Revision: 2.40 SLS500-Configurator R0412 Programmumgebung, Programming Environment HIQUEL GmbH Bairisch Kölldorf 266, A-8344 Bad Gleichenberg, Austria.

Präsentation zum Thema: "Revision: 2.40 SLS500-Configurator R0412 Programmumgebung, Programming Environment HIQUEL GmbH Bairisch Kölldorf 266, A-8344 Bad Gleichenberg, Austria."—  Präsentation transkript:

1 Revision: 2.40 SLS500-Configurator R0412 Programmumgebung, Programming Environment HIQUEL GmbH Bairisch Kölldorf 266, A-8344 Bad Gleichenberg, Austria Tel: +43-3159-3001-0, Fax: +43-3159-3001-4 Email: hiquel@hiquel.com www.hiquel.com IMPORTANT NOTE: IMPORTANT NOTE: To install the programming system start the PowerPoint presentation and click onto this field! If there is no reaction, check the security level of PowerPoint for macro execution. Please ensure that the decimal symbol and digital grouping symbol in your Windows „Regional and language settings“ conform to the default. Choose the „control panel“,“regional and language options“,“customize regional options“. The correct decimal symbol has to be a comma and the digital grouping symbol has to be a full stop e.g. 123.456.789,00 To install the programming system start the PowerPoint presentation and click onto this field! If there is no reaction, check the security level of PowerPoint for macro execution. Please ensure that the decimal symbol and digital grouping symbol in your Windows „Regional and language settings“ conform to the default. Choose the „control panel“,“regional and language options“,“customize regional options“. The correct decimal symbol has to be a comma and the digital grouping symbol has to be a full stop e.g. 123.456.789,00 !!! CLICK HERE !!! CLICK HERE !!! WICHTIGER HINWEIS: WICHTIGER HINWEIS: Um das Programmiersystem zu installieren, starten Sie diese Präsentation und klicken Sie auf dieses Feld! Wenn sich nach einigen Sekunden keine Reaktion einstellt, überprüfen Sie den Sicherheitslevel von PowerPoint für die Makroausführung! Bitte stellen Sie sicher, daß das Tausenderzeichen ein Punkt und als Dezimaltrennzeichen ein Komma eingestellt ist. Überprüfen Sie das unter „Systemsteuerung“ „Ländereinstellungen“ „Zahlen“. Ein Beispiel: 123.456.789,00 Um das Programmiersystem zu installieren, starten Sie diese Präsentation und klicken Sie auf dieses Feld! Wenn sich nach einigen Sekunden keine Reaktion einstellt, überprüfen Sie den Sicherheitslevel von PowerPoint für die Makroausführung! Bitte stellen Sie sicher, daß das Tausenderzeichen ein Punkt und als Dezimaltrennzeichen ein Komma eingestellt ist. Überprüfen Sie das unter „Systemsteuerung“ „Ländereinstellungen“ „Zahlen“. Ein Beispiel: 123.456.789,00 !!! HIER KLICKEN !!! HIER KLICKEN !!! IMPORTANT NOTE: IMPORTANT NOTE: To install the programming system start the PowerPoint presentation and click onto this field! If there is no reaction, check the security level of PowerPoint for macro execution. Please ensure that the decimal symbol and digital grouping symbol in your Windows „Regional and language settings“ conform to the default. Choose the „control panel“,“regional and language options“,“customize regional options“. The correct decimal symbol has to be a comma and the digital grouping symbol has to be a full stop e.g. 123.456.789,00 To install the programming system start the PowerPoint presentation and click onto this field! If there is no reaction, check the security level of PowerPoint for macro execution. Please ensure that the decimal symbol and digital grouping symbol in your Windows „Regional and language settings“ conform to the default. Choose the „control panel“,“regional and language options“,“customize regional options“. The correct decimal symbol has to be a comma and the digital grouping symbol has to be a full stop e.g. 123.456.789,00 !!! CLICK HERE !!! CLICK HERE !!! WICHTIGER HINWEIS: WICHTIGER HINWEIS: Um das Programmiersystem zu installieren, starten Sie diese Präsentation und klicken Sie auf dieses Feld! Wenn sich nach einigen Sekunden keine Reaktion einstellt, überprüfen Sie den Sicherheitslevel von PowerPoint für die Makroausführung! Bitte stellen Sie sicher, daß das Tausenderzeichen ein Punkt und als Dezimaltrennzeichen ein Komma eingestellt ist. Überprüfen Sie das unter „Systemsteuerung“ „Ländereinstellungen“ „Zahlen“. Ein Beispiel: 123.456.789,00 Um das Programmiersystem zu installieren, starten Sie diese Präsentation und klicken Sie auf dieses Feld! Wenn sich nach einigen Sekunden keine Reaktion einstellt, überprüfen Sie den Sicherheitslevel von PowerPoint für die Makroausführung! Bitte stellen Sie sicher, daß das Tausenderzeichen ein Punkt und als Dezimaltrennzeichen ein Komma eingestellt ist. Überprüfen Sie das unter „Systemsteuerung“ „Ländereinstellungen“ „Zahlen“. Ein Beispiel: 123.456.789,00 !!! HIER KLICKEN !!! HIER KLICKEN !!! Path for INET Explorer C:\Programme\Internet Explorer\IEXPLORE.EXE

