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NCS-TT105 Temperature Transmitter User Manual

1. Notes 1 Insert Get out the magnetic sticks in Mode M and Input adjusting is considered as f UI button operation once also inserting the magnetic sticks for long can be considered as long operation In a button operation it is suggested that user should insert the magnetic sticks for 1s and then get it out Otherwise the operation can t be tested The long operation is carried out automatically every two seconds 2 In order to avoid the collision between Confirmation and Mode when user is carrying out the confirmation operation when the process is 100 it means that the magnetic sticks are inserted for 2s and then get the two magnetic sticks out to make sure the confirmation operation When the process is 100 the magnetic sticks are not gotten within 3s which means to carry out switch operation When the process is not 100 user shall get the magnetic sticks out without operation 7 1 1 General Adjusting Method Following is the general adjusting method Please refer to D M PHSR icrocyber Microcyber Inc specific description for info in detail In the measurement value display mode press Mode M to do mode switch When it is displayed in mode needs to be adjusted get out the two magnetic sticks the present value to be adjusted will be displayed in the LCD Press 1 or to adjust after that press Enter to confirm Press M switch to measurement value display mode Notes 1 It is n
2. e Hot pent Bear DREES t Basis aale iii te wees a sitt Gi wrtn owt gt el D mt Jegen el Dr sans ipn PESTI Date TN b Ieant e rma E Zei ad fr rn Figure 5 6 Drag it to the PROFIBUS DP bus 30 a E E Mici ocyber Microcyber Inc Download the configuration information to PLC master station in the PLC list Then the periodic data communication configuration between PA instrument and master station is finished shown as figure 5 7 LE From sus a ai Iran EH Luna nta WWHLELLLLL 2 Sete ee G ERA 8 RI i Figure 5 7 Download the info to PLC PROFIBUS non periodic data communication configuration PROFIBUS DP non periodic data communication is the data communication between 2 Class master station and slave station facing connection The data communication is non periodic without affecting data communication The non periodic data is mainly PA function block parameters together with recognizing and diagnosing information for the device The non periodic data communication is mainly applied in management recognizing diagnosing testing maintaining for PA device Siemens device management software SIMATIC PDM can be used to carry out the non periodic data configuration for PA 3 FE Mic ocyber Microcyber Inc instrument There is an example given below to show non periodic data configuration for PA instrument Open the LifeList software attach
3. 1 peak to peak value noise is 16mV 7 39kHz 2 peak to peak value noise is 2V 47 63HZ No Communication et for non intrinsically safety 3 peak to peak value noise is 0 2V 47 63HZ for intrinsically safety 4 peak to peak value noise is 1 6V 3 9M 125MHZ Network connection Check network topology structure Check terminal matcher and wire connection Check the length of main trunk and branch Address conflict When coming to market the transmitter has a 82 Megs Microcyber Inc random address avoiding address conflict But on a network segment it still possibly appears address conflicts When conflict occurs sometimes conflicting device will be temporary address online you should just reset the device address Sometimes device will not be temporary address online you should cut off the electricity of conflicting device and then power them one by one modify the address of new powered device as non conflicting Power the device one by one and modify the address until all device are online Transmitter failure Replace the transmitter with others Fail to read value from transmitter Transmitter connection Check if it is short circuit or open circuit Check if it is the fault of transmitter itself Noise disturb Adjust damping Check if the earthing is correct Check if the terminal is wet Check if the cable is far from the strong Electromagnetic Interferenc
4. R 35 K If UNErr is displayed in text display it means the present digital display district displays the measurement value is different from present unit You shall use Mode 12 to modify unit or Mode 22 to modify sensor type to relevant to present value 7 4 11 Operation steps for setting sensor type Mode 22 It is about setting sensor type Before setting the type you should set No Channel for the pre modified type via Mode 02 HART smart transmitters support 15 sensor types You shall set sensor type according to the following steps Select mode 22 LCD will display sensor type identifier and atie JU EF PAT icrocyber Microcyber Inc related type identification Select sensor type via f or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar 15 sensor types supported by HART smart transmitters are shown as following Identifier Type Description Identifier Type Description 1 500R 9 E TC 2 4000R 10 J TC 3 CU50 11 K TC 4 CU100 12 N TC 5 PT100 13 R TC 6 PT1K 14 S TC 7 100MV 15 T TC 8 B TC 7 4 12 Operation steps for setting sensor wiring Mode 23 It is about setting sensor wiring Before setting the wiring you should set No Channel for the pre modified type via Mode 02 HART smart transmitters support 2 wirin
5. 9 3 TC Specification renna 85 9 4 Physical Parameters AA 86 M aa E icrocyber Microcyber Inc 1 Brief Introduction NCS TT105 smart temperature transmitter using the fieldbus technology is a new generation of smart fieldbus temperature transmitter and it is an indispensable field device for process control NCS TT105 transmitter integrates abundant function blocks and realizes not only general measurement function but also complicated control strategy NCS TT105 uses digital technology so it can connect with many types of thermocouple and thermo resistive sensors It has wide range and simple interface between field and control room which reduces the expense of installation operation and maintenance NCS TT105 supports HART FF and PA protocols It can be widely used in the petroleum chemicals electricity and metallurgical industries etc M aa E icrocyber Microcyber Inc 2 Installation 2 1 Installation For installation of NCS TT105 temperature transmitter three types of bracket pipe mounting flat bracket plate mounting angle bracket and pipe mounting angle bracket are provided Accordingly there are three installation methods as the following The installation of pipe mounting flat bracket the typical installation as Figure 2 1 shows Fix NCS TT105 temperature transmitter in flat bracket using four bolts provided and then fix the flat bracket on the vertical pipe in 50mm around with
6. DAMP PVLRV PVURV DISP Primary S PV Value M t Variable Unit gt a a Type UNIT PVTYP Bo M 2 wiring Zero Point M Enable HA Apr COMPE In mode switch the digital display district will display function code e g Fun02 The text display district will display function description show above e g CH_2 71 M Ppp icrocyber Microcyber Inc If the sensor wiring is 3 wiring in present channel it won t display 2 wiring zero point calibration menu When the sensor wiring is 2 wiring the function is effective If the sensor type is thermal resistance voltage or resistance it won t display cold end compensation enable menu When the sensor type is thermocouple the function is effective There is no need to confirm Mode 02 11 12 it will be saved after adjustment 7 4 4 Measurement value display It will display the measurement value selected in Mode 11 If the primary variable is selected the unit will be set in Mode 12 The method to return measurement value 1 Switch mode to NORM 2 There is no operation within 1 min There are no magnetic sticks for the 2 holes 7 4 2 Error Display In the course of local operation the following error info may occur Display Explanation NumEr Number Error FNErr Mode Number Error UNErr Unit unmatch Lock The jump pin is set as configuration protection de M HELIN icrocyber Microcyber Inc
7. 2 5 The wiring terminal board of NCS TT105 temperature transmitter SENSOR1 SENSOR2 CH1 CH2 COM CH3 CH4 Figure 2 6 Wiring of NCS TT105 temperature transmitter 3 wire SENSOR1 SENSOR2 Hel CH1 CH2 COM CH3 CH4 Figure 2 7 Wiring of NCS TT105 temperature transmitter 2 wire a Mic ocyber Microcyber Inc SENSOR1 SENSOR2 fe CH1 CH2 COM CH3 CH4 Figure 2 8 Wiring of thermocouple Signal wire should be passed through the wire hole Sensor signal wire shielding layer is single point grounding The bus signal wire shielding layer should be floating in instrument side and be grounding in bus power side The signal and bus cable should not share the line pipe or trunking with other equipment and should be away from high power device M aa E icrocyber Microcyber Inc 3 Principle and Structure NCS TT105 temperature transmitter uses resistive temperature detectors RTD or thermocouple and converts to fieldbus signal in order to measure temperature NCS TT105 temperature transmitter consists of five components as shown in Figure 3 1 1 Terminal board it is used to connect with bus temperature sensor instrument board and communication board 2 Instrument board it can convert the temperature sensor signal to voltage signal and then provides the digital signal to board via A D 3 Communication board it is the core of smart instrument providing the functions
