AS-i Master.book
Contents
1. Analog Input Channel No D1700 Bytes O and 1 Channel 1 D1701 Bytes 2 and 3 Channel 2 D1702 Bytes 4 and 5 Channel 3 D1703 Bytes 6 and 7 Channel 4 D1704 Bytes 8 and 9 Channel 1 D1705 Bytes 10 and 11 Channel 2 D1706 Bytes 12 and 13 Channel 3 D1707 Bytes 14 and 15 Channel 4 D1708 Bytes 16 and 17 Channel 1 D1709 Bytes 18 and 19 Channel 2 D1710 Bytes 20 and 21 Channel 3 D1711 Bytes 22 and 23 Channel 4 D1712 Bytes 24 and 25 Channel 1 D1713 Bytes 26 and 27 Channel 2 D1714 Bytes 28 and 29 Channel 3 D1715 Bytes 30 and 31 Channel 4 D1716 Bytes 32 and 33 Channel 1 D1717 Bytes 34 and 35 Channel 2 D1718 Bytes 36 and 37 Channel 3 D1719 Bytes 38 and 39 Channel 4 D1720 Bytes 40 and 41 Channel 1 D1721 Bytes 42 and 43 Channel 2 D1722 Bytes 44 and 45 Channel 3 D1723 Bytes 46 and 47 Channel 4 D1724 Bytes 48 and 49 Channel 1 D1725 Bytes 50 and 51 Channel 2 D1726 Bytes 52 and 53 Channel 3 D1727 Bytes 54 and 55 Channel 4 D1728 Bytes 56 and 57 D1729 Bytes 58 and 59 D1730 Bytes 60 and 61 D1731 Bytes 62 and 63 6 4 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL Data Format 1st data AIO 2nd data 11 3rd data 12 4th data AI3 5th data AIA 6th data 15 Tth data 16 reserved Analog Output Data 6 AS INTERFACE OPERANDS Data Format2. Unlatch Button N Caution Remove the MicroSmart modules from the DIN rail before disassembling the modules Attempt to disassemble modules on a DIN rail may cause damage to the modules Turn off the power to the MicroSmart before disassembling the modules Failure to turn power off may cause electrical shocks 1 If the modules are mounted on a DIN rail first remove the modules from the DIN rail as described on page 3 3 2 Push up the blue unlatch button to disengage the latches and pull the modules apart as shown Note When disassembling other 1 0 modules from the AS Inter face master module take the same procedure 3 2 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL Unlatch Button Mounting on DIN Rail 3 INSTALLATION AND WIRING Caution stall the MicroSmart modules according to instructions described in this user s manual Improper installation will result in falling failure or malfunction of the MicroSmart Mount the MicroSmart modules on a 35 mm wide DIN rail or a panel surface Applicable DIN rail IDEC s BAA1000NP or BAP1000NP 1000mm 39 4 long 1 Fasten the DIN rail to a panel using screws firmly 2 Pull out the clamp from each MicroSmart module and put the groove of the module on the DIN rail Press the modules towards the DIN rail and push in the clamps as shown on the right 3 Use BNL6P mounting c
3. Data Format Input Data Image IDI 7 6 5 4 3 2 1 0 DI3 DI2 DI1 DIO DI3 DI2 DI1 DIO M1300 Byte Slave 1 A Slave 0 M1310 Byte 1 Slave 3 A Slave 2 A M1320 Byte 2 Slave 5 A Slave A A M1330 Byte 3 Slave 7 A Slave 6 A M1340 Byte 4 Slave 9 A Slave 8 A M1350 Byte 5 Slave 11 A Slave 10 A M1360 Byte 6 Slave 13 A Slave 12 A M1370 Byte 7 Slave 15 A Slave 14 A M1380 Byte 8 Slave 17 A Slave 16 A M1390 Byte 9 Slave 19 A Slave 18 A M1400 Byte 10 Slave 21 A Slave 20 A M1410 Byte 11 Slave 23 A Slave 22 A M1420 Byte 12 Slave 25 A Slave 24 A M1430 Byte 13 Slave 27 A Slave 26 A M1440 Byte 14 Slave 29 A Slave 28 A M1450 Byte 15 Slave 31 A Slave 30 A M1460 Byte 16 Slave 1B M1470 Byte 17 Slave 3B Slave 2B M1480 Byte 18 Slave 5B Slave 4B M1490 Byte 19 Slave 7B Slave 6B M1500 Byte 20 Slave 9B Slave 8B M1510 Byte 21 Slave 11B Slave 10B M1520 Byte 22 Slave 13B Slave 12B M1530 Byte 23 Slave 15B Slave 14B M1540 Byte 24 Slave 17B Slave 16B M1550 Byte 25 Slave 19B Slave 18B M1560 Byte 26 Slave 21B Slave 20B M1570 Byte 27 Slave 23B Slave 22B M1580 Byte 28 Slave 25B Slave 24B M1590 Byte 29 Slave 27B Slave 26B M1600 Byte 30 Slave 29B Slave 28B M1610 Byte 31 Slave 31B Slave 30B 6 2 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL Digital Output Data Image Data Format 6 AS INTERFACE OPERANDS
4. A Caution Output Data Image ODI 7 6 5 4 3 2 1 0 DO3 DO2 DO1 DOO 003 002 001 000 M1620 Byte Slave 1 A Slave M1630 Byte 1 Slave 3 A Slave 2 A M1640 Byte 2 Slave 5 A Slave 4 A M1650 Byte 3 Slave 7 A Slave 6 A M1660 Byte 4 Slave 9 A Slave 8 A M1670 Byte 5 Slave 11 A Slave 10 A M1680 Byte 6 Slave 13 A Slave 12 A M1690 Byte 7 Slave 15 A Slave 14 A M1700 Byte 8 Slave 17 A Slave 16 A M1710 Byte 9 Slave 19 A Slave 18 A M1720 Byte 10 Slave 21 A Slave 20 A M1730 Byte 11 Slave 23 A Slave 22 A M1740 Byte 12 Slave 25 A Slave 24 A M1750 Byte 13 Slave 27 A Slave 26 A M1760 Byte 14 Slave 29 A Slave 28 A M1770 Byte 15 Slave 31 A Slave 30 A M1780 Byte 16 Slave 1B M1790 Byte 17 Slave 3B Slave 2B M1800 Byte 18 Slave 5B Slave 4B M1810 Byte 19 Slave 7B Slave 6B M1820 Byte 20 Slave 9B Slave 8B M1830 Byte 21 Slave 11B Slave 10B M1840 Byte 22 Slave 13B Slave 12B M1850 Byte 23 Slave 15B Slave 14B M1860 Byte 24 Slave 17B Slave 16B M1870 Byte 25 Slave 19B Slave 18B M1880 Byte 26 Slave 21B Slave 20B M1890 Byte 27 Slave 23B Slave 22B M1900 Byte 28 Slave 25B Slave 24B M1910 Byte 29 Slave 27B Slave 26B M1920 Byte 30 Slave 29B Slave 28B M1930 Byte 31 Slave 31B Slave 30B Immediately after power up the digital I O data of standard slaves and expansion slaves cannot be accessed Data communication between the CPU module and the connected slaves starts when special in
5. se S s e j G 4 AS Interface Cable Connector 5 Unlatch Button 3 AS Interface Cable Terminal Block supplied with the AS Interface master module 1 LED Indicators Status LEDs Indicate the AS Interface bus status I O LEDs Indicate the I O status of the slave specified by the address LEDs Address LEDs Indicate slave addresses 2 Pushbuttons Used to select slave addresses change modes and store configuration 3 AS Interface Cable Terminal Block Connects the AS Interface cable One terminal block is supplied with the AS Interface master module When ordering separately specify Type No FC4A PMT3P and quantity package quantity 2 4 AS Interface Cable Connector Installs the AS Interface cable terminal block 5 Unlatch Button Used to unlatch the AS Interface master module from the CPU or I O module 6 Expansion Connector Connects to the CPU and other I O modules Applicable CPU modules are 20 I O relay output and 40 I O slim types 7 Module Label Indicates the AS Interface master module Type No and specifications 22 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL Specifications General Specifications Operating Temperature 2 MODULE SPECIFICATIONS O to 55 C operating ambient temperature no freezing Storage Temperature 25 to 70 no freezing Relative Humidity Level RH1 30 to 95 non condensing Pollu
6. Note When using single wires the maximum cable length is 200 mm See Maximum Cable Length on page 2 3 Dimensions The AS Interface master module has the same profile as all other MicroSmart modules for consistent mounting on a DIN rail 23 5 90 0 oqo000 10 4 43 LIII J 37 5 e 17 7 4 5 8 5 mm when the clamp is pulled out All dimensions in mm 24 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 3 INSTALLATION AND WIRING Introduction This chapter describes the methods and precautions for installing and wiring the AS Interface master module Before starting installation and wiring be sure to read Safety Precautions in the beginning of this manual and under stand precautions described under Warning and Caution Turn off the power to the AS Interface master module before starting installation removal wir ing maintenance and inspection of the AS Interface master module Failure to turn power off may cause electrical shocks or fire hazard Emergency stop and interlocking circuits must be configured outside the MicroSmart If such a circuit is configured inside the MicroSmart failure of the MicroSmart may cause disorder of the control system damage or accidents Special expertise is required to install wire program and operate the MicroSmart People with out such e
7. T CPU Module Power Supply 24N DC 2 AS Interface Power Switch Note Slave 2 AS Interface Power Supply 30V DC VLSV very low safety voltage Slave 1 Note A failed slave can be replaced with a new slave with address O without turning off the power to the CPU module and the AS Interface line But if power has been turned off before replacing the slaves install a new slave with address O and take one of the following steps because the AS Interface master module has to be initialized to enable communication Disconnect the AS Interface cable connector and turn on both power supplies Five seconds later connect the AS Interface cable connector Turn on the CPU module power supply first Five seconds later turn on the AS Interface power supply 3 6 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 4 OPERATION BASICS Introduction This chapter describes general information about simple operating procedures for the basic AS Interface system from pro gramming WindLDR on a computer to monitoring the slave operation AS Interface System Setup The sample AS Interface system consists of the following devices Name Type No Description MicroSmart Slim Type CPU Module FCAA D20RK1 System program version 201 or later MicroSmart AS Interface Master Module FCAA AS62M WindLDR FC9Y LP2CDW Version 4 21 or higher 1 unit AS Interface Standard Slave Address O ID O 1 0 7 102 ID1 7 AS Interfa
