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Table of contents for the manual
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Page 1
WATLOW ANAFAZE SYST EM 32 HARDWARE Installation And Operation Manua Revision 5 December 21, 1988 Watlow Anafaze 344 Westridge DR Watsonville, CA 95076 Phone: 831-724-3800 Fax: 831-724-0320 Copy right (c) 1987-1988. All RI GHTS RESERVED: No part of this publication may be repr oduced, stored in a re trieval sy stem or tra nsmitted in any form by any[...]
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STATEMENT OF WARRANTY ANAFAZE, Incorporated warrants that the Products furnished under this Agree ment will be free f rom material def ects in material a nd workmanship for a period of 90 day s from the date of shipment. The customer shall provide notice to ANAFAZE, I ncorporated of any such defect within one week after the Customer' s discove[...]
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WARNING ANAFAZE HAS MADE EFFORTS TO ENS URE THE RE LIABILIT Y AND SAFETY OF THE SYSTEM 32 AND PROVIDE RECOMMENDATIONS FOR ITS SAF E USE IN SYSTE MS APPLICATIONS. PLEASE NOTE THAT IN ANY APPLICATION, FAILURES CAN OCCUR TH AT WILL RESULT IN FULL CONTROL OUT PUTS OR OTHE R OUTPUTS THAT MAY CAUSE DAMAGE OR UNSAFE CONDIT IONS IN THE EQUIPMENT OR PROCESS[...]
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TABLE OF C ONTENTS 1.0 INTRODUCTION _____________________________________________ 1 1.1 SYSTEM FEATURES _________________________________________1 1.2 PLUG IN SYSTEM 32 MODULES_______________________________ 2 1.3 ANASOFT 32 - - PO WERFUL OP ERATING SOFTWARE __________ 4 2.0 SPECIF ICATIONS ____________________________________________ 6 2.1 ANALOG [...]
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7.0 DETAILED MODULE DESCRIPTIONS ________________________ 38 7.1 PROCESSOR I/O MODULE -- A32-PIOM _______________________ 38 7.2 REED RELAY ANALOG INPUT MO DULE -- A32-RRAIM ________ 39 7.3 SOLID STATE ANALOG INPUT MO DULE -- A32-SSAIM ________ 41 7.4 ANALOG OUTPUT MODULE - - A32-AOM _____________________ 41 7.5 PULSE INPUT MODULE -- A32-PIM ______[...]
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1 1.0 INTRODUCTION The ANAFAZE SYSTEM 32 is the key element used to form an innovative measurement and control system. I t combines it s power with an IB M P C or similar c omputer to deliver a n extremely efficie nt data acquisition and pr ocess control sy stem. The SYSTEM 32 concentrates it s power in analog measurement, independent digital loop [...]
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2 1.1.3 PROCESS INTEG RITY: The ANAFAZE approach delivers hig h integrity because the SYSTEM 32 independently control s and checks each loop for alarms while it is in turn checked by the computer. Thus a computer failure will not affec t the process and a c ontroller problem will be detected by the computer. F urther integ rity is built in to the S[...]
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3 Configurations can start with only the PR OCESSOR I/O MODUL E to provide 32 time proportioning or on/off open loop control outputs. For closed loop control, simply add an ANALOG I NPUT MODULE, either reed relay for 16 inputs, or solid state for 32 inputs. A plug in ANAL OG OUTPUT MODULE provides 16 analog control outputs. Sy stems can be matched [...]
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4 1.2.2 ANALOG INPU T MODULES: Two optically -isolated analog input modules are available for the SYSTEM 32. A 16 channel reed relay switching module and a 32 channel solid state switching module. The reed relay module provides the highest level of input noise protection and the solid state module is more economical. The two ty pes of input modules[...]
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5 line, real-time data for each input can be graphically plotted on the screen. Data is continuously stored for every input to provide a history over user selected time intervals. These on line plots e nable quick analy sis of process conditions for optimizing performance, tuning control loops, determining reasons for alarms, and other situations. [...]
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6 2.0 SPECIF ICATIONS 2.1 ANALOG INPU TS Number of cha nnels: 32 for PI D control, 48 total with reed multiplexer, 96 total with solid state. Multiplexing: three wire reed relay , guarded inputs. two wire solid state. A/D converter: integrating voltag e to frequency . Loop update: each loop 2 times per second, reed modules; 1 time per second solid [...]
