SWP-ASR series T F T enhancement paperless recorder user manual
Contents
1. 2 0 0 8 Version 1 WP Charm Faith Autosystem Instrument 9 SWP ASR series T F T enhancement paperless recorder user manual SeBeBEaR EBM LKR AR YX A CHARM FAITH AUTOSYSTEMCO LTD fis Swp is CharmFaith Autosystem trade mark lt gt Charm Faith instrument copyright Shipping detail Dear customer Appreciate you use Charm Faith SWP ASR100 series paperless recorder Please check the shipping items included Any issue please contact our service center or distributor We will great to provide our best service Power filter modutor Product certificate card Product warranty card Overview In order to correctly use SWP ASR series please read carefully this operating manual For safety reason grounding is very importance After finishing the installation confirmed that power lines have connected correctly otherwise the instrument outer covering might be with approximately 110 V Communication ports connection should be under power off condition Please do not disassemble the instrument Contact company service center or the local business agent if the instrument is breakdown Please maintain the instrument surface clean with soft dry cloth The gasoline or alcohol and any organic solvent are not allowed for surface cleaning Index 1 PAPERLESS RECORDER OUTLINE cccscsscscsscsescesesesceseeceneseeseseenenensesenenes 5 El FEATURE rior 5 1 2 DATA SAVING MODE orina sii L21 s ACN Mel Cate SAV2. Press YOU Can see printing setting As Figure 3 2 3 shown you can select related CH of curve or data with start and end time for printing Users can also press Pant t Fi Jo print all channels data The communicating status will see La and M alternate twinkling 3 2 4 Configuration setting Press set p gt will see PUR password as Figure 3 2 4 Press lt q gt shift forward and press gt shift back ward Press ENT to change user s name and A W or A V to change the password User l operator PassWord RRR KE OK Under trend single CH and History recall display press DIV will change display curve time division rate Refer to Figure 3 2 5 Scie ee DIV Interrecord time Time indice DIV Interrecord time Time indice 08 03 07 11 25 58 4 n 4 AE eine F AE OS NARA ee es Oe Ee EE RE SS aS ae aS Figure 3 2 5 3 2 6 Curve amplitude Under trend press ENT to manu gt Option gt Group gt curve range setting will be 0 100 It can be set to e g 20 80 accordingly 08 03 07 14 22 46 Curve upper limit is 100 Curve lower limit is 0 Figure 3 2 6 3 2 7 Display menu Under system display press ENT goto display menu There are total 3 levels menu as shows in Figure 3 2 7 P gt mark is showing that there are more option in the menu of the following levels 3 level menu 1 le
3. 4 The front installation panel thickness should be 4mm Please install the instrument with carefully 8 3 Replace spoilt fuse Steps Ensure power off the instrument Disassemble the front panel with 2 screws under front cover Pull out the power board from the rack Replace fuse Re install Power up and check the working status 8 4 Calibration Please ensure instrument calibration yearly There are some calibration tools recommended Standard DC voltage signal generator Output 20mV 20V Accuracy 0 005 Variable resistor Output 0 1 500Q Accuracy 0 001 Resolution 0 001 Q Calibration process 1 Power up instrument with correct GND warmup 30 minutes or above 2 Ensure environments is instrument acceptable condition 3 Input measurement points 0 50 100 of measurement range record down input value Vs measuring value 4 Amend zero and P offset value in the instrument according the following formular Measuring value X Proportion Zero calibrated value Measuring value X Proportion Zero Calibrated value 8 5 Change battery The instrument backup 3 6V battery can be found on mainboard It need to be replaced if clock dosen t run when power is off A Fuse on the power card Battery in main board SH Aw it AS APRA E o A CHARM FAITH AUTOSYSTEM CO LTD SEPM BRNSREARTCR WP 17th Floor Fairmont House 8 Cotton Tree Drive Central Hong Kong Fax 00852 25305488 Tel 008
4. Figure 5 2 13 Fig 5 2 14 4 pp Left right shift and select display mode A Enable disable display mode 5 2 4 Com port setting The following settings are included com type instrument DE buad rate selecting IP address COMM Setting No 1 Com port _ No 2 Com port Type RS 232 Type RS 485 Address Address l Baud rate 9600 Baud rate 19200 Ethernet IP Add 192 f68 0 Portk ma NAME SETTING RANGE CONTENTS PRESET VALUE COMMUNICATION The type of instrument can not be shows in Figure RS 232 RS 485 l TYPE changed after leaving factory 5 2 26 The communication address of ADDRESS 1 instrument i Choose the buad rate of data Communication 4200 2400 4800 9600 19200 9600 baud bps transfer 1 The reliable baud rate will be 19200 bps if instrument electro optical isolation is used 2 Communication port 2 do not use the electro optical isolation the max baud rate is 35 57600bps 5 2 5 Printing configuration Print the recording data curve and printer communication configuration parameter setting Figure 5 2 15 and 5 2 16 Baud rate setting will be same as addressed communication configuration setting Printer Setting Figure 5 2 15 Figure 5 2 16 Printer Setting TP4P A40 micro Pinter is recommended 5 2 6 PUR management As Figure 5 2 17 shows Purview mamagement is used for instrument password control
