page 27: ...perate the instrument from an power outlet which has a ground connection Make sure the power specification of the instrument corre sponds to the power on site Cable thicknesses In order to comply with IP66 use the following cable thicknesses Note Protect unused cable glands Wire For Power and Relays Use max 1 5 mm2 AWG 14 stranded wire with end sleeves For Signal Outputs and Input Use 0 25 mm2 AWG...

Page 28: ...ed to the following con tacts are disconnected from the power before resuming in stallation relay 1 relay 2 alarm relay WARNING To prevent from electrical shock do not connect the instrument to the power unless the ground wire PE is connected Do not connect unless specifically instructed to do so WARNING The mains of the AMI Transmitter must be secured by a main switch and appropriate fuse or circ...

Page 29: ...91015 27 3 5 1 Connection Diagram CAUTION Use only the terminals shown in this diagram and only for the mentioned purpose Use of any other terminals will cause short circuits with possible corresponding consequences to material and personnel ...

Page 30: ...ust be per formed by professionals Note The protective earth wire Ground has to be connected to the grounding terminal Installation requirements The installation must meet the following requirements Transmitter mains fuse 1 6 AT Mains cable to comply with standards IEC 60227 or IEC 60245 flammable rating FV1 Mains equipped with an external switch or circuit breaker near the instrument easily acces...

Page 31: ...r codes see Error List p 45 NOTICE With certain alarms and certain settings of the AMI transmitter the alarm relay does not switch The error however is shown on the display 1 usual use Terminals Description Relay connection NC1 Normally Closed 10 11 Active opened during normal operation Inactive closed on error and loss of power NO Normally Open 12 11 Active closed during normal operation Inactive...

Page 32: ...us of the relays described below For programming see Menu Installation Program List and Explana tions p 53 Relay config Terminals Jumper pos Description Relay configuration Normally Open 6 7 Relay 1 8 9 Relay 2 Inactive opened dur ing normal operation and loss of power Active closed when a programmed function is executed Normally Closed 6 7 Relay 1 8 9 Relay 2 Inactive closed during normal operati...

Page 33: ...atory to connect a snubber circuit in par allel to the load Resistive load Resistive loads max 1A and control signals for PLC impulse pumps and so on can be connected without further measures Actuators Actuators like motor valves are using both relays One relay con tact is used for opening the other for closing the valve i e with the 2 relay contacts available only one motor valve can be controlle...

Page 34: ...put 1 Terminals 14 and 13 Signal output 2 Terminals 15 and 13 For programming see Program Overview p 48 Menu Installation 3 8 Interface Options The slot for interfaces can be used to expand the functionality of the AMI instrument with either an additional signal output a Profbus or Modbus connection a Hyperterminal interface an USB Interface A B C D AMI Transmitter Slot for interfaces Frontend PCB...

Page 35: ...oard for the third signal output 0 4 20 mA PCB Note Max burden 510 The third signal output is installed in the upper holder on the main board You can operate either 3 signal output or communication in terface not both Terminal 38 and 37 A Third signal output 0 4 20 mA PCB installed on main board A ...

Page 36: ...he PRO FIBUS MODBUS manual Use appropriate network cable Note The switch must be ON if only one instrument is installed or on the last instrument in the bus Profibus Modbus Interface PCB RS 485 3 8 3 USB Interface The USB Interface is used to store Logger data and for Firmware up load For detailed information see the corresponding installation instruction USB Interface A On OFF switch PB DPV1 V5 5...

Page 37: ... Menu 5 1 1 1 Installation Sensors Sensor parameters Enter the Cell constant cm 1 Temperature correction C Cable length Note Cable length m Set the cable length to 0 0 m if the sensors are installed in the flow cell on the AMI monitor Program all parameters for external devices interface recorders etc Program all parameters for instrument operation limits alarms See Program Overview S 48 for expla...

Page 38: ...nges to move back to the previous menu level B to move DOWN in a menu list and to decrease digits C to move UP in a menu list and to increase digits D to open a selected sub menu to accept an entry Exit Enter B C D A 25 4 C RUN 9 l h 14 10 45 R1 525 S R2 1 Installation Operation Diagnostics Messages Maintenance Main Menu Enter Exit ...

