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OM 602RS

6 DIGIT PROGRAMABLE

INSTRUMENT

RS 232/RS 485

GUARANTEE

Y E A R S

Summary of Contents for OM 602RS

Page 1: ...OM 602RS 6 DIGIT PROGRAMABLE INSTRUMENT RS 232 RS 485 GUARANTEE Y E A R S ...

Page 2: ...ents of the OM 602 series conform to the European regulation 89 336 EWG and the Ordinance 168 1997 Coll The instruments are up to the following European standards EN 55 022 class B EN 61000 4 2 4 5 6 8 9 10 11 The instruments are applicable for unlimited use in agricultural and industrial areas CONNECTION Supply of energy from the main line has to be isolated from the measuring leads ORBIT MERRET ...

Page 3: ...2 Selection of measuring range and parameters 43 6 1 3 External input function selection 53 6 1 4 Optional accessory functions of the keys 54 6 2 PROFI menu CHANNEL 6 2 1 Setting measuring parameters projection filters decimal point desc 58 6 2 2 Setting mathematic functions 61 6 2 3 Selection of evaluation of min max value 63 6 3 PROFI menu OUTPUT 6 3 1 Setting Limits 64 6 3 2 Setting analog outp...

Page 4: ...ITAL FILTERS Plovoucí průměr z 2 30 measurements Exponen average from 2 100 measurements Rounding setting the projection step for display MATHEMATIC FUCTIONS Min max value registration of min max value reached during measurement Tare designed to reset display upon non zero input signal Peak value the display shows only max or min value Mat operations polynome 1 x logarithm exponential power root s...

Page 5: ... instruments connected 2 3 Options Excitation is suitable for supplying power to sensors and transmitters It has a galvanic separation Comparators are assigned to monitor one two three or four limit values with relay output The user may select limits regime LIMIT DOSING FROM TO The limits have adjustable hysteresis within the full range of the display as well as selectable delay of the switch on i...

Page 6: ...om all power leads and appliances Provided this cannot be secured it is necessary to use shielded leads with connection to ground bracket E The instruments are tested in compliance with standards for use in industrial area yet we recommend to abide by the above mentioned principles 5 4 8 9 10 L N POWER SUPPLY E 1 2 3 11 12 13 5 6 7 14 15 16 17 IV V VI III II I L4 L3 L2 L1 EXT 1 EXT 3 EXT 2 RxD L T...

Page 7: ...INSTRUCTIONS FOR USE OM 602RS 7 ...

Page 8: ...nu structure For expert users Complete instrument menu Access is password protected Possibility to arrange items of the User menu Tree menu structure Setting PROFI Setting LIGHT For user operation Menu items are set by the user Profi Light as per request Access is not password protected Optional menu structure either tree PROFI or linear LIGHT Setting USER INSTRUMENT SETTING 4 ...

Page 9: ...FI which determine the right see or change acces without password All programmable parameters are stored in the EEPROM memory they hold even after the instrument is switched off Complete instrument operation and setting may be performed via OM Link communication interface which is a standard equipment of all instruments The operation program is freely accessible www orbit merret cz and the only re...

Page 10: ... stored after pressing the key the set value will be stored 30 continues on page 30 Setting the decimal point and the minus sign DECIMAL POINT Its selection in the menu upon modification of the number to be adjusted it is performed by the control key with transition beyond the highest decade when the decimal point starts flashing Positioning is performed by THE MINUS SIGN Setting the minus sign is...

Page 11: ...rement Menu Setting numbers selection access into USER menu exit menu quit editing programmable key function back to previous level move to higher decade programmable key function move to previous item move down programmable key function move to next item move up programmable key function confirm selection confirm setting selection numeric value is set to zero access into LIGHT PROFI menu direct acc...

Page 12: ...or capable users Only items necessary for instrument setting Access is password protected Possibility to arrange items of the User menu Linear menu structure Setting LIGHT SETTING Password 0 Menu LIGHT USER menu off Setting the items DEF Preset from manufacture Upon delay exceeding 60 s the programming mode is automatically discontinued and the instrument itself restores the measuring mode ...

