3216i, 32h8i, 3204i User Manual 3200i Range Process Indicators and Alarm Units HA029006/5 Sept 2012
© 2012 Eurotherm Limited All rights are strictly reserved. No part of this document may be reproduced, modified, or transmitted in any form by any means, nor may it be stored in a retrieval system other than for the purpose to act as an aid in operating the equipment to which the document relates, without the prior, written permission of Eurotherm Limited. ------------Eurotherm Limited pursues a policy of continuous development and product improvement.
200i Series Indicators 3200i Series Process Indicators and Alarm Units User Manual Part Number HA029006 Issue 5 Sept-12 Includes 3216i, 32h8i and 3204i Indicators. Issue 5 of this manual applies to software version 1.03. Contents Contents 1. Installation and Basic Operation ...................................................................................................5 1.1 1.2 1.3 1.4 Unpacking Your Indicator ..........................................................................................
3200i Series Indicators 6. Access to Further Parameters ..................................................................................................... 25 6.1 6.2 Level 3 ............................................................................................................................................................ 25 Configuration Level ...................................................................................................................................... 25 6.2.
3200i Series Indicators 13. Calibration .....................................................................................................................................57 13.1 To Check Input Calibration......................................................................................................................57 13.1.1 13.1.2 13.1.3 13.1.4 Precautions ..........................................................................................................................................
3200i Series Indicators Issue Status of this Manual Issue 2 applies to software version 1.03 and contains the following changes:Load cell and shunt calibration explained in more detail. Separate ‘Set 2’ codes for 32h8i/3204i and 3216i for clarity Add note on sensor break for transducers Add note on FM and DIN3440 indicators. Add calibration check in addition to re-calibration. Add configuration by iTools Wizard Add Pre-Alarm setpoint parameters Issue 3 contains the following changes: Section 8.3.4.
3200i Series Indicators 1. Installation and Basic Operation 1.2 Thank you for choosing this 3200i series Process Indicator.
3200iSeries Indicators 1.4 Step 1: Installation This indicator is intended for permanent installation, for indoor use only, and enclosed in an electrical panel 1.4.3 Recommended Minimum Spacing of Indicators. Applies to all Model sizes Select a location which is subject to minimum vibrations, the ambient temperature is within 0 and o o 55 C (32 - 131 F) and humidity 5 to 95% RH non condensing. 10mm (0.
3200iSeries Indicators 1.5 1 Ordering Code (Hardware) 2 3 4 5 6 7 8 9 10 11 12 13 14 Quick Start Code (see section 4) 1. Model No. 5. AA Relay (OP4) 10. Input Adaptor 3216i 1/16 DIN size X Disabled XX None 32h8i 1/8 DIN size Horizontal R Relay (Form C) V1 0-10Vdc 3204i 1/4 DIN size A1 mA Burden Resistor (2.49Ω, 0.1%) 6. Options 3216i, 32h8i and 3204i 2. Function XXX None AL Standard Unit XXL Digital input A 11.
3200iSeries Indicators 2. Step 2: Wiring Key to Symbols used in the wiring diagrams Logic (SSR drive) output 2.1 ! Relay output Contact input mA analogue output Terminal Layout 32h8i Indicator Ensure that you have the correct supply for your indicator.
3200iSeries Indicators 2.2 ! Terminal Layout 3216i Indicator Ensure that you have the correct supply for your indicator. Check order code of the indicator supplied. Digital input A + + Input/Output 1 - + Output 2 - Line Supply 100 to 230Vac +15% 48 to 62 Hz 1A CT AA 1B C AB 2A LA AC 2B COM HD VI L A(+) HE V+ B(-) N Low Voltage Supply 24Vac/dc 2.3 ! + + + 24 24 + 100KΩ 2.
3200iSeries Indicators 2.4 Wire Sizes 2.6 The screw terminals accept wire sizes from 0.5 to 1.5 mm (16 to 22AWG). Hinged covers prevent hands or metal making accidental contact with live wires. The rear terminal screws should be tightened to 0.4Nm (3.5lb in). 2.5 Outputs - 1/8 and 1/4 DIN Indicators 32h8i and 3204i indicators are supplied as standard with two changeover relay outputs as follows:-. 2.6.
3200iSeries Indicators 2.6.4 Digital Inputs A and B Digital input A is not available in 32h8i/SG and optionally available on 3216i Dig In A 2.8 This shows 32h8i/SG connections for a strain gauge bridge. Dig In B LA LB C LC • Not isolated from the sensor input • Switching: 12Vdc at 40mA max • Contact open > 500Ω. Contact closed < 200Ω • Input functions: Please refer to the list in the quick codes. Example Wiring Diagram N L Fuse N L Signal 2.6.