8. 7 4 3 Setting No Channel Mode 02 It is used to set No Channel the default is CH_1 The range of No Channel CH_1 CH_2 You may set No Channel according to following steps Select mode 02 the present No Channel will be displayed in text display Select channel via 1 or J Use M to do mode switch The No Channel affects functions such as sensor type sensor wiring cold end compensation enable 2 wiring zero point calibration etc Please set the No Channel before doing pre adjusting 7 4 4 Operation steps for setting lower limit of range Mode 03 You shall set the lower limit of primary variable range according to following steps Select mode 03 LCD will display the present value and unit of primary variable special symbol district will display downwards arrowhead meaning it is setting lower limit of range Press Enter to set If the setting is successful it will show OK otherwise it will show Err When the calibration is successful it will return to 293 4 NG J Me DC b el Microcyber Inc measurement display mode 7 4 5 Operation steps for setting upper limit of range Mode 04 You shall set the upper limit of primary variable range according to following steps Select mode 04 LCD will display the present value and unit of primary variable special symbol district will display upwards arrowhead meaning it is setting upper limit of range Press Enter to set
9. 9 3 TC Specification TC accuracy 25 C Sensor Type Working Range C Accuracy Voltage 100mV 100mV 0 05 B 500 C 1810C 1 0 C E 200 C 1000 C 0 4 C J 190 C 1200 C 0 4 C K 200 C 1372 C 0 4 C N 190 C 1300 C 0 8 C R OC 1768C 1 0 C S 0 Cr 1768C 1 0 C T 200 C 400 C 0 4 C TC Other Specification 85 M PFE PAT icrocyber Microcyber Inc Cold junction compensation Accuracy Sensor Type B E J N K R S T 100mV 100mV Common mode aa gt 60dB 50Hz rejection Series mode Aya gt 60dB 50Hz rejection Temperature effect lt 50ppm C 9 4Physical Parameters Electrical 1 2 14 NPT connection Material of Aluminum Construction Weight 1 1kg 86 Microcyber Inc Add No 19 Feiyun Road Hunnan New District Shenyang China 110179 Tel 86 24 83602051 Fax 86 24 83602985 Http www microcyber cn
10. If the setting is successful it will show OK otherwise it will show Err When the calibration is successful it will return to measurement display mode 7 4 6 Operation steps for setting electric damping Mode 05 It is used to set electric damping the range is 0 32s You shall set the electric damping according to following steps Select mode 05 Use t Jor 4 to choose damping Use M to do mode switch 74 M HG PA icrocyber Microcyber Inc 7 4 7 Operation steps for setting Passive Range Lower Limit Mode 06 Passive range displacement sets lower limit of primary variable range You shall set the lower limit of primary variable range according to following steps Select mode 03 LCD will display the present lower limit value and unit of primary variable Use t Jor to adjust the lower limit value of primary variable range Press Enter to set If the setting is successful it will show OK otherwise it will show Err Use M to do mode switch 7 4 8 Operation steps for setting Passive Range Upper Limit Mode 07 Passive range displacement sets upper limit of primary variable range You shall set the upper limit of primary variable range according to following steps Select mode 04 LCD will display the present upper limit value and unit of primary variable Use t Jor to adjust the upper limit value of primary 754 JU EF PR icrocybe
11. calibrated by BIAS 2 Units are set by PRIMARY VALUE UNIT MAX SENSOR VAL UE 1 SV 1 Maxim State Definition according to SECONDARY VALUE 1 MIN SENSOR VAL UE 1 SV 1 Minim State Definition according to SECONDARY VALUE 1 MAX SENSOR VAL UE 2 SV 2 Maxim State Definition according to SECONDARY VALUE 2 MIN SENSOR VAL UE 2 SV 2 Minim State Definition according to SECONDARY VALUE 2 Thermocouple additional parameters as follows Parameter Function Description EXTERNAL RJ VALU E Fixed value from outer reference point Unit is set by PRIMARY_VALUE_UNIT If the unit is not for temperature it should be set as C 26 SWicrocyt Microcyber Inc Temperature at reference point Unit is set by PRIMARY VALUE UNIT If RJ TEMP the unit is not for temperature it should be set as C Setting reference point type coding as follows RJ TYPE 0 No reference no compensation 1 Inner temperature at reference point self tested by the device Choose 1 when in default Thermo resistance addi tional parameters as follows Parameter Function Description Linearization compensation for thermo COMP_WIRE1 resistance 1 selecting 2 wire or 3 wire Unit is fixed as Q Linearization compensation for thermo COMP_WIRE2 resistance 2 selecting 2 wire or 3 wire Unit is fixed as Q SENSOR_CONNECTIO N It can be used to connect sensor with 2 wire
12. display eg Fun 11 Function description is displayed in text display e g DISP There is no need to confirm Mode 11 14 they will be saved after adjustment For Mode 26 after successful adjustment it will turn to measurement value display mode 7 3 1 Measurement value display It will display configuration info of DSP display block and the local operation can t modify the unit When the value exceeds the LCD range it will display in scientific notation The method to return measurement value 62 h i Mic ocyber Microcyber Inc 1 Switch mode to NORM 2 There is no operation within 1 min There are no magnetic sticks for the 2 holes 7 3 2 Error Display In the course of local operation the following error info may occur Display Explanation NumEr Number Error FNErr Mode Number Error UNErr Unit unmatch Lock The jump pin is set as configuration protection 7 3 3 Setting No Channel Mode 02 It is used to set No Channel the default is CH_1 The range of No Channel CH_1 CH_2 You may set No Channel according to following steps Select mode 02 the present No Channel will be displayed in text display Select channel via 1 or J Use M to do mode switch The No Channel affects functions such as sensor type sensor wiring cold end compensation enable 2 wiring zero point calibration etc Please set the No Channel before doing pre adju
13. has three hardware jumpers by now only two of them are used SIM Jumper isn t shown as figure 5 12 06 M HANG icrocyber Microcyber Inc Figure 5 12 PA Smart Transmitters Hardware Jumper RST Jumper Reset jumper will reset the transmitter data back to factory Please make the transmitter powered off insert the jumper to RST and then power the transmitter on the data will be back to factory data Attention When the instrument is back to factory data please turn off the power supply again extract the jumper in RST and then use the instrument as usual If there is jumper in RST when you restart the instrument next time all the data will be back to factory data and configuration info before power off will be missing WP Jumper Write protection jumper can refuse any write operation for PA smart transmitter which can avoid the vicious modification for instrument data BECK M PHSR icrocyber Microcyber Inc 6 HART Transmitter Configuration 6 1Topologic Connection The connection of HART smart transmitter includes 4 20mA compatible mode and networking mode 4 20mA compatible mode HART interface device Analog Instrument digital communication refresh 2 3 times one second Transmitter First host device control system or power other host application Hand Device Figure 6 1 4 20mA compatible mode Feature 1 Connected to the above control system above via Al module and HART comm
14. inverse function may be used in signal characteristic of read back variables 4 3 Configuration NCS TT105 temperature transmitter can be configured by the Configurator software and NCS4000 DCS software of 2 Kabes J Micr ocyber Microcyber Inc Microcyber Inc NI FBUS Configurator of National Instrument and DeltaV system of Rosemount Environments 1 Windows 2000 or Windows XP system 2 NCS LD105 Linking Device H1 Bus Power Hi Terminator 3 FF Configurator Sensor type configuration Sensor type can be set by modifying SENSOR_TYPE parime a transducer block Such as PT100 099 Lei 2 mal mg CTET j f Ce s9 P Al Ingat Datget ss Tas Custenined 905 LAMI snag bbabahabott PRIMARY VALUE TYPE process temperature Hoi Brum it PRIMARY VALUE PRIMARY VALUE RA a CAL POINT HI L INFOO Float CAL POINT LO LSINFOO Flow lt CAL UNIT g 1001 Fum LINT Junge Erum INT jen T 1000 an 200m Erum LONT jen 7 C Type 8 Visible String 3 SENSOR CAL DATE Je type E DateTime Figure 4 3 Sensor type configuration s138 M af E icrocyber Microcyber Inc e Two wire zero point calibration configuration For two wire measurement the two wire zero point calibration can be set by modifying TWO_WIRES COMPENSATION parameter of transducer block Firstly give zero point value to channel making a short circuit Then set the TWO_WIR
15. manually sing Measureme nt Value 11 Select 1 from Fun11 PV SV1 SV2 Display 5 possibilities DISP Al RJTEMP Type Primary F Fun12 Temperature Variable 12 Selection UNIT init ohm Unit Pre selpre se Br Sensor tting tting Implementa Fun22 t prng Type ascen tion S_TYP resistance yp decre din voltage asing 9 resistance Pre Se Pre se Sensor 23 tting tting Implementa Fun23 Saviring Swing Wiring decre ascen tion CONN asing ding s10 Hot Microcyber Inc Fonction Mode Button Function Function Besta M WI 0 Enter Display ia Pre se PV Value 44 tting tting implementa Fun24 Primary variable Type decre ascen tion PVTYP algorithm asing ding Pre se Pre se Geer os tting tting implementa Fun25 0 Forbidden p ForbidEnable tion COMPE 1 Enable on Enable den 2 wiring Implementa The zero point Fun26 fic gk Zero Point 26 tion 2 CAL calibration only Calibration Calibration for 2 wiring Use M to do mode switch shown as Figure 7 4 Measurement M No Channel M Figure 7 4 Adjusting Function and LCD Display p Lower Limit M Upper Limit IM Value Display CH_1 or i NORM CH 2 LOWER UPPER Electric M Passive Lower M Passive Upper M measurement Value M lp Damping gt Limit Limit Display Type
