Integrated multi-function meter User`s manual
Contents
1. Notes Section area of power cord 0 5 2 5mm Torque 50Nm Table 3 3 1 gives a list of definitions for each connecting terminal Table 3 3 1 Terminal Definition Item Tag Remark Power supply L N G 90 260V AC 24V output 1 2 Capacity 50 mA isolated from other power supply RS485 interface 3 4 Connect to A and B for RS485 communication respectively No alarm relay output K1 5 6 DC30V 1A No 2 alarm relay output K2 7 8 DC30V 1A 4 20mADC analog output 9 10 Maximum load is 750 Q Analog input chanel 1 11 12 13 Wiring as Fig 3 3 1 Analog input chanel 2 14 15 16 Wiring as Fig 3 3 1 Notes Any analog input channel of the meter can work together with an analog output channel to form a PID control loop 3 4 Communication Wiring This instrument is equipped with RS485 interface Please use Shielded Twisted Pair as communication cable for RS485 communication provided by user If the cable is longer than 100 meters a termination resistor of 120 ohm is required provided by user The termination resistor should be connected between two remote ends When using the RS485RS232 adapter from our company connect the instrument to PC as Fig 3 4 1 Non No2 P C RS232 RS485 converter No 1 E Instrument Figure 3 4 1 Sketch map of communication connection 4 Operation and Configuration Manipulation 4 1 Keyboard This integrated multi function combi2. between them When the type of signal is thermal resistance Resistance broken will be displayed When the type of signal is thermocouple thermocouple broken will be displayed If other type of signal is input none will be displayed in this field Channel 2 selectable channels Signal Types of signal TC B E J K S T RTD PtIOO Cu50 Voltage 0 20mVDC 0 100mVDC 0 5VDC 1 5VDC Current 0 20mADC 4 20mADC Measuring Range Here is the range for engineering value Units Engineering units Nm h m h m min m s L h L min L s t h t min t s kg h kg min kg s C Pa kPa MPa kgf cm bar mmH20 mmHg ppm pH r min mm Hz kHz mA A kA mV V kV VA kVA W kW MW Var kVar MVar J kJ uS m uS cm kg J kg C kWh ug L Square Root When Square root is needed please press Yes Record interval Record interval can be set as 1 2 5 20 40 60 20 240 second s The bigger record interval is the longer record time is Vise versa Usually if the signal varies swiftly choose a small value for record interval if the signal varies slowly choose a big value for record interval The field of 2 0M in the figure above shows the record capacity of this channel is 2 0MBit If the value of this field is 0 0M it means there is no record memory allocated to this channel namely this channel doesn t record After record capacity is changed all data recorded previously will be clear and the instrument allocate
3. value Process Trend Figure 4 2 5 1 History Trend Panel Timeline can be changed through F2 In the figure above 3m shows that it takes 3 minutes to record this trend When inquiring history trend press Set first to activate cursor and set date and time Then press Enter to inquire Pressing left key or right key is another way to inquire From the Figure above we can get that the measuring value for channell at the time of 11 05 28 on the day of August 7th in 2006 is 40 0 C This trend records the curve from 3 minutes before to current time Vertical coordinate can be scaled automatically to fully display the treqd in the panel 4 2 6 Alarm Overview Panel Alarm Overview Panel is shown as FigA 2 6 1 Alarm Overview Panel gives detailed description of recent sixteen alarms for current channel in terms of date time and type etc It aids the operator to take measures to prevent accidents shows alarm is not end 4 shows alarm has been acknowledged by the operator Alar Alarm Date end Time Alarm P Chanel Time Alarm is Cyrsor NO NO not End 01 LL 1 06 08 07 11 05 18 02 LO1 06 08 07 11 05 08 03 LO1 06 08 07 11 00 58 11 00 58 V 04 HI 2 06 08 07 10 12 52 10 12 52 y Acknowledged Alarm Figure 4 2 6 1 Alarm overview Panel Alarm Types There are five types of Alarm HH High High alarm HI High alarm LO Low alarm LL Low Low alarm AV varied alarm Speed search and analysis alarm data Move cursor by left an
