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P717 Exponent

This parameter is used to enter the exponent value when:
P700 PMD Type = 1 Exponent and P701 Primary M.D = 7 Others.

P718 K Factor

This parameter is used to enter the K Factor when:
P700 PMD Type = 1 Exponent and P702 Calculation = 1 Absolute

see table

below for further details

.

Primary Measuring Device

P718 K

Factor

P700 = 1 Exponent
P701 = 1 Supp. Rectangular Weir

Automatically

Calculated

P700 = 1 Exponent
P701 = 2 Trapezoidal Weir

Automatically

Calculated

P700 = 1 Exponent
P701 = 3 Venturi Flume

Obtain value

and enter

P700 = 1 Exponent
P701 = 4 Parshall Flume

Automatically

Calculated

P700 = 1 Exponent
P701 = 5 Leopold Lagco Flume

Automatically

Calculated

P700 = 1 Exponent
P701 = 6 V Notch

Automatically

Calculated

P700 = 1 Exponent
P701 = 7 Other

Obtain value

and enter

P719 Throat Width

This parameter is used to select the Throat Width of the flume when:
P700 PMD Type = 1 Exponent and P701 = 4 Parshall Flume. After selecting
the Throat Width the Exponent P717 and K Factor P 718 will be set
automatically.

Calculations

The following parameters P720 to P725 are values calculated by the unit,
dependent on application, and are “Read Only”, therefore have no default
values.

P720 Area

Displays the calculated value of the area when, P700 = 2 BS3690 flumes
and P700 = 4 Area Velocity.

P721 Cv

Displays the calculated value for Cv when, P700 = 2 BS3680 flumes.

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Summary of Contents for ULTRA 5

Page 1: ...ULTRA 5 INSTRUCTION MANUAL ...

Page 2: ......

Page 3: ...described herein Every effort has been made to ensure accuracy of this documentation but Pulsar Process Measurement Limited cannot be held liable for any errors Pulsar Process Measurement Limited operates a policy of constant development and improvement and reserves the right to amend technical details as necessary The Ultra 5 units shown on the cover of this manual is used for illustrative purpos...

Page 4: ......

Page 5: ...scia Mount 18 Rack and Panel 19 Voltage Selector and Fuse Location 23 Wall mount 23 Fascia mount 23 Rack and Panel mount 24 Preparation for Operation 26 Maintenance 26 Chapter 3 How To Use Your Ultra 5 28 Operating the Controls 28 Display 28 Run Mode 29 Program Mode 30 How to Access Program Mode 30 Wall and Fascia mount 30 Rack and Panel 30 Test Mode 36 Using the RS232 Serial Interface 37 Paramete...

Page 6: ...Differential Control 84 Menu System and Parameter Guide 86 Top Level Menu 86 Application Menu 87 Relays Menu 88 Pump Advanced Menu 89 Data Logs Menu 90 Pumped Volume Menu 91 Efficiency Menu 92 Display Menu 93 mA Output Menu 94 Compensation Menu 94 Stability Menu 95 Echo Processing Menu 96 System Menu 97 Device Comm Menu 97 Test Menu 99 Chapter 7 Flow 100 Quick Setup Menu 103 Exponential Devices 10...

Page 7: ... 139 System Menu 140 Device Comm Menu 141 Test Menu 142 Chapter 8 Parameter Listing and Descriptions 144 Application Parameters 144 Operation 144 Dimensions 146 mA Input 148 Relay Parameters 150 Alarms 152 General Control 156 Pumps 157 Control 162 Miscellaneous 169 Pump by Time 171 Common Parameters 174 Pump Advanced Parameters 175 Pump Run On 175 Starting 175 Stopping 176 Pump Exercising 176 Wall...

Page 8: ...tion Parameters 210 Offset 210 Temperature 211 Velocity 212 Stability Parameters 213 Damping 213 Indicator 213 Rate 213 Filters 214 Echo Processing Parameters 215 Transducer 1 Status 215 Transducer 2 Status 216 System Parameters 217 Passcode 217 Backup 217 System Information 217 Date Time 218 LED Colour 219 Watchdog 220 Daylight Saving Time 220 Service Alarm 224 Device Comm 225 RS232 Set Up 225 RS...

Page 9: ...al will ensure that your installation is as simple as possible About this Manual It is important that this manual is referred to for correct installation and operation There are various parts of the manual that offer additional help or information as shown Tips TIP At various parts of this manual you will find tips to help you Additional Information Additional Information At various parts of the m...

Page 10: ...ment pump control differential level or flow measurement The benefits are many but most importantly the unit provides 1 A most versatile system which is quickly configurable to offer anyone four separate functions within seconds Ideal for simplicity of purchase and off the shelf spares 2 A totally dedicated device with the ability to perform all aspects of the task required i e no compromise in sp...

Page 11: ...232 Serial Interface optional The optional rack and panel mounted units are programmed with the Remote Communicator and one Communicator can program many Pulsar Ultra 5 units All parameters are stored in non volatile memory so are retained in the event of power interruption A second backup copy of all parameters can also be retained in the Ultra 5 memory in case an alternative set of parameters ne...

Page 12: ...r you and then configure the unit using Ultra Wizard as described in Chapter 4 3 Move directly to the appropriate chapter of this manual as listed below for details on how to program Ultra 5 using the Quick Set Up Menu Chapter Function Task Chapter 5 Level Volume Measurement of Level or Volume Chapter 6 Pump Differential Control of Pumps or Differential measurement and Control Chapter 7 Flow Measu...

Page 13: ...ions 2 core screened Maximum separation 1000 m Environmental IP Rating Wall IP65 IP Rating Fascia IP64 Optional IP rated panel mount IP65 Max min temperature electronics 20 ºC to 50 ºC Flammable atmosphere approval Safe area compatible with approved dB transducers see transducer spec sheet CE approval See EU Declaration of conformity Performance Accuracy 0 25 of the measured range or 6 mm whicheve...

Page 14: ...mming On board programming By integral keypad PC programming via RS232 Remote programming Rack and Panel option only By optional infra red communicator Programming security Via passcode user selectable and adjustable Programmed data integrity Via non volatile RAM plus backup Supply Power supply 115V ac 5 10 50 60 Hz 230V ac 5 10 50 60 Hz dc 18 36V 10W maximum power typically 6W Fuses 100 mA at 170...

Page 15: ...Page 7 EU Declaration of Conformity Wall Mount ...

Page 16: ...Page 8 Fascia Mount ...

Page 17: ...Page 9 Rack and Panel ...

Page 18: ...Page 10 This page left blank intentionally ...

Page 19: ...ding on the position of the selector switch The DC is 18 36V In all cases the Ultra 5 will typically consume 6W of power with a maximum of 10W Location All electronic products are susceptible to electrostatic shock so follow proper grounding procedures during installation Ultra 5 must be mounted in a non hazardous safe area and the transducer fitted in the hazardous area ...

Page 20: ...on free The ambient temperature is between 20ºC and 50ºC There should be no high voltage cables or inverters close by Dimensions Wall mount The dimensions of the wall fixing holes are as shown below Ultra 5 should be mounted by drilling three holes suitable for size 8 screws length to suit your application and fixing the top screw in place Hang the unit on this and fix the two remaining screws by ...

Page 21: ...Page 13 The full dimensions of the enclosure are as shown below ...

Page 22: ...y using a circular cutter such as a tank cutter Take care not to damage the circuit board inside whilst undertaking this Do not use a hammer as this may cause damage to the enclosure It is recommended that you use suitable cable glands to ensure that the ingress rating is maintained Fascia Mount The Fascia mount Ultra 5 should be installed by cutting a hole in the panel as detailed below ...

Page 23: ...Page 15 The full dimensions of the Fascia mount enclosure are as shown below ...

Page 24: ...g the four captivated screws that are in the faceplate The panel mount unit should be installed by cutting a hole of size DIN 68 0 7 x 138 1 0 mm in the panel then insert the Ultra 5 enclosure through the hole and tighten the fixing screws from the rear Make sure you leave sufficient room for the cables behind the enclosure a depth of at least 225 mm behind the panel should suffice All electronic ...

Page 25: ...Page 17 Dimensions of the panel enclosure are as shown below VOLTAGE SELECTOR AC POWER FUSE 230 115 ...

Page 26: ...Page 18 Terminal Connection Details Wall Mount The terminal strip is as detailed below There is also a wiring diagram inside the terminals access cover Fascia Mount ...

Page 27: ...Page 19 Rack and Panel The terminal strip is as detailed below There is also a wiring diagram on the side of each unit ...

Page 28: ...ach are available for use in Zone 1 or Zone 0 Wire the transducer to the Ultra 5 s transducer terminals terminal numbers will depend on the unit type as follows Transducer 1 Terminal Connection Details Unit Type Red Power White Signal Black 0 volts Green Screen Wall Mount 39 40 41 41 Fascia Mount 32 31 30 30 Rack or Panel c2 c4 c6 c6 Transducer 2 Terminal Connection Details Unit Type Red Power Whi...

Page 29: ... required to measure Average then transducers can be connected to either one Relay Outputs The five relays can be programmed for a variety of alarms pump control or other process functions The relay contacts are all rated at 5A at 240V AC All connections should be such that the short circuit capacity of the circuits to which they are connected is limited by fuses rated so that they do not exceed t...

Page 30: ...Mount Power Supply Terminal 1 Terminal 27 Terminal a12 Terminal 25 Return Terminal 2 Terminal 28 Terminal a14 Terminal 24 Temp Source P852 should be set to option 4 or 5 depending on the sensor range set 4 for type A and 5 for type B see above the range is specified on the label of the sensor RS232 Serial Interface If required you can connect to the serial interface to operate your Ultra 5 remotel...

Page 31: ...elector switch and mains fuse is located inside the terminal compartment to the left of the mains terminals as illustrated below Fascia mount The voltage selector switch and mains fuse is located under the removable cover at the bottom of the unit as illustrated below ...

Page 32: ...Page 24 Rack and Panel mount The voltage selector switch and mains fuse is situated on the inside of the bottom PCB as illustrated below and can be accessed from the lower side of the rack unit ...

Page 33: ...olts AC for safety reasons and a 100mA fuse fitted as standard Never operate the Ultra 5 with terminal access exposed An external switch or circuit breaker should be installed near to the Ultra 5 to allow the supply to be removed during installation and maintenance In addition the relay contacts should also have a means of isolating them from the Ultra 5 Interconnecting cables must be adequately i...

Page 34: ...asurement for advice To clean the equipment wipe with a damp cloth Do not use any solvents on the enclosure Important Information The unique DATEM software comes into operation as soon as power is applied and is designed to monitor a moving level or target with the transducer in a fixed position If after any period of use it should become necessary to move the transducer for any reason from its or...

Page 35: ...Page 27 This page left blank intentionally ...

Page 36: ...read information on the Menu System Parameter Number and parameter details and values which can be entered During Test Mode the display is used to monitor the simulated level A bar graph is also provided which will provide a visual reading of the level in percentage of span Run Mode Program Mode Test Mode 100 000 000 XXXXXXXXXXXX REMOTE COMMUNICATOR OFF 0 1 Mode status enunciator displays the curr...

Page 37: ... is moving Program Mode indicates at which level of the menu system you are at The display on the wall fascia rack and panel mount unit contain the same information the difference being the aspect ratio of each display There are two main operating modes for your Ultra 5 Run Mode and Program Mode There is also a Test Mode used for checking the set up All modes are now described Run Mode This mode i...

Page 38: ...ore you can commence programming it is first necessary to activate the communication between the Ultra 5 and the Communicator This is achieved by offering the Remote Communicator up to the Ultra 5 so that the arrow point in the Pulsar Logo on the Communicator is in line with the corresponding arrow point on the front panel of the unit and lightly touching the unit with the communicator see followi...

Page 39: ...a the keypad followed by the ENTER key The default passcode is 1997 so you would press the following Note There is a time out period of 15 minutes when in program mode after which time run mode will be resumed if you do not press any keys Align the arrows to activate the infra red ...

