Setwise manual Chapter 6
Contents
1. h a O Edi alarm You will appreciate that you could build an expression combining a number of conditions that would trigger the Checking the setup Before implementing the setup you can check its consistency To do this page 6 12 issue 1 Sample setup 1 Select Check settings File menu This should display the following 2 Click the OK button to close the window If there are any errors indicated these must be corrected before you send the setup to the SQ 1600 Sending the setup to the SQ 1600 You can send the setup to the logger and begin the logging run using a single command 1 Click the Start Squirrel logging button on the toolbar This will display the following Start a new run with the current logger settings 2 Click the Send the setwise settings to the logger then start a new run button When the setup has been sent the message Start completed will be displayed in the status bar at the bottom of the Setwise window Saving the setup You can save the setup both on your PC and in the logger itself 1 Click the Save setup button on the toolbar to save the setup on your PC 2 To store the setup in the SQ 1600 itself select Store Squirrel setup Squirrel menu As the SQ 1600 can store up to five setups you will be presented with the following Save setup Select the store to save the current setup to O Store1 C Store 4 C Store 2 Store 5 C Store 3 Help HOTE T2. need to reduce the seconds entry from 1 to 0 in each of these cases You can then apply these rates when setting up channels Defining sensor power supplies You can define up to four different power supplies that can be applied to sensors from the logger To define power supplies 1 In the Logger tab the following should be displayed in the Sensor power supplies area Sensor power supplies A 150 1s is B 1 50 Sai ee EAE T D Relay 1s 2 In the Sensor power supplies area click the button at the right hand end of the A field This will display the following Edit Sensor Supply A seconds to turn on supply 4 z L before reading sensor Continuous Voltage to apply to sensor Vi Max current 100m total for 4 B and C 3 In the Voltage area which currently shows 1 50 enter 2 25 and click the OK button 4 Use the same technique to set the B supply to 1 75 V You can then apply these voltages to sensors when setting up channels Setting alarm outputs You can define up to four different alarm outputs that can be applied to channels To define alarms 1 In the Logger tab the following should be displayed in the Alarm outputs area Alarm outputs Alarm output Urn Latched B Alarm output E Ur Latched C Alarm output E Un Latched O larm output Un Latched __ page 6 2 issue 1 Sample setup 2 Inthe Alarm outputs area click the button at the right han
3. to display the following Add Analog Trigger Choose trigger to add Channel 1 Channel 1 B Channel 27 A Channel 27 B Channel 29 A Channel 29 B 6 Select Channel 1 A Note that the A and B options allow two different triggers to be set for the same channel page 6 11 SQ 1600 User s Manual 7 Click the OK button This will display the following Lhe Eat ea Pan kla Tagger A rage ypa Sel hen vake ripas above O Eih 0t 00 0 E ube Feral when rahe fali bestow a E init rt Help As we calibrated channel 1 to measure relative humidity this can be used to trigger the alarm Enter 65 in the Set field and 40 in the Reset field Click the button at the right hand side of the Set time field and set the time to 10 minutes as described earlier in this sample The alarm will then be triggered if relative humidity rises above 65 for 10 minutes and the alarm will be removed when the relative humidity drops to below 40 9 Click the OK button This will show the trigger conditions Edi atio Tai fh Allee A Tl OK ARCI OF Carai OR MOT ae Sedo eel cote won 2E e el sat ball Hain Tigger leer Gain al Vie ee BO rh bi EET Feel agg yh hamel ei is hh 1 Eiht ach Tiin on Abim A 1 Bai lal AND iJi KoT aerei ipie Hi Ta eutn ace kt Tip Channel Site ire Santen Chara Eger Tigga dmz High n Tepr nhan Chyra 1 ee 68 E hhor EA Fecal tagger rhan hae 1 eis a0 3