4. Integrated multi function meter User s manual 1 General Thank you for using the integrated multi function combined meter This User s Manual provides the user with useful information regarding the instrument s installing operating procedures and parameters setting as well as failure diagnosis To ensure proper use of the instrument please read this manual thoroughly before operating it Keep the manual in a safe place 2 Technical specifications 2 1 Input 2 analog input channels support various types of signal The following options can be selected to input through meter configuration Voltage signal 0 5 1 5 VDC 0 20 0 100m VDC Current signal 0 20 4 20mADC Thermal resistance Pt 100 Cu50 Thermocouple B E J K S T 2 2 Output 1 analog output channel 4 20mA can drive a maximum load of 750 Q 1 isolated 24VDC feedback output can supply a current as much as 50mA 2 3 Accuracy Rea time display 0 2 F S Recall accuracy 0 2 F S Cold junction tolerance 2 C Clock accuracy 2S Day Notes Reject cold junction tolerance of thermocouples 2 4 Record Interval 8 record interval selection 1 2 5 20 40 60 120 240 second s 2 5 Record Capacity 4MB it The user can allocate it to two input channels through instrument configuration 0 5MBit per unit 2 6 Record Time If the power is ON the total record time T of every channel can be calculated by the Record Interval T and Record Capacity n See the formula as foll
5. d right key and press F2 to enter history recall panel for time when current alarm occurs If the record capacity of certain channel is 0 0M this function is unusable If new data has overwritten history data at the alarm moment the history panel displays history data as early as possible Alarm Acknowledgement Alarm Acknowledgement is defined as when the operator finds the alarm and takes effective measures to prevent danger Unacknowledged alarm can be changed to acknowledged alann through the operations as follows Move cursor to desired alarm field press Up key to display N as an alarm acknowledgement symbol Page Integrated multi function combined meter is able to record the latest 16 alarm records But one panel can display only 8 records Press Left or Right key to move cursor repeatedly to page to watch other alarm records Notes Alarm records will be lost if the instrument is power off If no alarm occurs this panel will be skipped when switching between panels 4 3 Configuration Panel 4 3 1 Configuration Code Input Panel If the user need configuration press Fl on any operating panel to enter Input Code Panel See FigA 3 1 1 Input Code 00 00 00 Figure 4 3 1 1 Configuration Code Panel If correct code is input the instrument enters configuration main panel Otherwise the operator has no right to change configuration information Notes six digit code should be input at three times and each time two digits Fac
6. ge X 100 Integral action separation coefficient control variable near to set value integral action is effective Contrarily integral action is separated integral action is disabled Range of integralaction separation 0 00 1 00 00 Dead zone When signal has a small vibration dead zone can prevent the output varies continually which may ring the system to an unstable state Range of dead zone is 0 25 5 MVH MVH is the upper limit of regulator When the result of regulator is bigger than output upper limit actual output is kept as the value specified by output upper limit The range is MVL 100 MVL MVL is the lower limit of regulator When the result of regulator is smaller than output lower limit actual output is kept as the value specified by output lower limit The range is 0 MVH After finished setting return Notes When PID control is ON transmitter output must be disabled 4 3 6 Alarm Configuration Alarm Configuration Panel is shown as Fig 4 3 6 1 Chanel Dead band 0 0 800 0 HI 1 850 0 HH 1 50 0 LOO 999 LL 0 949 9 8 AV 0 Back Figure 4 3 6 1 Alarm Configuration Panel Channel Channel and Channel 2 is selectable to set alann parameters Dead band Dead band is used to prevent repeating alann around the alann point For example assumed the range of channel I is 0 100 The high alann point is 80 while the low alann point is set as 20 And dead band is set as 5 0 If high alann occurs the instr
7. its for transmitter output respectively according to the range of sampling channel Function If this Function is positive the upper limit of Transmitter Range is 20mA and the lower limit is 4mA If this Function is negative the upper limit of Transmitter Range is 4mA and the lower limit is 20mA Return after setting is finished If Transmitter Range is enabled PID control should be disabled 4 3 5 Control Configuration Control Configuration is shown as Fig 4 3 5 1 PID Reese Enable PV CH2 Output A0 Negative Y KP 60 TI 9999 S TD 0 S Panel 1 Integral separation IRUNE Dead zone 0 0 MVH 90 MVL 10 Back Panel 2 Figure 4 3 5 1 Output configuration Panel Notes Control Configuration contains Panels I and Panel 2 Switch between them by moving cursor PID LOOP is the identifier for PID loop On means the control is enabled while Off means the control is disabled Sampling It means input signal channel of PID control loop The user can select sampling channel Output It supports transmitter output for AO point Negative If output increases as input increases the control function is positive If output increase as input decreases the control function is negative If PID output increases relative sampling value inclines to increase select Negative Otherwise select Positive Make the PID loop as a negative feedback KP It is the proportional coefficient of PID control loop Its range i