Page 40: ...ump view total pump running hours and individual pump running hours Not used with Ultra 5 Displays echo confidence echo strength H A L L average noise peak noise or temperature Not used with Ultra 5 When application is Pump view total number of pump starts and individual pump starts Reset parameter to default setting Instantaneous mA output Not used with Ultra 5 Dependant on application displays D...

Page 41: ...down 1 Used to confirm each action for example select a menu option or when entering a parameter number or value 2 Used to confirm questions asked by your Ultra 5 such as before restoring factory defaults Used to navigate up a level in the menu system and back to run mode Used to cancel a value entered in error Numeric Keys These keys are used for entering numerical information during programming ...

Page 42: ...re described later in this manual When you move down into the sub menu you can scroll round using the arrow keys press ENTER to go to the required section of parameters Once you have reached the relevant section scroll through the parameters and enter the necessary information To enter the information use the numeric keys and then press ENTER you will then see the message Saved If you press CANCEL...

Page 43: ...e in either the menu or sub menu level by pressing a numeric key you can enter the parameter number directly and jump straight there You cannot type a parameter number whilst at parameter level only at one of the two menu levels When you are at a parameter the text line rotates automatically displaying the parameter name number the applicable units and the maximum and minimum figure you can enter ...

Page 44: ...mulation using the arrow keys will allow you to move the level up and down as required To enter simulation first go to program mode Using the menu system select menu item Test then sub menu item Simulation Simply change the value of the parameter P980 to one of the following 1 Manual soft simulation 2 Automatic soft simulation 3 Manual hard simulation 4 Automatic hard simulation To return to progr...

Page 45: ... connected as shown in Chapter 2 Installation To use the device remotely you need to log on to start and log off when finished When logged on Ultra 5 will show Remote ON on the display and Communicator OFF when logged off All commands should be followed by a carriage return The unit will respond either OK or a value if the command is accepted or NO if it is not To log on send the command ACCESS pp...

Page 46: ...re CURRENTOUT show the mA output value CURRENTIN show the mA input value BACKUP1 take backup of parameters to area 1 BACKUP2 take backup of parameters to area 2 RESTORE1 restore parameters from area 1 RESTORE2 restore parameters from area 2 Please consult Pulsar Process Measurement or contact your local Pulsar representative for further details and a full list of available commands ...

Page 47: ...P931 and time P932 in Ultra 5 were set at the factory but may need checking and amending if for example the application is in a time zone other than GMT see relevant unit Parameter listing for full details TIP In some applications it is simplest to empty the vessel take a reading from the Ultra 5 for distance and then setup the empty level to this figure Once you are satisfied with the installatio...

Page 48: ...ard You will see on the menu the words Ultra Wizard which is the first item on the menu select and press This takes you to the Select Application Menu and provides the choice of 1 Level or Volume measurement Lev Vol 2 Pump Control or Differential measurement and control Pump Diff 3 Open channel Flow measurement Flow Once you have selected the application of your choice the Ultra 5 will be configur...

Page 49: ... along with control functions for a complete range of vessel shapes Also available within the unit is a customised 32 point calibration routine which permits the calculation of volume in non standard vessels The Level Star 5 can measure from 0 12 m to 40 m from the face of the transducer to the surface being monitored dependent on the transducer used The Level Star 5 can show details of level spac...

Page 50: ...nt on the transducer used The Advanced 5 can show level space distance or the average or differential between two points of measurement on the display The five user definable relays with individual setpoints can be programmed to activate alarms pump starters or other control equipment The 4 20 mA output is fully programmable to provide an output relative to level distance average or differential T...

Page 51: ...w Q Velocity x area for a wide range of channel shapes Also available within the unit is a customised 32 point calibration routine which also permits the flow measurement of non standard flumes and weirs The Flow 5 can measure from 0 0 m to 15 m from the transducer to the surface being monitored dependent on the transducer used The Flow 5 can show details of level space distance head or flow on th...

Page 52: ...press the right hand arrow key and this will take you to the Quick Setup menu option Try pressing either of the two arrow keys to see some more menu options but return to Quick Setup and press This takes you to the Quick Setup Menu This takes you to the common applications menu and a number of options will appear on the display Note If you have already setup a common application then there will be...

Page 53: ...ntrol relays as described in the following example 2 then choose 1 and choose either control down press 1 or control up press 2 If you want to set up a volume application as described in the following example 3 then choose 2 Once you have chosen your application you will be asked a series of questions which are answered by choosing the appropriate option as detailed in the flow chart below Once al...

Page 54: ...rol Up No of Control Relays 1 1 Control Relay 2 2 Control Relay 3 3 Control Relay 4 4 Control Relay 5 5 Control Relay For each Cntl Relay 1 Set to Relay1 2 Set to Relay 2 3 Set to Relay 3 4 Set to Relay 4 5 Set to Relay 5 How Many Alarm 0 No Alarms 1 One Alarm 2 Two Alarms 3 Three Alarms 4 Four Alarms 5 Five Alarms List will be truncated according to the number of Control relays selected For Each ...

Page 55: ...he material at the bottom of the vessel P106 Span 5 7 m Distance from the empty level 0 full to span 100 full If you have selected a Volume Application you will now be prompted to enter details required for the calculation of volume Parameter Default Description P600 Vessel Shape 0 Cyl Flat Base Shape of vessel being monitored P601 P603 Vessel Dimensions dependant on vessel shape selected Enter Ve...

Page 56: ...n Either Alarm or Level control Depends on application P243 P244 Relay 4 ON OFF setpoints Factory preset as a to appropriate level according to the span already entered See tables below Depends on application Either Alarm or Level control Depends on application P253 P254 Relay 5 ON OFF setpoints Factory preset as a to appropriate level according to the span already entered See tables below Depends...

Page 57: ...3 80 70 60 20 20 20 Cntl Down Four Control 1 Control 2 Control 3 Control 4 80 70 60 50 20 20 20 20 Cntl Down Five Control 1 Control 2 Control 3 Control 4 Control 5 80 70 60 50 40 20 20 20 20 20 Application Number of Cntl Relays Cntl Relay Number On Setpoint Off Setpoint Cntl Up One Control 1 20 80 Cntl Up Two Control 1 Control 2 20 30 80 80 Cntl Up Three Control 1 Control 2 Control 3 20 30 40 80 8...

Page 58: ...Page 50 Relay Function Relay I D On Setpoint Off Setpoint Alarm HiHi 90 85 Alarm High 85 80 Alarm Low 10 15 Alarm LoLo 5 10 ...

Page 59: ...on P213 2 38m 80 high alarm off P214 2 24m 15 low alarm off P224 0 42m 10 low alarm on P223 0 28m 0 empty level In this example when the level rises to 2 38 m relay 1 will come on until the level drops to 2 24 m when it will turn off If the level drops to 0 28 m then relay 2 will come on until it rises 0 42 m when it will turn off The display will show the level in the tank The mA output will be r...

Page 60: ... 2 2 Set Relay 2 Xducer P101 2 dB6 Material P102 1 Liquid Measnt Units P104 1 metres Empty Level P105 3 5 metres Span P106 2 8 metres Programming is now complete and the unit can be returned to the run mode press CANCEL until Run Mode Is displayed on the LCD press ENTER and the Level Star 5 will return to the Run Mode Note If relay setpoints do not meet the exact requirements of the application th...

Page 61: ... empty level 20 control down off P214 0 7m In this example there is a pump relay 1 which will come on if the level rises to 2 24 m and go off when the level drops to 0 7 m control down If the level rises to 2 4 m then the high level alarm relay 2 will come on until the level drops to 2 24 m If the level falls to 0 28m then the low level alarm relay 5 will come on until the level rises to 0 42 m Al...

Page 62: ...Type Alarm 2 2 Low Alarm No 2 5 Set Relay 5 Xducer P101 2 dB6 Material P102 1 Liquid Measnt Units P104 1 metres Empty Level P105 3 5 metres Span P106 2 8 metres Programming is now complete and the unit can be returned to the run mode press CANCEL until Run Mode Is displayed on the LCD press ENTER and the Level Star 5 will return to the Run Mode Note If relay setpoints do not meet the exact require...

Page 63: ...44 2 24m 80 control down on P213 2 24m 15 low alarm off P254 0 42m 10 low alarm on P253 0 28m 0 empty level 20 control down off P214 0 7m In this example there is a pump relay 1 which will come on if the level rises to 2 24 m and go off when the level drops to 0 7 m control down If the level rises to 2 4 m then the high level alarm relay 4 will come on until the level drops to 2 24 m If the level ...

Page 64: ...102 1 Liquid Measnt Units P104 1 metres Empty Level P105 3 5 metres Span P106 2 8 metres Vessel Shape P600 0 Cylindrical Flat Base Vessel Dimensions Enter Vessel Dimensions as requested depends on vessel shape chosen Volume Units Select as required Max Volume Read Only Displays the Max Volume as calculated by the Level Star This example is for a cylindrical flat bottomed vessel See P600 Vessel Sha...

Page 65: ...y can be modified to suit by pressing ENTER when For More Options Hit Enter is displayed and entering new values to relay setpoints as required Alternatively the relevant relay setpoint can be accessed either by the main menu system or directly via parameter number and changed as necessary ...

Page 66: ...charts illustrating the menu system and location of all parameters available in the Level Star For further details and full description of all parameters refer to Chapter 8 Parameter Listing and Descriptions Top Level Menu Ultra Wizard Quick Setup Application Relays Data Logs Compensation mA Output Display Stability System Test Device Comm Echo Processing Volume ...

Page 67: ...ransducer P119 mA Status P104 Measurement Units P102 Material P103 Input 2 Optional If P100 4 or 5 and P101 0 Aux P105 Empty Level P106 Span P107 Near Blanking P108 Far Blanking P120 Low mA In P121 High mA In P122 Low Level In P123 High Level In P124 Low mA Trim P125 High mA Trim ...

Page 68: ...251 Function P222 Alarm ID or Pump Group P232 Alarm ID or Pump Group P242 Alarm ID or Pump Group P252 Alarm ID or Pump Group P223 Set 1 P233 Set 1 P243 Set 1 P253 Set 1 P224 Set 2 P234 Set 2 P244 Set 2 P254 Set 2 P226 Allocat P236 Allocat P246 Allocat P256 Allocat P227 Closures P237 Closures P247 Closures P257 Closures P228 Fail Safe P238 Fail Safe P248 Fail Safe P258 Fail Safe P249 R4 Max Rate If...

Page 69: ...Page 61 Data Logs Menu Temperature P580 Min Temp P581 Min Temp Date P582 Min Temp Time P583 Max Temp P584 Max Temp Date P585 Max Temp Time P586 Current Temperature ...

Page 70: ...ax Volume P612 614 616 618 620 622 624 626 628 630 632 634 636 638 640 642 644 646 648 650 652 654 656 658 660 662 664 666 668 670 Level Bkpts 2 to 31 Breakpoints P610 Level Bkpt 1 P611 Vol Bkpt 1 P613 615 617 619 621 623 625 627 629 631 633 635 637 639 641 643 645 647 649 651 653 655 657 659 661 663 665 667 669 671 Vol Bkpts 2 to 31 P672 Level Bkpt 32 P673 Vol Bkpt 32 Tables P696 Reset Bkpts P697...

Page 71: ...ry Bargraph P802 Display Offset P801 Decimal Places P804 Display Conversion P808 Fail Mode P809 Fail Time P810 Units P811 Alarms P812 Pumps P813 Control P814 Misc P829 Bargraph P800 Display Units P805 Display Source P815 Aux Source P817 Aux Offset ...

Page 72: ...P854 Fixed Temperature P860 Sound Velocity P861 Calibration Distance 1 P862 Calibration Distance 2 Range Operation Setpoint Limits Trim Fail Safe Allocation P830 mA Out Range P831 mA Out Mode P834 Low Value P836 Low Limit P835 High Value P836 High Limit P838 Low mA Trim P838 High mA Trim P840 Fail Mode P841 Allocation ...

Page 73: ...e Filters P870 Fill Damping P871 Empty Damping P872 Fill Indicator P873 Empty Indicator P874 Rate Update P875 Rate Time P876 Rate Distance P877 Rate Value P878 Lower Cutoff P880 Gate Mode P881 Fixed Distance P882 Process Filter P884 Peak Percent ...

