Technical Details
Contents
1. MODEL ANBO8P 4 C20 A INPUT TC RTD mV mA V Rt ACCURACY 0 3XF St3Digits 250 POWER 100 240V AC DC 6 TEMPERATURE EXGURS ION lt 0 O1 NF S C 5 DS POWER 100 240 Model AN808P 6 8 Accuracy 0 3 F S 3digits 25 C Temperature drift lt 0 01 F S C 101 02 02 DUA A SSR pr pay OMA cs S 100 240V 11 A 13714941 5 4 BD BA 920 nog NC LX ges NC com No NG COM NO 1 23 AA HSA 7 9X10 E LT TE T RTD Rt oer com TXD RXD NO com No Trev GOME TEER E o 10v L 4 20mA Esel 67 5 9 H Min D E F G J a Le pest s pas a ep se 96 es w 6 u 45 os 25 AS 25 25 91 K Min 25 do n ss om EE CE EE Co ION IO NETO EL IL AECI ese a Model AN808P 7 Accuracny 0 3 F S 3digits 25 C Temperature drift lt 0 01 F S C S 14 H NC 5 TA 24V S 13 com gt S T 18 4 20mA SSR 1210 D No 41 4 RXD AIG aur v Snan ELT ro 9 LT E 9 POWER amp Tom 100 240V B 8 lt AC DC T Model AN808P 9 Accuracy 0 3 F St3digits 25 C PoWER 0 Tempe sROTSF SP 100 240V AC DC 9 8 BAZ 17 6 BAA S 4 2 SSR 4 20mA ad 24V by peg2. lutput fuction Press SET setting menu bk for a few seconds Input signal mode Lower limit signal input mode Upper limit signal input mode Communication setting menu y SET es Baud rate 4 SET Add Meter SET communication address Decimal point Not effective for TC RTD input Filter constant Temperature units switch Lower limit of tran Upper limit of tran The mode of program segment control setting 1 Total 50 segments on program segment setting each segment with 2 setting parameters SV is the setting value of this segment For example SV 01 is set as 200 2 Parameter SV value of this segment the first segment is 200 C 3 Parameter ST When ST controlling status please refer to below example When ST When ST please refer to below example 1 When ST when it runs to ST If ST con ST 10 the curren increases 17 C min averagely is set as 50 1 indica it indicates the current segment skipping setting value is 0 indicates the temperature reachingsv setting value is 1 1440 run in constant speed to the setting value wit has been decreased to 0 but the PV inue the operation of this segment til temperature is 30 C he uni SV is the parameter of controlling status of this segmen
3. lt Q o co gt m gt lt vo no Variable name Step27 setting val Step27 status sett Step28 setting val Byte No Remark Read Write allow ue SV27 ing value ST27 ue SV28 co oo nto oo gt lt vo gt lt gt lt gt lt gt lt lell gt gt lt vo m Step28 status setting value ST28 Step29 setting val Step29 status sett Step30 setting val Step30 status sett Step31 setting val ue SV29 ing value ST29 ue SV30 ing value ST30 ue SV31 H H oo co H o mo gt lt OQ gt Step31 status setting value ST31 o no gt gt lt a no Step32 setting value V32 o Step32 status setting value ST32 O a Step33 setting value V33 o co Step33 status setting value ST33 no mm gt lt o gt Step34 setting value 5V34 no gt lt OQ a Step34 status setting value ST34 Step35 setting value V35 Step35 status setting value ST35 ro re rw olotlo gt lt gt lt gt lt elo fel m o Step36 setting value SV36 no E no gt lt i Step36 status setting value ST36 ro re rw no mo gt gt lt i a gt lt ollo o i a D m Step37 setting val Step37 status setting value ST37 Step38 setting val Step38 status sett Step39 setting val ue SV37 ue SV38 ing value ST38 ue SV39 m gt Step39 status setting v
4. Do not dismantle or modify the product If you have to do so please contact with us first Otherwise it may cause electric shock and fire 5 Please check the connection number while you connect the power supply wire or input signal otherwise it may cause fire A Caution 1 This product cannot be used outdoors Otherwise the working life of the product will become shorter or an electric shock accident may happen 2 When you connect wire to the power input connector or signal input connectors the moment of the No 20AWG 0 50 mm2 scrwew tweaked to the connector is 0 74n m 0 9n m Otherwise the connectors may be damaged or get fire 3 Please comply with the rated specifications Otherwise it may cause fire after the working life of the product becomes shorter 4 Do not use water or oil base cleaner to clean the product Otherwise it may cause electric shock or fire and damage the product 5 This product should be avoid working under the circumstance that is flammable explosive moist under sunshine heat radiation and vibration 6 In this unit it must not have dust or deposit otherwise it may cause fire or mechanical malfunction 7 Do not use gasoline chemical solvent to clean the cover of the product because such solvent can damage it Please use some soft cloth with water or alcohol to clean the plastic cover 1 Code Illustration AN808 P Input amp communication 0 One input without communication 8 One input wiht RS4