8. Prevent metal fragments and pieces of wire from dropping inside the MicroSmart AS Interface master module housing Put a cover on the MicroSmart AS Interface master module during installation and wiring Ingress of such fragments and chips may cause fire hazard damage or malfunction Use a power supply of the rated value Use of a wrong power supply may cause fire hazard Use an IEC 60127 approved fuse on the power line outside the MicroSmart This is required when equipment containing the MicroSmart is destined for Europe Use an IEC 60127 approved fuse on the output circuit This is required when equipment containing the MicroSmart is des tined for Europe Use an EU approved circuit breaker This is required when equipment containing the MicroSmart is destined for Europe Make sure of safety before starting and stopping the MicroSmart or when operating the MicroSmart to force outputs on or off Incorrect operation on the MicroSmart may cause machine damage or accidents Do not connect the ground wire directly to the MicroSmart Connect a protective ground to the cabinet containing the MicroSmart using an M4 or larger screw This is required when equipment containing the MicroSmart is destined for Europe Do not disassemble repair or modify the MicroSmart modules When disposing of the MicroSmart modules do so as an industrial waste ider MICROSMART AS NTERFACE MASTER MODULE USER S MANUAL PREFACE 1 About Thi
9. Off ott fe Off 03 0000 0001 11 0000 0000 19 0000 0000 27 0000 0000 04 0000 0000 12 0000 0000 20 0000 0000 28 0000 0000 05 0000 0000 13 0000 0000 21 0000 0000 29 0000 0000 06 0000 0000 14 0000 0000 22 0000 0000 30 0000 0000 Parameters Parameter P1 P2 P3 07 0000 0000 15 0000 0000 23 0000 0000 31 0000 0000 Image C On On C On PI e Off fe Off fe Off Es Store Close Dialog Box Button Description Switch Slaves Switches between Slave A screen and Slave B screen Monitor AS Interface Slaves Close Closes the window Help Displays explanations for functions on the screen Store Stores output statuses and parameters to the slave Slave Status Close Closes the window Change Slave Output Statuses and Parameters The output statuses and parameter image PI of the slaves connected to the AS Interface master module can be changed To open the Slave Status dialog box click the output of a required slave address in the Monitor AS Interface Slaves dialog box Then click the On or Off button to change the statuses of outputs OO through O3 and parameters PO through P3 as required Click Store to save the changes to the slave module If the command is not processed correctly the error message AS Interface Master Error and an error code will appear See page 7 5 The output statuses and parameters cannot be changed
10. 1 in 0 X3 1 1 Selector Key selector 3 position 1 in O 0 X3 1 1 Illuminated selector 2 position 1 in 1 out X2 1 1 X1 1 in 0 X3 1 1 Illuminated selector 3 position 1 in 1 out O 0 X3 1 1 X1 Notes 1 The AS Interface master uses bit for addressing slaves 2 In the above table bits marked with X1 X2 and are used for SwitchNet 1 0 data 3 X1 When pushbutton is pressed input data is 1 on When not pressed input data is O off When output data is 1 on LED is on When output data is O off LED is off 4 X2 The input data from 2 position selector key selector and illuminated selector switches depend on the operator posi tion as shown below 2 position Operator Selector Left 1 Right 2 Operator Position DI2 5 X3 The input data from 3 position selector key selector and illuminated selector switches depend on the operator posi tion as shown below Selector Center 3 position Operator n 0 Right Operator Position 1 0 2 Communication Block Mounting Input Data os Bit Position DI2 1 0 012 0 0 1 As shown in the table and figure 3 position selector key selector and illuminated selector switches use two communi cation blocks Each communication block must have a unique address therefore the 3 position selecto
11. RE vn mda IDAOAD2AD1 Manual Configuration Dialog Box Configure AS Interface Master Change Slave Address Configure Slave Auto Configuration Description Writes the currently connected AS Interface slave configuration LDS CDI PI information to the AS Interface master module EEPROM LPS PCD PP Auto configuration takes about 1 minute Manual Configuration Writes the slave PCD and parameters configured by the user to the AS Interface master module EEPROM LPS PCD PP Refresh Refreshes the screen display Refreshing takes about 40 seconds Switch Slave Switches between the Slave A and Slave B setting screens File Open Opens the configuration LPS PCD PP file File Save Saves the configuration LPS PCD PP file Help Displays explanations for functions on the screen OK Changes the slave address Cancel Discards the changes and closes the window OK Updates the PCD and PP Not written to the master module yet Cancel Discards the changes and closes the window MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 7 1 7 UsING WINDLDR Slave Address Shading Colors Operating status of the slave can be confirmed by viewing the shading color at the slave address on the Configure AS Interface Master dialog box The screen display can be updated by clicking the Refresh button LAS LDS LPF LPS Address Shading De
12. Cuarter 1 CHAPTER 2 3 CHAPTER 4 5 AS INTERFACE Applicable Sensors and Actuators for AS Interface 1 1 AS Interface System Requirements 1 2 Main Features of AS Interface V2 with Slave Expansion Capability 1 3 Slave Addresses u Su Yu hh hrs 1 3 Slave Identification 1 3 Quantities of Slaves 1 0 Points 1 4 AS Interface Bus Topology and Maximum Length 1 4 AS Interface Bus Cycle 1 4 High Reliability and Security 1 4 MODULE SPECIFICATIONS Parts Description exa navim al an mis SS ARV ME EN 2 2 serm vat EE Ec Yum uuu UB eliz a eS Se uua Ys 2 3 Applicable Cables 2 4 DIMENSIONS ra n u a Be eae ha kalma m Bae eae ilya ie B 2 4 INSTALLATION AND WIRING Installation Location RR Re 3 1 Assembling Modules a a aa aa aka asa aaa 3 2 DisassemblingModules ia 3 2 MountingonDINRail 0 3 3 RemovingfromDINRail ia 3 3 Direct Mounting on Panel Surface 3 3 Terminal Connection 2224
13. Sunnyvale CA 94089 2209 USA Tel 1 408 747 0550 Toll Free 800 262 IDEC Fax 1 408 744 9055 Fax 1 800 635 6246 E mail opencontact idec com www idec com CANADA IDEC CANADA LIMITED Unit 22 151 Brunel Road Mississauga Ontario L4Z 1X3 Canada Tel 1 905 890 8561 Toll Free 888 317 4332 Fax 1 905 890 8562 AUSTRALIA IDEC AUSTRALIA PTY LTD 2 3 Macro Court Rowville Victoria 3178 Australia Toll Free 1 800 68 4332 Fax 61 3 9763 3255 E mail sales au idec com UNITED KINGDOM IDEC ELECTRONICS LIMITED Unit 2 Beechwood Chineham Business Park Basingstoke Hampshire RG24 8WA United Kingdom Tel 44 1256 321000 Fax 44 1256 327755 E mail idec uk idec com GERMANY IDEC ELEKTROTECHNIK GmbH WendenstraBe 331 D 20537 Hamburg Germany Tel 49 40 25 30 54 1 Fax 49 40 25 30 54 24 E mail service idec de HONG KONG IDEC IZUMI H K CO LTD Room No 1409 Tower 1 Silvercord 30 Canton Road Tsimshatsui Kowloon Hong Kong Tel 852 2 376 2823 Fax 852 2 376 0790 E mail idec idechk com CHINA IDEC IZUMI Shanghai Co Ltd Room E 15F Majesty Building No 138 Pudong Avenue Shanghai 200120 P R C Tel 86 21 5887 9181 Fax 86 21 5887 8930 TAIWAN IDEC TAIWAN CORPORATION 8F 1 No 79 Hsin Tai Wu Road Sec 1 Hsi Chih Taipei County Taiwan Republic of China Tel 886 2 2698 3929 Fax 886 2 2698 3931 E mail idectpe idectwn hinet net SINGAPORE
14. Analog Output Channel No D1732 Bytes O and 1 Channel 1 D1733 Bytes 2 and 3 Channel 2 D1734 Bytes 4 and 5 Channel 3 D1735 Bytes 6 and 7 Channel 4 D1736 Bytes 8 and 9 Channel 1 D1737 Bytes 10 and 11 Channel 2 D1738 Bytes 12 and 13 Channel 3 D1739 Bytes 14 and 15 Channel 4 D1740 Bytes 16 and 17 Channel 1 D1741 Bytes 18 and 19 Channel 2 D1742 Bytes 20 and 21 Channel 3 D1743 Bytes 22 and 23 Channel 4 D1744 Bytes 24 and 25 Channel 1 D1745 Bytes 26 and 27 Channel 2 D1746 Bytes 28 and 29 Channel 3 D1747 Bytes 30 and 31 Channel 4 D1748 Bytes 32 and 33 Channel 1 D1749 Bytes 34 and 35 Channel 2 D1750 Bytes 36 and 37 Channel 3 D1751 Bytes 38 and 39 Channel 4 D1752 Bytes 40 and 41 Channel 1 D1753 Bytes 42 and 43 Channel 2 D1754 Bytes 44 and 45 Channel 3 D1755 Bytes 46 and 47 Channel 4 D1756 Bytes 48 and 49 Channel 1 D1757 Bytes 50 and 51 Channel 2 D1758 Bytes 52 and 53 Channel 3 D1759 Bytes 54 and 55 Channel 4 D1760 Bytes 56 and 57 D1761 Bytes 58 and 59 D1762 Bytes 60 and 61 D1763 Bytes 62 and 63 1st data A00 2nd data A01 3rd data A02 4th data A03 5th data A04 6th data A05 Tth data AO6 reserved For example when analog input slaves 1 13 and 20 analog output slaves 5 and 25 and analog I O slaves 14 and 21 are used the analog I O slave data will be allocated by configuration as shown below and maintained until the next configura tion is executed Four channels 8 bytes a