Page 74: ...o Confidence 1 P902 Echo Strength 1 P903 Average Noise 1 P904 Peak Noise 1 P905 Sensitivity 1 P906 Side Clearance 1 Xdr 1 Status P910 Xdr 2 Status P911 Echo Confidence 2 P912 Echo Strength 2 P913 Average Noise 2 P914 Peak Noise 2 P915 Sensitivity 2 P916 Side Clearance 2 ...

Page 75: ... Date Time LED Colour Daylight Saving P926 Software Revision P931 Date P935 Off Colour P970 DST Enable P927 Hardware Revision P928 Serial Number P929 Site Ident P930 Factory Default P932 Time P933 Date Format P936 Alarm Colour P937 Pump Colour P938 Control Colour P939 Misc Colour P971 DST Difference P972 DST Start Time P973 Start Day P974 Start Week P975 Start Month P976 DST End Time P977 End Day ...

Page 76: ...f Comms Type PROFIBUS P061 Comms Baud P130 Device Mode P131 Protocol P132 Device Address P133 Device Baud P134 Parity P135 Stop Bit P136 Data Format P137 Delay milliseconds P132 Device Address P143 Address Lock P144 Call Type P145 Tel No 1 P146 Tel No 2 P147 Tel No 3 P148 Timed Out P149 Retry No ...

Page 77: ...ulation Hardware P980 Simulate P981 Increment P982 Rate P983 Start Level P984 Incremental Change P990 Self Test P991 Hardware Test P992 mA Out Test P994 Transducer Test P995 Keys Test P996 Relay Test P99 mA In Test Optional ...

Page 78: ...s the right hand arrow key and this will take you to the Quick Setup menu option Try pressing either of the two arrow keys to see some more menu options but return to Quick Setup and press This takes you to the Quick Setup Menu This takes you to the common applications menu and a number of options will appear on the display Note If you have already setup a common application then there will be a n...

Page 79: ...ibed in the following example 2 then choose 2 If you want to set up a pump up reservoir control application as described in the following example 3 then choose 3 If you want to set up a differential application as described in the following example 4 then choose 4 Once you have chosen your application you will be asked a series of questions which are answered by choosing the appropriate option as ...

Page 80: ... be truncated according to the number of Control relays selected Pump Duty 1 Fixed Duty Assist 2 Fixed Duty Backup 3 Alt Duty Assist 4 Alt Duty Backup 5 Duty Backup Ass 6 Serv Ratio Duty Ass 7 Serv Ratio Duty B up 8 FOFO Alt Duty Ass 4 Differential Number of Control Relays 1 One Control Relay 2 Two Control Relay 3 Three Control Relay 4 Four Control Relay 5 Five Control Relay For each Control Relay...

Page 81: ...24 Relay 2 ON OFF setpoints Factory preset as a to appropriate level according to the span already entered See tables below Depends on application Either Alarm or Pump control Depends on application P233 P234 Relay 3 ON OFF setpoints Factory preset as a to appropriate level according to the span already entered See tables below Depends on application Either Alarm or Pump control Depends on applica...

Page 82: ...ate of the vessel The default values used for determining the relay setpoints when setting Alarm Differential Control and Pump relays via the Quick Setup menu are entered as a of span and are as follows Application Number of Pumps Pump Number On Setpoint Off Setpoint Pump Down One Pump 1 50 20 Pump Down Two Pump 1 Pump 2 50 70 20 20 Pump Down Three Pump 1 Pump 2 Pump 3 50 60 70 20 20 20 Pump Down ...

Page 83: ...ump 2 Pump 3 Pump 4 Pump 5 60 50 40 30 25 80 80 80 80 80 Application Number of Cntl Relays Cntl Relay Number On Setpoint Off Setpoint Level Cntl Down One Control 1 80 20 Level Cntl Down Two Control 1 Control 2 80 70 20 20 Level Cntl Down Three Control 1 Control 2 Control 3 80 70 60 20 20 20 Level Cntl Down Four Control 1 Control 2 Control 3 Control 4 80 70 60 50 20 20 20 20 Level Cntl Down Five Co...

Page 84: ...evel Cntl Up Five Control 1 Control 2 Control 3 Control 4 Control 5 20 30 40 50 60 80 80 80 80 80 Application Number of Cntl Relays Cntl Relay Number On Setpoint Off Setpoint Differential Control One Control 1 5 1 Differential Control Two Control 1 Control 2 5 10 1 1 Differential Control Three Control 1 Control 2 Control 3 5 10 15 1 1 1 Differential Control Four Control 1 Control 2 Control 3 Contr...

Page 85: ...Page 77 Relay Function Relay I D On Setpoint Off Setpoint Alarm HiHi 90 85 Alarm High 85 80 Alarm Low 10 15 Alarm LoLo 5 10 ...

Page 86: ...on P213 2 38m 80 high alarm off P214 2 24m 15 low alarm off P224 0 42m 10 low alarm on P223 0 28m 0 empty level In this example when the level rises to 2 38 m relay 1 will come on until the level drops to 2 24 m when it will turn off If the level drops to 0 28 m then relay 2 will come on until it rises 0 42 m when it will turn off The display will show the level in the tank The mA output will be r...

Page 87: ...No 2 2 Set Relay 2 Xducer P101 2 dB6 Material P102 1 Liquid Measnt Units P104 1 metres Empty Level P105 3 5 metres Span P106 2 8 metres Programming is now complete and the unit can be returned to the run mode press CANCEL until Run Mode Is displayed on the LCD press ENTER and the Advanced 5 will return to the Run Mode Note If relay setpoints do not meet the exact requirements of the application th...

Page 88: ...2 to relay 2 and the high level alarm to relay 5 This will operate as follows During normal operation pump 1 will come on at 0 84 m and pump down to 0 56 m The setpoints are then shifted to pump 2 which will come on first next time During peak periods when pump 1 cannot cope pump 1 will come on at 0 84 m pump 2 will come on at 1 4 m and pump down to 0 56 m The setpoints are then shifted to pump 2 ...

Page 89: ... Alarm Type Alarm 1 1 High Alarm No 1 5 Set to Relay 5 Xducer P101 2 dB6 Measnt Units P104 1 metres Empty Level P105 3 5 metres Span P106 2 8 metres Programming is now complete and the unit can be returned to the run mode press CANCEL until Run Mode Is displayed on the LCD press ENTER and the Advanced 5 will return to the Run Mode Note If relay setpoints do not meet the exact requirements of the a...

Page 90: ...ow level alarm to relay 3 This will operate as follows During normal operation pump 1 will come on at 1 96 m and pump up to 2 24 m The setpoints are then shifted to pump 2 which will come on first next time During peak periods when pump 1 cannot cope pump 1 will come on at 1 96 m pump 2 will come on at 1 4 m and pump up to 2 24 m The setpoints are then shifted to pump 2 which will come on first ne...

Page 91: ...1 1 Alarm Type Alarm 1 2 Low Alarm No 1 3 Set to Relay 3 Xducer P101 2 dB6 Measnt Units P104 1 metres Empty Level P105 3 5 metres Span P106 2 8 metres Programming is now complete and the unit can be returned to the run mode press CANCEL until Run Mode Is displayed on the LCD press ENTER and the Advanced 5 will return to the Run Mode Note If relay setpoints do not meet the exact requirements of the...

Page 92: ... no differential is present when the level is zero on both sides If this is not possible then a measurement offset P851 or Display Offset P802 must be applied to ensure the correct reading is obtained In this example the Advanced 5 is being used to control a rake on a screen which is filtering out solids in the inlet flow to a wastewater treatment plant A high alarm has been assigned to Pt 1 Trans...

Page 93: ...o a value of 0 42 m relay 3 will reset To program the Advanced 5 for Example 2 Differential Control by using the Quick Setup menu proceed as follows Access the Program Mode Key in the passcode 1997 and press ENTER At the Quick Setup menu press ENTER and as prompted by the questions select the relevant option and ENTER Question Option Level Pump Up Down or Differential 4 Differential No of Control ...

Page 94: ...ating the menu system and location of all parameters available in the Advanced 5 Further details and a full description of all parameters refer to Chapter 8 Parameter Listing and Descriptions Top Level Menu Ultra Wizard Quick Setup Application Relays Pump Advanced mA Output Display Efficiency Stability System Test Device Comm Echo Processing Data Logs Pump Volume Compensation ...

Page 95: ...ransducer P119 mA Status P104 Measurement Units P102 Material P103 Input 2 Optional If P100 4 or 5 and P101 0 Aux P105 Empty Level P106 Span P107 Near Blanking P108 Far Blanking P120 Low mA In P121 High mA In P122 Low Level In P123 High Level In P124 Low mA Trim P125 High mA Trim ...

Page 96: ...Pump Group P242 Alarm ID or Pump Group P252 Alarm ID or Pump Group P223 Set 1 P233 Set 1 P243 Set 1 P253 Set 1 P224 Set 2 P234 Set 2 P244 Set 2 P254 Set 2 P226 Allocat P236 Allocat P246 Allocat P256 Allocat P227 Closures P237 Closures P247 Closures P257 Closures P228 Fail Safe P238 Fail Safe P248 Fail Safe P258 Fail Safe P249 R4 Max Rate If P240 2 P259 R5 Max Rate If P250 2 P229 R2 Max Rate If P22...

Page 97: ...Exercise Wall Cling Storm P349 Prime Level P352 Start Delay P348 Stop Delay P354 Exercise Enable P360 Wall Cling P370 Pump Disable P350 Run Interval P351 Run Duration P353 Power Delay P355 Idle Time P356 Exercise Time P357 Minimum Head P371 Disable Time ...

Page 98: ...473 475 477 Totals 2 to 9 P478 Vol Date 10 P580 Min Temp P479 Volume 10 P581 Min Temp Date P582 Min Temp Time P583 Max Temp P584 Max Temp Date P585 Max Temp Time P586 Current Temperature P510 Pump 1 Hours P511 Pump 1 Starts P512 Pump 1 Starts per Hour P513 Pump 1 Run On P534 Pump 6 Hours P535 Pump 6 Starts P536 Pump 6 Starts per Hour P537 Pump 6 Run On P514 Pump 1 Draw P515 Pump 1 Effic P520 P526 ...

Page 99: ...ume Units P606 Correct Factor P607 Max Volume P612 614 616 618 620 622 624 626 628 630 632 634 636 638 640 642 644 646 648 650 652 654 656 658 660 662 664 666 668 670 Level Bkpts 2 to 31 Breakpoints P610 Level Bkpt 1 P611 Vol Bkpt 1 P613 615 617 619 621 623 625 627 629 631 633 635 637 639 641 643 645 647 649 651 653 655 657 659 661 663 665 667 669 671 Vol Bkpts 2 to 31 P672 Level Bkpt 32 P673 Vol ...

Page 100: ...Page 92 Efficiency Menu Set Up P187 Pump Effic P188 Calib Delay P189 Cal Duration P190 Persist Cnt P191 Demote Pumps P192 Demote Flags P193 Calib Pumps ...

Page 101: ...cimal Places P804 Display Conversion P808 Fail Mode P809 Fail Time P810 Units P811 Alarms P812 Pumps P813 Control P814 Misc P829 Bargraph P800 Display Units P805 Display Source P815 Aux Source P817 Aux Offset Totaliser P820 Totaliser P821 Totaliser R P822 Total Decimal P823 Total Multi ...

Page 102: ...set P852 Temperature Source P854 Fixed Temperature P860 Sound Velocity Range Operation Setpoint Limits Trim Fail Safe Allocation P830 mA Out Range P831 mA Out Mode P834 Low Value P836 Low Limit P835 High Value P836 High Limit P838 Low mA Trim P838 High mA Trim P840 Fail Mode P841 Allocation ...

Page 103: ...e Filters P870 Fill Damping P871 Empty Damping P872 Fill Indicator P873 Empty Indicator P874 Rate Update P875 Rate Time P876 Rate Distance P877 Rate Value P878 Lower Cutoff P880 Gate Mode P881 Fixed Distance P882 Process Filter P884 Peak Percent ...

