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MM AA NN UU AA LL TH500Temperature and Humidity Controller

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1. 40p cable Additional type Manual e 111500 24N I O Board 1 2 2 a T 22 Resistance 2500 2 JB p S assum I O Board 1 40p cable 84 Fixing bracket 20p cable Additional type Manual Rek pek e 111500 25N 40 cable 20p cable Additional type 1 1 3 TH500 Sale separately 1 2 Safety information 500 2NN 3 Attention is a additional type 1 2 1 Safety notice For safety and security of the system that is connected to the product please read and follow this manual carefully We are not responsible for any damages and safety problems due to disregards of the manual or lack of care of the product Please install any extra safety circuitry or other safety materials outside the product for safety of the program that is connec
2. RTD Resistance Temperature Detector Direct Voltage input input Pt 100 s 0 5V d c 4 20 mA Relay output NC NO NC NC NO NC NO pone O 4 e O Shield D 2 RY1 RY2 RY3 RY4 45 _ RELAY OUT Relay output N O N O Liem input Luv vPurJ Lemp input Laut input 5 64 o 64 Dry bulb Wet bulb Dry bulb Wet bulb If you use voltage input please contact 250 s 0 1 resistance to the input terminal RY5 RY6 RY7 RY8 COM RY9 RY10 RY11 RY12 COM ES RELAY OUT sd 15 16 Open collector output Retransmission arrangement TESNO Separe body lia
3. 100 240 V a c 50 60Hz 14 SS XL Xu CH XL XL amp p amp 2 9162 9 2 5 Connection method 2 5 3 Temperature Humidity control output and retransmission arrangement 2 5 1 Power e Grounding needs more than 2mm wire and at least the third class grounding connection Grounding resistance below 100 Please pay attention when you connect it in polarity of output A Caution Please use shield line for output line And shield needs 1 point ground The third class grounding 100 240 V a c 50 60 Hz Temperature Humidity Temperature Humidity retransmission controller output output 4 20mA d c S S R S C R S S R S C R 2 5 2 Sensor Input Please use input wire with shield And the shield needs to have B 0 2017 6 Ex 7 x Ux 1 point grounding A Caution Please leave a space for Sensor line against power 5 E line or grounding line L uy i our Ltewp ret L uuui RET 4 e External output arrangement
4. Insertion direction Fixing bracket S Thickness of panel 1 10mm N To prevent electric shock please check whether power has turned off or not Before turn on power please use more than third class grounding A Caution When electricity transmits it may cause electric shock so please do not touch terminal Please wire it after turn off main power Please use around 2A fuse to main electronic power line 10 2 3 Suffix Code 2 4 Dimensions Panel cutout and Terminal arrangement Code Suffix Code Description 2 4 1 TH500 Standard type Additional type TH500 Temperature Humidity Program Controller Unit mm STANDARD TYPE SENSOR INPUT TEMPERATURE Pt 100 0 5 V d c HUMIDITY Pt 100 0 5 V d c DIGITAL INPUT D I 8 POINT CONTROL OUTPUT TEMPERATURE SCR SSR 1 POINT HUMIDITY SCR SSR 1 POINT RETRANSMISSION TEMPERATURE 4 20 mA d c 1 POINT HUMIDITY 4 40 mA d c 1 POINT CONTACT OUTPUT RELAY 1a1b 4 POINTS RELAY 1a 8 POINTS TRANSISTOR OUTPOUT OPEN COLLERTOR 8 POINTS COMMUNICATION RS232C RS485 USB ADDITIONAL TYPE SENSOR INPUT TEMPERATURE Pt100 s 0 5 V d c HUMIDITY Pt100 0 5 V d c RETRANSMISSION TEMPERATURE 4 20 mA d c 1 POINT HUMIDITY 4 40 mA d c 1 POINT COMMUNICATION RS232C RS485 USB 133 04 147 134 10 BOARD 1 SMPS 24V d c 18W 18 POINT RE
5. FORWARD IB REVERSE FORWARD E REVERSE NON 0008 100 00 E BAG 0008 10000 E Fig 77 Temperature control output setting Fig 78 Humidity control output setting Control output for Temperature and Humidity needs to be set individually as following Select and use S S R or S C R 4 20mA d c Select according to the equipment Initial value S S R You can set up when you select S S R output Output cycle means On Off working time in the proportional band Initial Value 2 seconds Select cooling control direct movement or heating control inverse movement Initial Value Inverse movement You can control output and selection range is 5 3 2 mA d c 0 5 20 8 mA d c Initial Value 100 96 T out type T SSR out period T out direct T out range It is an example for S S R output from 20 to 100 output range Base on cycles of control output Fig 79 S S R pulse output MV Manipulated Variable is changed to Duty SSR Period 208 MAP EA RO Terres ee a A 20 If you select S C R it shows the relation between MV Manipulated Variable and output range 12 MA 22 Min value of Output Max range of output range 0 range 50 output range 100 Min value of output range 5 of outpu
6. e Data Log Date Time 1 85 MV ALL ON RUN ON Prog ON L Period co Program RUN ON Prog ON Buf Init save during program mode controlling only Internal Buffer 2200 Delete Initialize Saved Contents in internal memory initialize Fig 67 Graph Setting screen Fig 68 Graph mem screen 51 52 TH500 present USB connection function to send saved data to PC According to Save Sequence amp Save Operation Mode set in Fig 67 Graph Setting display Data stored in internal memory become mass difficult to transfer with low speedy connection Max 115 200BPS interface like RS232 RS422 485 If you send by using USB connection in that time it is possible to send to PC within a few second Fig 69 is the display of USB Up loader software presented by HANYOUNG NUX CO LTD When USB connecter is connected Device connecting status is LOG DATA indicated Connectedi4n blue and f sg Dutton is activated Pressing Send button you can receive every Measure control value recorded in TH500 through USB Transferred date is stored in the folder off CATH500 DATA i Because all saved Data file is in text mode you can see the content of saved data file with any editor word processor or Excel It is possible to see a graph by using Graph Viewer program presented A Caution 1 You turn off all contents will be deleted because the value of saved measurement amp control is sa
7. eration fails to come within Waiting range of Set value SV wait Humi WALT RANGE 3 process of segment during setting Waiting operation time WAIT TIME B M and then go to next segment Only if Waiting operation is set toi 0 i Waiting operation will not work Fig 53 Pattern wait set up SEG running when the pattern waiting mode is not applied SEG running when the pattern waiting mode is applied Name Function Range Enter a pattern number to be set or select it by pressing Pattern No v button 1 300 pattern Enter a temperature range absolute value necessary for waiting temperature range If you enter 0 the temperature 0 0 i 300 0 i Fig 54 It shows common waiting mode operation If the PV fails to enter into the waiting will be OFF waiting range at the point when the SEG 1 to SEG 2 the system will wait for the Enter a humidity range absolute value necessary for waiting PV to enter into the waiting range during the waiting time According to the Fig 15 humidity range If you enter 0 the humidity waiting will be 100 0 even if the PV fails to enter into the waiting range the system will execute SEG 2 OFF unconditionally Fig 55 Enter the maximum range of waiting time If you enter 0 1 SEG 2 SEG 3 SEG hourO minute it will be set to the unlimited waiting time If a le you set both temperature and humidity waiting ranges the 0 0 system will run under
8. DADO B OFF Fig 122 Function Set up 1 screen Fig 121 Main Menu screen 76 7 5 2 Pattern Setting PATTERN Press button in the program setting menu screen it displays program pattern setting scree Fig 124 Under this screen select number 1 pattern by pressing pattern number setting window Press window of temp setting value humidity setting value operating time and then set up relevant segments Program setup MENU PATTERN SEWE REPEAT LINK SETUP WAIT ALARM Saw SETUP Fig 123 Program Set up menu screen Pattern setup No oo v a PROGRAM NAME SETUP SEG Page N SEG TEMP SV HUMISV Hour Min Wait T S ALARM PATTERN 4011 25 00 80 0 000 01 MANAGE 50 00 60 0 000 01 soa 50 00 ooo or Explanation of Program Pattern Setting Screen Operating Seg Contents of setting 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 Fig 124 Program pattern Set up screen Remark SEG No 001 Under the Temp 25 i Humidity 80 set up temp amp humidity segment for one minute SEG No 002 Under the Temp 25 i Humidity 8096 set up temp amp humidity maintenance segment for one minute SEG No 003 Under the Temp 50 i Humidity 6096 temp rise amp humidity fall for one minute SEG No 004 Under the Temp 50 i Humidity 6096 temp rise amp humidity fall for one minute SEG N
9. 4 4 1 104 Output by temperature Up Hold Down setting Setting Item Description Temp amp Humi Up Input the minus value of Temp amp Humi in the target of setting value section Temp amp Humi Down section Input the plus value of Temp amp Humi in the target of setting value Temp amp Humi Input the holding time of Relay or O C output with in Hold section segment time Fig 104 shows an example of displaying either Relay or O C output corresponding to the temperature Up Hold Down setting of temperature and humidity SV in the program control mode In case of adjusting the Up setting temperature Hold setting temperature and Down setting temperature to 10 i 2 minute and 20 respectively it indicates the timing ON with the assigned Relay or O C output D Output setup 5 es Name Relay O C Set time By ERROR Ez McCune 1 ES 1 sec Delayed Sig 2 m Fig 105 DO Configuration Setting 5 67 Item Description In case of input its output becomes ON for a setting time If the RUN STOP ERROR Min STEP and HOLD function input is set its D will be excluded PROG End Min Once the program control ends its output becomes ON for a setting time After the I S 1 is displayed its output becomes ON after a delay Delay signal 1 sec y 519 sec second for a setting time
10. After the I S 1 is displayed its output becomes ON after a delay minute for a setting time However the delay signal 2 is displayed only if the delay signal 1 becomes ON Delay signal 2 sec 6 8 Communication Setting Serial setup RS 232 rotocol D _11520 ity bit NONE A ud rate ty bit Ta go o eo Stop bit 1 bit jata Red 8 Data Length Eve 00 A M Address 0 A Response t 1 0000 1 Res t METH Fig 106 Communication Parameter Fig 107 Communication Protocol Setting RS232 RS422 485 The communication setting refers to the screen for setting either RS232 or RS422 485 parameters to communicate with the device that supports PC or other serials You can change it with the Up Down arrow buttons and can enter the local device number and response time by selecting the input box on your own Because RS232C 485 communication supports 4 lines RX RX TX TX in hardware and the type of Half Duplex in software if you want high speed communication you should connect into 4 lines In other case if you want a simple connection you can use 2 lines by connecting RX with TX amp do RX with TX If you want a simple connection by connecting 4 lines you can use 2 lines by connecting RX with TX amp doing RX with TX 68 Name Function Range Communication Set the communicatio