5. Disable parameter admend 3 In Figure 5 2 20 If Limit user operating record was selected the record can only be accessed by purviewed user Operate Set Option Display Disabled Power ON OFF Disabled Value Change Fi User Limited Show TNR Clear Alarm Figure 5 2 20 curve operating record Figure 5 2 20 It can reset the instrument s recording data of m oa alarm and user Backup or Reset Backup Time List Backup1 08 10 01 10 10 20 Backup2 08 10 02 13 10 36 Backup3 08 10 03 08 11 10 Backup Restore Backup 1 Restore 1 Ea Figure 5 2 22 Figure 5 2 21 the advance administrator can create 3 sets of configuration backup file with referring time User can restore instrument setting accordingly The backup parameters can also be reset by pressing CANCEL gt 1 Administrator setting It is only 1 administrator The highest purviewer can access and change It include number of operaters number of administrators purview level and recorver initial user password Figure 5 2 22 38 Administrator Set USB setting Operator 5 Save Date iaoaoOm_ Admini l V Alarm log V No Power log Item 1 operator V History Data V Option log Name 1 operator File format ASR CANCEL Figure 5 2 22 Fitting a Curve Fitting a Curve No F Hits 1 0000 Value 1 0000 E II II IO vel Hits Value Hits Value 0
6. Enter the configuration setting display Er p gt will display PUR setting page as below User l operator PassWord aK os Figure 5 1 1 30 2 Selection Press lt Q or Dp and A W select user and password the press ENT to edit the configuration setting of the system 3 Edit the configuration Press lt Q P gt to select the object and press ENT for editing Configuration Setting Figure 5 1 2 5 2 Configurations and parameters 5 2 1 System configuration As shows in below the edit objects are date time password channel numbers interval record time time DIV TC open circuit display key sound ON OFF and screen saving as well 1 2 4 8 Figure 5 2 1 a Factory Real time No of channels Preset recording channels Interval time 600 S Interrecord time Rate change as 1 2 4 8 00000000 9999999 Password e Preset Time Div 1 4 type Rate change as 1 2 8 16 Rate change as 1 4 8 24 Rate change as 1 4 16 48 Hold T C Burnout Goto beginning Goto ending Hold on the present value Display lower limit scale Display upper limit scale On Key press with sound a Off Key press without sound Screen saver dla 0 60 minutes delay Darkest darker dark slightly unavailable Screen saver modes 5 2 2 Channel configuration Channel input configuration setting Alarm setting Channel
7. 08 03 13 18 30 40 10m 45s Power off duration 6 08 03 12 16 16 37 3m 44s 8 08 03 12 12 02 04 lh 11m 6s 10 08 03 07 16 20 48 16h 32m 24s Total of power off NUM 23 IN lA RE 7d 14h 14m 44 su Accumulating time Figure 4 9 1 4 9 Operating description General operating py There are 4 options in time DIV display mode lt Q Move cursor on channel display mark A v CH disables or enable in CH operating mode A v After ESC it is for display page up and down ESC Drawing back from any setting Change CH group page display Switch to next of 11 power failure record if have PF log Terminal connection mark and wiring diagram wiring Switch to next 12 of alarm record if have alarm log ENT Go to manu For history data printing and for channels real time 26 data printing Go to configuration setting SET p gt Help on line A i Brightness adjusts E Screen locks mark Screen locking mark When screen locked there is a lock mark display on right top corner If the screen unlocking the display will switch back to trend display automatically in 4 minuts if keys non operating 4 10 History recall The history recall trend is used for history data inspecting It is similar with main display as Figure 4 8 1 There is a time period display under the real time for history recall trend The value in the recall time period is displaied the measured value upper lower limit In the recall trend the dashed lines ex
8. 2 10 20 Current display group number Red is for auto inspection Display mode 08 03 07 13 20 41 Date and time Y M D H M S En Com Port porticon No communication happened Twinkling is for alarm En Gans A happening Press to relives alarm and back to normal y Ba Com Receiving No alarm or alarm relieves if green symbol twinkling U drive detected Do not a Locking icon except interrupt it unless data Main display transferring is completed E COM port icon U drive is ready for data COM port Data transferring or Data En transmission transferring is completed Data receiving Data transferring U drive is oe Ea EE in progress Interrupt will damage U drive or corrupted data a ME 4 Operating description SWP ASR100 is a TFT with system configuration and help function Cincluded multi channels main display alarm display single dual whole channels displays bar graphic history recall and even log as well 4 1 Trend Trend display is shows as Figure 4 1 1 It is included bar graph and channel real time data as well Display mode USB icon Date and Tim EAT O ator Ch COM icon Time div Bar Graphic Curve Marker Scale Grid 01 10 02 03 Eng Unit l Figure 4 1 1 Key operating 2 D v ct 3 D a D er y UN TU O O Y 3 Q N O O 8 Move the cursor to individual channel for function mark option Change display