15. Blue Shade CD w ee o cose 00 FFFF 18 FFFF OFFF Auto Configuration OFT 47 FFE 02 FFFF FFFF 18 FFFF Manual Configuration 03 FFFF FFFF 18 FFFF FFFF 04 FFFF FFFF 20 FFFF FFFF Switch Slave 05 FFFF FFFF 21 FFFF FFFF 06 FFFF FFFF 22 FFFF FFFF Z File Open 07 FFFF FFFF 23 FFFF FFFF El Fie save 08 FFFF 24 FFFF FFFF Help 09 FFFF FFFF 25 FFFF FFFF UBL dadda cobre 26 FFFF FFFF Structure of CDI PCD 41 FFFF FFFF IDAOID24D1 42 FFFF FFFF 28 FFFF FFFF 43 FFFF FFFF 28 FFFF FFFF 44 FFFF 30 FFFF FFFF 48 FFFF FFFF 31 FFFF FFFF dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 4 5 4 OPERATION BASICS Monitoring Digital 1 0 and Changing Output Status and Parameters While the MicroSmart is communicating with AS Interface slaves through the AS Interface bus operating status of AS Interface slaves can be monitored using WindLDR on a PC Output statuses and parameter image PI of slaves connected to the AS Interface master module can also be changed using WindLDR 1 From the WindLDR menu bar select Online gt Monitor From the WindLDR menu bar select Online and select Moni tor AS Interface Slaves in the pull down menu The Monitor AS Interface Slaves dialog box appears Active slaves are indicated with blue shade Next step is to change output status of the active slave 2 C
16. FFFF IDAOAD2AD1 12 FFFF FFFF 28 FFFF FFFF CDI Configuration Data Image LAS M GER PCD Permanent Configuration Data wy Gadde Gane Ste Mande 15 FFFF 31 FFFF FFFF The new address 01 is shaded with yellow to indicate that the address assignment is complete Yellow Shade CDI PCD CD PCD dese 00 FFFF FFFF 18 FFFF 4 When changing slave addresses on 01 OF FFFF 17 FFFF FFF other slaves continue from step 3 if 02 FFFF FFFF 18 FFFF FFFF Menu con paren it is possible to wire the slave with 03 FFFF FFFF 19 FFFF out turning off power or from step 04 FFFF 20 FFFF FFFF SN 1 if the CPU module is shut down M dur var 28 Xam cama zm 06 FFFF FFFF 22 FFF FFFF Gay File Open 07 FFFF FFFF 23 FFFF FFFF Fie Save 08 FFFF 24 FFFF FFFF Help 09 FFFF FFFF 25 FFFF OFFF 10 FFFF FFFF 28 FFFF FFFF structure of CDI PCD ih Gii EEE MAM FEFE IDAOAD2AD1 12 FFFF FFFF eu Wang o daas d aeo Dow 2 14 FFFF 30 FFFF FFFF ide Gar dass Si ARAR lim dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 43 4 OPERATION BASICS Configuring a Slave Next you have to set the slave configuration in the AS Interface master module either by using pushbuttons PB1 and PB2 on the AS Interface master module or WindLDR Configuration Using Pushbuttons PB1 and PB2 a WO N 4 4 cez iii
17. M1396 M1714 M1396 M1714 M 28 Slave 20 A M1402 M1720 M1402 M1720 Mao Slave 21 A M1406 M1724 M1406 M1724 _ Slave 22 A M1412 M1730 M1412 M1730 M Slave 23 A M1416 M1734 M1416 M1734 SS Slave 24 A M1422 M1740 M1422 M1740 Slave 25 A M1426 M1744 M1426 M1744 M 28 Slave 26 A M1432 M1750 M1432 M1750 Slave 27 1436 1754 1436 1754 IIS Slave 28 A M1442 M1760 M1442 M1760 M Slave 29 A M1446 M1764 M1446 M1764 Slave 30 A M1452 M1770 M1452 M1770 Slave 31 A M1456 M1774 M1456 M1774 M Slave 1B M1466 M1784 M1466 M1784 M1466 Slave 2B M1472 M1790 M1472 M1790 M1472 Slave 3B M1476 M1794 M1476 M1794 M1476 Slave 4B M1482 M1800 M1482 M1800 M1482 Slave 5B M1486 M1804 M1486 M1804 me Slave 6B M1492 M1810 M1492 M1810 M14 Slave 7B M1496 M1814 M1496 M1814 M1496 Slave 8B M1502 M1820 M1502 M1820 me Slave 9B M1506 M1824 M1506 M1824 M15 Slave 10B M1512 M1830 M1512 M1830 M1512 Slave 11B M1516 M1834 M1516 M1834 M1516 Slave 12B M1522 M1840 M1522 M1840 M1522 Slave 13B M1526 M1844 M1526 M1844 M1526 Slave 14B M1532 M1850 M1532 M1850 M1532 Slave 15B M1536 M1854 M1536 M1854 M1536 Slave 16B M1542 M1860 M1542 M1860 M1542 Slave 17B M1546 M1864 M1546 M1864 M1546 Slave 18B M1552 M1870 M1552 M1870 M1552 Slave 19B M1556 M1874 M1556 M1874 M1556 Slave 20B M1562 M1880 M1562 M1880 M1562 Slave 21B M1566 M1884 M1566 M1884 M1566 Slave 22B M1572 M1890 M1572 M1890 M1572 Slave 23B M1576 M1894 M1576 M1894 M1576 Slave 24B M1582 M1900 M1582 M1900 M1582 Slave 25
18. and the FLT LED is on then remove the cause of the error referring to page 4 7 and repeat configuration The configuration cannot be done in the following cases Error Code Description 1 An error was found on the expansion 1 bus While the AS Interface master module was in offline mode attempt was made to execute auto 2 configuration or manual configuration While slave address O existed on the bus attempt was made to execute auto configuration or 7 manual configuration The AS Interface master module is in local mode dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 7 3 7 UsING WINDLDR Monitor AS Interface Slave While the MicroSmart is communicating with AS Interface slaves through the AS Interface bus operating status of AS Interface slaves can be monitored using WindLDR on a PC Output statuses and parameter image PI can also be changed using WindLDR To open the Monitor AS Interface Slaves dialog box from the WindLDR menu bar select Online gt Monitor From the WindLDR menu bar select Online and select Monitor AS Interface Slaves in the pull down menu Monitor AS Interface Slaves x Slave A In Out In Out In Out In Out 00 0000 0000 08 0000 0000 16 0000 0000 24 0000 0000 01 0000 00017 09 0000 0000 17 0000 0000 25 0000 0000 ez 0000 0001 10 0000 0000 18 0000 0000 26 0000 0000 Slave Status x Outputs r o0 m01 ro2 C On C On On
19. 3 strip 3 3 disassembling modules 3 2 error 4 7 code 7 2 7 3 7 4 7 5 messages 7 5 expansion capability 1 3 ferrule 3 5 flat cable 2 4 function area settings 4 2 general specifications 2 3 HW series digital I O data allocation 6 12 code 1 3 data 6 2 ID code 1 3 IDI code 1 3 of slave 0 6 10 ID2 code 1 3 identification 1 3 IDI 6 2 input data 6 11 6 12 LEDs 5 3 installation and wiring 3 1 location 3 1 internal relays for SwitchNet slaves 6 13 L6 series digital I O data allocation 6 11 LAPP s cables 2 4 LAS 6 8 LDS 6 8 LDS 0 6 6 LED indicators 5 1 5 3 list of active slaves LAS 6 8 detected slaves LDS 6 8 peripheral fault slaves LPF 6 8 projected slaves LPS 6 8 local mode 5 2 long press 5 1 LPF 6 8 LPS 6 8 maximum AS Interface bus cycle time 1 4 cable length 2 3 module specifications 2 1 monitor AS Interface slave 7 4 monitoring digital I O and changing output status 4 6 mounting clip 3 1 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL INDEX ii hole layout for direct mounting 3 4 on DIN rail 3 3 on panel surface 3 3 position communication block 6 12 strip 3 3 normal protected data exchange off 5 2 mode 5 2 offline 5 2 Normal Operation Active 6 7 ODI 6 3 Off line 6 7 Offline Ready 6 7 operands 6 1 operation basics 4 1 T modes 5 2 output data 6 11 6 12 LEDs 5 3 parameter 1 3 image PI 6 10 U parts description 2 2 PCD 6 9 V Periphery O
20. 6 17 Normal Protected Data Exchange Off Data communication with all slaves is prohibited To enter this mode execute the ASI command Prohibit Data Exchange To return to normal protected mode and resume data communication execute the ASI command Enable Data Exchange For details about the ASI commands see page 6 17 When auto configuration or manual configuration is executed on WindLDR the AS Interface master module enters this mode during configuration Local Mode In local mode the CPU module does not communicate with the AS Interface master module Local mode is used to carry out maintenance operations such as checking the configuration and slave inputs Use the input LEDs to check the slave input data during operation When the CPU module is powered up the AS Interface master module initially enters normal protected mode of con nected mode if no error occurs To switch from any of connected mode to local mode protected mode long press the PB1 and PB2 buttons simultaneously It is not possible to switch from local mode back to connected mode using the pushbut tons To return to connected mode shut down the CPU module and power up again Local mode is comprised of two modes protected mode and configuration mode Protected Mode This mode operates the slaves in accordance with the slave configuration data stored in the AS Interface master module If the configuration data stored in the AS Interface master module does not match
21. AS Interface master module AS Interface specifies use of brown cables for the AS Interface line and blue cables for the AS Interface line Connect the cables to match the color labels on the terminal block Tighten the terminal screws to a torque of 0 5 to 0 6 N m Insert the terminal block to the connector on the AS Interface master module and tighten the mounting screws to a torque of 0 3 to 0 5 N m Use a ferrule Brown Label Brown AS Interface Blue AS Interface Use a ferrule Blue Label Power Supply Caution When turning off the power to the CPU module also turn off the AS Interface power supply If the CPU module is powered down and up while the AS Interface power remains on AS Interface communication may stop due to a configuration error resulting in a communication error Turn on the AS Interface power supply no later than the CPU module power supply except when slave address exists on the network The two power supplies may be turned off in any order Power Supply Wiring Diagram A recommended power supply wiring diagram is shown below Use a common power switch for both the CPU module power supply and AS Interface power supply to make sure that both power supplies are turned on and off at the same time Slim Type CPU Module AS Interface Master Module FCAA DAOK3 FCAA AS62M AC Power Power Switch L Ano AS Interface Cable Connector