16. or 3 wire 0 2 wire 1 3 wire Parameters defined by manufacture Parameters Function Description SENSOR_VALUE_1 Original data value for sensor 1 SENSOR_VALUE_2 Original data value for sensor 2 CAL_POINT_HI Calibration value at the highest point The unit is set by CAL_UNIT CAL_POINT_LO Calibration value at the lowest point BO M HANG icrocyber Microcyber Inc The unit is set by CAL UNIT Allowable minimum step length during the calibration ensures the calibration smoothly and the distance between ae highest point and lowest point is not too close The unit is set by CAL_UNIT CAL_UNIT Calibration units CC Q mV Select calibration channel CAL_CHANNEL 0 CHANNEL1 1 CHANNEL2 TWO_WIRES_COMPEN SATION 2 wire zero point compensation PROFIBUS periodic data communication configuration PROFIBUS DP periodic data communication is to exchange input output data between 17 Class master station and slave station in the polling way The communication method is non connected In every cycling period 1 Class master station sends data exchange request the slave station answers it passively The periodic data communication is mainly applied in configuration between slave station and PLC master station With it master station PLC receives slave station input data or output the data to slave station PA smart transmitter periodic data communic
17. shall implement the calibration of upper limit according to the following steps Select mode 17 LCD will display the calibrated process value last time and related unit Input the reference temperature value starting from this point via 1 or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Use M to do mode switch Please refer to 7 1 for detailed info about processing bar 58 JU PHSR icrocyber Microcyber Inc 7 2 6 Operation steps for setting sensor type Mode 22 It is about setting sensor type Before setting the type you should set No Channel for the pre modified type via Mode 02 FF smart transmitters support 15 sensor types You shall set sensor type according to the following steps Select mode 22 LCD will display sensor type identifier and related type identification Select sensor type via f or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar 15 sensor types supported by FF smart transmitters are shown as following Identifier Type Description Identifier Type Description 1 500R 9 E TC 2 4000R 10 J TC 3 CU50 11 K TC 4 CU100 12 N TC 5 PT100 13 R TC 6 PT1K 14 S TC 7 100MV 15 T TC 8 B TC 7 2 7 Operation steps for setting sensor wiring Mode 23
18. 18 af R Mici ocy be Microcyber Inc parameter and it can be input at random The number of character is no more than 16 5 DECI PNT NUMB X The parameter defines the precision of display parameter For example if you would like to display 3 bits after the decimal point it should be defined as 3 6 ACTIVE X The parameter value is FALSE or TRUE When other parameters are configured ready you should write it as TRUE so that it can activate the configured parameters and later the related parameter info will be shown in the LCD of smart temperature transmitter runge mmm en ole 3 25 93 53 ele M Bara 538 all lapat apen Aen Tana Cazxtosi ced 5 SE nsa ES TAG DESC Octet String lt STRATEGY 1 LANT 2 Byte aro ALERT KEY 1 LANT 1 Bytes o MODE BLK aa BOCK TAG All Visible String o RELATIVE INDEX 1 8 VINT 2 Byte SUB INDEX 1 2 LINT 1 Byte lt gt MNEMONIC 1 our Octet String 0 000000 Float D 2 i 8 UINT 1 Byte jer Monitoring Oi Enum UDNT enlAlpha ni Enum UENT key Trve d Enum UINT TT TRANSDUCER BLOCK 2 Visible String ao RELATIVE INDEX 2 la LENT 2 Byte Figure 4 6 Parameter configuration for display block 19 HANG J Me ocyber Microcyber Inc 4 4 Jumper pin Configuration NCS TT105 temperature transmitter has three hardware jumpers shown as Figure 4 7 SIM Jumper Simulattion jumper can achieve simulation function WP Jumper Write protectio
19. ES_COMPENSATION parameter as Start to write in If it is successful read the parameter If the parameter value is Finished it indicates that two wire zero point calibration is successful Enable cold junction compensation If the sensor is thermocouple the SECONDARY_VALUE is a cold junction temperature In default status first enable the cold junction compensation function User is able to set cold junction compensation function by setting the SENCONDARY_VALUE_ENABLE If it is set as Enable it will be at enable cold junction compensation the PRIMARY VALUE is the temperature value after cold junction compensation If it is set as Disable it is at enable cold junction compensation forbidden the PRIMARY VALUE is the temperature value without cold junction compensation e Two point linearization calibration Temperature transmitter has strict calibration in factory Generally it is not necessary for user to calibrate User can use CAL POINT HI CAL POINT LO and CAL UNIT to carry out two point linearization calibration Operation steps shown as following 1 Make sure and set SESOR TYPE and set CAL UNIT 14 h i is J Me ocybei Microcyber Inc according to sensor type Now it supports Celsius Ohms and MV Set transducer block MODE parameter as OOS and then set the SENSOR_CAL_METHOD as User Trim Standard Calibration Give standard data to channel to calibrate via standard source when the input is stabl
20. INT F Goen 9 000000 lt a CAL POINT Y 2200000 Figure 4 4 CAL CURVE Y configuration Input standard signal via standard source open the related transducer block read the PRIMARY VALUE value and write it to the CAL POINT X array For example if the read value is 10 2 20 5 30 4 are written to the CAL POINT X array shown as Figure 4 5 The calibration is finished 16 h i PR Mic ocyber Microcyber Inc rw mere TT TRANSDUCER BLOCK ITH Eee am SENSOR CONNECTION Three Wras mm SECONDARY VALUE lt SECONDARY VALUE UNIT amp 1901 Enum WONT lt gt ENARE LIN CURVY o CAL POINT Xx POINT X X a000 zen OI CAL POINT X 9 009000 Finat ma a CAL POINT X lt gt CAL POINT Y KI 3 In def Figure 4 5 CAL_POINT_X configuration Set SENSOR_CAL_METHOD as User Trim special Calibration and set ENABLE LIN CURVE as Enable Curve which makes the smart transmitter work according to calibrated characteristic curve LCD Configuration ault status the LCD of smart temperature transmitter displays PRIMARY_VALUE of the first channel transducer block shown as Figure 4 6 If you need to display parameter info of other function blocks you may configure as following steps param tempe cycle X represents 1 2 3 and 4 There are 4 groups of eters each group can be configured separately Smart rature transmitter can display different parameters in If parameter
21. It is about setting sensor wiring Before setting the wiring you should set No Channel for the pre modified type via Mode 02 FF smart transmitters support 2 wiring and 3 wiring 59 JU PHSR icrocyber Microcyber Inc You shall set sensor wiring according to the following steps Select mode 23 LCD will display sensor wiring value Select sensor wiring via f or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar 7 3 Adjusting for PA Smart Transmitter In this section we describe the adjusting steps of PA smart transmitter By adjusting in the workplace you can carry out bus address physical unit sensor type sensor wiring and so on for transmitters The functions and operation are shown as following in detail as Button Function Cun Function Bienes Description MI D f Enter y Measureme Val displayed in nt vate Mode 11 Display Failure When the transmitter is Failure os f in failure it will display display the reason A Display No 02 Decreasi Ascendi Fun02 No Channel x 1 Channel ng ng CH_x or 2 Measureme 11 Select 1 from 5 Fun11 DV SV1 SV2 nt Value possibilities DISP Al RJTEMP Display 60 BAR ANG Kar MMicrocyber Microcyber Inc GE Button Function ECH Funct
22. PHSR Mici ocybei Microcyber Inc As the core of NCS TT105 temperature transmitter the communication board connects terminal board isolation board instrument board and display board The LCD board rotating in four angles is fixed on the communication board as Figure 3 4 shows Figure 3 4 Assembly structure of the transmitter 4 FF Transmitter Configuration 4 1 Network Topology FF transmitter supports many kinds of connection as shown in Figure 4 1 There is a transmitter bus connection the bus ends are connect terminal matching resistance which ensures the signal quality as shown in Figure 4 2 The maximum length of bus is 1900 meters and it can be prolonged to 10 kilometers with repeaters Primary Control Station Fieldbus UO junction box FF bus Point ta Point Bus Tree Figure 4 1 FF network topology 10 Microcy icrocyber Microcyber Inc Up to 1900 meters Bus Power with Terminal FF Bus Field FF device Link Master Figure 4 2 FF bus connection 4 2 Function Blocks FF smart transmitters carries out the FF standard function blocks shown as the table below Please refer to related FF protocol document for detailed info about configutaion methods of function blocks Function Block Description Resource block is used to describe the device identity in the field such as device name RES manufacture serial number
23. There is no input or output parameter in the resource block Generally there is only one resource block for each device Transducer block is used to read sensor hardware TRD data or write the data in the field to related hardware Transducer block includes the info such siTe Megs Microcyber Inc as range sensor type linearization I O data etc DSP DSP block is used to configure display info in LCD PID PID function block has the function of PID control and setting point adjustment process value PV filtering and alarm output tracking etc Al Analog input function block is used to achieve transducer block input data and transfer to other function blocks has the function of range conversion square root cut mantissa etc LLAG LLAG function block is used for feedforward control RA RA function block is used to control the proportion between inputs PID Control This block has a lot of features as set point treatment value and rate limiting filtering and alarm on PV feed forward output tracking and others IS This block has four analog inputs that may be selected by an input parameter or according to a criterion as first good maximum minimum middle and average Signal Characteristic This block has capability for two signal characteristics based on the same curve The second input has an option for swapping x to y and