9. 30 AlarmL0G 4 type Start time 114 Channe S Display mode Alarm happening time cHo6 LL 08 03 14 14 09 11 6 cH04 4L 08 03 14 13 57 11 Alarm type Alarm mark L Lower limit CH10 LL 08 03 14 13 33 11 H Upper limit 12 O cH2 3L 08 03 14 14 21 11 Figure 4 6 1 4 7 Bargraph mode Bargraph display can be separated into 6 groups and maximum 8 channels per group As shown in Figure 4 7 1 It can be in both vertical and horizontal display mode Shows in Figure 4 7 2 Display mode 08 03 14 14 28 23 BarGraph ch Date amp Time _f CHO CHO2 CHO3 CH04 p Upper range _A 300 00 190 00 500 00 400 00 Alarm mark Bar graphic Lower range Lower range Real time data Real time data data 0 0000 0 0000 0 0000 C C 0 Alarm level Unit Figure 4 7 1 CHO2 CHO3 CHO4 08 03 14 14 30 09 O BarGraph E 08 03 14 14 28 23 BarGraph Ch 190 00 900 00 400 00 190 00 0 0000 500 00 0 0000 Figure 4 7 2 Figure 4 7 3 4 8 Power failure log It displays the instrument power failure off record information It included total number of power failure off duration per power failure off and total power failure off accumulating time There are maximum 11 messages per display Refer to Figure 4 9 1 25 Display mode 08 03 14 14 30 42 PowerLOG Va PowerON TIME Time 2 08 03 13 11 33 20 2h 3m 15s 1
10. cm atm Pa KPa MPa t s t min t h L s L min L h Kg s Kg min Kg h m3 s m3 min m3 h Km s Flow volume Reick 3 3 gps 3 Km min Km h Nm s Nm min Nm h Weighth t Kg g mL L KL mm cm3 m3 Nm3 Heat enegy KJ MJ GJ KJ h MJ h GI h W KW MW WH KWH KJ s KJ min O RPM min ss um mm cm m Km Others Hz KHz o us cm KN CRN CRV PPB RH 0 mg m PF m NTU m day MQ ug L mg L CPS PH Kg m mg m PF m Y LEL rpm Bar Special x P Description in the ordering request 1 Note 8 of unit setting are reserved for user in special requesting Figure 5 2 12 User will be able to define their special units from def1 def8 User Defined Units User Definedl f HSO User Defined2 40 User Defined3 RH User Defined4 T10M User Defined5 Ntu User Defined6 us _ User Defined7 So User Defined8 Kg dm enc a Figure 5 2 12 5 2 3 Display configuration J in below will be able to display in mode list r COMM Setting Main sereen Trend esBoomSereen Main No 1 Com port _ No 2 Com port Show Screen _ AVD Type RS 232 Type NLL v Alarm Y History Address OO l Address Iv SingleCH Y Power LOG Baud rate 9600 Baud rate 9600 y DoubleCH lv Config v Whole CH Ethernet v AlarmLOG Y BarGraph IP Add 192 168 O Y Port 100
11. e Figure 2 2 3 B Terminals ar oe 2 2 5 Wiring description N L G 2 2 5 1 Power Connection O O 1 L Line N Nuture G Ground 2 Before wiring inputs ensure power supply is correct 3 Input wiring must be under power off condition AC90 260V 2 2 5 2 Input signal connection Analog input signal connection and wiring are shown as Figure 2 2 4 and 2 2 5 Converter connection is shown as Figure 2 2 6 remove terminal cover For your convenient wiring should be from low to high Connecting all cable lugs with power off condition Recover it after completing Plastic cable lugs 4mm The following wiring is an example for single loop input Other each is similar RTD input T C input 43 A Se sa RE V 5 H f Signal H 1 C C i 9 Hi 1 gf Figure 2 2 4 Analog input diagram Figure 2 2 5 Frequency input transmitter wiring diagram o S 2 S lt O a F ji ct o m M E 5 2 wires transmitter 3 wires transmitter 4 wires transmitter Figure 2 2 6 Transmitter wiring diagram 2 2 5 3 Communication wire connection 1 RS 232C connection The RS 232C port is at the back of the instrument Figure 2 2 7 A and 2 2 7 B It can be used for both data transferring with computer and serial printer as well The transmission line should use the shielded twisted pair the length should be less 10 meters 9 pins connector to computer 9 pins connector to instrument Figure 2 2 7A RS 23
12. lower than 4mm The instruments operating ambient temperature 15 C 60 C humidity 10 85 without condensation is recommended Please keep away from the direct sunlight the multi steam the multi caustic gases and the source of the electromagnetism environment 2 2 2 Install Diamemsion ASR100 unit mm 144 0 Front view 30 160 30 20 Side view A 00000 0000 10 2 2 3 Installation Figure 2 2 2 rae Tightening screw q UIN i Mi SA 2 2 2 2 2 4 Terminal description Terminal arrangements are descripted on Figure 2 2 3 A and Figure 2 2 3 B Signal input Control output Description Power terminal and Grounding Analog input terminal Max 12 channels ASR100 DC24V Power output terminals Max 6 30mA each for converter power supply Relay output terminals Total 12 relay 250VAC 3A Sic he lec SITAR 88 Ni a aaa a zz Sea Re Ce 87878987 Nee sels z m Sil ee O IHE m ee m a Se lt a SS 11 OOD OO OOD OO dal i 2 2 4 2 Analog input wiring diagram A Maximum 12 channels input will be available 2 2 4 3 Multiple terminal diagram Universal input channel 9 to 12 can be set to for multipling terminals as special signal input terminals In this case the maximum universal input will be 8 channels al