Page 104: ...o Confidence 1 P902 Echo Strength 1 P903 Average Noise 1 P904 Peak Noise 1 P905 Sensitivity 1 P906 Side Clearance 1 Xdr 1 Status P910 Xdr 2 Status P911 Echo Confidence 2 P912 Echo Strength 2 P913 Average Noise 2 P914 Peak Noise 2 P915 Sensitivity 2 P916 Side Clearance 2 ...

Page 105: ...P928 Serial Number P929 Site Ident P930 Factory Default P932 Time P933 Date Format P936 Alarm Colour P937 Pump Colour P938 Control Colour P939 Misc Colour P971 DST Difference P972 DST Start Time P973 Start Day P974 Start Week P975 Start Month P976 DST End Time P977 End Day P978 End Week P979 End Month P195 Interval days P196 STD Leading zeroes P197 Phone STD code P198 Phone no P199 Service Alarm R...

Page 106: ...t P149 Retry No P143 Address Lock P132 Device Address If Comms Type PROFIBUS P061 Comms Baud Remote Alarm RS232 Set Up RS485 Set Up Optional If Comms Type MODBUS P132 Device Address P133 Device Baud P134 Parity P135 Stop Bit P136 Data Format P137 Delay milliseconds P130 Device Mode P131 Protocol ...

Page 107: ...ulation Hardware P980 Simulate P981 Increment P982 Rate P983 Start Level P984 Incremental Change P990 Self Test P991 Hardware Test P992 mA Out Test P994 Transducer Test P995 Keys Test P996 Relay Test P99 mA In Test Optional ...

Page 108: ...t hand arrow key and this will take you to the Quick Setup menu option Try pressing either of the two arrow keys to see some more menu options but return to Quick Setup and press This takes you to the Quick Setup Menu This takes you to the common applications menu and a number of options will appear on the display Note If you have already setup a common application then there will be a number show...

Page 109: ...ir or other for any other type of exponential device To set up an application for a BS3680 flume as described in the following example 2 then choose 2 You then need to select the primary measuring device for your application from the following available options rectangular flume with or without hump U throated flume with or without hump To set up an application for a BS3680 weir as described in th...

Page 110: ... application from the following available options linear flow or curved flow Once you have chosen your application you will be asked a series of questions which are answered by choosing the appropriate option as detailed in the flow chart below Once all of the questions have been answered you will be prompted to provide further information as detailed in the tables below in order to complete the p...

Page 111: ...ther 8 Contracted Rect BS3680 Flumes 1 Rectangular 2 Rect Hump 3 U Throat 4 U Throat Hump BS3680 Weirs 1 Rectangular 2 V Notch 90o Full 90o 3 V Notch 53o 8 Half 90o 4 V Notch 28o 4 Qtr 90o 5 Broad Crested Special 1 Palmer Bowlus 2 H Flume 3 V Notch Angle Calculation 1 Absolute 2 Ratiometric How Many Alarms 0 No Alarms 1 One Alarm 2 Two Alarms 3 Three Alarms 4 Four Alarms 5 Five Alarms For Each Ala...

Page 112: ...05 Empty Level 2 425 m Distance from the end of the transducer horn dB Mach 3 or face of the transducer to the material at the bottom of the measuring element P703 Minimum Head 0 000m Distance from empty point P105 to zero flow P704 Max Head 2 425m Distance from zero flow to max flow It should be noted that any change to P704 updates P106 Span and vice versa P824 Totaliser Enable 1 On Enables the ...

Page 113: ...Max Flow 0 000 When requested enter the known maximum flowrate in units of volume P706 and Time P707 which occurs at maximum head P704 P710 Dim A 0 When requested enter in measurement units P104 the required dimension P711 Dim B 0 When requested enter in measurement units P104 the required dimension P712 Dim C 0 When requested enter in measurement units P104 the required dimension P713 Dim D 0 Whe...

Page 114: ...ed in the flow rate display P709 Flow Cut Off 5 00 Enter as a percentage of maximum flow the minimum flow rate to be added to the totaliser P830 mA Out Range 2 4 to 20 mA What the mA output uses for the range 0 Off 1 0 to 20 mA 2 4 to 20 mA 3 20 to 0 mA 4 20 to 4 mA P870 Fill Damping 10 m min Rate of maximum fill rate set above the actual fill rate of the vessel P871 Empty Damping 10 m min Rate of...

Page 115: ...ble below Exponent Type Exponent P717 Suppressed Rectangular Weir Without End Contractions 1 50 Automatically set Cipolletti Trapezoidal Weir 1 50 Automatically set Venturi Flume 1 50 Automatically set Parshall Flume Automatically calculated according to throat size Leopold Lagco Flume 1 55 V Notch Weir 2 50 Other As per manufacturer Value to be set as required via P717 Contracted Rectangular Weir...

Page 116: ...sured upstream at a minimum distance of 3 times maximum head from the weir plate to ensure the surface of the liquid is not affected by turbulence or drawdown See DRWG 1 In the case of a Venturi flume the point of measurement should be 150 mm upstream from the beginning of the converging section and for a Parshall flume 2 3 the length of the converging section upstream of the throat section See DR...

Page 117: ...1 0 380 15 32 1 3 455 18 38 1 5 530 21 44 1 8 610 24 51 2 1 760 30 64 2 5 915 36 76 3 0 1065 42 89 3 5 1220 48 102 4 0 1370 54 114 4 5 1520 60 127 5 0 1675 66 140 5 5 1830 72 152 6 0 When any Other device is chosen please consult the manufacturer of the device for details of where the point of measurement should be located but ensure that it is chosen such that the surface of the liquid is not eff...

Page 118: ...head x exponent 1 50 Automatically selected by the Ultra 5 Automatically calculated dependent on measurement flow and time units chosen Venturi Flume Q Khx Where Q Flow K K factor h head x exponent 1 50 Automatically selected by the Ultra 5 Enter value of K Factor P718 as required Parshall Flume Q Khx Where Q Flow K K factor h head x exponent Automatically calculated dependent on throat size P719 ...

Page 119: ...d Rectangular Weir With End Contractions Q K L 0 2 h hx Where Q Flow K K factor L crest length of weir h head x exponent 1 50 Automatically selected by Ultra 5 Automatically calculated dependent on measurement flow and time units chosen RATIOMETRIC If the flow calculation is to be ratiometric P702 2 the flow will be calculated using the formula q qcal h hcal X Where q flowrate q cal flowrate at ma...

Page 120: ...calculation will be used there is no requirement for alarms and the flow rate is to be displayed in litres second The totaliser is to record the flow in cubic metres but is not to be displayed during RUN The distance from the end of the transducer horn dB Mach 3 to zero flow P105 is 1 metre and max head P704 is 0 4 metres maximum flow P705 is known to be 96 5 litres second ...

Page 121: ... Question Option PMD Type 1 Exponent Exponent 6 V notch Calculation 2 Ratiometric No of Alarms 0 No Alarms Xducer 1 dB Mach3 Volume Units 1 Litres Time Units 1 Per Second Measnt Units 1 metres Empty Level 1 000 metres Minimum Head 0 000 metres Maximum Head 0 400 metres Total Enable 1 On Totaliser R 0 No Total Multiplier 7 1000 Maximum Flow 96 5 Programming is now complete and the unit can now be r...

Page 122: ...imum head P704 by at least the near blanking distance P107 For a Rectangular and U throated flume the head is measured at 3 to 4 times the maximum head upstream from the beginning of the converging section to ensure the surface of the liquid is not effected by turbulence See DRWG 6 ...

Page 123: ... Flow 5 P721 Cd discharge coefficient calculated by the Flow 5 P722 b throat width P711 h head RATIOMETRIC If the flow calculation is to be ratiometric P702 2 the flow will be calculated using the formula q qcal Cv Cvcal Cd Cdcal h hcal 1 5 Where q flowrate qcal flowrate at maximum head P705 Cv velocity coefficient calculated by the Flow 5 P721 Cvcal velocity coefficient at maximum head Cd dischar...

Page 124: ...nt calculated by the Flow 5 P722 b throat width P711 RATIOMETRIC U Throated Flume If the flow calculation is to be ratiometric P702 2 the flow will be calculated using the formula q qcal Cv Cvcal Cd Cdcal Cu Cucal h hcal 1 5 Where q flowrate q cal flowrate at maximum head P705 Cv velocity coefficient calculated by the Flow 5 P721 Cvcal velocity coefficient at maximum head Cd discharge coefficient ...

Page 125: ...e displayed in cubic meters hour and the totaliser is also to record the flow in cubic metres the resettable totaliser is to be displayed during RUN The distance from the end of the transducer horn dB Mach 3 to zero flow P105 is 1 metre and max head P704 is 0 4 metres maximum flow P705 which will be calculated by the Ultra unit as 725 171 cubic metres hour The dimensions of the flume are as follow...

Page 126: ...1 metres Empty Level 1 000 metres Minimum Head 0 000 metres Maximum Head 0 400 metres Total Enable 1 On Totaliser R 1 Yes Total Multiplier 7 1000 Approach Dia 0 7 metres Throat Dia 0 5 metres Throat Len 1 0 metres Programming is now complete and the unit can now be returned to the run mode press CANCEL until Run Mode Is displayed on the LCD press ENTER and the Flow 5 will return to Run Mode Note I...

Page 127: ...ate to ensure the surface of the liquid is not affected by turbulence or drawdown See DRWG 8 Calculations BS 3680 Rectangular Weir ABSOLUTE If the flow calculation is to be absolute P702 1 the flow will be calculated using the formula q Ce 2 3 2gn 0 5 behe 1 5 Where q flowrate Ce discharge coefficient calculated by the Flow 5 P723 gn gravitational acceleration nominal value 980 66 cm s2 be effecti...

Page 128: ...Ce discharge coefficient calculated by the Flow 5 P723 theta v notch angle gn gravitational acceleration nominal value 980 66 cm s2 h head The Flow 5 presets the angle theta on selection of the chosen device this angle is 90 degrees for a BS 3680 full 90 degree V notch weir 53 degrees 8 minutes in the case of the BS3680 half 90 degree V notch weir and 28 degree 4 minutes in the case of the BS3680 ...

Page 129: ...h flow condition to be set to relay 3 The flow rate is required to be displayed in litres minute and the totaliser is to record the flow in cubic metres the resettable totaliser is to be displayed during RUN The distance from the end of the transducer horn to zero flow P105 is 1 metre and max head P704 is 0 4 metres maximum flow P705 Approach width Dim A P710 0 5 m Crest width Dim B P711 0 3 m Cre...

Page 130: ...y Level 1 000 metres Minimum Head 0 000 metres Maximum Head 0 400 metres Total Enable 1 On Totaliser R 1 Yes Total Multiplier 7 1000 App Width Dim A 0 5 metres Crest Width Dim B 0 3 metres Crest Height Dim C 0 3 metres Programming is now complete and the unit can now be returned to the run mode press CANCEL until Run Mode Is displayed on the LCD press ENTER and the Flow 5 will return to Run Mode N...

Page 131: ...aximum head upstream from the weir crest to ensure the surface of the liquid is not affected by turbulence or drawdown Calculations ABSOLUTE If the flow calculation is to be absolute P702 1 the flow will be calculated using the formula q 2 3 1 5 Ceb gh3 0 5 Where q flowrate Ce discharge coefficient calculated by the Flow 5 P723 b approach width P710 g gravitational acceleration nominal value 980 6...

Page 132: ...c P702 2 the flow will be calculated using the formula q qcalCe Cecal he hecal 1 5 Where q flowrate q cal flowrate at maximum head P705 Ce discharge coefficient calculated by the Flow 5 P723 Cecal discharge coefficient at maximum head he effective head hecal effective head at maximum head ...

Page 133: ... provides a signal proportional to flow Please consult Pulsar for availability Point of Measurement The transducer must be above the maximum head P704 by at least the near blanking distance P107 For all Velocity area applications the point at which the head is measured should be chosen such that the surface of the liquid is not affected by turbulence See DRWG 10 11 12 and 13 U Channel ...