Page 13: ... FORM A Projection Instrument address Data protocol ASCII PROT 0 ADDR 9600 BAUD Baud rate Commaand 0 COMMA Setting Integer Setting Integer 0 MIN 2 0 MIN 1 0 MIN 0 Setting Integer Setting Integer 0 MAX 3 MENU LIGHT RE SET FIRM LANG ENGL Menu type Return to manufacture setting Language selection PAS LI 0 New password MAX 2 Setting Request REQ 1 REQ 8 Setting Communi failure DASHES MOD T O REQ 1 REQU...

Page 14: ... to first item of the menu PAS 0 access into menu is protected ny number code Set Password 42 Example 0 1 2 02 12 42 22 32 BAUD 5 light light SETTING BAUD Selection of transmission rate of the data output selection of range 600 1200 2400 960 0 19200 38400 57600 115200 2304 00 Baud DEF 9600 BAUD Selection of rate 115200 Baud BAUD 115200 Example 9600 38400 19200 115200 57600 ADDR 600 1200 2400 57600...

Page 15: ... may be used for selection of received data for commands see data protocol instrument asks 10 questions s if no response arrives within 2 s the display shows SLAVE Passive display slave is used where there is communication of other isntruments or a computer in the MASTER mode If COMMAND is correctly received the instrumetns will display the data UNIVER Universal protocol in dynamic v dynamických i...

Page 16: ... AA COMMAND CR will wait on confirmation AA and after it will send out request about data AA CR MIN 0 Selection integer input range min MSB setting minimum value of input data it is entered by individual bytes in range 0 255 the input data format is sign integer 32 bits range 2147483648 2147483647 0x80000000 0x7FFFFFFF DEF 0 Selection integer input range MIN 0 0 Example 0 Selection of integer intp...

Page 17: ...F 0 MIN 1 Selection of integer input range min setting minimum value of input data it is entered by individual bytes in range 0 255 the input data format is sign integer 32 bits range 2147483648 2147483647 0x80000000 0x7FFFFFFF DEF 0 Selection integer input range MIN 1 0 Example 0 Selection of integer intput range min 1 MIN 1 0 MIN 2 Selection integer input range MIN 2 0 Example 0 Selection of int...

Page 18: ...EF 0 MIN 3 Selection of integer input range min LSB setting minimum value of input data it is entered by individual bytes in range 0 255 the input data format is sign integer 32 bits range 2147483648 2147483647 0x80000000 0x7FFFFFFF DEF 0 Selection integer input range MIN 3 0 Example 0 Selection of integer intput range min 3 MIN 3 0 MAX 0 Selection integer input range MAX 0 0 Example 0 Selection o...

Page 19: ...EF 0 MAX 2 Selection of integer input range max setting maximum value of input data it is entered by individual bytes in range 0 255 the input data format is sign integer 32 bits range 2147483648 2147483647 0x80000000 0x7FFFFFFF DEF 0 Selection integer input range MAX 1 0 Example 0 Selection of integer intput range max 1 MAX 1 0 MAX 2 Selection integer input range MAX 1 0 Example 0 Selection of in...

Page 20: ...EF 0 MIN 3 Selection of integer input range min LSB setting minimum value of input data it is entered by individual bytes in range 0 255 the input data format is sign integer 32 bits range 2147483648 2147483647 0x80000000 0x7FFFFFFF DEF 0 Selection integer input range MIN 3 0 Example 0 Selection of integer intput range min 3 MIN 3 0 MAX 0 Selection integer input range MAX 0 0 Example 0 Selection o...

Page 21: ...EF 0 MAX 2 Selection of integer input range max setting maximum value of input data it is entered by individual bytes in range 0 255 the input data format is sign integer 32 bits range 2147483648 2147483647 0x80000000 0x7FFFFFFF DEF 0 Selection integer input range MAX 1 0 Example 0 Selection of integer intput range max 1 MAX 1 0 MAX 2 Selection integer input range MAX 1 0 Example 0 Selection of in...

Page 22: ...it will not be used DEF 0 START 1 Setting the first intrductory symbol set directly in ASCII code range 1 127 DEF 2 Setting 1 Start symbol START 1 2 Example 2 Setting 1 Start symbol START 1 2 START 2 Setting 2 Start symbol START 2 0 Example 0 Setting 2 Start symbol START 2 0 AD POS Setting Universal protocol 5 light light SETTING ...