11. f uOperation Press twice within one second fU Result The _ On the bottom indicates a flickering cursor fuOperation One second passed after the key is pressed once fuResult The _ on the bottom indicates a flickering cursor 3 2 4 Korean Input Mode The screen for Korean input is shown on the IOGRAM PATTERN Fig 5 All the keys except thel keys consist of duplicate keys There is also an additional function key 1 The principle of using function keys is the same in every mode If you want to enter double consonants such as 6 5 t 4 you should press the consonant three times You Fig 5 The screen for Korean input should press the i key if you go to the next letter while entering letters 21 Or you can also use such key when entering the blank The Korean alphabet consists of three elements such as an initial consonant a medial vowel and a final consonant This input mode is classified into consonants and vowels so the consonants are not divided into an initial and final one Therefore you have only to enter an appropriate consonant regardless of its initial or final position The medial vowel consists of vowels only so you have only to press an appropriate vowel Ex If you want to indicatei ii fU peration Eu ei fUResult i The on the bottom indicates a flickering cursor Ex If you want to indicatei i fU Result The on t
12. Bulk MODE PC LINK PC LINK CRC PC LINK PC LINK CRC Communication respond time 8 4 Power supply Power Supply Voltage EIA RS232C EIA RS485 422 0 999 ms 100 200 V a c Change rate of voltage i 10 Fuzzy Select ON OFF Retransmission 4 20 mA d c 2 points Temperature Humidity output Select PV MV SV Alarm System alarm 8 points 8 points for each pattern Alarm type High Low Low deviation alarm etc 20 types of alarms Alarm Process alarm Temperature 100 00 200 00 i Humidity 0 0 100 0 setting Deviation alarm Temperature 300 00 300 00 i Humidity 100 0 100 0 96 Hysteresis 0 1 100 0 Memory for Internal Flash or SDRAM memory Temperature Humidity each interruption Memory type 86 400 point of electric Memory power function Program information amp SV backup and restoration Temperature Humidity setting PV save Frequency 50 60 Hz Power Consumption Max 20 W below Insulation Resistance Between primary terminal and secondary terminal 500 V d c Between Primary Secondary terminal and ground 20 s Dielectric Strength Between primary terminal and secondary terminal 2500 V a c 50 Between Primary Secondary terminal and ground 60 Hz for 1 minute Power supply for Sensor 24 V d c 10 W Max 81 82 8 6 Operation Environment Setting surroundings Consecutive Vibrati
13. Shield RX Shield RX Shield RX 0 4 04 0 4 0 o RX RX RX 04 o O 4 wire connection Master TH500 TH500 TH500 In case of transistor input DI 1 8 NY DI1 012 DIS 014 015 Dl6 DI7 DI8 GND TX TX TX TX Terminating resistance RX RX RX RX Terminating resistance OD RX Shield RX Shield RX Shield RX 17 18 Setting and operating 3 1 Initial screen When the TH500 power is on the screen for logo indication Fig 1 and screen for system check Fig 2 will be appear in order of precedence Users can change the screen for logo indication and system check HAMTOUHG TH5HH U1 HH xul uuu i PSP BB H0 ee ee Fig 1 Logo screen Fig 2 Screen for system check 3 2 Basic Input Method Table 1 Button amp Input Box Name Function Select button Users can select this button on their demand BUTTON If you press this button its color will turn into another By releasing it back you can select this button operation Active input box Users can enter various set values into this box as they Input available wish When you press the box a certain range of numbers or the text input box Fig 4 to Fig 7 will appear depending on situations Then you have only to press the set value Inactive input This box is inactive under
14. Fig 76 Range setting screen 55 Dry T Range Set up Dry Web temperature range Dry Temp Displays Dry bulb temperature Web Temp Displays Wet bulb temperature Gauze have to be removed Rel Humidity Displays relative humidity Press Dry Wet bulb ADJ and it shows the temperature difference between dir bulb and web bulb It s very important D W Adjust to correct Dry Web bulb because relative humidity measurement is based on the temperature difference between two sensors Adjust mode If you push setting correction will be started Please remove gauze in the web bulb sensor before correction And A Caution also start correction after stabilization of the process value Please recover gauze after correction T SV range In order to prevent users mistake the Temperature SV range can be restrictive as much as wanted range H SV range In order to prevent users mistake the humidity SV range can be restrictive as much as wanted range Temp Res Temperature process vale and SV can select 0 01 1 or 0 1 Burn out wait time Set up delayed action time after detecting sensor loof brake A T Button It shows or hides Auto Tuning button in operation screen 56 6 2 Control output setting a aah m m S m z 5 A 1 V A pas T Out type H Out type Em T SSR Out period s H SSR Out period Jis
15. L LAH 105 0 L VLAH 4 ON WOO ON 15 RY16 E RY18 AIET S2 elel NO COM NC NO COM NC NO COM NC NO COM NC e lo 100 240 Va c 50 60 Hz NO COM NC NO COM NC Unit mm Unit mm 2 4 5 TH500 Standard type terminal arrangement e 1H500 Standard type terminal arrangement TEMP INPUT HUMI INPUT TEMP OUT HUMI OUT TEMP OUT HUMI OUT RET RET SCRISSR p SCRSSR elle eq REIR Di 02 DIS DIGITAL INPUT OPEN COLLECTOR OUT COM m 002 003 004 COM 005 006 OC8 Em DIGITAL INPUT RELAY OUT 5 06 207 018 Y5 RY7 RY8 COM RY9 RY10 RY11 RY12 COM RY1 RY2 RY3 RY4 N C COM lus COM juo pm COM m m COM 100 240 V a c 50 60 Hz CAUTION RELAY OUT a vol
16. SIMPLE EXAMPLE 8 SPECIFICATION Contents 1 1 CHECKING PRODUCTS 1 2 SAFETY INFORMATION 2 1 INSTALLATION PLACE AND CAUTION NOTICE 2 2 INSTALLATION METHOD 2 3 SUFFIX CODE 2 4 DIMENSIONS PANEL CUTOUT AND TERMINAL ARRANGEMENT 2 5 CONNECTION METHOD 3 1 INITIAL SCREEN 3 2 BASIC INPUT METHOD 3 3 NAMES OF EACH PART ON THE OPERATING SCREEN 3 4 RUNNING OF FIX CONTROL 3 5 RUNNING OF PROGRAM CONTROL 3 6 P I D AUTO TUNING 3 7 GRAPH DISPLAY AND SETTING 3 8 ERROR INDICATION 4 1 OPERATING SCREEN 4 2 FUNCTION SETTING SCREEN 4 3 SYSTEM SETTING SCREEN 5 1 OPERATING METHOD SETTING 5 2 PROGRAM SETTING 5 3 DATE TIME RESERVATION SETTING 5 4 GRAPH SAVE SETTING 6 1 SENSOR TYPE SETTING 6 2 CONTROL OUTPUT SETTING 6 3 RETRANSMISSION OUTPUT SETTING 6 4 INNER SIGNAL AND ALARM SETTING 6 5 PLD SETTING 6 6 DIGITAL INPUT 0 1 CONFIGURATION SETTING 6 7 DIGITAL OUTPUT D O CONFIGURATION SETTING 6 8 COMMUNICATION SETTING 6 9 OTHER SETTINGS 7 1 INPUT OUTPUT SETTING 7 2 OUTPUT SETTING 7 3 INNER SIGNAL SETTING 7 4 FIX CONTROL 7 5 PROGRAM CONTROL 8 1 INPUT 8 2 OUTPUT 8 3 COMMUNICATION TYPE 8 4 POWER SUPPLY 8 5 FUNCTION 8 6 OPERATION ENVIRONMENT 8 7 TRANSPORTATION AND STORAGE CONDITIONS 1 Before starting Thank you for the purchase of HANYOUNG Temperature and Humidity Controller Model TH500 This manual contains the function of product install method caution information and the way of using this controll
17. set up suitable scale In case of 1 5V input and display Setting range 0 100 set up scaling setting as 0 100 Sensor Sensor deviation corrects the deviation of sensor which is caused by several Deviation reasons Low Pass Filter selects suitable time when processed value is chattering due to inflowing of noise through input sensor line Setting Explanation Dry Bulb Temp Range Set up dry web bulb temperature range Dry Bulb Temp Displays temperature of dry bulb temp Wet Bulb Temp Displays temperature of wet bulb temp removal gauze Relative humidity Displays relative humidity 96 R H Press Dry Wet Bulb ADJ and it shows the temperature difference Correction of Dry Wet between dry bulb amp wet bulb It s very important to correct Dry Wet Bulb Bulb because relative humidity measurement is based on the Sensor Type Input Range temp difference between two sensors Correction Mode Correction will be performed when pressing it Before correction please remove gauze in the wet bulb A Caution sensor and put into correction mode when measurement value of dry wet bulb is stabilized 7 1 3 Range Setting T SV range 20000 00 BE 1000 10 Temp SV Range In order to prevent user s input setting mistake Input temp range Wet Temp dE Humidity SV Range when restricting temp SV within its desired range Rel Humidity 0 01 C 0 1 C i In order to
18. 1010 No TIME ONMAOFF TIME UH ON REM rs fas 731 fw fo far A ESCUDO 32 EE z 182 T S 1 SEG 2 ON under soak status r 3 0h Sth i 153 E 00 00 0 5 2 SEG 4 ON under 25 soak status iin fain fu V TS4 ON oF Eo TS 3 SEG 6 ON under 75 soak status EN 5 4 SEG 1 and SEG 5 ON under Up section Fig 48 Time Signal Set up Display Fig 49 Example of Time Signal Set up TS5 ON under Down section Time Signal Set up Mode is divided into 2 types according to mode SEG On Off TS6 SEG 1 to SEG 3 ON Mode and Time Set up Mode Time Signal can be set to 8 points per each T S7 SEG 4 to SEG 6 ON Segment T S 8 SEG 1 to SEG 6 ON under program control running 39 40 Fig 48 shows an example of using the T S in ON OFF mode It performs turning on and off the T S in the desired segment with the name of ON OFF mode The ON and OFF buttons are composed separately like Fig 46 Select by pressing button according to the desired Time Signal Operation Example of Setting the Time Signal in TIME Set up mode PATTERN 1 LOOP 1 SEG 1 SEG 2 SEG 3 SEG 4 SEG 5 SEG 6 T S 1 T S 2 01h 00m 02h 00m 01h00m 01h30m 011 00m 02h00m 4 Delay time 00h 00m Delay tim
19. 2835 47 46 AQ A ontact INDUt 1a 4point x 2 total 8 point maximum 8 V d c 10 mA d c V M SY 387 50 0 HSV T MV 16 26 H MV 0 00 91 23455 7 ARHI 522 1 H PATTERN 1 Time YA 123456578 ML SEG RPT amet sTeP stor A S Fig 127 The 1st running screen of program Fig 128 The 2nd running screen of Fig 127 g prog g 128 g 8 2 Output control run screen program control 24 V d c Pulse voltage Over 800 i load resistance OFF Below 0 1 V d c Output ycle time 1 1000 second SCR 4 20 d c or 1 5 V d c Below 800 i load resistance Output limit 5 0 105 0 Temperature 4 20 mA d c Below 800 i load resistance Retransmissi Humidity PV MV SV Internal selection on Output Accuracy 0 025 of Full Scale resolution Around 4 000 SETUP Renewal Time 5000 ms Digital Contact output N O 30 V d c 5 A 250 V d c 5A Fig 129 Graph display screen Output N O 30 V d c 250 5 Open collector output 24 V d c 300 mA d c Max 79 80 8 3 Communication type Apply range USB V1 1 EIA RS232C EIA RS485 422 8 5 Function Number of EIA RS232C EIA RS485 422 1 1 1 32 Address 1 999 devices Max EIA RS232C EIA RS485 422 Full duplex mode 4 ways half duplex mode Commu
20. current conditions or situations box Input However if you put it under certain conditions or 19 unavailable situations it will turn into the active input box as shown above 3 2 1 Screen for button input The Fig 3 is the basic number input box You can enter integral numbers or real numbers Decimal point there The title of an entered number and its upper and lower limits will be indicated on the left top of the box The current input value will be indicated at the indication box over the figure board The entered number will be entered completely only if you enter the ENT Fig 3 is the basic number input box key You can cancel the entered content by pressing the ist 3 2 2 Number Korean English Sign Input Fig 4 to 7 shows the screen for entering the Number Korean English Sign This multi input screen enables you to enter the Number Korean English Sign text respectively by pressing the key in turn Its shift order isi Number Input i Korean Input Mode i i i English Input Modei4 i Sign Input Mode i You can return to the Number Input Mode i by pressing the The arrangements of Number Korean English Sign keyboards are different from each other However the Function keys on the right side play the same roles as follows Delete all the current texts entered i Delete one letter ahead of the current cursor Save the text indicated up to the curren