8. ment Panel Notes This panel will be displayed only when PID control is activated at Configuration Panel Modify set value On Adjustment Panel press Set to activate cursor and this value can be set within the range of corresponding sampling channel After setting press Enter to confirm Modify output value On Adjustment Panel press Left key to switch into manual mode and activate the cursor at MV The value can be modified within the range 0 00 100 00 Manually Automatically Switch On Adjusting Panel press Left key to select the manual or automatic switch of Adjustment Panel 4 2 4 Real time Curve Panel Real time Curve Panel is shown as Fig4 2 4 1 Chanel No Process value Unit 11 52 21 Time Set value Process Trend Figure 4 2 4 1 Real time Curve Panel Time rod can be changed through F2 In the figure above 3m means that it takes 3 minutes to record this curve Current measured value is displayed at the end of the curve From this Figure we know that the measured value for channel i at the time of 11 05 28 on the day of August 7th in 2006 is 40 0 C This curve records the trend from 3 minutes before to present Vertical coordinate can be scaled automatically to fully display the curve on the panel 4 2 5 History Trend Panel History trend Panel is shown as FigA 2 5 1 Date and time at the top of screen mark up the time at the right hand of the trend Chanel No Process value Unit 11 52 21 ime Set
9. ned meter contains 8 keys in total see Fig 4 1 1 Each key has different function in operating state and configuration state For details refer to Table 4 1 1 F1 F2 Figure 4 1 1 Operation Keyboard Table 4 1 1 Function for each key Description Function Symbol Operating Configurating F14 Enter configuration panel F2 1 Switch time base at Curve Panel 2 Speed search and location of history record data during alarm period of time on Alarm Overview Panel Set 3 Activate the time of fixed search in history trend panel 4 Activate SV setting value on Adjustment panel Enter 1 Switch between operating panel in non actvated state Enter Quit sub panel 2 U confirm the moment when time is activated on history trend panel Activate SV setting value on Adjustment panel U Switch between display chanel upwards in cursor free state Select previous option or increase value Confirm alarm records on Alarm overview panel Switch between display chanel dowards in cursor free state Select next option or decrease value Move the cursor forward recall history data on history trend panel Manual Automatic switch Rl N N Move the cursor backrward 2 recall historical data at historical curve display Notes Press on direction key without release will accelerate alternation 4 2 Operating Panel When powered on the instr
10. ot appears stop it If the stable error of system is acceptable and response curve satisfies the design use proportional control only Integral time setting If the stable error of proportional control system fails to meet the design it is necessary to add integral function Reduce the integral time gradually from a big value to a small one integral function is enhanced and observe the output until the stable error of system decreases to zero meet the specifications Try and trail for several times until the speed of steady state error eliminating is acceptable Care should be taken that the overshoot will be larger and the user need to reduce the proportional coefficient properly Differential time setting If proportional and integral PI controller fails to satisfy the design after reiterative adjustment differential function should be taken into account When setting increase the differential time from zero slowly differential function is enhanced observe the overshoot and stability At the same time make a fine adjustment for proportional coefficient and integral time until a satisfied result is got Table 4 3 5 1 KP TI TD experiential values for indication only System Proprotional coeficient Integral time Diferential time KP TI s TD S Temp 170 500 180 600 30 180 Flux 100 250 6 60 Pressure 140 330 24 180 Liquid level 130 500 Integral separation If deviation ran
