Preview only show first 10 pages with watermark. For full document please download

Eb Batch Controller - Southeastern Automation

   EMBED

Share

Transcript

DIN Panel Mount Series EB BATCH CONTROLLER INSTRUCTION TRIMEC INDUSTRIES Pty.Ltd. 1 / 19 -21 Northumberland Road (PO Box 2444) Caringbah NSW 2229 Sydney - AUSTRALIA Tel : +61 2 9540 4433 Fax: +61 2 9525 9411 Email : [email protected] Website: www.trimecind.com TRIMEC Europe Ltd Floor 3, 5A Boltro Road Haywards Heath West Sussex, UNITED KINGDOM RH16 1BP Tel : +44 144-441-7880 Fax : +44 144-441-7668 Email : [email protected] Website : www.trimecind.com TRIMEC Inc. 916 Belcher Drive Pelham, AL 35124 USA Tel : +1 205 378 1050 Fax : +1 205 685 3001 Email : [email protected] Website : www.trimecind.com IMEBVAC-4006 Distributed by: MANUAL Table of contents 1. To avoid hazards, instructions in this manual must be followed. If the equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. 2. Warning: All hazardous voltage must be disconnected before open the case. Software versions V 3.0 01.09.04 3. Replacement Battery: Trimec supplied battery Trimec P/No. 1312007 ` - 3.6V x 2.4Ah AA Lithium Thionyl Chloride + non - rechargeable cell 5. 6. 7. Suitable batteries also available from : R S Components Stock No. 596-602 Farnell Components Order code 206-532 8. 9. 10. INTRODUCTION 1.1 Model number designation 1.2 Specifications 1.3 Overview 1.4 LCD displays 2 3 4 4 OPERATION 2.1 Batch Set 2.2 Batch RUN 2.3 Batch STOP 2.4 Batch Total 2.5 Accumulative total 2.6 Total Number of Batches ( TNB ) 2.7 Keypad function matrix 5 5 5 5 5 5 5 INSTALLATION 3.1 AC selector switch & output selector links 3.2 Mounting 3.3 Terminal layout & input DIP switches 3.4 Flowmeter connections - un-powered sensors - powered sensors 3.5 Wiring connections - AC & DC external powering - remote switches - wiring requirements - AC & DC control - relay control logic 4. PROGRAM PARAMETERS 4.1 PIN number protection 4.2 Resetting accumulative total 4.3 Engineering units 4.4 K-factor (scale factor) 4.5 Decimal points 4.6 Count direction 4.7 Start delay & Pre-stop 4.8 Automatic overrun compensation ( AOC ) 4.9 Missing pulse detection - no flow alarm output 4.10 Batch limiting 4.11 Controller network ID number PROGRAMMING FLOW CHART BATCH OPERATING PROCEDURE ADDITIONAL I/O 7.1 Batch status output 7.2 No flow alarm output 7.3 Run inhibit input 7.4 Solid state output logics ( NPN selection ) 7.5 Solid state output logics ( PNP selection ) 7.6 Control relays BATCH CONTROLLER NETWORKING REFERENCE INFORMATION 9.1 Program detail record 9.2 Error messages 9.3 Back up PIN number 9.4 Terminal designations 9.5 R-C snubber noise & arc suppression ALPHABETICAL INDEX 6 7 7 8 9 10 10 10 10 & 11 11 12 12 12 12 12 12 12 13 13 13 13 14 15 16 16 16 17 17 17 18 & 19 20 20 20 22 22 25 1 2 Introduction introduction 3 1.2 Specifications 1 INTRODUCTION This product has been independently tested & is in conformance with: Display : 8 digit alpha numeric LCD characters 9mm ( 0.35 ”) high with second line sub script text. 8 digits totalising, 3 programmable decimal points, 5 digits for Total number of batches. - Base Directive 89/336/EEC Electromagnetic Compatibility (EMC). - BS EN 61326:1998 Including amendments 1 & 2 - Electrical equipment for measurement, control and laboratory use. Functions : Batch total, Accumulated total & Total number of batches (TNB). - BS EN 61000-4-2 EMC Testing & Measurement Techniques. Electrostatic discharge immunity test. Configuration : - BS EN 61000-4-3 EMC Testing & Measurement Techniques. Radiated, radio-frequency, electromagnetic field immunity test. Flow chart entry of data with scrolling English text prompts. User selectable 4 digit PIN number set-up protection. Programmable decimal points and K-factors. All programmed data and batch 2 status are E PROM protected in the event of a power failure. - BS EN 61000-4-4 EMC Testing & Measurement Techniques. Electrical fast transient/burst immunity Signal Input : - BS EN 61000-4-5 EMC Testing & Measurement Techniques. Surge immunity test Universal pulse/frequency input compatible with Reed switch, Hall effect, Namur proximity detectors, Voltage, current pulse & Coil/sine (15mV P-P min). Maximum input frequency 10Khz. - BS EN 61000-4-6 EMC Testing & Measurement Techniques. Immunity to conducted disturbances induced by radio frequency fields. External power : (reverse polarity protected) 90~110Vac (USA), 210~250Vac (IEC) 50/60Hz universal, 5 watt or regulated 12~24Vdc x 100mA. - BS EN 61000-4-8 EMC Testing & Measurement Techniques. Power frequency magnetic field immunity test. Sensor output : Adjustable 8~26Vdc (50mA for 110Vac & 80mA for 240Vac input). - BS EN 61000-4-11 EMC Testing & Measurement Techniques. Voltage dips, short interruptions and voltage variations immunity test. Battery backup : 3.6Vdc lithium battery supports batch progress if power is lost. - BS EN 55011:1998 Including Amendments 1 & 2 Limits and methods of radio disturbance characteristics of industrial, scientific and medical (ISM) radio frequency equipment. Control outputs : Two SPDT 5 amp relays independently programmable to provide 2 stage control of flow (page 11). Max. voltage 250Vac, 70Vdc. - Low Voltage Directive (LVD) 73/23/EEC. - BS EN 61010-1:2001 Safety requirements for electrical equipment for measurement, control & laboratory use. Alarm / pulse output : NPN-PNP solid state alarm or non-scaleable pulse output @ terminal 7, ( 5000hz max.), 1A maximum drive capability. Batch status output : NPN open collector, 12Vdc x 100mA resistive load max. (page 16). 1.1 Model number designation K-factor range : EB 10 Function ( all instruments have program PIN protection ) Ecobatch two stage batch controller Eg. Pulses/litre, gallon, lb etc. Programmable range is 0.001~ 999999.999 with a floating decimal point during K-factor entry. Engineering units : Selectable Ltr, gal, m3, kgs, lbs (maximum 8 digits of batch). Count direction : Count UP or count DOWN selectable at program level. Automatic overrun : compensation AOC enabled-disabled selection at programming level (page 13). Batch limiting : Batch size limits can be set at programming level (page 13). Run inhibit input : Run function can be inhibited from an external source (page 16). Network I/O : A two wire loop system can link up to 9 individual batch controllers with one common flowmeter to provide an economical multi dispense point interlocked batching system (page 18) . Physical : A) DIN panel enclosure 96 x 96 (requires 91 x 91mm cut out). B) Temperature range from -20ºC to +50ºC ( -4ºF to +122ºF). 0 E lectrical access Rear terminal connections Flow input type D Digital ( pulse or frequency ) Power supply 1 110Vac ( can also be powered by 12~24Vdc ) 2 220Vac ( can also be powered by 12~24Vdc ) Housing type PM DIN panel mount with two SPDT x 5A control relays FE Supplied fitted in a IP65 field enclosue (FE) with clear bezel boot - 1 PM - 1 Options Clear silicone bezel boot m o d e l No. e x a m p l e EB 10 0 D 2 4 Introduction Operation 1.3 Overview The Ecobatch is an AC or dc powered high speed batch controller specifically designed for liquid batching using a flowmeter with a pulse or frequency output. Ecobatch is push button programmable with PIN protection and an internal battery is provided allowing pre-programming without applying power. The large LCD provides batch quantity in selected engineering units, batch status and has scrolling English prompts to make programming easy. Two independent output relays, the second with programmable start delay and pre-stop, enable pump and valve control or 2 stage flow phasing at the start and end of each batch. Precise batching is aided by Automatic Overrun Compensation which, when enabled, automatically manages variations in system time lags which could otherwise lead to discrepancies in dispensed quantity. Safety features includes for an alarm output and automatic cessation of batching if no flow input is detected and programmable batch limiting protects against setting an oversize batch quantity. Scrolling messages on the LCD annunciate any alarm fault conditions. Control features include batch count up or down, remote operational switch interface, run inhibit interlock and batch status output. The ecobatch is capable of networking with up to 9 batch controllers using one common flowmeter. Environments The Ecobatch is designed to suit industrial environments & conforms to relevant EMC directives. An optional IP65 (NEMA 4) field enclosure is also available (see 1.1 model code). 2. 2.1 Batch set : Pressing the Batch set key allows the user to enter a batch value by using the arrowed keys to select the appropriate digits and change their value. Pressing Batch set again enters & confirms that the new batch value has been entered. 2.2 Run : Press RESET then RUN to start the batch. If there are no interruptions the batch controller will automatically stop the batch once the batch value has been reached. 