Page 23: ...tion of the address and other symbols which have to have a set value If set to 0 the block will not be taken into account The block can be anywhere in the message range 0 245 DEF 0 Setting address position Ad POS 0 Example 0 Setting the address position AD POS 0 ADR 1 Setting 1 address symbol Adr 1 48 Example 48 Setting 1 address symbol ADR 1 48 ADR 2 5 light light SETTING ...

Page 24: ...ymbol Adr 2 49 Example 49 Setting 2 address symbol ADR 2 49 SI POS SI POS Setting number sign position Number sign position If set to 0 it has to be part of the data This symbol can appear anywhere within the message range 0 245 DEF 0 Setting position SI POS 0 Example 0 Setting Signum position SI POS 0 PL SUP Setting Universal protocol 5 light light SETTING ...

Page 25: ...us will be displayed DEF YES ANO DA POS YES NO DA POS Setting data position Data position This block can be anywhere within the message If ending sequence is received sooner than the set number of symbols it is considered a succcesful reception range 1 245 DEF 1 Setting data position dA POS 0 Example 1 Setting data position DA POS 1 DA LEN Setting Universal protocol 5 light light SETTING ...

Page 26: ...e 1 7 DEF 6 Setting number of signs DA LEN 6 Example 6 Setting number of signs DA LEN 6 STOP 1 STOP 1 Setting the first closing symbol set directly in ASCII code range 0 127 If set to 0 the closing block will not be taken into account DEF 3 Setting 1 Stop symbol STOP 1 3 Example 3 Setting 1 Stop symbol STOP 1 3 STOP 2 Setting Universal protocol 5 light light SETTING ...

Page 27: ...F 0 Setting 2 Stop symbol STOP 2 3 Example 0 Setting 2 Stop symbol STOP 2 2 REQ 1 Setting Universal protocol REQ 1 First symbol of the request set directly in ASCII code range 0 127 If set to 0 request is not sent DEF 0 Setting 1 symbol REQ 1 0 Example 0 Setting first symbol of the request REQ 1 0 REQ 2 Same procedure for REQ 2 REQ 8 REQ 8 MOD T O 5 light light SETTING ...

Page 28: ...O NO BLANK FLASH DASHES Selecton mode Dashes Example TIMEOU DASHES DOT TIMEOU Setting the time constant for Timeout setting the time delay after which the indication of interrupted communication will appear on the display in the mode of Mod t 0 range 0 99 9 s DEF 1 0 s Setting Constant tIMEOU 1 Example 6 Setting Timeout constant TIMEOU 1 0 FORM A Item will not appear in MASTER protocol Item will n...

Page 29: ...eger input range max range of the setting is 99999 999999 position of the DP does not affect display projection the DP is automatically shifted after the value is confirmed DEF 0 00 Projection for min MIN A 0 00 Example 000 00 Selection of integer intput range max MIN A 000 00 MAX A Projection for max MAX A 100 00 Example 100 00 Selection of float intput range min MAX A 100 00 FORM A Setting ASCII ...

Page 30: ...FORM A Setting projection of the decimal point positioning of the DP is set here in the measuring mode DEF 0000 oo FORM A COL 0 subsequent item on the menu depends on instrument equipment 000000 00000 o 0000 oo 000 ooo 00 oooo 0 ooooo FLOA P 0000 oo 00000 o 5 light light SETTING ...

Page 31: ...INSTRUCTIONS FOR USE OM 602RS 31 5 light light SETTING ...

Page 32: ...331 MENU LIM L 1 Setting boundary for limit 1 range of the setting is 99999 999999 default Hysteresis 0 Delay 0 contingent modification of hysteresis or delay may be performed in PROFI menu DEF 20 LIM L 1 20 Setting boundary for limit 1 Setting limit 1 LIM L 1 32 Example 20 22 21 32 22 MENU 00531 0531 531 431 000531 000531 00053 1 231 subsequent item on the menu depends on instrument equipment SET...

Page 33: ...oundary for limit 4 range of the setting is 99999 999999 default Hysteresis 0 Delay 0 contingent modification of hysteresis or delay may be performed in PROFI menu DEF 80 Setting boundary for limit 4 Setting limit 4 LIM L 4 103 Example 80 82 81 93 83 83 003 MENU Setting limit 3 LIM L 3 85 Example 60 62 61 64 63 103 03 subsequent item on the menu depends on instrument equipment 65 75 65 85 MENU SET...