11. ows T 0 74 Xn Xt Where T day t S n M the value can be 0 0 0 5 1 0 1 5 2 0 2 5 3 0 3 5 or 4 0 For example In case n 4 0 t 2408S this channel can record for T 71 0 4 days 2 7 Alarm Output 2 passive Contact Outputs Contact Capacity 1A 30VDC Default normal open 2 8 Communication RS485 mode Complying with open MODBUS RTU slave protocol and the baud rate can be set 1200 4800 9600 19200 38400 57600 bps 2 9 Screen Display Resolution 192 X 64 Scan frequency 1Hz 2 10 Power Supply Rated AC supply voltage 0 2A 90 260VAC 45 55Hz 2 11 Size Outline size 160mm Width X 80mm Height X 48mm Depth Hole size 152mmX 76mm 2 12 Net weight lt 1 0kg 2 13 Storage condition Temperature 20 60 C Avoid direct exposure to violent sunlight Humidity lt 85 RH no coagulation 2 14 Operating condition Temperature 0 55 C Humidity 10 85 RH no coagulation Notes Do not operate in an erosive atmosphere Do not bring liquid or conductive substance into the instrument Keep airiness near the intake in a good condition 3 Installing and Wiring 3 1 Outline Dimension Figure 3 2 1 Outline Dimension Diagram of the Instrument 3 3 Connecting Terminals 00O E AE 220vac AB en alna 24VDC RS485 A Ne Vimv Figure 3 3 1 Distribution Diagram of Terminals OT 2 E o o _ Figure 3 3 2 Wiring Diagram for 2 wire Transmitter J pwsueIL J pwsueLIL
12. s 0 1 999 9 The bigger KP is the stronger control response is Large Kp not only makes the system more sensitive but also accelerates it Per contra the control response is weaker and the system tends to be unstable TI It is integral time of PID control loop Its range is 1 9999 The littler TI is the stronger control response is and thus the system tends to be unstable But littler TI helps to eliminate steady error and improve control precision Per contra bigger TI weakens the function If the TI value is 9999s it takes no action TD It is differential time ofPID control loop Its range is within 0 9999 TD helps to improve the dynamic property of system If TD is bigger differential function is stronger and the overshoot is also bigger but adjustment time is shorter If TD is smaller the overshoot is bigger and adjustment time is longer So a suitable differential time is important Set proportional coefficient integration time and differential time as follows First according to Table 4 3 5 1 to get an approximate range for the three parameters and then follow the steps below to get the value Proportional coefficient setting First set the integral time as 9999s and the differential time as 0 to disable integral function as well as differential function In this way pure proportional control is adopted Increase proportional parameters slowly and watch the response of system When the response rate is rast and a certain oversho
13. s new record capacity for each channel again Be cautions to change this value Filtering time One order lag Filtering can help smooth the signal The range is 0 99 Low signal cutting If signal to be measured is relatively small measuring error will be big especially when the signal is below 1 and thus the precision goes even lower enormously In that case low signal cutting takes the result as zero The value should be within the range of 0 0 25 5 Zero Adjustment Within the measuring range if there is a deviation between displayed value and actual value the user can use Zero Shift to modify and improve display precision If the displayed value is 0 5 while the actual value is 0 2 the user can set Zero Shift as 0 5 to display 0 0 RTD Open loop On control adjustment state set safety value for Resistance broken or Thermocouple broken The user can select Starting Point Hold and End Point After finished setting return 4 3 4 Output Configuration Output Configuration Panel is shown as Fig 4 3 4 l Signal cm Disable Input CH2 Output A0 Segment 0 0 100 0 Negative N Back Figure 4 3 4 1 Output Configuration Panel Output Signal Enable and Disable means the transmitting function is valid or invalid Sampling It means channel needing transmitter The user can select sampling channel number OutputlIt supports transmitter output for AO point Transmitter Range Get upper limit and lower limit as lim
14. tory default value of the code is 000000 4 3 2 Configuration Main Panel Configuration adopts cascade panel FigA 3 2 1 is Configuration Main Panel Ouput Control Alarm Comm System Figure 4 3 2 1 Configuration Main Panel Input As for analog input configuration the user is able to configure two analog input channels through this menu Output namely transmitter output Users can set output signal as a transmitter parameter of 4 20mADC Control PID control information The user can set PID parameters via this menu Alarm Set alarm parameters for analog input Communication Set local address and baud rate System Set system information Enter next submenu 1 Press Left or Right key to move cursor to a corresponding position on the menu 2 Press Enter key to confirm 3 The instrument enters next submenu automatically Quit configuration 1 Press Left or Right to move cursor and stop it at Exit 2 Press Enter key to confirm 3 The instrument enters next submenu automatically 4 3 3 Input Configuration Input Configuration Panel is shown as FigA 3 3 1 Chanel FJ Signal Pt 100 Span 99 9 850 0 Unit C Square root Y Record interval 1s 2 0M Panel 1 Filtering time 0 S Low signal cut off 0 0 Zero adjustment 0 0 RTD Open loop Low Back Panel 2 Figure 4 3 3 1 Input Configuration Panel Notes Input Configuration contains Panel I and Panel 2 Use Left and Right key to switch
