Swan Analytical Instruments AMI INSPECTOR Hydrogen Operator'S Manual Download

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AMI INSPECTOR
Hydrogen

Version 6.21 and higher

A-96.250.741 / 050218

Operator’

s Manual

Summary of Contents for AMI INSPECTOR Hydrogen

Page 1: ...AMI INSPECTOR Hydrogen Version 6 21 and higher A 96 250 741 050218 Operator s Manual ...

Page 2: ...n 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 INSPECTOR Hydrogen Operator s Manual ID A 96 250 741 Revision Issue 00 May 2013 First Edition 01 Nov 2013 New main board integrated USB interface 02 Jan 2016 AMI Inspector Version 2 A ...

Page 3: ... the Sample Outlet 15 3 3 Electrical Connections 16 3 4 Connection Diagram 17 3 4 1 Power Supply 18 3 5 Relay Contacts 20 3 5 1 Input 20 3 5 2 Alarm Relay 20 3 5 3 Relay Contacts 1 and 2 21 3 6 Signal Output 21 4 Instrument Setup 22 4 1 Programming 22 5 Operation 23 5 1 Keys 23 5 2 Display 24 5 3 Software Structure 25 5 4 Changing Parameters and values 26 6 Maintenance 27 6 1 Maintenance Table 27 ...

Page 4: ... 5 Replacing Fuses 38 6 6 Replacing the Battery 39 6 7 Longer Stop of Operation 39 7 Error List 40 8 Program Overview 43 8 1 Messages Main Menu 1 43 8 2 Diagnostics Main Menu 2 44 8 3 Maintenance Main Menu 3 45 8 4 Operation Main Menu 4 46 8 5 Installation Main Menu 5 47 9 Program List and Explanations 49 1 Messages 49 2 Diagnostics 49 3 Maintenance 51 4 Operation 52 5 Installation 53 10 Default V...

Page 5: ...re safety 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 applicab...

Page 6: ...ollow 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 manda...

Page 7: ...R Hydrogen Safety Instructions A 96 250 741 050218 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: ...si bility 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 per...

Page 9: ...ging time approx 6 hours Controlled shut down if battery is empty Display of remaining battery life in hours For longer battery life the back light of the LC Display is dis abled Continuous operation using power adapter The battery should be discharged at least once a month normal usage until the monitor automatically shuts down Battery The Li Ion battery is located in the housing of the AMI trans...

Page 10: ...ed by an amperometric method A small volt age called polarization voltage is applied between two electrodes If a hydrogen molecule hits the positively charged platinum elec trode anode it will be oxidized This means that two electrons are removed under the influence of the positive voltage and the catalyt ic properties of the platinum This leaves two charged protons and two electrons behind 1 H2 2...

Page 11: ...lver chloride provided to keep the sensor operational during two years under normal conditions The actual SWAN hydrogen sensor design is based on the well known Clark principle Clark type oxygen sensors have been suc cessfully in use for many years Hydrogen sen sor schematic view A B C D E Polarization voltage source Display Sensor Body Sample Silver cathode F G H I J Electrolyte Platinum Anode Te...

Page 12: ...e D where the flow rate can be adjusted Then the sample flows into the measuring cell C were the hydrogen concentration of the sample is measured The sample leaves the measuring cell via flow sensor B through the sample outlet F A B C Hydrogen sensor Flow sensor Measuring cell D E F Flow regulating valve Sample inlet Sample outlet A B C D E F ...

Page 13: ...CTOR Hydrogen Product Description A 96 250 741 050218 11 2 2 Instrument Overview A B C D AMI Transmitter Hydrogen sensor Flow cell Flow sensor E F G Flow regulating valve Sample outlet Sample inlet A B D C F G E ...

Page 14: ...minium with a protection degree of IP 66 NEMA 4X housing Ambient temperature Humidity Display 10 to 50 C 10 90 rel non condensing backlit LCD 75 x 45 mm Sample requirements Flow rate Temperature Inlet pressure Outlet pressure 6 to 20 l h up to 45 C 0 2 to 1 bar pressure free Flow cell and connection Flow cell made of acrylic glass with built in flow adjustment valve and digital sample flow meter S...

