Absolute Position Indicator with RS485 / SIKONETZ5 interface User
Contents
1. 6 9 10 09h LED1 green left LED1 green left can be set via parameter 09h see chapter 3 3 LED display The control word can be freely accessed only if the LED is switched off here Parameter address 09h Description LED green left LED1 Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content 0 Off 1 position dependent 6 9 11 OAh Decimal places The parameter OAh indicates the number of decimal places Parameter address OAh Description number of decimal places Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 4 6 9 12 OBh Display divisor ADI The display divisor can be changed via parameter OBh Parameter address OBh Description display divisor ADI Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 1 1 10 2 100 3 1000 SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 28 of 46 Communication via SIKONETZ 5 6 9 13 OCh Direction indicators CW CCW The display of the direction arrows is set via parameter OCh Parameter address OCh Description Representation of the direction indicators Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 0n 1 inverted 2 Off ODh Display orientation Display orientation ca2. Operating state LED Status Meaning There is no valid set both off point There is a valid set LED left red Set point1 not acknowledged point green Set point1 acknowledged LED right red Set point2 not acknowledged green Set point2 acknowledged Table 4 LED display in the alpha numeric display operating mode Control word In the control word the relevant type number or character string and the validity of the set point is transmitted to the display As an additional option the set point can be acknowledged via the control word Zustandswort Type validity and acknowledgement status of the set points are fed back in the status word Date 03 09 2015 Art No 86855 Mod status 319 15 Page 11 of 46 Functional Description 4 2 Battery buffering The battery makes possible the detection of currentless displacement Battery life is approx 5 years depending on the duration of battery operation including storage and frequency of currentless adjustments Battery voltage is checked at intervals of approx 5 min If battery voltage drops below a specified value the battery symbol L___ will blink on the display If the battery voltage continues to drop L___ will be displayed permanently The battery should be replaced within approx three months after the first appearance of the battery symbol The battery can be replaced by the SIKO distribution partners or at the SIKO main factory For battery repla
3. Description operating mode Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 Absolute position 1 Difference 2 Modulo 360 angle display 3 Alpha numeric display SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 32 of 46 Communication via SIKONETZ 5 30h Display in the 2 row Via parameter 30h the display of the 2 row of the display unit is controlled The setting is not effective in the Display operating mode Parameter address 30h Description controls the display of the 2 row of the display unit Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 Set point or differential value depending on mode see chapter 4 1 1 Position bound operating modes 1 Off 31h Target window2 extended Via parameter 31h the size of target window can be set see chapter 4 1 1 1 Positioning and parameter 32h Target window2 visualization Parameter address 31h Description Extended target window to facilitate positioning at fast travel speed Access rw EEPROM yes Programming mode yes Data type UNSIGNED 16 Default 0 Data content 0 9999 32h Target window2 visualization Target window2 visualization can be set via parameter 32h see chapter 4 1 1 1 Positioning and para
4. 999999 999999 20h Target window1 near field The parameter 20h indicates the window within which the set point is considered reached see chapter 4 1 1 1 Positioning Parameter address 20h Description The set point is reached when the actual value is within the target window Access rw EEPROM yes Programming mode yes Data type UNSIGNED 16 Default 5 Data content 0 9999 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 31 of 46 Communication via SIKONETZ 5 6 9 21 21h Positioning type loop type The positioning type loop type is indicated via parameter 21h thereby selecting the direction from which the set point shall be approached see chapter 4 1 1 2 Loop positioning Parameter address 21h Description Set point is approached in this direction Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 no loop 1 loop 2 loop 6 9 22 22h Loop length Parameter 22h specifies the loop length by which the set point shall be moved over with loop travel see chapter 4 1 1 2 Loop positioning Parameter address 22h Description loop length Access rw EEPROM yes Programming mode yes Data type UNSIGNED 16 Default 0 Data content 0 9999 6 9 23 28h Operating mode The operating mode can be set via parameter 28h Parameter address 28h
5. Name Description see page 00h Note address Node address 25 01h Baud rate Baud rate of the RS485 interface 25 02h Bus Timeout Indication of bus timeout in x100 ms 25 03h Response parameter to a set Defines the response to the command 26 point write access Write set point 04h Keys enable time Period of key actuation in order to start 26 Configuration start delay configuration 05h Key function enable1 Enable calibration 26 Calibration enable 06h LED flashing All LEDs flashing 27 07h LED3 green right LED green right LED3 27 08h LED2 red left LED red left LED2 27 09h LED1 green left LED green left LED1 28 OAh Decimal places Number of decimal places 28 OBh Display divisor ADI ADI display divisor 28 OCh Direction indicators CW CCW Visualization of direction indicators 29 ODh Display orientation Display orientation 29 OEh Configuration programming Basic setting of programming interlock 29 mode 1Bh Counting direction Counting direction 30 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 15 of 46 Overview of parameters SIKO AP10 Name Description see page 1Ch Resolution per revolution Resolution of the measuring system 30 1Eh Offset value Offset value 31 1Fh Calibration value Calibration value 31 20h Target window1 near field The set point has been reached when the 31 a
6. With a read command e g at the device code PLC in normal operation Fig 5 Auto ID function There are n devices at the bus At least one device works with the default Node ID 31 PLC sends SN5 write command at parameter D2h until this command becomes responded accordingly All devices with current ID 31 are showing new ID 001 They are waiting for a push at their Arrow Up button All other devices are still showing new ID 001 After the SN5 response the PLC can adjust the next ID new ID 002 This may cause collisions at the bus line because of more than one device with the same ID will respond to that command If all devices are adjusted correctly the user has to set the PLC in normal operation Communication via SIKONETZ 5 6 9 Parameter description 6 9 1 00h Note address Setting of the SIKONETZ5 node address Changes become active only after restart of the device Parameter address 00h Description node address Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 31 Data content 1 127 01h Baud rate Setting of the SIKONETZ5 baud rate Changes become active only after restart of the device Parameter address 01h Description Baud rate of the RS485 interface Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 57600 kBaud Data content 0 19200 1 57
7. 0 Incremental measurement disabled 1 Incremental measurement enabled Date 03 09 2015 Art No 86855 Mod status 319 15 Page 34 of 46 Communication via SIKONETZ 5 6 9 30 39h LED4 red right The LED4 red right can be set via parameter 39h see chapter 3 3 LED display Free access via the control word is only enabled if the LED is switched off here Parameter address 39h Description LED red right LED4 Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content 0 Off 1 position dependent 3Ah LCD backlight flashing Flashing of the LCD backlight can be set via parameter 3Ah This setting applies to either color Parameter address 3Ah Description Flashing of the LCD backlight Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 no flashing 1 the current backlight is flashing 3Bh LCD backlight white The white LCD backlight can be set via parameter 3Bh Parameter address 3Bh Description LCD backlight white Access rw EEPROM yes Programming mode jyesa Data type UNSIGNED 8 Default 1 Data content 0 Off 1 0n Date 03 09 2015 Art No 86855 Mod status 319 15 Page 35 of 46 Communication via SIKONETZ 5 6 9 33 3Ch LCD backlight red The red