13. micro printer is recommended Operating environment Ambient Temperature 15 45 C Humidity lt 85 RH Supply Voltage 95 260VAC 50 60Hz Weight Approx 3000 g ASR100 series 2a 1 1 3 Memoey Flash capacity vs channel number interrecord time and approx recording date Capacity Mbit Interrecord time S Number Approx recording date 32 Default configuration 64 Extened 1 2 4 1 2 4 2 4 1 2 4 1 2 41000 4 20500 ee 9920 E 7 6610 Input type and ECETIA range a E ont DCV input OFF 2 4V below TTL ON 2 4V above 1 2 Data saving mode 1 2 1 Internal data saving Nand Flash is used in the recorder No battery is needed It is safety for power incidently failure No distortion from recordered data as the data was saved as 16 bits Figure 1 2 1 1 minute 1 pix nel al aw IAQ HE la ae AA HE ae EM MA an lt UJ inuts 30 pixes 1 2 2 Data transferring Normal U drive 2 0 versions is used for data transferring 1 3 Alarm 1 3 1 Alarm modes Refer to the following table 6 of alarm modes Upper limit LED turns to red and H mark is display Md de Measured value besides real time reading when alarm activated It will return to green and H mark disappears after alarm relieving Figure 1 3 1 Lower limit LED turns to red and L mark is display MERRITT CHO1 besides real time value when alarm ac
14. mode by using O Q keys to select the ON OFF of curve display Change channel display mode 22 Vertical diplay real time readings are in different display mode 2 19 00 Figure 4 1 2 Figure 4 1 3 4 2 Alarm information It displays 4 alarm modes for all channels H Upper limit alarm L Lower limit alarm MAA J3 Action relay number E E E ee EE EA E E E PEA A EA E EE EEE ERE 4 3 Single channel Figure 4 2 1 Figure 4 3 1 is a single channel display mode It will include real time data display curve bar graphic and alarm status as well Measuring data will change to red color once alarm to be activated Alarm mode _ _ 08 03 06 10 50 18 W SingleCH r CH No Alarm mark Bar graph 4 4 Dual channels _ R CHO1 gt A Display mode 1 CH Unit 1 CH Measuring data iO 2 CH unit 2 CH No EN 2 CH Measuring data 4 5 Whole channels Figure 4 4 1 Date amp Time 08 03 14 14 27 15 Whole C sh Display mode Cc CHO6 CHO7 CHO8 c e s E Wp e C C c CH13 CH14 CH15 CH16 Alarm mark N Real time data C e C C 4 6 Alarm log Figure 4 5 1 The latest 12 alarm messages per channel are saved in alarm log The messages are included alarm happening relieving time alarm channel number alarm points and alarm mode as well Alarm mark turn to red it means alarm is happening green means alarm is relieving 08 03 14 14 27
15. time date printing 0o0ococococococococcocococococorocoacarananonanonoso 18 3 24 CONTIGUTACION SEAN a 18 3 23 TND ooo 18 3 2 6 Curve amplitude ococococcocococococococororoncnnaranonororononnararananarararnrrarararananananons 19 SL DA neon eones 19 328 A A NN 20 329 USB Me TANTO aiii aii 20 E o A ee oe eo eee eee ener 20 3 3 INSTRUMENT STATUS DISPLAY SUMMARY ccecccecuccucuseuaccuseuauuenseensecnseuauansaeansaeanaenas 20 4 OPERATING DESCRIPTION ainiai aiina aiian naana sanan 22 ALTREND MAIN PAGE o iaa loc oad Dd 22 4 2 AARM INFORMATION rta 23 4 3 SINGAL CHANNEL iS 23 4 4 DUAL CHANNEES cs vesstoasavecsaass colacao 24 425 WHOLE CHANNELS isis 24 AO ALARM LOG sisas ra cda 24 4 7 BARGRAPH MODE doncs 225 4 8 POWER FAILURE LOG 4 9 GENERAL OPERATING DESCRIPTION ccscsscecssecescususenaecuneeuenaecnsaeausenansnsaeanssuansenarenss 22 7 ATO HISTORY DATA RECA LE outra in 25 4 11 INSTRUMENT CONFIGURATION DISPLAY MODES ccececeeeeeeeetaeeeeeetseeaeeeeseeaeeaeeeeaseaees 29 EOIN ENE BER o ani r oa E do ec dio dn a 30 5 CONFIGURATION SETTING wn cccesscscstsnscserereresescsnssssessnensnessnensnessnenseeecnsscnnsnnns 30 5 1 GOTO CONFIGURATION SETTING Gia a E A 30 5 2 CONFIGURATION AND PARAMETER c0c0ccocorocnoro rr 31 A 2a a se Bee Se eae a ae a ee a ec en ected eee eee ETT 2315 5 2 2 Channels sctacieetoiciniteninannA enon Aenean a Aan eae 32 S2 D