5. KKAN808PE01 A 0 5 Model AN808P 16 80 Accuracy 0 3 F S 3digits 25 C Temperature drift lt 0 01 F S C BW ssp zg 49 48 4 20mA KA EF 100 240V 24V MA HA ee 1 i y 4 131 21 1 A RTD Rt COM TXD RXD NO COM NC TC m i oe KA E o iov L 4 20mA ee Note Please subject to the connecting drawing on the actual product if any changes 11 Simple problems shooting Display Message Reasons and Solution Display HHHH Input wire is disconnected or over the high limit Check input signal FH and ambient temperature Display LLLL Input wire is disconnected or over the low limit Check input signal FL and ambient temperature 12 Communication Protocol AN808P series apply to Modbus RTU communication protocol in process of RS485 half duplex communication read function code 0x03 write function code O x10 adopt 16 bits of CRC correction Data frame format Start bit Data bit Stop bit Correct bit Pa 2 we 12 1 Read register For example the master unit reads float data AL1 the value is 15 4 The address code of AL1 is 0x0002 because AL1 is float data 4 byte it covers 2 data registers according to IEEE 754 standard the hexadecimal memory code of decimalist float data 15 4 is 0x41766666 H Master unit request read multi register Ee ER Al et A Ee Meter Function High bit of Low bit of Hig
6. 85 communication Alarm output 2 Two alarms 1 One alarms One more alarm will be added when not using Heating and cooling control Control output R Relay C 4 20mA current Q SSR Size mm 4 48Hx48W 6 96Hx48W 7 72Hx72W 8 48Hx96W 9 96Hx96W 16 160Hx80W 80 80Hx160W AN808P series intelligent adjustor with 50 program segments of control function 2 Model Indication Model OUT1 Note OUT Note2 Alarm Note AN808P 4 C18 4 20mA Current Relay No JRS485 MODBUS RTU KKAN808PE01 A 0 1 Model OUT1 NoteD OUT2 Note Alarm Note Communication ANSOBP RSO ANBOSP 0 90 SSR Relay AN808P 0 C30 4 20mA Current Relay No ANS08P 0 Q38 SSR Relay OO RS485 MODBUS RTU AN808P 0 C38_ 4 20mACureent Relay 2 pR MODBUS RTW Note OUT1 4 20mA Current output load resisdence600Qmax Can switch to 4 20mA current output or control current output by Relay output capacity 3A 250Vac SSR output capacity 30mA 24Vdc Note OUT2 Can be worked just under heating cooling control OT 3 under other control worked as alarm 3 size 48 48 works as alarm 2 when without communication size 48 48 work as alarm 1 when with communication Relay output capacity 1A 250 Vac Note Alarm 3 The load capability of Relay output is1A 250Vac 3 Main Technical Parameter 3 1 Whole controller parameters 100 240VAC DC lt 30mA 220VAC Power su
7. AN808P Series Intelligent Temperature controller AN808P Programmable Intelligent Temperature Controller Adjustor User s Manual Features TC RTD Analog signal universal input Display alarm adjust amp communication function Advacned Fuzzy algorithm amp Two Degrees of Freedom PID Optional output controls modularization design easy to change High anti inteference 50 programm segments of controls Color control bar display Is Safe Caution x For your safe please read the below content carefully before you use the meter Please comply with the below important points N warning An accident may happen if the operation does not comply with the instruction A Notice An operation that does not comply with the instruction may lead to product damage X The instruction of the symbol in the manual is as below A An accident danger may happen in a special condition N Warning 1 Asafety protection equipment must be installed or please contact with us for the relative information if the product is used under the circumstance such as nuclear control medical treatment equipment automobile train airplane aviation entertainment or safety equipment etc Otherwise it may cause serious loss fire or person injury 2 Apanel must be installed otherwise it may cause creepage leakage 3 Do not touch wire connectors when the power is on otherwise you may get an electric shock 4