8. Data content Oh FFFFFFFFh SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 43 of 46 Communication via SIKONETZ 5 6 9 54 6 9 55 6 9 56 SIKO AP10 FCh Differential value The differential value can be read via parameter FCh Formation of the differential value is set via parameter 34h Formation of the differential value Parameter address FCh Description Differential value Deviation between actual and target positions Access ro EEPROM no Programming mode no Data type SIGNED 32 Default Data content 5242880 5242880 FDh Error telegram Illegal entries are answered with an error telegram An error telegram consists of the parameter address FDh and an error code see chapter 6 5 Error telegram Parameter address FDh Description Error telegram Access EEPROM no Programming mode no Data type UNSIGNED 32 Default Data content see chapter 6 5 Error telegram FEh Position value The current position value of the device is output under FEh Parameter address FEh Description Actual position see chapter 4 1 Operating modes Access ro EEPROM no Programming mode no Data type SIGNED 32 Default Data content 5242880 5242880 Position value measured value calibration value offset value Date 03 09 2015 Art No 86855 Mod sta
9. Programming mode no Data type UNSIGNED 8 Default 0 Data content 1 freeze actual position C5h ADC values of the sensor The current ADC values of the sensor can be retrieved via parameter C5h Parameter address C5h Description ADC values of the sensor Access ro EEPROM no Programming mode no Data type UNSIGNED 32 Default 0 Data content Byte 0 Byte 1 Byte 2 Byte 3 ADC SIN ADC COS Date 03 09 2015 Art No 86855 Mod status 319 15 Page 41 of 46 Communication via SIKONETZ 5 6 9 48 CAh Bus protocol Changes become active only after restart of the device Parameter address CAh Description Protocol of the RS485 interface Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 SIKONETZ5 1 Service protocol 6 9 49 CFh Period counter The current values of the period counter can be retrieved via parameter CFh Parameter address CFh Description values of the period counter Access ro EEPROM no Programming mode no Data type UNSIGNED 32 Default 0 Data content Byte 0 Byte 1 Byte 2 Byte 3 Quadrant Period counter 6 9 50 DOh Response delay Number of internal program cycles deferred before responding to a SIKONETZ5 bus telegram The response to a telegram can be delayed until the master is ready to receive The value 10 corresponds to a delay o
10. then the negative sign and the digit of the highest order will flash alternately If the value range drops below 999999 FLILL will be displayed LED display In its basic state factory setting the LED display has different meanings depending on the operating mode see chapter 4 1 Operating modes With the basic function of the LEDs inactivated every LED can be controlled independently via the control word see chapters 6 9 8 to 6 9 10 and 6 9 30 LEDs and chapter 6 3 4 Control word Keys Pressing the t key enables or disables the incremental measurement function With the Auto ID function the new ID is adopted by actuating this key see chapter 6 8 Auto ID Pressing the key starts calibration see chapter 4 5 1 Calibration and acknowledges a pending error see chapter 4 4 2 Errors Pressing the key starts the parameterization mode see chapter 4 3 Parameterization of the position indicator Functional Description Operating modes The following position dependent operating modes are differentiated Absolute Position Differential Value Modulo and the position independent operating mode Alpha numeric Display Operating Absolute position Differential value Modulo Alpha numeric mode Display Line 1 Actual position Actual position Actual position Set point1 Line 2 Set point2 Differential value Set point2 Set point2 Table 1 Display with different operating
11. 10 mV resolution Parameter address 63h Description battery voltage Access ro EEPROM no Programming mode no Data type UNSIGNED 16 Default 0 Data content 0 4 310 0 V 3 10 V 6 9 38 65h Device identification Parameter address 65h Description Device identification Access ro EEPROM no Programming mode no Data type UNSIGNED 8 Default 8 Data content 8 AP10 6 9 39 67h Software version Parameter address 67h Description Software version number Access ro EEPROM no Programming mode no Data type UNSIGNED 32 Default Data content 100 version 1 00 or higher SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 38 of 46 Communication via SIKONETZ 5 6 9 40 80h Number of errors See chapter 4 4 Warnings Errors Parameter address 80h Description Number of errors recorded Access ro EEPROM yes Programming mode no Data type UNSIGNED 8 Default 0 Data content 0 10 6 9 41 81h until 8Ah Errors See chapter 4 4 Warnings Errors The oldest error is found under parameter address 81h the most recent error is found under the highest address Parameter address 81h until 8Ah Description error Access ro EEPROM yes Programming mode no Data type UNSIGNED 16 Default 0 Data content see chapter 4 4 2 Errors 6 9 42 96h Input errors Output of a list 10 entries of input errors see chapter 6 5 1 SIKONETZ5 error codes The l
12. 5 6 3 6 6 3 7 6 4 SIKO AP10 Bit Meaning Value 0 Value 1 General error not present is present Output of position value dynamic freezed Position value incremental measurement Off On With Display operating mode Zahl ASCII String Data identifier 10 Validity set point2 invalid valid 11 Battery status critical or empty alright critical or empty 12 Sensor error not present is present Tape Sensor or Lost Sensor or Speed 13 key not actuated actuated 14 key not actuated actuated 15 f key not actuated actuated Table 13 Status word Data Range for data exchange Size 4 bytes Check sum For checking error free data transfer a check sum is formed at the end of the telegram The check sum is the exclusive OR link of bytes 1 9 Check sum Byte10 Byte1 XOR Byte2 XOR Byte3 XOR Byte4 XOR Byte5 XOR Byte6 XOR Byte7 XOR Byte8 XOR Byte9 The following applies for checking the telegram received Byte1 XOR Byte2 XOR Byte3 XOR Byte4 XOR Byte5 XOR Byte6 XOR Byte7 XOR Byte8 XOR Byte9 XOR Byte 10 0 With a result unequal 0 a transmission error is to be assumed When a check sum error is detected it is answered with an error telegram With three subsequent check sum errors the check sum SIKONETZ5 error will be triggered Synchronization NOTICE Processing of the Restore factory settings system command m
13. Qu Rer ree E Aq ERU qd pRUES TrPUR UR 29 ODh Display orlentatiOn z eio eroe serere oett deae seres on eee eire Lore Dee ene Loa Cea oss 29 OEh Configuration programming MOEC ccccssceccssccccssccceescceeseceesseceesseceaeeeceenss 29 IBN Counting direction oec eese n eee aono Re Pn cave ene ERR E CR RR Seo PEERS eR YT RARE Re REN R NER Ra Eia 30 1Ch Resolution per revolution eeeeeeeeee esee nennen nnne nennen nnne 30 TEMS Offset VANE qe 31 TFh Sz decia UE i r 31 20h Target window1 near field 2uisadeesees aei e eade pa uUo UH ea dtr sean p ao ax eto PEEL Prpe pda 31 2th POSITIONING type loop Type iieerziossvtre sau IRE ERE EH QI epLU t pra qo NI dk v E LR QUA EAY 32 Hmmm 32 28h Operating MOE sessin eaa ea nnne she enn sheets tese n tenni 32 30h Display in ENE FOND decem ua eerte rueda ri RR Det pH EVE eR e etacun intet tuli EE ERR nd 33 31h Target window2 extended ciactnonineniute ken hd eo RR RET EHE EE PERRO PEOR KR E eH XK RH POR CR 33 32h Target window visualization eese eeeeee esee eese eene eene nnne nnne nns 33 33h Application of the display divisor ADI application scere 34 34h Formation of the differential value cccscccsssccccssccccescccesecceeseceeseeceeseeeeeess 34 35h Key function enable2 Incremental measurement enable esss 34 39h WEDS red Tig D suiesoamis rptu