24. are the unit supported by primary variable Identifier Unit Description Identifier Unit Description 1000 K 1243 mV 1001 C 1281 Ohm 1002 F 1003 R 7 3 6 Operation steps for setting bus address Mode 13 In this mode you shall set the user address of PROFIBUS the allowable range is 0 126 You shall set the user address of PROFIBUS according to the following steps Select mode 13 the user address of PROFIBUS will be displayed in measurement value display Select the address via f or in the allowable range Press Enter to set If the setting is successful it will show OK otherwise it will show Err 65 M af E icrocyber Microcyber Inc Please refer to 7 1 for detailed info about processing bar 7 3 7 Operation steps for setting scaling position Mode 14 The measurement value can display as much as 5 decimals You shall move the position of scaling according to the following steps Select mode 14 the scaling position will be displayed in digital display Select expected digital format via 1 or 8 88888 88 8888 888 888 8888 88 88888 8 888888 Use M to do mode switch and the setting will be saved 7 3 8 Operation steps for setting sensor type Mode 22 It is about setting sensor type Before setting the type you should set No Channel for the pre modified type via Mode 02 PA smart transmitters support 15 sensor types You shall
25. as zg rn Figure 6 7 Variable monitoring 7 Special Command The user is able to carry out all the special functions of HART smart transmitter via special command tab shown as Figure 6 8 Configure LCD Display Type The function is used to set the content of LCD There are 5 48 M HFJ icrocyber Microcyber Inc options PV value SV value current value percentage and circulated display PV value current value Small Signal Cut The function is used to set small signal cut variable the variable is the proportion in the full range The setting value range more than 0 and less than 0 005 Shown as the figure if the setting value is 0 002 the value in 0 002 of full range can be ignored If the sensor type is 0 4000R the value in 8 ohm can be ignored the PV value output is 0 ohm Recover Leave Factory Default Value Click this button all the data will be recovered to leave factory status If the user saved the leave factory value all the data will be back to saved status If not the data will be back to leave factory default status Save As Leave Factory Value Click this button all the data will be saved as leave factory value Click the button of leave factory default value it will recover the saved configuration Range Calibration Recovery Click this button range calibration will be back to original status Primary Variable Zero Point Recovery Click this button primary variable zero point will be back to orig
26. ation configuration is similar to PROFIBUS DP slave station only a coupler or a linker between PA BUS and DP BUS is needed to add between PA bus and DP bus PA smart transmitter periodic data comes from output 298 h i s Mici ocyber Microcyber Inc parameters of Al function block There are 5 bytes including 4 bytes of temperature floating data and a byte status byte As for periodic communication 2 identifiers are supported by transmitter those are short identifier 0x94 and long identifier 0x42 0x84 0x08 0x05 You may use Siemens Step to configure periodic data communication for PROFIBUS PA Following is an example for configuration with Siemens Step 7 Turn on SIMATIC Manager select PLC master station and create a new project shown as figure 5 4 Ant pen 157 Pal Carpet en C Braga HG Steet eit Pol oy a Eat eer AC Yew Goto Widow Let De Figure 5 4 Select PLC master station and create a new project Click Hardware twice to turn on HW Config Software Hardware Configuration Select Install GSD to install PA transmitter GSD document in Option list shown as figure 5 5 29 a li i Mici ocyber Microcyber Inc T sall ED E Aen ee si B mere E AER Zenn EAT SS Figure 5 5 Install GSD After GSD Document is installed successfully the installed PA device will be listed in the PROFIBUS PA index on the right of HW Config Software Click it and drag it to the PROFIBUS DP
27. configuration is wrong it will display F lt NG is J Me DC b er Microcyber Inc CONFIG_ERR You should write display block mode as OOS before the correct configuration and write as AUTO when it is configured successfully Thus the configuration is effective 1 4 BLOCK_TAG_X The parameter defines the name of function block to display For example if you would like to display some parameter in Al1 function block you should configure BLOCK_TAG_X and define the parameter as Al1 Notes It is required that the input character must be 32 bytes if it is less than 32 bytes you should use blank to fill in otherwise it won t display correctly For example if you would like to input Al1 you should write Al1 in configuration software RELATIVE_INDEX_X The parameter defines the parameter index of display function blocks For example if you would like to display Al1 output value you should define the parameter as 8 8 is Al1 function block OUT parameter index User should refer to FF function block protocol for more info about function block output parameter index SUB_INDEX The parameter defines the parameter sub index of display function blocks if there is For example if you would like to display OUT parameter value in Alt function block you should define RELATIVE_INDEX_X as 8 and define SUB_INDEX_X as 2 2 is the sub index in OUT parameter value MNEMONIC_X The parameter is the name of display
28. configuration separately With PDM software after configuration choose Device gt Online Configuration or Device gt Offline Configuration to do write operation for the function parameter Sensor type configuration Sensor Type can be set by modifying Characterization Type and Input Range and Mode Parameters of transducer block E g PT100 CU50 etc When Characterization Type Parameter is Linear Input Range and Mode Parameters are effective 2 wire zero point calibration configuration For 2 wire measurement you may use 34 h i s J Me DC b el Microcyber Inc TWO WIRES COMPENSION parameter to calibrate First set zero value for channel which will cut the channel off Next turn on PDM software after the configuration choose Device gt Offline Configuration gt Transducer Block 1 In Advanced Settings there is 2 wire calibration function After pressing write button when Finished is displayed it means 2 wire zero point calibration is successful Enable cold end temperature compensation When thermocouple is used as sensor Reference Junction Temperature parameter of transducer block is cold end temperature value Primary Value is measurement value related to cold end temperature value If OC is to display in primary value output it can be realized by setting Reference Junction parameter If 1 C is to display in primary value output it can be realized by measurement temperature as well as cold end temperat
29. configured data will disappear and will return to factory data Please pay more attention when you do like this You may return instrument data to factory data according to the following steps Turn off the power supply with instrument Insert two magnetic bars into Zero and Span holes at the same time Turn on the power supply for instrument the LCD will display RST f you would like to return instrument data to factory data get the two magnetic bars out and then insert two magnetic bars when the process is 100 get the two magnetic bars out again the LCD will display R OK which means the return is successful If you wouldn t like to return instrument data to factory data get the two magnetic bars out and wait for 5 seconds it will back to normal Notes For FF smart transmitter or PA smart transmitter following the steps above if there is RAT jump pin it will return to factory data without RST When the process is not 100 if you get the two magnetic bars out it may cancel the operation of returning instrument data to factory data 81 M is icrocyber Microcyber Inc 8 Maintance Phenomenon Solution Transmitter connection Check the bus connection Check the polarity of bus power Check shield of bus cable whether it is single point earthing Bus power Bus power should in the range 9 32V for the transmitter Bus noise and ripple should fulfill
30. e Software configuration Check the type of sensors Check the function block configuration Transmitter failure Replace the transmitter with others 83 SMicrocyt Microcyber Inc 9 Technical Specification 9 1Basic Parameters Resistance PT100 CU50 CU100 0 500Q 0 20000 Input Signal Thermocouple B E J N K R S T Voltage signal 100mV 100mV Channels 4 Channels RTD connection 2 3 wire Power Supply of Fieldbus FF PA 9 32 VDC Current lt 14mA Between housing and terminal board Insulation 500 Vrms 707 VDC Display 6 digit numeric and 5 digit alphabet LCD Display Operation 40 85 C Without display Temperature 30 70 C With display Humidity Range 0 100 RH Start Time lt 5s Update Time 0 2s Protection grade IP 65 EMC Designed to comply IEC 61000 GB T 18268 2000 9 2RTD Specification RTD Accuracy 25 C Sensor Type Working Range C Accuracy 84 SWicrocyt Microcyber Inc Resistance 0 5000 0 20000 0 05 PT100 200 850 C 0 2 C PT1000 200 250 C 0 1 C CU50 50 150 C 0 3 C CU100 50 150 C 0 2 C RTD Other Specification Wiring 2 3 wire Update Rate gt 1HZ CH Common mode rejection gt 80dB 50Hz Series mode gt 60dB 50Hz rejection Temperature effect z50ppm C