Page 34: ...eginning of the AO range MIN A O Assigning the display value to the beginning of the AO range range of the setting is 99999 999999 DEF 0 0 MAX A O MIN A O Displayed only with options Analog output TYP A O Setting the type of analog output Menu Range Description 0 20mA 0 20 mA E 4 20mA 4 20 mA with indication of error statement 3 6 mA 4 20mA 4 20 mA 0 5mA 0 5 mA 0 2 V 0 2 V 0 5 V 0 5 V 0 10 V 0 10 ...

Page 35: ...end of the AO range range of the setting is 99999 999999 DEF 100 5 light light SETTING MAX A O 100 Assigning the display value to the end of the AO range Display value for the end of the AO range MAX A O 120 Example 100 100 120 110 MENU Displayed only with options Analog output ...

Page 36: ...g tree menu structure DEF LIGHT LIGHT RE SET LIGHT PROFI RE SET Restoration of manufacture instrument setting in the event of error setting the manufacture setting may be restored restoration is performed for the currently selected type of the instrument input select TYPE provided you stored your user setting in the PROFI menu it may also be restored select USER loading manufacture calibration and...

Page 37: ...NGL Example PAS LI ENGL CZECH ENGL 0 Setting new access password PAS LI PAS LI Setting new access password access password for menu LIGHT range of the number code 0 9999 upon setting the password to 000 the access to menu LIGHT is free without prompt to enter it in the event of loss universal password 8177 may be used DEF 0 New password 341 PAS LI 341 Example 0 IDENT 1 01 11 21 31 41 041 341 241 1...

Page 38: ...t input setting Mode if SW version contains a letter in first position then it is a customer SW after the identification is completed the menu is automatically exited and the instrument restores the measuring mode YES OM 602RS 64 139 SLAVE 142 8 setting the input type SW number SW version instrument type Return to measuring mode 5 light light SETTING ...

Page 39: ...INSTRUCTIONS FOR USE OM 602RS 39 5 light light SETTING ...

Page 40: ...it a few items after quitting PROFI menu the instrument automatically switches to LIGHT menu access is password protected if it was not set under item N PASS 0 access into LIGHT menu and transition to item MENU with subsequent selection of PROFI and confirmation after re entering the menu the PROFI type is active access is password protected if it was not set under item N PASS 0 For expert users C...

Page 41: ...INSTRUCTIONS FOR USE OM 602RS 41 6 profi profi SETTING ...

Page 42: ...l values CONFIG Selection of measuring range and parameters EXT IN Setting external inputs functions KEYS Assigning further functions to keys on the instrument CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS CL TAR CL M M CLEAR Resetting internal values CL TAR Tare resetting CL M M Resetting min max value resetting memory for the storage of minimum and maximum value achieved during measuremen...

Page 43: ...d rate 600 Rate 600 Baud 1200 Rate 1 200 Baud 2400 Rate 2 400 Baud 4800 Rate 4 800 Baud 9600 Rate 9 600 Baud 19200 Rate 19 200 Baud 38400 Rate 38 400 Baud 57600 Rate 57 600 Baud 115200 Rate 115 200 Baud 230400 Rate 230 400 Baud TIMEOU ADDR CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS REQUES MOD T O 00 DEF PROT ADR P B BAUD ADDR Setting instrument address setting in range 0 31 DEF 00 ADR P ...

Page 44: ...EXT IN KEYS LEFT TMP LE MNU LE FN LE ENTER EXT 1 M HOLD NO HOLD SAVE DISPL D A O D A O L ALL LIM 1 NO NO Programming sche CON A 0 CON F 0 FORM M 000000 00000 o FLOA P MATH F NO MULTIN 1 MUL SIN X DESC M 00 00 BAUD 600 1200 230400 ADDR PROT ASCII M BUS UNIVER ADR P B 19 MAX 9F 100 00 MIN 9N MIN 0 MIN 1 MIN 3 MIN 9F MAX 9N MAX 0 MAX 1 MAX 3 000 00 00 COMMA START START 1 START 2 REQUES REQ 1 DOT 2 RE...