16. 0 00 Differential Contrast value Alarm output ON 0 0000 FC 0 0000 0 0000 C C Differential Measured value contrast value 08 03 14 14 BarGraph i Alarm output ON lt M Contrast Differential To confirm alarm press the real time measuring value will return to normal and alarm mark will disappear 1 3 3 Alarm outputs Sound or signal alarm is available User can select the relays output and connection is as below ae o eel TT Normally close relays Notes Maximum 12 normally open relays or maximum 8 normally close relays output can be configurated in the ASR 100 chart recorder 2 Installation and wiring 2 1 Attention 2 1 1 Attention in instrument using There are many plastic parts in this instrument panel Please do use dry soft cloth for cleaning Solvents are not allowed for cleaning Please keep the LCD screen away from any sharpen goods Please keep any mechanical impact away during the instrument working It might cause internal component damage or system breaks down Turn off the power for any maintenance if necessary Please contact our customer service department or local dealer if any unusual sound belches smoke or unusual smell was found 2 2 Installation 2 2 1 Enviroment To ensure the instruments be normal working non strong interference control panel is strongly recommended to be installed on and the panel steel plate thickness should not be
17. 0000 0 000 8 8 000 1 000 1 000 9 9 000 2 000 2 000 10 000 10 00 3 00 3 000 11 000 11 00 4 000 4 000 12 00 12 00 5 000 5 000 13 00 13 00 6 000 6 000 14 00 14 00 7 0000 4 7 000 15 00 15 00 DNA A g w HUETE Note The total purview level is 10 1 adaministrator The highest purview s user can set purview level for others 5 2 7 Analog output configuration For analog output instrument it will display the analog output diagram Figure 5 2 23 and 5 2 24 shows The analog output V or I value can correspond channel sampling computing or flow rate result The instrument display will be disable if no function of Analog output With the function the maximum channels will be only 8 The analog output will occupy maximum 4 input channel s terminals from 9 12 The parameter refer to below S Factory Name Setting range Description setting Analog output 1 4 Analog output CH tags Real value Output modes Voltage Current Setting the signal mode of linear output Real value Sampling CH NULL 1 9 Setting the CH s of linear output NULL is no NULL A TO O Analog output range setting Assume that 0 20 mA l l l l Output range in the scope to be possible to establish willfully Real value e g 2 3V or 0 10mA Sampling transient Corresponding l l l Valery flow instantaneous Analog output corresponding type Sampling alue ty
18. 2C com between computer and instrument 14 3 pins connector to 9 pins connector to printer instrument Figure 2 2 7B RS 232C com between printer and instrument 2 RS 485 Com connection By using RS 485 communications with the computer communication converter RS232 to RS485 is needed See Figure 2 2 9 The RS 485 transmission line should use the shielded twisted pair When the baudrate is up to 19200bps the maximum transmission line will be less than 1000 meters In order to reduce the signaling and the echo trouble please install 120 ohm terminal resistances in the both sides of transmission line e g Figure 2 2 8 120QTerminal resistor 120Q Terminal resistor Figure 2 2 8 485 Com connection diagram 15 DATA DATA 9 pins connector to 9 pins connector at converter to instrument Figure 2 2 9 Com convertor to instrument RS485 connection 3 Operating 3 1 Power on Turn on the power with the grounding Default configuration is 220VAC First time power on is suggested that do not connect any input After 4 Seconds initialization below status will be seen 08 03 07 14 22 46 GED D J Gi Esg Figure 3 1 1 16 3 2 Key pads operating There are 14 function kays as 3 1 1 shown SY lt 4 P Channel selection Left Right shift A W Change display modes CS For confirming the function or selecting menu ESC Escape from the current operation In the main and history recal
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20. ING A 7 1 2 2 D ta transferning coxis 7 T ALARM A O f L3 L Aliri MOS coca a i Fee ame LaL L E A AEA OE E E T AT 8 1 3 3 Alarm QUEpUES oiire ics Sida dese aaa aaa Eaa aaa Eaa aa AR AARAA AERA aN 8 2 INSTALLATION AND WIRING ssssssus2225 22 10 Did AMEN TON ipni O E a trate 10 22 INSTALA ION a 10 Zar ENVIAMOS 10 Ll DIMENSION o 10 yee ES A A 11 22 l eminalCESCAPIO Nasa 11 LLANTA OS 11 2 2 4 2 Linear input wiring diagram ococococococcccononenenenonononnanananenenononininnanos 12 2 2 4 3 Multiple terminal diagraM cocococococociccononenenononononnanananenonononinnananos 12 2 2 4 4 DC 24V Power output diagram ocococococcccocononenononoconnanananenonononiniananas 12 2 2 4 5 Replay output terminal diagramM ocococcccccococononococnnconananenonocononnananos 12 223 Wina CESCAPNON 5 pass sae a a ce ee eee NTETE 12 2 2 5 1 Power CONNECUON corada ica annie 13 gt 223532 Mpt signal CONNECHON naaa eee eee eee ees 13 2203 COMM COMEN e ROS 14 3 OPEARTING ioniene a aa A anaa 16 SL POWER ON canada E E 16 3 2 KEY PADS OPERATING ai oi 7 3 2 1 Brightness adjustment s ssassnrrsnannnnrnnnnrssnnnnnrnsnnsnnnnsnnnnnnnnnasnnnnsnannnnnnnnn 17 3 2 2 Display MOAES coccocococococococcccononenonononenonononnnnaranenenononenrnranarenenenenrnrnraranenenens 18 3 2 3 Curve and real