22. AS Interface system is comprised of the following three major components One master such as the MicroSmart AS Interface master module FC4A AS62M One or more slave devices such as sensors actuators switches and indicators Dedicated 30V DC AS Interface power supply 26 5 to 31 6V DC These components are connected using a two core cable for both data transmission and AS Interface power supply AS Interface employs a simple yet efficient wiring system and features automatic slave address assignment function while installation and maintenance are also very easy Applicable Sensors and Actuators for AS Interface AS Interface Compatible Sensors and Actuators AS Interface compatible sensors and actuators communicate using the built in AS Interface function and serve as AS Interface slaves when connected directly to the AS Interface bus via a branch unit or a T junction unit Sensors Actuators Not Compatible with AS Interface Conventional sensors and actuators that are not compatible with the AS Interface can also be connected to the AS Inter face bus using a remote I O slave and be handled in the same way as devices that are compatible with the AS Interface C NES N Branch Unit T junction Unit Remote 1 0 Type Slave AS Interface Bus AS Interface Compatible Sensors Actuators m A a a 62 slaves maximum 4341 0 points maximum 248 inputs and 186 outputs P Maximum Communication Distance
23. M1453 M1452 M1452 M1770 M1453 M1452 M1770 Slave 31 A M1457 M1456 M1456 M1774 M1457 M1456 M1774 Slave 1B M1467 M1466 M1466 M1784 M1467 M1466 M1784 Slave 2B M1473 M1472 M1472 M1790 M1473 M1472 M1790 Slave 3B M1477 M1476 M1476 M1794 M1477 M1476 M1794 Slave 4B M1483 M1482 M1482 M1800 M1483 M1482 M1800 Slave 5B M1487 M1486 M1486 M1804 M1487 M1486 M1804 Slave 6B M1493 M1492 M1492 M1810 M1493 M1492 M1810 Slave 7B M1497 M1496 M1496 M1814 M1497 M1496 M1814 Slave 8B M1503 M1502 M1502 M1820 M1503 M1502 M1820 Slave 9B M1507 M1506 M1506 M1824 M1507 M1506 M1824 Slave 10B M1513 M1512 M1512 M1830 M1513 M1512 M1830 Slave 11B M1517 M1516 M1516 M1834 M1517 M1516 M1834 Slave 12B M1523 M1522 M1522 M1840 M1523 M1522 M1840 Slave 13B M1527 M1526 M1526 M1844 M1527 M1526 M1844 Slave 14B M1533 M1532 M1532 M1850 M1533 M1532 M1850 Slave 15B M1537 M1536 M1536 M1854 M1537 M1536 M1854 Slave 16B M1543 M1542 M1542 M1860 M1543 M1542 M1860 Slave 17B M1547 M1546 M1546 M1864 M1547 M1546 M1864 Slave 18B M1553 M1552 M1552 M1870 M1553 M1552 M1870 Slave 19B M1557 M1556 M1556 M1874 M1557 M1556 M1874 Slave 20B M1563 M1562 M1562 M1880 M1563 M1562 M1880 Slave 21B M1567 M1566 M1566 M1884 M1567 M1566 M1884 Slave 22B M1573 M1572 M1572 M1890 M1573 M1572 M1890 Slave 23B M1577 M1576 M1576 M1894 M1577 M1576 M1894 Slave 24B M1583 M1582 M1582 M1900 M1583 M1582 M1900 Slave 25B M1587 M1586 M1586 M1904 M1587 M1586 M1904 Slave 26B M1593 M1592 M1592 M1910 M1593 M1592 M1910 Slave 27B M1597 M1596 M
24. Without repeater 100m With 2 repeaters 300m dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 1 1 1 AS INTERFACE AS Interface System Requirements Master The AS Interface master controls and monitors the status of slave devices connected to the AS Interface bus Normally the AS Interface master is connected to a PLC sometimes called host or a gateway For example the Micro Smart AS Interface master module is connected to the MicroSmart CPU module AS Interface Master Module FC4A AS62M MicroSmart Slim Type CPU Module FC4A D20RK1 FC4A D20RS1 FC4A D40K3 FC4A D40S3 Slaves Various types of slave devices can be connected to the AS Interface bus including sensors actuators and remote I O devices Analog slaves can also be connected to process analog data Slaves are available in standard slaves and A B slaves Standard slaves have an address of 1 trough 31 in the standard address range A B slaves have an address of 1A through 31A in the standard address range or 1B through 31B in the expanded address range Among A B slaves slaves with an address of 1A through 314A are called A slaves and slaves with an address of 1B through 31B are called B slaves AS Interface Power Supply The AS Interface bus uses a dedicated 30V DC power supply AS Interface power supply which is indicated with the AS Interface mark General purpose power sup ply units cannot be
25. circuit is configured inside the MicroSmart failure of the MicroSmart may cause disorder of the control system damage or accidents Install the MicroSmart AS Interface master module according to the instructions described in this user s manual Improper installation will result in falling failure or malfunction of the MicroSmart AS Interface master module Caution notices are used where inattention might cause personal injury or damage to equipment The MicroSmart AS Interface master module is designed for installation in a cabinet Do not install the MicroSmart AS Interface master module outside a cabinet Install the MicroSmart AS Interface master module in environments described in this user s manual If the MicroSmart AS Interface master module is used in places where the MicroSmart AS Interface master module is subjected to high tem perature high humidity condensation corrosive gases excessive vibrations and excessive shocks then electrical shocks fire hazard or malfunction will result The environment for using the MicroSmart AS Interface master module is Pollution degree 2 Use the MicroSmart AS Interface master module in environments of pollution degree 2 according to IEC 60664 1 Prevent the MicroSmart AS Interface master module from falling while moving or transporting the MicroSmart AS Inter face master module otherwise damage or malfunction of the MicroSmart AS Interface master module will result
26. in the following cases Error Code Description An error was found on the expansion 1 bus 7 The AS Interface master module is in local mode 8 Attempt was made to change the parameters of a slave which did not exist 7 4 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 7 USING WINDLDR Error Messages When an error is returned from the AS Interface master module WindLDR will display an error message The error codes and their meanings are given below Configure AS Interface Master e AS Interface Master Error 8 Error Code Description 1 An error was found on the expansion 1 bus While the AS Interface master module was in offline mode attempt was made to perform auto 2 configuration or manual configuration An incorrect command was sent While slave address O existed on the bus attempt was made to perform auto configuration or 7 manual configuration The AS Interface master module is in local mode The slave you are trying to change does not exist A slave of the designated new address already exists While a standard slave was set at A address attempt was made to set an A B slave at B 8 address of the same number While an A B slave was set at B address attempt was made to set a standard slave at A address of the same number Attempt was made to change the parameters of a slave which did not exist When a reply message is not returned from the AS Interf
27. module version of 201 or higher When using WindLDR use ver 4 21 or higher The AS Interface master module cannot be used with the all in one type CPU modules and the 20 I O transistor output slim type CPU modules Only one AS Interface master module can be connected to the slim type CPU module If more than one AS Interface master module is connected an error occurs and special data register D8037 quantity of expansion I O modules stores error code 40 hex Normally a maximum of seven expansion I O modules can be connected to the slim type CPU module But when the AS Interface master module is connected only a total of six expansion modules can be connected including the AS Interface master module Do not connect more than six expansion modules due to the amount of heat generated If more than six expansion modules including the AS Interface master module are connected an error occurs and special data regis ter D8037 quantity of expansion I O modules stores error code 20 hex The AS Interface master module can connect a maximum of seven analog I O slaves When more than seven analog I O slaves are connected the AS Interface system will not operate correctly dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 24 2 MODULE SPECIFICATIONS Parts Description 5 Unlatch Button 6 Expansion Connector 1 LED Indicators 7 Module Label 2 Pushbuttons gt J 77 HE