Page 39: ... ERROR Error Fatal Error C Keys locked transmitter control via Profibus D Time E Process values F Sample temperature G Sample flow H Relay status upper lower limit not yet reached upper lower limit reached control upw downw no action control upw downw active dark bar indicates control intensity motor valve closed motor valve open dark bar indicates approx position timer timer timing active hand ro...

Page 40: ...meters that might need to be modified during daily routine Normally password protected and used by the process operator Subset of menu 5 Installation but process related Menu Installation 5 For initial instrument set up by SWAN authorized person to set all instrument parameters Can be protected by means of password 1 Messages Operation Maintenance Diagnostics Main Menu Installation 1 1 Pending Err...

Page 41: ... new parameter is set 5 1 2 Sensors Sensor type FOME Temperature NT5K Standards Disinf Free chlorine 4 4 1 Logger Log interval 30 min Clear logger no 4 1 3 Logger Clear logger no Log interval 30min 1 Hour Interval 5 min 30 min 10 min 4 1 3 Logger Log interval 10 min Clear logger no 4 1 3 Logger Log interval Clear logger no No Save Yes 1 Select the value you want to change 2 Press Enter 3 Set requi...

Page 42: ... Maintenance Schedule Preventive maintenance frequency depends on water quality on the application and on national regulations Control of certain set point Swimming pools sanitary water 6 2 Stop of Operation for Maintenance Stop sample flow Shut off power of the instrument Monthly Check sample flow If required Clean conductivity sensor Perform a calibration ...

Page 43: ...n it with water and detergents In case of heavy contamination with oil or grease use ethanol to clean it Take a soft tissue and clean the tip of the sensor cautious ly After each cleaning the sensor must be rinsed with clean water 6 3 2 Install the Sensor into the Flow Cell 1 Make sure that the washer C and the O ring D are in correct position 2 Push the sensor through the flow cell bock E into th...

Page 44: ...with clean water see Maintenance of the Sensor p 41 6 Use a beaker and fill it with one liter calibration solution The beakers diameter must be so large that the sensor has a distance of min 3 cm from its edge 7 Put the sensor into the beaker filled with calibration solution 8 Wait at least 5 minutes to permit temperature equilibration between sensor and calibration solution 9 Start the calibratio...

Page 45: ...re disconnected from the power before resuming in stallation relay 1 relay 2 alarm relay When a fuse has blown find out the cause and fix it before replac ing it with a new one Use tweezers or needle nosed pliers to remove the defective fuse Use original fuses provided by SWAN only A B C D E F 1 6 AT 250V Instrument power supply 1 0 AT 250V Relay 1 1 0 AT 250V Relay 2 1 0 AT 250V Alarm relay 1 0 A...

Page 46: ...1 191015 AMI Solicon4 Maintenance 6 6 Longer Stop of Operation 1 Stop sample flow 2 Shut off power of the instrument 3 Remove the sensor form the flow cell and dry it with a soft tis sue 4 Empty and dry the flow cell ...

Page 47: ...ow low Such Errors are marked E0xx Errors which indicate a hardware failure of the instrument Such Errors are marked E0xx Error or fatal Error Error not yet acknowledged Check Pending Errors 1 1 5 and take corrective action Press ENTER Navigate to menu Messages Press ENTER Navigate to menu Pending Errors Press ENTER Press ENTER to acknowledge the Pending Errors The Error is reset and saved in the ...

Page 48: ...ocess check programmed value see 5 3 1 3 p 63 E008 Sample Temp low check process check programmed value see 5 3 1 3 p 63 E009 Sample Flow high check sample inlet pressure check programmed value see 5 3 1 2 2 p 63 E010 Sample Flow low check sample inlet pressure Check flow regulating valve check programmed value see 5 3 1 2 35 p 63 E011 Temp shorted Check wiring of sensor E012 Temp disconnected Che...

Page 49: ...Table E024 Input active See If Fault Yes is programmed in Menu see 5 3 4 p 69 E025 IC MK41T56 call service E026 IC LM75 call service E027 IC PCF8574 call service E028 EEProm Microcon call service E029 EEProm Motherboard call service E030 EEProm Frontend call service E031 Cal Recout call service E032 Wrong Frontend call service E033 Power on none normal status E034 Power down none normal status Err...

Page 50: ... Maintenance is for service Calibration simulation of outputs and set time date Please protect with password Menu 4 Operation is for the user allowing to set limits alarm values etc The presetting is done in the menu Installation only for the System engineer Please protect with password Menu 5 Installation Defining assignment of all inputs and outputs measuring parameters interface passwords etc M...