14. disabled 1 Calibration enabled Date 03 09 2015 Art No 86855 Mod status 319 15 Page 26 of 46 Communication via SIKONETZ 5 6 9 7 06h LED flashing Flashing of the LEDs can be set via parameter 06h see chapter 3 3 LED display This setting applies to all LEDs Parameter address 06h Description Flashing of all LEDs Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 no flashing 1 any glowing LED is flashing 6 9 8 07h LED3 green right LED3 green right can be set via parameter 07h see chapter 3 3 LED display The control word can be freely accessed only if the LED is switched off here Parameter address 07h Description LED green right LED3 Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content 0 Off 1 position dependent 6 9 9 O8h LED2 red left LED2 red left can be set via parameter 08h see chapter 3 3 LED display The control word can be freely accessed only if the LED is switched off here Parameter address 08h Description LED red left LED2 Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content 0 Off 1 position dependent SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 27 of 46 Communication via SIKONETZ 5
15. modes Date 03 09 2015 Art No 86855 Mod status 319 15 Page 7 of 46 Functional Description Absolute position Linear absolute position values are displayed Differential value display With factory setting Differential value actual position set point2 Modulo display Position values ranging from 0 to 360 are displayed Using the parameter OAh Decimal places the resolution and the modulo point of the displayed values are set Decimal places Display resolution Value range 0 1 0 360 1 1 10 0 0 360 0 2 1 100 0 00 360 00 3 1 1000 0 000 360 000 4 1 10000 0 0000 360 0000 Table 2 Modulo display Alpha numeric display Both rows can be written freely Set point1 is received via the SIKONETZ5 parameter FBh set point1 set point2 via parameter FFh set point2 The data identifier must be correctly set in the relevant control word The data identifier differentiates whether the data is interpreted and displayed as figures or alpha numeric characters ASCII see chapter 6 3 4 Control word 4 1 1 Position bound operating modes 4 1 1 1 Positioning see chapter 4 1 1 2 Loop positioning Arrows see parameter OCh Direction indicators CW CCW Arrows are displayed to support the user with positioning as long as the current actual position value is outside see parameter 20h Target window near field target window1 The direction
16. of the arrow indicates the direction of shaft rotation in order to arrive at the set point2 LED display see e g parameter 09h LED1 green left With factory setting the LED glows green as long as the actual position is within the programmed window1 When leaving target window1 the LED glows red The shaft must be rotated in the direction of the glowing LED in order to arrive at the set point2 The red glowing LED on the right means clockwise cw rotation required Red glowing LED on the left counter clockwise ccw rotation required SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 8 of 46 Functional Description SIKO AP10 An additional target window target window2 and an associated visualization can also be configured see parameter 31h Target window2 extended With factory settings the LED display has the following meaning Operating state LED Status Meaning There is no valid set both off Positioning disabled point There is a valid set LED left off Target window not reached point2 The shaft must be rotated clockwise cw in order to reach the target red Target window not reached The shaft must be rotated counter clockwise ccw in order to reach the target green Target window reached LED right off Target window not reached The shaft must be rotated counter clockwise ccw in order to reach the target red Target window not reached The shaft must be
17. settings 7 Calibrate 9 Software reset warm start A7h Calibration travel Calibration travel or calibration respectively can be executed via parameter A7h Parameter address A7h Description Execute calibration see chapter 4 5 1 Calibration Access wo EEPROM no Programming mode no Data type UNSIGNED 32 Default 0 Data content 1 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 40 of 46 Communication via SIKONETZ 5 6 9 45 6 9 46 6 9 47 SIKO AP10 A8h Programming mode Programming interlock see chapter 6 7 2 Programming interlock Parameter address A8h Description Programming mode Access wo EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 parameter programming disabled 1 parameter programming enabled AAh Freeze actual value The actual position value can be freezed via this parameter So synchronized recording of all position values in the unit can be generated The status word signifies whether the position value treansmitted is updated or freezed see chapter 6 3 5 Status word Updating of the position value will be reenabled with the next readout operation Parameter address AAh Description The current actual position value is cached freezed until the next readout operation of the actual position Access wo EEPROM no
18. write command on parameter D2h Auto ID assignment with the new Node ID to be set to the bus subscriber s with the current Node ID 1Fh and wait for an SIKONETZ5 response A write command on devices with a node ID different from 1Fh is responded to with an error message New ID will be displayed on all devices that have the current Node ID 1Fh The user must press the key on the device intended to adopt the new Node ID Afterwards this device sends a SIKONETZ5 response with the original Node ID 1Fh and the parameter D2h Auto ID assignment The new Node ID is taken over and stored in the EEPROM The initialization phase is finally repeated so that the new Node ID applies henceforth All other devices do not react Afterwards the control unit can execute a read command on a parameter for the node with the node ID 1Fh for instance in order to detect any other devices with node ID 1Fh present in the bus If so the procedure may be repeated until all devices have received the desired Node ID The Auto ID function is aborted in the AP10 when an illegal value was sent for the new ID Error messages will be returned in this case Use of this function is optional The node numbers can also be set via parameterization see chapter 4 3 Parameterization of the position indicator Date 03 09 2015 Art No 86855 Mod status 319 15 Page 23 of 46 7 O SN5 write command at node ID 31 Parameter D2h The user pushes the button at the desired
19. 1 else pea ciieo n et P 21 Communication COTS uec o a Ia ERR URTRE S Rb UQAR ARRA MM NA QUE FER IET CHd A UP I HEN n LU TERNI CHER UA 22 COMMUNICATION morttOEig uisus cs oe eue o a eau rose pe rre aeree esae e Een ew eeu euo a oe ani e siaaa 22 SIC eet m 22 Programming Interlock iiia eria oer eoo toro erra reo Ee eaae ga see Tes oo ed ees tavaneseloviecivaseevess 22 LUI M H MG 23 Parameter descripElOn s seio eoe ees eoo rere reo eere eoe ces eee v eene eo Ea Eo ee e Dae a sa TP ae testes 25 00h Note address p 25 iy dc rate ia ciasiaitas caducdaipesanctancasqanaaucaavnapeadkcaanseulcanpecaenioreanisapeaxamanmen tarmac 25 tra d CEBIT 25 03h Response parameter to a set point write access esseeeeseeeee esee eene nennen 26 04h Keys enable time Configuration start delay eese eren 26 05h Key function enable1 Calibration enable eeeeeseeeee eene eene nenne 26 OOM LED ET lAS TITO coii eetioco teure tecaseec EE beendet oi a Ta toda 27 07h LED 2 green reise ER e c H s 27 08h LED2 ECMIISBE E 27 Don LEDT green l ft scssi UE NER INFERNI aqua NU FERER a aaa ekaia 28 OAh Decimal places cioe iere arr ne eee eara e ae Eu ee eae Huge ee aeu alg ae REN Fa Ra dee eaa Ones 28 uiu QU 28 OCh Direction indicators CW COW desees iaik a Ro M Re asi