3200iSeries Indicators 2.9 Digital Communications (Optional) 2.10 Additional Connections for 3216i Digital communications uses the Modbus protocol. The interface may be ordered as EIA232 or EIA485 (2-wire). Connections for the 3216i indicator are similar to the 3216 indicator. • 2.10.1 Input/Output 1 & Output 2 Isolated 300Vac CATII. I/O1 may be configured as input or output. EIA 232 Connections Outputs can be logic (SSR drive), or relay, or mA dc. Input is contact closure.
3200iSeries Indicators 3. Safety and EMC Information This indicator is intended for industrial temperature and process applications when it will meet the requirements of the European Directives on Safety and EMC. Use in other applications, or failure to observe the installation instructions of this handbook may impair safety or EMC. The installer must ensure the safety and EMC of any particular installation.
3200iSeries Indicators Voltage rating The maximum continuous voltage applied between any of the following terminals must not exceed 230Vac: • relay output to logic, dc or sensor connections; • any connection to ground. The indicator must not be wired to a three phase supply with an unearthed star connection. Under fault conditions such a supply could rise above 240Vac with respect to ground and the product would not be safe.
3200iSeries Indicators 4. Switch On 4.1 New Indicator If the indicator is new and has not previously been configured, or following a ‘Cold Start’ (section 6.5), it will start up showing the ‘Quick Configuration’ codes. This is a built in tool which enables you to configure the input type and range, the output functions and the display format. V W 2. Press or to change the flashing character to the required code shown in the quick code tables –see next page.
3200iSeries Indicators SET 2 - 32h8i & 3204i H 3 LW V OP1 X OP3 Unconfigured X OP4 (AA Relay) Unconfigured X Unconfigured Relay or Logic Output Analogue Output Alarm 1 PV Retransmission Alarm 4 H 1 H High alarm 4-20mA Low alarm 2 0-20mA L Low alarm R Rate-of change - Rising 3 0-5Vdc R Rate-of changeRising O P New alarm flag Sensor break Power fail 4 1-5Vdc 5 0-10Vdc 6 2-10Vdc 32h8i only 7 High alarm 8 Low alarm 9 Rate-of change A High alarm B Low alarm C R
3200iSeries Indicators 4.1.1 To Re-Enter Quick Code Mode If you need to re-enter the ‘Quick Configuration’ mode this can always be done as follows:1. Power down the indicator 2. Hold button down and power up the indicator again. Keep the button pressed until you are requested to enter a passcode. 3. V W or buttons. Enter a passcode using the In a new indicator the passcode defaults to 4. If an incorrect passcode is entered you must repeat the whole procedure. 4.
3200iSeries Indicators 4.3.1 Alarm Indication Up to four alarms can be configured. If any alarm occurs, the red ALM beacon will flash. A scrolling text message will describe the source of the alarm, for example ALARM 1 H IG H . Any output attached to the alarm will operate. Press alarm and (Ack) together to acknowledge the If the alarm is still present the ALM beacon will light continuously. By default alarms are configured as non-latching, deenergised in alarm.
3200iSeries Indicators 4.4.1 Tare Correction 5. Tare correction is used, for example, when it is required to weigh the contents of a container but not the container itself. The procedure is to place the empty container on the weigh bridge and ‘zero’ the indicator. Since it is likely that following containers will have different tare weights the tare function is available in operator level 1. 1. With the empty container placed on the weigh cell, press 2. 3. 4.
3200iSeries Indicators 5.2 Level 2 Parameters As in Level 1, press to step through the list of parameters. The mnemonic of the parameter is shown in the message centre. After five seconds a scrolling text description of the parameter appears. The value of the parameter is shown in the upper display. Press V or W Backscroll is achieved when you are in this list by pressing V while holding down . To return to the HOME display at any time, press .
3200iSeries Indicators Mnemonic Scrolling Display and description UNITS DISPLAY UNITS The display units are shown in the top right hand corner of the display in normal operation. Units available are:O O O O C F C F none mpa mbar mmwg torr p.rh P.CP ma ppm SEC PH mG No units displayed Mpascals * milli Bar * mm water gauge * Torr * % Relative humidity * % carbon potential* milli amps * Parts per million * Seconds * Ph * milli grams * Range Perc kpa psi inwg L-H p.O 2 VoLt mV rpm min P.