Page 51: ... 1 4 Sensors Cond Sensor Current value 2 2 2 2 1 Raw value Cell constant Contamination Cal History Number 2 2 1 5 1 2 2 1 5 Date Time Cell Constant Miscellaneous Case Temp 2 2 2 1 2 2 2 Sample Sample ID 2 3 1 2 3 Temperature C Pt1000 Ohm Sample Flow l h Raw value Hz if Q Flow DeltaT 1 C It deltaT sensor DeltaT2 C It deltaT sensor I O State Alarm Relay 2 4 1 2 4 Relay 1 and 2 2 4 2 Input Signal Out...

Page 52: ...ter Cal 4 1 2 Relay Contacts Alarm Relay Alarm Conductivity Alarm High 4 2 1 1 1 4 2 4 2 1 4 2 1 1 Alarm Low 4 2 1 1 25 Hysteresis 4 2 1 1 35 Delay 4 2 1 1 45 If concentration Alarm Concentration Alarm High 4 2 1 2 1 is chosen 4 2 1 2 Alarm Low 4 2 1 2 25 Hysteresis 4 2 1 2 35 Delay 4 2 1 2 45 Relay 1 2 Setpoint 4 2 x 100 4 2 2 4 2 3 Hysteresis 4 2 x 200 Delay 4 2 x 30 Input Active 4 2 4 1 4 2 4 S...

Page 53: ...ic acid salinity TDS as NaCl TDS Signal Outputs Signal Output 1 2 Parameter 5 2 1 1 5 2 2 1 5 2 5 2 1 5 2 2 Current Loop 5 2 1 2 5 2 2 2 Function 5 2 1 3 5 2 2 3 Scaling Range Low 5 2 x 40 10 11 5 2 x 40 Range High 5 2 x 40 20 21 Relay Contacts Alarm Relay Alarm Conductivity Alarm High 5 3 1 1 1 1 5 3 5 3 1 5 3 1 1 Alarm Low 5 3 1 1 1 25 Hysteresis 5 3 1 1 1 35 Delay 5 3 1 1 1 45 Sample Flow Flow ...

Page 54: ...2 300 Hysteresis 5 3 2 400 Delay 5 3 2 50 Input Active 5 3 4 1 5 3 4 Signal Outputs 5 3 4 2 Output Control 5 3 4 3 Fault 5 3 4 4 Delay 5 3 4 5 Miscellaneous Language 5 4 1 5 4 Set defaults 5 4 2 Load Firmware 5 4 3 Password Messages 5 4 4 1 5 4 4 Maintenance 5 4 4 2 Operation 5 4 4 3 Installation 5 4 4 4 Sample ID 5 4 5 Interface Protocol 5 5 1 only with RS485 5 5 Device Address 5 5 21 interface B...

Page 55: ...iagnostics In diagnostics mode the values can only be viewed not modified 2 1 Identification Designation Designation of the instrument Version Firmware of instrument e g V6 00 10 15 2 1 3 Factory Test Test date of the Instrument Motherboard and Fron tend 2 1 4 Operating Time Years Days Hours Minutes Seconds 2 2 Sensors 2 2 1 Cond Sensor Current value in µS Raw value in µS Cell Constant Contaminati...

Page 56: ...Q Flow is chosen Shows the current sample flow in l h Raw Value shows the sample flow in Hz Sample Flow If deltaT is chosen Shows the current sample flow in l h deltaT 1 Temperature measured at sample inlet of the deltaT sensor deltaT 2 Temperature measured at sample outlet of the deltaT sensor 2 4 I O State Shows current status of all in and outputs 2 4 1 2 4 2 2 5 Interface Only available if opt...

Page 57: ...ress the Enter key Change the value or state of the selected item with the or key Press the Enter key The value is simulated by the relay signal output At the absence of any key activities the instrument will switch back to normal mode after 20 min If you quit the menu all simulated val ues will be reset 3 3 Set Time Adjust date and time Alarm Relay Inactive or active Relay 1 and 2 Inactive or act...

Page 58: ...rface is installed or via USB stick if option USB interface is in stalled The logger can save approx 1500 data records The Records con sists of Date time alarms measured value measured value un compensated temperature flow Range 1 Second to 1 hour 4 3 1 Log Interval Select a convenient log interval Consult the table be low to estimate the max logging time When the logging buffer is full the oldest...