28. of 31 A slaves and 31 B slaves then the AS Interface bus cycle time will be 10 msec Maximum AS Interface Bus Cycle Time When 31 slaves are connected the maximum bus cycle time is 5 msec When 62 slaves are connected the maximum bus cycle time is 10 msec High Reliability and Security The AS Interface employs a transfer process of high reliability and high security The master monitors the AS Interface power supply voltage and data transmitted on the bus and detects slave failures and data errors Even when a slave is replaced or a new slave is added during operation the AS Interface master module need not be shut down and can continue uninterrupted communication with other active slaves on the bus 1 4 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 2 MODULE SPECIFICATIONS Introduction This chapter describes specifications of the MicroSmart AS Interface master module and applicable cables AS Interface Master Module Type Number Module Name Type No AS Interface Master Module FCAA AS62M The AS Interface master module can connect a maximum of 62 digital I O slaves A maximum of seven analog I O slaves can also be connected to the AS Interface master module compliant with AS Interface ver 2 1 and analog slave profile 7 3 The AS Interface master module can be used with the 20 I O relay output slim type CPU modules FC4A D20RK1 and FC4A D20RS1 and the 40 I O slim type CPU modules FC4A D40K3 and FC4A D40S3 Use a CPU
29. on when the selected address exists Flashes when the selected address does not exist ider MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 5 3 5 PUSHBUTTONS AND LED INDICATORS Status LEDs The operation modes of the AS Interface master module can be changed by pressing the pushbuttons on the front of the AS Interface master module or by executing ASI commands The operation modes can be confirmed on the six status LEDs on the AS Interface master module For details about the ASI commands see page 6 17 Status LED Indication Status LED PWR FLT LMO CMO OFF CNF Normal Protected Mode 1 ON OFF OFF Normal Protected Offline ON 1 ON OFF ON ON OFF Connected Mode Normal Protected 1 Data Exchange Off ON ON OFF ON OFF OFF Protected Mode 1 ON OFF OFF OFF Local Mode 1 5 Configuration Mode ON OFF ON OFF OFF Flash 1 Goes off when AS Interface power is not supplied 2 Goes on when an error is found on the AS Interface bus Address LEDs and 1 0 LEDs The operating status and I O status of each slave can be monitored on the address LEDs and I O LEDs on the front of the AS Interface master module Slave Operating Status The operating status of each slave can be determined by viewing the address LEDs and I O LEDs Address LED 1 0 LED Description ON ON or OFF The slave at this address is active ON Flash The slave at this address is active b
30. operation and local mode is used for maintenance purposes Connected Mode In connected mode the CPU module communicates with the AS Interface master module to monitor and control each slave Connected mode is comprised of the following three modes Normal Protected Mode When the CPU module is powered up the AS Interface master module initially enters normal protected mode of con nected mode if no error occurs This is the normal operation mode for the AS Interface master module to perform data communication with the connected slaves If the configuration data stored in the AS Interface master module do not match the currently connected slave configura tion the FLT LED on the front of the AS Interface master module goes on Execute configuration using the pushbuttons on the AS Interface master module Configuration can also be done using WindLDR See page 7 3 Normal Protected Offline The AS Interface master module stops communication with all slaves and enables offline operation initialization of the master module In this mode the CPU module cannot monitor the slave status To enter normal protected offline from normal protected mode either long press the PB2 button or execute the ASI com mand Go to Normal Protected Offline To return to normal protected mode and resume data communication either long press the PB2 button again or execute the ASI command Go to Normal Protected Mode For details about the ASI com mands see page
31. the currently connected slave configura tion the FLT LED on the front of the AS Interface master module goes on and slaves are not operated correctly To enter protected mode from any of connected mode long press the PB1 and PB2 buttons simultaneously Configuration Mode This mode switches all currently connected slaves to active regardless of the slave configuration data stored in the AS Interface master module To store the current slave configuration data to the AS Interface master module EEPROM long press the PB1 button This way configuration is executed To enter configuration mode from protected mode long press the PB2 button To return to protected mode long press the and PB2 buttons simultaneously 5 2 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL LED Indicators 5 PUSHBUTTONS AND LED INDICATORS The LED indicators on the AS Interface master module consist of status LEDs I O LEDs and address LEDs Status LEDs Input LEDs Output LEDs LED Indicators PWR AS Interface power supply Address LEDs Ox to 3x Address LEDs xO to x9 Address LEDs A and B Description Indicates the status of the AS Interface power supply for the AS Interface master module Goes on when the AS Interface power is supplied sufficiently FLT Fault Indicates the AS Interface configuration status Goes on when the permanent configuration data PCD stored in the AS Interfac
32. used for the AS Interface bus AS Interface Marks Caution Use a VLSV very low safety voltage to power the AS Interface bus The normal output voltage of the AS Interface power supply is 30V DC Cables The AS Interface bus uses only one cable to transmit signals and power Use one of the following cable types the wire does not have to be stranded Standard yellow unshielded AS Interface cable with polarity Ordinary two wire flat cable K AS Interface Cable Two wire Flat Cable 1 2 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 1 AS INTERFACE Main Features of AS Interface V2 with Slave Expansion Capability The AS Interface is a reliable bus management system in which one master periodically monitors each slave device con nected on the AS Interface bus in sequence The master manages the I O data parameters and identification codes of each slave in addition to slave addresses The management data depends on the type of the slave as follows Standard Slaves A maximum of four inputs and four outputs for each slave Four parameters for setting a slave s operation mode P3 P2 P1 PO Four identification codes ID code I O code ID2 code and ID1 code A B Slaves A maximum of four inputs and three outputs for each slave Three parameters for setting a slave s operation mode P2 P1 PO Four identification codes ID code I O code ID2 code and ID1 code Note 1 Parameters P3 through
33. 1313 M1312 M1630 Slave 3 A M1317 M1316 M1316 M1634 M1317 M1316 M1634 Slave 4 A M1323 M1322 M1322 M1640 M1323 M1322 M1640 Slave 5 A M1327 M1326 M1326 M1644 M1327 M1326 M1644 Slave 6 A M1333 M1332 M1332 M1650 M1333 M1332 M1650 Slave 7 A M1337 M1336 M1336 M1654 M1337 M1336 M1654 Slave 8 A M1343 M1342 M1342 M1660 M1343 M1342 M1660 Slave 9 A M1347 M1346 M1346 M1664 M1347 M1346 M1664 Slave 10 A M1353 M1352 M1352 M1670 M1353 M1352 M1670 Slave 11 A M1357 M1356 M1356 M1674 M1357 M1356 M1674 Slave 12 A M1363 M1362 M1362 M1680 M1363 M1362 M1680 Slave 13 A M1367 M1366 M1366 M1684 M1367 M1366 M1684 Slave 14 A M1373 M1372 M1372 M1690 M1373 M1372 M1690 Slave 15 A M1377 M1376 M1376 M1694 M1377 M1376 M1694 Slave 16 A M1383 M1382 M1382 M1700 M1383 M1382 M1700 Slave 17 A M1387 M1386 M1386 M1704 M1387 M1386 M1704 Slave 18 A M1393 M1392 M1392 M1710 M1393 M1392 M1710 Slave 19 A M1397 M1396 M1396 M1714 M1397 M1396 M1714 Slave 20 A M1403 M1402 M1402 M1720 M1403 M1402 M1720 Slave 21 A M1407 M1406 M1406 M1724 M1407 M1406 M1724 Slave 22 A M1413 M1412 M1412 M1730 M1413 M1412 M1730 Slave 23 A M1417 M1416 M1416 M1734 M1417 M1416 M1734 Slave 24 A M1423 M1422 M1422 M1740 M1423 M1422 M1740 Slave 25 A M1427 M1426 M1426 M1744 M1427 M1426 M1744 Slave 26 A M1433 M1432 M1432 M1750 M1433 M1432 M1750 Slave 27 A M1437 M1436 M1436 M1754 M1437 M1436 M1754 Slave 28 A M1443 M1442 M1442 M1760 M1443 M1442 M1760 Slave 29 A M1447 M1446 M1446 M1764 M1447 M1446 M1764 Slave 30 A
34. 1596 M1914 M1597 M1596 M1914 Slave 28B M1603 M1602 M1602 M1920 M1603 M1602 M1920 Slave 29B M1607 M1606 M1606 M1924 M1607 M1606 M1924 Slave 30B M1613 M1612 M1612 M1930 M1613 M1612 M1930 Slave 31B M1617 M1616 M1616 M1934 M1617 M1616 M1934 6 14 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 AS INTERFACE OPERANDS HW Series Selector Key selector Pushbutton Pilot Light Illuminated Pushbutton 2 position eT Input DI2 Output DOO Input DI2 Output DOO Input DI2 Slave O M1302 M1620 M1302 M1620 M1302 Slave 1 A M1306 M1624 M1306 M1624 ue Slave 2 A M1312 M1630 M1312 M1630 as Slave 3 A M1316 M1634 M1316 M1634 Slave 4 A M1322 M1640 M1322 M1640 M1 2 Slave 5 1326 M1644 M1326 M1644 M132 Slave 6 A M1332 M1650 M1332 M1650 Slave 7 A M1336 M1654 M1336 M1654 M13 Slave 8 A M1342 M1660 M1342 M1660 M1342 Slave 9 A M1346 M1664 M1346 M1664 Slave 10 A M1352 M1670 M1352 M1670 M1 22 Slave 11 A M1356 M1674 M1356 M1674 Slave 12 A M1362 M1680 M1362 M1680 Slave 13 A M1366 M1684 M1366 M1684 M 56 Slave 14 A M1372 M1690 M1372 M1690 Slave 15 A M1376 M1694 M1376 M1694 1375 Slave 16 A M1382 M1700 M1382 M1700 M 82 Slave 17 A M1386 M1704 M1386 M1704 Slave 18 A M1392 M1710 M1392 M1710 MISSE Slave 19 A