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7 2.2 OPERATING P ARAMETERS I ndependently set for each loop through serial interface. I nput ty pe: any standard type (see above), any mix . Gain: 0 to 255 proportional; 0 to 510 on/off. Proportional Band: Direct reading in eng ineering units of the loop range. I ntegral: 0 to 1020 seconds. Reset: .05 to 60 Repeats/Min. [4 sec. resolution]. Deriva[...]
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8 2.5 CONTROL AND ALARM OUTPUTS 32 I ndividually selectable control outputs: Digital Outputs: Time proportioning, On/Off, Alarms: voltage output: 5VDC at 6ma maximum for solid state or other relay s. Analog: voltage or current: selectable (4 to 20ma, or 0 to 5 volts). 2.6 DIGITAL INPU T OR OUTPUT 24 DigitalOutputs: TTL L evel: true= < 0.4v @ 6ma[...]
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9 2.9 SUBASSEMBLY IDENTIFICATION A32-PIOM: PROCESSOR I/O MODULE includes factory selectable communication interface [RS-232 or current loop], 32 control outputs, 24 digital outputs, and 16 digital inputs. A32-RRAIM: REED RELAY ANAL OG I NPUT MODULE for 16 mix ed sensor inputs including direct connection of thermocouples [J, K, or T] or millivolt [ [...]
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10 3.0 INSTALLATION There are some precautions that must be observed when installing SYSTEM 32: WARNING: ELECTRICAL SHOCK DANG ER It is very im portant that all system power including the power input be disconnected before servicing the ANAFAZE SYSTEM 32. HIG H VOLTAGE MAY BE PRESENT EVEN WHEN POWER IS TURNED OFF. To reduce the danger of electrical[...]
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11 6 SLOT HOUSING DIMENSIONS[...]
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12 3 SLOT HOUSING DIMENSIONS[...]
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13 POWER SUPPLY DIMENSIONS[...]
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14 3.1.3 DETACHABLE TERMINAL BLOCKS WARNING - ALWAYS CHECK TERMINAL LO CATION AND ORIENTATION All connections, except the Ac power supply , are made on removable terminal strips. Terminal strip removal is achieved by removing the retaining screws and pulling them directly away from the front panel. The terminal strips must be c arefully installed i[...]
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15 3.2.2 COMMUNICATIONS WATCHDOG TIMER The communications timer provides a method of turning off all control outputs if there i s a problem in th e host computer that effect s communication. I t operates by monitoring activity on the communication line. If this contr oller has not be en contacted within the time interval, it automatica lly sets all[...]
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16 1. All control output ty pes are set to MANUAL 2. All output values for control outputs are set to 0%. 3. Digital output 72 is set ON. This output is available at TB2, pin 30. 4. The internal c ontroller reset f lag is set TRUE. (Hence the host will receive a RESET status code upon re-establishing communication). 3.2.3 BAUD RATE SELECTION Switch[...]
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17 3.3.2 POWER F USE The SYSTEM 32 power supply is not fused. An external 1/2 AMP fuse in the AC input line is recommended. 4.0 COMMUNICATIONS SET-UP AND CONNECTIONS The ANAFAZE SYSTEM 32 is designed for three ty pes of serial communications: RS-232, RS-485, and 20ma current loop. Up to 16 units can be connected on one communication line . 4.1 RS-2[...]
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Page 23
18 4.1.1 Other RS-232 Lines Some host computers or other RS-232 devices use additional communication lines that are not required by the SYSTEM 32. These include: RTS - Ready to Send DSR - Data Set Ready CTS - Clear To Send DTR - Data Terminal Ready I f the host computer uses RTS and CTS or DSR and DTR, these lines should be connected together in pa[...]
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Page 24
19 Multiple SYSTEM 32 units are connected in series. R+ is connected to the first unit TX+ and TX- from the first unit is connec ted to TX+ of the next unit. These serial connections are continued until the last unit is reached. The last unit TX- is connected to the com puter R-. T+ is connected t o the fi rst unit RX+ and the RX- i s connected to [...]
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Page 25
20 Distance Wire Gauge Recomm ended Cable 1500 ft. 28 AWG Alpha 3492 4000 ft. 24 AWG Beldon 9729 6000 ft. 22 AWG Beldon 9184 The use of a shield depends on the noise environment and grounding considerations [4.3.3]. The above cables are shielded. 4.3.3 Connections Connection of the Anafaze controllers to a sy stem computer requi res an interface at[...]
