TECO SG2 Micro-Controller Operation Manual
Contents
1. CONNECTOR CONNECTOR 4 M 12 M 15 16 A2 Input X 3 _ PRESS BU i L 100 240 DC 24V Input 8x DC A1 A2 0 10V 99 111 N mI gt c Noo call _ SG2 8ER A 502 1 2 Output 4 x Relay TTE 39998 Output 4 x Relay 8A MEMORY 2 I 99 99 99 355555 04 Y4 1 XIXA 5 Input _ 2 A L 100 240V M X 2 P gt lA cul SG2 8ER A Output 4 x Relay 8A 00090 1 Y2 CA 2 Din Rail 18x37 C 4 17 A CA ooo EXE 0 14 0 75 0 14 2 5 0 14 2 5 0 14 1 5 26 18 26 14 26 14 26 16 0 6 Ib in 5 4 Danger Cut off all the power supply before maintenance Or operator will be damaged for electric shock 1 Input 24V DC 1 SG2 SER D 8SET D 4 182. 2 2 2 E 2822 P 104 e n E 0 14 0 75 0 14 2 5 0 14 2 5 0 14 1 5 26 18 26 14 26 14 26 16 Nm 0 6 Ib in 5 4 DANGER HAZARDOUS VOLTAGE Cut off all power before maintenance Electric shock will result in death or serious injury Input 12 24V DC A1 A2 p M 12 I3 4 1516 I7 18 1 2 4 42 B 15 6 f Wo e eecc 29 20000 SG2 20C D SG2 12C D SG2 12C 12D SG2 20C 12D 2 BK M 12 13 14 15 16 A1 2 AT AS z 3 Input 24V or 100 240V 11 VA ul ul NL FN 12 13 14 ENT on 5 0 N N N N N 50 60Hz 2 M 12 14 5 16 17 18 0000900 2220022220222070 0 0 502 10 10 24 Output Relay SG2 20CR A 20CR 24A 101 _ Q2 Q3 Q4 Output Transistor C 2282 M
3. 4 ms Dota d we lt gt LED 9920 Power supply terminals Retractable mounting feet Input terminal Press button Relay output terminals Connector L 100 240 377 OX 00 INAS AUN 4 00 90 00 06 00 SG2 8ER A Output 4 x Relay See TV Y1 73 N EN 4 000060 Y4 LA Voltage Operating mode green signaling C INPUT X1 X2 X4 4XDC 930 SG2 4Al DC INPUT 2 4 3 C d ets ES 22 1 Vi C1 PE ONLI NI NI N 4 94 ol No Xo Vos 2 DCV OO RUN SG2 4Al Input 4 0 10V 0 20mA OOOQO 2 Vaca PE A C JE 510 0 Natus Natal 14 V4 C4 CR 52 gt 1 AL P 2 5 ff TI ney S 73 E FS 2
4. 29 6 1 3 Connection signal 29 6 2 Example for basic instruction 29 6 3 Application Instruction 31 6 3 1 General counter 31 Counter mode 32 Counter mode 2 33 Counter mode 3 33 Counter mode 4 33 Counter mode 5 33 Counter mode 6 34 Counter mode 7 35 Counter mode 8 35 6 3 2 Timer 36 Timer mode 1 37 Timer mode 2 38 Timer mode 3
5. FUNCTION 145 4 000 0 005 0 1 1 105 50 Counting Control for Packing Machine Requirement 1 The packing cycle is that it begins counting the finished products in the assemble line when the counting value reaches 12 it proceeds packing operation which takes 5 seconds After finished it begins a new cycle 2 It simultaneous counts the finished packs of product 3 In case of power failure the counting remains unchanged Analysis 1 A transducer is employed to produce the pulse signal when the transducer detects the arrival of a product A counter generates an output when the counting value reaches 12 and a timer 15 employed to have a delay of five seconds 146 2 The counter will be operated in mode 3 or mode 4 in an effort to keep the accurate counting even in case of power failure Devices Applied counting sensor 51 reset the counting value to zero packing Wiring Diagram and Program with 562 applied at for Packing Machine AC L AC N 11 cl 001 Y a1 ci M1 002 003 01 004 E 005 FUNCTION 3 4 4 M34 0000 M34 0000 000 0 0012 Cl 0100 005 0 T1 M1 Iz I3 FBDI al 101 7 001 3 ur Ualue 0 mode 4 Cur 1 111 1 10 0 Fre Valuel 5 u Bod of 102 mede Cur Value Pre Value
6. 38 Timer mode 4 38 Timer mode 5 39 Timer mode 6 40 Timer mode 7 40 6 3 3 instruction 40 Weekly Mode 40 Year Month Day Mode 40 Mode 1 41 Mode 2 43 Mode 3 46 6 3 4 Analog Comparator 47 6 3 5 48 6 3 6 PWM Output function 61 6 3 7 I O Link Function 63 6 4 Operation Method 64 6 4 1 Original
7. mi ate Hi speed communication Variant je 9 o mp 211117 A The input points consist of the ones having analog input function du 9 YES 12 3 Power Supply Standard Discrete Input 12 3 1 AC DC 24V SG2 10HR A SG2 20HR A SG2 20HR D SG2 12HR D 5 2 10 SG2 20KR A SG2 20KR D SG2 12KR D SG2 10CR A SG2 20HT D SG2 12CR D SG2 20KT D SG2 12HT D SG2 12KT D SG2 12CT D Operation AC 100 240V AC 100 240V DC 24V DC 24V voltage Operation 50 60 Hz 50 60 Hz i MM 47 63Hz 470 63Hz Momentary 10 ms half period 7 10 ms half period 1ms 10times 10ms 10times IEC interrupt 20 times 20 times IEC 61131 2 Chapter 12 Technical Specification 130 protection External by 1A Fuse External by 1A Fuse External by 1A Fuse by 1A Fuse or x Hn breaker Or AE breaker Or E c breaker Or Isolation Noes o Average current consumption all Inputs amp relays OFF 85mA Power dissipation 12 2 DCI2V SG2 12HR 12D SG2 20HR 12D dem Inputs amp relays ON 90mA all Inputs amp relays OFF 85mA 110V 220V 110V 220V 28 8 28 8 all all Inputs relays ON 83mA all Inputs amp relays OFF 27mA Inputs amp relays ON 78mA all Inputs amp relays OFF
8. 122 9 2 Computer Write Software Client 123 Chapter 124 10 1 Confirmation before Test 22 124 10 2 ot Test Ie desde 125 11 Inspection Maintenance 126 11 1 Periodic InspectioBeseceeceseeiceesea ero tereti haee 126 11 2 Trouble S ool eie case ee a eee eee eee eee 126 Chapter 12 Technical st 127 12 1 General Specification 127 12 2 I O System Specification 128 12 3 Dimension eee eis ea dci 129 Appendix Application Illustration 132 Chapter 1 502 is tiny smart PLC having 44 points system applying ladder graphic program FBD program and applicable to the small scale automatic operation SG2 can expand 3 groups of 4 input 4 output module 4AI Module one communication Module The smart mobility and supremacy the SG2 inheres are greatest assistance for you to considerably save both time
9. 65 6 4 2 Main Menu 71 Main Menu LADDER 71 Function Block program input 78 RUN or STOP 87 Other menu item 87 Chapter 7 Block Description 92 7 1 Coil Block Diagram 92 7 2 Edit Block 94 7 3 Function Block 98 7 3 1 Common Counter Function Block 99 7 3 2 High Speed Counter Function Block 100 7 3 3 Timer Function Block 101 7 3 4 RTC Comparator Function Block 103 7 3 5 Analog comparator Function Block 105 7 4 FBD Block Resource 105 7 5 FBD Edit Method
10. Se Reslstor 2 20 Point Relay Resistor Og Inductar System Tuy Capacitor T Inductor m us m Resistor Buck 11 witch Circuit 3 DC 24V To Relay Diode To System Seri toch Diode Circuit DC 24 nV Vari stor 4 DC12V To Relay Diode To System Diode Circuit DC Chapter 12 Technical Specification 132 Master Expansion module and communication Power input Power input SG2 Master bodv 552 Expansion module Buck Photo coupling Circuit device Communic ation drive PC LINK amp 5 12 4 Standard Discrete Inputs 12 4 1 AC type Item SG2 10HR A SG2 20HR A 5 2 10 5 2 20 5 2 10 qz o Current AC AC 220V AC AC 220V 0 66 mA 1 3 mA 0 55mA 1 2 mA gt AC 79 V 0 41mA gt AC 79 0 AmA OFF State lt AC 40 V 028 mA lt AC 40 V 0 15 Maximal lt 100 lt 100m Cable Length On Off On gt Off Typical 50 60 Hz 50 45 Typical 50 60 Hz 50 45 ms AC ms AC 110 V 110 V Chapter 12 Technical Specification 133 Typical 50 60 Hz 90 85 Typical 50 60 Hz 90
11. 105 7 5 1 The origin screen 106 7 5 2 Main menu 5 110 FBD For Main Screen 111 Output coil display 111 Nr Input terminal Screen 113 Edit Screen for Bn input terminal 114 HMI Setting 5 115 I O LINK setting screen 115 PWM Setting 116 SHIFT setting screen 117 PARAMETER of Menu 118 Chapter8 System Design 120 8 1 Procedure for system design 120 8 9 Consideration Tor System 121 8 3 Code Distribution for Relayo se aeee oen aoctor ene ees neuer ene nere i eere ea 121 eitis e Mii emus 122 9 1 Spare Program Cartridge PM05
12. r Chapter 7 FBD Block Description 102 Enable Input Reset gt Timing Parameter 5 Timer mode 5 FLASH A Mode Enable Input Timing Parameter 6 Timer mode 6 FLASH B Mode r Bx x Enable Input E Reset d Part 4 Timing Parameter E JUL 7 Timer mode 7 FLASH C Mode Enable Input Timing Parameter 7 3 4 Comparator Function Block 1 RTC Mode r Chapter 7 FBD Block Description 103 Enable Input RTC Parameter 2 RTC Mode Continuous Enable Input JE 4 9 RTC Parameter IN Part ww J 3 RTC Mode 3 Year Month Day Enable Input 5 RTC Parameter E 4 7 3 5 Analog comparator Function Block 1 Analog Comparison Mode 1 Enable Input Analog Input Analog Input Reference 2 Analog Comparison Mode 2 Enable Input gt T Chapter 7 FBD Block Description 104 Analog Input Analog Input Reference 3 Analog Comparison Mode 3 Enable Input Analog Input Analog Input Reference 4 Analog Comparison Mode 4 Enable Input Analog Input Reference Enable Input t Analog Input Reference 7 4 FBD Block Resource Under FBD edition mode the logic block and function block shared the system memory The total memory and shared memor
13. 1 E NA NA DJ N IN N HM 12 13 15 16 A1 A2 D ph 5 16 A2 Toc 1 12 13 14 15 6 A1 2 DC24V Input 8 x DC A1 A2 0 10 DC24V Input 8 x DC A1 A2 0 10 DC 24V Input 8 x DC A1 A2 0 10V TN 2 4 SG2 12HR D SG2 12HR D SG2 12HR D 4 Output 4 x Relay E Output 4 x Relay 8A PMOS oo 00 OO 90 00 2 7 JN IT de ds 04 2 di de ds LA fh uf PA EAD PROGRAMM 1 TUO 5 D a oo BY KEYPAD wey 4 2 2 K TYPE PRODUCTS SG2 12K D 12K 12D SG2 20K D 20K 12D SG2 10KR A 10KR 24A SG2 20KR A 20KR 24A WARN Unintentional equipment operation The application of this product requires know how in design and program of control system Only persons qualified are allowed to program install and apply this product Failure to follow this instruction can result in death serious injury or equipment damage SG2 12K 2D 1 terminals T 2 14 1 2 OO OOOO00000 E N Retractable DC V 2 9 22 A 1021 PA 9 mounting feet gv
14. 254 Lo o 27 a Ga 2W 08 41 1 017 Q3 04 1A quick blowing fuse circuit breaker or circuit protector 4 14 36 Surge absorber 400 Fuse circuit breaker or circuit protector Inductive load Communicate with SG2 CLENT Software 220 f 2 I3 5 16 Ai 2 TEES i mm 4 i v N 9 C 2 7 1582 CLIENT Don t electrify until the CLIENT CABLE 15 connected Connect the CLIENT CABLE Execute SG2 CLIENT software online 4 2 4 type series product SG2 SER D SET D SG2 SER A 5 2 4 1 Input X1 X2 4x AC KON N 2 N Mw N AC 100 240V 4 ry J 4 4 1 A m SG2 8ER A Output 4 x Relay 44 7 T 3 AON ION
15. via HMI of the controlled equipments How to use HMI function in SG2 dient software will be described in deal here Under FBD mode Open the text editor All the components available to text are listed in Function Block Table of the text editor 2 To sdect the corrponert in Function Block that lists al the editable parameter of the certain corrponert 3 To sdect the parameter in the list the information with corresponding formet will be input the LCD of emulator 4 To press the button after editing text finished the data is all saved in the Hxx componer function block For example 6 27 15 lat eee nid 13 dil 1 1358701004 00415974 LOIS in gt 8 Description 1 sdect text Hxx HOI HOF If there is no HMI Text Block in program will be displayed here 2 Text display on LCD 3 When the Display is enabled the user can press the SEL button for 3 seconds to show the HMI Text Messages 4 sdect the Unit the input parameter includes Unit with Unit display Or the displayed has no Unit without Unit display
16. Vi C1 PE CON N ON N 11 11 4 11 V1 C1 PE C v J 14 NS 77 DC24v es A RUN A SG2 4Al SG2 4Al Input 4 x 0 10V 0 20mA Input 4 x 0 10V 0 20mA S Q 2 2 V2 C2 2 V2 C2 4 SS 1 14 A JIN 4 11 11 Nec I4 V4 PE PE 2 Input 100 240 ion Gt an ioo 245 0M 50 60 Hz 3 Output Relay 4 V4 C4 ale 4 19 Output 4 x Relay 8A 1 2 A 17 E B CIEI 7 4 Output Transistor scsestTD OUTPUT 4 x TR 0 5A 4 Ma Mud X 2 s 17 quick blowing fuse circuit breaker or circuit protector Surge absorber 36V DC Surge absorber 400V AC Fuse circui