Page 15: ...adapter p 19 Check if the battery is fully charged Installation Connect the sample and waste line Power up Open the flow regulating valve Switch on power Adjust the sample flow to 6 20 l h Instrument Setup Program all parameters for external devices interface recorders etc Program all parameters for instrument operation limits alarms Run in period Let the instrument run continuously for 1 h ...

Page 16: ...1 Connect the Sample Inlet to the Quick Lock Coupling The AMI INSPECTOR Hydrogen is delivered with a quick lock cou pling To connect the sample line to the AMI INSPECTOR Hydro gen simply push the nipple into the quick lock coupling A B C D Flow cell block Quick lock coupling Nipple Sample outlet A B C D ...

Page 17: ...through the union nut B as far as it reaches the stop of the threaded tube E 3 Tighten the union nut 1 rotation using an open ended spanner Hold Body from turning with a second wrench 4 Put the FEP Tube into a pressure free drain with sufficient ca pacity A B C FEP tube 8x6 Union nut Compression ferrule D E F Compression cone Threaded tube Tightened connection A B C D E F ...

Page 18: ...sed cable glands Wire For Relays Use max 1 5 mm2 AWG 14 stranded wire with end sleeves For Signal Outputs and Input Use 0 25 mm2 AWG 23 stranded wire with end sleeves WARNING External Voltage External supplied devices connected to relay 1 or 2 or to the alarm relay can cause electrical shocks Make sure that the devices connected to the following con tacts are disconnected from the power before con...

Page 19: ... 741 050218 17 3 4 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 20: ...relays USB signal outputs logger 36h at minimal load use of logger only In case that the battery is discharged completely the firmware will automatically shut down Switch Power ON OFF Switch the instrument ON or OFF using the toggle switch on the transmitter Continuous operation For continuous operation use the power adapter as well CAUTION If the AMI powers ON and then immediately shuts OFF the b...

Page 21: ...on LED indicator for power on 2 pin AC inlet IEC 320 C8 for detachable country specific power cord Power cords Two different power cords are supplied Power cord with type C plug Europlug Power cord with type A plug NEMA 1 If a different plug type is needed please purchase a suitable power cord from your local supplier NOTICE Do not use any plug adapters Dimensions Unit mm ...

Page 22: ...not use with capacitive or inductive loads Max load 1 A 250 VAC Alarm output for system errors Error codes see Error List p 40 Programming see menu 5 3 1 p 58 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 5 4 Active opened during ...

Page 23: ...3 3 p 60 3 6 Signal Output The signal output 0 4 20 mA PCB is plugged onto the USB inter face PCB NOTICE Max burden 510 Ω Terminals 16 and 15 For programming see menu 5 2 Signal Outputs p 54 Terminals Description Relay connection NO Normally Open 6 7 Relay 1 8 9 Relay 2 Inactive opened during normal operation and loss of power Active closed when a pro grammed function is executed A B Signal output...

Page 24: ...low is shown on the transmitter 4 1 Programming Sensor parameters Check the sensor parameters in menu Installation Sensors Sensor parameters The sensor characteristics are printed on the label of each sensor The following parameters are required Is saturation current p air pressure Programming Program all parameters for external devices interface recorders etc Program all parameters for instrument...

Page 25: ...set to hold A to exit a menu or command rejecting any changes 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 1 05 ppb R2 1 Installation Operation Diagnostics Messages Maintenance Main Menu Enter Exit Sensor...

Page 26: ...s B ERROR Error Fatal Error C Battery status remaining operating time in h 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...

Page 27: ...eters 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 Erro...

Page 28: ...the 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 re...

Page 29: ...ion of the revised sensor program saturation current and air pressure 5 1 3 1 p 53 and 5 1 3 2 p 53 as indicated on the sensor label To avoid a longer interruption of the measuring operation a second hydrogen sensor can be purchased The two sensors can then be used alternately If two sensors are available the following procedure is recommended Send the replacement sensor to Swan for revision short...