21. el DCV Scaling Jic Temp Bias 00015 LPF Time 005 18 0 000i 50010 leen 00 100 0 ie 002 ILPF Time 19 Fig 73 Temperature sensor setting screen Fig 74 Humidity sensor setting screen 54 Sensor type Set up according to sensor type If the sensor type is a DRY WET bulb type and will be 250 and 1 resistance need to to sensor input terminal e Input range Regarding sensor input range you can use initial value The initial setting for temperature value is 100 200 i and humidity value is 0 100 R H If you use electronic humidity sensor Model EE99 please set up input range to 1 5V d c and contact resistance 250 S 1 below to the both of input terminals Scale setting If you select DC voltage V d c please enter proper scale value If you enter 1 5 V d c and display range is 0 100 please set up scale setting value from 0 to 100 Sensor Bias The sensor bias revises deviation that is caused by many reasons LPF setting LPF Low Pass Filter setting When process value is chattering due to inflow of noises through input sensor user can input propertime A Input setup NEXT 59 IE 100 00 200 00 Kal ANC 00 Mj 100 0 EA Wet Rel Humidity 50 Temp Res 0 1 C 0 00 te Burnout wait time 002 EN Adjust Mode AIT Button ON OFF Fig 75 Dry Wet bulb sensor correction screen
22. is applied to the each item of P I D during P I D carries out on operation The setting range is from 0 0 to 10 0 Initial value 1 00 It is used that optimize P I D numerical value automatically operated after P I D Auto tuning more delicate manually According to the variation of A T GAIN value the variation of Control feature is same with Fig 92 Fig 91 Temp amp Humi P I D Set up 62 A T GAIN lt 1 0 A T GAIN 1 0 SV N A T GAIN gt 1 0 t Fig 92 Variation characteristic control by controlling Auto tuning GAIN PV Term Description GAIN lt 1 0 Totally Response speed is faster but Hunting occurs time by operating Differentiation amp Integration control which are stronger more than Auto tuning PID value GAIN 1 0 Use Auto tuning PID value as it stands Totally Response speed is slower but GAIN gt 1 0 Overshoot is decreased time by operating Differentiation amp Integration control which are smaller more than Auto tuning PID value It grows more Stable situation Description i Set a proportional value Its unit is F S vs 96 i Af the P Band is wide the MV output becomes slow Therefore it takes longer for the PV to reach the SV If the P Band is narrow the MV becomes sensitive Therefore the PV approaches the SV faster but fails to converge due to continuous hunting Integral i Set an integration time I
23. 00 200 00 ka DCV Scaling 8 LPF Time 005 Ej H anpas E Pe 0000 User infomation HANYOUNG NUX 5 01 38 SSE EAI WWW HYNUX COM 32867 8941 Fig 109 Temperature sensor setting screen Fig 110 Humidity sensor setting screen Fig 108 Other Setting Name Function Language Select system language It supports Korean and English Password Change system password You should enter your password in the unit of four change numbers and do so twice for confirmation User Enter the user information to indicate upon the initial system activation You can information enter 29 letters of English Number Sign or 14 letters of Korean on one line 69 70 7 1 1 Sensor Input Setting 7 1 2 Correct Dry Web bulb sensor Setting Item Explanation Set up according to input sensor type If sensor type is a dry or web bulb respectively and RTD Pt 100 i type select RTD If you use electronic humidity sensor Our Model EE99 you should set up temperature sensor as H T D and humidity sensor as V d c Set up input range of the sensor s Generally you can use initial value and initial value of temperature is 100 200 i humidity is 0 100 R H If you use electronic humidity sensor Our model EE99 after setting up input range as 1 5V connect resistance 250 i below 1 into two humidity sensor input terminals Scaling When selecting V d c
24. A T GAIN It is a Constant Value applied to each performance when P I D computed Selection range is 0 0 10 0 Initial Value 1 00 7 2 2 Retransmission Output Setting Temp output Type Select type of RET Retransmission output against temperature It is used as input in the recorder etc output signal is 4 20mA dc and select one among PV Process Value MV Manipulated Value SV Setting Value Temp output Range Scale value against temp output range will be selected 4 20mA d c But if MV selected output will be the percentage of setting value against 4 20mA d c It means if you select 50 output will be 12mA d c Temp output Deviation In order to delete deviation value of retransmission 7 3 Inner Signal Setting Inner signal setup I S No ot v A 5 JELAY 0000 lin 08 Se Fig 115 Inner signal setting screen Fig 116 DO Configuration Allocation screen When controlling refrigerator and dehumidifier separately by external switch it can be used generally with input output setting only But in case it needs to control On Off refrigerator amp dehumidifier under desired temperature and humidity it s convenient to use Inner Signal Please refer to the below example select setting and use it Example 1 Control refrigerator amp dehumidifier automatically Inner Signal Signal Type amp Delayed Output Signal No Subject Range Time Allocation D O I S No 1
25. EXD s 8 29 TEE Cow KOLAS LR 114761 HEAD OFFICE 1381 3 Juan Dong Nam Gu Incheon Korea TEL 82 32 876 4697 FAX 82 32 876 4696 HANYOUNG http www hynux net E mail mkt hyelec co kr MA0801E080125 CAE T Be 711111 eens MM 11111 HANYOUNG nux MANUAL Notice This user guide is protected by copyright and has all the rights related to it Without prior authorization from HANYOUNG this guide and any parts contained in this guide cannot be reproduced copied or translated in another language Contents of this guide will be provided in this form and can be edited or changed without prior noticed This guide includes implied guarantee or suitability for a certain purpose and it does not offer any guarantee for those that do not limit this matter Every programs contained in this product is protected by copyright Without prior authorization from HANYOUNG this product and any parts contained in this product cannot be reproduced copied or translated in another language Every title symbols figures service marks and etc in this guide or the product are legally registered HANYOUNG NUX 1381 3 Juan 5 dong Nam ku Incheon Korea TEL 82 32 876 4697 FAX 82 32 876 4696 http www hynux net 1 BEFORE STARTING 2 INSTALLATION INSTRUCTION 3 SETTING AND OPERATION 4 DISPLAY 5 FUNCTION SETTING 6 SYSTEM SETTING 7
26. LAY 1410 4414 8 12 POINTS BOARD 2 8 POINT 10 BOARD 3 RELAY 1410 8 POINTS OPTION 10 BOARD 1 I O BOARD 2 SMPS 24V d c 18W D I 8 POINTS RELAY 1410 4414 8 12 POINTS 12 POINTS O C 8 POINTS 10 BOARD 1 I O BOARD 3 SMPS 24V d c 18W D I 8 POINTS RELAY 1410 4414 8 12 POINTS 12 POINTS RELAY 1410 8 POINTS 172 8 04 COMMUNICATION 1 ETHERNET PREPARING x There is No option for the STANDARD TYPE 11 12 2 4 2 115 0 2 4 3 2 4 4 115 0 220 0 TH500 Additional type I O board 1 5 0 Unit mm 62 amp D amp D GD amp D DSD D D 015 016 017 Di8DicoM Power Supply for sensor A SQ Connector 40 Pin r 1 r 1 RY4 RY9 RY8 RY7 RYe NO COM NO COM NO NO COM NC 0 68 GND 6 GND 0 05 gt i 02 1012euuo2 O C1 GND 2 O C3 GND 0 04 105 0 115 0 TH500 Additional type I O board 3 Connector 20 Pin 24 V d c Input ON WOO ON
27. Temperature Type TSV 1 minute Connect refrigerator Range 100 30 i Direction Within Range to 5th Relay Sensor Loof Brake Output output input current offset In case of sensor loof brake select between retransmission output current between 0 0mA d c and 4 0mA d c i Humidity setting method is the same as temperature setting method 73 I S No 2 Subject Humidity Type TSV 10 seconds Connect dehumidifier Range 0 70 Direction Within Range to 6th Relay Example 2 Control refrigerator 1 2 amp dehumidifier automatically Use 1 5 1 3 Inner Signal Signal Type amp Delayed Output Signal No Subject Range Time Allocation D O I S No 1 Temperature Type TSV 1 minute Connect 1st refrigerator Range 100 301 Direction Within Range to 5th Relay I S No 2 Subject humidity Type TSV 10 seconds Connect dehumidifier Range 0 70 Direction Within Range to 6th Relay Connect 2nd refrigerator to 7th Relay I S No 2 Subject Temperature Type TSV 5 seconds Range 100 50i Direction Within Range You have to select temperature range of refrigerator according to its A Caution specification If you set up too high temperature it may cause malfunction of refrigerator 74 7 4 Fix Control 7 4 1 Select how to operate In order to operate Fix Control firstly select operating method as fix control Press button on the operation screen and move to main menu scree
28. anti combustion material but please do not install it to the inflammable place Especially please do not put it on the inflammable products Please keep it away from the machine or wires that can be cause of noise Especially please have enough warn up when you operate it under 10 i temperature Please install it on horizontally When you wire it please cut out all of electric power This controller is operating in 100 V 240 V a c 50 60 Hz without additional change If you use other voltage it may case of fire and electric shock Do not operate controller with wet hand it may cause of electric shock Please follow Safety Information to prevent any fire electric shock and any damage Please follow this manual for install and operation of this controller When you put to earth please refer to install method But do not it earth to gas pipes phone lines and lightning rods Please do not turn on power until you install all of parts Please do not block ventilating windows It may cause of break down The grade of over voltage is Catalogue and using environment is Degree 2 2 Installation method 1 Please use 1mm 10mm thickness of a steel sheet for panel Please push TH500 in front of panel Please fixate TH500 by fixing bracket When you fixate TH500 to panel by fixing bracket please do not tighten it too much It may cause of break a panel or fixing bracket 2 3 4 Panel
29. ao user s input setting humidity D W Adjust MEI ADJ INT Burnout wait time Lempi e outon range when restricting humidity SV within its desired range ON orr ON OFF Waiting time Select Temp process value and SV as 0 01 1 or 0 1 i in Loof Brake Set up delayed action time after detecting sensor loof brake Fig 111 DryfWet bulb sensor Fig 112 Range setting screen Display A T button It shows or hides Auto Tuning button in Operation Screen correction screen 71 72 7 2 Output Setting A T Out type Dc T SSR Out period ING Tel Fon REVERSE Fig 113 Control output setting TEMP REMOTE OUTPUT Source 5 INESSE 10000 gd 200 00 f Output Bias _ 0001 3 S Burnout Output soma 0000123 Fig 114 Retransmission output setting 7 2 1 Control Output Setting Type of Temp Output Select and use S S R or S C R 4 20mA d c Select according to Output equipment Initial Value S S R Output cycle RYou can set up when you select S S R output Output cycle means of Temp S S H On Off working time in the proportional band Initial Value 2 seconds Direction of Select cooling control direct movement or heating control inverse Temp output movement Initial Value Inverse movement Range of You can control output and selection range 5 3 2mA d c Temp output 0 5 20 8mA d c Initial Value 100 Temp output