31. e RO correction factor correct the error of sensor itself 45 Microcyt bie Sarao CymentAd Dees San SoecwCornmand Microcyber Inc Sommer No Serua Na Soar Ong 0 000 Factory Cale at Eac r az 20 Ahar ONL La B i 861000305 a Figure 6 5 Sensor configuration 5 Current Calibration You may use current calibration TAB to calibrate online device 4 20mA current and configure fixed current output The steps of current calibration are shown as following 1 Connect the loop an ammeter with the 5 1 2 digit precision should be series wounded in the output loop of the smart transmitter 2 Set device rolling address as O please refer to basic info configuration If rolling address is 0 already this step can be skipped 3 Enter current calibration option TAB 4 Select current value as 4mA when the ammeter is stable input the value in ammeter to adjustment value and then click Apply 5 Select current value as 20mA when the ammeter is stable input the value in ammeter to adjustment value and then 46 HG J Me DC b el Microcyber Inc click Apply 6 Select current value as blank make the device output current as PV value Configure Current Fixed Output Input the value of the current the smart transmitter will be fixed on to fixed current value and click the button enter exit fixed current mode to enter or exit the mode of fixed cur
32. e write calibration data to CAL POINT HI or CAL POINT LO according to upper limit calibration or lower limit calibration It is successful if there is no write error Notes The calibration will be fail if there is a great deviation between write in calibration data and practical input channel data e Multi point linearization calibration User can carry out the second calibration for transmitters via calibration parameters CAL CURVE Xand CAL CURVE Y of transducer blocks 1 Smart temperature transmitter supports 8 calibration point inputs the parameter CAL CURVE Y array of the transducer block User can write output value to calibrate into array in turn and select unit For example when for three point interpolating calibration 10 20 30 can be selected as the calibration points the values are written in CAL CURVE Y array shown as Figure 4 4 15 kat J Hicr 0 cyber Microc ber Inc Ingat Owtpet Aare Zen Catzsetze Tans SENSOR CAL LOC Visible String lt SENSOR CAL DATE 0000 00 00 O20000 Date e lt SENSOR_CAL WHO Visible String lt a SENSOR CONNECTION Three Wires 3 Enum VINT SECONDARY VALUE o SECONDARY VALUE UNIT 11001 Enum UINT kr d gt ENABLE LIN CURV jenjDisablo Curve oO Enum UINT lt CAL POINT Xx lt CAL POINT Y ei CAL POUNT Y 30000000 lt s CAL POUNT Y 20 000000 CAL_POONT_Y 30 000000 CAL POINT Y 0 000000 lt 3 CALPOINT_Y 21000000 a CALPO
33. ed by SIMATIC PDM select Start to scan DP bus in Scan list shown as figure 5 8 Figure 5 8 Start LifeList After scanning the bus slave station device in DP bus will be listed meanwhile the device manufacture ID number and some diagnosing information are displayed shown as figure 5 9 ECESE Ke L Deet Se ex ep eg cot mach Pa cate machange Sie mart be ergi ra Cer MT BPR Figure 5 9 Scan DP bus and List PA device si a h i Mic ocyber Microcyber Inc Click PA device twice to start SIMATIC PDM software You may read write and diagnose parameter for PA device Select the Device catalog when you are asked to select the PA instrument type lead the GSD document Microcyber Inc NCS TT105 can be selected for the NCS TT105 series of PA transmitters shown as figure 5 10 nr Io kt ror TES bas wey Figure 5 10 Select Device Type After selecting the device type click OK thus non periodic data communication is configuration successfully You can carry out the parameter read and write via the function of upload and download function of PDM Software shown as figure 5 11 SD BANI Gd Mici ocybei Microcyber Inc D n NS ma CT am iongan rage mmm Figure 5 11 Device Management with PDM software Online offline configuration function PA smart transmitter realizes PA standard function blocks online and offline configuration functions realize function block parameters
34. ed to SV_1 0 Input normal Bit 0 Reservation Bit 1 Higher than the upper range Bit 2 Break Bit 3 5 Reservation Bit 6 Communication failure INPUT_FAULT_2 Input fault the failure diagnosed objects related to SV_2 Please refer to INPUT FAULT 1 for the bit description Deviation value for processing parameters of BIAS 1 Channel 1 Units are set by PRIMARY VALUE UNIT Deviation value for processing parameters of BIAS 2 Channel 2 States are set by PRIMARY VALUE UNIT 0 mV Range 1 gt mV 100 INPUT_RANGE 128 Q Range 1 gt Ohm 500 129 Q Range 2 gt Ohm 2000 LIN_TYPE Linearization type SENSOR_MEAS_TYP E Sensor mathematics function type coding as follows 0 PV SV_1 1 PV SV 2 128 PV SV 1 SV 2 D value 129 PV SV 2 SV 1 D value 192 PV SV 1 SV 2 Average Value 194 219 Reservation 220 239 Manufacture designation 25c Hot Microcyber Inc PRIMARY_VALUE Transmitter measurement value and status Units are set by PRIMARY_VALUE_UNIT PRIMARY_VALUE_U NIT Engineering unit code of transmitter measurement value UPPER SENSOR LI MIT Sensor physical upper limit LOWER SENSOR L IMIT Sensor physical lower limit SECONDARY VALU E 1 SV 1 From Channel 1 and the processed value and status calibrated by BIAS 1 Units are set by PRIMARY VALUE UNIT SECONDARY VALU E 2 SV 2 From Channel 2 and the processed value and status
35. g and 3 wiring You shall set sensor wiring according to the following steps Select mode 23 LCD will display sensor wiring value Select sensor wiring via f or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar JQ 3 A Microcyber 7 4 13 Operation steps for PV Value Type Mode 24 Microcyber Inc You shall set PV value type according to the following steps Select mode 24 LCD will display sensor type identifier and description Select sensor type via f or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar PV value types supported by HART smart transmitters are shown as following ldentifier Type Description Explanation 0 SENS1 PV value from Channel 1 sensor 1 SENS2 PV value from Channel 2 sensor 2 D 12 PV value from D value from CH1 to CH2 3 D 21 PV value from D value from CH2 to CH1 4 MAX PV value from maximum between CH1 and CH2 5 MIN PV value from minimum between CH1 and CH2 6 AVG PV value from average between CH1 and CH2 7 414 Operation steps for cold end compensation enable Mode 25 This mode is about whether it is set as cold end compensation enable or not Before setting the wiring you should set No Channel f
36. ierocvt er NCS TT105 Temperature Transmitter User Manual HA tie icrocyber NCS TTI05 Intelligent Temperature Transmitter User Manus Contents 1 Brief IAtTOAUCTION steig nas kana nadan Seege 1 st ta a a a 2 QA ln UE en EE 2 Elle BEER 3 3 Principle and SIructure lan Nee ee Eege e 6 4 FF Transmitter Configuration 0 cccccecsseeeeeeeeeeeeeeeeeeeneeteeeees 10 4 1 Network Topologw rr 10 4 2 Function Block 11 4 3 Configuration tarna 12 4 4 Jumper pin Confguration err 20 5 PA Transmitter Configuration 000ee tear 21 5 1 Topologic Connection 21 5 2 Function Block 22 5 3 Function Configuration ccccccccceeseeceeeeseeeeeeeaeeeeneeseenees 23 5 4 Jump pin Configuration 000020ee tarna 36 6 HART Transmitter Contftguratton eter 38 6 1 Topologic Conechon erat 38 6 2 Function Configuration cccccceeeeeeececeeeeeseeeeeeeeeeeeeeeenees 39 6 3 Jump pin Configuration 00e020ee tarna 50 7 Adjusting in Workplace rana 52 7 1 Operation Instruction for Magnetic Sticks 52 7 2 Adjusting for FF Smart Transmitter 54 7 3 Adjusting for PA Smart Transmitter 60 7 4 Adjusting for HART Smart Transmitter 69 7 5 Return instrument data to factory data 80 Os Mamta NGC ses acct a ANG 82 9 Technical Gpecifleaiton treat 84 9 1 Basie Parameters sa EEN 84 9 2 RTD Specification ccccecccecceeeeceeeeeeeeeeeeeeeseeeeseaeeseeeeennees 84
37. inal status 49 M HG icrocyber Microcyber Inc Sensor CurrentAdj Device Scan SpecialCommand 717 LCD Display Type Disp PV x Set Small Signal Cut Value 0 000000 FS Set Restore to default Restore the Range Save as default Restore the PY Zero Figure 6 8 Special Command 6 3 Jump pin Configuration HART smart transmitter has two hardware jumpers shown as Figure 6 5 The three points on bottom are failure alarm current setting jumpers and the top three points are calibration protection setting jumpers Failure Alarm Current Jumper HART smart transmitter has self diagnosis function When a failure is tested out the transmitter will output alarm current automatically The alarm current mode depends on failure alarm current jumper setting on the right side of the communication board When the jumpers are in the two points marked with Hi it will be the high level alarm 221 75mA When the jumpers are in the two points marked with Lo it will be the low level alarm lt 3 75mA Calibration Protection Setting Jumper HART smart transmitter supplies the calibration protection jumper setting or not shown as Figure 6 5 When the jumper is 50 A Mei ocyber Microcyber Inc at the right side of two points marked with WRD it will be the calibration protection And at that time the HART smart transmitter does not allow any operation about modifying device configuration When the jumper is at the
38. ion Beste Description M UI 1 Enter y Type Primary Fun12 Temperature Variable 12 Select UNIT unit mV ohm Unit Pre setti Pre setti aruta User address in n n mplementati Fun sis gal A pP PROFIBUS 0 1 Address decreasi ascendin on ADDR 26 ng g A Fun14 A il 14 Selection DECP a at ieren Point T decimal point Pre setti Pre setti Thermocouple thermo Sensor ng ng ImplementatiFun22 T 22 di s Typ esistance ype decreasi ascendin on 7 Voltage ng 9 resistance Pre setti Pre setti Sensor 23 ng ng l Implementati Fun23 S Sawing Wiring decreasi ascendin on CONN ng g Cold end PIE sal Pre setti JFun25 3 d ng Implementati 0 Forbidden polnpensall 25 Forbidde ng on SES 1 Enable on Enable h Enable E i 2 wiring Implementati The zero point Fun26 ae Zero Point 26 on 2 CAL calibration only Calibration Calibration for 2 wiring 61 HANG J Me ocybei Microcyber Inc Press M it can be switched among the functions above shown as Figure 7 3 Measurement No Channel Measurement Value Physical M Value Display CH_1 or Display Type Value Unit NORM CH_2 DISP UNIT Bus Address Decimal Point Sensor Type Sensor Wiring IM ADDR DECPT S_TYP CONN Cold end m 8 connection V 2ng 200 rot M nable COMPE 2_CAL Figure 7 3 Adjusting Function and Display In mode switch function code is displayed in digital