17. 6 Chapter 4 Installation 9 4 1 Installation Environment 9 4 2 Installation and wiring method 9 4 2 1 type 9 4 2 2 K 13 4 2 3 18 4 2 4 21 Chapter 5 Operation Flow 21 5 1 After Power Supply Connection 27 5 2 dealing in power 1055 28 5 3 STOP RUN operation 28 Chapter 6 Description for LADDER Instruction 20 6 1 Basic Instruction 29 6 1 1 Instructions with logical operand 29 6 1 2 Instructions without
18. None Inputs amp relays ON 130 mA All Inputs amp relays OFF Inputs amp relays ON 148 mA All Inputs amp relays OFF 29 4mA 31 2mA Nome Inputs amp relays ON 79 Inputs relays OFF 26mA Inputs amp relays ON 86 mA Inputs relays OFF 23mA Operation DC 12 V DC 12 V _ DCIO04 MAV 0 10 4 14 4 V Voltage range range Momentary interrupt Isolation Average current DC 12V DC 14 4V DC 12V DC 14 4V consumption Chapter 12 External by breaker None all Inputs amp relays ON 150mA 10 ms 10 times 61131 2 Fuse or circuit all Inputs amp relays ON 155mA Technical Specification breaker None all Inputs amp relays ON 220mA DCIO4 MMAV 10 4 14 4 V Ims 10 times IEC 61131 2 External by 1A Fuse or circuit all Inputs amp relays ON 240mA 131 all Inputs all Inputs amp all Inputs amp all Inputs amp relays relays relays relays OFF OFF OFF OFF 50 45mA 55mA 45mA Power dissipation 12 3 3 Power supply input wiring sketch 1 AC 10 Point Ta Relay Resistor 4 Reristor 1275 im mu a Inductor cay EN T Capacitor Regulatat Lircuii i tar Varistor Inductar 4
19. Edit Using method Sdect button to display Chinese editing screen Ire 1 Chinmsw Displey Chinese Input he 2 Description amp Display Chinese to be added Input the Chinese Press the button Add to add the Chinese to display zone Sdect the button to save the edit Chinese Sadet the button to dd de the Chinese the cursor located in the display zone 10 Press the button to exit the edited 11 Press the button Clear to dd ete the Hxx content under editing 12 Press the button to the edit HMI Text 13 Add the mobile number It is avalable only that Mobile Message is sdected First Li ne set Phone 14 Display the parameter of selected components listed in the Function Block Table 15 List Component Function Block which can be input to preset program Integrative describing HMI display on LCD of nester Example 6 35 mode 8 Fixed 10 Lill 1111 Loper 500 Cur Pre Valuei i10 0D p B Bn display 1 10 1050 Cl display T2 10 008e 1 88 IIT LCD display 11 Ml Text Hxx LCD displays the text when the LCD displays the
20. ED 122 2 Mode eee Di Num 1 4 3 Terminal Point mm R _ a 15 01 5 1 01 01 7 4 Recewe terminals Now press SEL Begin to edit Modify the mode 1 2 2 modify the terminals point 1 8 3 modify the send receive terminals 101 10 01 0 01 0086 Y01 YOC MOI MOE NOI NOF Save the modified content after press SEL ESC 1 Cancel the modified content after press SEL 2 Back to edit screen 1 for coil 6 PWM Setting screen ode 2 netting stage Code PWM Width Now press tL Move the cursor Chapter 7 FBD Block Description 117 1 2 modify the setting stage 1 8 2 9 modify the pulse width 00000 32768 3 the period 00001 32768 Save the modified content after press SEL 1 the modified content after press SEL 2 Back to edit screen 1 for coil Humber Now press the cursor lt SEL then 1 modify the output type T 4 27 modify the move coil number 1 8 Save the modified content after press SEL ESC 1 the modified content after press SEL 2 Back to edit screen 1 for coil PARAMETER of Main Menu the parameter of the used function block in editing FBD program with SG2 Client software can be queried and modified Chapter
21. SG2 10KR A S G 2 SG2 20K D SG2 20K 12D A1 A2 M AGUA TA Nu VN L 11 12 13 14 15 16 V Input 213 14 5 16 17 18 9 SG2 IOKR A 10 24 SG2 20KR A 20KR 24A Output Relay Output 4 x Relay L Q1 Q2 1 1 04 Output Transistor Output 8 x Relay Lap 20 90 CO 90 Q1 Q2 Q3 Q4 Q6 Q7 Q8 OUTPUT 4 x 0 5 OUTPUT 8x TR 0 5A Q2 Q3 TO quick blowing fuse circuit breaker or circuit protector surge absorber 36V DC surge absorber 400V AC Fuse circuit breaker or circuit protector nductive load Communicate with SG2 CLIENT Software VA toc H 12 13 14 15 16 A1 A2 DC 24V Input 8 x DC A1 A2 0 10V lt gt Run SG2 12KR D Output 4 x Relay 8A 1 4 do MH 12 13 M 16 2 29909909990 DC 24V Input 8 x
22. MI MIS The upper cese 11 is Contat whilethelower 11 case is Contat x These of timer can be modified cormnunication module as MODBUS PROFIBUS DEVICENET TCP IP 1 Timer Mode 1 ON Dday Enable Relay 4 4 o Present Timer Starts rating Timing enable Relay OFF Tmew OFF T ermunal bw Tiger Target Value Sample 6 12 input under Ladder Program 11 TEN 11 the fifth Timer stets apenas lepi andes Function Program n a har Ie gt ea 1 IL NEL ds pO CU dme 4 i oe i c 14 000 0 E When the time seaches to the target vahe amp SETS T ser THis i t 1 B RT 45042 32 45455 oe 1 2 ES Timer target valus Tuner pregent values Ec Mem eee 6 13 2 Timer mode B mode 4 Enable Enable reset relay present 1 T Tomer stars operar pr sent valus Timing enable relay OFF ON ON OFF 2 11 6 5 1 PUR mpr
23. L2 T enable reset relay ON OFF tanget vabo set in Note timing begins the action time of the Relay less than the Minimum unit will be neglected 3 Timer Mode XOFF Dday A Mode enahle reset relay 4 4 enable reset relay present value 0 Timer starts operating present value Timing enable relay Time up 11 output terminal 5 3 enable reset relay t target value set in timer 6 14 Timing enable ON OFF ON GN Time up terminal 3 Enable reset rely N t target value set in the timer 4 Timer Mode 4 OFF Dday enable reset Tine starts op erating Enable reset 2 present value present value Timing enable relay OFF Time up TI TF OFF ON OFF output terminal enable reset relay target value set in timer 5 Timer Mode 5 FLASH A 6 15 Enable reget Ti bers operati gt Enable reset presen value C stans Testing emahle rela Time up termama Durgel value gel tener Timer Mode 6 FLASH reget relay enable reset relay present D alasta operating v
24. Enter FUNCTION BLOCK edition to move to the If T2 is required to be changed Press 15 and SEL to execute Step 2 modify preset target value preset the action rday Preset thetagd vdue move the cursor to the preset action area Press Savethe input data Procedure 2 5 1 1213 1415 161718 Colum As the preset value of the timer counter and analog corrparator is set as the preset value of them Next to the step 2 2 to execute the following operation 4A press 5 isdsoevalable the prese vdue of 1 8 will be periodically changed And so The other function blocks time counter present vd ue is set as preset Value to repeat the step to sdet T1 TF CIF 7 2 J 2 Procedure 2 10 Pres save the input data 2 Procedure 2 11 Pres 5 f move the cursor to 1 position Procedure 2 12 begin to edit data for 3 times and followed by 2 Procedure 2 14 Pres saveinput data this step leads to editing the action relay 2 Procedure 2 16 Press SEL Begin to modify Procedure 2 17 Press T for4times SEL e the cursor to digital location 2 Procedure 2 19 Press 5 1 for3times 2 Procedure 2 20 Press savethe input data D Procedure 2 21 Pres f
25. Exarple 1 sdect the Unit with Unit display Under this condition both preset value and current value can be displayed at sare time A Timer operation mode delay Text display as follow 6 28 Descri ption Function Type Number Preset Value Current Val ue Unit O 0O AOA B Counter Operation node 1 Text display as follow Description Function Type Number Preset Vaue Current Vdue RTC mode 1 OR 2 Tet display as follow ips e ui 0 Descri ption Function Type Number Preset Value Start Week Preset Value End Week Preset Value Start time Hour Minute Preset Value End time Hour Minute Current Value Week Hour Minute D Andog Comparetor Text display as follow 9 o Mer rs 7 8 Description Function Type Number Preset Value Unit Input Input Ay Preset Value 6 30 000 0000000 Preset Value E input contact Text display as follow me 7 11 48 Description Function Type Number Current Status ON OFF Auxiliary output function block Nxx auxiliary output function block is similar to 2 Not sdect the Unit without Unit display Under this condition only the current information of Function Block is displayed RTC
26. Slowly blinking module is in Run mode Rapidly blinking 5Hz module in Fault mode EOM error incompatible Program FEPR OMerror Expansive module error 7 3 d d P 1 1 11 12 4 15 6 A1 A2 DC24V Input 8x DC A1 A2 0 10V Run dot SG2 12KR D Output 4 x Relay 8 2 2 2 Y O0 DO i 4 2 3 C TYPE PRODUCTS SG2 12C D 12C 12D SG2 20C D 20C 12D SG2 10CR A 10CR 24A SG2 20CR A 20CR 24A WARN Unintentional equipment operation The application of this product requires know how in design and program of control system Only persons qualified are allowed to program install and apply this product Failure to follow this instruction will result in death serious injury or equipment damage AXN a 24V ANA 7 491 E NK DW A G2Z ZL D ae ALAP ey ME 7777 2 2320223833 22 E 2262 Input terminals Q Powersuply 005025250000 terminals EEPROM 6 AS AA 20 m QL cartridge or PC
27. The flow sensor control the blowing in and out operation Over pressure is permitted at no time The fresh blower will run only if the flow monitor senses that the exhausted gas blower works properly If any irregularity takes place on air in blower and air out blower the warning lamp will light The control circuit for the traditional ventilation system 15 shown below 139 Reterence Circuit 23 MC MUS Exhausted Fresh Aur Operation Error The ventilation system is wholly controlled by the airflow monitor If there is no flow air in the room after a designated duration of time the system will activate the warning system so the user shall shut off the system Devices Applied MCI main contactor MC2 main contactor SO NC contact stop switch SI NO contact start switch S2 NO contact air flow monitor S3 NO contact air flow monitor Hloperation indicator H2 alarm light Wiring Diagram and Program with SG2 applied in Ventilation System 140 2212 C JE 102407 6x Ae Mc2 Hl 141 001 51 50 1 002 13 003 aZ 14 004 a3 M1 005 006 HZ 007 008 1 34 0000 0010 FBD Operation 142 al 101 MCI 001 Bua noe Iu Bos gus Hl qua 104 mode l Cur Valuel
28. Link Function 2 2 1 System 2 2 1 1 Connected A and lines of some 1 8 V type 5021 as Figure2 2 2 1 2 Setting No Remote for the instance of all SG2 s menu SET REMOTE 2 2 1 3 Setting 01 O2 for the instance of each SG2 s menu SET ID ID must be a series number 0 7 maximal is 07 V SG2 AB ID 0 Figure2 IO Link communication connection 2 2 2 Example 2 2 2 1 Connected A and B lines of 8 V type 5021 as Figure2 2 2 2 2 Setting 00 07 for each SG2 s ID number and programming in 502 Ladder as follows LI 2 M3 4 5 6 7 8 2 2 2 3 Programming 50201011 7 setting function block L1 working mode follows 1 5 MOI 08 W57 64 2 2 2 4 Programming the other SG2 ID 0 6 setting function block L1 working mode as follows 2 8 MOI 08 117 W57 2 2 2 5 Running all SG2 s programs 502 ADU 7 When coil I1 is d coils 1 8 is ON 2 2 2 6 Observing other SG2 IDz 0 6 states of coils 1 8 is changed from the states of coils MI MS8 of SG2 ID 7 2 3 Modbus Slaver Station Function 2 3 1 Function Describe SG2 15 a Modbus slaver station By Modbus communication it can be read or wrote coils states and the preset value of function blocks it also can be read the current value of function blocks and can control SG2 to run or stop