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Page 26
21 ANAFAZE SYSTEM 32 connections for a sing le unit are as follows: Black Box COMPUTER L D485A SYSTEM 32 +485 Output (Start bit +5v) TXA RX+ #3 -485 Output (Start bit 0v) TXB RX- #4 +485 I nput RXA TX+ #1 -485 I nput RXB TX- #2 Shield-------Earth Ground---------Shield Do not Ground Note: Connect the shields to earth gr ound only at the computer or [...]
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22 5.0 ANALOG INPU TS Connecting analog sig nals to the ANAFAZE SYSTEM 32 is normally straightforward. Most signals, including thermocouples can be directly connected and mixed in any order. However, some problems may occur that could reduce accuracy and possibly damag e the unit. Sections 5.1 through 5.4 indicate some of the potential areas for co[...]
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23 5.5 ANALOG INPU T MODULES Two ty pes of analog input modules are available for the SYSTEM 32. The A32- RRIAM -- REED REL AY ANALOG I NPUT MODULE provides 16 analog inputs with reed relay switching. The A32-SSAIM -- SOL ID STATE ANAL OG I NPUT MODULE provides 32 inputs with solid state switching. The A32- SSAI M also provides 32 digital outputs f[...]
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Page 29
24 capacitors can be installed for signal conditioning. Please consult ANAFAZE. The PC board silk screen shows the resistor locations. 5.6.2 USE OF THE SHIELD CONNECTION The shield connection provides a third input which is switched as each channel is measured. I t is the ground reference for the measurement section. By switching this reference wit[...]
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Page 30
25 5.6.4 DC CURRENT INPUTS Current inputs from transmitters are accommodated by placing resistors in the input section to convert the current input into a voltage . Different current input ranges are accommodated by selecting the proper resistor values. I n general RC is sele cted to maintain a low sour ce resistance. RA and RC produce the input fu[...]
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Page 31
26 5.6.7 INFRARED NON-CONTACT TEMP ERATURE SENSORS The ANAFAZE I RSM infrared sensing module is ideally suited for many infrared non-contact temperature applications. I t can be supplied by ANAFAZE as a fully integrated sy stem with the SYSTEM 32 configured to provide power for up to four I R SM sensing modules and for direct connection of the I RS[...]
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Page 32
27 5.8 SCALING AND CALIBRATION Since a computer is used to display the reading and load the setpoints, a mathematical step can be used to convert measurements and setpoints to engineering units and correct for known sensor calibration errors. For example, the ANAFAZE SYSTEM 32 does all thermocouple calculations in degrees F since this provides almo[...]
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28 5.9 DIAGRAMS OF TYP ICAL INPUTS SEE SECTI ON 5.6 FOR DETAI LED I NFORMATION. Typical Thermocouple AUX O HIGH O-- + White ------------------------- Ty pe J T/C LOW O-- - Red ---------------------------- SHL D O Shielded Ther mocouple : To use shield remove jumper RD. Shield should be grounded at probe [see 5.6.2]. AUX O --------------------- HIGH[...]
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29 5.10 ANALOG INPU T CONNECTIONS 5.10.1 A32-RRAIM Analog Input Connections Terminal 1 [Upper] | Terminal 2 [Lower] | Pin Channel Assignment | Pin Channel Assignment | 1 REF GND | 1 + REF 2 REF GND | 2 + REF ------------------------------| ----------------------------- 3 LO | 3 LO 4 1 AUX | 4 9 AUX 5 HI | 5 HI 6 SHLD | 6 SHLD ----------------------[...]
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30 5.10.2 A32-SSAIM Analog Input Connections UPPER TERMINAL BLOCK Pin Channel Assignment | Pin Channel Assignment 1 1 HI | 2 17 HI 3 LO | 4 LO 5 2 HI | 6 18 HI 7 LO | 8 LO 9 3 HI | 10 19 HI 11 LO | 12 LO 13 4 HI | 14 20 HI 15 LO | 16 LO 17 5 HI | 18 21 HI 19 LO | 20 LO 21 6 HI | 22 22 HI 23 LO | 24 LO 25 7 HI | 26 23 HI 27 LO | 28 LO 29 8 HI | 30 2[...]