21. ISDIAY OPC OO PO ee eee eee Fa 2 E COMM ONANGNI eee tere esa aTe eee 35 9 20 Printer CONTIG ARNON ion ssc ooo 35 5 2 6 Purview management DA OO 36 Sa MICA III A ta Eo ES 5 COMMUNICATION cias 40 0 1 COMMUNICATING CONNECTION ora A 41 7 MODULE AND SUFFIX CODE oc iio S MAINTAINANCE ini aaa on 42 9 1 CONNECTION INSPEC MON ci EEA AA 42 8 2 OPERATING ENVIRONMENT eo oo ada ES 42 9 3 REPLACE SPOILT FUSE reis 43 O CALIBRATION usais caa 43 9 72 CHANGE BATTER ooo a 43 Chart recorder 1 1 Features 1 1 1 Input amp Output Analog Input TCB S K Es T J W RTD PT100 CU50 Input signal Pulse Input Rectangular sine or triangular wave e Amplidute Range gt 4V frequency 0 15KHz o Output Signal 1 1 2 Performance 0 5 FS 1digit or 0 2 FS 1digit ignored level 0 25 5 FS Sampling Period 0 5 second 1 second 4 minutes High resolution brightness adjustable wide view angle and bright TFT color LCD 320x234 with saving screen 5 6 for ASR100 series available Alarm 4 alarm points per channel are available Upper lower alarm rate of change and differential limit Alarm output delay alarm delay high to low external connection sound available max 12 latest alarm messages are saved per channel Communication port RS 232 RS 485 Buad rate 1200 115200 bps Control action Hysteresis ON OFF relay output AC220V 3A is selectable TP x P A40
22. Setting e CHANNEL Tag CHO1 No 1 Channel Input Type 4 20mA Span _L 0 0000 Span U 100 00 Unit C Radix Point Ignored Val 0 0 0 0 Filter 0 0 SquareRoot No Fitting cur OFF Proportion 1 0000 0 0000 oct Offset Figure 5 2 3 Screen saver delay time setting Screen saver activated after delay time if no key operating Darkness level after screen saver ae Unavailable activating a Set No ALI AL2 AL3 Al4 Type H L R r Value 90 000 80 000 50 000 40 000 Warp 2 0000 2 0000 2 0000 2 0000 o D 1 M1 ae ss oe Sound ofr Off off ore Record on on On T o Figure 5 2 2 3 Alarm Set Note In alarm setting NULL is no alarm available No All AL2 AL3 Al4 Ei o Type h MW L NUL MM NULL H is alarm upper limit L is alarm lower limit R Value 90 000 40 000 is rate of change upper limit r is rate of change asia SALUA ER lower limit h is differential upper limit and I is Relay Out 0 0 differential lower limit Figure 5 2 3 Sound J orr f orr For the differential alarm presents a single Record On On i po ee lt lt BN schol direction arrow in the bargraph The upper limit a CANCEL alarm arrow is upward and the lower limit alarm OK CANCEL arrow downward In arrow scope with green is for Figure 5 2 4 alarm safe otherw
23. and number of users Higher level parameters can only accessed by administrator co a range Seema SRO ae O 200 IX com Instrument com address Buad rate bps 1200 2400 1200 2400 4800 9600 19200 9600 19200 Buadrateseleted rate selected a 36 Purview setting Purview Setting Figure 5 2 18 gt Change password User can only change their own s password gt Administrator setting It provides to advance level user setting As in Figure 5 2 19 Administrators Set Meter Name Set SWP ASR o CANCEL CANCEL Figure 5 2 19 CANCEL Figure 5 2 17 Operate Set CANCEL Figure 5 2 20 1 Figure 5 2 20 click Operating record display It will be show as Figure 5 2 21 08 10 08 21 03 48 DateTime i Operation 1 Display mode 10 08 20 54 56 CHANGE CHO UNIT KPa gt C re 10 08 17 42 36 CHANGE CHO1 100 gt 1000 vent detal 2 S 3 10 08 16 58 17 COMMIBAUD RATE 9600 gt 1200 4 10 08 13 33 26 CHANGE TAG_CHO1 CHO l gt TH 5 10 08 12 27 22 CHANGE PASSWORD 6 10 08 10 50 11 CHANGE SPAN _UP_CHO1 1000 gt 100 7 10 08 09 16 05 CHANGE FITTING CURVE_CHO1 OFF 10 08 08 58 01 CHANGE RECORD INTERVAL 3 gt 1 Fig 5 2 21 s3975 Note System can display different mode of events by press if events number is not enough to display in one line 2 In Figure 5 2 20 It is selectable to click Disable power On Off record
24. dering information IIS ESC TT IN IES ESC TT ON IES IC TT ON IN ESTI ON ION ICI IN ION IET E ON IAN IET ON IAN MEET ON IAN ICI ON IIS T ee aS fom SSS simple mese eon asin Chinese 41 IS Specification 1 One of C2 C3 can be selected By using printer must be RS 232 C2 port available Multi languages xi RS 485 comm port i 3 3 2 TPLP A40 micro printer is recommended 3 If analog output or frequency input are selected the maximum universal inputs number will be 8 Please refer to manual detail e g ASR108 2 1 J4 C2 Instrument dimension is 144x 144x240 8 channels English revision ASR chart recorder With 4 memory capacity relay outputs normally open and RS 232 comm port 64MB internal SWP ASR100A PW Power supply board 6x DC24V power output 0 6 SWP ASR100A AI Multi channel isolation board 1 8 SWP ASR100A USB USB Memory 1 64Mb 2 128Mb 8 Maintainance In order to ensure the instrument working properly regular maintanence is necessary 8 1 Connection inspection Ensure L N G power connection points are tighten Grounding resistance must lt 100 Q Ensure input signals wiring are properly contacted 8 2 Operating environment Operating temperature O c 45 C Humidity 10 85 without condensated Please do not use the instrument under direct sunlight high humidity corrosive gases and strength electromagnetism conditions