Page 45: ...ITS LIM 1 LIM 4 INP L 1 MOD L 1 TYP L 1 ON L 1 OFF L 1 PER L 1 0 0 0 HYS L 1 0 LIM L 1 20 0 TIM L 1 HYSTER FROM DOSING CLOSE OPEN NO CHAN A FIL A MAX AN OUT INP A O NO CHAN A FIL A MAT FN MIN MAX TYP A O 0 20mA Er 4 20 4 20mA 0 5mA 0 2 V 0 5 V 0 10 DISP PERM CHAN A FIL A MAT FN MIN MAX BRIGHT 0 25 50 75 100 RESTOR MENU LIGHT PROFI 0 N PASS IDENT OMD 201RS LANG CZECH ENGL RE SET FIRM USER SAVE eme ...

Page 46: ...AN may be used for selection of received data for commands see data protocol instrument asks 10 questions s if no response arrives within 2 s the display shows SLAVE Passive Display Slave passive display slave is used where there is communication of other isntruments or a computer in the MASTER mode If COMMAND is correctly received the instrumetns will display the data UNIVER Universal protocol in...

Page 47: ...e input data format is sign integer 32 bits range 2147483648 2147483647 0x80000000 0x7FFFFFFF DEF 0 MIN 0 Most significant byte MSB MIN 3 Least significant byte LSB CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS MIN 9F MAX 9F COMMA BAUD ADDR PROT MIN 9N MAX 9N MAX 2 MAX 1 MAX 0 MAX 3 0 MOD T O TIMEOU MAX 9N Selection of integer input range max setting minimum value of input data it is entere...

Page 48: ...t input range min setting minimum value of input data input data format is float according to standard IEEE 754 32 bits range 0 3 10 38 x 1 7 1038 DEF 0 TIMEOU MOD T O CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS COMMA BAUD ADDR PROT MIN 9N MAX 9N MAX 9F 100 00 MIN 9F MAX 9F Selection of float input range max setting minimum value of input data input data format is float according to stand...

Page 49: ... Displey goes off FLASH Last displayed value starts flashing DASHES Dash symbols displayed DOT Decimal point is displayed Item will not appear in MASTER protocol TIMEOU MAX 9F MOD T O CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS COMMA BAUD ADDR PROT MIN 9N MAX 9N 1 0 MIN 9F DEF TIMEOU Setting the time constant for Timeout setting the time delay after which the indication of interrupted com...

Page 50: ... if set to 0 it will not be used DEF 0 AD POS TIMEOU SIGNUM DATA CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS BAUD PROT STOP ADDR START MOD T O REQUES 0 ADR 2 ADR 1 ADDR Setting the instrument address either address in universal protocol or one or two symbols of fixed value AD POS Setting the address position Position of the address and other symbols which have to have a set value If set t...

Page 51: ...er sign plus will be replaced by space option NO number sign plus will be displayed DEF YES ADDR SIGNUM CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS BAUD PROT STOP DATA START MOD T O REQUES DA LEN 0 DA POS TIMEOU DATA Setting data format DA POS Setting data position Data position This block can be anywhere within the message If ending sequence is received sooner than the set number of symb...

Page 52: ...osing symbol set directly in ASCII code range 0 127 If set to 0 the closing block will not be taken into account DEF 3 STOP 2 Setting the second closing symbol set directly in ASCII code range 0 127 If set to 0 the block will not be taken into account DEF 0 ADDR SIGNUM CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS BAUD PROT DATA REQUES START MOD T O STOP 0 REQ 2 REQ 8 REQ 7 REQ 6 REQ 5 REQ ...

Page 53: ...ocking access into programming menu LIGHT PROFI TARE Tare activation CL TAR Tare resetting CL M M Resetting min max value DEF EXT 1 HOLD DEF EXT 2 LOCK K DEF EXT 3 TARE CHANNE SERVIC OUTPUT CLEAR EXT IN CONFIG KEYS INPUTS EXT 2 EXT 1 M HOLD EXT 3 DISPL ALL D A O L DIS A O M MOLD Selection of function HOLD DISPL HOLD locks only the value displayed DIS A O HOLD locks the value displayed and on AO D ...

Page 54: ...on CL M M Resetting min max value CL TAR Tare resetting MENU Direct access into menu on selected item after confirmation of this selection the MNU LE item is displayed on superior menu level where required selection is performed TEMP V Temporary projection of selected values after confirmation of this selection the item TMP LE is displayed on superior menu level whererequired selection is performe...