2.3 Stop : Pressing the STOP key at any time during the batch will cause the batcher to go into a “PAUSED ” state and the output relays will be turned off. At this point the user can resume batching by pressing the RUN key or abort the batch by pressing the RESET key. 2.4 Batch Total : 2.6 TNB display ( Total number of batches ) : Ecobatch will accumulate the total number of individual completed batches. Reset of TNB is simultaneous with the resetting of the Accumulative total in program mode. To view the TNB value simultaneously press & hold the two top right hand keys ( Prog. & Accum Tot). 2.7 Keypad functions : KEY FUNCTION IN OPERATING MODE FUNCTION IN PROGRAM MODE 1) Enters & Exits the batch set mode. 1.4 LCD displays Full LCD display test feature illuminates all display segments and script text displays for 5 seconds when entering the program mode. The batch value is displayed in all normal operational modes. 2.5 Accumulative Total : Accumulative total can be reset in the program mode. The accumulative total is displayed momentarily by pressing the ACCUM TOTAL key. BATCH SET Ltr gal m3 lbs RUN ACCUM. TOTAL STOP BAT LOW HIGH RATE kgs 2) May be pressed during batching to show batch pre-set value, this action will not interfere with the batch process. Selects the digit to be Indexed (digit will flash) RUN 1) Starts a batch No function Increments the selected digit ( selected digit will be flashing ) No function 2) Resumes a batch if paused Ltr RUN LOW HIGH Up to 8 digits of Batch quantity programmable for up to 3 decimal places. English prompts clearly show the status of the batch. STOP Pauses a batch during batching Pressing PROG & STOP keys for 5 sec. gives entry to the program mode 1. Resets the batch to the last pre-set value. A 5 digit TNB display shows the total number of batches dispenced since last reset ( reset of TNB and Accumulative Total is only possible whilst in the program mode ). TOTAL gal ACCUM. TOTAL The 8 digit Accumulative Total display can be programmed for up to 3 decimal places. Reset is only possible when in the program mode which can be PIN protected for security. 5 OPERATION RESET 2. Resets individual digits to zero when in the BATCH SET mode. No function 1) Displays Unit ID number followed by the ACCUM TOTAL PROGRAM Accumulative Total as the key is held. 2) Displays total number of batches ( press Accum. Total & Prog. keys at the same time) No function Pressing PROGRAM & ACCUM TOTAL keys displays the Total Number of Batches ( TNB ) 1) Pressing PROGRAM & STOP keys for 5 seconds gives entry to the program mode. 2) Steps you through the program ladder. 3) Holding for 3 secs. fast tracks to end prog. 6 Installation 3. Installation 3. INSTALLATION 7 INSTALLATION - continued 3.2 Mounting 3.1 AC switch & output selector links Panel mounting considerations : 1) Panel cut-out should no larger than 91 x 91mm (3.6”). 2) Case depth is 110mm (4.3”), allow extra depth to clear wiring. 3) Avoid close proximity to high level voltage/current devices or variable speed drive controllers and relevant wiring. The instrument will support up to 250Vac x 5A max. AC Voltage : Ensure that if a mains supply is to be connected it must match the AC power marked at the AC terminals of the instrument . The AC selector switch can be accessed internally (fig.1). ***** Do not open the instrument whilst AC or DC power is applied. Fig.1 Secure in place using 2 panel mount clamps provided, do not over tighten. Consider using the optional silicone boot seal to extend installed IP rating. Also consider a silicone seal at the boot/panel interface, for a neat result first lay self adhesive tape to the panel 3mm out from the bezel, apply silicone with finger then immediately remove tape. Optional clear silicone bezel boot P/No.1304002 protects bezel whilst maintaining touch key sensitivity. Power-relay board & 110~220Vac selector switch 3.3 Factory set for NPN, do not change 123 0 ON Factory set OFF, do not change 7A 0 Terminal layout & input DIP switches (refer also page 20). 1 2 3 4 5 6 7 8 9 10 11 12 Flow input DIP switches NPN ON ON 123 123 7B 0 0 0 NPN PNP Adjust 8~26Vdc ( clockwise to increase ). - + 15 16 17 18 19 20 21 22 23 24 25 RELAY 1 LINK 7B Selects NPN or PNP style output - + Vdc in Network DIP switches ( 2 is on ) Do not change DC power input at 5 & 6 12~24Vdc (100mA min.) 8~26Vdc supply output when AC powered ( refer 3.4 ) SER. 13 14 SPO (no flow alarm) 0 0 REP (repeater pulse) 0 0 123 LINK 7A Selects No Flow or REP pulse output ( see clause 4.9 ) ON Fig. 2 Inner process board Control relays 26~31 26 27 28 29 30 31 NC C NO NC C NO ! No flow alarm output : The output at terminal 7 (Fig.2) is set at the factory for “No Flow Alarm” in an NPN logic state, it may be changed to a repeater pulse output &/or PNP logic. AC power input. 