20. 600 2 115200 02h Bus Timeout See chapter 6 7 1 Bus Timeout Parameter address 02h Description Indication of bus timeout in x100 ms Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 20 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 25 of 46 6 9 4 6 9 5 6 9 6 SIKO AP10 Communication via SIKONETZ 5 03h Response parameter to a set point write access Parameter address 03h Description This parameter defines the response to the command Write set point Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 set point 1 actual value 2 differential value 04h Keys enable time Configuration start delay Configuration start delay key enable time is set via parameter 04h Parameter address 04h Description Duration of key actuation to start configuration Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 5 Data content 1 60s 05h Key function enable1 Calibration enable The parameter 05h indicates whether calibration of the position value is enabled via key actuation Parameter address 05h Description Key enable Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content 0 Calibration
21. AP10 Absolute Position Indicator with RS485 SIKONETZ5 interface User manual 319 15 Table of contents 1 Ge eral Informaton 4 25 an popa Van VXRREFERY NAE FRAN REN RUNS REYIAM S MANYRUXNSANIRRUNERNTRUAVRRNFRUE M MANNA S Y E PARYAE 5 1 1 Dok mentati i sesscvcccevccauceesvesecdengcdecweed lcediadsencakesdeetesdesweversedsnedecstycousuebvedenscdecvesdeses 5 1 2 M3ishuaphtreeeec n 5 2 ln net 5 2 1 Switching on the supply voltage cccsscccesseccesseccesecceesceceesceceescceeesceeeeceesseceeseeeees 6 3 Display and control keys ccce ee eee eee ee ee eee en eene n eene sn tenente ee Pete e eese sees sae e adasia 6 3 1 Hc M d N DPA 6 3 2 REDIERE TEIL 6 3 2 1 Extended display range i eerie rir orien eer netos Eco eoe seo ea etos E estou ea eoe Qe Ups 7 3 3 RaMunIEUeE I 7 3 4 KEYS natnn E EAE TEE E EN NE EES 7 4 Functional Description TP 7 4 1 Operating Modes asss PR 7 4 1 1 Position bound operating modes essssssssesssssssssssssesssesssosseesseesssesssessssesssesssessseess 8 41 1 1 Positioning ee eee o Oeo Seen ER EX ERE E E SE ee Pe xa S Re Ree Te Re aa ER RECEN EE CD E 8 4 1 1 2 LOOP POSITIONING zs soe etes pero sewed vac d aono aeneo seen o sono enu e yo TEENETE eaa yeu o ga 10 4 1 2 Alpha numeric display operating mode eeeceeeeee esee e eene e nnne nennen nnne 11 4 2 Battery DUNE
22. Display and control keys General The position indicator has a two line display with special characters and three control keys The keys serve for position indicator parameterization and control Two LEDs 1 serve for monitoring positioning Fig 1 Control elements LCD display The The display range is limited to 19999 99999 Values outside this range are displayed with FULL With supply voltage applied to the position indicator with factory settings the actual value will be displayed in the 1 row and the set point in the 2 row If there is no valid set point will be displayed in the 2 row The values displayed are determined by the operating mode Direction indicators arrows support positioning The battery symbol L__ is shown with a critical or insufficient battery status With incremental measurement function activated the incremental measurement symbol HH is shown Date 03 09 2015 Art No 86855 Mod status 319 15 Page 6 of 46 Functional Description 3 2 1 3 3 3 4 4 1 SIKO AP10 If battery voltage drops to a critical value the battery symbol on the display will flash If it falls below the minimum value the symbol will glow permanently Errors are signified by red characters Extended display range Values up to 999999 can be displayed by means of the control word If the relevant bit has been set and the value to be displayed is between 199999 and 999999
23. Functional Description 4 4 2 4 5 4 5 1 SIKO AP10 Errors Errors are signified via the display written in red and via the interface The cause of error must be removed to enable resumption of normal operation see Table 7 Corrective actions Afterwards you can acknowledge or delete the error message by pressing the S key or via the interface see chapter 6 3 4 Control word For signaling see chapter 6 3 5 Status word and chapter 4 5 3 Diagnosis Display Error code Bit assignment in Error SIKONETZ5 the status word LC permanent 0006h 1147 Low battery voltage empty SENBND 000Fh 1247 Tape sensor gap exceeded noSENS 001Ah 1247 No sensor connected SPEED 0019h 1247 Travel speed exceeded CS bUS 0080h 7 Checksum SIKONETZ5 to bUS 0081h 7 Timeout SIKONETZ5 Table 6 Error messages Display Error Possible effect Corrective actions L permanent Battery empty Position value not Battery change reliable calibration travel SPEED Admissible speed Position value not Reduce speed exceeded see reliable calibration travel installation instruction Table 7 Corrective actions System commands Calibration Two steps are required for executing calibration 1 Write calibration value see object 1Fh Calibration value 2 Execute calibration reset see chapter 3 4 Keys or object A7h Calibration travel Since the measuring system is an absolute system
24. LCD backlight can be set via parameter 3Ch Parameter address 3Ch Description LCD backlight red Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content 0 Off 1 On 6 9 34 3Dh Key function enable3 Configuration enable via keyboard Parameter 3Dh indicates whether configuration via key actuation is enabled Parameter address 3Dh Description Key enable Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content 0 configuration disabled 1 configuration enabled 6 9 35 3Eh Acknowledgement settings Parameter 3Eh serves for determining the key to be used as acknowledgement key The setting is only relevant in the alpha numeric display mode Parameter address 3Eh Description acknowledgement settings Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 PE key 2 Up and Left key SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 36 of 46 Communication via SIKONETZ 5 6 9 36 3Fh Display factor If a display factor 0 is set all values on the display are indicated in inch It should be noted that the transmission values from and to the interface are present in the metric system depending on resolution and ADI The control delivers target calibration and offset values as well as loop length and target window metrically as well Device internal position moni
25. N coti ceci eese otto er eo sore Seve se eaa eoe s cedes y eaa o e o ES Ede dove sea v vas 12 4 3 Parameterization of the position indicator cccsssccccssccceesceceesccceescceseceeseeeeeneeeees 12 4 3 1 Manual parameterization ccscccssscsscccssccesccesccenccescceacceeecssesssesseesssescseseseseeacees 12 4 3 1 1 Starting parameterization ccccccsssecceseeceescecesccecsceceeecceeeeceeseceeneeceeaseeees 12 43 12 Value IN PU cdssdevivssreasaressdenietesccsscceuts waveesssaavensdstdeduabedsveca boca vous vas suesecedeetuascdawees 12 PM SED TTC SCI CHOM sisctescsccesdececsssvecsecseceseeces vic deveed daaiawa EER EESE ETE ETE EERE 13 4 3 1 4 Adjustable parameters cccssscccsssccesseccesseccsseecceseecesceesescceeesceeseeceeseceeeeeeees 13 4 3 2 Parameterization via interface cccsssccceescceseccenseceseeccscecesceeeeseceeeeceenseceeneees 13 4A Warnings ETtOIS 4 eire reperi eire ho roodo he PUn o donde el eer t Ica ee eee Sebcessoees shade Pepe niae beatae 13 AS MEE ELITSE OLD RIDE TOILET 13 GQ EMMONS aoo ie tes Cie re Fei xe dua eden eode e eere ie Ode ues ae rd T Tears 14 4 5 System COMMANAS e M 14 415 1 CaliDratioTizs cii eerie too oreet eta e ee Toa u eee eR Faso P due caus eaae veo Suse en aa pso Fera Eon vex Dye ERR d 14 4 5 2 Restore factory settings oec eese eto ea ee e ae uk Pob os eaae x Ryo ege ER Ea eaae EEER To Rekki ka 15 4 5 3 DiagftoSis i