35. 2 A B slaves are connected Maximum Slaves Standard slaves A B slaves 31 62 When using a mix of standard slaves and A B slaves together the standard slaves can only use addresses 1 A through 31 A Also when a standard slave takes a certain address the B address of the same number cannot be used for A B slaves Maximum 1 0 Points Standard slaves A B slaves 248 total 124 inputs 124 outputs 434 total 248 inputs 186 outputs AS Interface Cable When using no repeater or extender 100m Maximum Cable Length 2 wire Flat Cable When using a total of 2 repeaters or extenders 300m Single Wires 200 mm Rated Bus Voltage 30V DC MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 2 MODULE SPECIFICATIONS Applicable Cables The AS Interface cable transfers data and supplies power to the sensors and actuators connected to the bus The following cables can be used with the AS Interface master module Applicable Cable Specifications Cable Type Cable Size Manufacturer Cross sectional View Cable sheath color Yellow Conductor cross section 1 5 mm AS Interface Standard Cable LAPP s Cables Type No 2170228 sheath material EPDM Type No 2170230 sheath material AS Interface brown 2 wire Flat Cable Conductor cross section or Stranded wire 0 5 to 1 0 mm Single Wires Solid wire 0 75 to 1 5 mm AS Interface AS Interface See Note AWG 20 to 16 blue brown
36. 3 I2 13 Bw ti z Group 4 14 17 Bwm Enable Clock Cartridge Adjustment Adusmen value Uer Protect User Program Unprotected AS Interface Master Use AS Interface Master Module X Cancel 3 Default List Help 3 Make sure of a check mark in the check box on the left of Use AS Interface Master Module This check box is checked as default Since this setting relates to the user program download the user program to the CPU module after changing any of these settings If the ERR LED on the CPU module goes on when the AS Interface master module is connected download the user pro gram to the CPU module after making the above setting 42 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 4 OPERATION BASICS Assigning a Slave Address AS Interface compatible slave devices are set to address 0 at factory Connect the slave to the AS Interface master module as shown on page 4 1 Do not connect two or more slaves with slave address 0 otherwise the AS Interface master module cannot recognize slave addresses correctly 1 Power up the MicroSmart CPU module first Approximately 5 seconds later turn on the AS Interface power supply Note When slave address O is not mounted on the AS Interface bus the CPU module power supply and the AS Interface power supply can be turned on at the same time See page 3 6 2 From the WindLDR menu bar select Configure gt AS Interface Master to
37. 332 Slave 7 A M1336 M1654 M1336 M1654 M1336 Slave 8 A M1342 M1660 M1342 M1660 M1342 Slave 9 A M1346 M1664 M1346 M1664 M1346 Slave 10 A M1352 M1670 M1352 M1670 M1352 Slave 11 A M1356 M1674 M1356 M1674 M1356 Slave 12 A M1362 M1680 M1362 M1680 M1362 Slave 13 A M1366 M1684 M1366 M1684 M1366 Slave 14 A M1372 M1690 M1372 M1690 M1372 Slave 15 A M1376 M1694 M1376 M1694 M1376 Slave 16 A M1382 M1700 M1382 M1700 M1382 Slave 17 A M1386 M1704 M1386 M1704 M1386 Slave 18 A M1392 M1710 M1392 M1710 M1392 Slave 19 A M1396 M1714 M1396 M1714 M1396 Slave 20 A M1402 M1720 M1402 M1720 M1402 Slave 21 A M1406 M1724 M1406 M1724 M1406 Slave 22 A M1412 M1730 M1412 M1730 M1412 Slave 23 A M1416 M1734 M1416 M1734 M1416 Slave 24 A M1422 M1740 M1422 M1740 M1422 Slave 25 A M1426 M1744 M1426 M1744 M1426 Slave 26 A M1432 M1750 M1432 M1750 M1432 Slave 27 A M1436 M1754 M1436 M1754 M1436 Slave 28 A M1442 M1760 M1442 M1760 M1442 Slave 29 A M1446 M1764 M1446 M1764 M1446 Slave 30 A M1452 M1770 M1452 M1770 M1452 Slave 31 A M1456 M1774 M1456 M1774 M1456 Slave 1B M1466 M1784 M1466 M1784 M1466 Slave 2B M1472 M1790 M1472 M1790 M1472 Slave 3B M1476 M1794 M1476 M1794 M1476 Slave 4B M1482 M1800 M1482 M1800 M1482 Slave 5B M1486 M1804 M1486 M1804 M1486 Slave 6B M1492 M1810 M1492 M1810 M1492 Slave 7B M1496 M1814 M1496 M1814 M1496 Slave 8B M1502 M1820 M1502 M1820 M1502 Slave 9B M1506 M1824 M1506 M1824 M1506 Slave 10B M1512 M1830 M1512 M1830 M1512 Slave 11B M1516 M1834
38. 44244 dawg eh ba su Med ae ACERO RR e E RUE d 3 5 AS Interface Cable Wiring eee 3 6 Power Supply s casino IE Ses ales BE te Be Sua ta RO l di aa BESS ba 3 6 OPERATION BASICS AS Interface System 4 1 Selecting the PLC 4 2 Function Area lt 5 4 2 Assigning a Slave Address 4 3 Configuring a Slave 4 4 Monitoring Digital 1 0 and Changing Output Status and Parameters 46 Troubles at System Startup 4 7 PUSHBUTTONS AND LED INDICATORS Pushbutton Operation Be Ve aE ae uuu he ira 5 1 Transition of AS Interface Master Module Modes Using Pushbuttons 5 1 AS Interface Master Module Operation Modes 5 2 LED Indicators 3 EE a ii aa E es 5 3 Status EDS c Eee le la herr SS de ix e Ex Un ep le 5 4 Address LEDs 1 1 5 5 4 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL TABLE OF CONTENTS C HAPTER 6 C HAPTER 7 AS INTERFACE OPERANDS AS Interface Operand Allocation Numbers 6 1 1 0 Data i
39. 562 M1562 M1880 M1562 M1880 Slave 21B M1566 M1566 M1884 M1566 M1884 Slave 22B M1572 M1572 M1890 M1572 M1890 Slave 23B M1576 M1576 M1894 M1576 M1894 Slave 24B M1582 M1582 M1900 M1582 M1900 Slave 25B M1586 M1586 M1904 M1586 M1904 Slave 26B M1592 M1592 M1910 M1592 M1910 Slave 27B M1596 M1596 M1914 M1596 M1914 Slave 28B M1602 M1602 M1920 M1602 M1920 Slave 29B M1606 M1606 M1924 M1606 M1924 Slave 30B M1612 M1612 M1930 M1612 M1930 Slave 31B M1616 M1616 M1934 M1616 M1934 Note Three position selector key selector and illuminated selector switches use two communication blocks therefore require two slave addresses For the communication block mounting position see page 6 12 6 16 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL ASI Commands The ASI commands are used to update AS Interface operands in the CPU module or to control the AS Interface master module Data registers D1941 through D1944 are used to store command data D1945 is used to store a request code before executing the command While the command is executed D1945 stores status and result codes ASI Command Format Command Part 8 bytes 6 AS INTERFACE OPERANDS Request Result D1941 D1942 D1943 D1944 D1945 ASI Command Data To execute an ASI command store required values to data resisters D1941 through D1945 as listed in the table below i Command Data Hexadecimal ASI Command Processing D
40. 6 M1694 M1376 M1694 Slave 16 A M1382 M1382 M1700 M1382 M1700 Slave 17 A M1386 M1386 M1704 M1386 M1704 Slave 18 A M1392 M1392 M1710 M1392 M1710 Slave 19 A M1396 M1396 M1714 M1396 M1714 Slave 20 A M1402 M1402 M1720 M1402 M1720 Slave 21 A M1406 M1406 M1724 M1406 M1724 Slave 22 A M1412 M1412 M1730 M1412 M1730 Slave 23 A M1416 M1416 M1734 M1416 M1734 Slave 24 A M1422 M1422 M1740 M1422 M1740 Slave 25 A M1426 M1426 M1744 M1426 M1744 Slave 26 A M1432 M1432 M1750 M1432 M1750 Slave 27 A M1436 M1436 M1754 M1436 M1754 Slave 28 A M1442 M1442 M1760 M1442 M1760 Slave 29 A M1446 M1446 M1764 M1446 M1764 Slave 30 A M1452 M1452 M1770 M1452 M1770 Slave 31 A M1456 M1456 M1774 M1456 M1774 Slave 1B M1466 M1466 M1784 M1466 M1784 Slave 2B M1472 M1472 M1790 M1472 M1790 Slave 3B M1476 M1476 M1794 M1476 M1794 Slave 4B M1482 M1482 M1800 M1482 M1800 Slave 5B M1486 M1486 M1804 M1486 M1804 Slave 6B M1492 M1492 M1810 M1492 M1810 Slave 7B M1496 M1496 M1814 M1496 M1814 Slave 8B M1502 M1502 M1820 M1502 M1820 Slave 9B M1506 M1506 M1824 M1506 M1824 Slave 10B M1512 M1512 M1830 M1512 M1830 Slave 11B M1516 M1516 M1834 M1516 M1834 Slave 12B M1522 M1522 M1840 M1522 M1840 Slave 13B M1526 M1526 M1844 M1526 M1844 Slave 14B M1532 M1532 M1850 M1532 M1850 Slave 15B M1536 M1536 M1854 M1536 M1854 Slave 16B M1542 M1542 M1860 M1542 M1860 Slave 17B M1546 M1546 M1864 M1546 M1864 Slave 18B M1552 M1552 M1870 M1552 M1870 Slave 19B M1556 M1556 M1874 M1556 M1874 Slave 20B M1
41. 997 and data registers D1700 through D1999 assigned in the CPU module to control and monitor the AS Interface bus and provides detailed description about internal relays allocated to SwitchNet control units for use as slaves in the AS Interface network Also describes ASI commands used to update AS Interface operands in the CPU module or to control the AS Interface master module AS Interface Operand Allocation Numbers The I O data and parameters of slaves on the AS Interface bus the status of the AS Interface bus and various list informa tion of the slaves are allocated to the AS Interface master module EEPROM This information is called AS Interface objects which can be accessed through the AS Interface operands The allocation is shown in the table below MicroSmart CPU Module Precessing Read AS Interface Master Module EEPROM Operand Operand Allocation No Time msec 1 Write AS Interface Object Updated AS Interface 1300 1617 3 0 R Digital input IDI 4 Internal M1620 M1937 3 0 w 2 Digital output ODI 4 Relays M1940 M1997 1 0 Status information D1700 D1731 5 2 R Analog input 5 very scan D1732 D1763 5 2 Analog output 9 D1764 D1767 1 0 R List of active slaves LAS D1768 D1771 1 0 R List of detected slaves LDS D1772 D1775 1 0 R 2 List of peripheral fault slaves LPF AS Interface 21776 01779 1 0 RAN 3 List of projected slaves L