110~220Vac selectable. RELAY 2 battery Relays rated 5A max. C A U T I O N The unit is double insulated, an earthing terminal is not provided. L N N 230V~50Hz 1A AC voltage setting. Warning : Any wires carrying voltage higher than 33Vac or 70Vdc should be double/reinforced insulated at rated voltage not less than 250Vac. 8 Installation Installation 3.4 Flowmeter connections ( powered flow sensors ) 3.4 Flowmeter connections ( un-powered flow sensors ) Network Flow defaults DIP ON ON 1 2 3 1 2 3 Flow input DIP switch functions 4. Hall Effect ( open collector ) Switch 1 : ON engages 0.01µf capacitor to suppress reed switch bounce Switch 2 : ON engages 1 meg Ω pull up resister + Signal out Switch 3 : ON engages 820Ω pull down resister - 0V ground Hall effect 1. Vdc supply 1 Reed Switch 1 2 ON Flow DIP switch1 (debounce) & switch 2 (pull up) are on Flow DIP switch 2 (pull up) is on Ground screen at -0V (5) use twisted pair 3 4 5 6 7 8 9 10 11 12 L N N NC C NO NC C NO AC MAINS Voltage Pulse ( & pulse wires ) use twisted pair ON Flow DIP switches are off 7 8 5 6 7 8 9 10 11 12 ON 1 2 3 1 2 3 15 16 17 18 19 20 21 22 23 24 25 Relay 1 Relay 2 26 27 28 29 30 31 9 10 11 12 Adjust 8~26Vdc - + L N N AC MAINS 5. Namur ( inductive proximity switch ) link terminal 5 to 24 if Ecobatch is AC powered use twisted pair 1 + Flow DIP switch 3 (pull down) is on Ground screen at -0V (5) + ( 1.1~30Vdc ) 6 NC C NO NC C NO NAMUR Inductive Proximity 4 5 Relay 1 Relay 2 26 27 28 29 30 31 Relay 1 Relay 2 26 27 28 29 30 31 3 4 15 16 17 18 19 20 21 22 23 24 25 ON 2 3 ON 1 2 3 1 2 3 1 2 3 1 2 3 1 2 ON Connect to 25 if Ecobatch AC powered Connect to 6 if Ecobatch is DC powered 15 16 17 18 19 20 21 22 23 24 25 2. link terminal 5 to 24 if Ecobatch is AC powered use twisted pairs 2 ON 3 4 5 6 7 ON 8 9 10 11 12 Adjust 8~26Vdc - + 1 2 3 1 2 3 15 16 17 18 19 20 21 22 23 24 25 Connect to 25 if Ecobatch AC powered Connect to 6 if Ecobatch is DC powered NOTE : Adjust Namur voltage to 8.5Vdc maximum. If using as an intrinsically safe proximity switch supply voltage to hazardous area proximity must be sourced from an approved intrinsically safe barrier. Relay 1 Relay 2 26 27 28 29 30 31 L N N AC MAINS NC C NO NC C NO L N N AC MAINS NC C NO NC C NO 6. Current modulated pulse ( 4mA to 20mA pulse amplitude ) NOTE : Position a 100Ω, ¼W resistor across terminals 3 & 5 3. Coil ( Turbine style & paddle flowmeters ) Ground screen at -0V (5) use twisted pair 1 Flow DIP switches off (position switch 1 ON if unit is effected by line noise) ON 2 3 4 5 6 7 8 Coil with pre-amp current modulated B A use twisted pair Flow DIP switches off ON 15 16 17 18 19 20 21 22 23 24 25 Relay 1 Relay 2 26 27 28 29 30 31 NC C NO NC C NO 1 + 9 10 11 12 1 2 3 1 2 3 link terminal 5 to 24 if Ecobatch is AC powered - Connect to 25 if Ecobatch AC powered Connect to 6 if Ecobatch is DC powered n ON 2 3 4 5 6 1 2 3 1 2 3 8 9 10 11 12 Adjust 8~26Vdc - + 15 16 17 18 19 20 21 22 23 24 25 Relay 1 Relay 2 26 27 28 29 30 31 L N N AC MAINS 7 ON NC C NO NC C NO L N N AC MAINS 9 10 Installation Installation 3.5 Wiring connections 11 Wiring for AC control ( use relay 1 or 2, relay 2 has start delay & pre-stop capability ) AC or DC powering & Remote switches (remote keys) Stop / Reset 1 2 3 4 5 6 7 8 use momentary contact switches only 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 Acc.total Set Prog. 15 16 17 18 19 20 21 22 23 24 25 _ Relay 1 or 2 can be alternatively be used for pump control. Run 15 16 17 18 19 20 21 22 23 24 25 + Relay 1 Relay 2 26 27 28 29 30 31 15 16 17 18 19 Powering by regulated 12~24Vdc supply. 26 27 28 29 30 31 L N N NC C NO NC C NO AC MAINS L N N AC MAINS NC C NO NC C NO 110~220Vac powering. Voltage selector switch accessed internally. Refer to voltage label for factory setting. An earthing terminal is not provided. AC supply V1 V2 Wiring requirements : Ensure the wiring of installations comply with all local wiring regulations. The installation must include a power isolating switch or circuit breaker in close proximity to the instrument, within easy reach of the operator and marked as the disconnecting device for the instrument. The AC power supply to the instrument and its control outputs must be wired through a fuse or circuit breaker with appropriate ratings. Flow meter Flow 2 Use multi-core screened twisted pair instrument cable ( 0.25 – 0.5mm ) for electrical