Page 134: ...el Calculations ABSOLUTE Rectangular and U Channel If the flow calculation is to be absolute P702 1 the flow will be calculated using the formula q v x b x h Where q flowrate v velocity b channel width diameter Dim A P710 h head ...

Page 135: ...bsolute P702 1 the flow will be calculated using the formula q vh b mh Where q flowrate v velocity h head b base width Dim B P711 m side slope calculated from m B b d where B channel top width Dim A P710 b base width Dim B P711 d depth of channel Dim C P712 ...

Page 136: ...Page 128 Round Pipe If the flow calculation is to be absolute P702 1 the flow will be calculated using the formula q va h Where q flowrate v velocity a h area at head ...

Page 137: ...nt should be half the value of Dim A P710 upstream of the device For a H Flume the head measurement is taken at a point downstream from the flume entrance as detailed in the table below Flume size Point of Measurement Dim A P710 cm Feet cm inches 15 25 0 5 4 7 1 88 23 00 0 75 6 7 2 69 30 05 1 0 9 1 3 63 45 70 1 5 13 5 5 38 61 00 2 0 17 9 7 19 76 20 2 5 22 5 9 00 91 45 3 0 27 2 10 88 137 15 4 5 40 ...

Page 138: ...8th degree polynomial solution for h head RATIOMETRIC If the flow calculation is to be ratiometric P702 2 the flow will be calculated using the formula q qcal f h f hcal Where q flowrate q cal flowrate at maximum head P705 f h a polynomial solution for h head f hcal a polynomial solution for hcal maximum head V Notch Angle Weir Non BS 3680 ABSOLUTE If the flow calculation is to be absolute P702 1 ...

Page 139: ...y at least the near blanking distance P107 For all Universal calculation applications the point at which the head is measured should be chosen such that the surface of the liquid is not effected by turbulence Calculations ABSOLUTE Universal Head Vs Flow If the flow calculation is to be absolute P702 1 the flow will be calculated using the formula q q h Where q flowrate q h flowrate for head The de...

Page 140: ...f charts illustrating the menu system and location of all parameters available in the Flow 5 For further details and full description of all parameters refer to Chapter 8 Parameter Listing and Descriptions Top Level Menu Ultra Wizard Quick Setup Application Relays Data Logs Compensation mA Output Display Stability System Test Device Comm Echo Processing OCM ...

Page 141: ...t Optional P100 Mode P101 Transducer P119 mA Status P104 Measurement Units P102 Material P105 Empty Level P106 Span P107 Near Blanking P108 Far Blanking P120 Low mA In P121 High mA In P122 Low Level In P123 High Level In P124 Low mA Trim P125 High mA Trim ...

Page 142: ... Pump Group P242 Alarm ID or Pump Group P252 Alarm ID or Pump Group P223 Set 1 P233 Set 1 P243 Set 1 P253 Set 1 P224 Set 2 P234 Set 2 P244 Set 2 P254 Set 2 P226 Allocat P236 Allocat P246 Allocat P256 Allocat P227 Closures P237 Closures P247 Closures P257 Closures P228 Fail Safe P238 Fail Safe P248 Fail Safe P258 Fail Safe P249 R4 Max Rate If P240 2 P259 R5 Max Rate If P250 2 P229 R2 Max Rate If P2...

Page 143: ...taliser 1 P462 464 466 468 470 472 474 476 Total Dates 2 to 9 P463 465 467 469 471 473 475 477 Totalisers 2 to 9 P478 Total Date 10 P580 Min Temp P478 Totaliser 10 P581 Min Temp Date P582 Min Temp Time P583 Max Temp P584 Max Temp Date P585 Max Temp Time P586 Current Temperature ...

Page 144: ...n B P712 Dimension C P713 Dimension D P714 Roughness Coefficient P715 Water Temperature P717 Exponent Value P719 Parshall Throat Width P718 K Factor P720 Area P721 Calc 1 P722 Calc 2 P723 Calc 3 P724 Calc 4 P725 Calc 5 P792 Head Bkpt 32 P731 Flow Bkpt 1 P732 P791 Head Flow Bkpts 2 to 31 P730 Head Bkpt 1 P793 Flow Bkpt 32 P796 Reset B points P797 Number of B points Set P863 Average Flow P864 Averag...

Page 145: ...mA Trim P838 High mA Trim P840 Fail Mode Options Fail Safe Auxiliary P802 Display Offset P801 Decimal Places P804 Display Conversion P808 Fail Mode P809 Fail Time P810 Units P811 Alarms P812 Pumps P813 Control P814 Misc P800 Display Units Bargraph Totaliser P829 Bargraph P820 Totaliser P821 Totaliser R P822 Totaliser Decimal P823 Totaliser Multiplier P824 Totaliser Enable P816 Totaliser R ...

Page 146: ...2 Fill Indicator P873 Empty Indicator P874 Rate Update P875 Rate Time P876 Rate Distance P877 Rate Value P878 Lower Cutoff P880 Gate Mode P881 Fixed Distance P882 Process Filter P884 Peak Percent Offset Temperature Velocity P851 Measurement Offset P852 Temperature Source P854 Fixed Temperature P860 Sound Velocity ...

Page 147: ...Page 139 Echo Processing Menu Xdr 1 Status P900 Xdr 1 Status P901 Echo Confidence P902 Echo Strength P903 Average Noise P904 Peak Noise P905 Sensitivity P906 Side Clearance ...

Page 148: ...P928 Serial Number P929 Site Ident P930 Factory Default P932 Time P933 Date Format P936 Alarm Colour P937 Pump Colour P938 Control Colour P939 Misc Colour P971 DST Difference P972 DST Start Time P973 Start Day P974 Start Week P975 Start Month P976 DST End Time P977 End Day P978 End Week P979 End Month P195 Interval days P196 STD Leading zeroes P197 Phone STD code P198 Phone no P199 Service Alarm R...

Page 149: ...If Comms Type PROFIBUS P061 Comms Baud P130 Device Mode P131 Protocol P132 Device Address P133 Device Baud P134 Parity P135 Stop Bit P136 Data Format P137 Delay milliseconds P132 Device Address P143 Address Lock P144 Call Type P145 Tel No 1 P146 Tel No 2 P147 Tel No 3 P148 Timed Out P149 Retry No ...

Page 150: ...ulation Hardware P980 Simulate P981 Increment P982 Rate P983 Start Level P984 Incremental Change P990 Self Test P991 Hardware Test P992 mA Out Test P994 Transducer Test P995 Keys Test P996 Relay Test P99 mA In Test Optional ...

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Page 152: ...he vessel is 3 Space Display shows how empty a vessel is When Ultra Wizard 1 Level Volume 4 Avg Level Display shows the average level of two points of measurement 5 Volume Display shows volume of the vessel 6 Vol Avg Display shows volume of the vessel as the average between two transducers When Ultra Wizard 2 Pump Differential 4 Avg Level Display shows the average level of 2 points of measure 5 Di...

Page 153: ... 6 dB40 Transducer is a dB40 Range 1 2 to 40 00 metres 7 dBS6 Transducer is a dBS6 Range 0 2 to 6 00 metres 8 dBMach3 Transducer is a dBMach3 Range 0 0 to 2 425 mtrs When Ultra Wizard 3 Flow 0 Auxiliary Optional Use the optional mA input Please consult Pulsar for availability 1 dBMach3 Default Transducer is a dBMach3 Range 0 0 to 2 425 mtrs 2 dB6 Transducer is a dB6 Range 0 3 to 6 00 metres 3 dB10...

Page 154: ...res 6 dB40 Transducer is a dB40 Range 1 2 to 40 00 metres 7 dBS6 Transducer is a dBS6 Range 0 2 to 6 00 metres 8 dBMach3 Transducer is a dBMach3 Range 0 0 to 2 425 mtrs Dimensions P104 Measurement Units This parameter sets the units you want to use for programming and display Option Description 1 metres Default All units of measure are METRES 2 cm All units of measure are CENTIMETRES 3 mm All unit...

Page 155: ...hould be set to the maximum distance from the Empty Level P105 to the maximum material level It is automatically set to be equal to the Empty Level P105 less the Near Blanking distance P107 when you set the empty level P107 Near Blanking Distance This parameter is the distance from the face of the transducer that is not measurable and is pre set to the minimum value dependant on the Xducer P101 se...

Page 156: ...er cannot be used P119 mA Status If P101 Xducer 1 Auxiliary This indicates the current status of the Auxiliary input if selected Option Description 0 mA OK Default mA input present and functioning correctly 1 mA Open No input device is being detected 2 mA Short Input is indicating a fault condition P120 Low mA in This parameter sets the current input figure that is used to represent empty when usi...

Page 157: ...ltra 5 to the Low mA Input from the device being used If the expected low value from the device connected to the mA Input is not displayed then you can trim it using this parameter P125 High mA Trim This parameter allows you to calibrate the Ultra 5 to the High mA Input from the device being used If the expected high value from the device connected to the mA Input is not displayed then you can tri...

Page 158: ... for Relay 1 22 parameters for Relay 2 23 parameters for Relay 3 24 parameters for Relay 4 25 parameters for Relay 5 The third digit selects specific parameter for the setting of the relays which can be selected individually and results in the following parameter numbers for each relay Relay 1 210 to 218 Relay 2 220 to 228 Relay 3 230 to 238 Relay 4 240 to 248 Relay 5 250 to 258 ...

Page 159: ... pump relay which will energise ON and de energise OFF 3 Control Relay is programmed as a control relay which will energise ON and de energise OFF 4 Miscellaneous Relay is programmed as a miscellaneous relay which will energise ON and de energise OFF When Ultra Wizard 1 Level Volume 2 General Control Relay is programmed as a general control relay which will energise ON and de energise OFF When Ult...

Page 160: ...s are entered in Display Units per minute or of span per minute and a negative value should be entered for a Rate Alarm on a de creasing level and a positive value for an increasing level 3 Temperature Alarm is based on the temperature and the type of temperature alarm P212 222 232 242 252 and two setpoints must be set P213 223 233 243 253 P214 224 234 244 254 The temperature used depends on the t...

Page 161: ... Relay Alarm ID When P211 221 231 241 251 4 Loss of Echo or 5 Loss of Clock This parameter has no function and will not be displayed When P211 221 231 241 251 1 Level 2 Rate of Change or 3 Temp This parameter defines which alarm type or identification the relay should respond to as follows Alarm ID Description Setpoints 1 General Default Relay goes ON when the value reaches the ON setpoint and goe...

Page 162: ...ws that you are setting an inbounds alarm 7 Out of bounds Relay goes ON if value is outside the zone between the two setpoints Relay Setpoints P213 223 233 243 253 and P214 224 234 244 254 can be set in any order as the unit knows that you are setting an out of bounds alarm When P211 221 231 241 251 6 Pump Efficiency This parameter assigns the alarm to the appropriate pump relay as detailed below ...

Page 163: ...ng to the ID selected P214 P224 P234 P244 P254 Relay Setpoint 2 Determines the ON or OFF point for the alarm according to the ID selected Important Information Setpoints are entered in values according to the function selected Level entered in Measurement Units P104 or of span as referenced to Empty Level Rate of Change entered in Display Units per minute or of span per minute For an alarm on an i...

Page 164: ...he same time and each general control has its own ON and OFF setpoints The third parameter has no function when general control is chosen and will not be displayed The fourth parameter and fifth parameter are set to determine the switch points for the general control relay See the general control function table P211 221 231 241 251 for further information Important Information The general control ...

Page 165: ...ither positive increasing level or negative decreasing level values Pumps When Ultra Wizard 2 Pump Differential or 3 Flow P210 220 230 240 250 2 Pump When a relay is being used for a pump function the second parameter determines the pump duty that will be used to determine the operating cycle P211 P221 P231 P241 P251 Relay Function This parameter defines which pump duty the relay should respond to...

Page 166: ...l take over Each pump has its own setpoints P213 223 233 243 253 P214 224 234 244 254 but each time all pumps have stopped then the setpoints are sequentially rotated between the pumps to ensure equal pump use 5 Duty backup and assist First pump comes on if it cannot cope it goes off and next pump comes on duty backup This continues until the last pump comes on and if it cannot cope the first pump...