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Page 36
31 6.0 CONTROL OUTPUTS Control outputs are provided from the A32-PI OM -- P ROCESSOR I/O MODULE for digital outputs and the A32-AOM -- ANAL OG OUTPUT MODULE for analog outputs. The A32-AOM is not required for sy stems that do not need analog outputs. The A32-PI OM provides the digital control outputs, the serial communication, and miscellaneous dig[...]
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32 Alarm outputs are also used t o activate SS R's when possible. The connections are essentially the same. Lower Terminal B lock TB2 SSR 1 SSR 2 |--------| |--------| Pin | - + | | - + | |--|--|--| |--|--|--| Low Dev. Out 1 5 O--------------| | | | | | | High Dev. Out 2 6 O-----------------|------------| | | | +5V 11 O-----------------o------[...]
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33 |--------| + 5vdc 31 O-------------------O + | | | Ready 33 O-------------------O - | | SSR | |--------| 6.1.2 OUTPUTS ENABLE: A32-P IOM ONLY The control outputs from the PI OM [TPV, ON-OFF, and DZC] for all 32 Loops are off, when Outputs ON Pin #35 of TB2 is TTL high or open. Also, the outputs are off, whenever the m icroprocessor is not ready.[...]
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34 6.2 PROCESSOR I/O [A32-P IOM] PID OUTPUT CONNECTIONS 6.2.1 SCREW TERMINAL CONNECTIONS Pin # TB1 [UPPER BLOCK] TB2 [LOWER BLOCK] 1 Tx+ COMP UTER COMMUNICATION PID OUT LOOP 25 2 Tx- SEE SECTION 4 PID OUT LOOP 26 3 Rx+ COMPUTER COM MUNICATION PID OUT LOOP 27 4 Rx- SEE SECTION 4 PID OUT LOOP 28 5 PID OUT LOOP 1 SEE SECTION PID OUT LOOP 29 6 PID OUT [...]
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Page 40
35 6.2.2 A32-PIOM OUTP UTS 50 PIN FLAT RIBBON CABLE CONNECTIONS IN # J1 [TOP] J2 [MIDDLE] J3 [BOTTOM] 1 PID OUT LOOP 1 DIGI T AL OUT 33 PID OUT LOOP 25 2 LOGIC GND LOGIC GND LOGI C GND 3 PID OUT LOOP 2 DIGI T AL OUT 34 PID OUT LOOP 26 4 LOGIC GND LOGIC GND LOGI C GND 5 PID OUT LOOP 3 DIGI T AL OUT 35 PID OUT LOOP 27 6 LOGIC GND LOGIC GND LOGI C GND[...]
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Page 41
36 6.3 ANALOG OUTPUT MODULE A32-AOM Analog control outputs are provided for the SYSTEM 32 by using the A32-AOM. Each module provides 16 analog outputs and up to two modules can be used in a single SYSTEM 32 for 32 control outputs. The AOM provides both 4 to 20ma with 400 ohms maximum load and 0- 5vdc at 5ma maximum. Both are available a t the outpu[...]
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37 6.3.2 A32-AOM ANALOG OUTPUT MODULE CONNECTIONS Note the outputs are designated as follows: L OOP #C Positive terminal for 4-20ma dc output. LOOP #V Positive terminal for 0-5vdc output. NEG Negative terminals for both outputs. TER MINAL BL OCK 1 [UPPER ] TER MINAL BL OCK 2 [LOWER ] PIN CO NNECTION PIN CO NNECTION 1N E G 1N E G 2 NC 2 PID LOOP 9C [...]
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38 7.0 DETAILED MODULE DESCRIPTIONS 7.1 PROCESSOR I/O MODULE -- A32-P IOM The PIOM is the main processor for the SYS TEM 32 and is required i n each sy stem. The only PIOM option available for standard sy stems is the type of communications i nterface. The PI OM has two microprocessors, an 8031 and 8088. These microprocessors perform all the SYSTEM[...]
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Page 44
39 Direct [Cool]. The outputs are 5vdc at 16ma max imum and are normally used to switch optica lly -isolated solid-state relay s (SSR's). The alarm and status outputs include a global high and low deviation and a watchdog timer which are set by the SYSTEM 32. If ANASOFT-32 is used in the sy stem computer, a global high and low process alarm ou[...]
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40 7.2.1 Automatic Calibration The RRAI M includes two additional inputs: a full scale and a z ero signal that are used by the PI OM for automatic full scale and z ero calibration. The zero input is read on one scan to calibrate the analog amplifier zero, on the next scan the full scale input is read to calibrate the amplifier gain. The next two sc[...]