connection between the EB and any remote flowmeter or receiving instrument. The screen needs to be earthed to the signal ground of the receiving instrument only to protect the transmitted signal from mutual inductive interference. Instrument cabling should not be run in a common conduit or parallel with power and high inductive load carrying cables, power surges & power line frequencies may induce erroneous noise transients onto the signal. Run instrument cables in a separate conduit or with other instrument cables. Wiring for DC control ( use relay 1 or 2, relay 2 has start delay & pre-stop capability ) 1 nd 2 level control for pump or second control valve (see clause 4.7 page 12) 2 3 4 5 6 7 8 Relay Control Logic 9 10 11 12 RUN 15 16 17 18 19 20 21 22 23 24 25 Relay 1 LOW FLOW STOP Batch complete RUN ENERGISED ENERGISED OFF Relay 1 Relay 2 26 27 28 29 30 31 L N N NC C NO NC C NO AC MAINS DC +control ENERGISED ENERGISED Relay 2 HIGH FLOW Start delay Vdc OFF Pre-stop Start delay Flow meter 1~4 sec. Flow Batch & network ENERGISED status ( NPN ) output OFF Batch & network status (end of batch) (occurs 1~4 seconds after relay 1 is off) 12 4. Programming PROGRAM PARAMETERS 4.1 PIN No. Program Protection Any user defined PIN number other than 0000 will engage the program protection feature, failure to input the correct PIN number will deny the ability to change any of the program parameters but will allow the user to step through and view the existing program parameters. Only one PIN number may be set but this can be changed at any time after gaining access through PIN entry. A second back up PIN number is installed at the factory should the programmed PIN be lost or forgotten ( refer bottom of page 19 for the back up PIN No. ). 4.2 Resetting Accumulated Total & Total Number of Batches ( TNB ) Resetting the Accumulated Total & Total Number of Batches (TNB) is done at “RESET ACCUMULATIVE TOTALS” in the program mode. Both Accumulated Total & TNB are reset if you select “Y” (yes) at this program level. 4.3 Engineering Units ( refer clause 1.4 ) Select from available Engineering units to right of the display. No engineering units denote NIL set allowing the user to set up the instrument with other units of measure which are not available on the Ecobatch LCD display. 4.4 K-factor (scale factor) Enter K-factor starting with the most significant number, up to 7 prime numbers & 3 decimal numbers can be entered. Trailing decimal numbers move into view as digits to the right are progressively selected, any significant digits which may move from view remain functional. 4.5 Decimal Points Up to three decimals points can be selected for Batch Total or Accumulative Total. 4.6 Count Direction Ecobatch can be programmed to count DOWN from the preset quantity or UP from zero. Overruns in the count down mode will show with a minus sign in front of the overrun value. 4.7 Start Delay & Pre-Stop Relay 2 can be programmed to turn on a time period after the run signal is given then turn off again a preset number of litres, gallons etc. before the end of the batch. These operational features provide greater control over the dynamics of the batching process through soft start and/or soft stop or phasing of the control valves and/or pump control. The Start Delay can be set from 0 seconds ( no delay ) to 999 seconds. The pre-stop range is 0 ( no pre-stop ) to 999 units of measure ( litres or gallons etc.). Programming 13 4.8 Automatic Overrun Compensation ( AOC ) Most batching applications will have an inherent end of batch overrun due mainly to the response time of the process valve. Overrun can be compensated by closing the valve slightly before the batch value is reached so that the exact batch value is achieved by the time that the system comes to rest. Ecobatch has an Automatic Overrun Compensation feature which when enabled will assess the degree of overrun on previous batches and automatically alters the close timing of the process valve so that the exact batch value is reached. This feature should not be enabled on batch processes which are subject to erratic or inconsistent flow conditions. 