Page 30: ...nnected to the power supply and switched on even if it is not in use During calibration do not expose the sensor to 100 Hydro gen longer than 6 minutes Otherwise the extremely dry gas might dry out the capillary layer of electrolyte between plati num anode and plastic membrane which makes the sensor response unstable The hydrogen molecule is very small and migrates into al most any material includ...

Page 31: ...erform a calibration proceed as follows NOTICE Do not expose the sensor to 100 Hydrogen longer than 6 minutes 1 Stop the sample flow at the main tap 2 Navigate to menu Maintenance Calibration 3 Press Enter to start the calibration and follow the dialog on the display A B C D E Threaded sleeve Hydrogen sensor Quick lock coupling Hydrogen tube Sample tube A B D E C ...

Page 32: ...aturation should reach 100 the saturation current should be about 3 3 A to 3 5 A If the measuring val ues are not stable during the measur ing period the calibration will be discarded If this is the case check and if neces sary correct your measurement ar rangement and try again If the calibration was successful press Enter to save 3 1 5 Calibration Close regulating valve to turn off sample flow E...

Page 33: ...flow cell 5 Unscrew and remove the sensor connector B from the hydro gen sensor Install the new sensor 1 Screw the connector onto the hydrogen sensor and tighten it 2 Put the hydrogen sensor into the flow cell 3 Screw the threaded sleeve into the thread of the flow cell to fix the hydrogen sensor 4 Open the flow regulating valve and adjust the sample flow to 6 20 l h 5 Switch on the AMI Inspector ...

Page 34: ...s the user periodically to run the procedure and results are stored in a history for review Quality assurance level Central feature of the quality assurance function is the assignment of the monitored process to a Quality assurance level There are three predefined levels plus a user level Hereby the in spection interval the deviation limits of temperature and measuring result between the inspectio...

Page 35: ...d personnel 6 4 1 Activate SWAN Quality assurance procedure Enable quality assurance procedure at each instrument by select ing the quality level in menu 5 1 2 The corresponding submenus are then activated NOTICE The activation is necessary the first time only Quality Level max deviation temperature C a max deviation result min inspection interval 0 Off Off Off Off 1 Trend 0 5 C 10 annual 2 Standa...

Page 36: ...eck for frequently alarms as for example flow alarms If alarms occur frequently remove cause before starting the procedure 6 4 3 Connect the sample lines See corresponding chapter in the manual of the process monitor which shall be checked with a reference instrument The choice of sampling depends strongly on local conditions on site Possible sampling via sample point via T fitting or via piggybac...

Page 37: ...t of the reference instrument AMI INSPECTOR Hy drogen B Use the supplied tube 3 Connect sample outlet of the reference instrument AMI IN SPECTOR Hydrogen to the sample outlet funnel of the monitor 4 Switch on the AMI INSPECTOR Hydrogen Open the flow regu lating valve and regulate the sample flow to 10 l h The actual flow is shown on the transmitter A B C D Monitor AMI Hydrogen AMI INSPECTOR Hydrog...

Page 38: ...he or keys 7 Press Enter to confirm 8 Read temperature value of the ref erence instrument and enter un der Inspector Temp by using the or keys 9 Press Enter to confirm 10 Press Enter to continue The results are saved in QA History regardless if successful or not 3 5 5 Quality Assurance Carry out preparations Install Inspector Sample flow to 10 l h Enter to continue 3 5 5 Quality Assurance Value H2...

Page 39: ...low regulating valve at flow cell again 2 Close flow regulating valve of the AMI Inspector 3 Disconnect the AMI Inspector by removing the tubes and con nect the sample outlet of the Monitor AMI INSPECTOR Hydro gen to the sample outlet funnel again 4 Start sample flow again and regulate sample flow 5 Shutdown the AMI INSPECTOR Hydrogen If the instrument will not be used for a longer period of time ...