30. art the fixed running just by entering a temperature amp humidity setting value SV and pressing the RUN button in the 1st running screen of Fix control Fig 12 In this case the arrow indicator will move to indicate its running status while the indicator on the right bottom will be changed into the RUN button with its red color Stop running Press the STOP button if you want to stop running Fix control or Ais i control Fig 12 can be selected from Main Menu if you press the button in the 1st running screen of Fix control In the Main Menu press the rae button and select Running mode Fix control will be selected by press the button Press the button to set an each setting item of the 2nd function set up screen Whenever you change the setting value SV during its running the PID ZONE numbers for controlling will change automatically If you want to use a particular PID ZONE number you should enter a ZONE number again after entering a setting value After starting the operation both and HAT buttons will become the temperature and humidity Auto Tuning A T buttons respectively A T is available only in the Fix Running mode You can execute this A T by entering its necessary temperature or humidity setting value SV and pressing its related button If you want to stop A T you should press its operating button In other words you should press the TAT button for temperature but press the button
31. ase on current setting value Fig 84 is an example for Inner Signal setting NSV Setting Inner Signal 1 3 amp 8 for temperature internal range NSV According to change of Set value SV Inner Signal turn ON OFF Fig 85 is an example for Inner Signal Setting TSV Setting setting P V1 Operate base on process value of action range L and H P V2 Operate base on process value that are related with Inner Signal 1 3 amp 8 for temperature Internal range TSV gt Base on TSV Target Set setting value and deviation Value Inner Signal turn ON OFF Fig 86 is an example for Inner Signal Setting I S Operation setting value PV1 Setting Inner Signal 1 3 amp 8 for temperature PV1 Internal range 100 200 C Setting temperature and humidity range of Inner Signal Fig 87 is an example for Inner Signal setting PV2 Setting Inner Signal 1 3 amp 8 for 5 Range direction Setting application range of Inner Signal Internal range temperature PV2 I S Delay time Operate delay time of Inner Signal 60 51 1 92 HYS 50 1 S1 1S2 40 I S1 HYS 152 HYS 30 0 t time 15 1 PV ON pv ON ON 1S1 Temperature PV2 operation seting amp Operation range 50 10 0 setting 22 Direction of range HYS 40 50 60 I S2 Temperature PV2 operation setti
32. dication pattern No segment No 24 Current pattern repeat No indication Current repeat No Entire repeat count 25 Current operation section repeat info Indication Current section repeat No Section repeat count 26 O o N p Que 2 qwe gt GRAPH VIEW 6 Ashe 3 04 6 2 5 1 9 gt 00 8 9 Fig 11 Screen for graph view Current operation status Menu button Operation screen 1 shift button Running Stop indication Upside screen of Y axis Temperature amp humidity SV PV indication Div time increase of X axis Div time decrease of X axis X axis time Div Low part screen of Y axis m 12 13 14 15 16 17 18 19 Current temperature PV indication Current temperature MV SV indicator shift button Current temperature MV or SV indication Current humidity PV indication Current humidity MV or SV indication Current humidity MV SV indicator shift button Y axis temperature amp humidity unit shift button Y axis unit indication Graph Save setting button 27 3 4 Running of Fix control Fix control is running a temperature and humidity by fixed set value SV 3 4 1 Running selection of Fix control 1 _ 50 00 50 00 EL Qu Fig 12 The 1st running screen of Fix control Stop screen 21007 IPOT AT stor Fig 13 The 1st running screen of Fix control Run screen Start running You can st
33. e 00h 00m ON time O3h 00m ON time 02h 00m Delay time 00h 30m ON time 02h 30m 1 5 7 Delay time 00h 00 ON time 04h 00m Start program Finish program operation operation Time Signal Description When starting the SEG 1 it has T S ON without a delay and OFF in two hours T S 1 On Time When starting the SEG 6 T S ON without a delay and OFF due to program ending though On Time is two hours When starting the SEG 1 it has T S ON after delay 80 minutes and OFF T S 2 in two and a half hour On Time When starting the SEG 6 it has T S ON after delay 30 minutes and OFF in one hour On Time Fig 51 Example of Setting the Time Signal in TIME Set up mode 41 Time Signal Description When starting the SEG 3 it has T S ON without delay and OFF in four hour On Time In case of SEG 2 SEG 4 and SEG 6 it is T S ON without delay and OFF after On Time A Caution Time Signal will be OFF once the program ends regardless of setting modes 5 2 3 Pattern repeat Connect setting PROGRAM pmm Pressing Pattern REPEAT LINK setup button in Fig 43 Main menu screen Fig 52 Pattern repeat link set up is shown If you set Current Pattern repeat count to Pattern repeat on the right side of the top and Current Pattern number to connect Pattern Current pattern will be run in unlimited repeat according to Segme
34. e 2nd running screen of Fix control Fig 15 The 2nd running screen of Fix control Stop screen Run screen 29 3 5 Running of Program control Program control is control a Process Value PV by change of Set Value SV according to course of time For example it increase current temperature to 30i for 10 min and maintain 30i for 15min and then increase to 70i again for 40 min and maintain the 701 for 1 hour Program control is especially using widely in the test equipment for environment like as thermostat and electric furnace 3 5 1 Selection of Control Running Main Hurt PTN NO DATE TIME 50 00 on FUNCTION M RESERVE SETUP M SETUP NO 50 0 55 PROGRAM ll GRAP LOG PIN ELAS DO M SE SEIUP 2 Fig 16 The 1st running screen of program control stop screen Fig 17 Main menu for function setup In order to running with program control press the button of the top on the1st running screen of program control Fig 16 and move to the screen for function setting Fig 17 Move to the screen Function Setup 1 i by press the per button and select the program control as running mode by press the PROGRAM button After finish setting FUNCTION SETUP 1 amp 2 by press button and move toi Main Menu i screen by press 9 button And then finish the set fon DATE TIME RESERVE SET i GRAP LOG SETUP i and move to the Program Set Scre
35. een of Fix control If you begin to work by pressing button during reservation waiting reservation waiting will be canceled automatically and the operation will start Likewise if you start thei RUN STOP i operation through Contact input D l reservation waiting will be canceled automatically A Caution 5 4 Graph Save Setting In the Graph axis setting screen Fig 67 the time on the X axis means the time Table 3 Time per X axis DIV As far as the saving operations are concerned the total 86 400 pieces of information on temperature amp humidity Y M D temperature amp humidity SV PV MV under current controlling will be recorded to the internal memory The saving cycle can be designated as 1 to 360 seconds Therefore if the saving cycle is 1 second it save for one day On the other hand if the saving cycle is 30 seconds it can save for 30 days The optional buttons for saving are shown in the following table per division and can be designated as 20 seconds to 24 hours according to its Function internal setting The Y axis is designed for setting the upper and lower temperature limits from 20 to 200 and its humidity is fixed as 0 to 100 96 ALL ON ALWAYS ON Save always RUN ON RUN ON Save during controlling only Fix Program Pan v POOH 0051 A Fx ON FIX RUN ON Save during fixed mode controlling only Y Min
36. efully The D O configuration setting 1 2 Fig 100 101 refers to the screen that assigns Inner Signal and Time Signal to RELAY output and O C output respectively Fig 100 DO Configuration Setting 1 Inner Signal Fig 101 DO Configuration Setting 2 Time Signal Fig 102 DO Configuration Setting 3 Fig 103 DO Configuration Setting 4 The D O configuration setting 3 Fig 102 refers to the screen for assigning the screen displayed functions to RELAY output and O C output In the alarm 1 to 4 both system and pattern alarms are used together System alarm n and pattern alarm n run in logical OR Name Function Alarm 1 4 System and pattern alarms Assign the 1 4 output Sensor Disconnection Output assignment upon sensor disconnection T RUN Output assignment upon temperature control H RUN Output assignment upon humidity control RUN STOP Output assignment under RUN WAIT Output assignment for WAIT operation HOLD Output assignment for HOLD operation 66 DO Configuration Setting 4 Fig 103 is used when each setting value SV of Temp amp Humi In the section of temperature amp humidity Up Hold Down Each setting input value of Set operates like Fig 104 Section of Section of Section of Pa of e p Hold setting C2 o ll 23 4 3 Relay or O C Output Relay or O C Output Relay or O C Output
37. en Fig 18 by PROGRAMI button to set a program Set an each item with press the buttons in the Program set screen Fig 18 3 5 2 Set of ss Control Pattern HURLEY Haur Adin Plo TS ALARM PATTERN PROGRAM NAME SETUP sail 25 00 600 01 Wed oe En 50 50 10 REPEAT LIMK PATTERN SETUP MANAGE WAIT AL ARM Sov SETUP oor 5000 650 Fig 18 Program Set Screen Fig 19 Pattern Set Screen 30 PATTERN Press the syp button in the program set screen Fig 18 and move to the screen for program pattern set Fig 19 Establish the set item for each segment of pattern in the screen for program pattern set Fig 20 Move to the running stopped screen 1 for program control after input for all and input a start segment No in the pattern and program start pattern And then program control will be running if you press the EI button 50 00 20 0 2 50 0 PIN ELAS PATTERN te P PIN ELAS PATTERN 2005 10401 pe STCF ausum 250 sTEP HOLD STe Fig 20 The 1st running screen of program control Stop screen Fig 21 The 1st running screen of program control Run screen Once the program operation starts STEP and HOLD buttons will appear newly like as running screen 1 for program control Fig 21 These buttons has function which is related to progress of segment Button Name Function HOLD P
38. er So please read this manual before using it And also please make this manual to be delivered to the final user and to be placed where can be found and seen easily Contents of this user manual can be edited without prior notice for improvement and modification of the product 1 1 Checking products After purchasing our product please check if it is correct item you want Also please check breakage on exterior and omission parts If it is a different controller which you want or you find omission parts please contact our sales office 1 1 1 TH500 Standard type TH500 1NN Manual Standard body Fixing bracket 1 1 2 TH500 additional type with I O Board e TH500 21N
39. ere you can enter either temperature amp humidity setting value SV or start pattern loop No in the Fix Program mode After entering your desired setting value you can press the IRUN button to start control 25 A Attention So su dui gt ar After pressing the RUN button you are unable to press various setting buttons like MENU or input boxes because they may have a serious effect on system control operations EG Time 0000 DO 000001 0000 00 3 OSO 928 2 o D 30 7 76 6 0 00 96 17 5 5 soak i 9 100 WAIT BE 9 SEG RPT nnn 000 Run Time 21 20 O0 Fig 10 The 2nd running screen of program control Current operation status Menu button Operation screen 3 shift button 1 Running Stop indication Temperature PID ZONE No Current temperature PV Current temperature SV MV I S signal status indication T S signal status indication signal status indication A S signal status indication SEG running time indication Humidity PID ZONE No Current humidity PV Current humidity SV 17 Current humidity MV 18 Temperature humidity Up Down section indication 19 Temperature humidity holding section indication 20 Temperature humidity waiting indication 21 Running time indication 22 Buttons for system error indication 23 Current operation pattern segment in