39. iring PV value type etc HART smart transmitter can be adjusted by Rosemount 275 or Huakong 375 Please refer to related introduction of the handhelds The functions and operation are shown as following in detail Function Mode Button Function Function Gees M WI f Enter Display Measureme Display the nt Value measurement Display value in Mode 11 Failure When the transmitter is Failure e ey in failure it will display display the reason No Decre Ascen Funog Pre adjusted 02 No Channel Channel asing ding CH x ES Use present Implementa Fun03_jvalue to set lower tion LOWER limit of primary variable Use present Implementa Fun04 value to set tion UPPER upper limit of primary variable Lower Limit 03 Upper Limit 04 pi 69 h a i Microcyber Microcyber Inc Fonction Mode Button Function Function Besta M H Di Enter Display Time constant Electric Ascen Decre Fun05 the unit is l 05 ding asin DAMP Seon Damping 9 g Setting range 0 0 32 0 Pre se 5 Passive ae Se Setting primary tting tting Implementa Fun06 Range 06 variable lower NG decreal ascen tion PVLRV limit i Lower Limit ding imit manually sing Passi Pre se De assive S tting tting mplementa Funo7 Setting primary Range 07 variable upper SR decrea ascen tion PVURV limit i Upper Limit ding imit
40. isplay Explanation NumEr Number Error FNErr Mode Number Error Lock The jump pin is set as configuration protection 7 2 3 Pre setting No Channel Mode 02 It is used to set No Channel the default is CH 1 The range of No Channel CH 1 CH 2 You may set No Channel according to following steps Select mode 02 the present No Channel will be displayed in text display Use M to do mode switch The No Channel affects functions such as sensor type sensor wiring etc Please set the No Channel before doing pre adjusting 7 2 4 Operation steps for lower limit of range Mode 16 In this mode you shall modify the slope of characteristic curve The characteristic curve is rolling around the high setting point You shall implement the calibration of lower limit according to the following steps 57 NG J Me DC b ei Microcyber Inc Select mode 16 LCD will display the calibrated process value last time and related unit Input the reference temperature value starting from this point via 1 or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Use M to do mode switch Please refer to 7 1 for detailed info about processing bar 7 2 5 Operation steps for upper limit of range Mode 17 In this mode you shall modify the slope of characteristic curve The characteristic curve is rolling around the low setting point You
41. it decreasing ascendin n UPPER characteristic g curve Pre settin Thermocoupl Sensor Pre setting g implementatio Fun22 E Den 22 a resistance Type decreasing ascendin n S TYP Voltage 9 resistance Pre settin Sensor Pre setting g Implementatio Fun23 2 wiring 23 d ka Wiring decreasing ascendin n CONN 3 wiring g 55 NG J Me ocyber Microcyber Inc Press M it can be switched among the functions above eeler M No Channel M Lower Limit M Display NORM CH 10rCH 2 LOWER Upper Limit M Sensor Type M Sensor Wiring M UPPER S TYP CONN Figure 7 2 Adjusting function and LCD display In mode switch the Number Display will display function code e g Fun02 and the Text Display will display function description shown as above e g CH 1 In addition there is no need to confirm Mode 02 it will be saved after the adjusting 7 2 1 Measurement value display It will display configuration info of DSP display block and the local operation can t modify the unit When the value exceeds the LCD range it will display in scientific notation The method to return measurement value 1 Switch mode to NORM 2 There is no operation within 1 min There are no magnetic sticks for the 2 holes 56 JU af E icrocyber Microcyber Inc 7 2 2 Error Display In the course of local operation the following error info may occur D
42. n jumper can refuse any write operation for FF smart transmitter which can avoid the vicious modification for instrument data RST Jumper Reset jumper will reset the transmitter data back to factory Please make the transmitter powered off insert the jumper to RST and then power the transmitter on the data will be back to factory data Figure 4 7 NCS TT105 temperature transmitter hardware jumpers 20 SWicrocy icrocyber Microcyber Inc 5 PA Transmitter Configuration 5 1 Topologic Connection PA transmitter supports many kinds of connection as shown in Figure 4 1 There is a transmitter bus connection the bus ends are connect terminal matching resistance which ensures the signal quality as shown in Figure 4 2 The maximum length of bus is 1900 meters and it can be prolonged to 10 kilometers with repeaters PROFIBUS DP BUS Coupler PROFIBUS PA BUS Point to Point Bus with distributed wires Tree Figure 5 1 PRFIBUS PA network topology 21 Microcy icrocyber Microcyber Inc e Maxim 1 900m PA Bus bl Eiga een Terminator LC Fieldbus Power Supply Figure 5 2 PRFIBUS PA bus commection Field PA Device 5 2 Function Block PA smart transmitter carries out the PA standard function blocks shown as the table below Please refer to related PA protocol document for detailed info about configutaion methods of function blocks Function Block De
43. of fieldbus communication control diagnosis and maintenance 4 Isolation board it is used for isolation between communication board and instrument board including power isolation and signal isolation 5 Display board optional it is used to display temperature and function block parameters M PHSR icrocyber Microcyber Inc Round Board Isolation Board A D Board Terminal Board UONEIOS amog BUS JTAG Interface Bus modulatio Controller Gii a Power EEPROM mai signal 8 CPU D CH2 FLASH laglag ka RAM 1 P Power z Gs 8 Signal Communication S I I Figure 3 1 Schematic diagram of NCS TT105 temperature transmitter Size of NCS TT105 Temperature transmitter 90 0 Figure 3 2 Size of NCS TT105 temperature transmitter unit mm PG Mic ocyber Microcyber Inc Structure of NCS TT105 temperature transmitter ID 12 13 14 16 16 x Figure 3 3 Structure of NCS TT105 temperature transmitter Front Display 1 cover 2 O ring 3 board 4 LCD board housing 5 Positioning 6 Communication 7 Instrument 8 Isolation column board board board Terminal Wiring 9 Board 10 Screw 11 hole 12 Screw Name Electric Feedthru la plate 14 Se Mole Jo housing Je capacitor Terminal a Terminal 17 board 18 Fixed column 19 cover 20 Back cover 21 Bottom cover
44. on 4 Sensor configuration You may check the current configuration sensor info upper limit lower limit and minimum span via sensor info TAB Also you may configure the sensor type and wiring with it HART smart temperature transmitter supports 2 temperature sensors shown as Figure 6 5 Sensor Type sensor type supported by device shown as following Sensor Type Description SCALE 0 500R Resistance 0 5000 SCALE 0 4000R Resistance 0 40000 44 Megs Microcyber Inc SCALE_CU50 Cu50 RTD SCALE_CU100 Cu100 RTD SCALE_PT100 PT100 RTD SCALE_PT1000 PT1000 RTD SCALE_100MV MV voltage signal range from 100 to 100 mv SCALE B TC B type thermocouple SCALE E TC E type thermocouple SCALE J TC J type thermocouple SCALE K TC K type thermocouple SCALE N TC N type thermocouple SCALE R TC R type thermocouple SCALE S TC S type thermocouple SCALE T TC T type thermocouple Wiring It can be set as 2 wire or 3 wire only effective to RTD Cold end Compensation It enables or disables thermocouple s cold end compensation function 2 wire zero point calibration When the temperature transmitter is connected to RTD in 2 wire way resistance error in the cable you should short circuit the sensor and execute zero point calibration button in order to avoid the Once calibration Factory calibration for sorts of resistance ranges only for manufactur
45. or enable cold end compensation via Mode 02 When the sensor is from 1 to 7 the function is forbidden You shall enable or forbid the cold end compensation according 79 M NG is icrocyber Microcyber Inc to the following steps Select mode 25 LCD will display COMPE meaning it is in 2 wiring calibration mode Select it is enable or forbidden via 1 or f means enable and means forbidden Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar 7 4 15 Operation steps for 2 wiring zero point calibration Mode 26 In mode 26 you shall calibrate 2 wiring zero point Firstly you shall make sure it is 2 wiring connection and set the channel wiring is 2 wiring via mode 23 If it is not set as 2 wiring the function is forbidden You shall do 2 wiring zero point calibration according to the following steps Select mode 26 LCD will display 2 CAL meaning it is in 2 wiring calibration mode Press Enter to set If the setting is successful it will show OK otherwise it will show Err After successful calibration it will return to measurement display mode 7 5 Return instrument data to factory data Returning instrument data to factory data is a special operation 80 NG J Me DC b el Microcyber Inc there is no function code After the operation all the