Page 55: ...Temporary projection is off CHAN A Temporary projection of Channel A value FIL A Temporary projection of Channel A value after processing digital filters MAT FN Temporary projection of Mathematic functions value MIN Temporary projection of Min value MAX Temporary projection of Max value LIM 1 Temporary projection of Limit 1 value LIM 2 Temporary projection of Limit 2 value LIM 3 Temporary projecti...

Page 56: ...EXT IN CONFIG KEYS INPUTS DOWN LEFT ENTER UP FN LE LIM 1 MNU LE LIM 2 LIM 3 LIM 4 MNU LE Assigning access to selected menu item LIM 1 Direct access to item LIM 1 LIM 2 Direct access to item LIM 2 LIM 3 Direct access to item LIM 3 LIM 4 Direct access to item LIM 4 Setting is identical for LEFT DOWN UP and ENTER 6 profi profi SETTING ...

Page 57: ...INSTRUCTIONS FOR USE OM 602RS 57 6 profi profi SETTING ...

Page 58: ...on MIN A Setting display projection for minimum value of input signal range of the setting is 99999 999999 DEF 0 MAX A Setting display projection for maximum value of input signal range of the setting is 99999 999999 DEF 100 0 FILTER SET A FORM A DESC A CHANNE SERVIC OUTPUT CHAN A MIN MAX MAT FN INPUTS P TAR A MAX A MIN A P TAR A Setting Fixed tare value setting is designed for the event when it i...

Page 59: ...arithmetic average from given number CON F A of measured values range 2 100 FLOAT Selection of floating filter floating arithmetic average from given number CON F A of measured data and updates with each measured value range 2 30 EXPON Selection of exponential filter integration filter of first prvního grade with time constant CON F A measurement range 2 100 ROUND Measured value rounding is entere...

Page 60: ...OA P 000000 Setting DP XXXXXX 00000 o Setting DP XXXXX x 0000 oo Setting DP XXXX xx 000 ooo Setting DP XXX xxx DEF 00 oooo Setting DP XX xxxx 0 ooooo Setting DP X xxxxx FLOA P Floating DP CHANNE SERVIC OUTPUT CHAN A MIN MAX MAT FN INPUTS FILTER DESC A SET A FORM A 0 DESC A Setting projection of descript for Channel A projection of mesured data may be extended at the expense of the number of displa...

Page 61: ... functions OFF Mathematic functions are off MULTIN Polynome F Ex Dx Cx Bx Ax 2 3 4 5 1 MUL 1 x F x E x D x C x B x A 5 2 3 4 LOGAR Logarithm F E Dx C Bx A ln EXPON Exponential F e A E Dx C Bx POWER Power F C Bx A E Dx ROOT Root F E Dx C Bx A SIN X Sin x F E D C B A sinx x sin x sin x sin x sin 2 3 4 5 CON Setting constants for calculation of mat functions this menu is displayed only after selectio...

Page 62: ...0 Setting DP XXXXXX 00000 o Setting DP XXXXX x 0000 oo Setting DP XXXX xx 000 ooo Setting DP XXX xxx 00 oooo Setting DP XX xxxx 0 ooooo Setting DP X xxxxx FLOA P Floating DP DEF CHANNE SERVIC OUTPUT CHAN A MIN MAX MAT FN INPUTS CON A CON B CON C MATH F CON D CON E CON F DESC M FORM M 0 DESC M Setting projection of description for MATH F projection of mesured data may be extended at the expense of ...

Page 63: ...INPUTS INP M M NO CHAN A FIL A MAT FN DEF INP M M Selection of evaluation of min max value selection of value from which the min max value will be calculated NO Evaluation of min max value is off CHAN A From Channel A FIL A From Channel A after digital filters processing MAT FN From Mathematic functions 6 profi profi SETTING ...

Page 64: ...VIC OUTPUT LIMITS AN OUT DISP INPUTS LIM 3 LIM 2 LIM 1 LIM 4 INP L 1 MOD L 1 TYP L 1 LIM L 1 HYS L 1 ON L 1 OFF L 1 PER L 1 TIM L 1 NO FIL A MAT FN CHAN A DEF MAX MIN INP L 1 Selection evaluation of limits selection of value from which the limit will be evaluated NO Limit evaluation is off CHAN A Limit evaluation from Channel A FIL A Limit evaluation from Channel A after digital filters processing...