4. Oto 100 A Resistance 3 Wire Resistance 4 Wire Voltage Differential Oto 10000 A Voltage Single ended Oto 300000 A Current Oto 10000 A Auto range O Thermistor 5 Thermistor Y Thermistor J Thermocouple Differential K Thermocouple Differential N Thermocouple Differential R Thermocouple Differential 5 Thermocouple Differential T Thermocouple Differential J Thermocouple Single ended K Thermocouple Single ended N Thermocouple Single ended A Thermocouple Single ended 5 Thermocouple Single ended 3 Select Voltage Differential from the Sensor type list The available ranges for this sensor type will be shown together with the wiring diagram Range Selection Sensor type Resistance Resistance J2 to 12W Resistance E to BW eE EEEE Jta gy Voltage Single ended 25 to 25 W Aubo range Curent 2 5to 25W O Thermistor 1 25 to 1 25 Y 5 Thermistor 0 5 to O16 Y Thermistor 0 25 to 0 25 W J Thermocouple Differential 0 1 to 0 1 E Thermocouple Differential N Thermocouple Differential A Thermocouple Differential 5 Thermocouple Differential T Thermocouple Differential J Thermocouple Single ended E Thermocouple Single ended N Thermocouple Single ended FA Thermocouple Single ended S Thermocouple Single ended 4 Select 1 25 to 1 25 V as the range and click the OK button to close the window Your selections should now be reflected in the Analogue ta
5. Sample setup 6 Sample setup This section guides you through a sample logger setup in order to illustrate the procedure you would normally use The steps covered are e configuring standard ranges e setting up an analogue channel e setting up a pulse channel e setting up event channels e setting an action e checking the setup e sending the setup to the SQ 1600 e saving the setup To begin the setup open Setwise for Windows Configuring standard ranges You can configure a number of standard ranges and items that will be applied to channels during setup In this sample the following will be configured e sample rates e sensor power supplies e alarm outputs Defining sample rates You can define up to four different sampling rates To define sample rates 1 In the main Setwise window click the Logger tab This will display the following in the Sample rates area Sample rates A 00 00 01 B 00 00 01 H C 00 00 01 OO Sample rate A The logger will sample the channels every Cancel O days DO 00 01 O00 mS Help 3 In the seconds area which currently shows 01 and use the up arrow at the right hand end of the field to change the setting to 5 This sets the sample rate to once every five seconds issue 1 page 6 1 SQ 1600 User s Manual 4 Click the OK button The new rate will be shown 5 Use the same technique to set the B rate to one minute and C to 100 ms note that you will
6. b DE ale ooo nn ee ee ee ee Sey Ae ee ee a A a armi Pe CE Emri Monin frien H a Gee rin De tae eel Erai oe ky ron Lim og vip La a Lins Ca kms E O E ee es ae Three i Fii he Ha be fai he i Hai im Haim Erea fon Ta kim an rig Le E ki Ge kia Ta LES eT ee ee ae ee W Dre T Fir te Hai Lsi Pie he E Hii Loe Has Des U Pun Ta kiu an rig Le i ki u kma Cae SS a T ee TE ee a ee O i ee Fisi te Ha Le Pie he E Hii Loe Has L H mal Pun La kiu an rig Le d ka Ge kma Cae Tae a OOOO N o E l D eee Fisi te Has Le Pie he E Hii Loe Has Des o U ron La fie am rig Le 5 E ki Ge bma Tait OS Demiin a ee e he AE O ea hai te Ha Le Pie he F Hii Le Has Ds A a 7 Pun Ta ie oe rigg F km op bma Ea ES a rr ee F ne fe ee ee TSS Fii be aa Le Hele E Hai Es Has i F kpm i ran La kia op rip De i B km op kiga Ean to e a Ha m a inbi o ooo Bee T Fii e me La He Te H Hai E Has i E epai fon Ta kin Ta rigg fA ams op kma Cae DTE rs es ne a i ee O M 0 el MaLa Hele imen Hai Es Has i 1 Fhe EE i Pa hy ima Le ri La hers kma Lam imta T TE ory a EE aaa page 6 4 issue 1 Sample setup 5 To apply engineering units to the metered values double click the Engineering Units entry for the channel it currently shows Not Used This will display the following Engineering Units Channel 1 fe Use normal range settings C Use EU range settings below Cancel Convert range