42. A Slave 10 A Slave 9 A Slave 8 A D 1924 N 4 Slave N 3 A Slave 2 Slave N 1 A Slave N A D1931 Bytes 14 and 15 Slave 31 A Slave 30 A Slave 29 A Slave 28 A D1932 Bytes 16 and 17 Slave 3B Slave 2B Slave 1B unused D1933 Bytes 18 and 19 Slave 7B Slave 6B Slave 5B Slave 4B D 1932 N 4 Slave N 3 B Slave N 2 B Slave N 1 B Slave NB D1939 Bytes 30 and 31 Slave 31B Slave 30B Slave 29B Slave 28B Changing ID1 Code of Slave 0 Data register D1940 is allocated to read and write the ID1 code of slave 0 To change the slave 0 ID1 settings store a required value in D1940 and execute the ASI command Write Slave 0 ID1 The ASI command Read Slave 0 ID1 can be used to read slave 0 ID1 data to data register D1940 After changing the slave 0 ID1 settings execute the ASI command Read Slave 0 ID1 then you can use the updated slave 0 ID1 data for program execution Data Format Slave 0 ID1 Code D1940 6 10 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL Bits 15 to 12 Bits 11 to 8 Bits 7 to 4 Bits 3 to 0 ID1 code 6 AS INTERFACE OPERANDS SwitchNet Data 1 0 Port SwitchNet control units can be used as slaves in the AS Interface network and are available in 616mm L6 series and 622mm HW series Input signals to the MicroSmart AS Interface master module are read to internal relays allocated to each input point designated by a slave number and a DI number Similarly output signals from the MicroSmart
43. AS Inter face master module are written to internal relays allocated to each output point designated by a slave number and a DO number When programming a ladder diagram for the MicroSmart use internal relays allocated to input signals and output signals of SwitchNet control units L6 series and HW series SwitchNet control units have slightly different digital I O data allocations L6 Series Digital 1 0 Data Allocation Input data is sent from slaves to the AS Interface master Output data is sent from the AS Interface master to slaves Input Data Output Data SwitchNet L6 Series Used 1 0 slave send data slave receive data Slave Unit DI3 DI2 DIL DIO DO3 DO2 DO1 DOO Pushbutton 1 in 0 X1 1 1 Pilot light 1 out 0 0 1 1 X1 Illuminated pushbutton 1 in 1 out 0 X1 1 1 x1 Selector Key selector Lever 2 position Tin 0 X2 1 1 Selector Key selector Lever 3 position 2in 1 1 Illuminated selector 2 position 1 in 1 out x2 1 1 X1 Illuminated selector 3 position 2 in 1 out x3 x3 1 1 X1 Notes 1 The AS Interface master uses bit for addressing A B slaves 2 In the above table bits marked with X1 X2 and are used for SwitchNet 1 0 data 3 X1 When pushbutton is pressed input data is 1 on When not pressed input data is off When output data is 1 on LED is on When out
44. B M1586 M1904 M1586 M1904 M1586 Slave 26B M1592 M1910 M1592 M1910 M1592 Slave 27B M1596 M1914 M1596 M1914 ISO Slave 28B M1602 M1920 M1602 M1920 M160 Slave 29B M1606 M1924 M1606 M1924 M1606 Slave 30B M1612 M1930 M1612 M1930 M1612 Slave 31B M1616 M1934 M1616 M1934 M1616 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 15 6 AS INTERFACE OPERANDS HW Series continued Selector Key selector Illuminated selector 2 position Illuminated selector 3 position Slave Number 3 position Input DI2 Comm Block Input DI2 Output DOO Input DI2 Comm Block 2 Output DOO Comm Block 2 Slave M1302 M1302 M1620 M1302 M1620 Slave 1 A M1306 M1306 M1624 M1306 M1624 Slave 2 A M1312 M1312 M1630 M1312 M1630 Slave 3 A M1316 M1316 M1634 M1316 M1634 Slave 4 A M1322 M1322 M1640 M1322 M1640 Slave 5 A M1326 M1326 M1644 M1326 M1644 Slave 6 A M1332 M1332 M1650 M1332 M1650 Slave 7 A M1336 M1336 M1654 M1336 M1654 Slave 8 A M1342 M1342 M1660 M1342 M1660 Slave 9 A M1346 M1346 M1664 M1346 M1664 Slave 10 A M1352 M1352 M1670 M1352 M1670 Slave 11 A M1356 M1356 M1674 M1356 M1674 Slave 12 A M1362 M1362 M1680 M1362 M1680 Slave 13 A M1366 M1366 M1684 M1366 M1684 Slave 14 A M1372 M1372 M1690 M1372 M1690 Slave 15 A M1376 M137
45. ET y Shut down and power up again t gt D Jud Press PB1 and PB2 Press PB2 Press PB1 Check that PWR LED and CMO LED on the AS Interface master module are on normal protection mode Press pushbuttons PB1 and PB2 together for 3 seconds CMO LED turns off and LMO LED turns on protected mode Press pushbutton PB2 for 3 seconds CNF LED flashes configuration mode About 5 seconds later press pushbutton PB1 for 3 seconds All I O LEDs blink once to complete configuration Shut down the CPU module and AS Interface master module and power up again Check that FLT LED is off which indicates that configuration is complete Use WindLDR to view slave information on the Configure AS Interface Master dialog box and check that all slaves are recognized correctly MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 4 OPERATION BASICS Configuration Using WindLDR Slave configuration can be set using WindLDR in two ways using the Auto Configuration or Manual Configuration but ton on the Configure AS Interface Master dialog box 1 Click the Auto Configuration button to store the configuration information LDS CDI PI of the connected slaves to the EEPROM LPS PCD PP in the AS Interface master module For details see page 7 3 The auto configuration automatically stores the information of slaves found on the AS Interface bus to the EEPROM in the master module and this completes configuration Another meth
46. FC9Y B644 04 FCAA SERIES Micro Programmable Logic Controller FC4A AS62M AS Interface Master Module User s Manual a 0 11 gt SAFETY PRECAUTIONS Read this user s manual to make sure of correct operation before starting installation wiring operation maintenance and inspection of the MicroSmart AS Interface master module All MicroSmart AS Interface master modules are manufactured under IDEC s rigorous quality control system but users must add a backup or failsafe provision to the control system using the MicroSmart AS Interface master module in appli cations where heavy damage or personal injury may be caused in case the MicroSmart AS Interface master module should fail n this user s manual safety precautions are categorized in order of importance to Warning and Caution Warning notices are used to emphasize that improper operation may cause severe personal injury or death Turn off the power to the MicroSmart before starting installation removal wiring maintenance and inspection of the MicroSmart AS Interface master module Failure to turn power off may cause electrical shocks or fire hazard Special expertise is required to install wire program and operate the MicroSmart AS Interface master module People without such expertise must not use the MicroSmart AS Interface master module Emergency stop and interlocking circuits must be configured outside the MicroSmart If such a
47. IDEC IZUMI ASIA PTE LTD No 31 Tannery Lane 05 01 Dragon Land Building Singapore 347788 Tel 65 6746 1155 Fax 65 6844 5995 2003 IDEC IZUMI CORPORATION All Rights Reserved Manual No B 644 1 Printed in Japan 0 2S 03 03
48. K 6 7 permanent configuration data PCD 6 9 W parameter PP 6 10 Phoenix 3 5 PI 6 10 power supply 1 2 3 6 wiring diagram 3 6 PP 6 10 processing time 6 1 profile 6 9 analog slave 6 4 protected mode 5 2 pushbutton operation 5 1 pushbuttons and LED indicators 5 1 quantities of slaves and I O points 1 4 receive data 6 11 6 12 removing from DIN rail 3 3 request and result codes 6 18 safety precautions 6 1 sample program 6 18 screwdriver 3 5 selecting the PLC type 4 2 send data 6 11 6 12 short press 5 1 slave addresses 1 3 expansion capability 1 3 identification 1 3 information 6 9 list information 6 8 profile 6 9 analog 6 4 receive data 6 11 6 12 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL send data 6 11 6 12 specifications 2 1 2 3 standard cable 2 4 slaves 1 3 status information 6 6 internal relays 6 6 LEDs 5 3 5 4 strip direct mounting 3 3 SwitchNet 6 2 data I O port 6 11 slaves internal relays 6 13 system requirements 1 2 setup 4 1 terminal connection 3 5 tightening torque 3 5 topology 1 4 transition of AS Interface master module modes 5 1 troubles at system start up 4 7 type number 2 1 using WindLDR 7 1 very low safety voltage 1 2 3 6 VLSV 1 2 3 6 wiring 3 1 JAPAN IDEC IZUMI CORPORATION 7 31 Nishi Miyahara 1 Chome Yodogawa ku Osaka 532 8550 Japan Tel 81 6 6398 2571 Fax 481 6 6392 9731 www idec com UNITED STATES IDEC CORPORATION 1175 Elko Drive