29. SG2 12H D SG2 12H 12D 12 5 16 17 18 1 A2 A4 90292090 SG2 20 D SG2 20 12D 4 3 SL HM I2 13 14 15 6 1 A2 AL A2 A4 DC V Input Input 24V AC or 100 240V AC 5 17 10 243 QUU AMA D 9 Siue OR 17 1011 Output Relay NC 507 20 8 50 60 f N 1 1 J 11 L 11 12 13 14 15 16 L N 5 16 17 18 9 f A Xov pa V 502 10 10 24 SG2 20HR A 20HR 24A m Output 4 x Relay 8 Output 8 x Relay 8A H t 20 QU 20 922 Qe Q3 04 2 Q4 Q5 Q6 Q7 2008 12 1254 Output Transistor OUTPUT 4x TR 0 5A 1 OUTPUT 8x 0 5 2 2 2 2 2 2 2 toz Q3 Q4 Erw xw o d 4 4 link or Remote I O Only products 5G2 20VR D 20V T D 20VR 12D 20V T 12D are available 2 A4 S B 85485
30. 100 240V INPUT 6x AC 1 ANA SG2 20K 12D A Input terminals Um 4 7 502 21 8 0 0 1027 Voltage d 1 12 14 5 16 17 18 1 2 4 PES lt gt RUN mode OOOO OOOO ooooeeee 1 green signaling d Pun LED mur EEPROM cartridge PC 99 2 2 92 2 20 J AC V Input i do di NI cable connection SG2 10KR A L N 1 12 13 14 15 16 OUTPUT 4 x RELAY 8A eC 222222 3 Q NN 3 Relay output SG2 20KR 24A p M 6 L N 1 12 13 14 5 16 17 18 9 AACS ADI V INPUT 4 7 4 p 4 2 gt U 5 08 m LN 11 12 13 14 15 6 LN M 12 5 16 17 18 9 100 240 INPUT 6x AC AC 100 240V INPUT 12x AC gt lt gt RUN lt gt RUN O U SG2 10KR A SG2 20KR A OUTPUT 4 x RELAY 8A OUTPUT 8x RELAY 8A 2 2 20 2 T Q0 29 OO 2 2 2 2 2 2 e 04 04 05 06 07 08 Y 81 0 4 12 01 126 00 EN 12413 15 6 20 202000 y A M
31. l1 6 1 2 Instructions without operand D d 44 n 44 LES 6 1 3 Connection signd coil connect with left and connect with left right and connect with left right connect with left right and down right components 62 basic instruction FuncdionD d Instudion 1 IF D Q1 6 2 OFF ON lt gt One complete period 11 1 4 101 ilisinverseof 11 di OFF ON Ed One de scan pari od 01 OFF ON NORMAL Output 1 Q1 l OFF ON 01 OFF ON SEI Output 01 OFF ON OFF OFF OFF OFF ON OFF OFF OFF OFF ON OFF 6 3 RESEIT y Output 1 01 1 OFF 01 Out 1 1 OFF ON 11 is inverse of 11 1 1 63 Function Block 6 3 1 Generd Counter OFF OFF ON OFF OFF ON OFF ON OFF ON OFF Counting Mode 1 9 Use I1 gF to se counting up or counting down OFF counting up 0 1 2 3 4 ON counting down 3 2 1 0 Use I1 gF to RESET the counting vdue ON the counter reset to zero and OFF OFF the counter conti nues to count Present Counting Value range 0 999999 Target Setting Vdue range 0 999999 Code of the counter C1 CF total 15 groups Note Thesating vdue of the counter could be a constant or the prese
32. 0 0 Pre Valuel 10 0 4 Plant Gate Control 4 1 Requirements for Plant Gate Control The main purpose of the plant gate is to control the access of truck which is manually operated by the gate guard Audible Alarm Pressure Swatch e The door guard controls and oversees the opening closing of the plant door gate e The stop switch can be activated at any time regardless of the gate in fully open or close condition e The alarm light will be activated for 5 seconds in advance before the gate operation e The damper is provided on the gate Gate closing operation whenever 143 the damper 15 contacted by the gate stops 4 2 Traditional Control Circuit for Gate System Auxiliary Circuit E ES MCI S2 MCI 51 3 55 MCI MCP MCI 53 54 HOG Hla MCI HOS HOS 25 LA Close Audible Alarm Open Gate Close Gate Devices Applied MCI Main Electromagnetic Contactor MC2 Main Electromagnetic Contactor SO NC contact stop switch SI NO contact open switch S2 NO contact close switch S3 NCcontact open safe damper S4 NC contact close safe damper Wiring Diagram and Program with SG2 applied in Plant Gate 144 1 51 82 50 53 54 CU 19 9 2 219 AC RETE MC1 2 Hi 00 003
33. 1000 148 149
34. Bare board Type economical type 502 expand I O 10KR A 12KR D 12K T D 12KR 12D 10CR A 12CR D 12CT D 12CR 12D 8 8ER D 11 12 13 14 5 16 17 18 1 2 4 DC 24V Input 12 x DC A1 A4 0 10V SG2 20 points SG2 20HR D gt SEL SF N Expansion Type 20 20HR D 20HT D Output 8 x Relay 8A 20HR 12D 20KR A 20KR D 20KT D 20KR 12D Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 5 16 17 18 9 24 Input 8 x DC 20 Output 8 x Tra 0 5A T2 T3 T4 T5 T6 T7 T8 4 9 Modbus Devicenet o9 Profibus High Speed Type 20VR D 20VT D Bare board Type Economic 20CR A 20CR D 20CT D 20CR 12D 3 2 Client Cable ae b Client Software eos 232 05 converter spare program cartridge 3 2 Configuration for computer Connection and Spare Program Cartridge 1 Link the computer and SG2 with Client Cable Through the Client software the computer 15 ready to read and write the programs contained in 502 and oversee on line operation in SG2 See the figure below Computer 22222 Client software 232
35. DC V INPUT 62 4DHB 100 240V 1 12 13 15 I6 2 2 2 D 12 13 5 16 17 18 9 toc 12 13 14 eo 2232 2222 22270 0 0 o 5 16 17 18 1 2 4 DC 24V Input 12 x DC A1 A4 0 10V SG2 20HR D Output 8x Relay 8A Q1 Q2 04 QO OO CJ CT Ly Ly J T L3 ki f Q5 Q6 EI T p a 3L 4 2 DANGER ELLE 4 1 12 B WAS 16 A2 2 DC 24V INPUT 8 x DC IH 0 14 1 5 0 14 0 75 0 14 2 5 0 14 2 5 AWG 26 16 26 18 26 14 26 14 FILES VE 23 5 0 14in HAZARDOUS VOLTAGE Cut off all power before maintenance Electric shock will result in death or serious injury Input 12 24V DC hr suf AY HE 27 o NO 2 MO en NO Bee NN No DA oe ote NO NS TY 11 12 13 14 16 A1 A2 Input gt
36. Step 4 Put on the power supply Step 5 In the operation function list click WRITE to enter the confirmation interface and click YES to download the spare Download the program from 502 to Note If it is desired to recover the spare program click READ on the operation function list to enter the confirmation interface and click YES to upload the spare program Upload the program from 5 to 502 Step 6 Cut off the power supply Step 7 Prize up 05 referring to step 2 and cover the protective cover Chapter 9 Spare Program 123 9 2 Computer Write Software Client Step1 Confirm cutting off the power supply Step 2 Remove the cover of SG2 with the screwdriver as follow x leu i 1 i a Ch p ES al uo UD t amo Tae 7 E ud 1 te Step 3 Insert cable of Client to the slot as follow The other terminal of Client cable is connected with the communication port RS 232 on computer Step 4 put on the power supply Step 5 With Client software the computer is ready to read program from or write program to SG2 Chapter 9 Spare Program 124 Content 11 1 Confirmation before Test Run 11 2 Procedure of Test Run Chapter 10 Test Run 124 Chapter 10 Test Run 10 1 Confirmation before Test Run Confirmation The control panel 15 verti
37. Wi We W17 We4 2 WIT We4 Wi WI6 W25 W64 4 33 40 W33 W40 W1 W32 W41 W64 W41 W48 W41 W48 W1 W40 W49 W64 W49 W56 W49 W56 W1 W48 W57 W64 W57 W64 W57 W64 W1 W56 1 I OLINK Model Sd 110 5 4 13 the state of adua sending temina 1347 is sent to memory list the controller 3 the state of corresponding merrory list position W17 W24 andrddionship of sending temina is as bd ow 0 1 0 5 8 13 1 ID 3 9 W17 WH Memar Lut Pontes WIR WIO W D Wel Wed 4 2 5 2 and sendng terminal 15 5 18 li uU 6 43 Sample 2 1 O LINK mode2 Sd 55 amp assatfroml3 fromWT17 when enabling the link the state ON OFF of 1347 is controlled by the state of list position W17 W21 which is to the actua state of input termina 0 1 6 5 8 I3 T7 D W17 W21 Y 5 I Memory List Postion W17 Wie W20 Wi 4 Corrpondmg Escemmg F Y and Sendng Terminal 13 6 4 Operation Method 6 4 1 Origind Screen TheOngind Screen as Power is ON 1 Language ng Screen gt ENGLISH FRANCAIS ESPANOL ITALIANO 6 44 x FRANCAIS ESPANOL 4 Line Display Screen ITALIANO DEUTSCH PORTVGVES SIMPLIFIED CHINESE Language Selecting Menu Press the
38. 12H D 12H 12D SG2 20 D 20 12D SG2 10HR A 10HR 24A 5 2 20 20 24 PRODUCTS Unintentional equipment operation The application of this product requires know how in design and program of control system Only persons qualified are allowed to program install and apply this product Failure to follow this instruction will result in death serious injury or equipment damage M 12 13 14 15 16 A1 A2 ooloooooooo DC24V Input 8 DC A1 A2 0 10V R 27 e CN N S SG2 12HR D 7 9 Output 4 x Relay 8 4 D J Q1 Q2 Q3 Q4 Gon 1 Fa 2 2 13 14 15 6 2 DC24V INPUT8xDCIA1 A2 0 10V 1 03 0 2 ey Power supply terminals LCD display 3 Input terminals 4 Retractable mounting feet 5 Delete key 6 Selection key 7 Direction keys left right up down Ok key 9 Escape key EEPROM cartridge or PC cable connection CD Output terminals 2 13 14 15 Q 2 2 2 D vA 2 2 2 2 DC Input 23 1 AN 09V IV EN N 24 0 5 16 17 18 1 2 4 0000 20220000 1 12 2000
39. 1A quick blowing fuse circuit breaker or circuit protector 0 AD AP AS AA 5 5 RS485 Surge absorber 36V DC Surge absorber 400V AC Fuse circuit breaker or circuit protector Inductive load eX NU A ee 5 202009000 Only short circuit the first product and the last product Comply with standard RS 485 When link the net can connect 8 products in 1 8 When Remote is available it only can connect 2 products in MASTER amp SLAVE Communicate with SG2 CLIENT Software H 12 14 6 A1 A2 oo OOOO00000 DC24V Input 8x DC A1 A2 0 10V SG2 12HR D Output 4 x Relay 8A Q1 02 Q8 Dy Communicate with 05 toc 12 15 16 A2 24V Input 8x DC A1 A2 0 10V ZX 2 SG2 12HR D Sm PC ce aus gt L Curr 5 22 2 4 S ZN RS485 w 12 13 15 6 1 m OD OOOOO0000 DC24V Input 8x DC A1 A2 0 10 225 SG2 12HR D Output 4 x Relay 8A m 72 7 7
40. 2 3 2 System setting 2 3 2 1 Connected A and B lines of some V type 502 with a Modbus master station as Figure3 2 3 2 2 Setting N No Remote IO for the instance of all SG2 s menu SET REMOTE 2 3 2 3 Setting nonzero for the instance of each of SG2 s menu SET ID ID number is O1 99 Modbus V SG2 V SG2 Master station ID 01 ID A 02 99 Figure3 Modbus communication connection Appendix Application Illustration 1 Lighting Control for Staircase 1 1 Requirement for Staircase Lighting e When someone goes up stair or down stair the lighting system shall be energized to provide sufficient luminance e After the walker passes the staircase lighting system shall be turned off in five minutes automatically or manually 1 2 Traditional Lighting Control There are two traditional controls available e Apply pulse relay e Apply automatic timer to control the lighting system on the staircase Conventional Lutribution Box Distribution Box LF Switch ZF Switch Switch Components Applied Switches Auto lighting system or pulse relay for staircase Applying the pulse rday as controller for staircase lighting system e The lighting is on as long as any switch is turned on e Press any switch again to turn off the lighting system Shortcoming It is a frequent weak point for the person to forget turning off the light at most cases 132 Auto light