7. d end of the A field This will display the following Edit Alarm A Description Alarm output A Latched 3 Inthe Description field type Humidity This will be shown as the alarm message when the alarm is triggered 4 Select the Latched checkbox This will continue to flag the alarm even when the alarm conditions have been removed 5 Click the OK button You can then configure these alarms to trigger when a specified input condition occurs This is defined by setting up an action Setting up an analogue channel To illustrate the setup of an analogue channel this sample will set channel 1 to use a voltage sensor that will represent relative humidity 1 Select the Analogue tab This will display the following Dait gt Bare 1 07 Arnapi Fe aquind DMa Hep ace MHo ied ried Sad Pod Se Paid ed fied Sal Med Se Pid pH Hot Sal hici Som Hoda Mot Sed Hit Se Mo Ga H Sal Ped Sal Haie ied fed Horse Mg pH Ha Ja Hot Sai He Sai hitia Haia Mot Sed boat 5 at Hot se Moi pa Ha 5 at Het Sal Hoei Sail bia ia Hot Sal AEETI P a F F E You can maximise this window using standard Windows procedures to show all the information relating to each channel issue 1 page 6 3 SQ 1600 User s Manual 2 The sensor type for channel 1 is currently shown as Not Set Double click this Not Set entry to open the Range Selection window Range Selection sensor type Ranges available Resistance
8. his will save the current Setup of the squirrel and not Sewise Note that as the setup saved by this operation is that currently in the logger itself this will only be the same as that on the Setwise screen if the Send setup to Squirrel function has already been performed issue 1 page 6 13 SQ 1600 User s Manual 3 Select the Store 2 option button and click the OK button On completion the following will be displayed 7 1 Setup Store Complete from Store 2 4 Click the OK button The logger is now running using your sample setup EE aaa page 6 14 issue 1
9. n the channels are examined to work out averages or check for alarme and triggers Sample interval Sarmple rate A 00 00 05 The sample count is used to determine when readings are stored in the logger the record interval is worked out from this setting Sample count Record interval The record interval determines how often readings are stored in the logger Record Interval 00 00 05 Sample count Sample interval 8 From the Sample interval list select Sample Rate B a one minute rate that was set up when configuring standard ranges 9 Click the OK button The new sample rate will be shown 10 To select a power supply for the sensor double click the Not Used entry in the Sensor Power column for the channel This will display the following Sensor Power Supply fe Not used amp 1 225 ls Cancel E 7 1 75 1s Cancel L C1 1 50 1s Help D Relay 1s 11 Select the B option button to apply a sensor supply of 1 75 V then click the OK button The new power supply will be shown 12 To set a stabilisation time that will be left after the input relay is turned on click the Default entry in the Input stabilisation column for the channel This will display the following Input stabilisation The input relay will be turned on this number of milliseconds before the reading i taken rig Default Help 13 Change the indicated time to 100 ms then click the OK button 14 To ap
10. ply a meaningful name to the channel double click the Description entry for the channel it currently shows Channel 1 Type Humidity log and this should be shown as the new description page 6 6 issue 1 Sample setup The analogue channel configuration is now complete Setting up a pulse channel Pulse channel setup is similar to the procedure above This sample will configure a channel to measure pule rates issue 1 up to 32 kHz 1 Select the Pulse tab This will display the following T as m m ore Aril 2 The sensor type for channel 27 is currently shown as Not Set Double click this Not Set entry to open the Range Selection window Range Selection Sensor type Pulse Count Pulse Aate Ranges available Ota 16500000 Count Oto 33000000 Count Oto 6FO00000 Count Oto 134000000 Count Oto 268000000 Count Oto 536000000 Count 0 to 1073000000 Count Oto 2147000000 Count Oto 4295 MM Count Un set sensor Cancel Help page 6 7 SQ 1600 User s Manual 3 Select Pulse Rate from the Sensor type list The available ranges for this sensor type will be shown together with the wiring diagram Range Selection Sensor type Ranges available use LOU 00 O to S000 Hz 0 to 32000 Hz 0 to 64000 Hz Urrset sensor Cancel Ota 2000000 Hz Help 4 Select 0 to 32000 Hz and click the OK button 5 To apply a meaningful name to the channel double click the Description entry for the channel it cu