Page 65: ...TCH ON TYPE SWITCH OFF LED signalization LED signalization JNJU JNJU IZTUFSFTJT EFMBZ 0 i 45 3w axis x LIM L limit H 2 hysteresis Z 0 Switch on relay TYPE SWITCH ON Z 0 Switch on relay TYPE SWITCH OFF LED signalization LED signalization Z 0 Switch off relay TYPE SWITCH ON LED signalization z z z z z z z z Switch off relay TYPE SWITCH OFF LED signalization z TYPE SWITCH OFF LED signalization Z 0 Sw...

Page 66: ... Frame limit for this mode the parameters are set for interval ON L the relay switch on and OFF L the relay switch off DOSING Dose limit periodic for this mode the parameters are set for PER L determining the limit value as well as its multiples at which the output is active and TIM L indicating the time during which is the output active CHANNE SERVIC OUTPUT LIMITS AN OUT DISP INPUTS LIM 3 LIM 2 L...

Page 67: ... on for type HYSTER HYS L 1 Setting hysteresis for type HYSTER indicates the range around the limit in both directions LIM 1 2 HYS ON L 1 Setting the outset of the interval of limit switch on for type FROM OFF L 1 Setting the end of the interval of limit switch on for type FROM PER L 1 Setting the period of limit switch on for type DOSE TIM L 1 Setting the time switch on of the limit for type HYST...

Page 68: ...hannel A FIL A AO evaluation from Channel A after digital filters processing MAT FN AO evaluation from Math functions MIN AO evaluation from Min value MAX AO evaluation from Max value CHANNE SERVIC OUTPUT LIMITS AN OUT DISP INPUTS INP A O TYP A O MIN A O MAX A O 0 20mA 4 20mA 0 5 mA Er 4 20 DEF 0 5 V 0 2 V 0 10 V TYP A O Selection of the type of analog output 0 20mA Type 0 20 mA E 4 20 Type 4 20 m...

Page 69: ...he display value to the beginning of the AO range range of the setting is 99999 999999 DEF 0 MAX A O Assigning the display value to the end of the AO range range of the setting is 99999 999999 DEF 100 CHANNE SERVIC OUTPUT LIMITS AN OUT DISP INPUTS PERM BRIGHT CHAN A MAT FN MIN FIL A DEF MAX PERM Selection display projection selection of value which will be shown on the instrument display CHAN A Pr...

Page 70: ...5 75 DEF 0 BRIGHT Selection of display brightness by selecting display brightness we may appropriately react to light conditions in place of instrument location 0 Display is off after keystroke display turns on for 10 s 25 Display brightness 25 50 Display brightness 50 75 Display brightness 75 100 Display brightness 100 6 profi profi SETTING ...

Page 71: ...INSTRUCTIONS FOR USE OM 602RS 71 6 profi profi SETTING ...

Page 72: ... N PASS Setting new access password IDENT Instrument identification CHANNE SERVIC OUTPUT MENU RESTOR LANG INPUTS N PASS LIGHT PROFI DEF IDENT MENU Selection of menu type LIGHT PROFI enables setting the menu complexity according to user needs and skills LIGHT Active LIGHT menu simple programming menu contains only items necessary for configuration and instrument setting linear menu items one after ...

Page 73: ...restore it option USER reading the primary setting of items in menu DEF USER Restore user setting of the instrument reading user setting of the instrument i e setting stored under SERVIC RESTOR SAVE SAVE Save user setting of the instrument saving the setting allows the operator its future contingent restoration CHANNE SERVIC OUTPUT MENU RESTOR N PASS INPUTS IDENT LANG ENGL CZECH DEF LANG Selection...

Page 74: ...hange the numeric code which blocks the access into LIGHT and PROFI Menu numerci code range 0 9999 universal passwords in the event of loss LIGHT Menu 8177 PROFI Menu 7915 CHANNE SERVIC OUTPUT MENU RESTOR N PASS INPUTS IDENT LANG IDENT Projection of instrument SW version display shows type identification of the instrument SW number SW version and current input setting Mode if the SW version reads ...

Page 75: ...INSTRUCTIONS FOR USE OM 602RS 75 6 profi profi SETTING ...

Page 76: ...enu on items indicated by inverse triangle L 1 setting may be performed in LIGHT or PROFI menu with the USER menu then overtaking the given menu structure Setting NO item will not be displayed in USER menu YES item will be displayed in USER menu with editing option SHOW item will be solely displayed in USER menu For user operation Menu items are set by the user Profi Light as per request Access is...