3200iSeries Indicators 5.3 Strain Gauge Calibration The 32h8i/SG indicator is designed to operate with symmetrical bridge type strain gauges, nominally 350Ω in each arm. It is generally necessary to calibrate the instrument to the transducer in use. This can be done in Operator Level 2 or 3 using any one of three methods. These are:CELL. Here a load cell is connected directly to the input terminals marked Signal + and – (section 5.3.1). COMPARISON.
3200iSeries Indicators 5.3.3 Shunt Calibration 5.3.4 Manual Calibration A bridge type strain gauge is connected as shown. Depending on the type of gauge, RCAL may be included internally or supplied as a separate item. 1. Remove all pressure from the transducer to establish a zero reference 2. In operator level 2, press shown in the lower display. 3. Press or to set the point at which the high calibration is to be done. This is typically 80% of the transducer span 4.
3200iSeries Indicators 5.4 5.5 Recipes It is possible to store operating values in up to five different recipes by taking a snapshot of the current settings and storing these in a recipe number. Examples, of typical operating parameters may be alarm setpoint values. A particular recipe number may then be recalled for a particular process. 5.4.1 To Store Values in a Recipe 1. 2. to select In the list of parameters, press store Select a recipe number from 1 to 5 in which to store the current settings.
3200iSeries Indicators 6. Access to Further Parameters Parameters are available under different levels of security and are defined as Level 1 (Lev1), Level 2 (Lev2), Level 3 (Lev 3) and Configuration (C on f). Level 1 has no passcode since it contains a minimal set of parameters generally sufficient to run the process on a daily basis. Level 2 allows access to parameters which may used in commissioning an indicator or settings between different products or batches.
3200iSeries Indicators 6.2.1 To Select Access Level 3 or Configuration Level Do This The Display You Should See To Select Level 3 1. From any display press and hold for more than 5 seconds V Lev 3 go to 0 code 3 code W 2. Press or to enter the passcode for Level 3 3. When the LEV3 GO TO view is shown, as in paragraph 1 Additional Notes The display will pass from the current operating level, for example, Lev 1 to Lev 3 as the button is held down.
3200iSeries Indicators 6.3 6.3.3 How Parameters are Displayed Parameter lists Parameters are organised in lists. The top of the list shows the list header only. The name of the list header describes the generic function of the parameters within the list. For example, the list header ‘ALARM’ contains parameters which enable you to set up alarm conditions. 6.3.1 To Choose Parameter List Headers . Each list header is selected in turn every Press time this key is pressed. As shown above.
3200iSeries Indicators 6.4 Navigation Diagram The diagram below shows the all list headings available in configuration level for 32h8i indicator. The parameters in a list are shown in tables in the following sections of this manual together with explanations of their meanings and possible use. Press Configuration level conf to continuously scroll around the list headers Output 4list Logic input list Alarm list Recipe list Digital comms list LA / LB ALARM RECIPE COMM CAL ACCES 4.TYP L.
3200iSeries Indicators 6.5 Access Parameters The following table summarises the parameters available under the ACCESS list header ! The Access List can be selected at any time when in configuration level by holding seconds, then press V or W with key down for 3 still held down. ACCESS LIST ‘A C C S ’ Name Scrolling Display Parameter Description GOTO GOTO Allows you to change the access level Lev.1 of the indicator. Passwords prevent Lev.2 unauthorised change Lev.
00iSeries Indicators 7. Process Input Parameters in the input list configure the input to match your sensor. These parameters provide the following features:Input Type and linearisation Display units and resolution Input filter Fault detection User calibration Over/Under range 7.1 Thermocouple (TC) and 3-wire resistance thermometer (RTD) temperature detectors Linear input (-10 to +80mV) through external shunt or voltage divider, mA assumes a 2.49Ω external shunt. See the table in section 7.1.1.
3200iSeries Indicators SB.DIR up Up scale. Output goes to maximum up Dwn Down scale. Output goes to minimum SENSOR BREAK DIRECTION May be used, for example, in combination with retransmission of PV. The retransmitted value will either go to minimum or maximum output CJC.IN CJC TEMPERATURE Temperature measured at the rear terminal block. Used in the CJC calculation (only shown for thermocouple inputs) Read only Conf L3 R/O and if T/C PV.