41. 7 FBD Block Description 118 1 Auto Display the first Function Block 2 Display Type of Function Block Present Value displayed when Eunnmng Now Press lt display the previous next Function Block Parameter BENE RN T 4 1 move the cursor from o SEL then Timer 1 amp modify the setting value 0000 9999 Tox 2 modify the time unit 0 01 amp 20 1s amp 1sc 1min ounter Modify preset value numerical value 5 1 5 1 5 1 5 numerical value Save the modified data after press SEL 1 Cancel the modified data after press SEL 2 Back to Main Menu FDB PARAMETER modifying step Take timer mode 1 as an example Analog input A4 is set as preset value Time unit is s Step 1 Press Move the cursor to default place Step 2 Press SEL twice B 01141 T 2 Chapter 7 FBD Block Description 119 Step 3 Press 7 for three times change toA2 A4 in turn Chapter 7 FBD Block Description 120 Content 8 Procedure for system design 8 2 Consideration for System Design 8 3 Code Distribution for Relay 8 System Design 8 1 Procedure for system design System Design Operation Flow Planning Relay distribution Confirmation of Program Design Individual Device Operation Connecting I O Input Program System with 502 Modify Program Detecting Error OK Floppy disk Hard Disk 5 Chapter 8 System Desi
42. Confirm to enter the selected items Back to original screen FBD For Main Screen 0 0 B8 lu E E This diagram is just reference for following operation description Chapter 7 FBD Block Description 111 1 Output coil display E i e s i ooh Input Terminal Now Press 1 Modify the 3 Q 01 08 01 0 01 1 01 08 01 5 01 2 modify output coil type QEYSMONGHSL PS SQ confirm the output coil as Q Y M N the cursor move to ESC 1 Back to Main Menu Sample Procedure 1 1 Original Screen Procedure 1 3 Chapter 7 FBD Block Description 112 Press 517 twice to modify Q as M Press twice to I O 1 0 1 recover M as Q Procedure 1 5 Press for 7 times to modify 1 as 9 Procedure 1 6 Press OK Confirm coil M09 The cursor auto move Enter Screen Chapter 7 Block Description 113 2 Nr Input terminal Screen such diagramis only avalablefor query display the Nr input contact of FBD programin SG2 Client software Next output Coil Now Press 1 Press gt press gt OD OE 2 If 00 is Bxx press lt to enter Bxx screen If active cursor is located as the diagram press to enter next output coil
43. DC A1 A2 0 10V SG2 12KR D K X Ne PA L mm N Unplug the cartridge first Don t electrify until the CLIENT CABLE is connected Execute SG2 CLIENT software online VA 11 12 13 15 6 A1 2 20 09000999 2 DC 24V y Input 8 x DC A1 A2 0 10V Tire SG242KR bD Output 4 x Relay 8A Q1 Q2 Q3 Q4 4 10 Plug the cartridge again after confirming the program is transferred Communicate with 05 M 12 13 M 15 A2 DC24V Input 8x DC A1 A2 0 10V v 11 12 14 16 A1 2 gt SG2 12KR D DC24V Input 8x DC A1 A2 0 10V Output 4 x Relay 8A 90 200 P Unplug PMOS cartridge first lt gt SG2 12KR D El Output 4x Relay 8A caah 00 OO OO 04 2 J nam 2 f NS NO Please do not electrify the product before 5 15 plugged Electrify the product the program will automatically transferred amp executed Following 1s what the LED working in different state description Run Diagnose Power on the product and the mould is ready
44. Specification 141 Chapter 13 20 points V TY PE Function TYPE Function is only For 5G2 20VR D SG2 20VT D 1 Function Summarize 1 1 Remote Function Master Slaver communication 1 2 Link Function 1 3 Modbus Slaver Station 2 Function Detail 2 1 Remote IO Function Master Slaver communication 2 1 1 Function Describe 502 Slaver s Input coil Output can be used as SG2 Master s expansive coil and Output coil I O address Master station Slave station 0060 Expand input coil 1 Expand output coil 01 08 2 1 2 System Setting 2 1 2 1 Connected A and B lines of two V type SG2 Figure1 2 1 2 2 Setting Master for the instance of first SG2 s menu SET REMOTE 2 1 2 3 Setting S Slaver for the instance of second 50276 menu SET REMOTE I O A B A B SG2 Master Slaver Figurel Master Slaver communication connection 2 1 3 Example 2 1 3 1 Programming in SG2 Ladder on SG2 Master as follows running the program and observing the states of expended input coils X and output coils 2 Yl 5 Y2 Enable the input coils 12 13 of 502 Slaver according to coil X2 X3 on the 562 Master When enable I2 on SG2 Slaver output Q1 and enable I3 output Q2 When Slaver display the I O When Run Master display X Y 3 4 5 7 8 9 2 2
45. and cost in operation The special features the SG2 owns are presented below Complete product line 1 Dimension for the super mini standard 10 12 20 points a 10 12 points variant 7290 9 6 mm b 20 points variant 126 0 59 6 mm 2 3 group I O Expansive Module one communication Module 38x90x59 6 mm 3 Versatile RTC and analog input 10 bits 4 Low price variant without LCD Keypad and blind variant without up cover Selective input and output 1 Input AC 85 264V or DC 21 6 26 4V or DC9 6 14 4V 2 Output Relay or Transistor Easy to learn and to operate 1 Built in 12 x 4 LCD display and 8 keys for inputting ladder program 2 The computer compiled programs are applicable to WIN 32 platform Windows 95 98 2000 3 Programming by PDA Monitoring by PDA 4 Seven languages English French Spanish Italian German Portuguese and Simplified Chinese 1 1 Ease installation and maintenance 1 Screw installation 2 DIN rail installation 3 Spare program cartridge PMO5 optional 4 LCD display shows online input and output in operation 1 Multiple outputs Relay output Max 8A points resistive load Transistor output 0 5 A Point resistive load 2 It can directly drive 1 3 HP motor 3 Sufficient program memory and abundant Instruction D Max 200 step Ladder Instruction input or 99 blocks of FBD 2 Many built in Application In
46. avaladle for mode 7 but the counter code Is not limited 6 9 E el ee eei EM REESE moe erue L ES E Bae teas L heli 7 LE 2 Counter mode 8 Counting Mode 8 Frequency Corrparison High speed counting input temina only 11 12 evallable Coumtingintevd time 0 99 905 Comte target value 000000 999999 Cote off target va ue 000000 999999 Code of Counter C1 CF Total 2 15Group only 2 Groups avalable for mode 8 but the counter code 15 not limited OFF DH Note As show the diagram the output will dd ayed for one intervd Timer 10 0 00 99 99s 0 0 999 95 0 9999s 41 0 9999m a OFF timer continues to timing Code of timer T1 TF total 15Group Usel1 9F to rese the timer vdue ON timer vdueis reset to Zero and OFF Thesating vdue of thetimer could be constant or the present value of the timer counter or analog input of A1 A8 Forl1 eF input temrind l 1H C I1 12 output temina Q1 Q8 expansion input tamind X1 XC X1 X12 expansion output termina Y 1 Y F Y 1 Y 12 Counter C1 CF C1 15 Timer 1 1 115 Corrparator 1 1 15 andog Comparator G1 GF G1 615 Auxiliary termina 1 6 11
47. be executed But there are same exceptional cases 1 program about 20point in PMOS can t be downloaded to 10 point machine 2 program abou DCtype in PMO5 can t be downloaded to AC type machine 3 program about Transistor typein PM O5 can t be downloaded to Raday type machine 1 3 Now Press Tox Movethe cursor OK Execute the instruction then back to main menu ESC 4 SET systemsating REMOTEI O N BACK LIGHT x M KEEP NUMBER 0 gt Siren setting when is not available to Expansion I O Points Y es IO ALARM v in stop run switching Counter Present Value Keeping es xNq Note KEEP function is only avalablefor keeping M status in RUN mode when power is resupplied after loss Now Press anto eit Movethe cursor for ID SET Pres SEL LIDSET 00 99 I O NUMBER 0 3 axi 2 REMOTE gt gt 5 lt 3 BACK LIGHT C KEEP 6 4 M KEEP ALARM Confirmthe Edition ESC 1 thesadting when pressed SEL 2 Back to Menu Notd When LINK is sdected ID setting range is 0 7 which should be continuous D Odefault as Master D 1 7 default as Slave When REMOTE is sdected the distribution of the remote I O is as follows Now Press SEL Begin to input parameters 22 Move the Cursor SEL then 200 99 NN 701 12 DD 01 31 2 TH 00 23 o
48. buttons Enter the sdected language and display the screen for time setting 2 Present Time Setting Screen p di 502 Edition Year Month Day Week Hour Minute Press the button Begin to input the value EL 1 SEL 7 1 Year 00 99 Month 01 12 Day 01 31 2 STUSWES THE FRO Ae SUMO 3 Hour 00 23 Minute 00 59 Save the RTC Time Finish the origina screen seting then Display power Start Screen Screen as the power is on 6 45 ar paini Wednesday LUAM 0034 8 Made Lusplay RUM Mode i STOP Mode Press the button Backto Main Menu SEL4T 4 Under LADDER Edit Mode display the state of other rdays expansion X amp Y SM T e lt gt Scren SEL H Function will be displayed as the button is pressed for 3 seconds If Mode 2 is sdected for HMI the H Function will not be displayed Sample a Display other operation 6 46 6 47 Expansion display State 4 Pxpanssam State Expansion input state Ho esr day 03 10 04 2003 10 04 6 48 Code of Relay T Display State G Disda State 6 49 04 08 Ipui b Operation to Display Function SEL If the target value is displayed ESC it can be modifie
49. colum 3 6 Procedure 15 4 415 16 718 Colum Pres 5 incolum5 4 1T M1 1 3 01 rrove the cursor to the character in Column 8 2 5 4647 When the cursor located in digital 7 4 Procedure 17 Press T for4times 1 14 3 01 024 Press SEL The character the cursor locating 45 6 7 8 Colum 4 5 416 7 8 for 7 times Press Auto shift to FUNCTION BLOCK and the counter input parameter Procedure 21 Pres ESC LADDER edition screen Dd de the Program Element 241 1213 1415 16 7 8 os Procedure Press DEL dd de the dement C7 the cursor Display the present Line the cursor locating and operation state of 562 Procedure Press SEL ESC Simultaneously The Line 4 displays where the cursor locating and operation state of SG2 Dedede the whole Line Procedure Press SEL DEL Simultaneously ESC Execute Insert a whole line Step Pres SEL4OK athesametime 4 5 6 7 8 61718 6 7 8 Colum Colum Colum i colum move upwerd downward 4 lines 4 1 13 01 moe steg Pres SEL J the timg 1213 1415 161718 Colum LADDER FUN BLOCK RUN CLEAR PROG Procedure 1 6 7 8 1 Coum Press
50. is exception it still has Unit A Timer Text display as follow Description Function Type Number 6 31 B Counter Counter mode LText display as follow D 9 01888 Description Function Type Number C Andog corrparator Text display as follow t d HALT Description Function Type Number 5 Tosdect Mobile Message Hxx displays the mobile number message only Can t out automat cally The first line displays input numerd while the other lines display the Mobile message 130051081101 MESSAGE 6 32 6 Language to display Muti languages to choose in the character input colum Sample 454558 e 7 Theoption of Chinese fixed is avalablein Chinese System sdect Chinese fixed Text Input zone displays 40 fixed Chinese characters which be set to Text Display Zone Sample 8 List the character to input 9 The option of Chinese edit is Chinese Operating System To sdect Chinese edit The user can add or modify the character required with most characters are 40 6 33 1 Taxt Display np 1 inpu BOS Ay Retee Display Unit Mobile Message C Multi Language Chinese fixed Text Input PX
51. screen press T14 050o0o60oe0 Sample Following step 1 7 Chapter 7 FBD Block Description 114 Enter 2 screen 3 Display Screen for Bn input terminal such diagram is only available for query display the Bn input contact FBD program in SG2 Client software Block Code Auto distribute the first unused code 5 Next Output Terminal Now press press lt then gt 2 0089 is press to enter Bxx screen 3 When active cursor locates at press to enter next screen of output coilO When the cursor locates at press OK to enter parameter edit screen 1 At prange edit screen press ESC to exit and back to function block screen 2 At function block screen press ESC to back to main menu Sample Following the procedure 2 3 Procedure 3 1 Chapter 7 FBD Block Description 115 Press twice Procedure 3 2 Press OK Enter Parameter setting screen Refer to 2 Parameter of Main Menu 4 HMI Setting Screen xn 12222 DI Now press SEL Edit the mode SEL T Modify the mode 1 2 Save the modified mode after press SEL ESC 1 Cancel the modified content after press SEL 2 Back to edit screen for coil 1 Note HMI text content setting should use CLIENT only 5 I O LINK setting screen Chapter 7 FBD Block Description 116