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Page 46
41 7.2.7 Open Thermocouple Detection The RRI AM has upscale open thermocouple detection which is accomplished by placing a small current through the thermocouple leads. The input source impedance may go as high as 200 ohms before rated accuracy is effected. 7.2.8 Address Selection Each RRI AM has a jumper for address selecti on of the RRIAM in the [...]
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42 Each AOM has an address Dip switch for address selection of the AOM in the 32 Sy stem. Up to two AOM's may be used in each SYSTEM 32. 7.5 PULSE INP UT MODULE -- A32-PIM The PI M counts up to 32 pulse inputs at maximum pulse rates of 1kHz with 50% duty cy cle pulses. The A32-PIM can only be used in sy stems with an expanded PROCESS OR I/O MO[...]
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43 The OPERATOR STATI ON requires ANASOFT-32 to be running in the sy stem computer. I t obtains its readings and changes the setpoints throug h the computer. The OPERATOR STATI ON can select any PIOM and any loop in the system for display and change s. The SP may be viewed for any loop in the system and may , if elected by the customer, be cha nged[...]
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Page 49
44 8.0 PID CONTROL This section provides some common definitions of control terms and information on control loop tuning. 8.1 CONTROL LOOPS A control loop may consist of four or five elements depending upon the placement of the functions of some elements. These elements are defined as follows: PRI MARY ELEMENT: This senses the PROCESS VARI ABLE (PV[...]
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Page 50
45 not be confused with with the ty pe of control output signal: for example pulsed DC voltage or analog output. 8.1.3 ON/OFF CONTROL The simplest way to control the PROCESS VARI ABL E (PV), for example temperature on an oven, to a desired SETPOI NT (SP), operating temperature , is to use ON/OFF contr ol. When the temperature is below the setpoint [...]
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Page 51
46 Kp is the proportional gain, and FSR/Kp is referred to as the proportional band PB . The g ain can be set from 0 to 255 for the SYSTEM 32. Note that when gain is specified in the control equation the output would be different for the same error if a different full scale is used. I f PB is used the FSR cancels out and the PB is independent of the[...]
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Page 52
47 For tempe rature contro l, the most useful and ea siest to use entry is the PB in actual degr ees for the SYSTEM 32. The nominal setting of the PB can be between 5-20% of the SP. Thus, a SP of 300 o F may require a PB of 15-60 o F. To start use 10% of the SP. A good way of establishing a PB setting is to start at a wide PB and then to keep decre[...]
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Page 53
48 Another way of viewing the reset action is to look at the integr al term in the control equation of section 8.1.4. The control output due to this term is the error integra ted over time. Thus a small offset ove r a long per iod of time will incre ase the inte gral sum and c onsequently the control output until the PV is equal to the SP. At this [...]
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Page 54
49 RATE is also used to correct for rapid l oad changes, to slow large capacity processes, and to overcome the slew rates of electric motor actuators. The RATE function responds to the change in the error as a function of time. Mathematically it is the first de rivative of the e rror as a func tion of time [see equation in section 8.1.4]. Thus if t[...]
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Page 55
50 Heating applications normally uses REVERSE ACTION and cooling applications norma lly will use DIRECT ACTI ON. The selection may also be dependent upon the application of two competing mediums of energ y such as in a HEAT/COOL or TEMPERATURE/HUMI DITY applications. 8.1.14 HEAT/COOL DUAL OUTPUTS Certain processes such as plastic molding, plastic e[...]
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Page 56
51 Time proportioning control is a method of using a digital output and an on/off device such as a relay to essentially achieve an analog control signal. When the controller calculates the required control signal, it converts the percent output into a percent duty cy cle and outputs this to the process through the relay . The process itself integra[...]
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Page 57
52 8.1.11 DISTRIBUTED ZERO CROSSING Distributed Zero Crossing [DZC] output is the other time proportioning output available from the SYSTEM 32. This output is primarily for very fast acting electrical heating loads using SSR's. The open air heater coil is an example of a fast acting load. I t should never be used with electro- mechanical relay[...]
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Page 58
53 and the full scale adjusted t o match the ex pected PV range. The graphics of the Plot will show the effe ct of the PI D tuning in rea l time. The understanding of PI D functions would be useful in tuning loops, but not essential to a successful application of PI D constants to a control loop. 8.2.1 INITIAL VALUES FOR P ID LOOPS The following va[...]