8. EE TEEN MEEN NIET Pw S oa HS Step10 setting value V10 Step10 status setting va gt lt a gt m gt lt gt 72 74 16 gt lt gt lt gt lt gt lt oo gt lt gt lt gt lt gt lt gt lt ollo mo gt lt oo ue ST10 2 R W Step11 setting value SV11 2 R W WEET TT NN EEN ww s WEE TEN WENE ENT EN EEN ere sas setas t aw stents setingvauesvis 2 aw Step13 status setting value ST13 E CC fo Step14 setting value SV14 E NT EN EN LEE EN HTH H EE EN EEN NEE ET TT TN gt lt co a gt lt co oo gt lt co gt gt lt co ap gt lt oo rn Step17 setting value SV17 EE EC HS Step16 status setting value ST16 2 R W EE EA RECAE a a MESAS Step17 status setting value ST17 Step18 setting value SV18 Step18 status setting value ST18 Step19 setting value SV19 gt lt o gt gt lt o mo gt lt gt lt wl wo gt gt gt lt o co En EA 2 R W Step19 status setting value ST19 ER 3 EA aa 2 R W gt lt o gt gt lt o ap gt lt o m A A A Step21 status setting value ST21 Step22 setting value SV22 X 0 2 4 6 8 A A A A AC dE Step25 setting value SV25 Step25 status setting value ST25 2 KKAN808PE01 A 0 8 zZ H fu oo Reflection ress w gt lt gt
9. OT 3 OUT2 control cycle SET utput fuction Setting Press SET setting menu menu for a few seconds 7 SE y SET A o PLA mn Alarm1 i 200 SET SET P HL 2 10 600 Alarm2 SE y SET 1 ALS 240 nnn Alarm3 SET SE d PS BE PV bias value USE H5S TSE 5 Ee Manual auto SET GE shift menu Te LEE g SET a Passwork lock E ys SE CLC LC 20 SET db LS 4 SET Hul dead area effective when OT 3 Alarm1 hysteresis SET effective when OT 3 Heating cooling control 7 Program segment setting Press A for a few seconds enter into program segment status setting menu Programm segment status setting menu 5 Selections of program operating status STOP RUN or HOLD is optional Power on amp reset SET L Measuring status Press W to setting manu of rogram segment parameters Programm segment parameter setting STEP select the setting program segment SV The segment setting value ST Please refer to the detailed indication as right SET ee Alarm1 mode y SET dira Alarm2 hysteresis SE dd Alarm2 mode 4 SET H3 Alarm3 hysteresis 45E Alarm3 mode SET oLL Lower limit of D control output SET GLH Upper limit of 190 control output y PnP ed SET y SET ana LU
10. W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 R Note Note KKAN808PE01 A 0 9 1 R Read only R W Read amp Write Each parameter setting range please refer to meter s menu illustration Note Alarm mode High limit alarm Low limit alarm High deviation alarm Low deviation alarm as a en en Note Input signal Please refer to input parameter table Note Baud rate ve e t Baudrate ss s Note Running status Running status STOP RUN HOLD ve Je Jo 7 Note6 Output alarm status corresponding bit 1 is on 0 is off Parameter 1 6 5 3 2 13 oo control status EE E 2 AL3 AL ALI our OUT Program for 16 digit CRC code abtaining unsigned int Get_CRC uchar pBuf uchar num unsigned i j unsigned int wCrc OXFFFF for 1 0 i lt num i WCrc unsigned int pBuf i for 0 j lt 8 j if wCre amp 1 wCre gt gt 1 wCre OxA001 else WCrc gt gt 1 return wCrc KKAN808PE01 A 0 10
11. alue ST39 m o ue SV40 gt lt Step40 setting val gt lt m Step40 status setting value ST40 w m a gt Step41 setting value SV41 Step41 status setting value ST41 gt lt gt lt gt lt m ro rw lo Step42 setting value SV42 gt lt m o Step42 status setting value ST42 gt lt m m Step43 setting value SV43 gt lt n gt Step43 status setting value ST43 gt lt n no Step44 setting value SV44 gt lt n Step44 status setting value ST44 gt lt n a gt Step45 setting value SV45 gt lt co Step45 status setting value ST45 no on mo no on on mof alo gt lt gt lt gt lt E milo r mn m gt lt gt lt gt lt gt lt gt lt gt lt gt lt E ml mn leal e ol gt gt lt eo co gt lt gt Step46 setting va Step46 status sett Step47 setting va Step47 status setting value ST47 Step48 setting va Step48 status sett Step49 setting va Step49 status sett ue SV46 ing value ST46 ue SV47 ue V48 ing value ST48 ue SV49 ing value ST49 Step50 setting val Step50 status setting value ST50 Program running status Output alarm status ue SV50 R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R W R