46. ors actuators and other I O devices It depends on the device supplier to access and control I O devices Transducer block is able to get input data and set output data by accessing I O devices Generally transducer block has the function of 23G Microcyt Microcyber Inc linearization specialization temperature compensation and data s control and exchange etc Transducer block structure is shown as figure 5 3 Process Transducer Block pos r Transducer Block Al FB s lt 27 RJTEMP 125 R J a EXTERNAL RJ VALUE Arithmetic Linearization K1 BIAS 1 Y SECONDARY_VALUE_1 gt oN gt re tS Ces PRIMARY VALUE 1 A si LIN i ae gt SECONDARY VALUE 2 BIAS_2 4 bal S d Kee EE E I INPUT RANGE LIN TYPE L SENSOR MEAS TYPE SENSOR CONNECTION COMP WIRE1 2 TAB Figure 5 3 Transducer block structure Parameters of transducer block are as follows Parameter Function Description INPUT FAULT GEN Input fault includes the failure diagnosed objects of all values 0 Device normal Bit 0 Rj Failure Bit 1 Hardware failure Bit 2 4 Reservation Bit 5 Manufacture designation Bit 6 Communication failure Bit 7 Manufacture designation D4 Hot Microcyber Inc INPUT_FAULT_1 Input fault the failure diagnosed objects relat
47. ot necessary to confirm for some functions After adjustment it is saved at the same time 2 If there is no button operation within 1 min There is no magnetic sticks inserted in the two holes it will return to normal display mode 3 Carrying out the calibration function after the successful calibration it will be back immediately to LCD display mode 7 2 Adjusting for FF Smart Transmitter In this section we describe the adjusting steps of FF smart transmitter By adjusting in the workplace you can carry out upper limit calibration lower limit calibration setting sensor type wiring and so on for transmitters The functions and operation are shown as following in detail Button Function W Function e n description m ffl LU Enter Here my Measure Display the configuration maa info 54 a i Microcyber Microcyber Inc ag Button Function Gre anay Function e n description m ffl LU Enten Display m value displayed by display DSP display lblock Failure When the Failure transmitter is display in failure it will display the reason Pre calibratio No 02 Decreasin Ascendin Fun02 n Channel 9 g CH x No Channel x1 or 2 Pre settin Set the lower Lower Pre setting g lmplementatio FUNT6 Weit of 16 LOWE limit decreasing ascendin n R characteristic g curve Pre settin Set the upper Upper 17 Pre setting g Implementatio Fun 7 limit of lim
48. ows 2000 or Windows XP 2 HART Modem and serial wire 3 Matching resistance 250 550 ohm Basic information configuration Through the dialog of basic information the basic information of the smart transmitter can be read or modified including device address message description date assemble number alarm write protection manufacturer ID device type device ID long address and version info shown as Figure 6 3 After information modification click the Apply button to download it into device 1 The address selection range is 0 15 2 Message can be input 32 characters at most 3 The maximum length of the description is 16 characters 40 PW ad Mic ocyber Microcyber Inc 4 The maximum length of the tag is 8 characters 5 Date range is from the year 1900 to 2155 6 Assemble number is 6 characters at most S G ef xi ol ooaoapoonooncooanoaBsl Figure 6 3 Dialog of basic information Configurable information configuration Through the dialog of configuration information the configuration information of smart transmitter can be read or modified including display device output variable primary variable second variable current value and percentage primary variable info setting output type damp value unit upper limit and lower limit and range calibration etc shown as Figure 6 4 41 SWicrocyt Microcyber Inc 1 Output variable Out
49. put SES Description variable Primary value can be signals of temperature PV value f resistance and mV Cold end Second variable is set as cold end temp temperature Current Display PV corresponding to current value at value 4 20mA Display PV corresponding to present Percentage percentage of the range 2 Primary variable setting PV type setting PV output mode shown as following PV type Description SENSOR 1 PV is from the 17 sensor SENSOR 2 PV is from the 2 sensor SENSOR 1 SENSOR 2 PV is D value SENSOR 2 SENSOR 1 PV is D value PV is the maximum value MAXIMUM between the two sensors PV is the minimum value MINIMUM between the two sensors PV is the average value between AVERAGE the two sensors Damp range 0 32s Unit PV unit modification affects variables related to unit such as the upper or lower limit for the range or for the sensor When 2 HG J Me ocyber Microcyber Inc you modify the unit you can t modify upper or lower limit for the primary variable range instead you should modify them separately The unit can be set as C F R K mV Ohm Upper limit of the range output current PV related to 20mA Lower limit of the range output current PV related to 4mA You should press Apply to download it into device after the modification Set upper limit of range with present value Set the PV as the upper limit of p
50. r Microcyber Inc variable range Press Enter to set If the setting is successful it will show OK otherwise it will show Err Use M to do mode switch 7 4 9 Operation steps for setting measurement value display type Mode 11 In this mode you shall select the value to be displayed You shall select the source of measurement value according to the following steps Select mode 11 LCD will display value and description of present display source Select the display source of measurement value via f or 1 Use M to do mode switch Following is display source of supported measurement value Measurement Value Display Type LCD Display Description 0 Primary Variable Output PV 1 Second Primary Variable Output SV 2 Primary Variable Current Output CU 3 Primary Variable Percentage Output PN 4 Primary Variable Current Output Circulately LOOP 76 JU PHSR icrocyber Microcyber Inc 7 4 10 Operation steps for Setting primary variable unit Mode 12 In this mode you shall modify the primary variable unit according to the following steps Select mode 12 LCD will display present unit identifier and the corresponding unit description Select a unit via f or J Use M to do mode switch Following are the unit supported by primary variable Identifier Unit Description Identifier Unit Description 32 S 36 mV 33 F 37 Ohm 34
51. rent output The text of the button can display exit fixed current mode and enter fixed current mode in turn to tell users what to do In the run of the HART smart transmitter compare the value of the primary variable and range upper lower limit of the of the primary variable continuously When the value of the primary variable exceeds the range of the primary variable the smart transmitter will output fixed current to indicate that the value of the primary variable is exceeded When it is over the upper limit the smart transmitter output fixed current 20 8mA When it is less than the lower limit output is 3 9MA info Config Sensor Cumemtad Dance Scan Speci Sit Freed Current mA Peed Current Mode Adus Figure 6 6 Current configuration sa TE PT Mici DC bei Microcyber Inc Note Calibration current and fixed current output functions are only in the moment when the polling address is O It will be at absolute digital communication mode at other polling addresses the failure info is Command Execution Failure 6 Variable Monitoring The user is able to refresh all the dynamic variables of the selected device and display trend curve of present device primary variable via variable monitoring tab The present refreshing variables are PV value current value percentage and SV value hanay 00 250 KU a 4 ka ma E2222 a sii z hm Sonn TI ETE mA a 01 sg O 3 750 moa mere s veier PUREE pa
52. right side the HART smart transmitter allows the operation about modifying device configuration Figure 6 5 HART smart transmitter hardware jumper 51 M a icrocyber Microcyber Inc 7 Adjusting in Workplace 7 1 Operation Instruction for Magnetic Sticks The adjusting in workplace can be realized by inserting magnetic sticks into the holes named as SPAN or ZERO which are on the top of the transmitter housing shown as figure 7 1 ot vy aoe Special Mark balag 2 ba j Text Display Figure 7 1 Location of magnetic sticks inserted holes and full scale LCD The following will show how to utilize different combinations of magnetic sticks inserting to simulate four virtual key buttons which is for description of adjusting in workplace According to different functions the four virtual key buttons are defined as Mode M Input adjusting t UI and Confirmation Enter Mode M It can be switched in all operational modes Input adjusting f Increment operation Input adjusting Degression operation Confirmation Enter Confirmation operation The detailed info for operations of M 1 and Enter are shown as following si JU EF PAT lerocyber Microcyber Inc Mode Input adjusting Confirmation M KA Ir Enter Insert the magnetic oe Insert Zero and sticks into Zero Zero Span Span for 2s get and Span at the 2 a them out same time
53. rimary variable range and keep the lower limit of range the same Set lower limit of range with present value Set the PV as the lower limit of primary variable range and keep the upper limit of range the same Set primary variable zero point with present value Set the PV as the primary variable zero point when the temperature is 0 C 3 Transmitter calibration Calibrate the lower limit of range Make the measurement primary variable value as the lower limit of range and the range should be not changed the upper limit of range is modified accordingly If the adjustment of the upper limit of range exceeds the upper limit of sensor range make the upper limit of sensor as the adjusted upper limit of range and then the range is changed sequencely Calibrate the upper limit of range Make the measurement primary variable value as the upper limit of range and the lower ABs TRB limit of range should not be changed so the range is changed If the adjustment of the upper limit of range exceeds the upper limit of sensor range make the upper limit of sensor as the adjusted upper limit of range Calibrate the zero of the primary variable Calibrate the zero displacement of primary variable due to installation location fo TONG Sensor Garnag Dere Scan SoscaConmand Microcyber Inc Aly Wire 250 000 Linn 200 000 SET bw Geert vam vae a j Up Lind Lon Lag L em Fi Turo Pani Figure 6 4 Configuration Informati