26. am 02h broadcast The master requests all connected slaves to execute the command transferred in the same telegram Node address The device address can be freely set in the range of 0 to 127 The delivered devices are preset to node address 31 ex works and must be reset to the desired address to enable their operation with multiple slaves on the SIKONETZ5 fieldbus see parameter 00h Note address and chapter 6 8 Auto ID Each address can be assigned in the fieldbus only once Parameter address A distinct address is assigned to every parameter e g calibration value or functional value e g set point see chapter 6 9 Parameter description Control word The control word consists of 16 bits Control word 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 MSB High Byte Low Byte LSB The following table lists the designations of the individual bits of the control word and their meanings Date 03 09 2015 Art No 86855 Mod status 319 15 Page 18 of 46 Communication via SIKONETZ 5 6 3 5 SIKO AP10 Bit Meaning Value 0 Value 1 0 reserved ever 0 1 reserved ever 0 2 Validity of set point1 invalid valid 3 Display range standard extended 4 Acknowledgment target window1 static not acknowledged acknowledged 5 Error not acknowledged acknowledged 6 With Display operating mode not acknowledg
27. ay take up to 600 ms Acknowledgment is reported only after proper updating of all parameters in the non volatile memory Byte telegram synchronization is via Timeout The intervals between the individual bytes of a telegram must not exceed the value of 10 ms If an addressed device does not respond the master must not send another telegram earlier than after 30 ms Date 03 09 2015 Art No 86855 Mod status 319 15 Page 20 of 46 6 5 6 5 1 SIKO AP10 Error telegram Communication via SIKONETZ 5 Illegal entries are replied with an error telegram An error telegram consists of parameter address FDh and an error code The error code is in the data section of the reply telegram The error code is divided in two bytes Code 1 describes the error proper code 2 contains additional information if available In the following example an attempt was made at writing a value of 90 to the key enable time parameter address However a maximum value of only 60 is admissible for this parameter 1 byte 2 byte 3 byte 4 byte 5 byte 6 byte 7 byte B byte 9 byte 10 byte Command Node Parameter Cw Data Check address address sum 01h 01h 04h 00h 00h 00h 00h 00h 5Ah 5Eh Table 14 Telegram from master to slave 1 byte 2 byte 3 byte 4 byte 5 byte 6byte 7 byte B byte 9byte 10 byte Command Node Parameter SW Data Check address ad
28. calibration is necessary only once with commissioning With calibration the calibration value is adopted for calculation of the position value The following equation is applied in case of calibration Position value 0 calibration value offset value Calibration value see object 1Fh Calibration value Offset value see object 1Eh Offset value Date 03 09 2015 Art No 86855 Mod status 319 15 Page 14 of 46 4 5 2 4 5 3 SIKO AP10 Overview of parameters Restore factory settings There are various options for restoring the factory settings of the device Access Coding Factory settings are restored Manuell CODE 11100 all parameters 11102 all except bus parameters 11105 only bus parameters SIKONETZ5 AOh 1 all parameters see parameter AOh 2 all except bus parameters System commands 5 only bus parameters Table 8 Access to factory settings Diagnosis To receive a list of device errors that occurred switch the device to the diagnosis mode Enter CODE 200000 in parameterization see chapter 4 3 1 Manual parameterization and confirm by pressing the fe key Any errors occurring are output indicating the error number and total of occurrences in the upper row The type of error is shown in the lower row Error number 1 contains the latest error The oldest error is output with the highest error number Overview of parameters
29. ceived by the slave starts time monitoring Every new telegram recognized as valid by a slave correct check sum triggers time monitoring If timeout occurs this will result in the Timeout SIKONETZ5 error After establishing cyclic communication between master and slave this function can detect a broken cable of the connection line for instance and signal the defect 6 7 2 Programming interlock Programming interlock is controlled via parameter OEh Configuration programming mode This parameter being enabled the interlock must be canceled prior to write access to a lockable parameter see entry at the relevant parameter by applying a write access to parameter A8h Programming mode Correspondingly the interlock should be enabled again immediately after a write access This mechanism enhances protection against unintentional parameterization Write access to locked parameters is replied with Error due to device state see chapter 6 5 1 SIKONETZ5 error codes SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 22 of 46 Communication via SIKONETZ 5 6 8 SIKO AP10 Auto ID This function facilitates first commissioning of the devices in the plant The node numbers can be assigned by the superordinate control or by pressing the relevant button on the device concerned The functional principle is illustrated in Fig 5 Auto ID function The Node ID 1Fh 31d is factory set Now the SIKONETZ5 master must send a
30. cement it is mandatory to follow the instructions of the installation instructions Status word The charge status of the battery is signified in the status word Bit 11 is set when the charging voltage is critical and an error is signified with the additional bit 7 set when the battery is empty 4 3 Parameterization of the position indicator The position indicator can be fully parameterized via the bus interface You can configure manually via keyboard the most significant bus parameters node address baud rate protocol bus timeout and reponse delay time 4 3 1 Manual parameterization 4 3 1 1 X Starting parameterization After applying supply voltage and completion of initialization the position indicator is on the uppermost level of the menu structure default Factory settings By actuating the key the set node address and baud rate is displayed Parameterization starts if it is actuated for the duration of the enable time see parameter 04h Keys enable time Configuration start delay and 3Dh Key function enable3 Configuration enable via keyboard 4 3 1 2 Value input Enter values via the f key and the 4 key Confirm values entered by pressing the key decimal place selection key 4 value input key SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 12 of 46 Functional Description 4 3 1 3 4 3 1 4 4 3 2 4 4 4 4 1 SIKO AP10 Value selection For some parameters yo
31. ctual value is within the target window1 21h Positioning type loop type Travel towards set point in this direction 32 22h Loop length Loop length 32 28h Operating mode Operating mode 32 30h Display in the 2 row Controls the display of the 2 row of the 33 display 31h Target window2 extended Extended target window for easier positioning 33 32h Target window visualization Visualization of target window2 33 33h Application of the display ADI application 34 divisor ADI application 34h Formation of the differential Formation of the differential value 34 value 35h Key function enable2 Incremental measurement enable 34 Incremental measurement enable 39h LED4 red right LED red right LED4 35 3Ah LCD backlight flashing Flashing LCD backlight 35 3Bh LCD backlight white LCD backlight white 35 3Ch LCD backlight red LCD backlight red 36 3Dh Key function enable3 Configuration enable 36 Configuration enable via keyboard 3Eh Acknowledgement settings Acknowledgment settings alpha numeric 36 display 3Fh Display factor Display factor inch indication 37 63h Battery voltage Battery state of charge 37 65h Device identification SIKONETZ5 device identification AP10 8 38 67h Software version Software version 38 80h Number of errors Number of error incidents 39 81h until 8Ah Errors Error list 39 96h Input errors Input error list 39 AOh System commands Various system commands 40 A7h Calibration travel Starting calibratio