12. e program segment then carry on the former programmed value SV10 25 to control the temperature SV01 300 STO1 0 SV02 500 ST02 20 SVO3 150 STO3 0 SVO4 150 STO4 60 ST05 10 SV10 25 ST10 0 ST11 51 KKAN808PE01 A 0 3 8 Menu Parameter Indication Setting range Ex factory setting Setting Menu Alarm 1 setting value FL FH Alarm 2 setting value FL FH Alarm 3 setting value FL FH Measuring value correction 100 100 Manual Auto setting 0 Manual 1 semi auto enter to AT by manual setting 2 Auto autoly enter into AT when power on 02 When 0001 forbid to modify SV When 0010 forbid to modify Menu parameter When 0011 forbid to modify SV and Menu 0 9999 Control mode 0 ON OFF control 1 Heating control 2 Cooling control b c 0 1 3 Heating amp Cooling control P PID Menu coeffcient of proportionality 0 9999 1 t PID Menu integration time 0 3600 240 d PID Menu derivative time 0 3600 6 HJ ON OFF control hystersis effective when in ON OFF control mode 0 1000 2 3 Ce OUT1 control period current output is set as 0 SSR output is set as 1 25 The range of Relay output is set 24 EP Cooling proportionality coefficient 1 200 100 c_tt OUT2 Controlling cycle the settable range is 24 125 2 de Heatng amp coolngeonroldeadbard toi NN CN H out cta Input Fucntion Setting Menu ine Type of Input Signal Refe
13. gh limit OLH Display low limit FL Display high limit FH Low limit value of analog High limit value of analog Manual auto switch refer to meter menu illustration LCK password value Control mode OT Heating control cycle CT ETT KE Ken A cooing comer yae er aam mode an i EER Deorai pom seung De EEC EEN ET En aaea ADD i Program stepNosTeP dt 2 oe ae 2 Cooling proportion coefficient C_P Cooling control cycle C_CT 1st alarm mode AD1 2nd alarm mode AD2 3rd alarm mode AD3 Input signal selection INP Decimal point setting DP Filter constant FT Baud rate BAD Meter address ADD Program step No STEP Step1 setting value SV1 Step1 status ST1 2nd setting value SV2 KKAN808PE01 A 0 7 to 16 Address reflection x004E gt lt gt lt ro gt gt lt on Step3 setting value SV3 ue SV4 Step4 setting va Step4 status setting value ST4 gt lt on a gt gt lt on oo gt lt gt lt ala ol gt lt on m gt lt a gt gt gt lt a gt mo Step5 setting value SV5 3 Step6 status setting value ST6 E EN a Step7 setting value V7 Step7 status setting value ST7 Step8 setting value 5 V8 gt lt a gt gt lt gt lt gt lt alo cola 6A gt lt a gt OQ ee en ey 2 R W Step8 status setting value ST8 _ NIE EN EEN
14. h bit of Lowbitof Low bit of High bit of address code startaddress startaddress data byte databyte CRC code CRC code length length Slave unit normal answer read multi register EE EK N BEE OE ER EEE EE a ae EK Ed E Gs Function Data byte High bit Low bit High bit Low bit o code length of daia 1 ofdata1 ofdata2 of data 2 ade 12 2 Write register For Example The master unit write floating data SV setting value is 600 Address code of SV is 0x0000 because SV is floating data 4 bytes it covers 2 data registers hexadecimal memory code of decimalist float data 600 is 0x44160000 KKAN808PE01 A 0 6 Master request Write multi register A CN EN CN EE EE e EN CE CE EE EN Meter Function High bit it High bi i it High bit gh bit ign DI EE of data 2 of data 2 of CRC of CRC Slave machine normal answer Write multi register CE EE N ar EN EE ME i i Low 8 bits High bit of Low bit of i High bit Meter F High 8 bits ig S address E of start of start databyte databyte of CRC address address length length AN808 series meter address reflection table wot EN N dS rum istalamvavoait E __ ua ETT T Te aw nants EE iP CS ones menens 2 we E WE u rc regimen re veraneo 2 mw u ooren 2 ww mon weatngcocingconrotaeaatana u aaamnaeemt gt mum R W 2st alarm hystersis HY2 R W 3rd alarm hystersis HY3 R W Control output low limit OLL R W Control output hi
15. mp AL3 Alarm output3 indicating lamp AT Auto tuning indicating lamp Increase key Control output volume indicating light bar AN808P 4 with no light bar gt o OUT1OUT2 AL1 AL2 AL3 AT Cl EI ZI Y Decrease key Parameter selection confirmation key Function key KKAN808PE01 A 0 2 5 Panel key operations 1 SET key in normal display status press SET key to show setting menu and press it for a few seconds to show the advanced setting menu 2 al key press al key to make the parameter to flicker then the parameer can be changed 3 A y key to change parameters in setting status and press SET key after changed 4 In advanced setting menu press SET key for a few seconds to quit the menu and back to normal display status 5 In normal display status press 4 for 3 seconds to start Auto tuning function then AT indicating lamp turns on 6 In normal display status press dh key for a few seconds to enter the setting menu of program status pressW for a few seconds to enter into the setting menu of program parameter 6 Operation Process Power on amp Reset Press SET for a few seconds 30 300 Measuring status Press SET for a few seconds Control mode Proportional coefficient Integral time Derivative time ON OFF control hysteresis effective when OT 0 OUT1 control cycle Cooling proportion coefficcient effective when