52. specification Check the terminal voltage to ensure that it complies with specification Check the input voltage to ensure that it complies with specification Check the output voltage to ensure that it complies with specification Check the loose screw on the terminal lock 11 2 Trouble Shooting When there 15 no display but the operation 15 proper it might be the trouble in LCD please consult the distributor for help If there is no display and no action please consult the distributor for help after confirmation of Power Supply ON Chapter 11 Inspection and Maintenance AC 100 240V DC 24V 10 AC 100 240V DC 10V 26 4V Below AC 250V Below DC 30V No loose screws SG2 AC model SG2 DC model 127 Content 12 1 General Specification 12 2 System Specification 12 3 Input power supply specification 12 4 Input specification 12 5 Output specification 12 6 Dimension Diagram Unit mm Chapter 12 Technical Specification 127 Chapter 12 Technical Specification 12 1 General Specification Operation 40 70 C Operation humidity 20 90 RH no frost IEC60068 2 6 standard Vibration resistance 0 075mm amplitude 1 Og acceleration 15g peak 11ms duration ESD Contact 4 air discharge EN55011 class B Mail Structure Please refer to Page 4 3 Size of cable AWG 1293 5mm Dimension 72x90x59 6 mm WxLxH Din rail 72 106 59 6 mm WxLxH Direct installa
53. terminal is NOP which 15 equivalent to 5 Logic Diagram FBD LADDER 101 or 102 or 103 Note The input terminal is NOP which 15 equivalent to Lo 6 NOR Logic Diagram FBD LADDER 101 102 103 Not 101 102 103 Chapter 7 FBD Block Description 977 Note The input terminal is which is equivalent to Lo 7 XOR Logic Diagram FBD LADDER 101 102 HC 101 102 101 Xor 102 Note The input terminal is which 15 equivalent to Lo 8 SR Logic Diagram FBD LADDER 101 Hb 102 The input terminal is NOP which is equivalent to Lo 9 NOT Logic Diagram FBD LADDER Chapter 7 FBD Block Description 98 Not 101 Note The input terminal is which 15 equivalent to 10 Pulse Logic Diagram FBD LADDER 5 Note The input terminal is which is equivalent to Lo 7 3 Function Block 5 Function The code of the BLOCK is auto distributed the first unused code Connect with 2 Hext Function Bolck The function blocks are classified into 4 sorts Time Counter Comparator R and Analog Comparator The Operaton Fundamental is similar to LADDER Function Block s Chapter 7 FBD Block Description 99 7 3 1 Common Counter Function Block 1 Counter Mode 1 Counting Input Up Down Counting Reset Counting P
54. will be greater than 20 unlike the Mode Lin which the vdue is locked at 20 If reset is avallable the present vdue will reset to 0 unrelated with the counting direction b When reset is enabled the present ue is aways regardless of counting direction c When RuryStop switching the present value is aways regardless of counting direction 6 Counter node 6 Similar to mode 5 except for a Under this mode the present value of the counter will be memorized as power loss at Run state b Under this mode C keep function selected the present value of the counter will 6 8 be mamonized when Run Stop switching 20 01111121213 1 10111112121 31 31 4 Ul TT TT TT 11 1 Omassa 011111212131 1 1 121181 8181617 Input Count Pulse E High Speed Counter Only Provide for DC Power Suppl y DC power supply type has two 1 KHz High speed input terrinas 1 1 and 12 Two groups of high speed counting function is avallable with these two counters 1 Counter Mode 7 7 High speed counting input temina only 11 12 Usel1 9F to reset counting value ON counter is reset to zero and OFF OFF counter continues to count Counter targe vdue 0 999999 Code of Counter 1 Tota 2 15Group only 2 Groups is
55. 1 A8 the constant or the present of the timer EHE The or of analog output tamina s G1 GF is determined by the comparison of the analog inputs of Ax and Ay These vdue of analog comparator be modified corrmunication module as MODBUS 6 25 PROFIBUS DEVICENET When the rday of analog comparator is ON there are 5 operation modes descri bed bd ow 1 Andog Comparator model Av e lt ON 2 Andog Comparator mode 2 Ax lt Ax ON 3 Andog Comparator mode3 gt ON 4 Andog Comparator mode4 e gt 5 Andog Comparator mode5 e lt Ax ON 6 3 5 HMI File This function block 12 4 can display the informati as word information present value and target value counter timer and Andog comparator Under running mode to modify the target value of timer counter and analog via HMI is avalable HMI can display the Status of input temina X and Auxiliary temina Display modd 1 2 HMI character output temina 1 8 1 Display mode could be changed via the keys first page displays L first page doesn t display 2 6 26 The displayed infomretion can be only input by means of Client Software Under running mode to modify the preset value of the timer counter and analog comparator is
56. 100 240 INPUT aN 2 A lt gt RUN VLX 2 GAL OAD SG2 10KR A OUTPUT 4 x RELAY 8A 204 tC ee We op AY Em 2729 N 1 de 8 2 4 Re V NA V n 4 V C A 2 CM D a mm 0 14 1 5 0 14 0 75 0 14 25 0 14 2 5 0 14 1 5 AWG 26 16 26 18 26 14 26 14 26 16 235 2 Nm 0 6 0 14in Ib in 5 4 DANGER HAZARDOUS VOLTAGE Cut off all power before maintenance Electric shock will result in death or serious injury 4 8 Input 12 24V DC ers oM 9 2 12 2 gt 193 i 522252 Fe im 12 13 M 5 20 900900990 1 2 DC V Input SG2 12K D SG2 12K 12D corny 4 502 12 amp 8 D D 1 Yo 1 QUE SUA 507 20 120 15 16 A2 999990999 iE H 12 13 14 1 2 2000 5 16 17 18 A1 2 2000 DC V Input Input 24V AC or 100 240V AC pm lt gt
57. 2 shall be kept away fromthe said place 2 7 Overcurrent Protection TheSG2 is not incorporated a protective fuse at the output terminal To avoid the short circuit on the load side it is recommended to cable a fuse between each output terminals and loads Content 3 Basic configuration 3 2 Configuration of computer connected and spare program cartridge Chapter 3 System Configuration 3 1 Basic System Configuration 2 11 12 13 14 15 16 A1 2 _ 24 Input 8x DC A1 A2 0 10V SG2 12HR D E DEL 7 SEI S 4 5 44 2 gt XY MLS ESC Vj Esc NV 7 A Output 4 x Relay 8A Q1 Q2 SG2 10 12 Points Expansion Type 10HR A 12HR D 12HT D 12HR 12D Blind Type 7 12 13 15 A1 2 24V Input 8 x DC A1 A2 0 10V R WIN9O mE il 5 G 2 Input X1 X2 X3 X4 4x AC OOOO L N AC 100 240V 7 SG2 8ER A SG2 1 2KR D Output 4 x Relay 8A YA Output 4 x Relay 8A Yi Yo t T LL WAGGON MWM C Cr Q1 Q2 Q3 Q4 _ 02 Q4 Y4
58. 211 ss Open the Door Open Close Waiting Time Whenever or B 2 senses the approach of a visitor the door is actuated to open After an elapse of time Bl or B2 senses no presence of a visitor MC 4 will close the door 2 3 Apply SG2 in Door Control System Applying SG2 in door control system can simplify the circuit All that one need to do is connect the action sensor limit switch and contactor with SG2 Devices Applied MCI main door open contactor main door close contactor 135 contact closing limit switch S2 NC contact opening limit switch B1 NO contact outdoor infrared sensor B2 NO contact indoor infrared sensor Wiring Diagram and Program with SG2 applied in door control system AC L Bi B2 51 52 AC N 136 001 12 002 M1 1 003 1 2 i4 2 M1 MZ Tl 1 14 42 01 21 41 007 LLLI 1 34 0000 0010 FBD Operation 137 10 1 21 cur Val usgl D Pre Valueli 10 138 3 Ventilation Control 3 1 Ventilation System Requirement The main function of the ventilation system 15 to blow in the fresh air and blow out the waste air as shown in the below drawing 72 Exhausted sas Blower Fresh Blower d Flows 4 Flow Monitor The room is provided with exhausted gas blower and fresh air blower
59. 3 X4 4x AC OOOO NA NA NA 502 8 Output 4 x Relay 8A 20KR 12 9 Standard Variant without up cover LII e pre mi ate Hi speed communication Variant je 9 o mp 211117 A The input points consist of the ones having analog input function du 9 YES 12 3 Power Supply Standard Discrete Input 12 3 1 AC DC 24V SG2 10HR A SG2 20HR A SG2 20HR D SG2 12HR D 5 2 10 SG2 20KR A SG2 20KR D SG2 12KR D SG2 10CR A SG2 20HT D SG2 12CR D SG2 20KT D SG2 12HT D SG2 12KT D SG2 12CT D Operation AC 100 240V AC 100 240V DC 24V DC 24V voltage Operation 50 60 Hz 50 60 Hz i MM 47 63Hz 470 63Hz Momentary 10 ms half period 7 10 ms half period 1ms 10times 10ms 10times IEC interrupt 20 times 20 times IEC 61131 2 Chapter 12 Technical Specification 130 TECO Electric amp Machinery Ltd Safety Precaution Precaution for Installation gt gt b Never install the product in the environment beyond the one brochure and user manual specified such as high temperature humidity dust erosive gas vibration impact condition resulting in the risk of inductive electricity fire and error operation Please exactly comply with the installation instruction
60. 5 ey i it Kia Hf c off 7 Hf ff J lix fr 7 7 7 Lif i H Hy H dll 7 ip 4 HT Ue 7 fmi Be FL I Jy L P mv sto 20 M 4 f E 24 Be ay 7 uu Um 7 xL fA Na s M u T LES LJ 1 t Input X2 X4 L AC 100 240V Q SG2 8ER A Output 4 x Relay 8A 00000 9057 900990 Y4 Mg 92 OO 12 13 4 15 l6 A1 A2 ANN AN DC 24V Input 8 x DC A1 A2 0 10 SG2 12HR D Output 4 x Relay
61. 700 amp 00 1700 ENABLE Week Monday Tuesday 21222 Friday Sducby 8 00 1700 800 1700 800 1700 800 1700 800 1700 ENABLE Rn Output Week Monday Tuesday Friday Surcby Time 800 1700 800 1700 800 1700 800 1700 800 1700 ENABLE Week Monday Tuesday m Friday Sducdby 800 1700 800 1700 800 1700 800 1700 800 1700 ENABLE Rn Output 3 RTCMode3 1 3 2 6 6 03 05 23 Yea Month Day 2000 0101 2003 05 23 2004 12 22 29123 0 00 0 00 0 00 0 00 ENABLE Rn Output If ENABLE fails the output will be OFF Yea Month Day 2000 0101 2003 05 23 2004 12 22 0 00 0 00 0 00 0 00 ENABLE de 2 09 06 04 12 22 8 2 8 03 05 23 Y ea Month Day 2000 01 01 2003 05 23 20341222 2281230 0 00 0 00 0 00 0 00 ENABLE Rn Output Sarge 3 9 6 24 2000 01 01 2003 05 23 23141222 2291230 0 00 0 00 0 00 0 00 ENABLE Rn Output 6 3 4 And og Analog Comparison Mode 1 5 P Q andog input A1 A8 or the present Value of the timer counter Value of the timer counter Ax andog input value 0 00 9 99 andog input value 0 00 9 99 54 reference corrpardive vdue could be andog input A
62. 85 ms AC ms AC 220 V 220 V Off gt On Off gt On Typical 50 60 Hz 50 45 Typical 50 60 Hz 50 45 ms AC ms AC 110 V 110 V Typical 50 60 Hz 22 18 Typical 50 60 Hz 22 18 ms AC ms AC 220 V 220 V 12 4 2 24V DC 12 Item SG2 12HR D amp SG2 12KR D amp SG2 12CR D SG2 12H T D amp SG2 12K T D amp SG2 12CT D EE Discrete High Speed Input Analog input as Analog input discrete input Input I3 16 ILD circuit gt gt gt ois 00 orsa 177 Maximal lt 100m lt 100m lt 100m lt 30 Cable m shielded Length osa omm omm se Type 040VDC 01 V DC ED Conversion Chapter 12 Technical Specification 134 Versus true 2 0 12V value Conversion time Sensor lt IK ohm impedance 12 4 3 24 DC type 20 Item SG2 20HR D amp SG2 20KR D SG2 20HT D amp SG2 20KT D EE Discrete High Speed Input Analog input as Analog input discrete input Input 13 19 11 12 9 circuit gt sima _ osa tmv Maximal 100 m 100 m 100 m 30m shielded Cable Length Cem m CL Type 0 0 01V DC Conversion Versus true Ld 12V value Chapter 12 Technical Specification 135 Conversion time Sens