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Page 59
54 range of the process control span. If the process elements are not correctly sized then it will be diff icult and even impossible to tune the controller . 8.2.2 TUNING PID LOOP S 1. Fir st set PB to 2% of the desired SP, Rese t to .2 R/M, Rate to 0, Filter to 0. Set control in AUTO. Set the plot function for the proper range to record the PV ove[...]
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55 8.2.3 OUTPUT F ILTER There is no tuning step for the Output Filter. Adjusting the PI D without the Filter g ives the most accurate response of the control function of the PID modes. The Output Filter may be turn on any time so desired. The number is increased as necessary to reduce cycling of the control output si gnal, thus reducing the c y cli[...]
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Page 61
56 car speed started to slowly increase. She slowly backed off the pressure t o the gas pedal, try ing to maintain the 30 mph. This is known as reset, as she was resetting the eng ine spee d to maintain 30 mph with cha nging load c onditions. This is the RESET FUNCTION. The little ole lady now was very close to home and had turned off the highway s[...]
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Page 62
57 9.0 SOFTWARE ANAFAZE offers turn key software for IB M PC and compatible computers. The present software includes: ANASOFT-32 Measurement and Control ANASOFT-32-RS Measurement and Control with Ramp and S oak ANASOFT-32-CP Measurement and Control with Carbon Potential 9.1 ANASOFT-32 ANASOFT-32 is a menu driven program that operates up to 3 ANAFAZ[...]
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Page 63
58 the profile is selected the stored ramp and soak recipe for each loop is automatica lly setup. Accurate Recipe T racking : The ramp and soak software provides special alarms and warning s in addition to the standard features of ANASOFT. Tolerance levels are used for guaranteed soak, process warnings, and process alarms. Guaranteed Soak: An indep[...]
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Page 64
59 implement y our entire turn key hardware and software sy stem. Please contact y our local representative or ANAFAZE directly for a quotation. 10.0 SOFTWARE COMMAND STRUCTURE The SYSTEM 32 will respond to commands according to the following format. The commands generally follow the specifications of ANSI X3.28-1976. The structure is outlined be l[...]
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Page 65
60 10.4.1 Processor Reset This Error Code is ret urned after : Power-up reset The watchdog timer resets the Master processor The Master processor resets the S lave processor 10.4.2 Comm and Error This Error Code is re turned when the A32PI D receives a command that is not a Block Read or a Block Write. 10.4.3 Data Boundary Error This Er[...]
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Page 66
61 10.6. Input Types The following one by te codes designate the various input ty pes accepted by the SYSTEM 32: Code Input Type ------------ --------------- 00 Linear (0-60 mV) 01 J Thermocouple 02 K Thermocouple 03 T Thermocouple 04 [ Spare ] 05 [ Spare ] 06 RTD 07 Frequency (Pulse Counter) 10.7. Output Types Output ty pe codes are one by te hexa[...]
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Page 67
62 The following examples show the output code for specific output ty pes: Output Configuration ............................................................................ Hex Code DZC Digital Output, Automatic control ............................................................... 00 Time Proportioned Digital Output, Automatic control ...........[...]
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63 11.0 TROUBLE SHOOTING INFORM ATION These four items must wor k together to ope rate the SYSTEM 32: The SYSTEM 32 The computer including the RS-232 or other serial interface The communications link The computer software I f the sy stem does not work on initial start up c heck the SYSTEM 32 indicator lights, the computer, and the serial link. 11.1[...]
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Page 69
64 the Edit or Run mode. Select the Run mode. If the SYSTEM 32 does not answer, a communica tions error messa ge will appea r on the display [see 11.3 and 11.4]. 11.3 Comm unications Problem s I f the computer is functioning properly [ section 11.1] then the communication interface, cables and connections must be checked. A number of problems have [...]
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65 I f the green light is on, then the orang e light light is a communications indicator. The ora nge light will a ppear whenever the PI OM has decoded a communication containing the address of the PI OM as set in the DIP switch. Thus the conditions for establishing the orange light in the presence of the green light are: 1) PI OM working. 2) Host [...]
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Page 71
66 Verify that y ou are using the COM 1 serial port on your computer. Anasoft assumes this to be the a ctive communications por t. Verify the wiring connections between y our computer and the Anafaze controller. For RS-232, only three wires are (Rx, Tx and Gnd) are necessary to communicate with the controller. Check the hardware communicati ons opt[...]