3200iSeries Indicators 7.1.2 Units O o O mmwg C No units displayed Mpascals * milli Bar * mm water gauge * torr Torr * p.rh % Relative humidity * % carbon potential * milli amps * Parts per million * Seconds * Ph * milli grams * C none mpa mbar P.CP ma ppm SEC PH mG 32 o O L-H F Percentage Kpascals * PSI * inches water gauge * Litres per hour * p.O 2 % O2 * p.
3200iSeries Indicators 7.1.3 PV Offset 7.1.4 PV Input Scaling All ranges of the indicator have been calibrated against traceable reference standards. This means that if the input type is changed it is not necessary to calibrate the indicator. There may be occasions, however, when you wish to apply an offset to the standard calibration to take account of known errors within the process, for example, a known sensor error or a known error due to the positioning of the sensor.
3200iSeries Indicators 8. Input/Output Channels Indicators may be ordered with relay, analogue or logic channels to provide different interfaces to plant devices. The connections for these channels is made on terminals 1 to 3. 8.1 Output Channel 1 (OP-1) - 32h8i and 3204i Indicators Output 1 is always a changeover relay in 32h8i and 3204i indicators and connected to terminals 1A, 1B and 2A. It is typically used to provide external indication of alarms. OP1 beacon is operated from this output.
3200iSeries Indicators 8.2 Input/Output Channel 1 (I/O-1) - 3216i Indicator In the case of the 3216i channel 1 can be configured as an input or an output. For 3216i the parameters are defined in the following table:INPUT/OUTPUT LIST 1 ‘I O -1 ’ Name 1.ID 1.FUNC Scrolling Display IO 1 TYPE IO 1 FUNCTION Parameter Description I/O channel 1 hardware type defined by the hardware fitted I/O channel 1 function. Value none No input or output fitted dC.OP DC output (see note 1) reLy Relay output L.
3200iSeries Indicators 8.3 Output Channel 2 (OP-2) - 3216i Indicator Output 2 is only available in 3216i. It may be optionally ordered as a normally open relay or analogue output and is available on terminals 2A and 2B. If it is ordered as a relay it can be configured to operate on alarms (the same as I/O1). If it is ordered as analogue it is configured to provide PV re-transmission. OUTPUT LIST 2 ‘o p - 2 ’ Name 2.ID 2.
3200iSeries Indicators 8.3.1 Sense For an alarm output set this parameter to ‘Inv’ so that it de-energises to the alarm state. If the module is an input (3216i channel 1 only), ‘normal’ means the function is activated when the input contact is closed, and ‘inverted’ means the function is activated when the input contact is open. 8.3.2 Source The four parameters SOURCE A, SOURCE B, SOURCE C, and SOURCE D appear when the output is configured as a digital output i.e. ‘-.FUNC’ = ‘d.
3200iSeries Indicators 8.4 Output Channel 3 (OP-3) – 32h8i, 32h8i/SG and 3204i Indicators Output 3 is not available in 3216i. In 32h8i, 32h8i/SG and 3204i it is a 0-20mA dc output used for re-transmission of the PV and is available on terminals 3A and 3B. The way in which this output operates is determined by parameters in the OP- 3 List below:OUTPUT LIST 3 ‘op -3’ Name Scrolling Display Parameter Description Value Default dC.Op 3.I D OUTPUT 3 TYPE Output channel 3 hardware type dC.
3200iSeries Indicators 8.5 AA Relay Channel (AA) (Output 4) This is a changeover relay available in all indicators. Connections are made to terminals AA, AB, and AC. OP4 beacon is operated from the AA relay output channel. Output AA (4) has the same functionality as OP-1 – the parameters are repeated here for clarity. OUTPUT AA LIST ‘a a ’ Name Scrolling Display 4.TYPE OUTPUT 4 TYPE Displays the type of output reLy Relay output 4.
3200iSeries Indicators 9. Digital Input Availability Digital Input A Digital Input B 9.
3200iSeries Indicators 10. Alarms Alarms are used to alert an operator when a pre-set level has been exceeded. They are indicated by a scrolling message on the display and the red ALM beacon. They may also switch an output – usually a relay (see section 8.3.2) to allow external devices to be operated when an alarm occurs. 10.1 Types of Alarm Up to six different alarms are available:1. Alarm 1 Configurable as any of:- 2.
3200iSeries Indicators 10.1.1 Alarm Relay Output Power Fail Alarm Alarms can operate relay outputs 1, 2 or 4. Any individual alarm can operate an individual output or any combination of alarms, up to four, can operate an individual output. They are either supplied preconfigured in accordance with the ordering code or set up in the Quick Codes or in configuration level. Alarm condition is indicated when the indicator is switched on. Section 8.3.2.