63. DER Now Press Verticdly move the Cursor Sdect the language the cursor located Backto Main Menu ______ 6 75 Content 7 Coil Block 7 2 Logic Block 7 3 Function Block 7 3 General purpose Timer Function Block 7 3 2 High speed Timer Function Block 7 3 3 Timer Function Block 7 3 4 RTC Comparator Function Block 7 3 5 Analog Comparator Function Block 7 4 Block Resource 7 5 FBD Edit Method Chapter 7 FBD Block Description 02 Chapter 7 FBD Block Description Note FBD program can only be edited and modified in SG2 Client software and write to SG2 controlled equipments via communication cable Via controlled equipment FBD program is available for querying or the parameter of the function block of the program for modifying 7 1 Coil Block Diagram 3 Coil Type 2 Output Coil Bloch 1 Bound Input I DIr4CO2 Expansion Input XOI XOC 2 Q 0 0901 0088 Expansion Output Y YOI YOC 2 auxiliary WM SHIFT Logic Function Block Normal ON Normal OFF No Connection B01 B99 99 LINK 1 01 1 08 8 0 Chapter 7 Block Description 93 2 PWM Function Block Description Enable input 5 4 3 SHIFT Function Block Description Input terminal description Enable input Shift input Setting parameter description 1 Shift c
64. ER Instruction Description Chapter 7 FBD Block Description Chapter 8 System Design Chapter 9 Spare Program Chapter 10 Test Run Chapter 11 Inspection and Maintenance Chapter 12 Technical Specification Chapter 13 20 points V TYPE Function Appendix Chapter 1 Geeneral 1 Chapter2 Operation Precaution 3 2 1 Installation Environment 3 2 2 nstallation 3 2 3 0 3 2 4 Static Electricity 3 2 5 Cleanness 3 2 6 Storage 4 2 7 Protection 4 Chapter 3 System configuration 5 3 1 Basic System Configuration 5 3 2 Configuration for computer Connection and Spare Program Cartridge
65. External power External power 240 24V 2650 30 Mechanical insulation Photo coupling insulation Max Load Resistance load A point 0 3A point Inductance load Light load 200W IOW DC 24V Open circuit leak lt JOuA current 22 22 Relay Lifespan Chapter 12 Technical Specification 138 Life ss Const Correr idi Note 1 The values illustrated in the above graph are standard ones The service life of the relay will be adversely affected by the ambient temperature Note 2 When the current is kept less than 2A the service life of the relay 15 about 100 000 times Power Supply Module DC 12V 100 240V DC 12V DC 24V AC 100 240V DC 24V Optional Devices MODE Description 5 Spare Program Cartridge Computer Edition Software 12 3 Dimension Diagram 10 12 points Chapter 12 Technical Specification 139 21 45 11 5 2 1 APUI Di De amp amp ee DI Le ee R gt 20 points 57 31 Loo CHOC CHOC 1141 Ob amp 0 Expansion 8 points Chapter 12 Technical Specification 140 SEA A gt Fae 9909 95608 Chapter 12 Technical
66. Movethe cursor to prese action 22 Move the cursor to position 2 Step 2 22B Pres SEL Move the cursor to 2 to reped above step Sdect A2 T1 C1 A1 to Move the cursor to 2 to reped above step Sdect 1 1 1 8 2 Step 2220 Pres Save the present data Procedure 2 23 Pres 5 T Move cursor to position 4 to repeat the step 2 12 Continue to input Fundion Block Next Function Block Procedure 1 Press SEL Simultaneous y 2 Last Function Block 6 7 8 1 Pres SEL Simultaneous y Function Block Procedure Press SEL DEL Simultaneously Back to Man Menu LADDER FUN BLOCK RUN CLEAR PROG Change Function Block Category Move the cursor to change to T 5 1617 8 Colum RUN STOP 1 2 STOP Mode RUN PROG STOP PROG BYES BYES NO NO Move the cursor Execute the instruction then back to main menu Back to main menu Other Menu Iters 1 CLEAR PROGRAM Clear RAM EEPROM and Password a the sare time 2 WRITE save the program to the PMO5 program spare cartridge WRITE YES 3 READ read the progran fromthe PMO5 program spare cartridge to 552 READ YES BNO When C type or K type machine power up the programin PMOS will be auto downloaded to the machine and
67. TECO SG2 Micro Controller Operation Manual 2 13 14 15 16 A1 2 8 Input 8 x DC A1 A2 0 10 SG2 12HR D Output 4 x Relay 8A 12 13 14 16 A1 2 020 DC24V Input 8x DC A1 A2 0 10V SG2 12KR D Output 4 x Relay 8A Input X1 X2 X3 X4 AX AC C C Ne Nd NC NL L AC 100 240V SG2 8ER A Output 4 x Relay 8A Input X2 X 4x AC OOOO ud Nu L 100 240V SG2 8ER A Output 4 x Relay 8A SG2 20HR D Input 8 x DC 20KT D Output 8 x Tra 0 5A Input X2 X3 X4 1 L 100 240V SG2 8ER A Output 4 x Relay 8A Input X1 X2 X3 4x AC j L AC 100 240V ed SG2 8ER A Output 4 x Relay 8A Input X1 X2 X4 AIT FT EIN EN 4x AC OOOO L 100 240V A SG2 8ER A Output 4 x Relay 8A Input X1 X2 X3 X4 4X OOGO Meu Nou L AC 100 240 SG2 8ER A Output 4 x Relay 8A Version First Edition Input X2 X3 X4 N SG2 8ER A Output 4 x Relay 8A Input X1 X2 X
68. U3B verter rper um D 2 2 232 converter Client Cable Figure 3 2 1 Note SG2 PDA software suits PDA based on WIN CE and matching with the connector SG2 PL02 Such as HP2200 2190 and 2210 etc 2 Plug 5 into SG2 which is able to load and recover the programs from PMOS See the figure below Figure 3 2 2 4 Installation 4 1 Installation Environment The 502 PLC 15 prohibited to be installed under the following environments The ambient temperature is beyond 20 C 55 C The relative humidity exceeds 5 90 Area 15 brimful of dust salt and iron powder Under direct sunshine The environment is subject to frequent vibration and impact The area contains erosive and inflammable gases susceptible to fire The area 1s abundant of volatile oil gas organic solvent ammonia electrolytic gas o Poor ventilation or close to heating source 4 2 Installation and wiring method Warn Such product users should have special skill about PLC system Only the persons qualified are access to control install and use the products The operator and the equipment will be damaged if neglect such warning Precaution for Wiring The I O signal wire shall not be routed in parallel to the power wire or placed in the same tray Adopt 0 75 3 5mm cable as the external wire Apply 4 6kgf cm torques to tighten the lock screws 4 1 4 2 1 SG2
69. Y 1 Y F Y 15 12 Counter 1 15 Timer T1 TF 1 115 Corrparator 1 R1 R15 Andog Comparator G1 GF 61 615 Auxiliary terrind 1 1 15 The upper cese 11 is Contat whilethelower 11 case 15 Contat The output waveform of output tamind Pl amp 15 by the prese waveform of input tamind 1 9 2 3 5 and PWM Enable mal s woman wx cm 6 4 or a e a 2 mm LICILILIUEJ pepe wwe o 28 25 e s Note X indicated ON OFF input temina is idle 6 37 1 Funcion only provided for 20 Symbol Description o E Sues points 1 8 the send receive points Sendireceive memory list location J Olinkouputenmina 1 18 Note Only one sending mode can beset anong L1 L8 others ae for receiving mode 9 Sdecting input points 114C 11412 output points 01 08 expansive input points X1 XC X1 X12 expansive output points Y 1 YF Y1 Y 12 auxiliay 1 MI MIS Recaving mode is determined by the controller ID which can not be changed as the left 6 42 list shows The mode can be sd W1 W9 W17 W25 W33 W41 W49 and W57 0 Merry 8 Loi W1 W8 W1 W8 W9 W64 71277 we wie wa wie
70. abas T Timing nabh relay Cites terol reset celay valas 7 Timer Mode 7 FLASH C Mode Note Thisis raher specia Mode which series connects two timer t1 and 12 addition add PTn wherer l 2 3 4 but Tn 1 Timer can not be used for other purpose Sample 1 PT1 tl 11Taod vdug 2 72 Tage vdue erable reget relay 4 Emable reset rela present value 0 php 0 timing enable relay Times up tena 11 in the Geet 12 barget valos palin the 633 RICInstmruction Weekly Mode Description Input the first week Input the second week to RTC 1 2 1 daily 2 consecutive days 1 _ 40 Set Hour OFF Code RTC RIF 99 4 iml x Description for Week Codd Monday 5 TU WE TH FR SU These vdueof RTC can be modified cormnunication module as MODBUS PROFIBUS DEVICENET Yea MonthDay Mode iCmukiYerMahDy 0 6 17 1 Mode 1 1 Week Monday Tuesday Wednesday he Friday Sudy Time 800 1700 800 1700 800 17 00 800 1700 ENABLE Noted If ENABLE fals output is OFF 6 18 Wee
71. aracter position of 1 3 5 colum 2 gt space gt only digital and character position of 8 colunn 3 T gt P gt dl avalable but the 2 4 6 colum of the first line 1 1 1 SEL 41 4 1 L F When the cursor locates the digital position the range of digital is restricted by reay type A2 oXoQooYoMobDoToCoRoeGsel l When the cursor located at 1 3 5 Colum 30oYoMoToCoRoGoHoLoPoeQqQ When the cursor located at 8 Colum 4 gt gt sy eP When cursor located 7 Colum and the 8 Coun 15 se 5 gt P gt When the cursor located at 7 Colum and the 8 Column is set as T SEL 4 Confimtheinput data and move the cursor move the cursor Horizontally move the cursor instruction 1 the Instruction or action under Edition 2 Back to Man Menu after query the program OK 1 Confirmthe data and autoretically save the cursor moves to next input position 2 When the cursor is on Colunn 8 Press the button to automatically enter the function block and set the parareters such as Operation 5 LADDER FUN BLOCK RUN CLEAR PROG Procedure 1 Pres Enter LADDER Edition Procedure 2 11 Pres SEL Linel 1 When cursor located at character digital press the button to show 11 Procedure 3 Press 7 twice LinellQ 1 Pres SEL and the digi
72. arameter 2 Counter Mode 2 Counting Input Up Down Counting Reset Counting Parameter 3 Counter Mode 3 Counting Input Up Down Counting Reset Counting Parameter 4 Counter Mode 4 Counting Input Up Down Counting Reset Chapter 7 L 4 2 5 4 5 x FBD Block Description Cn t T YR Part C n tf T Tila Part PD Bx Counting Parameter 5 Counter Mode 5 Counting Input Up Down Counting Reset gt Counting Parameter 6 Counter Mode 6 Counting Input Up Down Counting Reset Par C PD 4 Counting Parameter 4 7 3 2 High Speed Counter Function Block 1 Counter Mode 7 High counting input Enable Input Reset gt Counter Parameter Note High speed input terminal 11 12 2 Counter Mode 8 High counting input E lc nt 1 4 Chapter 7 FBD Block Description 101 Enable Input Reset Counter Parameter Note High speed input terminal 11 12 7 3 3 Timer Function Block 1 Timer mode 1 ON Delay A Mode Enable Input Timing Parameter 2 Timer mode 2 ON Delay B Mode r 4 Enable Input gt 4 Reset 5 Part 4 Timing Parameter 3 Timer mode 3 OFF Delay A Mode Enable Input Reset Timing Parameter 4 Timer mode 4 OFF Delay B Mode
73. arameters will be memorized as the ones before power off That 1s the data before counter power off will memorized as non volatile mode 15 selected While under STOP mode M and counter data before power off will not be memorized When executing the scan for the first time the input Relay will refresh the data according to input ON OFF while the output relay will refresh the data according to operation after executing user program Scan Time scan time covers the time for processing input and output data the process time the operator applied until the final result is obtained The scan time 15 related to the capacity of the Instruction Under Ladder mode 5 20mS Under FBD 2 10mS 0 The scan time 15 related to the user s program capacity The scan time range 15 5 20ms under Ladder edit mode while 2 10ms under FBD mode I 01 0 4 Overall Response Time for 502 not including expansion Chapter 5 Operation Flow 2 scan Pernod External Contact Input Logic Internal ta Internal Logic Output Relay Output Jo ta Input OFF gt ON response time tb one scan time tc Output OFF gt ON response time 5 2 Operation dealing in power loss Under RUN mode the present data of counter and the state of the M coil will be memorized as power off 5 3 5 RUN operation STOP present output will be cut and the present