16. pply Total current Ambient temperature 0 50 C Humidity 45 85 RH Accuracy 0 3 F S 3digits 25 C Control mode ON OFF control PID heating control PID colding control PID heating amp colding control Communication RS485 communication interface MODBUS protocol Panel protection level Temperature excursion 0 01 F S C Among power supply terminals relay output terminals amp signal terminals 22000VDC between the Dielectric strength reciprocally isolated weak signal terminals 26 00 VDC 3 2 Table oflnput parameters No Symbol Input type Measuring range Resolution Input resistance CT B Jooo ie EE N ER EE EE gt 100K 2 1 S100K O 2 E E Cc 1 C gt 100K Q 3 E T Cc gt 100K 9 4 b B 00 1800 C TE 100K 9 Se N R ene ie gt 100K 9 6 gt 100k 2 1 oa J N aawe e ef gt 100K 2 B BB Reserva 9 CO 2m 10 CO 2m4 11 CO 2mA 12 0 2m4 B ar Linearvoltage 0 50m onys gt 100K 0 14 aA 110 9 15 Y Linearvoltage Ow 0 01 5 gt 100K 9 16 re Linear resistance 0400 Q 0 01 F S 0 2mA 4 Panel Indication AN808 SERIES ADJUSTOR PV display window display measuring value or parameter code SV display window display setting value or parameter value OUT1 OUT1 output indicating lamp OUT2 OUT2 output indicating lamp AL1 Alarm output1 indicating lamp AL2 Alarm output2 indicating la
17. r to Input Parameter Table F The signal indicates the setting of low limit Refer to Input Parameter Table The signal indicates the setting of high limit Refer to Input Parameter Table Decimal point setting the setting is effective when it s not TC amp RTD signal input Filter constant when the parameter is big the response is slow and 1 250 vice versa 0 1 t Fu 1300 Mn M r z L a el ZE Es Z 9 Low limit value of analog to be effective when the ordered code bri with communication FL FH High limit value of analog to be effective when ordered code brH with communication d FL FH 1300 Communication Setting Menu LL 9 68 Add Address of the Meter 0 250 1 Alarm Function Table High limit absolute value alarm es Alarm PV gt AL Cancel PVSAL HY 1 Low limit absolute value alarm 1 Alarm PV lt AL Temperature droping Cancel PV2AL HY High limit bias value alarm Alarm PV gt AL SV Temperature rising Cancel PVSSV AL HY Low limit bias value alarm Alarm PV lt SV AL i Temperature droping SV AL i Sy Cancel PV2SV AL HY KKAN808PE01 A 0 4 Panel size 9 Panel dimension and mounting size unit mm Side face size Mounting size eG pl m BE Size code 4 48 48 6 96 48 7 72 72 8 48 96 9 96 96 0 6 Remark CEC EO TEN EE TT TO 1 Unit mm Tolerance 0 5 except indicating specially 10 Connecting Drawing AN808P Series
18. t is set as 51 indicates to finish the program segment cotrol and resumes to single setting value es skipping to the appointed segment For example when ST to 45 segment smit current output smit current output ST he controlling expected 45 and skipping to next segment is min and it indicates when this segment is under operating it will hin the setting time the meter will decrease to 0 within countdown time measuring value does not reach SV setting value the program will value is accordance with PV value For example SV he programm will run at this segment by 10mins and the temperature 200 4 In normal display status press W key for a few seconds to enter the program segment for parameter setting menu 5 In normal display status press key for a few seconds to enter program segment status setting menu You can select RUN Normal operation STOP Stop operation HOLD Keep the current SV value and not be changed anymore total 3 status Example 1 To operate a treatment cycle curve Require the temperature reaching 300 C The temperatue is evenly rising from 300 C to 500 C average10 C per minute Then lower the temperature to 150 c After 60 mins kept in the status of 150 C Jump to operate the 10th program segment Lower the temperature on the 10th program segment Stop on the 11th segment and exit th
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