3200iSeries Indicators 10.2 Behaviour of Alarms After a Power Cycle The response of an alarm after a power cycle depends upon the latching type, whether it has been configured to be a blocking alarm, it's state and the acknowledge status of the alarm. The response of active alarms after a power cycle is as follows: For a non-latching alarm or an event alarm blocking will be re-instated, if configured. If blocking is not configured the active alarm will remain active.
3200iSeries Indicators 10.3 Alarm Parameters Four alarms are available. Parameters do not appear if the Alarm Type = None. The following table shows the parameters to set up and configure alarms. ALARM LIST ‘A LARM ’ Name Scrolling Display Parameter Description Value A1.TYP ALARM 1 TYPE Selects the type of alarm none Alarm not configured Hi Full Scale High Lo Full Scale Low r.roc Rising rate of change F.roc Falling rate of change A1.--- ALARM 1 SETPOINT Alarm 1 threshold value.
3200iSeries Indicators 10.3.1 Example: To Configure Alarm 1 Enter configuration level as described. Then:Do This The Display You Should See 1. Press as many times as necessary to select ‘ALARM ’ 2. Press 3. or to select the Press required alarm type to select ‘A1.TYP’ V W to select ‘A1. - - - ‘ 4. Press 5. or Press trip level V W to set the alarm Hi a 1. ty p 215 a 1. h i Additional Notes Alarm Type choices are:none Alarm not configured Hi Full Scale High Lo Full Scale Low r.
3200iSeries Indicators 10.4 Diagnostic Alarms Diagnostic alarms indicate a possible fault within the indicator or connected devices. Display shows E.Conf What it means What to do about it A change made to a parameter takes a finite time to be entered. If the power to the indicator is turned off before the change has been entered then this alarm will occur. Enter configuration mode then return to the required operating mode.
3200iSeries Indicators 11. Recipe A recipe can take a snapshot of the current values and store these into a recipe number. There are five recipes available, which can store a range of parameter values for different processes. Each recipe can be given a name using iTools configuration software. 11.1 To Save Values in a Recipe Do This The Display You Should See Additional Notes Scrolling display R E C IP E L IS T 1.
3200iSeries Indicators 11.3 To Select a Recipe to Run Do This The Display You Should See Additional Notes Scrolling display R E C IP E L IS T 1. Press as many times as necessary to select ‘r e c i p ’ to select ‘re c . n o ’ 2. Press 3. Press or number 1 48 V W to choose recipe 1 Rec.no Scrolling display C U R R E N T R E C IP E N UM BER The values stored in Recipe 1 will now be loaded.
3200iSeries Indicators 12. Digital Communications 12.1 Digital Communications Wiring Digital Communications (or ‘comms’ for short) allows the indicator to communicate with a PC or a networked computer system. 12.1.1 EIA 232 This product conforms to MODBUS RTU ® protocol a full description of which can be found on www.modbus.org. To construct a cable for EIA 232 operation use a three core screened cable. Two ports are available both using MODBUS RTU communication facilities: 1. 2.
3200iSeries Indicators 12.2 Digital Communications Parameters The following table shows the parameters available. DIGITAL COMMUNICATIONS LIST ‘comm s’ Name Scrolling Display Parameter Description Value I D MODULE IDENTITY Comms identity none No module fitted r232 EIA 232 Modbus interface r485 EIA 485 Modbus interface ADDR ADDRESS Communications address of the instrument BAUD BAUD RATE Communications baud rate PRTY DELAY RETRN REG.
3200iSeries Indicators 12.2.1 Broadcast Communications Broadcast master communications, as a simple master, allows the 3200i indicator to send a single value to any number of slave instruments. Modbus broadcast using function code 6 (Write single value) must be used. This allows the 3200i to link with other products, without the need for a supervisory PC, to create a small system solution. The facility provides a simple and precise alternative to analogue retransmission.
3200iSeries Indicators 12.3 Example: To Set Up Instrument Address This can be done in operator level 3:Do This 1. 2. 3. Display View Additional Notes Scrolling display ‘c om m s lis t’ Press as many times as necessary to select ‘COMMS LIST’ Press to scroll to ‘ ID Press W V Scrolling display ‘ id ’ to select 5.
3200iSeries Indicators 12.5 Parameter Modbus Addresses Parameter Mnemonic Instrument Comms Address 131 PV.OFS PV Offset 141 C.Adj Calibration Adjust 146 IM Instrument mode 0 – Operating mode - all algorithms and I/O are active 1 – Standby - control outputs are off 2 – Config Mode - all outputs are inactive Colour change Green – Red – Green normal/Red on alarm – Input value in millivolts 199 RNG.