Page 40: ...trical shocks Make sure that the devices connected to the following con tacts are disconnected from the power before continuing the installation relay 1 relay 2 alarm relay Find and repair the cause for the short circuit before replacing the fuse Use tweezers or needle nosed pliers to remove the defective fuse Use original fuses provided by SWAN only A 1 25 AF 250V Instrument power supply A ...

Page 41: ...e mainboard 5 Disconnect battery plug B and replace the battery 6 7 Longer Stop of Operation 1 Stop sample flow 2 Do not shut off power of the instrument NOTICE The hydrogen sensor is polarized and a loss of polarization will result in loss of sensitivity If the AMI INSPECTOR Hydrogen is switched off the polarization buffer will be discharged within a few days 3 Leave the sensor in the wet flow ce...

Page 42: ...xx bold and orange Errors which indicate a hardware failure of the instrument Such Errors are marked E0xx bold and red 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 Mes...

Page 43: ...9 E004 Saturation Alarm low check process check programmed value see 5 3 1 4 p 59 E007 Sample Temp high check process check programmed value see 5 3 1 3 1 p 59 E008 Sample Temp low check process check programmed value see 5 3 1 3 22 p 59 E009 Sample Flow high check sample flow check programmed value see 5 3 1 2 2 p 59 E010 Sample Flow low establish sample flow clean instrument check programmed val...

Page 44: ... 1 5 2 p 60 E017 Control Timeout check control device or programming in Installation Relay contact Relay 1 2 see 5 3 2 and 5 3 3 p 60 E024 Input active See If Fault Yes is programmed in Menu see 5 3 4 p 64 E026 IC LM75 call service E030 EEProm Frontend call service E031 Calibration Recout call service E032 Wrong Frontend call service E033 Power on none normal status E034 Power down none normal sta...

Page 45: ...ed Menu 3 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 passwo...

Page 46: ...nd Operating Time Years Days Hours Minutes Seconds 2 1 4 1 2 1 4 Sensors Sensor Current Value 2 2 2 2 1 Raw value tc Raw value Saturation Cal History Number 2 2 1 5 1 2 2 1 5 Date Time Sat Current Air pressure Miscellaneous Case Temp 2 2 2 1 2 2 2 Air pressure Sample Sample ID 2 3 1 2 3 Temperature C Nt5K Ohm I O State Alarm Relay 2 4 1 2 4 Relay 1 2 2 4 2 Input Signal Output 3 Interface Protocol ...

Page 47: ...aintenance Main Menu 3 Calibration Calibration 3 1 5 Menu numbers 3 1 Sevice Electrolyte Last filling 3 2 3 2 1 Remaining amount Remaining time New Filling 3 2 1 5 Simulation Alarm Relay 3 3 1 3 3 Relay 1 3 3 2 Relay 2 3 3 3 Signal Output 3 3 3 6 Set Time Date Time 3 4 ...

Page 48: ... Alarm Low 4 2 1 1 22 Hysteresis 4 2 1 1 32 Delay 4 2 1 1 42 Alarm Saturation Alarm High 4 2 1 2 1 4 2 1 2 Alarm Low 4 2 1 2 22 Hysteresis 4 2 1 2 32 Delay 4 2 1 2 42 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 Signal Outputs 4 2 4 2 Output Control 4 2 4 3 Fault 4 2 4 4 Delay 4 2 4 5 Logger Log Interval 4 3 1 4 3 Clear Logger 4 3 2 Menu n...

Page 49: ...High 5 3 1 1 1 5 3 5 3 1 5 3 1 1 Alarm Low 5 3 1 1 22 Hysteresis 5 3 1 1 32 Delay 5 3 1 1 42 Sample Flow Flow Alarm 5 3 1 2 1 5 3 1 2 Alarm High 5 3 1 2 2 Alarm Low 5 3 1 2 32 Sample Temp Alarm High 5 3 1 3 1 5 3 1 3 Alarm Low 5 3 1 3 22 Alarm Saturation Alarm High 5 3 1 4 1 5 3 1 4 Alarm Low 5 3 1 4 22 Hysteresis 5 3 1 4 32 Delay 5 3 1 4 42 Case Temp Case Temp high 5 3 1 5 1 5 3 1 5 Case Temp low...