Page 77: ...uence in which they will be projected in the menu Example Into USER menu were selected these items keys CL TAR LIM 1 LIM 2 LIM 3 for which we have preset this sequence keys CL TAR 5 LIM 1 0 sequence not determined LIM 2 2 LIM 3 1 Upon entering USER menu key items will be projected in the following sequence LIM 3 LIM 2 CL TAR LIM 1 SETTING 0 setting projection sequence ...

Page 78: ...ta solicitation PC 232 ASCII A A CR MessBus No data is transmitted permanently 485 ASCII A A CR MessBus SADR ENQ Data transmission instrument 232 ASCII D D D D D D D D D D CR MessBus SADR D D D D D D D D D D ETX BCC 485 ASCII D D D D D D D D D D CR MessBus SADR D D D D D D D D D D ETX BCC Confirmation of data acceptannce PC OK 485 MessBus DLE 1 Confirmation of data acceptance PC Bad NAK Sending addr...

Page 79: ...0 0x00000000 0x7FFFFFFF AA9FHHHHHHHH CR Selection of float input range hexa number corresponding binary presentation of number with floating DP according to standard IEEE 754 single short float significance of individual bites SEEEEEEE EMMMMMMM MMMMMMMM MMMMMMMM where S signum 1 bit E exponent incl the signum 8 bitů M mantissa 23 bits range 0 3 10 38 x 1 7 1038 For both commands applies the rule If l...

Page 80: ...permitted input quantity range change input signal value or input range setting E I Ov Input quantity is larger than permitted input quantity range change input signal value or input range setting E HW A part of the instrument does not work properly send the instrument for repair E EE Data in EEPROM corrupted perform restoration of manufacture setting upon repeated error statement send instrument ...

Page 81: ...BS HT LF VT FF CR SO SI DLE DC1 DC2 DC3 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 DC4 NAC SYN ETB CAN EM SUB ESC FS CS RS US SP 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 0 1 2 3 4 5 6 7 8 9 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 A B C D E F G H I J K L M N O 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 P Q R S T U V W X Y Z _ ...

Page 82: ... HP 125 V Pilot Duty D300 ANALOGO OUTPUTS Type isolated programmable with resolution of max 10 000 points analog output corresponds with displayed data type and range are adjustable Non linearity 0 2 of range TC 100 ppm C Rate response to change of value 40 ms Voltage 0 2 V 5 V 10 V Curernt 0 5 20 mA 4 20 mA compensation of conduct to 500 Ohm EXCITATION Adjustbale 5 24 VDC max 1 2 W isolated POWER...

Page 83: ...INSTRUCTIONS FOR USE OM 602RS 83 11 TECHNICAL DATA PI Primary insulation DI Double insulation ...

Page 84: ...m 45 mm 13 5 mm 119 mm 1 2 T M 1 1 2 2 1 2 Instrument installation 1 insert the instrument into the panel cut out 2 fit both travellers on the box 3 press the travellers close to the panel Instrument disassembly 1 slide a screw driver under the traveller wing 2 turn the screw driver and remove the traveller 3 take the instrument out of the panel ...

Page 85: ...shall be eliminated free of charge For quality function and construction of the instrument the guarantee shall apply provided that the instrument was connected and used in compliance with the instructions for use The guarantee shall not apply to defects caused by mechanic damage transportation intervention of unqualified person incl the user unavoidable event other unprofessional interventions The...

Page 86: ...86 INSTRUCTIONS FOR USE OM 602RS NOTE ...

Page 87: ...INSTRUCTIONS FOR USE OM 602RS 87 NOTE ...

Page 88: ...rmity is assessed pursuant to the following standards El safety EN 61010 1 EMC EN 50131 1 chapter 14 and chapter 15 EN 50130 4 chapter 7 EN 61000 4 11 EN 50130 4 chapter 8 EN 61000 4 11 EN 50130 4 chapter 9 EN 61000 4 2 EN 50130 4 chapter 10 EN 61000 4 3 EN 50130 4 chapter 11 EN 61000 4 6 EN 50130 4 chapter 12 EN 61000 4 4 EN 50130 4 chapter 13 EN 61000 4 5 EN 50130 5 chapter 20 prEN 50131 2 1 par...

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