3200iSeries Indicators STBY.T uCAL A1.TYP A2.TYP A3.TYP A4.TYP A1.LAT A2.LAT A3.LAT A4.LAT A1.BLK A2.BLK A3.BLK A4.BLK Di.OP OFS.HI 54 0 – XXXX. 1 – XXX.X 2 – XX.
3200iSeries Indicators K.LOC 1104 mV.
3200iSeries Indicators 1.SRC.B 1.SRC.C 1.SRC.D 1.SENS 2.ID 2.FUNC 2.RNG 2.SRC.A 2.SRC.B 2.SRC.C 2.SRC.D 2.SENS 3.ID 3.FUNC 3.RNG 3.SRC.A 3.SRC.B 3.SRC.C 3.SRC.D 56 IO Channel 1 Source B As IO Channel 1 Source A (Modbus address 12678) IO Channel 1 Source C As IO Channel 1 Source A (Modbus address 12678) IO Channel 1 Source D As IO Channel 1 Source A (Modbus address 12678) Configures the polarity of the input or output channel (0 = Normal, 1 = Inverted) IO1 high 12678 3.SENS 12679 4.
3200iSeries Indicators 13. Calibration 13.1.2 To Check mV Input Calibration All ranges are calibrated during manufacture to traceable standards for every input type. When changing ranges it is not necessary to calibrate the indicator. Furthermore, the use of a continuous automatic zero correction of the input ensures that the calibration of the instrument is optimised during normal operation.
3200iSeries Indicators 13.1.4 To Check RTD Input Calibration Connect a decade box with total resistance lower than 1K and resolution to two decimal places in place of the RTD as indicated on the connection diagram below before the instrument is powered up. If at any instant the instrument was powered up without this connection then at least 10 minutes must elapse from the time of restoring this connection before RTD calibration check can take place.
3200iSeries Indicators 13.3 Input Calibration Display Reading If the calibration is not within the specified accuracy follow the procedures in this section:High offset (e.g. 6) In 3200 series instruments, inputs which can be calibrated are:- Factory calibration • Low offset (e.g. 1) • Electrical Input • Display Reading mV Input. This is a linear 80mV range calibrated at two fixed points. This should always be done before calibrating either thermocouple or resistance thermometer inputs.
3200iSeries Indicators 13.3.1 To Calibrate mV Range 13.3.2 To Calibrate Thermocouple Ranges Calibration of the mV range is carried out using a 50 milli-volt source, connected as shown in the diagram below. mA calibration is included in this procedure. Thermocouples are calibrated, firstly, by following the previous procedure for the mV ranges, then calibrating the CJC.
3200iSeries Indicators 13.3.3 To Calibrate RTD Ranges The two points at which the RTD range is calibrated are 150.00Ω and 400.00Ω. Before starting RTD calibration: • A decade box with total resistance lower than 1K must be connected in place of the RTD as indicated on the connection diagram below before the instrument is powered up.
3200iSeries Indicators 13.4 Output Calibration 13.4.2 To Return to Factory Calibration Output 3 (or outputs 1 or 2 in 3216i) may be configured to re-transmit the PV as an analogue, 020mA, 4-20mA or 0-20V, 4-20V signal. Select Configuration level. Then Do This 13.4.1 To Calibrate mA Outputs 1. Assume Output 3 (set to 0-20mA) is to be calibrated. Connect an ammeter to terminals 3A/3B. header press ‘PHASE’ 2.00 2. Press choose ‘FAct’ or to select W to A +ve Digital ammeter B -ve 3.
3200iSeries Indicators 13.5 Calibration Parameters The following table lists the parameters available in the Calibration List. CALIBRATION PARAMETER LIST ‘cAL’ Name Scrolling Display Parameter Description Value UCAL USER CALIBRATION To calibrate the 5 point linerisation table. IDLE PnT.1 Not 32h8i/SG PnT.3 Default Access Level L3 only PnT.2 PnT.4 PnT.5 PHASE GO SG.TYP SHUNT LO.CAL HI.CAL AUT.
3200iSeries Indicators 14. Configuration Using iTools 14.2 Connecting a PC to the Indicator iTools is a configuration and monitoring package which will edit, store and ‘clone’ complete instrument configurations. This may be done using digital communications port H or by a configuration clip. iTools can be used to configure all the functions of the 3000 series indicators described in this manual.