40. for humidity again Of course you can also stop AT process by pressing the STOP button of fix control 28 while stopping the controlling operation In this case all the operation values related to A T will not be saved A T can running up to 24 hour beyond which A T will stop When it comes to temperature its PV will be always displayed unless the sensor line is disconnected However as far as humidity is concerned its A Caution 1 PV will not be indicated unless a setting value SV is entered If you set the SV to 0 and press the ET button you can control the temperature only It is impossible to run A T for temperature and humidity at the same time i Therefore it is desirable to run humidity after maintaining a target A Caution 2 temperature The button concerned will flash during Auto tuning Temperature Auto Tuning button Flash during running Humidity Auto Tuning button Flash during running 3 4 2 Running selection of Fix control Process value and Set value of temperature and humidity is shown basically in the 2nd running stop screen of Fix control There is shown also for Inner signal l S Time signal T S Digital input signal D I Alarm signal A S and indicate a gradient of initial set value by form of UP DN and SOAK TEMP t POME HUMITSERHI ein as 49 00 500 Lsy 50000 HSV 500 0 00 137 HMV 000 EID in 2 Run Time EU Vines SEG Tim oca Fig 14 Th
41. g 48 Pattern signal selection screen e SEG Insert Delete Pressing SEG number in the left side of Fig 45 User can Insert Delete segement in Fig 46 SEG Page button is changed to ins button in that time Pressing this button Segment should be inserted or deleted and then the next 1 Segment will be moved 50 1 4 each On Off PATTERN 1 LOOP 1 SEG 1 SEG 2 SEG 3 SEG 4 SEG 5 SEG 6 e Waiting Pattern signal selection Select Waiting Pattern signal item of Program pattern setting display to execute contents set in Waiting Operation Setting display amp Pattern Alarm Setting 011 2h 1h 1h 1h 2h TIME Signal 0 00m 02h00m 01h00m 011300 01h 00m 02h 00m t Fig 47 Pattern Alarm rs2 OFF OFF OFF display If you press WAT ALAPM button in Program play QT you press sup button in Program selecting screen rss OFF or OFF or setting display Waiting Operation Setting display will TS4 ON OFF OFF ON OFF be indicated 85 OFF TS6 ON ON ime Si TS 7 OFF 5 2 2 Time Signal Set u 4 Pressing Time Signal T S in Fig 45 Program Pattern Setting display Start program Finish progra Fig 48 Time Signal set up display will be shown operation Fig 50 Example of Time Signal ON OFF mode operation Time signal Setup ESCI Time Sianal setup ESC No
42. he bottom indicates a flickering cursor Ex If you want to indicatei fU Result The the bottom indicates a flickering cursor fU peration Ex If you want to indicatei ii fU peration n 142 4 ei fUResult i The on the bottom indicates a flickering cursor Ex If you want to indicatei 1 fU peration lei fUResult The on the bottom indicates a flickering cursor Ex If you want to indicatei amp 243214 123161 fU peration fUResult The on the bottom indicates a flickering cursor Ex If you want Eo indicatei 24135 i fU O peration 2 4 lee eos ZEE 2 ZR fU Result 243 the bottom indicates flickering cursor Ex If you want to indicatei i 6 24 24 4 fU peration 7 2 250028 2 21 ze 4 4 5177 214 fU Result S m The the bottom indicates a flickering cursor 22 3 2 5 English Input Mode Ae PATTER The screen for English input is shown on the Fig 6 All the keys except thel Jandl keys consist of duplicate keys Its basic use is the same as that of the Korean input mode Fig 6 Thes screen for English in em Ex If you want to indicate Bi f U Operation al i fuResult _ The
43. in pattern is set from 1 to 8 it operates like below according to Section to 0 it executes to the next Section repeat number Set the final t number of Secti t If itis sett Final SEG e e final segment num ection repeat If it is set to 0 100 SEG 0 it executes to the next Section repeat number Section repeat setting S a repeat seria egment operation sequence Section repeat Set the count of current SEENON repeat If it is set to O it 0 256 time number Start End Repeat executes to the next Section repeatnumber 1 20 0 0 0 0 0 0 0 0 4 7 8 1 3 6 2 e 14114 14 1 1 ee 28 5 9965 ecce e 1411 eese Lee O 14111414 144114 ooogo 990 L vid EEES 11441 20 times of section repeats are available for one pattern 43 44 5 2 4 Waiting Alarm start mode setting 1 SEG 2 SEG 3 SEG Waiting time PROGRAM WAIT ALARM Under Waiting Press s setup button in Main Menu to move Pattern wait Set up screen Waiting operation can Waiting Range Release Waiting be set by each segment of proper pattern In case that i Operation Waiting operation of Measurement value MV comes or Temp WAIT t Sat Wa
44. input signal according to the EDGE Input operation mode H L set In case of running in program control mode perform the HOLD operation hold the current SEG operation unlimitedly regardless of set time for the assigned D I input signal according to the operation mode H L set HOLD LEVEL Input The input often indicates external errors so it is sometimes necessary to stop the system control not with normal RUN STOP but with D I input At that time the D I number assigned to operation out of D I 1 to 8 turns into gray and does not run As for the rest of D I numbers except the assigned numbers it is possible to set them in the D I setting 3 screen Fig 99 3 Function In case of input it is the PARS ALL ON button for setting the system Name Act W Time Name Act W Tir RESET End Only if you press this button the waiting time becomes valid It resets end the system ina Waiting time waiting time sec while the system RESET button is pressed Fig 99 System reset setting 65 6 7 D O Configuration Setting The D O configuration setting refers to the screen for assigning the various signals within the system to RELAY output and O D output Here the signals assigned and connected are displayed through the actual terminal The D O assignment is allowed to be redundant except special cases so it is necessary to assign and enter the RELAY and O C car
45. isplay to enter with selecting Working name in current inputted PATTERN buttons in Main Menu go to Fig 63 Program pattern name set up display Entering Program title of the desired pattern number by pressing the button on the right top side the input display of Fig 63 will be shown Enter the desired pattern number with changing Keyboard by pressing button 5 2 8 Pattern Segment management Fig 64 is the display for managing patterns through pattern copy segment copy and segment initializing In the left side you should enter the source pattern or segment number used for pattern management In the right side you should enter the target pattern number of segment number to be copied After entering a desired ESC value you can copy it by pressing SOURCE TARGET PTN button in arrow Pattern NO Pattern NO PTN CORY Pattern Clear button on the left center is used zx cy Of for initializing all the internal segments of the Potem Geer Segment segment pattern entered into the input box above Foot cos ses coe oor Pressing P cx it will be copied to contents related with every segment in Fig 64 Pattern Segment management internal pattern Pressing Fig 64 Segment management 5007 button it will copy contents of the original start End segment copy from a copy start segment It is possible to copy segment into your desired positio
46. l or Fix control in run mode RUN T SV RATE FUZZY FI m BOOT RUN HSV RATC 1 Fix RUN TIME ow f OFF TOUCH PNL SCREEN P DOWN Fig 41 Function Set up 1 screen Fig 42 Function Set up 2 screen 36 Program Select in program control 5 2 Program Setting Fix Select in fix control PHOGHUM T SV Set it up as the gradient of temperature variations 1 m per hour minute Fig 41 Press MM button in Main menu screen Program set up menu will be variation from current temperature to setting temperature in fix control shown It is composed of 5 buttons Push button to set up each item H SV Set it up as the gradient of humidity variations 1 m per hour minute variation from current humidity to setting humidity in fix control Fix run After running the fix mode control for the time entered time the operation will stop automatically Main MENU FUNCTION ff DATETIME oe ae Manipulated Variable Tracking RESERVE The drastic change of setting values will lead abrupt control output 2502 SETUP REPEAT LINK PATTERN To prevent it MV tracking runs when set value SV changes over i 5 0 i GRAP LOG ES SLL D NEC SEIUP WAIT ALARM aov SETUP Fig 43 Main Menu for function Set up Fig 44 Program Set up Menu 5 1 2 Function set up 2 After finishing Function setup 1 press 8 button to set up the item in Function set up 2 In case of outage due
47. lease input pattern no amp segment no respectively into the Program Start Pattern amp Start Segment Setting Screen in the pattern After pressing button it starts operation of program control In order to stop Program Control press STOP button on the right bottom side of Program Control 1st Operation Stop screen Fig 127 In addition operation screens of Program Control are as follows Fig 127 Fig 128 Fig 129 78 8 Specification Pattern REPEAT LINK SC PROGRAM MODE MENU NEXT MAT oo REPEAT 001 Run Im 50 00 S SEG E SEG REPEAT 0 50 0 8 1 00 y Tea UCM ere Dry i Humidity sensor RTD resistance temperature detector Pt 100 S DIN 43760 un Time 04 20503 Digital Temperature Temperature sensor RTD Pt 100 S Input i Humidity sensor Humidity sensor Director current 4 20 mA d c EE99 Input resister around 1 Fig 125 Pattern repeat Link Set up screen Fig 126 The 1st running screen of Sampling cycle program control stop screen pling cycle 500 mm Range Temperature 100 00 200 00 i Humidity 0 0 100 0 R H PROGRAM MODE MENU J NEXT PROGRAM MODE MENU NEXT Accuracy 0 1 of Full Scale LT SV TEMP C 07 HUMI RHI 07 UE Humidity 1 of Full Scale n in 50 00
48. lish Number Sign Fig 98 As for 1 8 you can assign the operation function to three types RUN STOP STEP HOLD related to controller operation on the screen of Fig 97 setting 1 PREV HN Run MODE RUN STOP STEP HOLD HOLD Fig 97 D I setting 1 D Input setup 2 PREY D I Status 4 2 3 4 5 6 7 8 NO D I Name era EROR G2 EROR G3 ERROR ga Fig 98 D I setting 2 User can set up HIGH LOW operation for these three types As the LEVEL input the RUN STOP and HOLD input should maintain their levels continuously As the EDGE input the STEP operation runs once according to its setting once upon H gt L or L gt H You should continuously enter H and L in order to keep on STEP operation 1 In case of RUN STOP STEP and HOLD operation input it is impossible to assign the number redundantly In addition if the STEP and HOLD input come in at the same time it ignores the STEP input but handles the A Caution HOLD input only 2 External D always displays a screen amp it is taken in the interior according to the situation of input irrespective of control action Running or Stop Name Function RUN STOP Start or end the assigned input signal according to the operation mode set LEVEL Input In case of running in program control mode perform the STEP operation go to STEP the next SEG by force for the assigned