Page 167: ... Service ratio duty backup If a pump fails to meet the demand due to malfunction intake blockage and so on then it is stopped and another pump shall take over Each time a pump is required to start then the pump with the least running hours with respect to the service ratio is started i e the setpoints are re assigned accordingly Each pump has its own setpoints P213 223 233 243 253 P214 224 234 244...

Page 168: ...FF To pump up increase level then set ON lower than OFF The third parameter for each relay determines the pump group You can have two groups of pumps and all similar duties within a group will operate together P212 P222 P232 P242 P252 Relay Pump Group By default all pump groups are set to 1 but if you want to have another group then set this parameter to 2 for each pump relay that should operate t...

Page 169: ...uty function table P211 221 231 241 251 for further information P219 P229 P239 P249 P259 Relay Max Rate This parameter will allow a pump to be switched at a pre determined Rate of change of Level irrespective of the ON level setpoint P213 223 233 243 253 Once a pump relay has been switched ON by the pre determined Rate of Change it will remain energised until the level reaches the OFF level setpoi...

Page 170: ...ds or flush valve operation Options Description 0 Off Relay is always de energised 1 Time Relay will energise ON after the Cycle time that is set in Relay Setpoint 2 P214 224 234 244 254 And turns OFF de energises after the On Time Period that is set in Relay Setpoint 1 P213 223 233 243 253 When Ultra Wizard 2 Pump Differential 2 Storm Relay will energise ON when storm conditions are in effect and...

Page 171: ...main pumps in use Flush relay Alarm ID P212 222 232 242 252 is used to enter the relay number to which the assigned pump is connected Flush Valve Pump relay requires three setpoints The first set point P213 223 233 243 253 determines the Flush Interval which is the number of main pump cycles that should occur before the Flush Valve Pump operates The second setpoint P214 224 234 244 254 sets the nu...

Page 172: ...233 243 253 determines the level at which the relay is to be activated N B level setpoint for open relay increase the level must be lower than the setpoint for the close relay decrease the level The relay will energise ON after the Limit time that is set in Relay Setpoint 3 P215 225 235 245 255 And turns OFF de energises after the Drive Period that is set in Relay Setpoint 2 P214 224 234 244 254 W...

Page 173: ...ump then this parameter is used to determine to which pump the Flush function is assigned Enter the relay number to which the assigned pump is connected P211 221 231 241 251 5 Step Time If the relay is selected for Step Time then this parameter is used to assign the relay to the 0 Open condition increase level or 1 Close condition decrease level When Ultra Wizard 3 Flow P211 221 231 241 251 2 Step...

Page 174: ... P104 See the appropriate relay function tables P211 221 231 241 251 for further information P211 221 231 241 251 3 Aeration Relay Setpoint 1 is entered in Minutes to set Cycle Time See the appropriate relay Function tables P211 221 231 241 251 for further information P211 221 231 241 251 4 Flush Valve Relay Setpoint 1 is entered in Pump cycles to set Flush Interval See the appropriate relay Funct...

Page 175: ...t the relay will remain ON See the appropriate relay Function tables P211 221 231 241 251 for further information P211 221 231 241 251 4 Flush Valve Relay Setpoints are entered in cycles to set the number of Flush cycles See the appropriate relay Function tables P211 221 231 241 251 for further information P211 221 231 241 251 5 Step Time Relay Setpoints are entered in Seconds to set Drive Period ...

Page 176: ...11 221 231 241 251 2 Step Time Relay Setpoint 1 is entered in values of Measurement Units P104 See the appropriate relay function tables P211 221 231 241 251 for further information P214 P224 P234 P244 P254 Relay Setpoint 2 P211 221 231 241 251 2 Step Time Relay Setpoints are entered in Seconds to set Drive Period the time that the relay will remain ON See the appropriate relay Function tables P21...

Page 177: ...Differential and Pump Volume Enabled P205 1 or When Ultra Wizard 3 Flow 2 Totaliser Relay will energise ON momentarily each time the specified volume has passed as set in Relay setpoint 1 P213 223 233 243 253 this parameter sets the multiplication factor which will be applied to the on board totaliser P820 to determine the switch point of the relay E g if the totaliser is set to totalise in cubic ...

Page 178: ...urs Minutes HH MM to set Time at which relay will energise Default 00 00 HH MM P214 P224 P234 P244 P254 Relay Setpoint 2 Relay Setpoints are entered in Minutes to set Time Period that the relay will remain ON Default 0 00 mins P211 221 231 241 251 2 Totaliser P213 P223 P233 P243 P253 Relay Setpoint 1 Relay Setpoints are entered as a factor by which the on board totaliser P820 should be multiplied ...

Page 179: ...uld respond to as follows Pump Duty Description 0 Off Default Relay is always de energised 1 Fixed duty assist All pumps are used to assist each other run at the same time and each pump has its own setpoints P213 223 233 243 253 P214 224 234 244 254 2 Fixed duty backup If a pump fails to meet the demand due to malfunction intake blockage etc then it is stopped and another pump shall take over Each...

Page 180: ...the last pump duty assist if the level continues to rise all other pumps will come on assist in turn until the level decreases to the pump off points Each pump has its own setpoints P213 223 233 243 253 P214 224 234 244 254 Important Information The pumps are started and stopped at the ON and OFF setpoints To pump down reduce level then set ON higher than OFF To pump up increase level then set ON ...

Page 181: ...es over P215 P225 P235 P245 P255 Relay Setpoint 3 This parameter determines the Maximum Time the pump will be allowed to run before being switched OFF and is entered in minutes The pump will switch off either at its OFF level Relay Setpoint 2 P214 224 234 244 254 or its Maximum Run Time Relay Setpoint 3 P215 225 235 245 255 whichever occurs first P219 P229 P239 P249 P259 Relay Max Rate This parame...

Page 182: ...ts When Ultra Wizard 2 Pump Differential 5 Differential of 1 2 Relay acts on the resulting differential level of two signal inputs P217 P227 P 237 P247 P257 Relay Closures The Ultra 5 will record how many times each relay is closed this parameter displays the number of times the relay has activated since the relay has been in use It can be reset with any value P218 P228 P238 P248 P258 Relay Fail S...

Page 183: ...n Interval Set required time period in hours at which pump run on should occur P351 Run Duration This parameter sets the length of time in seconds that pumps will run on for it should be noted that only one run on is allowed per Run Interval Starting This feature is used to reduce the effects of power surges caused by switching of pumps in the following instances P352 Power surge mains or hydrauli...

Page 184: ...se time P356 providing a Minimum head level P357 is present and all other pumps are switched off P354 Exercise Enable This parameter determines if Pump Exercising is enabled or disabled Option Description 0 No Default Pump Exercising disabled 1 Yes Pump Exercising enabled P355 Idle Time Sets the Idle Time to elapse before Pump Exercising is to be activated Set the required time period in minutes D...

Page 185: ...urement units P104 Storm This facility enables all pumps to be disabled P370 during a storm condition to prevent the futile running or potential damage due to the continued use of pumps during flood conditions Provision is also made to allow a maximum time period P371 for which pumps will remain disabled during such conditions For this function to operate a relay must have been assigned to Storm a...

Page 186: ...allocation Important Information In order to ensure the accuracy of pumped Volume during a 24 hour period the Time P932 must be set correctly And if required enable Daylight Saving for the appropriate time difference P970 P979 P480 Clear Logs This parameter enables all of the Total Audits P460 P479 to be cleared to factory default values Temperature The following parameters give information on tem...

Page 187: ... This parameter displays the maximum temperature recorded P584 Maximum Temperature Date This parameter displays the date when the maximum temperature was recorded P585 Maximum Temperature Time This parameter displays the time when the maximum temperature was recorded P586 Current Temperature This parameter displays the current temperature ...

Page 188: ...to the stored total for any reason e g a replacement pump being fitted P513 Pump 1 Run On This parameter displays the current number of Pump Run On s which have occurred for Pump 1 Any value from 0 9999 can be entered to facilitate any update to the stored total for any reason e g a replacement pump being fitted P514 Pump 1 Draw This parameter displays the current Draw Rate for Pump 1 which is use...

Page 189: ...ion is switched Off 1 On Pumped volume calculation is switched On P206 Settle Time This parameter determines the time allowed for the level to settle after all pumps have switched Off in order to avoid any effects of flow back or turbulence before calculating the Inflow Rate Enter desired time in minutes Default 1 minute P207 Inflow Method This parameter determines which method is used to calculat...

Page 190: ...olume graph or chart provided by the vessel manufacturer or you can create one based on the dimensions of the vessel You can enter up to 32 pairs of breakpoints and the more you enter the greater accuracy of the volume calculation will be Conversion P600 Vessel Shape This parameter determines which vessel shape is used when utilising Volume Conversion The choices are as shown in the table below al...

Page 191: ...tangular Flat sloped base Width and Breadth of rectangular section and height of bottom P600 8 Horizontal cylinder with flat ends Cylinder diameter and tank length P600 9 Horizontal cylinder with parabolic ends Cylinder diameter length of one end section and tank length P600 10 Sphere Sphere diameter P600 11 Universal Linear No dimensions required level and volume breakpoints used P600 12 Universa...

Page 192: ...ola base Height of base Cylinder Diameter P600 5 Cylindrical Half sphere base Cylinder Diameter P600 6 Cylindrical Flat sloped base Height of base Cylinder Diameter P600 7 Rectangular Flat sloped base Height of base Width of rectangle Breadth of rectangle P600 8 Horizontal cylinder flat ends Length of Cylinder Cylinder Diameter P600 9 Horiz Cyl parabolic ends Length of Cylinder Cylinder Diameter L...

Page 193: ...al so that the volume calculated is relative to the actual amount of material that can be contained between empty level P105 and 100 of span P106 Default 1 P607 Max Volume This parameter displays the actual maximum volume that has been calculated by the Ultra 5 i e P604 Calculated Volume x P606 Correction Factor and is a Read Only parameter The volume displayed will be shown in P605 Volume Units a...

Page 194: ...here the section is slightly curved mostly linear but has got a small arc You can enter any number of pairs between 2 and 32 Universal Curved P600 12 This volume calculation creates a curved approximation of the level volume relationship and works best if the vessel is non linear and there are no sharp angles Level Volume You should enter 2 level volume breakpoints at the minimum and maximum level...

Page 195: ...p Differential Set Up P187 Pump Eff This parameter determines whether pump efficiency is enabled or disabled Option Description 0 Off Default Pump efficiency is disabled 1 On Pump efficiency is enabled P188 Calib Delay This parameter is used to set a delay after all pumps have stopped to allow for any turbulence of the material surface to settle prior to monitoring the level in the vessel and dete...

Page 196: ...mp will be allowed to run at the reduced efficiency before the alarm will be activated The Persist Count can be set to Min 0 Max 99 Default 6 P191 Demote Pumps When an efficiency alarm is being used this parameter will determine if a pump is to be demoted to the last pump in the duty cycle on activation of the alarm When Demote Pump is enabled and the efficiency alarm is activated after the predet...

Page 197: ...e derived You can either choose to calibrate an individual pump or alternatively have each pump calibrated in turn automatically When selecting pumps to be calibrated individually Option 1 to 5 it is essential that the level in the vessel is above the relevant pump start point to ensure correct calibration Once you have selected the pump to be calibrated you will be prompted to return to the RUN m...

Page 198: ...onent 2 BS3680 Flume 3 BS3680 Weir 4 Area Velocity Optional 5 Special 6 Universal P701 Primary Measuring Device Enter the Primary Measuring Device used If P700 1 Exponent Select from the following options 1 Suppressed Rectangular Weir 2 Cipolletti Trapezoidal Weir 3 Venturi Flume 4 Parshall Flume 5 Leopold Lagco Flume 6 V notch Weir 7 Others 8 Rectangular Weir with End Contractions If P700 2 BS 36...

Page 199: ...el circular bottom straight sides 2 Rectangular 3 Trapezoidal 4 Round Pipe If P700 5 Special Select from the following options 1 Palmer Bowlus Flume 2 H Flume 3 V Notch angle other than BS3680 If P700 6 Universal Where the Primary Measuring device does not match any of the devices contained in the above categories then a universal volume calculation can be performed A head Vs flow chart is used to...