Page 50: ...Program Overview 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 USB Stick 5 5 5 5 1 Menu numbers ...

Page 51: ...ssue and status active acknowledged cleared 65 errors are memorized Then the oldest error is cleared to save the newest error circular buffer 2 Diagnostics In diagnostics mode the values can only be viewed not modified 2 1 Identification Desig Designation of the instrument Version Firmware of instrument e g 6 21 10 17 2 1 3 Factory Test Test date of the Instrument and Motherboard 2 1 4 Operating T...

Page 52: ...Shows the actual temperature in C inside the transmitter Air pressure Shows the actual air pressure in hPa 2 3 Sample 2 3 301 Sample ID Shows the assigned sample identification This identification is defined by the user to identify the location of the sample Temperature Shows temperature in C Nt5K Shows raw value of the temperature in Sample Flow Shows the sample flow in l h Raw value Shows the sa...

Page 53: ...owing relays and signal outputs can be tested Alarm relay Relay 1and 2 Signal output 3 Select a relay or signal output with the or keys press the Enter key to confirm Then change the value with the or keys After confirming the setting with 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...

Page 54: ...trument is equipped with an internal logger The data can be copied to the USB stick installed in the transmitter The logger can save approx 1500 data records The Records consists of Date time alarms measuring values raw values case temperature flow 4 3 1 Log Interval Select a convenient log interval Consult the table below to estimate the max logging time When the logging buffer is full the oldest...

Page 55: ...l correction of the offset Range 0 3 ppb 5 1 1 3 Maintenance Int Select the interval of the automatic sensor regen eration Off 3 hours 6 hours 12 hours 5 1 2 Quality Assurance Not applicable 5 1 3 Sensor parameters 5 1 3 1 Saturation current Enter the saturation current printed on the sensor label Range 3000 4500 µA 5 1 3 2 Air pressure Enter the air pressure printed on the sensor label Range 900 ...

Page 56: ...re 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 p 54 Control upwards or control downwards for controllers See As control output p 56 As process values...

Page 57: ...idpoint for the bilinear scale Parameter Hydrogen Range low 0 00 ppb 20 00 ppm Range high 0 00 ppb 20 00 ppm Parameter Temperature Range low 30 to 130 C Range high 30 to 130 C Parameter Sample flow Range low 0 50 l h Range high 0 50 l h Parameter Saturation Range low 0 200 Range high 0 200 X Measured value logarithmic 20 1 0 1 2 3 4 10 100 1 000 10 000 10 12 0 20 mA 0 4 4 2 6 4 20 mA mA X ...

Page 58: ...e 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 deriva...

Page 59: ...le flow 5 2 1 43 12 Setopint Range 0 50 l h 5 2 1 43 22 P Band Range 0 50 l h 5 2 1 43 Control Parameters if Parameter Saturation 5 2 1 43 13 Setopint Range 0 200 5 2 1 43 23 P Band Range 0 200 5 2 1 43 3 Reset time The reset time is the time till the step response of a single 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 Deriv...

Page 60: ...perature low 5 3 1 1 Alarm Hydrogen 5 3 1 1 1 Alarm High If the measured value rises above the alarm high value the alarm relay is activated and E001 is displayed in the message list Range 0 00 ppb 20 00 ppm 5 3 1 1 22 Alarm Low If the measured value falls below the alarm low value the alarm relay is activated and E002 is displayed in the message list Range 0 00 ppb 20 00 ppm 5 3 1 1 32 Hysteresis...

Page 61: ... should be issued 5 3 1 3 1 Alarm High If the measured value rises above the alarm high value the alarm relay is activated and E007 is issued Range 30 100 C 5 3 1 3 22 Alarm Low If the measured value rises above the alarm high value the alarm relay is activated and E008 is issued Range 10 to 20 C 5 3 1 4 Alarm Saturation 5 3 1 4 1 Alarm High If the measured value rises above the alarm high value t...