4.9 Missing Pulse Detection When a value other than 00 seconds is set at Time Out ( T / OUT ) in the program mode, Ecobatch will monitor for loss of flowmeter input signal at all times when either of the control relays 1 & 2 are energised. If no pulses are received within the time out period ( 0~99 sec. ) the controller will de-energise both control relays and scroll a “NO INPUT” message across the LCD display, at the same time it will turn on the “no flow alarm” output at terminal 7, (see page 17 for flow alarm connection detail). At “NO INPUT” the user must acknowledge the alarm condition by pressing the STOP key once, the operator then has the option of continuing the batch by pressing the RUN key or aborting the batch by pressing the RESET key which will return the controller to the original batch set value. 4.10 Batch Limit To avoid entering excessive batch quantities, a maximum batch limit can be set at the program level. Ecobatch will not accept a batch value which exceeds the batch limit, on rejecting an excessive batch value the controller will scroll the message “BATCH VALUE EXCEEDS BATCH LIMIT” and default to the batch limit on entry (batch set). 4.11 Controller networking ID number The batch controller ID number should be set to zero (0) unless it is to be used in a network installation (refer page 18). When networked, each controller must be assigned a unique ID number other than 0 (ID range is 1~9), this allows the network interlocking function to operate whereby only the batch controller in use will function and respond to the flowmeter input. Note : The instrument defaults out of the program mode if no program entries are made after 4 minutes. 14 Programming Operating 6. 5. BATCH OPERATING PROCEDURE PROGRAMMING FLOW CHART PROG EB10 V3.0 HOLD 3 2 1 TESTING DISPLAY 88888888 PROGRAM MODE ENTERED press Prog. key to step through program levels hold Program & Rate keys for 5 secs to enter the program RATE TO CHANGE BATCH BATCH SET if PIN protected PROG ENTER PIN PIN _ _ _ _ CHANGE PIN No. Y / N NU PIN Y ~ N YES NO ENTER BATCH QTY. XXXXXXXX if incorrect PIN No. is entered INVALID PIN VIEW EXISTING PROGRAM DETAILS ONLY PIN _ _ _ _ RESET ACCUM TOTALS Y / N RESET Y ~ N BATCH SET SET ENGINEERING UNITS ENG UNIT Ltr gal m3 Ibs kgs (none) ENTER NUMBER PULSES PER Ltr m3 kg gal Ib (unit) K 0000.001 ~ 999999.999 SET DECIMAL POINTS DPt TOTAL 0 0.0 0.00 0.000 DPt ACCUM TOTAL 0 0.0 0.00 0.000 TO REPEAT BATCH RUN K-factor (scale factor) is the number of pulses per unit volume or unit mass eg: 20.465 pulses / litre, gallon, kg etc. RESET AUTOMATIC OVERRUN COMPENSATION A/COMP TO ABORT Y ~ N TO PAUSE SET MISSING PULSE TIME OUT T / OUT 00 ~ 99 seconds STOP SET COUNT DIRECTION COUNT DN ~ UP TO RESUME SET BATCH LIMIT XXXXXXXX START DELAY - RELAY 2 DELAY 000 ~ 999 seconds PRE STOP VALUE - RELAY 2 PRE 000 ~ 999 continued SET UNIT ID No. ID No. X RUN See clause 4.11 page 13. END Y ~ N B A T C H NO YES Exit program mode E N D 15 16 Additional I/O Solid state output logics 7.4 17 Current Sinking outputs ( NPN ) Current sinking derives its name from the fact that it “sinks current from a load”. When activated the current flows from the load into the no flow alarm & batch status outputs ( terminals 7 & 12 ). 7. ADDITIONAL I/O 7.1 Batch Status Output A solid state NPN 12Vdc output signal is switched on at terminal 12 when a batch is started, the signal remains on until the batch cycle is completely finished or the batch is stopped and aborted using the STOP & RESET keys. The output is used to notify other control equipment when Ecobatch is in operation or is paused (by pressing STOP) or inhibited through an input at terminal 9 (RUN inhibit), the signal remains on under all three conditions. The signal can also be used to inhibit (lock out) other equipment whilst the controller is in use. Driving a logic input The load (PLC, DCS, etc.) would normally have an internal pull up resistor on its input tying the load voltage to it’s internal voltage rail as shown. Driving a coil - - - - - - - Use the NPN style of output when diving a coil. The coil load is not to exceed 100mA & is obtained by dividing the coil voltage by coil impediance ( Ω ). Connect the coil to terminal 25 with a bridge across negatives 5 & 24 when Ecobatch is AC powered, in this mode the drive voltage is 12Vdc. When Ecobatch is DC powered connect a coil with appropriate voltage direct to terminal 6. logic input (load) No flow alarm + _ Batch status Run inhibit input Batch status coil drive 2 1 3 5 4 6 8 7 - + (clauses 7.4 NPN & 7.5 PNP) ( closed = inhibit RUN ) SPO no flow alarm REP repeater pulse Adjust 8~26Vdc Vdc in No flow alarm (missing pulse) 9 10 11 12 - + 7A 15 16 17 18 19 20 21 22 23 24 25 coil 1 2 3 4 5 6 7 8 Set jumper to NPN 9 10 11 12 26 27 28 29 30 31 L N N NC C NO NC C NO AC MAINS 15 16 17 18 19 20 21 22 23 24 25 Relay 1 Relay 2 26 27 28 29 30 31 NC C NO NC C NO L N N AC MAINS 7.2 Alarm Output An NPN/PNP