3200iSeries Indicators 14.3 Starting iTools Open iTools and, with the indicator connected, press on the iTools menu bar. iTools will search the communications ports and TCPIP connections for recognisable instruments. Indicators connected with the configuration clip (CPI), will be found at address 255 regardless of the address configured in the indicator. When the instrument is detected a screen view similar to the one shown below will be displayed. The browser on the left shows the List Headers.
3200iSeries Indicators 14.4 Configuring the Indicator Using the Wizard To open the Wizard press Next>> on the pop up or press from the iTools view . The indicator will be set to configuration level. Since it will not operate the process in configuration level a warning message appears. When this is accepted the Wizard start up screen is shown:- Select a tab to configure a function 14.4.
3200iSeries Indicators 14.4.2 To Configure Alarms Up to four alarms are available in 3200 series indicators. Set the type of alarm, latching mode, blocking, threshold and hysteresis from drop down menus. Help text is shown together with a pictorial representation of the alarm operation. 14.4.3 To Configure Output 1 In 32h8i (shown in this example) the output is a changeover relay which can be configured to operate when up to four different alarms, selected from the drop down, occur.
3200iSeries Indicators 14.4.4 To Customise Messages The message which scrolls across the indicator display during normal operation may be customised. Select the ‘Messages’ tab. In this example the message ‘SHUT DOWN’ will be displayed if both Alarm 1 and Alarm 2 are active. Operation Action Add a parameter Click where the parameter is required Indication Select ‘Insert’ Choose the parameter from the pop up box eg ‘CAL.
3200iSeries Indicators 14.4.5 To Promote Parameters The list of parameters which are available in operator levels 1 or 2 can be changed using the ‘Promote’ wizard. You can set the access to Read Only or Read/Write Select ‘Promote’ tab. Highlight a parameter. Select the level of access you wish to be available to the available to the operator and whether it should be Read/Write or Read only. In the example below ‘Strain Gauge Low Cal’ will be available in Level 2 and will be read and Write access.
3200iSeries Indicators 14.4.6 To Set Up Recipes There are five recipes available, which can store a range of parameter values for different processes. Select the ‘Recipe’ tab 14.4.6.1 Recipe Definition Select ‘Recipe Definition’ tab to display the default parameters available to be stored in recipe. Double click on the parameter in the ‘Wired From’ column, a pop up allows you to delete or change to a different parameter. 14.4.6.2 Editing Recipe Values Select any one of the Recipe01 to 05 tabs.
3200iSeries Indicators 14.4.7 To Customise the Display Press the ‘Display’ tab. The operator display in this example will be green and display PV. A customized static message, up to 9 characters long, may be displayed on the instrument when one particular event is true. This message is taken from the message tab, see section 14.4.4, and in this example will show SHUT DOWN as a non scrolling message when alarm 1 occurs. ! Erase Instrument Memory must be used with care.
3200iSeries Indicators 14.5 Configuring the Indicator Using the Browser Views Press (if necessary) to put the indicator into configuration level. 14.5.1 To configure the Input Open the parameter list by double clicking INPUT in the browser or selecting ‘Parameter Explorer’. Select input type from the drop down. Other parameters can also be set using the drop downs or by setting the analogue values. Parameters shown in blue, in the iTools view, are not alterable. 14.5.2 To Configure Alarms 1. 2.
3200iSeries Indicators 14.5.3 To Customise Messages In this example the alarm 1 message will read ‘TOO HOT’. 1. 2. 3. Press and select the ‘Message Table’ tag Select Parameter ‘ALARM1 #1’ In the ‘Message Condition’ area change ‘Message’ to SHUT DOWN 4. Press ‘Update Device Flash Memory’ button In the example shown below Alarm 2 message has also been configured to ‘TOO COLD’ Part No HA029006 Issue 5.
3200iSeries Indicators 14.5.4 To Promote Parameters In this example the parameter ‘OP1.Sense’ is added to the to the Level 2 list. 1. 2. Press and select the ‘Promote Parameters’ tab Highlight the position where you want the new parameter to be placed 3. 5.
3200iSeries Indicators 14.6 To Load A Special Linearisation Table In addition to the built in standard linearisation tables, custom tables can be downloaded from files. 1. 2. Press Select the lineariastion table to be loaded from files with the extension .mtb. Linearisation files for different sensor types are supplied with iTools and may be found in Program Files ¤ Eurotherm ¤ iTools ¤ Linearisations ¤ Thermocouple etc. 3. In this example a Pt-PTRh(10%) thermocouple has been loaded into the indicator.