Page 200: ... a higher level than the channel bottom at the point of measure Enter distance in Measurement Units P104 P704 Maximum Head Enter the head value that represents maximum flow enter in Measurement Units P104 Note any change to the value of this parameter will be reflected in P106 Span and vice versa P705 Maximum Flow When P702 2 Ratiometric enter the flow rate value that occurs at maximum head P704 e...

Page 201: ... Select the Time Units to be used with the Volume Units to determine the desired flow rate from the options below Option Description 1 per Second Default Flowrate will be calculated and displayed in Volume units Second 2 per Minute Flowrate will be calculated and displayed in Volume units Minute 3 per Hour Flowrate will be calculated and displayed in Volume units Hour 4 per Day Flowrate will be ca...

Page 202: ...rest Width Not Required Not Required Not Required P700 1 Exponent P701 2 Trapezoidal Weir P702 1 Absolute Crest Width Not Required Not Required Not Required P700 1 Exponent P701 5 Leopold Lagco Flume P702 1 Absolute Throat Diameter Not Required Not Required Not Required P700 1 Exponent P701 6 V Notch P702 1 Absolute V Notch Angle Not Required Not Required Not Required P700 2 BS 3680 Flume P701 1 R...

Page 203: ...hannel Width Top Channel Width Bottom Channel Depth Not Required P700 4 Area Velocity P701 4 Round Pipe Inside Diameter Not Required Not Required Not Required P700 5 Special P701 1 Palmer Bowlus Flume Size Not Required Not Required Not Required P700 5 Special P701 2 H flume Flume Size Not Required Not Required Not Required P700 5 Special P701 3 V Notch angle V Notch angle Not Required Not Required...

Page 204: ...ned and polished metal 0 003 0 006 Uncoated sheet metal rust free 0 015 0 03 Painted metal 0 03 0 06 Galvanized metal 0 06 0 15 Painted or coated casting 0 06 0 15 Uncoated casting 0 15 0 3 Concrete In situ or precast construction using steel formwork with all irregularities rubbed down or filled in 0 06 0 15 In situ or precast construction using plywood or wrought timber framework 0 3 0 6 Smooth ...

Page 205: ...tomatically Calculated P700 1 Exponent P701 5 Leopold Lagco Flume Automatically Calculated P700 1 Exponent P701 6 V Notch Automatically Calculated P700 1 Exponent P701 7 Other Obtain value and enter P719 Throat Width This parameter is used to select the Throat Width of the flume when P700 PMD Type 1 Exponent and P701 4 Parshall Flume After selecting the Throat Width the Exponent P717 and K Factor ...

Page 206: ...al proportional to flow Please consult Pulsar for availability Parameters P726 to P729 are used to configure the optional 4 20mA input for a velocity sensing device When an Area Velocity application is selected the unit will automatically allocate the 4 20mA input to a velocity input device and it is therefore not necessary to allocate P101 Transducer 1 Auxiliary P726 Low mA In This parameter sets...

Page 207: ... be entered in pairs of head and the corresponding flow for that head The first pair entered must be for zero head and flow and the last pair entered must be for maximum head and flow The higher number of breakpoints pairs entered then the greater accuracy there will be There are a maximum number of 32 breakpoints pairs for head and flow that can be entered Tables P796 Reset Breakpoints This param...

Page 208: ...s dependant in Mode P100 2 Percentage Display is in percentage of span dependant in Mode P100 P801 Decimal Places This parameter determines the number of decimal places on the reading during run mode Minimum 0 No decimal places Maximum 3 3 decimal Places Default 2 2 decimal Places P802 Display Offset The value of this parameter is added to the reading before it is displayed in Measurement Units P1...

Page 209: ...ing Option Description 0 Default Default Displays reading obtained from selected Mode P100 1 Aux Optional Displays level from optional Aux Input 2 Xducer 1 Displays level from Xducer 1 3 Xducer 2 Displays level from Xducer 2 Failsafe P808 Fail safe Mode By default if a fail safe condition occurs then the display relays and the mA output are held at their last known values until a valid reading is ...

Page 210: ...essage explaining why lost echo or transducer fault for example When a valid measurement is obtained then the display relays and mA output will be restored and the timer is reset Auxiliary P810 Units This parameter determines whether the Measurement units P104 are displayed on the auxiliary line of the display in run mode Option Description 0 No Measurement units will not be displayed 1 Yes Defaul...

Page 211: ... This parameter determines whether notification messages are displayed on the auxiliary line of the display in run mode when a control relay is switched on or off The message is in the form Time ON Option Description 0 No Default Control messages will not be displayed 1 Yes Control messages will be displayed P814 Miscellaneous Messages This parameter determines whether notification messages are di...

Page 212: ...en selected the auxiliary display will scroll between the resettable totaliser and the totaliser units selected Default 0 Off When being used to totalise Flow the resettable totaliser can be reset whilst in run mode via the Totaliser hot key by pressing 0 whilst Total R is displayed P817 Auxiliary Offset When Ultra Wizard 1 Level Volume or 2 Pump Differential The value of this parameter is added t...

Page 213: ... the totaliser display will state Units are L 1000 and the totaliser will be incremented every 1000 litres Options are Option Description 1 1 1000 Totaliser will increment every 1 1000th units of flow 2 1 100 Totaliser will increment every 1 100th units of flow 3 1 10 Totaliser will increment every 1 10th units of flow 4 1 Default Totaliser will increment every 1 units of flow 5 10 Totaliser will ...

Page 214: ...l 1 Auxiliary Optional Bargraph will be representative of levels obtained from optional Aux Input 2 Xducer 1 Default Bargraph will be representative of levels obtained from Xducer 1 3 Xducer 2 Bargraph will be representative of levels obtained from Xducer 2 4 Avg Level or Diff Bargraph will be representative of the Avg Diff Level of two points of measurement as selected in Mode P100 When Ultra Wiz...

Page 215: ... the output is 0 mA 4 20 to 4 mA mA output inversely proportional to the mA mode P831 so if the reading is 0 the output is 20 mA If the reading is 100 the output is 4 mA Operation P831 mA Mode This parameter determines how the ma Output relates to what is measured By default it operates exactly the same as the display P100 but it can be set to operate as follows Option Description 0 Default mA out...

Page 216: ...tion has an operational span of 6 metres but output is to represent empty 0 or 4mA dependant on P830 mA Range to a level of 5 metres 20mA If so P834 Low Level should be set to 0 00 metres and P835 High Level should be set to 5 metres P834 mA Low Level This parameter sets the level distance or space depending on the selected mA Out Mode P831 at which the low mA output will occur 0 or 4mA dependant ...

Page 217: ... Trim If the device you are connected to is not calibrated and not showing the correct high value reading then you can trim it using this parameter You can either type in the offset directly or use the arrow keys to move the output up and down until you get the expected result reading on the device that is connected Failsafe P840 mA Fail safe Mode This parameter determines what happens to the mA o...

Page 218: ...nput level 2 Xducer 1 Default mA output relates to Xducer 1 level 3 Xducer 2 mA output relates to Xducer 2 level 4 Avg Level mA output relates to the average level of two points of measurement P100 4 When Ultra Wizard 2 Pump Differential 5 Differential mA output relates to the differential level of two points of measurement P100 6 When Ultra Wizard 1 Level Volume 5 Volume mA output relates to the ...

Page 219: ...cer Always uses temperature reading from transducer 3 Fixed Always uses fixed temperature P854 4 Ext Range A Uses an optional external temperature sensor with an operating range of 25o C to 50o C 5 Ext Range B Uses an optional external temperature sensor with an operating range of 25o C to 125o C P853 Allocation When Ultra Wizard 1 Level Volume or 2 Pump Differential This parameter indicates which...

Page 220: ...ation should be carried out when the level is as near empty as possible and when any vapour present has stabilized P861 Cal Dist 1 This parameter is used to re calibrate the speed of sound for Xducer 1 P862 Cal Dist 2 This parameter is used to re calibrate the speed of sound for Xducer 2 when P100 4 Avg Level 5 Differential Level or 6 Vol Avg With the material at a steady level view the value of P...

Page 221: ... which the LCD fill indicator activates Default 10m min P873 Empty Indicator This parameter determines the rate at which the LCD empty indicator activates Default 10m min Rate P874 Rate Update This parameter determines the way in which the rate is calculated If set to continuous P874 0 then the rate is calculated and displayed continuously i e any change seen from shot to shot is calculated and di...

Page 222: ...ace P880 Fixed Distance This parameter determines the operation of the gate that is established around the echo being processed and is used to track the echoes movement and update the level measurement indication on the display Please consult Pulsar for further information and assistance on changing the value of this parameter Default 0 Fixed P881Fixed Distance This parameter determines the width ...

Page 223: ...ng used instead so P101 1 2 Stuck High Indicates that the power and signal lines on the transducer terminals are crossed over or the signal line is shorted to earth 3 Not Found No transducer is detected P901 Echo Confidence1 This parameter displays the most recent echo confidence from the transducer It is useful to help find the best mounting location for the transducer where you should aim to get...

Page 224: ...er information and assistance on changing the value of this parameter P906 Side Clearance This parameter is used to set the distance by which the DATEM trace will stand off from around unwanted echoes such as obstructions Please consult Pulsar for further information and assistance on changing the value of this parameter Transducer 2 Status When Ultra Wizard 1 Level Volume or 2 Pump Differential P...

Page 225: ...ers that do not work as intended then the backup set can be restored into the unit You can make two separate backup copies if you wish called backup 1 and backup 2 and restore from either The options are Option Description 1 Backup 1 Make backup to area 1 of all parameters 2 Backup 2 Make backup to area 2 of all parameters 3 Restore 1 Restore all parameters from area 1 4 Restore 2 Restore all para...

Page 226: ...ore despatch to you To reset parameters enter 1 Yes and press ENTER then you will see a message Entr if sure you should press ENTER again If you press any other key at this point the parameters will not be reset and you will see a message confirming this Once you have done this program the unit to the desired application Date Time The date and time is used to control specific relay functions and d...

Page 227: ... a programmed relay should be when it is in its OFF state The default is 3 yellow but can be changed to no colour red or green P936 Alarm Relay Colour This parameter selects the colour that an alarm relay should be when it is in its ON state The default is 1 red but can be changed to no colour green or yellow P937 General Control Pump Relay Colour This parameter selects the colour that a pump rela...

Page 228: ...ameter number P940 Number of Starts This parameter shows how many times the unit has been powered up P941 P960 Start Date Time Parameters P941 and P942 show the date and time that the unit was last started There are ten start dates times recorded which are parameters P943 P960 The first on the list are the most recent and the last ones are the oldest These are read only and cannot be changed Dayli...

Page 229: ...a Thursday 6 Friday DST will start on a Friday 7 Saturday DST will start on a Saturday 8 Sunday Default DST will start on a Sunday P974 Start Week This parameter will determine the week of the month P975 in which Daylight Saving Time is to start Option Description 1 Week 1 DST will start on day P973 in the first week P974 of the month P975 2 Week 2 DST will start on day P973 in the second week P97...

Page 230: ...start during the month of September 10 October DST will start during the month of October 11 November DST will start during the month of November 12 December DST will start during the month of December P976 DST End Time This parameter is used to set the time of day at which Daylight Saving Time will end the time is entered in the format HH MM 24 hour format Default 02 00 P977 End Day Use this para...

Page 231: ...9 P979 End Month This parameter is used to select the month in which Daylight Saving Time will end Option Description 1 January DST will end during the month of January 2 February DST will end during the month of February 3 March DST will end during the month of March 4 April DST will end during the month of April 5 May DST will end during the month of May 6 June DST will end during the month of J...

Page 232: ... unit this interval will reduce until the service is due The service alarm relay that is programmed details of how to do this are shown in Relays Alarms changes state and the LED becomes solid red The message displayed on the unit now changes to read as follows Site service now due please call your provider Tel no 01684 891371 P196 STD Leading zeroes This parameter is used to enter the number of 0...