49. midity and input your desired code the alarm code window will appear as shown in the right screen Fig 57 If you select the alarm button by pressing the v buttons it will be entered into the code box of Fig 56 automatically To release the set code you should press the ES button on the right center of Fig 57 47 Alarm Type amp Code Alarm Type Alarm Type Operation View Upper limit absolute Tangent Upper limit absolute Tangent Hold Lower limit absolute Tangent Lower limit absolute Tangent Hold Upper limit deviation Tangent Upper limit deviation Tangent Hold Lower limit deviation Tangent Lower limit deviation Tangent Hold Upper limit deviation Reciprocal Upper limit deviation Reciprocal Hold Lower limit deviation Reciprocal Lower limit deviation Reciprocal Hold Upper amp lower limit deviation Upper amp lower limit deviation Hold Within the range of upper amp lower limit deviations Within the range of upper amp lower limit deviations Hold Upper limit absolute Reciprocal Upper limit absolute Reciprocal Hold Lower limit absolute Reciprocal SV ia Alarm SV Lower limit absolute Reciprocal Hold 48 5 2 6 Operation start condition setting The initial setting value is necessary to ascent or descent by the setting value of 1st segment when y
50. n Press Function set up and it moves to Function Set up 1 screen On this screen press ais button and select fix control And then press 8 button two times and move to operation screen 1 in the fix control Main MENU SE Function setup FUNCTION B DATE TIME RUN MODE m SETUP RESERVE T S RATE C Min SETUP H SV RATE CD PROGRAM Bl GRAP LOG Fix RUN TIME ON OFF Fig 118 Function Set up 1 screen Fig 117 Function Set up menu screen 7 4 2 Temperature amp Humidity Control Value Setting Press temp amp humidity setting and set up desired setting value After set up number please press ENT button in order to finish setting finally Press button and it will be back to the 1st Operation Stop Screen of Fix Control Fig 119 FIXRUN MODE MEI NEX FIXRUN MODE 50 00 75 50 00 90 0 5 90 0 FF PID 07 HPOL Bun Tine PD 07 Run Time avem RUN 2 Fig 119 The 1st running screen of Fix control Fig 120 The 1st running screen of Fix control stop screen run screen 7 4 3 Operate and STOP of Fix Control In the 1st running screen of Fix control stop screen Fig 119 you can check its Operation by pressing RUN button Press YES button leads it to start operation If you press STOP button in the Fig 120 operation will be stopped when pressing YES button in the displayed processing verification screen 75 7 4 4 Star
51. n by inserting different segment numbers of the right copy when copying segment Example the original 1 6 to the copy 7 12 50 Keep in mind that it is impossible to recover the original contents of the Division Setting Entire Screen Division Setting Entire Screen target after copying the pattern segment Once you press the Time m s Time h m s Time m s Time h m s A Caution Pattern Clear button the original contents of the source cannot be 1 00 20 00 03 20 13 00 30 05 00 recovered again After copying pattern by using PT button you 2 01 00 00 10 00 14 00 40 06 40 should make sure that the related parameter is proper setting Repeat 3 02 00 00 20 00 15 00 50 08 20 Connect Waiting Alarm Start mode ect 4 03 00 00 30 00 16 01 00 10 00 5 3 Date Time Reservation Setting 04 00 00 40 00 17 X 02 00 20v00 Fig 65 is display of Date Time Reservation Setting After Input current Date Time p Us 020 mu 7 06 00 01 00 00 19 04 00 40 00 by pressing a window of Date Time input Press button 8 07 00 01 10 00 20 05 00 50 00 9 08 00 01 20 00 21 06 00 60 00 E M 12 29 38 TUS 10 09 00 01 30 00 22 09 00 90 00 2005 0 1 BOI 00 s000 11 10 00 01 40 00 23 12700 120 00 A NJ 12 20 00 01 50 00 24 24 00 240 00 EL Ds H SV JeHHL 80 Fig 65 Reservation time setting screen Fig 66 The The 1st running scr
52. n protocol The protocol runs PCLINK S 9 9 protocol according to the HANYOUNG NUX designed format PCLINK CRC e Communication Set the communication speed BPS You can select speed BPS one out of 600 1200 2400 4800 9600 19200 38400 1 200 115 200 2 HANYOUNG NUXis Humidity C ller Model TH500 i isted Parity bit Set the parity bit NONE EVEN ODD E Im Stop bit Set the stop bit 1 2 of Operation screen Operation Setting screen System Setting screen You can Date length Set the data length 5 6 7 8 select structural elements in the System Setting Set the device number to be used in the system Local device 1 999 l No It is used as its own device number when forming the System installation company such as environment test chamber manufacturer etc serial network already finished the system setting when they taking itis product out of warehouse Mi IMEFBNE delay Sending dala 0 1 000 So users do not have to do system setting additionally Users can set up humidity ms Used when the target equipment 100 us temperature simply through Operation Setting to receive runs at a low speed 7 1 Input Output Setting 6 9 Other Setting HUMIDIT Y Sensor type RA IS Hee a md Be Eee 00 100 0 228 Iba LPF Time 005 81 TEMPERATURE Sensor type 106 100
53. ng Operation range 50 10 setting 1 Direction of range HYS 40 50 60 Fig 86 Example of Inner Signal setting PV1 Fig 87 Example of Inner Signal setting PV2 59 60 System alarm setting This is a setting screen for Temperature and Humidity alarm System If you push X rm setup on the System set up menu screen Inner signal set up screen will be displayed And then if you push 8 System alarm set up screen will be displayed Fig 88 1 Establish a standard for alarm setting value among Temperature and Humidity 2 If you push alarm code select button System alarm code setting will be displayed as Fig 89 3 Push button and select proper alarm type as Fig 88 4 If you want to cancel selected code please push on the left side 5 And then set alarm value and Hysteresis Te UM TRIN ENEMIES 0 277 1 10 88 System alarm setting screen Fig 89 System alarm code screen 4 Buttons on system alarm screen are for the operate condition of alarm setting Setting item Description 6 5 P I D Setting The TH500 has total 16 PID ZONEs As tollowing four temperature zones and four humidity zones are combined with each other so you can control temperature and humidity with the optimized PID value User can change the zone boundary of temperature and humidity freely All ways turn on alarm Maintain alarm
54. nication type EIA RS232C EIA RS485 422 Asynchronous mode Synchronization USB V1 1 EIA RS232C EIA RS485 422 Around 100 m Around 100 m Around 1 2 km Screen 5 7 Inch Color STN LCD Touch screen Bias Temperature 100 00 100 00 i Humidity 100 0 100 0 R H Scaling When turn on power free scaling set up 2 180 sec Pattern 300 patterns Segment 6 000 segments 100 segments are available in each pattern PID Group Temperature 16 zone Humidity 16 zone Auto Tuning According to SV AT is operating Proportional Band P 0 00 100 00 When proportional band is 0 00 ON OFF control Communication distance USB V1 1 EIA RS232C EIA RS485 422 Around 1M bps 1200 2400 4800 9600 1 9200 38400 57600 115200 1200 2400 4800 9600 Integral Time 1 0 0 6 000 sec 0 00 OFF 1 0 Time 0 00 gt P control Derivative Time 0 0 6 000 sec 0 00 OFF 1 0 Time 0 00 gt P control ON OFF Control Proportional Band P is O Communication speed EIA RS232C EIA RS485 422 7 8 bits Direct Reverse action Select Direct or Reverse action in control output Data length EIA RS232C EIA RS485 422 NONE EVEN ODD ON OFF Hystersis 0 1 300 0 i In case of Humidity Temperature of Humidity or conversion value Parity bit EIA RS232C EIA RS485 422 1 2 bit s Stop bit Communication protocol USB V1 1 EIA RS232C EIA RS485 422
55. ns repair will be charged even during warranty period Breakdowns due to user s misuses AOP Breakdowns due to natural disasters Breakdowns due to moving the product after installation TH500 N3N Breakdowns due to modification of the product Breakdowns due to power troubles ll Please call our customer service for A S due to breakdowns I O Board 3 20p cable 2 Installation Instruction This is information for installation place and method of TH500 temperature and humidity program controller So please ready it before installation 2 1 Installation place and caution notice 2 1 1 Installation place To avoid electric shock please use it after installation to panel Please avoid installing the product for following places where People can touch terminal unconsciously Directly exposed to the mechanical vibration or impact Exposed to the corrosive gas or combustible gas It is exposed to mechanical shock or vibration Danger of corrosion or combustion of gas exist Temperature changes too frequently Temperature is either too high or too low It is exposed to direct rays It is exposed to electromagnetic waves too much Humid place It has many combustible objects It has dusts and salinity 2 1 2 Caution The case of this controller is chrome zinc plating and Bezel is made by ABS PC
56. nst Humidity It is used for input in recorder etc output signal is 4 20 mA dc and select one among PV Process Value MV Manipulated Value SV Setting Value H Range Scale value against temperature output range will be selected 4 20 mA d c But if MV selected output will be the percentage of setting value against 4 20 mA dcc It means if you select 50 96 output will be 12 mA d c Output Bias In order to delete deviation value of retransmission output input current offset S Burnout Out Sensor loof break output Select 0 0 mA dc or 4 0 mA d c 58 6 4 Inner Signal and Alarm setting Inner signal setup PREV NEXT 559 Time Signal is related with segment and s Nofo v Al Time but Inner Signal is used for signal 5 SOURCE OFF TEMP output i U and 50 sre Inner Signal is not related with segment 21 21 38 Section IM Fig 83 Inner Signal setting screen Setting item Function Initial setting I S Number Directly input it by pushing Inner Signal number or select it by push button Fig 84 Example of Inner Signal setting NSV Fig 85 Example of Inner Signal setting TSV I S Item setting Select Inner Signal item Temperature or Humidity Temperature TSV Target Set Value Operate base on target setting value I S Type Now Set Value Operate b
57. nt Operation Program operation executes inputted segment in sequence basically but it comes occasionally that the case of set segment contents in pattern should be repeated amp executed Using Section repeat in that time reduce Program input as much as possible You can move among Section repeat setting pages by using the buttons on the right side in the order ranging from 1 to 20 in total REPEAT LINE PTN REPEAT Fig 52 Pattern repeat Link set up Name Function Range Pattern Enter the pattern number to set or select it by pressing the NO Up Down button 1 300 Pattern 1 300 pattern Pattern Repeat Enter the count of entered pattern Pattern number to repeat When you want to Repeat have the pattern repeated unlimitedly you should enter a current pattern number into the next pattern number below 1 9 999 time After finishing pattern working set a connect working Pattern number If you set to 0 Working will be completed without 0 300 pattern connect Working Pattern Link It indicates the serial numbers that users are unable to set It offers total 20 Section repeats per pattern and it executes 1 20 number them sequentially in the order ranging from 1 to 20 number NO 42 Name Function Range The Segment operation sequence by Section repeat setting Initial SEG Set the initial segment number of Section repeat itis set 400 SEG If segment
58. o 005 Under the Temp 75 i Humidity 4096 set up temp rise amp humidity fall segment for one minute SEG No 006 Under the Temp 75 i Humidity 4096 set up temp amp humidity maintenance segment for one minute Z7 Consider connected pattern as ne and repeat it infinitely Explanation of Program Pattern Setting Screen Setting Explanation Range Pattern No Input pattern no directly or select it by using button 1 300 pattern Press Segment Page Shifting button s 4 Jand it moves EG to 4 segment per each shifting Press setting screen and set up setting value of temperature Temp SV i 100 200 i of the segment Humidity ress setting screen and set up setting value of humidity o 0 1000 SV the segment Time Set up operation time of the segment Select function of Standby Operation which was set up in the Standby ina P Standby Operation Setting Screen T S Select Time Signal which works at the segment 0 255hours and 59minutes ON OFF Among 4 Alarms which was set up in the Patter Alarm Setting Screen select operation respectively Pattern Alarm Selection Screen Fig 47 1 4 respectively ON OFF Pattern Alarm 7 5 3 Pattern Setting In the picture of Pattern Repeat Connection Setting screen Fig 125 set up connection pattern as 1 it s own number In the Program Control 1st Operation Stop screen Fig 126 p