2 Revision: 2.40 Page 2 Title: Configuration Defining your configuration DI1: DI2: DI3: DI4: DI5: DI6: DI7: DI8: DO1: DO2: DO3: DO4: DO5: DO6: AI1: AI2: AI3: AI4: POTI1: POTI2: SLS500-R

3 Revision: 2.40 Page 3 Title: Programming 1 1 page initialisation 1. overwrite this number with the page number of the example that you want to test, then select ‘Run > Simulate’ from the toolbar. Welcome to our collection of examples for the SLS- 500 Master Controller Each example comprise one page. Type in the number of the page you want to test These examples should give you an introduction to the use of the different features of the program Good Luck Your HIQUEL Team Choose a specific programmed module to test it separately

4 Revision: 2.40 Page 4 Title: Programming Example 1: saving analogue signals to the real time clock analog value =1 page This example demonstrates how to transfer three analogue values to three different memories of the integrated real time clock. By using the memory addresses 100000 to 100002 you can save up to three analogue values. 100000 1234 100000 Test 1234 = = 100001 5678 100002 10000 100001 100002 Test 5678 = = Test 10000 = = Read  Index MEMORY CARD Test Read  Index MEMORY CARD Test Read  Index MEMORY CARD Test L1.DO1 L1.DO2 L1.DO3 L1.DI1 L1.DI2 L1.DI3 L1.DI4 L1.DI5 L1.DI6 Write  Index MEMORY CARD Value WRITE VALUE WRITE VALUE Write  Index MEMORY CARD Value WRITE VALUE WRITE VALUE Write  Index MEMORY CARD Value WRITE VALUE WRITE VALUE

5 Revision: 2.40 Page 5 Title: Programming Example 2: saving analogue signals to the memory card analog value =2 page 0 0 1234 0 0 Test 1234 = = 1 1 5678 2 2 10000 1 1 2 2 This example demonstrates how to transfer three analogue values to the memory card. The capacity of the memory card is 4096 analogue values. Indices from 0 to 4095 are available. CAUTION: A write instruction needs up to 10ms to be processed. During this time the whole system pauses. Reading data from the card works without delay! Test 5678 = = Test 10000 = = Read  Index MEMORY CARD Test Read  Index MEMORY CARD Test Read  Index MEMORY CARD Test L1.DO1 L1.DO2 L1.DO3 L1.DI1 L1.DI2 L1.DI3 L1.DI4 L1.DI5 L1.DI6 Index MEMORY CARD READ VALUE READ VALUE Out 2 2 My Memory Write  Index MEMORY CARD Value WRITE VALUE WRITE VALUE Write  Index MEMORY CARD Value WRITE VALUE WRITE VALUE Write  Index MEMORY CARD Value WRITE VALUE WRITE VALUE

6 Revision: 2.40 Page 6 Title: Programming Example 3: saving text messages to the memory card analog value =3 page 0 0 0 0 1 1 2 2 This example explains how to save text messages to the memory card. The memory's card capacity is 512 times a 20 character text message. Indices from 0 to 511 are available. CAUTION: A write instruction needs up to 10ms to be processed. During this time the system pauses. The reading works without delay! Hello 1 1 World 2 2 HIQUEL Test Hello = = Test World = = Test HIQUEL = = L1.DO1 L1.DO2 L1.DO3 Read  Index MEMORY CARD Test Read  Index MEMORY CARD Test Read  Index MEMORY CARD Test L1.DI1 L1.DI2 L1.DI3 L1.DI4 L1.DI5 L1.DI6 Index MEMORY CARD READ TEXT READ TEXT Out 2 2 My Memory Write  Index MEMORY CARD Text WRITE TEXT WRITE TEXT Write  Index MEMORY CARD Text WRITE TEXT WRITE TEXT Write  Index MEMORY CARD Text WRITE TEXT WRITE TEXT