Page 233: ...er to the relevant communications manual for availability of parameters and details of options Remote Alarm When a Modem is connected to via the RS232 port Consult Pulsar or your local distributor for further details the following parameters are used to set up the Ultra 5 so that when the level reaches a specific alarm point as determined by the setting of the relay s the unit will dial and connec...

Page 234: ...S This option initiates a predetermined message which is sent to the remote telephone number detailing date and time the alarm was initiated the site ID alarm condition and level at the time the alarm was initiated ...

Page 235: ...d then proceed to P147 and enter the remaining digits P147 Tel No3 This parameter is used to enter any remaining digits of the telephone number to be dialled after completion of P145 and P146 above Example Telephone number to be dialled is 0 1234 123456 P145 Tel No 1 1 One 0 at the beginning of the telephone number P146 Tel No 2 123412 The next 6 digits following the 0 s P147 Tel No 3 3456 Remaini...

Page 236: ...ulation will move the level up and down between empty level or the pre determined Start Level P983 and Pump Control relay switch points if you wish to change the direction of the level movement e g to go beyond relay setpoints this can be done by using the arrow keys In manual simulation using the arrow keys will allow you to move the level up and down as required The choices for you to enter are ...

Page 237: ...rementally by the value P984 Incremental Change by using the decimal point key to increase and the plus minus key to decrease the rate of change Default 0 1m Hardware P990 Self Test If you enter 1 for this parameter then the unit will perform a self test This will confirm that the various parts of the circuitry are working correctly You will see confirmation messages that the clock and the EEPROM ...

Page 238: ...A input by injecting a known mA signal from an external source you can check the unit is working correctly and as expected P994 Transducer Test If you enter 1 for this parameter it will continually fire the transducer so you can check the wiring until you press any key to cancel P995 Keys Test You should press each key to confirm it works with a counter showing how many more keys you have to press...

Page 239: ...layed for current level Measure actual distance from transducer head to surface of material Enter Program Mode and directly access P21 Set Distance type in the measured distance ENTER ENTER again when prompted wait until SET displayed and return to Run Mode display should now update to correct reading Material level is consistently incorrect by the same amount Check empty level P105 display offset...

Page 240: ...Page 232 This page left blank intentionally ...

Page 241: ...alues No Description Default 1 2 3 4 5 P104 Measurement Units 1 metres P105 Empty Level 6 000 metres P106 Span 5 700 metres P107 Near Blanking 0 300 metres P108 Far Blanking 20 0 mA Input Optional Parameter Details Entered Values No Description Default 1 2 3 4 5 P119 mA Status 0 mA OK P120 Low mA In 4 0 mA P121 High mA In 20 mA P122 Low Level In 0 0 metres P123 Hi Level In 6 0 metres P124 Low mA T...

Page 242: ...No Description Default 1 2 3 4 5 P220 R2 Type 0 Off P221 R2 Function 0 Off P222 R2 Alarm ID 1 Off P223 R2 Set 1 0 000 metres P224 R2 Set 2 0 000 metres P225 R2 Set 3 0 000 P226 R2 Allocation 1 P227 R2 Closures 0 P228 R2 Fail Safe 0 P229 R2 Max rate 0 000 m min Relay 3 Parameter Details Entered Values No Description Default 1 2 3 4 5 P230 R3 Type 0 Off P231 R3 Function 0 Off P232 R3Alarm ID 1 Off P...

Page 243: ...iption Default 1 2 3 4 5 P250 R5 Type 0 Off P251 R5 Function 0 Off P252 R5Alarm ID 1 Off P253 R5 Set 1 0 000 metres P254 R5 Set 2 0 000 metres P255 R5 Set 3 0 000 P256 R5 Allocation 1 P257 R5 Closures 0 P258 R5 Fail Safe 0 P259 R5 Max rate 0 000 m min PUMP ADVANCED PUMP ONLY Run On Parameter Details Entered Values No Description Default 1 2 3 4 5 P349 Prime Level 0 0 metres P350 Run Interval 0 00 ...

Page 244: ...es No Description Default 1 2 3 4 5 P360 Wall Cling 0 00 metres Storm Parameter Details Entered Values No Description Default 1 2 3 4 5 P370 Pump Disable 1 Normal P371 Disable Time 30 0 mins 30 1 DATA LOGS Temperature Parameter Details Entered Values No Description Default 1 2 3 4 5 P580 P581 Minimum Temperature Read Only P581 Min Temperature Date Read Only P582 Min Temperature Time Read Only P583...

Page 245: ...iser 7 P474 Tot Date 8 P475 Totaliser 8 P476 Tot Date 9 P477 Totaliser 9 P478 Tot Date 10 P479 Totaliser 10 P480 Clear Logs Pump 1 Pump Only Parameter Details Entered Values No Description Default 1 2 3 4 5 P510 P581 P1 Hours 0 0 hours P511 P1 Starts 0 P512 P1 Starts Hour 0 P513 P1 Run Ons 0 P514 P1 Draw 0 P515 P1 Efficiency 0 Pump 2 Pump Only Parameter Details Entered Values No Description Defaul...

Page 246: ... Hours 0 0 hours P529 P4 Starts 0 P530 P4 Starts Hour 0 P531 P4 Run Ons 0 P532 P4 Draw P533 P4 Efficiency Pump 5 Pump Only Parameter Details Entered Values No Description Default 1 2 3 4 5 P534 P581 P5 Hours 0 0 hours P535 P5 Starts 0 P536 P5 Starts Hour 0 P537 P5 Run Ons 0 P538 P5 Draw 0 P539 P5 Efficiency 0 VOLUME VOLUME PUMP ONLY Setup Pump Only Parameter Details Entered Values No Description D...

Page 247: ...point 3 0 00 P615 Volume Breakpoint 3 0 00 P616 Level Breakpoint 4 0 00 P617 Volume Breakpoint 4 0 00 P618 Level Breakpoint 5 0 00 P619 Volume Breakpoint 5 0 00 P620 Level Breakpoint 6 0 00 P621 Volume Breakpoint 6 0 00 P622 Level Breakpoint 7 0 00 P623 Volume Breakpoint 7 0 00 P624 Level Breakpoint 8 0 00 P625 Volume Breakpoint 8 0 00 P626 Level Breakpoint 9 0 00 P627 Volume Breakpoint 9 0 00 P62...

Page 248: ...ume Breakpoint 23 0 00 P656 Level Breakpoint 24 0 00 P657 Volume Breakpoint 24 0 00 P658 Level Breakpoint 25 0 00 P659 Volume Breakpoint 25 0 00 P660 Level Breakpoint 26 0 00 P661 Volume Breakpoint 26 0 00 P662 Level Breakpoint 27 0 00 P663 Volume Breakpoint 27 0 00 P664 Level Breakpoint 28 0 00 P665 Volume Breakpoint 28 0 00 P666 Level Breakpoint 29 0 00 P667 Volume Breakpoint 29 0 00 P688 Level ...

Page 249: ...scription Default 1 2 3 4 5 P700 PMD Type 0 Off P701 Primary M D 1 Off P702 Calculation 2 Ratio P703 Minimum Head 0 000 metres P704 Maximum Head 5 7 metres P705 Maximum Flow 0 0000 Litres P706 Volume units 1 Litres P707 Time Units 1 per sec P708 Flow Decimal 2 P709 Flow Cutoff 5 00 Dimensions Parameter Details Entered Values No Description Default 1 2 3 4 5 P710 Dimension A 0 0 P711 Dimension B 0 ...

Page 250: ...eakpoint 4 1 000 P738 Head Breakpoint 5 0 001 P739 Flow Breakpoint 5 1 000 P740 Head Breakpoint 6 0 001 P741 Flow Breakpoint 6 1 000 P742 Head Breakpoint 7 0 001 P743 Flow Breakpoint 7 1 000 P744 Head Breakpoint 8 0 001 P745 Flow Breakpoint 8 1 000 P746 Head Breakpoint 9 0 001 P747 Flow Breakpoint 9 1 000 P748 Head Breakpoint 10 0 001 P749 Flow Breakpoint 10 1 000 P750 Head Breakpoint 11 0 001 P75...

Page 251: ...oint 25 0 001 P779 Flow Breakpoint 25 1 000 P780 Head Breakpoint 26 0 001 P781 Flow Breakpoint 26 1 000 P782 Head Breakpoint 27 0 001 P783 Flow Breakpoint 27 1 000 P784 Head Breakpoint 28 0 001 P785 Flow Breakpoint 28 1 000 P786 Head Breakpoint 29 0 001 P787 Flow Breakpoint 29 1 000 P788 Head Breakpoint 30 0 001 P789 Flow Breakpoint 30 1 000 P790 Head Breakpoint 31 0 001 P791 Flow Breakpoint 31 1 ...

Page 252: ...etres P804 Display Conversion 1 000 P805 Display source 0 Default Fail Safe Parameter Details Entered Values No Description Default 1 2 3 4 5 P808 P581 Fail Mode 1 Known P809 Fail Time 2 0 mins Auxiliary Parameter Details Entered Values No Description Default 1 2 3 4 5 P810 Units 1 Yes P811 Alarms 0 No P812 Pumps General 0 No P813 Control 0 No P814 Miscellaneous 0 No P815 Auxiliary Source 0 Off P8...

Page 253: ...s Entered Values No Description Default 1 2 3 4 5 P831 P581 mA Out Mode 0 Default Set Point Parameter Details Entered Values No Description Default 1 2 3 4 5 P834 Low Level 0 000 metres P835 P581 High Level 6 000 metres Limits Parameter Details Entered Values No Description Default 1 2 3 4 5 P836 Low Limit 0 0 mA P837 P581 High Limit 20 0 mA Trim Parameter Details Entered Values No Description Def...

Page 254: ...Temperature Source 1 Automatic P853 Allocation 0 Xducer 1 P854 Fixed Temperature 20 00o C Velocity Parameter Details Entered Values No Description Default 1 2 3 4 5 P860 Sound Velocity 344 100 P861 Cal Dist 1 4 00 metres P862 Cal Dist 2 4 00 metres STABILITY Damping Parameter Details Entered Values No Description Default 1 2 3 4 5 P870 Fill Damping 10 000 P871 Empty Damping 10 000 Indicator Parame...

Page 255: ...PROCESS Xducer Status 1 Parameter Details Entered Values No Description Default 1 2 3 4 5 P900 Xducer 1 Status Read Only P901 Echo Confidence 1 Read Only P902 Echo Strength 1 Read Only P903 Average Noise 1 Read Only P904 Peak Noise 1 Read Only P905 Sensitivity 1 5 0dB P906 Side Clearance 1 0 050 metres Xducer Status 2 Parameter Details Entered Values No Description Default 1 2 3 4 5 P910 Xducer 2 ...

Page 256: ...4 5 P926 Software Revision Read Only P927 Hardware Revision Read Only P928 Serial Number Read Only P929 Site Ident 1 P930 Factory Default 0 No Date Time Parameter Details Entered Values No Description Default 1 2 3 4 5 P931 Date Current Date P932 Time Current Time P933 Date Format 1 DD MM Y Y LED Colours Parameter Details Entered Values No Description Default 1 2 3 4 5 P935 Off Colour 3 Yellow P93...

Page 257: ...tart Month 3 P976 DST End Time 02 00 P977 End Day 8 P978 End Week 5 P979 End Month 10 Service Alarm Parameter Details Entered Values No Description Default 1 2 3 4 5 P194 Date 01 01 14 P195 Interval 0 P196 STD leading zeroes 0 P197 Phone STD code 00 P198 Phone number 0 P199 Service alarm reset 0 DEVICE COMM RS232 Setup Parameter Details Entered Values No Description Default 1 2 3 4 5 P061 Comms Ba...

Page 258: ...2 Even P135 Stop Bit 1 One Stop P136 Data Format 0 Unsigned Int P137 Delay in ms 5 milli seconds Profibus Parameter Details Entered Values No Description Default 1 2 3 4 5 P132 Device Address 126 P143 Addr Locked 0 No Remote Alarm Parameter Details Entered Values No Description Default 1 2 3 4 5 P144 Call type 0 Off P145 Tel No 1 1 Add 0 P146 Tel No 2 0 P147 Tel No 3 0 P148 Timed Out 90 seconds P1...

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