32. dress R Code 2 Code 1 sum 01h 01h FDh 00h 81h 00h 00h 02h 82h FCh Table 15 Reply telegram from slave SIKONETZ5 error codes Code 2 Code 1 Description 00h 80h Check sum SIKONETZ5 00h 81h Timeout SIKONETZ5 00h 82h Value rage exceeded inadequate 01h Value MIN 02h Value gt MAX 00h 83h Unknown parameter 00h 84h Access is not supported 01h write attempt to read only 02h read attempt to write only 00h 85h Error due to device status 03h Programming locked Table 16 SIKONETZ5 error codes Date 03 09 2015 Art No 86855 Mod status 319 15 Page 21 of 46 Communication via SIKONETZ 5 6 6 Communication errors Error states of the slave are signified with the status word 7 1 Every error must be acknowledged with control word 5 0 1 or by pressing the S key If the cause of the error has not been resolved at the time of acknowledgment the error will not be reset or triggered anew resp Errors that have not been acknowledged can be read via a read command on Parameter FDh Error telegram The error code will be output see chapter 4 4 2 Errors and 6 5 1 SIKONETZ5 error codes A list of errors occurring is output in Diagnosis see chapter 4 5 3 6 7 Communication monitoring 6 7 1 Bus Timeout Bus timeout monitoring is activated by configuring a valid time value gt 0 for timeout see parameter 02h Bus Timeout The first telegram re
33. ed acknowledged Acknowledgement of set point2 7 With Display operating mode number ASCII Data identifier reserved ever 0 Validity of set point2 invalid valid 10 With Display operating mode not acknowledged acknowledged Acknowledgement of set point1 11 LED1 green left Off On 12 LED3 green right Off On 13 LED4 red right Off On 14 LED red left Off On 15 LED blinking Off On Table 12 Control word Status word The status word indicates the current status of AP10 It consists of 16 bits Status word 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 MSB High Byte Low Byte LSB The following table lists the designations of the individual bits of the status word and their meanings Bit Meaning Value 0 Value 1 0 Direction indication CW Off On 1 Direction indication CCW Off On 2 Validity set point1 invalid valid 3 Target window2 dynamic not reached reached With Display operating mode not acknowledged acknowledged Acknowledgement of set point2 4 Target window1 static never reached reached 5 Target window1 dynamic not reached reached With Display operating mode not acknowledged acknowledged Acknowledgement of set point2 6 Deviation actual position lt actual position gt set point set point Date 03 09 2015 Art No 86855 Mod status 319 15 Page 19 of 46 Communication via SIKONETZ
34. esscadeace Ioan e E eo eh ae Reb e Rye Re PEERS ee eR CNN Yo SERRE 40 A7h Calibration travel 5 0 2 rore etre tee cerro eere eene een ea e Devo 40 A8h Programming mode eeeeeeeeeeeeeee seen eese nn nnne entres trennt nes sr teens 41 AAh Freeze actual Value 2 5 e erectis eat Re Eee REA e Ea Ra eee E Re Ro soe E Se RR YE ERR RR De RR eau Ee 41 C5h ADC valies of tlie sensor toe e epe ceded esee ro eras noo rue aeaii Rois 41 CAN Bus Protocol cioe ete exe ee Pera heo rura o ae Eo eee ge ease et aeu us ge pae RE Exe kae kx dee ua aueh 42 CFhs Period COUNTER vec uice oe oe eco see reo eee aeneo aa Cerea oe teer Tetra ey eve ANE NR HN ance aUas 42 DOh Response delay 1i et roter eoe eau reae asenaan a eu psa PE Re e cancer ee Nes Dus 42 D2ti Auto ID assignment eter toe a reset etos ty ve lec e edes a 43 FAN Status Word ssi ccs E 43 aigu 43 FCH Differential ELI aaa 44 aMsiaicisiirum EC Em 44 FERS Position valus sessies 44 FFA Set point ssc iiie orden re Sero teo Pes eres ober eode Ree dus AE qo rede AEE E A EEEE ERSE 45 mmunication via Service Standard Protocol ccce ecce ee ee eee eene ee eene ener 45 rjr eeeleeaens 45 Error number encoding 2 ae ioo esee eoe eo exo Eo Feo EN Fue Soa cava esee e yea EE RP XXR SPESE ae dew egeo y Uus 45 Service
35. f approx 5 ms Parameter address DOh Description Response delay Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 20 SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 42 of 46 Communication via SIKONETZ 5 6 9 51 D2h Auto ID assignment See chapter 6 8 Auto ID Parameter address D2h Description Automated assignment of a node address Access wo EEPROM yes the node number is stored with its adoption Programming mode no Data type UNSIGNED 8 Default Data content 15231 6 9 52 FAh Status word The status word can be read via this parameter Bit 4 Target window1 static is deleted in the status word with this operation With this function it can be detected whether the actual position was ever in the target window even if this is not the case at present see chapter 6 3 5 Status word Parameter address FAh Description Read status word and delete Target window1 static Access ro EEPROM no Programming mode no Data type UNSIGNED 16 Default Data content 0 6 9 53 FBh Set point1 The current set point1 alpha numeric display operating mode can be written and read via address FBh see chapter 4 1 2 Parameter address FBh Description Set point1 Access rw EEPROM no Programming mode no Data type UNSIGNED 32 Default
36. ine re ree ee een ee tne ne eden ce E eR e ae dou Pe seb T 15 5 Overview of parameters ecce ee ee ee eee een eene n eene n tene aee e e nee eese eee eate adasia sirs ee sore 15 6 Communication Via SIKONETZ 5 sca csccscsnsscsececacvcecscsatsaceadecssesadersasscaneseeddasteassscneeecassscss 17 6 1 INCOM ACE eis EUR 17 6 2 Data excliange s iere rere itane to deo eade coavdecsveccveaueaducdeaSecevededagncesebbertecn sidveassdecdveleds 17 6 3 IsisiriurMERRE EE 17 5 3 1 Comialdz eer ccs tect tacec E usse Od I eLI EIU EUNDI G 18 6 3 2 Mode address nie ree RUE red eene eae eaae A ERE EEE a a 18 6 3 3 Parameter address i iicet Hr treo reo rose e E Ia lavas cReeebes SEE ERE Ro XR LESSE NES tivaceawess 18 SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 2 of 46 6 3 4 6 3 5 6 3 6 6 3 7 6 4 6 5 6 5 1 6 6 6 7 6 7 1 6 7 2 6 8 6 9 6 9 1 6 9 2 6 9 3 6 9 4 6 9 5 6 9 6 6 9 7 6 9 8 6 9 9 6 9 10 6 9 11 6 9 12 6 9 13 6 9 14 6 9 15 6 9 16 6 9 17 6 9 18 6 9 19 6 9 20 6 9 21 6 9 22 6 9 23 6 9 24 6 9 25 6 9 26 6 9 27 6 9 28 6 9 29 6 9 30 6 9 31 SIKO AP10 Control WOTA P Q 18 StatUS WOTA e 19 Ur c 20 Check tM 20 Neutra Em 20 Error telegram 22 9 ee ede re eet rese teeoe sitse toetutve nieto iae E reed ecode 2
37. ist is deleted with initialization of the device at program start reset or power on The error number must be transferred in data byte 3 of the telegram Data byte 3 with the request 0 gt number of errors occurring is reported Data byte 3 with the request 1 gt error number 1 oldest error is reported Example Telegram structure of master oldest error no 1 shall be read Command ID Parameter ZSW Error number CS 00h 1Fh 96h XX YY Oth 00h 00h 00h NNh Telegram structure of slave oldest error 1 is output Command ID Parameter ZSW Error number Error code cs 00h 1Fh 96h XX YY Oth 00h 00h 83h NNh SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 39 of 46 Communication via SIKONETZ 5 Parameter address 96h Description error Access ro EEPROM yes Programming mode no Data type UNSIGNED 16 Default 0 Data content see chapter 6 5 1 SIKONETZ5 error codes AOh System commands Various system commands can be executed via parameter AOh Parameter address AOh Description System commands Access wo EEPROM no Programming mode no Data type UNSIGNED 32 Default 0 Data content 1 Reset all parameters to factory settings 2 Reset all parameters to factory settings except the bus parameters 5 Reset only the bus parameters to factory
38. itional gear the spindle or external gear backlash can be compensated by means of loop positioning Therefore movement towards the set point is always in the same direction This direction of approach can be defined Example The direction from which every target position shall be driven to is positive e ase 1 the new position is greater than actual position Direct travel to the target position 358 the new position is smaller than actual position The position indicator s arrows show that the set point is to be overrun by the loop length Afterwards the set point is approached in positive direction SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 10 of 46 Functional Description 4 1 2 SIKO AP10 Positioning loop Loop length Positioning in positive direction Positioning in negative direction Set point Target window1 Fig 4 Positioning Loop Alpha numeric display operating mode Two 6 digit set points can be displayed in this operating mode With factory settings the set points are acknowledged by pressing the asterisk key see chapter 3 4 Keys LCD display In the absence of a valid set point the 1st row is displayed empty blank appears in the 2 row A valid set point is displayed flashing until its receipt is acknowledged LED display With factory settings the LED display works according to the following table