7 Revision: 2.40 Page 7 ANALOG:Save==10 Title: Programming Example 4: saving analogue signals directly to the memory card analog value =4 page 0 0 L1.DI1 1801 0 0 Save In  Value Save 10 L1.DI2 In  Value Save 20 ANALOG:Save==20 1 1 2508 0 0 Save L1.DI3 In  Value Save 30 ANALOG:Save==30 2 2 704 0 0 Save This example demonstrates how to transfer three analogue values to the memory card. The capacity of the memory card is 4096 analogue values. Indices from 0 to 4095 are available. CAUTION: A write instruction needs up to 10ms to be processed. During this time the whole system pauses. Reading data from the card works without delay! Index MEMORY CARD Value WRITE VALUE WRITE VALUE Index MEMORY CARD Value WRITE VALUE WRITE VALUE Index MEMORY CARD Value WRITE VALUE WRITE VALUE

8 Revision: 2.40 Page 8 ANALOG:Save==10 Title: Programming Example 5: saving text messages directly to the memory card analog value =5 page 0 0 L1.DI1 0 0 Save In  Value Save 10 L1.DI2 In  Value Save 20 ANALOG:Save==20 1 1 0 0 Save L1.DI3 In  Value Save 30 ANALOG:Save==30 2 2 0 0 Save HIGH QUALITY ELECTRONICS This example explains how to save text messages to the memory card. The memory's card capacity is 512 times a 20 character text message. Indices from 0 to 511 are available. CAUTION: A write instruction needs up to 10ms to be processed. During this time the system pauses. The reading works without delay! Index MEMORY CARD Text WRITE TEXT WRITE TEXT Index MEMORY CARD Text WRITE TEXT WRITE TEXT Index MEMORY CARD Text WRITE TEXT WRITE TEXT

9 Revision: 2.40 Page 9 Index MEMORY CARD READ VALUE READ VALUE Out xy 4 4 !!!WARNING!!! DON‘T CHANGE THIS PAGE !!!WARNUNG!!! DIESE SEITE NICHT ÄNDERN

10 Revision: 2.40 Page 10 Title: Programming !!!WARNING!!! DON‘T CHANGE THIS PAGE !!!WARNUNG!!! DIESE SEITE NICHT ÄNDERN

11 Revision: 2.40 Page 11 03.05.06:Adding revision history to the powerpoint file Revision History 03.05.06:In symbols and monitor functions, now you can use the old fashioned names like DIGITAL#L1_DI1 or the new names like L1.DI1 03.05.06: In PLCManager you can now download and use all PLCManager functions via a pure TCP RS232 converter like the MOXA DL-331 or the ADAM-4579. Use the setting TCP/IP instead of COM1 to COM32, type in a IP and socket number. 05.05.06: The Simulator now calculates 2*2 to4 instead of 3.999 05.05.06: The Powerpoint and the compiler now support states and execution conditions >=, 05.05.06: Now you can use natural input and output names like L1.AI1 or R3.DO1 in states and execution conditions 29.05.06: Adding selector dialogs for selecting a previous defined constant in the constants dialog 29.05.06: In select execution condition dialog and in select special flag dialog: Switching off all unused conditions depending on the configured hardware, also removing 1ms flag 29.05.06: In all dialogs: Extension for selecting previous define bits, analog and text variables through a listbox 29.05.06: Now you can set values direct from powerpoint memories or monitors 29.11.06: Errors with updating the IO names with RESI-8KI16LO und SLS500-T1 and RESI-FBR and SLS-500 FBR modules 09.02.07: The encoder inputs can be used on any MEDIC or SLS500 main controller 27.03.07: Error while compiling MEMORYCARD:WRITE VALUE functions 10.08.07: Adding BUS_ADDRESS feature to CAN Controller and PPoint Software 03.10.07: Adopting Microsoft Office Version 2007 14.10.07: Changing to natural Names in states and execution conditions, fixing display of SLS-T1 keymodule 15.12.07: In Debug windows of PLC manager: The PLC manager always used busaddress 0xff instead of configured busaddress 17.12.07: PLC manager: Extending timeouts for downloading via SMS modules like TC35