3200iSeries Indicators 14.7 To Set up Recipes 14.7.1 Example:- Set Two Different Alarm Thresholds and Store in Recipes 1 and 2 1. 2. 3. 4. 5. Set an alarm threshold e.g 300. Select ‘RECIPE’ in the browser In RecipeSave, select the recipe number e.g. 1 Set the alarm threshold to another value and save in Recipe 2 In RecipeNumber choose the recipe to run. Recipe 1 will now select the first alarm threshold and recipe 2 will select the second alarm threshold.
3200iSeries Indicators 14.8 Summary Press to display the terminal connections for the functions which have been configured together with a summary of each function. A summary of the features configured may be selected using the ‘Summary’ tab. Part No HA029006 Issue 5.
3200iSeries Indicators 14.9 Cloning The cloning feature allows the configuration and parameter settings of one instrument to be copied into another. Alternatively a configuration may be saved to file and this used to download to connected instruments. The feature allows new instruments to be rapidly set up using a known reference source or standard instrument.
3200iSeries Indicators 15.
3200iSeries Indicators Strain gauge input (32h8i) Input type: 350Ω Bridge Connection: 4 or 6 wire (6 uses internal shunt) Calibration +0.1% of full scale accuracy: Sample time: 9hz (110ms) Isolation: 264Vac double isolation from the PSU and communications Excitation: 10Vdc +7% Sensitivity: 1.4 to 4mV/V Input span: -27% to +127% of full scale (approx. – 10mV to +5mV): Zero balance: + 25% of full scale Tare: + 25% of full scale Resolution (mV): 0.3mV/V(typical) with 1.6s filter Resolution 14.
3200iSeries Indicators 16. Parameter Index Parameter Parameter Name This is a list of parameters in alpha/numeric order to help locate the section in which they are applicable. A1.--- ALARM 1 SETPOINT Alarm List section 10.3 and 4.4 Parameter Parameter Name A1.BLK ALARM 1 BLOCKING Alarm List section 10.3 1.D.IN DIGITAL INPUT FUNCTION I/O List 3216i section 8.2 A1.DLY DELAY TIME Alarm List section 10.3 A1.HYS ALARM 1 HYSTERESIS Alarm List section 10.3 1.
3200iSeries Indicators Parameter Parameter Name Parameter list & Section 9.1 L.TYPE LOGIC INPUT TYPE Digital Input List section 9.1 LEV2.P LEVEL 2 PASSCODE Access List section 6.5 LEV3.P LEVEL 3 PASSCODE Access List section 6.5 LO.CAL STRAIN GAUGE LOW CAL Calibration List section 13.5 LOW PEAK LOW Input List section 7.1 and 4.4 MESG STATIC HOME MESSAGE Access List section 6.5 MV.IN MILLIVOLT INPUT VALUE Input List section 7.1 P1.OFS PRE ALARM 1 OFFSET Alarm List section 10.3 P2.
3200iSeries Indicators 17. Index Access Parameters ...................................................... 29 Acknowledge ..................................................... 42 ADDR .......................................................20, 50, 52 Address ............................................................... 52 Alarm .... 17, 18, 20, 24, 34, 35, 36, 39, 41, 72, 80 ALARM 1 BLOCKING ......................................... 44 ALARM 1 HYSTERESIS .......................................
3200iSeries Indicators FUNCTION ................................ 20, 35, 36, 38, 39 GOTO ........................................................... 26, 29 Heat ...................................................................... 57 HOME .................................. 17, 19, 20, 21, 27, 29 HOME DISPLAY See Note 1 .............................. 29 Hysteresis ..................................................... 41, 53 I/O 1 FUNCTION ................................................ 34 I/O 1 SENSE ....
Eurotherm: International sales and service AUSTRALIA Melbourne Invensys Process Systems Australia Pty. Ltd. T (+61 0) 8562 9800 F (+61 0) 8562 9801 E info.eurotherm.au@invensys.com AUSTRIA Vienna Eurotherm GmbH T (+43 1) 7987601 F (+43 1) 7987605 E info.eurotherm.at@invensys.com BELGIUM & LUXEMBOURG Moha Eurotherm S.A./N.V. T (+32) 85 274080 F (+32) 85 274081 E info.eurotherm.be@invensys.com BRAZIL Campinas-SP Eurotherm Ltda. T (+5519) 3707 5333 F (+5519) 3707 5345 E info.eurotherm.br@invensys.