Page 62: ... of simplicity only the menu numbers of Relay 1 are used in the following 1 First select the functions as Limit upper lower Control upwards downwards Timer Fieldbus 2 Then enter the necessary data depending on the selected func tion The same values may also be entered in menu 4 2 Relay Contacts p 52 When the relays are used as upper or lower limit switches program the following 5 3 2 20 Parameter ...

Page 63: ...as solenoid valves membrane dosing pumps or motor valves When driving a motor valve both relays are needed relay 1 to open and relay 2 to close the valve 5 3 2 22 Parameter choose one of the following process values Hydrogen Temperature Sample Flow Saturation 5 3 2 32 Settings Choose the respective actuator Time proportional Frequency Motor valve Examples of metering devices that are driven time p...

Page 64: ... dosing output is smaller than the response time no change will take place Range 1 20 5 3 2 32 4 Control Parameters Range for each Parameter same as 5 2 1 43 p 57 The relay will be activated repetitively depending on 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 1 440 min 5 3 2 44 Run Time Enter ...

Page 65: ...ro grammed days To set the start time see 5 3 2 341 p 62 Range 00 00 00 23 59 59 5 3 2 342 2 Monday Possible settings on or off to 5 3 2 342 8 Sunday Possible settings on or off 5 3 2 44 Run Time see Interval 5 3 2 54 Delay see Interval 5 3 2 6 Signal Outputs see Interval 5 3 2 7 Output Control see Interval The relay will be switched via the Profibus input No further param eters are needed 5 3 2 6...

Page 66: ...ec Cont Controller continues normally Hold Controller continues based on the last valid value Off Controller is switched off 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 ...

Page 67: ...parameters are kept in memory All other values are set back to default values Completely Sets back all 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 unauthorized access to the menus Messages Maintenance Operation and Installation Each menu may be prot...

Page 68: ...fined 5 5 1 Protocol Profibus 5 5 20 Device address Range 0 126 5 5 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 1200 115200 Baud 5 5 41 Parity Range none even odd 5 5 1 Protocol USB Stick Only visible if an USB interface is installed No further settings are possib...

Page 69: ...s Saturation current Sensor parameters Air pressure 0 hPa Signal Output Parameter Hydrogen Current loop 4 20 mA Function linear Scaling Range low 0 00 ppb Scaling Range high 10 00 ppm Alarm Relay Alarm Hydrogen Alarm high 10 00 ppm Alarm Hydrogen Alarm low 0 00 ppb Alarm Hydrogen Hysteresis 100 ppb Alarm Hydrogen Delay 30 s If Flow Q Flow Sample Flow Flow Alarm yes Sample Flow Alarm high 14 0 l h ...

Page 70: ...trol Parameters P band 100 ppb Settings Control Parameters Reset time 0 s Settings Control Parameters Derivative Time 0 s Settings Control Parameters Control Timeout 0 min Settings Act Time prop Cycle time 60 s Settings Act Time prop Response time 10 s Settings Act Motor valve Run time 60 s Settings Act Motor valve Neutral zone 5 If Function Timer Mode Interval Interval 1 min Mode daily Start time...

Page 71: ...AMI INSPECTOR Hydrogen Default Values A 96 250 741 050218 69 Miscellaneous Language English Set default no Load firmware no Password for all modes 0000 Sample ID Interface Protocol USB Stick ...

Page 72: ...t Values 67 E Establish Sample Flow 22 external devices 18 F Fluidics 10 I Input 20 Instrument Setup 13 36 L Longer Stop of Operation 39 M Measuring Range 12 P Power adapter 18 19 Power ON OFF 18 Power Supply 12 20 R Relay Contacts 1 and 2 21 S Sample Flow 59 Sample requirements 12 shut down 18 Signal Outputs 21 Software 25 T Terminals 17 20 21 W Wire 16 ...

Page 73: ...AMI INSPECTOR Hydrogen Notes A 96 250 741 050218 71 12 Notes ...

Page 74: ...idiary 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 Waste Water and Effluents Made in Switzerland ...

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