25. ersion Serial number Flash space and recording duration capability Circuit diagram ASR 10 NUM Circuit diagram SE TRETER QR AEA AE GEIGER J 9 99 Js of A gt a A A EA E A A ARA wc Et tal FE Fae a i 1 68 65 62 59 56 53 50 47 44 41 38 i e 7 aca E A LN E proj qas EE 72 69 66 63 60 57 54 51 48 45 42 39 Kg K 3A p p A i Kl K4 K7 G2 Fk RT1 i K2 K5 K8 G3 24V I RT2 naadh Ball Bimi K K3 K6 G1 G4 Fg e GND Al Al 07 06 Figure 4 10 1 Figure 4 10 2 29 4 11 On line help There are two parts of on line help First part will display function and usage Second part will display operating guide Figure 4 10 3 Trends display It will display CHs real time curve and date bargraph From manu it can set max 6 group and 6 curves per group Besides these the display in data bargraph grid type auto inspection curve directions parper simulation and color of background can be changed Trend display key help DIV Different div rate ENT Manu display Figure 4 10 3 Note Under difference display press will get on line help instructions DOWN will show the next page if help instruction is more than one page will escape back from help function 5 Configuration setting 5 1 Go to configuration setting 1
26. ise is alarm status with red arrow Figure 4 7 3 To set differential alarm comprison value is requested will display setting window as Figure 5 2 5 shown W A can be used for value setting in all channels Figure 5 2 4 Value Set AL1 COMPARE VAL CHO1 10 000 Measuring range Tags number punt Decimal point Ignored level CANCEL RTD T C Freq II Ill standard signal cal 9999 99999 CHO1 CH12 See Engineering unit 0 0 9 9 0 25 0 Yes No 9999 99999 9999 99999 No of curves Figure 5 2 5 Instrument input signal mode Channel definition Real time measurement engineering unit display To stable measuring value Decimal point for value display To cut off small signal in Result squre root process 0 value calibration Input signal proport offset Curve linear fiting by sectors 0 0000 100 00 CHO1 CH12 Note 1 When T S K J E B W mode was selected press there will be an TC_CTC Setting as shows in Figure 5 2 6 TC CTC Setting TC_CTC Setting TC CTC Setting RJC mode Auto RJC_mode Out RJC mode Value RJC Char CH02 RJC Value 0 0000 fcr Ence mcer Figure 5 2 6 If input signal is lower or higher than range setting system will remind it Engineering unit table Unit type Engineering unit Cc F bar mbar mmHg mHg mmH 0 mH 0 kgf
27. l page 4 grades of time div can be selected SE Press SET P goto instrument configuration setting F1 is a special function key It will combine with other keys and perform some special nN 00 B a AEE functions It will descript later N F2 is another special function key It will combine with other keys and perform some special functions It will descript later Lock key is for the parameter setting protection LCD right up site will show the locking mark Unlock status the display will be back to default automatically after non key touching 4 mins PAGE DOWN key is used for channel pages group display switching PRINT Print F1 will print out channels real time data or curve selectable It is for the brightness adjusting 3 2 1 Brightness adjustment Press a as Figure 3 2 1 shows A amp W key will be able to adjust brightness Press to save the setting and back to system 30 grades are available for setting Higher is brighter LCD Brightness e A Figure 3 2 1 173 3 2 2 Display modes As Figure 3 2 2 shown Press A YW to select the display modes Press ENT and select by manu Print Set Channel 01 Print type 01 SY Start Time os 06 05 0s 44 26 BNT End Time 08 os 07 15 17 fo1 CY Ence Figure 3 2 2 06 05 08 44 26 06 07 15 17 01 Figure 3 2 3 3 2 3 Curve and real time data printing
28. pe j heat energy 0 5 V Corresponding CH s value range of linear l Corresponding o l Sampling 9999 99999 output For flow CH it is the instantaneous value range l measurement flow rate other s areCH s sampling value Zero offset Linear output zero offset 0 0000 P offset Linear output proportion offset 1 0000 Note Real output signal Analog output P offset Zero offset AO Setting AO Setting AO CH l AO CH l Link CH NULL Link CH NULL Out Type elec Out Type volt Out Range 4 0 20 0 mA Out Range 4 0 20 0 y Link Range 0 0000 100 00 Link Range 0 0000 100 00 Zero 0 0000 ak 0 0000 Rate 1 0000 Rate 1 0000 Figure 5 2 23 Figure 5 2 24 Note Maximum of analog output will be 4 CHs The corresponding CH can be selected from CHO1 CHO9 Output mode will be Current I dc or Voltage V dc NULL is not analog output function 6 Communication SWP ASR100A series will be able to communicate with computer by using RS 232C or RS 485 Either of them is selectable The SWP ASR100A series chart recorder management software is ready for user to remoting moniter configuration setting data transferring and profile printing as well AQ 6 1 Communicating connection Notes Communication connection or disconnection Figure 6 1 0 should be under instrument power off condition 7 Model and suffix code Or