54. scription Physical block describes device hardware information recognizing and diagnosing Physical Block information including device number software version hardware version and installation dates etc Transducer block separates function blocks from the instrument input and output characteristic it Transducer Block f f REN mainly carries out the function such as calibration and linearization for input and output data and then s32 M Ppp icrocyber Microcyber Inc provides the processed data to Al through the inner channel Al block gets simulation processing value from the Analog Input inner channel and then processes the value Block providing proper measurement value to master station via bus communication 5 3 Function Configuration PA smart transmitter parameter configuration keeps to Profibus PA Specification Version 3 01 It can carry out read and write function for transmitter function block parameters with Simatic PDM also is able to configure transmitter with Siemens Step7 Configuration Environment 1 PC Windows 2000 or Windows XP 2 Siemens Step7 configuration software PDM device management software 3 DP PA coupler or linker 4 1t master station e g PLC 2 master station e g CP5611 board 5 PA terminator matcher 6 Standard temperature source Temperature transducer block parameter configuration Transducer block separates function block from sens
55. set sensor type according to the following steps Select mode 22 LCD will display sensor type identifier and related type identification Select sensor type via f or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar 15 sensor types supported by PA smart transmitters are shown 66 JU PHSR icrocyber Microcyber Inc as following Identifier Type Description Identifier Type Description 1 500R 9 E TC 2 4000R 10 J_TC 3 CU50 11 K_TC 4 CU100 12 N_TC 5 PT100 13 R_TC 6 PT1K 14 S_TC 7 100MV 15 T TC 8 B TC 7 3 9 Operation steps for setting sensor wiring Mode 23 It is about setting sensor wiring Before setting the wiring you should set No Channel for the pre modified type via Mode 02 PA smart transmitters support 2 wiring and 3 wiring You shall set sensor wiring according to the following steps Select mode 23 LCD will display sensor wiring value Select sensor wiring via f or J Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar 7 3 10 Operation steps for cold end compensation enable Mode 25 This mode is about whether it is set as cold end compensation enable or not Before setting the wiring you should se
56. sting 63 JU PHSR icrocyber Microcyber Inc 7 3 4 Operation steps for setting measurement value display type Mode 11 In this mode you shall select the value to be displayed You shall select the source of measurement value according to the following steps Select mode 11 LCD will display value and description of present display source Select the display source of measurement value via f or Use M to do mode switch Following is display source of supported measurement value Measurement Value Display Type LCD Display Description 0 Primary variable output of temperature SEH S pa 1 SV 1 output of temperature transducer block SEC1 2 SV_2 output of temperature transducer block SEC2 3 Al function block output AIOUT 4 Cold end compensation temperature output RJTMP When No Channel is 1 the display is related to transducer block 1 and Al function block 1 When No Channel is 2 the display is related to transducer block 2 and Al function block 2 64 M Ppp icrocyber Microcyber Inc 7 3 5 Operation steps for primary variable unit Mode 12 In this mode you shall modify the primary variable unit You shall select the source of measurement value according to the following steps Select mode 12 LCD will display present unit identifier and the corresponding unit descriptions Select a unit via f or J Use M to do mode switch Following
57. t No 67 HA J Me ocyber Microcyber Inc Channel for enable cold end compensation via Mode 02 When the sensor is from 1 to 7 the function is forbidden You shall enable or forbid the cold end compensation according to the following steps Select mode 25 LCD will display COMPE meaning it is in 2 wiring calibration mode Select it is enable or forbidden via 1 or t means enable and means forbidden Press Enter to set If the setting is successful it will show OK otherwise it will show Err Please refer to 7 1 for detailed info about processing bar 7 3 11 Operation steps for 2 wiring zero point calibration Mode 26 In mode 26 you shall calibrate 2 wiring zero point Firstly you shall make sure it is 2 wiring connection and set the channel wiring is 2 wiring via mode 23 If it is not set as 2 wiring the function is forbidden You shall do 2 wiring zero point calibration according to the following steps Select mode 26 LCD will display 2 CAL meaning it is in 2 wiring calibration mode Press Enter to set If the setting is successful it will show OK otherwise it will show Err 68 JU ls icrocyber Microcyber Inc 7 4 Adjusting for HART Smart Transmitter In this section we describe the adjusting steps of HART smart transmitter By adjusting in the workplace you can carry out the adjusting functions of primary variable unit sensor type w
58. the U shape bolt provided The installation of plate mounting angle bracket the typical installation as Figure 2 2 shows Fix NCS TT105 temperature transmitter in angle bracket using four bolts provided and then fix the angle bracket on the plate with the M10 bolt not provided The installation of pipe mounting angle bracket the typical installation as Figure 2 3 Figure 2 4 shows NCS TT105 temperature transmitter in angle bracket using four bolts provided and then fix the angle bracket on the horizontal pipe in 50mm around with the U shape bolt provided a BE J Me ocybei Microcyber Inc Q ee Figure 2 1 The installation of pipe Figure 2 2 The installation of plate mounting flat bracket mounting angle bracket lt gt L c pp Figure 2 3 The installation of pipe Figure 2 4 The installation of pipe mounting angle bracket 1 mounting angle bracket 2 2 2 Wiring The power and bus signal of NCS TT105 temperature transmitter are sharing one pair of cables bus cable NCS TT105 temperature transmitter is suggested to use specific Fieldbus cables recommended by the IEC61158 2 The wiring terminal is at the rear cover side the wiring terminal Po a BE Mic ocyber Microcyber Inc board could be seen when the rear cover is screwed off FF Or eo Figure
59. unication device 2 Mixed use of the analog and digital communication 3 The device address is 0 38 fl BHIE vt Microcyber Inc e Networking mode control system or 9 Hand Device input output system HART Field device Figure 6 2 Networking mode Feature 1 Connected to the above control system via HART communication device 2 Only use digital function of HART device and the fixed current on wire is 4mA 3 Support 15 devices in the mode of short address 6 2 Function Configuration Smart transmitter can be configured by the HART configuration software which includes functions 1 Basic information configuration configure the basic information of device online including tag address date assemble number and so on 2 Configurable information configuration configure the configurable information of device online including 39 M HG icrocyber Microcyber Inc primary variable range damp and so on 3 Sensor info configuration configure the sensor info of the online device including type wiring etc 4 Current calibration Can calibrate 4 20mA current of online device also can set fixed current output 5 Variable monitoring refresh all dynamic variable of selected online device timely and display trend curve of present device primary value 6 Special commands carry out special commands provided by HART transmitter Configuration setting 1 PC with serial the OS is Wind
60. ure as Primary Value output The cold end temperature compensation is enabled in default 2 point linearity calibration Strict calibration must be done to temperature transmitter in the factory so it is not necessary for users to calibrate again The parameters such as Lower Calibration Point Upper Calibration Point and Calibration Unit areused to carry out 2 point linearity calibration Operation Steps 1 Turn on PDF software after configuration choose Device gt 35c JU AS icrocyber Microcyber Inc Calibration gt Lower Upper get page of temperature calibration 2 Make sure of sensor type set Characterization Type and Input Range and Mode and set Calibration Unit according to sensor type It supports the parameters C Q and mV Write the parameter after the setting 3 Give standard data to channel to calibrate When the input is stable write calibration data to Upper Calibration Point or Lower Calibration Point according to the operation one is upper calibration or lower calibration If there is no write error the calibration is successful Notes There should not be a great deviation between written calibration data and practical input channel data otherwise the calibration will be in failure Notes When you are using Device gt Master Reset it may course the instrument CPU reset as well as communication broken which is normal Please connect again 5 4Jump pin Configuration PA smart temperature transmitter

NCS-TT105 Temperature Transmitter User Manual

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