11. rrently shows Channel 27 Type Pulse Rate and this should be shown as the new description The pulse channel configuration is now complete Note that you could apply engineering units as described for the analogue channel but this was not done because the procedure is identical Setting up event channels You can configure the event channel either to represent a single 256 state input or as eight independent event inputs This sample will adopt the latter approach configuring four inputs to represent a fan a hopper a motor and a side door sensor 1 Select the Event tab This will display the following EE aa page 6 8 issue 1 Sample setup 2 The sensor type for channel 29 is currently shown as Not Set Double click this Not Set entry to open the Range Selection window Range Heec E E 3 Select State Event from the Sensor type list and click the OK button This selection will be reflected in the Event tab Rp p l S F p ME CEMCO0ACCERRHAE _e e re peme eo eee f iE z 4 In the Description column of the State Settings area enter Fan for Input 1 double click Input 1 and then type Fan Hopper for Input 2 Motor for Input 3 and Side door for Input 4 The tab should now look like this a Pi k lup pameni him MEC resol a Tes e e Ml lin ih issue 1 page 6 9 SQ 1600 User s Manual 5 The 1 Text and 0 Text columns show the text that will be displayed when this inp
12. ut is in the high and low states respectively Make entries as shown in the following illustration for inputs 1 to 4 bbaaiserta any bye 6 In the Display column deselect the checkboxes for inputs 5 to 8 7 To apply a meaningful name to the channel double click the Description entry for the channel it currently shows Channel 29 Type Input monitor and this should be shown as the new description The event channel configuration is now complete Setting an action The actions capability of Setwise for Windows allows you to maximise the potential of the SQ 1600 For this sample we will set a high level alarm You should note that you can program complex actions to trigger alarms under only the exact required conditions To set the action 1 click the Actions tab to display the following aT page 6 10 issue 1 Sample setup 2 Click the Add action button to display the following Cancel a Heb 3 From the list of actions select Turn on Alarm A 1 and click the OK button This will display the following in which you can define the conditions that will trigger the action Edi atte Tain on Aldi A 1 SHO OF XOA En sasaaa eoa Titr Chand Sule Tre Sten Chantel nigger Teague details Et 4 In the Triggers area ensure that the Channel tab is selected This allows you to configure conditions on the channel inputs that will trigger the alarm 5 Click the Add button
13. with the following EL settings m Ea Display as z Help Display as Display units of C Decimal places Set to default Preview Before Wwith EU applied Range maximum 300 200 00 Range minimum 100 100 00 6 Select the Use EU range settings below option button then make the entries shown in the following illustration Engineering Units Channel 1 E4 Use normal range settings Use EU range settings below F Cancel Convert range with the following EU settings Canel Display fas po Help Display 0 fas OC Display units of W ag zn Decimal places jo Set to default Prev ier Before With EU applied Range maximum 1 25 125 Range minimum Faa 125 This will generate an output range of 0 to 1 V which will be shown as 0 to 100 rh issue 1 page 6 5 SQ 1600 User s Manual 7 To apply a sample rate double click the Log method column entry for the channel This will display the following Logging Method Logging Mode Interval C Maximum Minimum Readings are taken every Values are taken ever sample interval Pancal record interval and the masimum or minimum of these are stored every record interval Hel 2 Average C Action only oHe Values are taken every sample Readings are only taken when Interval and the average of these specified by an action are stored every record interval Samples The sample interval determines how ofte
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