29. pressed the recall locator axis indicating the position of current recalls which the plot point locates The recall displays are with stepping recall continually recall and timer recall It can be switched by to display the group number SET to change the recall modes y WERE EE History basen Sree ae 3 i semen ee oe Partition line Recording data Upper left partion line of the maximum Lower left Partition line of the minimum Figure 4 8 1 Operating and displaying description 27 SET There are Stepping recall continue recall and timer recall according to recall modes setting lt 4 p Move cursor on channel display mark to select recall channel A YW Enable Disable CH ESC Escape from recalling function back to current relay status Stepping recall Recall the curve either forward the locator axial or moves a curve backward step by step ENT Step Alternate the curve localization axis for the dashed or the solid line lt q In horizontal display curve will shift to left if the axis is dashed line or the localization axis shifts to left if the axis is solid line Y gt In horizontal display curve will shift to right if the axis is dashed line or the localization axis shifts to right if the axis is solid line 7 A In vertical display curve will shift to up if the axis is dashed line or the locali
30. tivated It will return to green and L mark disappears after alarm relieving Figure 1 3 2 Rate of change upper limit When the rising rate of change is great to the designated value the alarm activated Alarm mark R display and value will turn to red Value will return to green and R disappears after alarm relieving Figure 1 3 3 Rate of change lower limit When the droping rate of change is slight to the designated value the NVI r alarm activated Alarm mark display and value will M IT r turn to red Value will return to green and r disappears after alarm relieving Figure 1 3 4 Differential upper limit When value is higher than the user setting s the alarm activated Value will turn to red and h mark will display Value will return to green and h will disappear after alarm relieving The setting value may be other channel s output or user designated Figure 1 3 5 Differential lower limit When value is lower than the user setting the alarm activated Value will turn to rr red and mark will display Value will return to green rr and will disappear after alarm relieving The setting value may be other channel s output or user designated Figure 1 3 6 1 3 2 Alarm marks 08 03 13 11 02 40 CHO gt Measured value 08 03 13 11 02 40 CHO I a Interval i 08 03 14 14 28 23 G BarGraph 5 CHO1 CH02 CH03 CH04 300 00 190 00 500 00 40
31. vel manu Show direction y Trend gt end P Simulation Moving ple On T na gt Alarm Numerical Display gt Off S CH Show P Bar graph Display gt Grid Show ci BarGraphb Gp History A Power Lost lt E SEA gop Hookup th System Set Alarming One CH Dual CH gt WhOle CH Alarm Log BarGraph gt 3 History gt Help Option gt Figure 3 2 7 Note For some new revsion recorder once the U drive inset into the recorder it will active U drive option functions either to save data or to upload software from U drive 19 3 2 8 Alarm Red alarm mark twinkling is showns that alarm is activated Press gsc the alarm mark will return to green and alarm relieves 08 03 07 13 20 41 H Trend By Aarm activated 08 03 07 13 20 41 E y Trend BA Alarm relieves 3 2 9 USB data transferring Figure 322 9 SWP ASR100 chart recorder is allowed normal U drive for data transferring 08 03 07 13 20 41 T Trend U drive detected 08 03 07 13 20 41 Trend No U drive detected 08 03 07 13 20 41 Trend Data transferring to U Figure 3 2 9 The data transfer completed when symbol changed color from red 3 2 10 Screen lock Press gt lock the current display Otherwise it will return back to Main automatically after 4 minutes duration without operating Unloack 3 3 Instrument status display summary 08 03 14 14 25 56 08 03 14 14 25 56 Figure 3
32. zation axis shifts to up if the axis is solid line sn Y In vertical display curve will shift to down if the axis is dashed line or the localization axis shifts to down if the axis is solid line Continue recall After the determination recalls the direction the system recalls automatically according to the stipulation gap number migration lt q In horizontal display curve will shift to left Functional instructions change to lt lt 01 E ee In horizontal display curve will shift to right Functional instructions change to gt gt 01 A In vertical display curve will shift to up Functional instructions change to lt 01 28 y In vertical display curve will shift to down Functional instructions change to 01 O lt lt 01 gt gt 01 A 01 01 are curve shifting directions Number is the step number Oo Timer recall Input recall time period Press ENT there will be a window showing as below Figure 4 8 2 Historical Time Set With lt Q and Y cursor will select date and time Input time location With W and will select 08 ES For 31 15 35 07 corresponding date and time user would like recall to ENT to confirm the recall period will follow canceL the time setting 08 01 31 15 30 52 08 01 31 15 37 42 Figure 4 8 2 4 9 Instrument configuration It will include instrument hardware and software information Instrument mode number Software v
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