74. cable 2 connection E n Retractable mounting feet INS amp Outputterminals 00 S 502 21 8 24 s E 4 1 H 13 14 15 a 00 00 6 0 N Posl 222202222022220 fe 1 P a gt L A 15 16 7 18 719 1 n LL M 1213 4 15 16 Ai 12 5 16 17 18 9 IA i ND 989020000000200000 TT Ree L 11 14 21 ON ECT co Z c e N il Y J 202 099890980899007 Qr 2 104 20 4 5 E nn PROS A 4 A Z 12 446 6 AT 0 022202 TER 1 X A E CN X
75. cally before installation installed properly Each module is fasten in fixed place Properly wiring Terminal Block is well locked by screw Confirmation on power Cable complies with specified requirement cable I O cable and Power cable is wrapped Signal cable Check if the cable is routed parallel or close to high voltage and current cable Check the output cable is protected by fuse Signal cable is shielded twisted wires Power Supply Confirmation The voltage of power supply is as specified End of Test Run Chapter 10 Test Run 125 10 2 Procedure of Test Run Turn on Power Confirm the LCD is ON Confirm I O Cable Write Program or Download from 5 Test Run Modify Program If the program is not proper modify it Save program save on PMOS cartridge Client Hard Disk End of Test Run Chapter 10 Test Run 126 Content 11 1 Periodic Inspection 11 2 Trouble Shooting Chapter 11 Inspection and Maintenance 126 Chapter 11 Inspection and Maintenance 11 1 Periodic Inspection 0 General Items Inspect Item Inspect content Standard Ambient temperature They shall be limited to the specification the temperature Relative humidity inside the control panel shall None 001000 conosive Power voltage DC 24V The GENIE is firmly fixed No loose bolts Check the terminal voltage to ensure that it complies with
76. d 6 50 If the target value is displayed it can be modified If the target value is displayed 2 it can be modified If the target value is displayed 1 it be modified If the target value is displayed it be modified POPE LLL 2 If the target value is displayed it can be modified 6 4 2 Man Menu LCD displays 4 line Man Menu 1 TheManMenuaSG2 unde STOP Mode gt LADDER FUN BLOCK RUN CLEAR PROG 2 Clear the user programand the WRITE 3 Save user program to PMO5 RTC SET ANALOG PASSWORD LANGUAGE isdettelagmp 000 NTAL 2 TheManMenuasSG2under RUN 6 52 gt LADDER FUN BLOCK STOP WRITE RTC SET WRITE PASSWORD LANGUAGE Press the Button Movethe Cursor to sdect Man Menu Confirmthe sdected Function EX S piointii Scam SG2 be modified edited cleared and read user program only when it is under STOP Mode As the programis modified SG2 will automatically backup it to EEPROM not PMOS Menu LADDER 313 4 5 6 H Column Lana Tc 2 ma M 5 1 0 5 0 34 11411 4 Character Position Pontion Press the Button SEL L gt ix gt only digita and ch
77. dder mode at the same time 13 ON pere ol sol 19 29 202121 201 291121 15028 a AE d od oid lud pud bd bod hc nid 54 Gad ch ei M OFF of OFF 08 OFF On 6 6 Unde this Mode the counting present value appeared will be greater than 20 unlike the Mode 1 in which the vdueis locked 20 b The present value of counter will be reset to initia default value at the time of power or switching RUN STOP That is the present value of counter is O in counting up whileit is preset Value in counting down 3 Counter mode 3 Similar to mode 1 except for Under this mode the present vd ue of the counter will be memorized as power loss Run state b Under this mode C keep function selected the present value of the counter will be merrorized when Run Stop switching 4 Counter mode 4 Similar to mode 2 except for Under this mode the present value of the counter will be memorized as power loss at Run state b Under this mode C keep function sd ected the present value of the counter will be nemi zed when Run Stop switching 6 7 5 Counter 5 20 Y T d T1 WV T Y T Tl Y T Y V T T YT 0 1191 191201 201 211 211 201 201 191 191 181181191191 201 01 01 01 0 o 118 8 OFF M OFF Note aUnder this Mode the counting present value appeared
78. ey Chapter 7 Block Descriptio 107 I 2 Expansion Output State Expansion Module State Year Month Day Bier 03 10 04 NotLinked 2003 10 04 uu MM UA ee m c m c 2 M Display State Chapter 7 FBD Block Description 108 Relay Code Code a ep DU TE E Relay p 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 4 analog input value 1 1 1 b Operation for displaying Function Block Display H1 Chapter 7 FBD Block Description 109 Display H2 The displayed values be modified OK ESC Chapter 7 FBD Block Description 110 7 5 2 Menu Screen LCD displays 4 lines Menu selection 1 When 502 15 under STOP mode the main selection displays gt FBD PARAMETER RUN CLEAR PROG WRITE READ SET Similar to RTC SET gt 1 Ladder Edit Mode ANALOG SET PASSWORD LANGUAGE INITIAL 2 When SG2 is under RUN mode the main selection displays gt FBD PARAMETER STOP WRITE 5 gt i Similar to WRITE Ladder Edit method PASSWORD 3 LANGUAGE Now Press Move the Cursor to select the Main Menu Items OK
79. gn Final Operation 8 2 Consideration for System Design SG2 differs from the traditional Relay in controlling circuit fundamental SG2 15 periodical loop controlled circuit series controlled circuit while Relay is parallel controlled circuit Consequently whenever the trouble took place it is only single relay invalidation in Relay whereas it will affect the whole system in 502 Therefore it is recommended the external protection device to be installed Emergency Stop Circuit 2 Protection Circuit Operation Circuit for High Voltage Components 8 3 Code Distribution for Relay 1 10 Point Input Code I 1 6 Output Code Q 1 4 2 20 Input Code I2 1 C 12 2 Output Code 1 8 3 Expansion Input 1 12 2 Output Code Y2 1 C 12 Chapter 8 System Design 8 2 Content 9 1 Spare Program Cartridge 05 9 2 Computer Write Software Client Chapter 9 Spare Program 122 Chapter 9 Spare Program 9 1 Spare Program Cartridge 05 9 The installation method for 5 optional 15 as follow Step1 Confirm cutting off the power supply Step 2 Remove the cover of SG2 with the screwdriver as follow bin 1 lc a 4 E L d UP m m 1 Mu 1
80. in the user manual or the undesired situation as falling down accident or error operation would happen to the SG2 Pay close attention to the cable and conductor incidentally fall into the module to prevent fire trouble and wrong action Precaution for Wiring gt gt gt gt gt bb Connect Class 3 grounding in accordance with the Electricity Engineering Regulations NO grounding or improper grounding might lead to troubles such as electric shock and error operation Apply the rated power supply and specified cables Wrong power supply would render fire The wiring shall be carried out by the certified electrician pursuant to the provisions set forth in the Electricity Engineering Regulations Improper wiring would lead to fire trouble and induction electricity Precaution for Operation When the power 1s on never contact the terminal to avert electrical induction It is strongly recommended to add the safety protection such as the emergence stop and external interlock circuit to prevent the SG2 from trouble and mechanical damage Run the 502 after safety confirmation Error operation will result in mechanical damage Please pay attention to the power on procedure Wrong process flow would lead to mechanical damage or other hazards Chapter General Chapter 2 Precaution Chapter System configuration Chapter 4 Installation and wiring Chapter 5 Operation Flow Chapter LADD
81. ing control system for the staircase e The light is on whenever the switch is turned on e Lighting system shall be turned off in a few minutes automatically or manually Shortcoming The user has no way to reset the turn off time 1 3 Apply SG2 in Lighting System Devices Applied OI Lamp Il Noterminal Switch Bl 2 Noterminal Infrared sensor for climbing Wiring Diagram for Lighting System AC LO c Lu o Lo c FHM Illustrated program using 502 in lighting system Ladder 133 Ql 001 1 002 003 FUNCTION l 44 0000 0005 1 101 Boz Bod Bos 001 mode 1 Cur 1 Pre WValuel 5 2 Auto Door Control The auto doors are very popularly installed at the entrance of supermarkets mansions banks and hospitals 2 1 Requirement for Auto Door Control automatically opens whenever a person is approaching e The door remains open for a certain period and closes if no visitor is present 134 i Ju ir 2 22222 223 P HAE ne P it ee t 2205725 _ 22 a E Acton Sensor ese Limit 37 Gwich Switch 2 2 Traditional solution Reference Circuit L 52 Bi 62 HES HES SZ i BI BUE MS 4
82. k Monday Tuesday Wednesday B Friday Sudy Time 800 1700 800 1700 800 1700 800 1700 ENABLE Week Monday Tuesday Wednesday Friday Sudy 800 1700 800 170 800 17 00 800 1700 800 ENABLE Week Monday Tuesday ga is Friday Surcby Time 800 1700 800 1700 800 1700 800 1700 17 00 800 ENABLE Po 1 3 3 Week Monday Tuesday Hi Au Friday Surcby Time 800 1700 800 1700 8 00 1700 800 1700 amp 00 1700 ENABLE mom Week Monday Tuesday T Friday Surcby Time 8 00 1700 800 1700 amp 00 1700 800 1700 800 1700 ENABLE Lb orb 6 USL 8 00 Week Monday Tuesday vie ete Friday Sducdby Surcby Time 8 00 1700 800 1700 amp 00 1700 800 1700 amp 00 1700 ENABLE Rn Output 2 RTC Mode 2 11 Week Monday Tuesday Tm Friday Sducby Surchy Tine 8 00 1700 800 1700 8 00 17 00 800 1700 800 1700 ENABLE l Note When ENABLE is unavailable the output is OFF Week Monday Tuesday 22 Friday Sducby Surcby Time 8 00 1700 800 1700 amp 00 1700 8 00 1700 amp 00 1700 ENABLE Rn Output OFF 6 21 Week Monday Tuesday duce Friday 55 4 6 Surcby Time 800 1700 800 1700 amp 00 1700 800 1700 amp 00 1700 ENABLE Week Monday Tuesday er Friday Surcby Time 8 00 1700 800 1700 amp 00 1700 800 1
83. nt of the timer counter andog input A1 A8 Foe 11 Input temina 1144 11412 Output temina 01 08 Expansion Input Temind X1 XC X1 X 2 Expansion Output Y 1 Y F 1 12 Counter 1 1 15 Timer T1 TF T1 115 RTC Comparator RI RF R1 R15 Andog Corrparator G1 GF G1 G15 Auxiliay Temrind M1 MF 1 151 The upper cese 11 is Contact whilethelower i1 casis Contat These vdueof counter can modified via communication module as MODBUS PROFIBUS DEVICENET 1 Counte 1 1191 191 201 201 201 01201 201 20 2 OFF 8 DFF Note When Run user program current shall be initialized to be 0 or preset If up counter then 0 if down counter then preset value 6 5 Input program Ladder The OBN AOFF af C3 count pulses by 11 ard iz 122222222222 1 03 35 101 dM 2 771 npu progres under Function Mode UpiDomnCounng _ ing Count Value Tee E i E a i 0000 When the Lengel value reaches 00207 e COON under La