Page 59: ...3 Flow 5 1 3 1 Flow measurement Select the type of flow sensor if a flow sensor is installed Possible flow sensors None Q Flow deltaT 5 1 3 2 Slope If flow measurement is set to deltaT The slope value is used to adjust the flow measurement of the deltaT sensor if the ambient temperature is higher or lower than 20 C 5 1 4 Conc The menu Concentration Conc allows the additional measure ment of a know...

Page 60: ...e flow Cond uc uncompensated 5 2 1 2 Current Loop Select the current range of the signal output Make sure the connected device works with the same current range Available ranges 0 20 mA or 4 20 mA 5 2 1 3 Function Define if the signal output is used to transmit a process value or to drive a control unit Available functions are Linear bilinear or logarithmic for process values See As process values...

Page 61: ...ity 5 2 1 40 10 Range low 0 S 300 mS 5 2 1 40 20 Range high 0 S 300 mS Parameter Temperature 5 2 1 40 11 Range low 25 to 270 C 5 2 1 40 21 Range high 25 to 270 C Parameter Sample flow 5 2 1 40 12 Range low 0 50 l h 5 2 1 40 22 Range high 0 50 l h Parameter Cond uc 5 2 1 40 13 Range low 0 S 300 mS 5 2 1 40 23 Range high 0 S 300 mS X Measured value logarithmic 20 1 0 1 2 3 4 10 100 1 000 10 000 10 1...

Page 62: ...controller The combination of a P controller with a D controller will minimize the response time to a fast change of the process value If the derivative time is set to zero the D controller is switched off Parameters setpoint P Band derivative time PID controller The combination of a P an I and a D con troller allows a proper control of the process Parameters setpoint P Band reset time derivative ...

Page 63: ...flow 5 2 1 43 12 Setpoint Range 0 50 l h 5 2 1 43 22 P Band Range 0 50 l h 5 2 1 43 Control Parameters if Parameters Cond uc 5 2 1 43 13 Setpoint Range 0 S 300 mS 5 2 1 43 23 P Band Range 0 S 300 mS 5 2 1 43 3 Reset time The reset time is the time till the step response of a sin gle I controller will reach the same value as it will be suddenly reached by a P controller Range 0 9 000 Sec 5 2 1 43 4...

Page 64: ...nd delay times for the fol lowing parameters Alarm Conductivity Sample Flow Sample Temp Case Temp Alarm Concentration visible if a Conc parameter has been selected 5 3 1 1 Alarm Conductivity 5 3 1 1 1 Alarm High If the measured value rises above the alarm high val ue the alarm relay is activated and E001 is displayed in the mes sage list Range 0 S 300 mS 5 3 1 1 25 Alarm Low If the measured value ...

Page 65: ...3 1 2 35 Alarm Low If the measuring values falls below the programmed value E010 will be issued Range 5 8 l h 5 3 1 3 Sample Temp 5 3 1 3 1 Alarm High If the measured value rises above the alarm high val ue the alarm relay is activated and E007 is displayed in the mes sage list Range 30 200 C 5 3 1 3 25 Alarm Low If the measured value falls below the alarm low value the alarm relay is activated an...

Page 66: ...witch This prevents damage of relays contacts when the measured value fluc tuates around the alarm value Range 0 00 99 90 5 3 1 5 45 Delay Duration the activation of the alarm relay is retarded after the measuring value has risen above or fallen below the pro grammed alarm Range 0 28 800 Sec 5 3 2 and 5 3 3 Relay 1 and 2 The contacts can be set as normally open or nor mally closed with a jumper Se...

Page 67: ...eresis range the relay does not switch This prevents damage of relay contacts when the measured value fluctuates around the alarm value 5 3 2 50 Delay Duration the activation of the alarm relay is retarded after the measuring value has risen above fallen below the programmed alarm Range 0 600 Sec 5 3 2 1 Function Limit upper lower Parameter Range Conductivity 0 S 300 mS Temperature 25 to 270 C Sam...

Page 68: ...e solenoid valves peristaltic pumps Dosing is controlled by the operating time 5 3 2 32 20 Cycle time duration of one control cycle on off change Range 0 600 sec 5 3 2 32 30 Response time Minimal time the metering device needs to react Range 0 240 sec 5 3 2 32 4 Control Parameters Range for each Parameter same as 5 2 1 43 p 61 Examples of metering devices that are pulse frequency driven are the cl...