59. o check various input and operation Name Function Range Pattern No Enter a pattern number to set or select it by pressing Up Down button SEG Page Press Up Down button it moves each 4 segment Temperature SV Press set up window set Temperature SV of segment 100 200 Humidity SV Press set up window set Humidity SV of segment 0 100 96 It is used to limit the touch panel input during system control operating If select Touch PNL ie itis impossible to input except EE Naana 29 STOP buttons 1 300 pattern Screen P It is a function to turn off power of Back Light in order to protect LCD display If Down you input 0 the backlight turn on all the time 37 38 0 hour 0 minute i Setting Mode Function Setting Range Hour Minute Setting operation time of segment Sen hora RIT 9 9 9 SEG On Off the Time Signal in ON while segment is operating Each segment Time Set the Time Signal in ON after setting time is delayed 0 99 hour Selecting waiting operation function set in waiting NP ON OFF operation setting display Wait from the beginning of segment 59 min Time Setting Set the Time Signal in ON during setting time 0 99 hour Mode from segment in ON 59 min T S Time Signal Selecting valid time signal in segment Selecting each action among 4 kinds of signal Alarm esigned in pattern signal setting display Fi
60. on Vibration width Below 1 2 mm 5 14 Hz Consecutive Vibration Below 4 9 m s 4 150 Hz Short time Vibration Below 14 7 m s 15 sec each 3 direction Impact Below 147 m s 11 ms each 6 direction and 3 times Conditions for Normal Operation Temperature 0 50 i Humidity 20 90 R H No icing Magnetic Range Below 400 AT m Warming up Time More than 10 minutes Effect of Temperature in the urrounding environment Humidity Impact After packing fall from less than 1m R T D Below 0 02 i i Analogue Output 5 95 R H No icing Below 0 02 F S i 83
61. on operation Maintain alarm on fixed control operation Maintain alarm on program control operation 61 Humi Zen PANE 100 Temp SV TZ 17 Temp SV TZ 12 1Z lempisV 1Z 0 xHumi SV HZ ZONE 1 ZONE 2 ZONE 3 ZONE 4 HZ Humi SV x HZ ZONE 5 ZONE 6 ZONE 7 ZONE 8 HZ lt Humi SV lt HZ ZONE 9 ZONE 10 ZONE 11 ZONE 12 HZ Humi SV x HZ ZONE 13 ZONE 14 ZONE 15 ZONE 16 TZ Temp Zone HZ Humi Zone Temp Humi PID setup Temperature _500 I 2400 8 03 HYS 600 vi PID ZONE AUTO MANUAL Humidity S4 RH A _500 I 2400 Js 03 600 vi Fig 90 Temp amp Humi P I D Zone Set up The buttons on the left side of the PID set up screen Fig 90 are automatic amp the manual setting For example If you push and start Auto turning at 80 i Temp PID value will be applied in the zone 3 7 11 amp zone 15 And if you do auto tuning of Humi at 75 Humi P I D value will be applied in the zone 11 In case of Manual mode Please refer to just SV in the zone set according to the manual When you check the value of P I D or input it manually please push zone button which you want And then move to Temp amp Humi P I D Set up as like Fig 91 If you want to use only ON OFF control you can puti 20 iin the P I D values Temp amp Humi A T GAIN on the above in the left side is a constant value which
62. on the bottom indicates a flickering cursor Ex If you want to indicatei OPER i fuOperation Waif for one second fuResult OPER _ The the bottom indicates flickering cursor 3 2 6 Sign Input Mode URRAM PATTERN The screen for sign input is shown on the Fig 7 All the keys except the Ed key consist of duplicate keys Its basic use is the same as that of the English input mode Ex If you want to indicate amp i f U Operation i fuResult amp _ The _ on the bottom indicates a flickering cursor Ex If you want to indicate 1 2 X 3 29 i fuOperation Wait for one second L Keyboard Sri F Keyboard Shifi Keyboard Keyboard Shin Keyboard Shit S fuResult 1 2 X3 9 The on the bottom indicates a flickering cursor Fig 7 The screen for sign input 23 3 3 The name of each part on the operating screen A 2 RUN MOL MIENI 4 6 PFISRUN 4 8 Q T T SV m E B 5000 B 50 71 50 0 5 8 o7 07 10 2005 11 21 18 23 13 eel HAT STOP Fig 8 The 1st running screen of fix control Current operation status Menu button Operation screen 2 shift button Run Stop indication Control output BAR for current temperature MV Current temperature PV Control output BAR fo
63. ou start to work with Program control Select this the initial setting value between Start setting value S SV and Current measurement value S PV Pressing IS buttons in Program setting menu display Pattern alarm setting display will be shown Pressing NEXT button again In this display it will be shown to Fig 58 S PV Working start setting display MODE JMA START MODE S SV S PV No v START MODE S SV S PV SEG TSV T 554 o0 SESS o EGI Hey i 08185122 400 4 1 9 58 S PV start setting display Fig 59 S SV Operation start setting display Name Function Range Enter the pattern number to set or select it by pressing the Pattern No v buon 1 300 pattern S Start the operation based on the SV set in the temperature Start amp humidity S SV below mode x 5 55 Start the operation based on the current T S SV Setto the start SV upon temperature program running 100 0 200 0 1 S SV Set to the start SV upon humidity program running 0 0 100 0 i 0 Start program operation Start program operation Fig 60 S SV Operation start mode Fig 61 S PV Operation start mode 49 5 2 7 Program pattern menu setup RAR ORGAN PATTERN MAME PATTERN No NAME Fig 62 Program pattern name Fig 63 Number input screen Fig 62 is the d
64. r current humidity MV Current humidity PV Temperature PID Zone No input box Humidity PID Zone No input box 11 Current date time 12 Temperature PV Up Down indication 13 Temperature SV input box 14 Humidity PV Up Down indication 15 Humidity SV input box 16 Running time indication 17 Temperature A T button 18 Humidity A T button 19 Start button for Fix control 20 Stop button for Fix control 17 18 are displayed only in operation 24 D 8 D 2 BAL iat 8 HH 504 PTNLPTN_NAME 801 Run Time OOOO HOO aene BI sTo 0 B 9 2 Fig 9 The 1st running screen of program control 1 Current operation status 11 Temperature SV Up Down 2 Menu button indication 3 Operation screen 2 shift button 12 Start pattern No input box 4 Running Stop indication 13 Humidity SV Up Down indication 5 Control output BAR for 14 Start segment No input box current temperature MV 15 Running time indication 6 Current temperature PV 16 Current operating pattern No 7 Control output BAR for 17 Current operating segment No current humidity MV 18 Program STEP button 8 Current humidity PV 19 Program HOLD button 9 Operation pattern name 20 Program operation Start button 10 Current date time 21 Program operation End button i 16 19 are displayed only in operation The operation screen 1 Fig 8 Fig 9 is the basic screen wh
65. rogram HOLD Keep running the current segment unlimitedly within button the current program Program STEP Stop the present segment within the current program ER button pattern and start the next segment 3 6 PID Auto Tuning Auto Tuning hereinafter referred to as A T is the automatic setting function in which the controller measures the characteristics of the control system automatically and calculates the optimal PID values accordingly The A T method measures and calculates a cycle by producing the ON OFF control output for the two cycles and generating the limit cycle of controlled targets PID Auto Tuning Range PV AT Finish d MV ON OFF Operation BID Control Range Fig 22 P D Auto Tuning 31 You can execute A T all the time by entering a target setting value SV in the fixed control mode pressing the RUN button and pressing the subsequent either or mu button After A T is finished normally if the unit is set to automatic PID ZONE reference mode the resulted PID value will be saved into the appropriate PID ZONE If this unit is set to manual PID ZONE reference mode the results PID value will be saved into your designated PID ZONE If A T still runs in 24 hours after A T execution A T operation will come to A Caution an end automatically If you close the A T operation by force during A T process the operating value will not be saved and maintained as a previous set
66. s 2 KO BORRO e RS232C arrangement Base on connector 9 pins J o FR Master TH500 2 RXD RX a p 3 TXD TX Q RTS SG OC OC2 003 004 COM 5 0OC6 OC7 OC8 COM I 5 GND Shield 3rd class grounding M OPEN COLLECTOR OUT PUT e Contact input amp Digital input D I RS422 RS485 arrangement Please use non voltage contact as like a Relay B 500 can contact to maximum 32 machines Please contact Terminating Resistance When you use open collector the voltage of both of ends should be below 2V and 100 200 1 4 W to the both of ends of retransmission lines the leakage voltage should be below 100 ON contact In case of contact input DI 1 8 2 wire connection DIGITAE INEUT Master TH500 TH500 TH500 011 DI2 DIS DI 4 GND DI5 DI6 DI7 DI8 GND Terminating resistance IAS TX TX TX Terminating resistance RTX TX TX TX
67. t Auto Tuning Although it starts fix control operation according to users setting value if you do not perform Auto Tuning P I D control will be applied in accordance with its initial value at the delivery of goods Therefore it will be better to perform Auto Tuning in order to get good control performance To star Auto Tuning press Auto Tuning button at the bottom of Fig 120 When button flickering it shows that Auto Tuning is being performed After Auto Tuning finished Auto Tuning values will be set up automatically and it stops flickering Same as temperature Auto Tuning perform auto tuning of humidity by pressing 1 button 7 5 Program Control 7 5 1 Selection of Program Control Firstly select a method as a program control in order to perform program control Press button under the status of operation screen and move to Main Menu screen 1 After pressing button it moves to Function set up 1 screen On this screen press pRoGRAM button and select program control And then press 9 button one time and move to Main Menu screen In the function setting main screen Fig 121 press 22 and it shows PROGRAM set up menu screen like Fig 123 and it is consisted of 5 buttons Press each button and select setting respectively Main MENU SC Function setup 1 FUNCTION B DATE TIME RUN MODE a Salon Gen T SV RATE PROGRAM M GRAP LOG FixRUNTIME u
68. t cursor into the internal memory ENT After typing the text based on the combination of keys and functions you can save all the texts completely by pressing the ENT As they save completely you will be also escaped from the multi input screen If you are to cancel the text you can press the key on the right top side By doing so you can delete all the current text while escaping the input box User can input program pattern name as followings PATTERN NUMBER 20 3 2 3 Number Input Mode Ez ERAM PAT The screen for number input is shown in the ERM Fig 4 If you press the number 0 to 9 and _ keys once they will be indicated on the cursor position Whenever you press the 9 on the left side of the keyboard they will be indicated in turn When you press such duplicate keys the cursor will not move at all while waiting for Fig 4 The screen for number input continuous entry At that time if a certain period of time approx 1 second passes the cursor will move automatically to the next position disabling you from continuous entry Ex If you want to indicate 1 The on the bottom indicates a flickering cursor fU Operation 1 fuResult 1_ Ex If you want to indicate 123 45 The _ on the bottom indicates a flickering cursor fuOperation 1 412813 J 4 5 fu Result 123 45 _ Ex If you want to indicate