84. ode 2 Shi fl type 0 SHIFT code Total 1 group 3 Shift number Chapter 7 Block Description 94 20 5 Shift ouput range 01 05 Enable shift input 02 03 05 When Enable is available Q1 02 04 will be OFF till the first shift input raise edge Q2 ON Q1 and 03 05 OFF The next output coil will be on when meeting the each raise edge and others are OFF 7 2 Edit Block Logic Elock Code r il NOPY N O _ 4 with Function Bleck Chapter 7 FBD Block Description 95 1 AND Logic Diagram FBD LADDER 101 102 103 0 JE r 4F 101 And 102 And 103 Note The input terminal is NOP which 15 equivalent to 2 AND EDGE Logic Diagram FBD LADDER 101 102 103 1014 AND 1024 J 103 101 102 103 Note The input terminal is which 15 equivalent to 3 NAND Logic Diagram FBD LADDER 101 HE 102 1034 4 Not IO1 And 102 And 103 Note The input terminal is NOP which 15 equivalent to Chapter 7 FBD Block Description 96 4 NAND EDGE Logic Diagram FBD LADDER 101 r 101 And 102 And 103 And Note The input
85. or IK ohm impedance 12 DC Type 12 I O SG2 12HR 12D omm Discrete High Speed Input Analog input as Analog input discrete input Input I3 16 2 circuit Quantity 32mA 12V DC 32mA 12V DC 0 32mA 12V 0 17 mA 10V gt 1 875mA 7 5V gt 1 875mA 7 5V gt 0 161mA 9 8V OFF State lt 0 625mA 2 5V lt 0 625mA 2 5V lt 0 085 5 Maximal lt 100m lt 100m lt 100m lt 30 Cable m shielded Length oso e ee em Lr 0 01 V DC Conversion Versus true LP 12V value Chapter 12 Technical Specification 136 Conversion time Sensor IK ohm impedance 12 DC Type 20 SG2 20HR 12D BEL Discrete High Speed Input Analog input as Analog input mE discrete input 9 Quantity 32mA 12V DC 32mA 12V DC 0 63mA 12V 0 17 mA 10V gt 1 875mA 7 5V gt 1 875mA 7 5V gt 0 163mA 9 8V 1 OFF State lt 0 625mA 2 55V lt 0 625mA 2 55V lt 0 083 5 Maximal lt 100 lt 100 lt 100 eJ Cable 30m shielded Length oso 1 Display 01V DC Resolution Conversion Conversion Versus true value Conversion time Chapter 12 Technical Specification 137 Sensor lt 1K ohm impedance 12 5 Output Specification Transistor output Output circuit External power
86. r 00 59 Save teint ESC the Input when pres SEL 2 Backto Man Menu 6 ANALOG SETTING 1 6 010 gt 0 999 OFFSET 00 gt OFFSET 50 450 AZ GAIN 100 2 OFFSET 00 1 Move downward the Cursor 2 Switch the setting screen fromA 1 A2 to A4 Begin to input parameters Movethe Cursor 1 GAIN 2000 999 2 OFFSET 50 450 Sevethe Input Data 1 the Input Data when pres SEL 2 Back to Man Menu 7 SETTING PASSWORD PASSWORD PASSWORD 0000 Now Press SEL 1 Begin to input numeral 2 When the password is it will not display 0000 but Pres SEL Movethe cursor Press SEL 0 9 TY OK Save the input data not 0000 as the PASSWORD is ON 1 the Input when pres SEL 2 Backto Man Menu ap 8 LANGUAGE Sdection gt ENGLISH iEngish 5 French ESPANOL Spanish ITALIANO gt DEUTSCH 2 PORTVGVES i Portuguese SIMPLIFIED CHINESE Simplified Chinese Now Press Press Pres Veticaly rrove the Cursor Sdect the language the cursor located Back to Man Menu Sample gt ENGLISH v FRANCAIS ESPANOL ITALIANO V key ENGLISH FRANCAIS ESPANOL ITALIANO ENGLISH gt FRANCAIS v 6 74 ESPANOL ITALIANO 8 INITIAL INITIAL BLAD
87. se it will display 1 3 Sdect Coil Status 1 M X When the Unit is enabled it will show 2 otherwise it will display 2 ON OFF 4 Andog Comparator Display 56 To set Gain 1 999 and Offset 50 50 value 5 First Line can set Phone Number Thefolowing covers to modify the preset vdue of C1 in HMI under run moda 6 38 To modify the preset vdue 000010 of the counter mode 7 as presert vdue of T2 HMI Stepl In HMI screen to press SEL thecursor blinks in the following location 00 0 05 00 0 5 0 000 10 000000 Pres DOWN andtheaursor skips to C1 presi vdue position Step3 Press SEL for thr tims the pres vdue changes from 000000 1 T1 in tum 6 39 Ste Press UP Ste Pres 5 T 12 0 0 0 0 5 T 1 00 0 5 5 6 3 6 PWM Output Function only provided for transistor output The transistor output type has a PWM output temina QT which can output 8 stage PWM waveform 6 40 20 S amp dsplay stages 1 8 Display the present stage as operati on 0 8 Input Selected Stage 1 I1 9F Input Selected Stage 2 11 9 Input Selected Stage XI1 9F PWM output tarvind Note 1 6 input tamind 11 4 11 412 Output tamind Q1 Expansion input terminal 1 X1 X 12 Expansion output termind
88. structions Timer Counter Time comparison Analog comparison Upper and lower differentiation PWM Function I O LINK Function Function Function 4 Internationally certified by CE mark cUL UL 1 2 Chader 2 Operation Precaution 2 1Installation Environment Thefollowing environments are not favored to install SG2 Theareais unde direct sunshine or the avbient terrperature is beyond 20 55 C Therdative humdity exceeds 5 90 the terrperature is subject to rapid change suscepti ble to condensation Theareacortains inflarreble or erosive gases 2 2 Installation fasten the cable with lock screws to ensure no poor contact Installation drawing 2 3 Wiring Thel O sgnd cables shal not be routed parallel to the power high current cable or In the same high current cable trays to avoid the signal interference 2 4 Static Electricity Intheextremay arid area thehurmens body is susceptible to generate of static Never touch the 502 with hands to avet static darrege to the 562 2 5 Cleanness Use the clean and dry cloth to wipe the surface of the 562 It is prohibited to clean the 502 2 with water or volatile solvent to prevent structure deformation and discoloration 2 6 Storage of SG2 RTC applies super capacity which is susceptible to high terrperature and humidity The SG
89. t breaker or circuit protector Inductive load Note When Relay output connects with AC inductance load please parallel connect with a surge absorber while connects with DC inductance load parallel connect with a rectifying diode with the negative withstand voltage over 5 10 times of the load voltage and positive current over the current of the product Please select DC power supply for Transistor output model and parallel connect with a rectifying diode for inductance load Following is what the LED working in different state means 5 11 12 15 6 A1 2 Input X1 X2 X3 X 4X AC 6 65 1127 129 DC 24 Input 8x DC A1 A2 0 10V L 100 240V ha AAS sel XV Run SG2 12HR D SG2 8ER A Output 4 x Relay 8A Product switched on module in run mode Fast flashing 3Hz module in Fault mode Date transfer error Connecting with front error Output 4x 8 Y1 Y2 A 2025 Ld Tg UC 4 21 Chapter 5 Operation Flow 5 1 After Power Supply Connection 1 ROM RAM transmission Power the embedded EPPROM program and setting parameters will be transmitted to RAM 2 Data memory initialization Power on all the data in memory will be reset initialized Under RUN mode when M KEEP parameter is set to ON the p
90. tal cursor located will change from to Procedure 4 1 23 45 6 7 8 Colum Pres SEL Linelq 1 2 start end modifying parameter 3 Press SEL lt the cursor located in digital for times Press SEL the digital the cursor located will change from 1 to 4 Press SEL to move the cursor to the position Required revision Procedure 7 Press OK Move the cursor to character in colunn 3 move the cursor to the link location in colum 2 Procedure 8 Pres inColum5 rrove the cursor to the character in colum 8 il 1213 1415 161718 4 4 1 4 3 il 1213 1415 161749 4 1 3 4 01 Colum Colum when the cursor located at character 4 5 6 7 8 Colum Linellg 4 1 I 3 position of the cursor will not move Procedure 11 4 5 16 7 8 i Coum Press twice Linelig 4 4 1 1 3 01 move the cursor to colum 1 end Line 2 Procedure 12 il 1213 1415 161718 Colum Press twice Linelig 4 1 3 01 move the cursor to colum 2 3 Note neve pres SEL be hand Procedure 13 92 Press SEL Linellg 47M 1 I A verticd line 1 4213 1415 16 7 8 i Colum 4 M1 1 3 01 Move cursor to character in colum 3 thestep 1 7 r3 amp Line2and
91. text when the neste 15 6 36 is under Stop Mode under Mode TH 10 0056 11 11 11 CIl zHaH HCE 81018 nter rrode 8 LCD 1 Under 5 mode the current Vaueoftetwill MAAA the display when Run while OFF when STOP 102 10 008e TV2z09 1858 ih 1l L TU 210 005ee TU 8 8 81118 2 Under rode the current he current value of timer is of text will be marked as 10 1 11 Under Stop mode the currett vdue The state of 101 is OFF and the state of of text will be neked as 15 OFF Under LADDER Mode Example 6 37 12 88 Time M 1 8 HIS BAINS Cae E mbH rs x BEN p Cancel Test 5 65468 et 117846 71 P TdABCDEFGHI IELMNOPORSTU VAXVZ abedetahlilkimnuop 4444 111 L EAAENTOO 001 0009 4 HEISE 1 When the Display is enabled the user can press the SEL button for 3 seconds to show the HMI Text Messages 2 This HMI option is for Timer Courter Ana og Coil Status display only When the option is enabled it will show A1l 4V otherwi
92. tion Chapter 12 Technical Specification 128 12 2 System m Power Power Supply Out Anal DC DC DC Input put og LCD Expa MODE RTC 100 24 24V 12V 24V Point Poin Inpu Key nsion t t Expansion Variant Proms Js ew 12HT D 9 4 Transisto 2 9 0 I2HR 12 8 4 Relay 2 mt 1 9 91 Expansion Variant without control panel e o s lolo 12 9 9 4 Transisto 2 I A PSE Itt I2KR 12 8 4 Relay 2 9 9 Standard Variant without up cover RCE a r 216 lel 1218 Rw 20 125 Transisto ph p P EEr eere 20HR 12 Relay 10115151 _ Expansion Variant without control panel ra e lef E a Chapter 12 Technical Specification 129 PWM Outpu 10 Point Variant gt E N 20KR 12 9 Standard Variant without up cover LII e pre
93. value of function block and state of the coils will be cleared However the present data will not be cleared as C Keep is selected and counter mode 15 set to 3 4 6 Chapter5 Operation Flow 28 6 1 Basic instruction introduction 6 1 1 Instructions with logical operand 6 1 2 Instructions without logical operand 6 1 3 Conntect signal 6 2 Instruction function 6 3 Function block 6 3 1 Generd counter Counter rrode 1 Counter rrode 2 Counter mode3 Counter mode4 Counter mode5 Counter modeo Counter mode7 Counter 6 3 2 Timer Timermodel Timer mode2 Timer mode3 Timermode4 Timermode5 Time node 6 Timermode7 633 red time dock Model Mode2 Mode3 6 3 4 And og corrparator 6 35 HMI 6 3 6 PWM output 6 3 7 1 output I OLINK model I OLINK mode2 6 4 Operation method 6 4 lnitid screen 6 4 2 Main menu screm Manmenu Ladder Function Block instruction input Chapter LADDER Instruction Description 6 1 Basc Instruction 6 1 1 Instructions with logical operand d MHAC HMQ 11 1 11 4 mes 9 1 9 s ai M M M M M m input 14 1 2 15 r1 rF C M MEME 18 1 4 1 me T 7T 7 t 15 G1 GF 01 k 1
94. y is showed below Function Timer Counter Analog Chapter 7 Block Description 105 21 Comparator Comparator ToalMemry 99 15 15 5 15 LogcBlck 1 TimerModel 6 1 1 TmerMode7 1 2 ComerMode1 8 1 1 o o o 1 3 1 5 Sample for calculate the memory in using When the FBD program contains 2 AND OR Logic Block 2 Timers Mode 1 1 Counter Mode 7 comparator Mode 1 Function Block the total Diagram Blocks used 2 1 2 1 12 7 and the remained is 99 72 92 The timer used 18 2 2 4 and the remained 15 15 4 11 The counter used 15 1 and the remained 15 15 12 14 The RTC comparator used is 1 the remained is 15 12 14 The analog comparator is unused so the usable are 15 7 5 FBD Edit Method 7 5 the origin screen when the power 15 RIC WE Wednesday B PM 09 24 00924 2221 OFF Display Mode RUN Mode STOP Mode Now Press ESC Back to Main Menu Display the state of the other relays Expansion lt gt lt gt Chapter 7 FBD Block Description 106 Original Screen Press for 3s H function content will be displayed except the Mode 2 15 selected in HMI SEL Sample a operation for displaying the state of other relay gt gt gt gt tA key k
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