15. tute a same communication network it is not pennitted to assign a same communication to the instrument see attachment for MODBUS address mapping 4 3 8 System Configuration System Configuration Panel is shown as Fig 4 3 8 1 Date ma 08 07 Time 11 05 28 Code 00 00 00 Contrast 36 Figure 4 3 8 1 System Configuration Panel Date Time Adjust system time to keep the accuracy of time Generally the adjustment is small If system clock walks more slowly the time will jump in the direction of future In this way this period of time becomes the range lower limit when on history inquire panel If system timer walks more quickly the time will overlap in the direction of past In this way the instrument will not record during this period oftime until present time is the same as than before adjustment Notes In case system clock walks more quickly and it is one hour later after the data and time has been modified in the direction of past all history record data will be cleared The instrument will record again by modified time Be careful to modify Code This code is also called configuration privilege code Please keep this code in mind after setting Contrast 0 100 adjustable
16. ument enters Operating Panel including Customize Panel Digital Display Panel Adjustment Panel Real time Curve Panel History Trend Panel and Alarm Overview Panel etc Notes If the control function of configuration is disabled the Adjusting Panel will not appear If the Record Capacity Share for each input channel is 0 the History trend Panel will not appear If there is no alarm record the Alarm Overview Panel will not appear 4 2 1 Customize Panels Customize Panel is used to configure different display panel in different application There can be one or more Customize Panel but not always See Panel Edit Handbook 4 2 2 Digital Display Panel Two channel digital display panel is shown as FigA 2 2 1 Chanel No Unit CH1 XC e Measurement CH2 e Figure 4 2 2 1 Two channel Digital Display Panel Single channel digital display panel is shown as FigA 2 2 2 Low Low Alarm High High Alarm Chanel No Low Alarm Unit High Alarm 06 05 07 Date 11 52 21 Time Alarm2 Alarm Process Process value bar graph Figure 4 2 2 2 Single channel Digital Display Panel KI Disc means No 1 relay contacts are closed while circle represents open K2 Disc means No 2 relay contacts are closed while circle represents open 4 2 3 Adjustment Panel Adjustment Panel is shown as Fig4 2 3 1 PID loop back Output bar Set Value Process bar graph Set value Kontrol Mnual Value Process value Figure 4 2 3 1 Adjust
17. ument will cancel this alann only when the measured value is smaller than 80 100 5 75 In like manner if low alann occurs the instrument will cancel this alann only when the measured value is bigger than 20 100 5 25 Alann setting HI HH La LL in the figure above shows High alann High high alann low alarm low low alarm respectively The value before characters specifies alarm threshold while the value after characters specifies the connected relay number When there comes an alarm this relay will take actions 0 means that there is no connected relay 1 means that No 1 relay is connected 2 means No 2 relay is connected The same relay can be connected to different alarm If any alarm occurs this relay will be closed Change rate AV alarm Change rate alann is used when the variation of measured value overflows and brings about an alarm There are two values after the change rate One is alarm threshold following the change rate Another is connected relay number following the alarm threshold After finished setting return 4 3 7 Communication Configuration Communication Configuration Panel is shown as FigA 3 7 1 Address 06 Baud rate 19200 Figure 4 3 7 1 Communication Configuration Panel MODBUS RTU communication protocol is used by default Communication configuration is used to set local communication address and communication baud rate Communication address can be set as a value within I 63 When consti
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