39. measurement steps per revolution display revolution APU is defined via parameter 1Ch Parameter address 1Ch Description Number of measurement steps per revolution Access rw EEPROM yes Programming mode yes Data type UNSIGNED 16 Default 880 Data content 1 65535 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 30 of 46 Communication via SIKONETZ 5 6 9 18 6 9 19 6 9 20 SIKO AP10 1Eh Offset value The offset value is determined via parameter 1Eh Parameter address 1Eh Description Offset enables the shifting of a scaled value range The offset value is added to the position value in the encoder Both positive and negative values are allowed Position value measured value calibration value offset value Access rw EEPROM yes Programming mode yes Data type SIGNED 16 Default 0 Data content 29999 29999 1Fh Calibration value Via parameter 1Fh the encoder s position value can be set to a calibration value when calibrating To enable the execution of calibration the Calibration system command must be executed see chapter 4 5 1 Calibration Parameter address 1Fh Description calibration value position value measured value calibration value offset value Access rw EEPROM yes Programming mode yes Data type SIGNED 32 Default 0 Data content
40. meter 31h Target window2 extended Parameter address 32h Description target window2 visualization Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 Off 1 On Date 03 09 2015 Art No 86855 Mod status 319 15 Page 33 of 46 Communication via SIKONETZ 5 33h Application of the display divisor ADI application The ADI application can be set via parameter 33h Parameter address 33h Description ADI application Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 on all values 1 only on display Values transferred via the interface are not offset against the ADI 34h Formation of the differential value Calculation of the differential value is set via parameter 34h Parameter address 34h Description formation of the differential value Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 DIFF ACT SET 1 DIFF SET ACT 35h Key function enable2 Incremental measurement enable The parameter 35h indicates whether setting of the position value as incremental measurement is enabled via key actuation Parameter address 35h Description Key enable Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 1 Data content
41. n be set via parameter ODh Parameter address ODh Description Display orientation Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 20 1 180 rotated OEh Configuration programming mode Basic settings of programming interlock see chapter 6 7 2 Programming interlock Parameter address OEh Description Configuration programming mode Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 no active programming interlock 1 active programming interlock Date 03 09 2015 Art No 86855 Mod status 319 15 Page 29 of 46 Communication via SIKONETZ 5 6 9 16 1Bh Counting direction The counting direction can be set via parameter 1Bh 6 9 17 SIKO AP10 Parameter address 1Bh Description counting direction Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content MS500H 0 positive counting direction 1 negative counting direction GS04 0 clockwise sense of rotation I CW Bit 1 1 counter clockwise sense of rotation E CCW I sense of rotation ascending position values with clockwise shaft rotation CW view on the display E sense of rotation ascending position values with counter clockwise shaft rotation CCW view on the display 1Ch Resolution per revolution The number of
42. n travel 40 A8h Programming mode Programming disable 41 AAh Freeze actual value Freeze position value 41 C5h ADC values of the sensor Hardware analysis 41 CAh Bus protocol Setting of the communication protocol 42 CFh Period counter Hardware analysis 42 DOh Response delay Delay until a SIKONETZ5 bus telegram is 42 answered Date 03 09 2015 Art No 86855 Mod status 319 15 Page 16 of 46 Communication via SIKONETZ 5 6 1 6 2 6 3 SIKO AP10 Name Description see page D2h Auto ID assignment Automated node address assignment 43 FAh Status word Device status 43 FBh Set point1 Set point1 alpha numeric display 43 FCh Differential value Deviation between actual and target positions 44 FDh Error telegram Error telegram 44 FEh Position value Actual position 44 FFh Set point2 Target position 45 Table 9 Parameter description Communication via SIKONETZ 5 Interface RS485 interface Available baud rates 19 2 kBit 57 6 kBit factory setting 115 2 kBit No parity 8 data bits 1 stop bit no handshake Data exchange The protocol functions according to the master slave principle The position indicator acts as a slave Every instance of communication must be initiated by the master When the master has sent a command telegram the slave sends a reply telegram Broadcast commands are an exception they remain always unanswered by the slave The prot
43. ocol is optimized for cyclical data exchange The relevant data such as set point and actual value as well as control and status words can be transferred between master and slave by a single telegram exchange The parameter to be returned by the slave as a reply to the master s Write set point command can be defined via the Write set point reply parameter Telegram setup Control word CW status word SW and data are transferred in the Big Endian format 1 byte 2 byte 3 byte 4 byte 5 byte 6 byte 7 byte B byte 9 byte 10 byte Command Node Parameter high low MSB LSB Check address address Byte Byte sum SW Data Table 10 Command telegram from master Date 03 09 2015 Art No 86855 Mod status 319 15 Page 17 of 46 Communication via SIKONETZ 5 6 3 1 6 3 2 6 3 3 6 3 4 SIKO AP10 1 byte 2 byte 3 byte 4 byte 5 byte 6 byte 7 byte 8 byte 9 byte 10 byte Command Node Parameter high low MSB LSB Check address address Byte Byte sum Cw Data Table 11 Reply telegram from slave Command The following access types are provided by SIKONETZ5 Access code Meaning Description 00h read The master requests the addressed slave to output the relevant value in a response telegram 01h write The master requests the addressed slave to accept the value transferred in the same telegr
44. protocol commands LiSt csseccseccsecceeeceeeceecccssccsscceceesseesseeseceeecssessseseeeses 46 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 4 of 46 General Informaton 1 General Informaton 1 1 Dokumentation The following documents describe this product e The data sheet describes the technical data the dimensions the pin assignments the accessories and the order key e The installation instructions describe the mechanical and electrical installation including all safety relevant requirements and the associated technical specification e The user manual for commissioning and integrating the position indicator into a fieldbus syste These documents can also be downloaded at http www siko global com p ap10 Additional information and support for this device can also be found there 1 2 Definitions If not explicitly indicated otherwise decimal values are given as figures without addition e g 1234 binary values are labeled with b e g 1011b hexadecimal values are identified by h e g 280h after the figures 2 Intended use Absolute position indicator with hollow shaft suitable for direct shaft mounting Actual and target values are indicated via the backlit two row LC display A direction indicator arrow is blended in if the actual value deviates from the target value including the adjustable target window The direction of the arrow indicates the direction of shaft movement necessary to reach