selectable 12Vdc solid state output signal (terminal 7) is activated when the missing pulse detection feature detects a no flow condition (refer 4.9). NPN/PNP selection is to be in accordance with the connection options on the following page (17). Alternatively this output can be set as a pulse input flow repeater (ref. 7.4 & 7.5). NPN, PNP jumpers are located inside the EB, select for no flow alarm or repeater pulse output at 7A. 7B 0 0 0 NPN PNP Current sourcing gets its name from the fact that it “sources current to a load”. When activated the current flows from the output (7) into the load. The output voltage at terminal 25 is to be set to 12Vdc and the negatives at terminals 5 & 24 are to be bridged. The load would normally have an internal pull down resistor on its input as shown. 12Vdc no flow alarm or repeater pulse 1 2 3 4 5 6 - + 7 8 NPN, PNP jumpers are located inside the instrument, select for either no flow alarm or repeater pulse output at 7A. 9 10 11 12 Adjust 8~26Vdc SPO no flow alarm REP repeater pulse - + An example of this feature in practice is where a batch should not be allowed to RUN whilst a valve at another location is open. 7A 15 16 17 18 19 20 21 22 23 24 25 Relay 1 + Relay 2 26 27 28 29 30 31 When a contact is made across the Run inhibit input at terminal 9, a batch cannot be started and at the same time an “ENGAGED“ prompt will show on the LCD display. If the inhibit contact is made whilst a batch is running the batch will be paused. When the run function is inhibited it is still possible to enter a new batch quantity or review the accumulated totals but it will not allow the operator to RUN or re-start the batch until the inhibit input is released. NPN 7.5 Current Sourcing output ( PNP ) Vdc in 7.3 Run Inhibit Input The RUN inhibit feature enables Ecobatch to interlock with other devices within the system or process when Ecobatch is in use. Inner processor board NC C NO NC C NO L N N AC MAINS logic input (load) Set jumper to PNP _ 7B 0 0 0 NPN PNP Inner processor board PNP Connect to terminal 6 if the Ecobatch is DC powered 7.6 Control relays ( two SPDT 5 amp relays ) Relay 1 is Low Flow control, Relay 2 is for High Flow control & has programmable delay & prestop. 18 8. Networking (continued) Networking CONTROLLER NETWORKING Ecobatch has a unique networking feature which allows up to 9 individual batch controllers to be networked together with each being connected to one common flowmeter (see opposite). Typical applications are where one liquid is being dispensed to a number of individual outlets or a number of different liquids are to be batched via one common flowmeter. In either application each batch controller is wired to the same flowmeter but controls its own process control valve. Multi point batching Flowmeter Ecobatch 1 Ecobatch 2 EB network ECOBATCH Ecobatch 4 Ecobatch 3 EB EB ECOBATCH EB ECOBATCH ECOBATCH loop Networking takes place when any one controller is started, at this point the flowmeter input (count) is restricted to the controller in use, all other controllers will not count and their start function will be inhibited and an “ENGAGED” will scroll across the LCD display showing the ID number of the controller in use. V1 Batch entries can be made whilst individual batch controllers are inhibited (locked out) but they cannot be started until the controller in operation has completed its batch cycle. V2 Valve V3 Mix tank 2 Mix tank 1 V4 Mix tank 3 Mix tank 4 For the network feature to work the network DIP switches must be set as shown & each batch controller MUST be programmed with an individual ID number other than 0 (zero). Typical network installation & wiring ( network DIP switch 2 at terminals 1 & 2 to be on as shown ) Ecobatch 1 1 2 ON 3 4 5 6 7 8 9 10 11 12 ON Ecobatch 3 1 2 ON 1 2 3 1 2 3 3 4 5 6 7 8 Multi product batching 9 10 11 12 ON 1 2 3 1 2 3 15 16 17 18 19 20 21 22 23 24 25 Relay 1 Relay 2 26 27 28 29 30 31 Relay 1 Relay 2 26 27 28 29 30 31 L N N AC MAINS NC C NO NC C NO Product 2 Product 1 15 16 17 18 19 20 21 22 23 24 25 Product 3 Product 4 L N N AC MAINS NC C NO NC C NO Ecobatch 1 Ecobatch 2 EB ECOBATCH Ecobatch 4 Ecobatch 2 Ecobatch 3 EB network Ecobatch 4 EB ECOBATCH EB ECOBATCH ECOBATCH loop 1 ON 2 3 4 5 6 7 8 9 10 11 12 1 ON ON 2 3 4 5 6 7 8 9 10 11 12 ON V1 1 2 3 1 2 3 1 2 3 1 2 3 15 16 17 18 19 20 21 22 23 24 25 15 16 17 18 19 20 21 22 23 24 25 Relay 1 Relay 2 26 27 28 29 30 31 Relay 1 Relay 2 26 27 28 29 30 31 NC C NO NC C NO L N N AC MAINS NC C NO NC C NO L N N AC MAINS V2 Valves V3 Flowmeter V4 19 Reference information 20 Reference information 9. REFERENCE INFORMATION 9.1 Program detail Pencil your program details here 9.4 21 Terminal designation User selected PIN No. Engineering units Terminal K-factor (scale factor) K= Decimal for batch total 000. 