69. t range 2105 96 Fig 80 S C R output 57 6 3 Retransmission output setting Retransmission output can be selected from output set up 3 and output set up 4 A Output setup 3 TEMP REMOTE OUTPUT HUMI REMOTE T Source py sv Source igi m 10000 RE 200 00 fd 00 M 0001 2 5 Output Bias _ 0001 omal aoma Output 0 0ma omal Fig 81 Temperature retransmission Fig 82 Humidity retransmission output setting screen output setting screen Temperature retransmission output Output setup 3 Select type of RET Retransmission output for temperature It is used for T Source input in recorder etc output signal is 4 20 mA dc and select one among PV Process Value MV Manipulated Value SV Setting Value Scale value against temperature output range will be selected 4 20 mA Range d c But if MV selected output will be the percentage of setting value against 4 20 mA d c It means if you select 50 output will be 12 mA d c In order to delete deviation value of retransmission output input current offset Output Bias In case of sensor loof brake select between retransmission output current S Burnout Output Sensor loof break output Select 0 0 mA de or 4 0 mA d c Humidity retransmission output setting Output set up 4 H Source Select type of RET Retransmission output agai
70. ted to the product ins Do not disassemble repair or reconstruct the product It can cause electric shock fire and errors Do not give impact to products It can cause of damage or malfunction e TH500 N1N 1 2 2 Quality guarantee 2 Unless it is included company s conditions for warrantee we are not responsible cd b for any warranties or guarantees et We responsible for any damages and indirect loss of the use or third S 40p cable person due to unpredicted natural disasters 1 2 3 Quality guarantee conditions of product TH500 N2N The warranty for this product is valid for 1 year from purchase and we will fix any breakdowns and faults from proper uses as it is mentioned in this manual for free After the warranty period repair will be charged according to our standard policies oe Under following conditio
71. tem 50 00 Cl om m m FUNCTION pais 102 SETUP M SETUP vH NO 900 ano PROGRAM Il GRAP LOG Fig 35 The 1st running screen of program Fig 36 Main menu for function Set up control Stop screen 4 3 System setting screen There is no need for System setting made separately by driver AX Caution Because the Basic setting condition of this system isi model is set up by the operator you should be careful especially As pushing button in running screen Main Menu screen is shown Pushing the character of Main Menu in that time Password input display is shown Pushing ENT after inputting initial value 0 the display of System setting function menu shows It is composed of 8 buttons A OUTPUT D OUTFUT SYS ALARM SERIAL COM PID ZONE Fig 37 Password input screen Fig 38 System setting menu screen 35 5 Function setting After finishing installation amp connection turn on the power Logo and system checking are display one after other And then Fig 40 the 1st working stop screen of program control is displayed 0 2168 Fig 39 The 1st running screen of program control Fig 40 Main menu for function set up Stop screen 5 1 Working method setting 5 1 1 Function Setup 1 Pushing FUNCTION SET UP button in Fig 40 Function set up menu screen and you can select or set up each setting item in the Function setup 1 screen Choose Select Program contro
72. the AND condition In other words the 99 hour 59 minute waiting mode will be released only when both ranges come within the waiting range Fig 54 Common waiting operation Temp Wait range Humi Wait range Under Waiting Waiting Range a he Waiting time Start Waiting Operation Release Waiting Operation SEG running when the pattern waiting mode is not applied SEG running when the pattern waiting mode is applied Fig 55 Waiting operation release due to the excess of waiting time 45 46 5 2 5 Pattern Alarm Setting After you press ral M EOM button in Main Menu to go to Fig 43 Wait Alarm S SV set up display pressing button to enter into Fig 56 Pattern alarm set up display F Th A FIN ALARM Setup e o a ALARM Come larm nnne alant ESC ASV A ALARM SV AcHYS 1 Process HID Iz Process L C Ee for 1001 2 NENNEN re _ Fig 56 Pattern alarm set up screen Fig 57 Alarm code selection screen Fig 56 is the display of alarm to use from 1 to 4 in pattern You can select the alarm value set in this display separately according to Pattern alarm from 1 to 4 per segment in Fig 45 Program pattern setting display If you press the alarm code input box to set the alarm sources of temperature or hu
73. ting value 3 7 Graph display and setting The graph display screen is the screen that shows the SV and PV of a temperature and humidity in graph You can change the X and Y axes respectively by pressing the SETUP button You can set a time of the X axis Max and Min range of the Y axis in one save period And you can also display the Y axis for temperature range and range by pressing the button 1 TEMPLE EE 00 Fig 23 Screen for fix control graph display Fig 24 Screen for program control graph display Yo 1111 O 5 Max 20 Fig 25 Graph set screen 32 3 8 Error Indication The second running screen of program control or fix control Fifg 26 is indicating an operating state for running TEMP IST A PD wa HUMITXRHI Pro s 49 99 HIN HFI walt NN Run Time SFG HET Sis Tine Fig 26 The 2nd running screen of program control Fig 27 Indication screen for occurrence of error The indication of errors through sensor disconnection and external is displayed with 81019184 button on and off in the 2nd running screen of program control Fig 26 If you press the 88988 button the error occurrence screen will appear In this case the error indicator for temperature amp humidity disconnection will appear while D I External contact input no 1 to 8 will be displayed on the bottom You can check it by pressing the Up Down arrow button Press the button
74. to a power failure it runs according to the BOOT RUN on Function Setup 2 But power recovers within 5 seconds after failure the BOOT RUN condition is same as before power failure 5 2 1 Pattern setting Fig 44 Pushing semp button in Program set up menu screen Program pattern set up screen is indicated Set segment of each pattern in this screen Program control will run according to the content amp sequence of segment designed At the beginning of running MV Measurement Value may exceed SV Set value atten Pattie eur af ES Fuzzy PIN SEG Page PIN SEG Page Function It is called Over Shoot To prevent Over Sheet please use Fuzzy function If you mm Y E Ns INS turn on Fuzzy function the rising time may delay or under shoot may happen BEG TEVET HUMLSV Hour Min Wan T S ALARM BEG 77 HUMISV Hour Min T S ALARM toi 2500 UE 0 1 Head wli 25 00 I eRe Setting Program control Fix control 56 900 fon main Stop Stop Stop ee fuese 18 Amj 58 eo 00 oot 5000 60 0 000 01 Boot Run Cold Start Start from same set value from the beginning as before power failure Fig 45 Program pattern set up screen Fig 46 Segment selection screen Hot n om fail Run Start Set up each input item Fig 45 in reference of the diagram as toll owing Beep Turn on off the buzzer sound t
75. to show the operating record indication screen which can check the state of RUN STOP Sensor Disconnection and External Contact Input Benq heiter 05 04 09 32 44 SEHSOH BURNOUT 05 04 08 32 44 SENSOR DURHOUT 05 04 09 44 32 FIX RUM START 05 04 09 44 34 RESET HY T BURHOUI 05 04 09 15 00 FIX RUM STAMT ___ 09 45 03 NESET BY T BUHRHOLT BURMOUI Fig 28 Operating Rec 23 4 Displays Entire displays are mainly composed of three sections which are Working display Function setting display Included program installation and System setting display 4 1 Operating screen After you finish to connect amp turn on the power Logo signal amp System check display will be shown in a moment and then Working display will be shown In that time according to selecting the initial setting program or Fixed driving method will be shown to Program control working display or Fixed control working display 50 Ov Fig 29 The tst running screen of program control Fig 30 The 1st running stop screen of Fix control Stop Screen Run screen TEMP t Bown HUMITSBH Pro n 20 02 90 2 T SV 50 00 TON 500 96 0 00 55 Fig 33 Program control Graph screen Fig 34 Fix control Graph screen 34 4 2 Function setting screen After you push button in working display condition Function setting menu screen is shown It is composed of 4 buttons Push each button to set up under an i
76. ts unit is the hour second i The P control only is not enough to make the PV and the SV consistent generating a variation offset In this case the integration reduces the D Derivative i Deviation If the integration time gets too longer it will converge later If the integration time gets shorter it will hunt continuously or even diverge i Set a derivative time Its unit is the hour second i 4t restrains the drastic change in PV by calculating the PV variation every moment and producing the output of its proportional MV HYS Hysteresis i Set Hysteresis value when Auto tuning or ON OFF control 63 C 96 HYS Delay HYS Delay HYS Delay Controller Start t ON OFF ON Fig 93 On Off control C SV Proportional Integration P 1 control Proportional control Time Fig 95 Proportion P and Proportional Integration P 1 control 6 6 D I Configuration Setting When the proportional range is narrow Hunting occurs C SV When the proportional range is wide Offset gets larger Time Fig 94 Proportional control P control Integration time is short C 4 SV Integration time is long Time Fig 96 Proportional Integration P l control It offers the total 8 points for Digital Input and receive external input Active Low Each D I input you can enter your desired name based on the combination of Korean Eng
77. ved in Volatile Memory SDRAM A Caution 2 when you connect USB you must use USB A B connector cable The USB Plug amp Play function of some PCs may have errors upon PC A Caution booting Therefore it is necessary to connect USB connector after PC booting After PC booting you are free to connect USB connector 3 THOUO Uploader Fig 69 USB Up loader Utility LLS hi m as Fig 70 Graphic viewer 53 6 System Setting Caution System set up is a pre installed basic setting condition SO you are requested attention when you change it A Caution If you push 2 2 on operation screen Main menu screen will be displayed And if you push Main Menu password screen will be displayed initial value 0 and then you can enter system setting screen after pushing ENT on screen Main MENU System setup MENU DATE TIME A INPUT D INPUT FUNCTION RESERVE SETUP SETUP A OUTPUT D OUTPUT INNER SIGNALI PROGRAM GRAP LOG SYS ALARM SERIAL COM PID ZONE ES Fig 71 Main menu screen Fig 72 System set up menu screen 6 1 Sensor type setting Our temperature and humidity controller Model TH500 support various outputs and inputs so you need to set output and input information before using this controller On the operation screen push screen as following HUMIDITY Sensor type ES nee Sensor type 2 100 00 200 00

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