Page 69: ... the pro grammed time scheme 5 3 2 24 Mode Operating mode interval daily weekly 5 3 2 340 Interval The interval can be programmed within a range of 1 1440 min 5 3 2 44 Run Time Enter the time the relay stays active Range 5 32400 sec 5 3 2 54 Delay during run time plus the delay time the signal and control outputs are held in the operating mode programmed below Range 0 6 000 Sec 5 3 2 6 Signal Outp...

Page 70: ... 5 3 2 6 Signal Outputs see Interval 5 3 2 7 Output Control see Interval The relay contact can be activated at one or several days of a week The daily starting time is valid for all days 5 3 2 342 Calendar 5 3 2 342 1 Start time The programmed start time is valid for each of the pro grammed days To set the start time see 5 3 2 341 p 68 Range 00 00 00 23 59 59 5 3 2 342 2 Monday Possible settings o...

Page 71: ...efore returning to normal operation Range 0 6 000 Sec 5 3 2 1 Function Fieldbus No Input is never active When closed Input is active if the input relay is closed When open Input is active if the input relay is open Cont Signal outputs continue to issue the measured value Hold Signal outputs issue the last valid measured value Measurement is interrupted Errors except fatal errors are not issued Off...

Page 72: ...values including communication parameters 5 4 3 Load Firmware Firmware updates should be done by instructed service personnel only 5 4 4 Password Select a password different from 0000 to prevent unau thorized access to the following menus 5 4 4 1 Messages 5 4 4 2 Maintenance 5 4 4 3 Operation 5 4 4 4 Installation Each menu may be protected by a different password If you forgot the passwords contac...

Page 73: ... 30 ID Nr Range Analyzer Manufacturer Multivariable 5 5 40 Local operation Range Enabled Disabled 5 5 1 Protocol Modbus RTU 5 5 21 Device address Range 0 126 5 5 31 Baud Rate Range 2400 115200 Baud 5 5 41 Parity Range none even odd 5 5 1 Protocol Hyper Terminal 5 5 23 Baudrate Range 2400 115200 Baud see separate RS232 Operation Manual for Logger download 5 5 1 Protocol USB Stick Only visible if an...

Page 74: ... 0 00 C Sensor Parameters Cable length 0 0 m Temp Compensation Comp none Flow Flow measurement none Conc none Signal Output 1 Parameter Conductivity Current loop 4 20 mA Function linear Scaling Range low 0 000 µS Scaling Range high 100 mS Signal Output 2 Parameter Temperature Current loop 4 20 mA Function linear Scaling Range low 0 0 C Scaling Range high 50 0 C Alarm Relay Alarm Conductivity Alarm...

Page 75: ...nd 1 mS Settings Control Parameters Reset time 0 Sec Settings Control Parameters Derivative Time 0 Sec Settings Control Parameters Control Timeout 0 Min Settings Actuator Time proportional Cycle time 60 s Response time 10 s Settings Actuator Motor valve Run time 60 s Neutral zone 5 If Function Timer Mode Interval Interval 1 min Mode daily Start time 00 00 00 Mode weekly Calendar Start time 00 00 0...

Page 76: ...74 A 96 250 321 191015 AMI Solicon4 Default Values Miscellaneous Language English Set default no Load firmware no Password for all modes 0000 Sample ID Interface Protocol Hyperterminal ...

Page 77: ...ut 8 29 Instrument Overview 12 Interface 8 Interface RS485 34 M Measuring principle 8 Measuring Range 10 Mounting 19 O On site requirements 10 P Power Supply 10 28 Programming 35 R Relay Contacts 1 and 2 30 Relays 7 Resistive load 31 S Safety Features 8 Sample flow establish 35 Sample requirements 10 Sensor parameters 57 Set Time 55 Setup 35 Signal Output 58 Current loop 58 Signal Outputs 7 32 Sim...

Page 78: ...76 A 96 250 321 191015 AMI Solicon4 Notes 12 Notes ...

Page 79: ...AMI Solicon4 Notes A 96 250 321 191015 77 ...

Page 80: ...y companies and distributors cooperates with independent representatives all over the world SWAN Products Analytical Instruments for High Purity Water Feedwater Steam and Condensate Potable Water Pool and Sanitary Water Cooling Water Waster Water and Effluents Made in Switzerland ...

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