00.0 0.00 .000 Decimal for Accum. total 000. 00.0 0.00 .000 Count direction count DOWN count UP seconds Start delay on relay 2 Pre-stop value on relay 2 Automatic overrun comp. AOC Missing pulse time-out yes no seconds Batch limit ( 0 = inhibit network function) Unit ID number ( 1~9 ) 9.2 Error messages: Ecobatch has a series of error messages which are scrolled across the LCD display when ever an error condition exists. NO POWER No power indicates that the instrument is on battery power only and needs to be supplied with an external power source in order to operate. NO INPUT No input (missing pulse detection) indicates that no pulses were received at the controller input within the time out period at any stage of the batch cycle. ( see clause 4.9 ) BATCH VALUE EXCEEDS BATCH LIMIT The new batch value will not be accepted because it exceeds the maximum batch limit value. ( see clause 4.10 ) PRE-STOP EXCEEDS BATCH VALUE The new batch value will not be accepted as it is less than the pre-stop value ( clause 4.7) WAIT This message will show if the RUN button is pressed whilst the controller is in the process of assessing the degree of overrun from the previous batch when AOC is enabled. 9.3 Back up PIN number ( see clause 4.1 ) Cut from manual for increased security Your back up 4 digit PIN number is 0502 To remember consider the model No. EB - “E” is the 5th & “B” the 2nd letter of the alphabet. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Function Network loop not used Flow input - pulse / coil Flow input - coil DC power input (0Vdc) DC power input (12~24Vdc) No flow alarm or pulse output 0Vdc (additional I/O common) Run inhibit input not used not used Batch status output not available not available Remote STOP Remote ACCUM. TOTAL Remote PROG. & SET Remote RUN Terminal 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 -- Function Remote switch common not used not used not used not used * Isolated DC out (0Vdc) * Isolated DC out (8~26Vdc) Relay 1 (normally closed) Relay 1 (common) Relay 1 (normally open) Relay 2 (normally closed) Relay 2 (common) Relay 2 (normally open) AC power input - live AC power input - neutral AC power input - neutral No earth terminal is provided * Available with only AC power input 22 23 9.5 R-C snubber Noise & Arc suppression High energy noise spikes are often generated whenever current is interrupted through an inductive load. These noise spikes could interfere with the instrument processor causing a corruption or erratic operation or may accelerate relay contact wear. In such cases commercially available R-C (resistor-capacitor) Snubber Inductive Load Suppressors (eg. Farnell order code.218-893) can be placed in circuit to correct this condition (see below). For maximum effect the R-C is best placed across the load. Relay contact AC or DC power Inductive load R-C snubber Preferred application Relay contact Inductive load AC or DC power R-C snubber Alternate application Notes 24 Index Notes 10. A AC power selection & wiring. 6, 10 Accumulative total Additional Inputs / outputs 5 16 16 Alarm output Automatic Overrun Comp. B Batch RUN Batch SET 5 5 Batch total 5 Batch limit 13 Batch operating procedure 15 Batch status 16 Back up PIN number 19 Controller networking Count direction D DC power End of batch (batch status) F 7 Model number designation Missing pulse detection N Networking O Operation Overrun compensation Overview P R 8 3, 12 11, 16 20 External DC powering 10 Flow alarm output 16 8, 9 H Hardware configuration I ID numbering 13 Inhibit input 16 Panel mounting S 2 13 18, 19 5 13 4 7 6 12 12, 13 Program detail record 20 Programming flow chart 14 Relay control logic Remote operating keys Resetting totals 11 10 12 Run inhibit input 16 Scale factor (K-factor) Start delay W 4 12 Specifications 6 12, 14 Power / relay board Pre-stop Single stage control T 5 PIN number protection Programming 12 Error messages Flowmeter connections M 18, 19 12 DIP switch functions Engineering units LCD display 3, 7, 10 13 Decimal points E L 4 3, Keypad functions K-factor (scale factor) 5 Batch STOP Control relays Controller ID number K 13 Battery C 25 ALPHABETICAL INDEX 12, 14 10 3 12 Total Number of Batches 5 Two stage control 11 Terminal designation 21 Wiring connections Wiring requirements 10, 11 10