45. rotated clockwise cw in order to reach the target green Target window reached Table 3 LED display Control word see chapter 6 3 4 Control word The set point is not displayed and positioning not monitored unless the set point2 is marked as valid in the control word Status word see chapter 6 3 5 Status word Upon reaching target window1 the static and dynamic target window reached bits are set in the status word The dynamic bit is deleted when leaving target window1 The user must acknowledge the static bit Example Position monitoring Parameterization Factory setting Additionally Set point2 100 Positioning monitoring LED eR EEEEEZZIREEEEEEEEEEEEEN cu MENO 95 105 100 Target window1 Fig 2 Positioning monitoring Date 03 09 2015 Art No 86855 Mod status 319 15 Page 9 of 46 Functional Description Example of position monitoring with additionally activated target window2 parameter Parameterization Factory setting Additionally Target window 2 15 Visualization target window 2 1 Set point 100 Positioning monitoring uoit Rm ou Ss t Target window2 95 105 100 Target window1 Fig 3 Positioning monitoring with target window2 4 1 1 2 Loop positioning Target window1 is also applied to the loop length If the position indicator is operated on a spindle or an add
46. the target Additionally various visualization tasks can be realized by means of two bi color LEDs The device parameters can be adjusted by means of 3 keys You can change the set point output the position value and adjust all device parameters via the integrated bus interface Scanning is magnetically incremental In the currentless state scanning and saving of changes of the position value are battery supported The state of charge of the replaceable battery is monitored and signified Display and interface are active with external power supply only SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 5 of 46 Display and control keys 2 1 3 1 3 2 SIKO AP10 Switching on the supply voltage The AP10 will be initialized after switching on the supply voltage A display test is executed during initialization the LEDs are lighted consecutively and the configutation parameters are loaded from the non volative memory into the RAM of the controller With the display still unconfigured all parameters are set to their default values See to it that the bus will be connected only after correct adjustment of baud rate and ID see chapter 4 3 Parameterization of the position indicator and 6 8 Auto ID The AP10 functions with the data last parameterized AP10 is in the normal operating state According to the requirements of the application the display can be parameterized via the SIKONETZ5 interface in this state
47. toring is metrical Therefore the superordinate control can only function in the metric system The values for position setpoint and the differential value if applicable are calculated by means of the following formula for position value Display value position value x calculation factor X 10 Display factor 1 ion f E Calculation factor 0 254 9 different calculation factors can be set see Table 17 The number of decimal places is selected via parameter OAh Decimal places Display Calculation Meaning Examples of indication APU 400 factor factor Position after 1 revolution 400 0 1 Metric indication after APU 400 and ADI 1 10 Imperial indication inch 1574803 0 254 2 10 157480 0 254 3 10 15748 0 254 10 1575 0 254 5 10 158 0 254 6 10 16 0 254 7 103 2 0 254 8 104 0 0 254 Table 17 Value table of display factor Parameter address 3Fh Description Display factor Access rw EEPROM yes Programming mode yes Data type UNSIGNED 8 Default 0 Data content 0 8 SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 37 of 46 Communication via SIKONETZ 5 6 9 37 63h Battery voltage Battery voltage can be read via parameter 63h The voltage is indicated in
48. tus 319 15 Page 44 of 46 Communication via Service Standard Protocol 6 9 57 _ FFh Set point2 The current set point2 can be written and read via address FFh Parameter address FFh Description Set point2 Access rw EEPROM no Programming mode no Data type SIGNED UNSIGNED 32 depending on the operating mode Default Data content Oh FFFFFFFFh 7 Communication via Service Standard Protocol 7 1 General The service protocol enables the control of the position indicator via ASCII commands No additional devices must be connected to the RS485 interface since this protocol is not bus compatible An ASCII terminal sends a letter and additional parameters if required ASCIT Subsequently the position indicator sends a reply with a concluding CR Available baud rates 19 2 kBit 57 6 kBit factory setting 115 2 kBit Additional settings No parity 8 data bits 1 stop bit no handshake 7 2 Error number encoding The following error messages are returned in case of wrong input Error number Description 1 input of illegal parameter number 2 illegal value range Table 18 Error number encoding SIKO AP10 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 45 of 46 Communication via Service Standard Protocol 7 3 SIKO AP10 Service protocol commands list Command Length Reply Description Ay 2 17 AP10 SN5 zW xxxx gt Device
49. type software version y 0 hardware version z H y 1 software version z S L 1 2 wo Calibration see chapter 4 5 1 Calibration SXXXXX 6 2 Mt System commands x 11100 all parameters into basic state After restart the factory settings will be active this applies to bus protocol and baud rate as well x 11101 reset all to factory settings except bus parameters x 11102 only bus parameters into basic state x 11105 activate bootloader Z 1 11 EXXXXXXXX gt Output actual position Table 19 Service protocol commands list Date 03 09 2015 Art No 86855 Mod status 319 15 Page 46 of 46
50. u can select values from a list Direct value input is not possible there Pressing the key the value can be selected from the list By pressing the key the selection is confirmed Adjustable parameters The following parameters can be adjusted Display Parameter Options ID Node ID 1 127 KBAUD Baud rate 19 2 kbaud 57 6 kbaud 115 2 kbaud Protcl Protocol SIKONETZ5 Service standard BUS TO Bus Timeout 0 20 Inhibt Response delay time 0 10 CODE System commands Reset factory settings see chapter 4 5 2 Start diagnosis see chapter 4 5 3 Table 5 Manually adjustable parameters Parameterization via interface The position indicator can be completely parameterized in the RS485 SIKONETZ5 interface see chapter 6 Communication via SIKONETZ 5 Warnings Errors Warnings Warnings do not influence the acquisition of the absolute position value Warnings are deleted after removing the cause Possible warnings e Battery voltage for absolute position detection is below limit gt immediately exchange battery This warning is displayed with a blinking battery symbol LL Warnings are issued through the interface via the status word see chapter 6 3 5 Status word and chapter 4 5 3 Diagnosis Display Bit assignment in the status word Error LC flashing 11 Low battery voltage Date 03 09 2015 Art No 86855 Mod status 319 15 Page 13 of 46
51. vato Rb CHR FI BASE eut pHL ES aaa 35 3Ah LCD backlight flashing eeceeeeee eene nennen nenne nennen nnne nnne 35 Date 03 09 2015 Art No 86855 Mod status 319 15 Page 3 of 46 6 9 32 6 9 33 6 9 34 6 9 35 6 9 36 6 9 37 6 9 38 6 9 39 6 9 40 6 9 41 6 9 42 6 9 43 6 9 44 6 9 45 6 9 46 6 9 47 6 9 48 6 9 49 6 9 50 6 9 51 6 9 52 6 9 53 6 9 54 6 9 55 6 9 56 6 9 57 7 Co 7 1 7 2 7 3 SIKO AP10 SBh LCD backlight white iretur eee ternera D vno pna eR E EaR Ea 35 SCHE ECD backlig ht red oiii tote poner tero ten ee riae eae e ee re to pe ee epa eee Fe aeneo 36 3Dh Key function enable3 Configuration enable via keyboard 36 3Eh Acknowledgement settings ccssscccssseccssceceeseeceesccceescceeescceeeceesseeeeseeeeenss 36 BEN Display factor ciscess bedside Sencevesseacescasds eek sebeddeads cea curen sesdesdeecsenberscedeudesandeaes bende 37 63h Battery voltage 0 tices tee eee ee ele ete ooo E E E eee aae a ee gus 38 65h Device identification s eeeeseeeeeeeeeee seen esee eene nenne nnne ntes nnt ee tese nene nie 38 67h Software Version iioii Rave eta te SRe ER ER SES Re e Denke Gave Dae xe soe Exe Dae e eee RE ena Lu eu ap 38 80h N mbet Of ertOTS oreet rene eere eo Ee aeo ee ep eaae e a a Pes oae EE EA 39 81h until BAD ErfOts cioe peo ieu rere des a eo e zr a Ren a 39 TBI CCELI TTL TDI 39 AOh System commands ccccasescesdeucnesscod
Download Pdf Manuals
Related Search