49. M1516 M1834 M1516 Slave 12B M1522 M1840 M1522 M1840 M1522 Slave 13B M1526 M1844 M1526 M1844 M1526 Slave 14B M1532 M1850 M1532 M1850 M1532 Slave 15B M1536 M1854 M1536 M1854 M1536 Slave 16B M1542 M1860 M1542 M1860 M1542 Slave 17B M1546 M1864 M1546 M1864 M1546 Slave 18B M1552 M1870 M1552 M1870 M1552 Slave 19B M1556 M1874 M1556 M1874 M1556 Slave 20B M1562 M1880 M1562 M1880 M1562 Slave 21B M1566 M1884 M1566 M1884 M1566 Slave 22B M1572 M1890 M1572 M1890 M1572 Slave 23B M1576 M1894 M1576 M1894 M1576 Slave 24B M1582 M1900 M1582 M1900 M1582 Slave 25B M1586 M1904 M1586 M1904 M1586 Slave 26B M1592 M1910 M1592 M1910 M1592 Slave 27B M1596 M1914 M1596 M1914 M1596 Slave 28B M1602 M1920 M1602 M1920 M1602 Slave 29B M1606 M1924 M1606 M1924 M1606 Slave 30B M1612 M1930 M1612 M1930 M1612 Slave 31B M1616 M1934 M1616 M1934 M1616 ider MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 13 6 AS INTERFACE OPERANDS L6 Series continued Selector Key sele ctor Lever Illuminated selector 2 position Illuminated selector 3 position Slave Number 3 position Input DI3 Input DI2 Input DI2 Output DOO Input DI3 Input DI2 Output DOO Slave 0 M1303 M1302 M1302 M1620 M1303 M1302 M1620 Slave 1 A M1307 M1306 M1306 M1624 M1307 M1306 M1624 Slave 2 A M1313 M1312 M1312 M1630 M
50. PO are used to set an operation mode of the slave For details see the user s manual for the slave Note 2 The slaves connected to the AS Interface bus are distinguished from each other by the ID code and 1 code con tained in each slave Some slaves have ID2 code and ID1 code to indicate the internal functions of the slave For example analog slaves use the ID2 code to represent the channel number of the slave Note 3 The MicroSmart AS Interface master module is also compatible with AS Interface ver 2 1 and earlier slaves Slave Addresses Each standard slave connected to the AS Interface bus can be allocated an address of 1 through 31 Each A B slave can be allocated an address of 1A through 31A or 1B through 31B slaves are set to address 0 at factory before shipment The address of a slave can be changed using the addressing tool Using WindLDR the addresses of slaves connected to the AS Interface master module can be changed see page 7 1 When a slave fails during operation and needs to be replaced if the auto addressing function is enabled on the master mod ule just replace the slave with a new one with address 0 and the same identification codes The new slave will automati cally be allocated the same address as the slave that was removed and you do not have to set the address again For details of the ASI command to enable auto addressing see page 6 17 Slave Identification Slaves have the following four ide
51. PS Data D1780 D1843 10 4 R Configuration data image CDI Registers D1844 D1907 10 4 R W 2 3 Permanent configuration data PCD Fach p ASI IS 2 D1908 D1923 3 0 R Parameter image PI executed D1924 D1939 3 0 R W 2 3 Permanent parameter PP D1940 0 7 R W Slave O ID1 code D1941 D1945 R W For ASI command description D1946 D1999 reserved 1 The time required to update the operand data When using the AS Interface master module the scan time increases by a minimum of 10 msec 2 t3 4 5 Processing Time AS Interface internal relays for digital I O and status infor mation and data registers for LAS LDS LPF are updated in every scan Data registers for analog I O operands are also updated in every scan only when analog I O are con nected to the AS Interface bus The processing times for these AS Interface operands are shown in the table above Other AS Interface data registers are updated when an These AS Interface operand data can be read or written using WindLDR For details see page 7 1 The LPS PCD and PP are set and downloaded to a PLC using WindLDR For details see page 7 3 IDI input data image ODI output data image The analog 1 0 data is updated only when an analog slave is connected to the AS Interface bus MicroSmart CPU Module AS Interface Operands AS Interface Master Module AS Interface Objects ASI command is execute
52. ace master module the following error message will be dis played Configure AS Interface Master e Reply Message Receive Timeout dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 7 5 7 USING WINDLDR 7 6 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL INDEX A B slaves 1 3 address LEDs 5 3 and I O LEDs 5 4 addressing tool 1 3 allocation numbers 6 1 analog T O data 6 4 input data 6 4 output data 6 5 slave profile 6 4 APF not APO 6 7 applicable cables 2 4 sensors and actuators 1 1 ASIcommands 6 17 AS Interface 1 1 bus cycletime 1 4 topology and maximum length 1 4 cable wiring 3 6 operand allocation numbers 6 1 operands 6 1 powersupply 1 2 standard cable 2 4 system setup 4 1 assembling modules 3 2 assigning a slave address 4 3 Auto_Address_Assign 6 6 Auto_Address_Available 6 7 cable computer link 4C 4 1 length 2 3 cables 1 2 2 4 CDI 6 9 changing ID1 code of slave 6 10 communication block mounting position 6 12 specifications 2 3 computer link cable 4C 4 1 Config OK 6 6 Configuration 6 7 configuration 7 3 data image CDI 6 9 mode 5 2 configure AS Interface master 7 1 configuring a slave 4 4 Connected Mode 6 7 connected mode 5 2 crimping tool 3 5 cycle time 1 4 Data_Exchange_Active 6 7 digital I O data allocation 6 11 input data image 6 2 output data image 6 3 digital I O data allocation 6 12 dimensions 2 4 DIN rail 3 3 direct mounting on panel surface 3
53. ady M1944 Configuration Configuration mode is enabled Other than configuration mode M1945 Normal Operation Active modes Other than normal protected mode M1946 APF not APO AS Interface power supply failure AS Interface power supply is normal M1947 Offline Ready Normal protected Online 1s Other than normal protected offline enabled M1950 Periphery_OK Peripheral devices are normal Peripheral devices are abnormal M1951 M1957 reserved M1960 Data Exchange Active Data exchange is enabled Data exchange is prohibited Command to go to normal pro M1961 Offline tected offline was issued by the ss EM protected pushbutton or WindLDR 1962 Connected Mode Connected mode is enabled Local mode is enabled M1963 M1997 reserved M1940 Config OK M1940 indicates the configuration status M1940 goes on when the permanent configuration data PCD stored in the AS Interface master module EEPROM matches the configuration data image CDI When configuration is changed e g a new slave is added or a slave fails M1940 goes off Then the FLT LED goes on M1941 LDS O M1941 is used to check for the presence of a slave with address 0 on the AS Interface bus M1941 goes on when a slave with address 0 the factory setting is detected on the AS Interface bus in normal protected mode or protected mode or when a slave address is changed to 0 while the AS Interface master module is in normal protected mode M1942 Auto Address A
54. attempt to reuse a direct mounting strip the hook may not catch on the recess suffi ciently and may come out easily When using a direct mounting strip again be certain to push the hook deeply into the recess Mounting Hole Layout for Direct Mounting on Panel Surface Make mounting holes of 84 3 mm as shown below and use M4 screws 6 or 8 mm long to mount the AS Interface master module on the panel surface 113 0 0 2 O Y Direct Mounting Strip FCAA PSP1P 3 4 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL Terminal Connection 3 INSTALLATION AND WIRING Caution Make sure that the operating conditions and environments are within the specification values Be sure to connect the ground terminal on the CPU module to a proper ground otherwise electri cal shocks may be caused Do not touch live terminals otherwise electrical shocks may be caused Do not touch terminals immediately after power is turned off otherwise electrical shocks may be caused When using ferrules insert a wire to the bottom of the ferrule and crimp the ferrule When connecting a stranded wire or multiple solid wires to a screw terminal block use a ferrule Otherwise the wire may slip off the terminal block Ferrules Crimping Tool and Screwdriver for Phoenix Terminal Blocks The screw terminal block for the AS Interface cable can be wired with or without using ferrules on the end of the cable Applicable ferrul
55. cated to read and write the LPS The LPS settings are stored to the AS Inter face master module when either Auto Configuration or Manual Configuration is executed on WindLDR The ASI command Read LPS can be used to read the LPS data to data registers D1776 through D1779 Then you can check the register bits to determine the slave projection When a bit is on it indicates that the corresponding slave is set as a projected slave After changing the LPS settings execute the ASI command Read LPS then you can use the updated data for program execution Data Format LPS Bits 15 to 8 Bits 7 to 0 D1776 Bytes O and 1 Slaves 15 A to 8 A Slaves 7 A to O D1777 Bytes 2 and 3 Slaves 31 A to 24 A Slaves 23 A to 16 A D1778 Bytes 4 and 5 Slaves 15B to 8B Slaves 7B to OB D1779 Bytes 6 and 7 Slaves 31B to 24B Slaves 23B to 16B 6 8 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 AS INTERFACE OPERANDS Slave Identification Information Slave Profile Data registers D1780 through D1940 are assigned to the slave identification information or the slave profile The slave profile includes configuration data and parameters to indicate the slave type and slave operation respectively Configuration Data Image CDI Data registers D1780 through D1843 are allocated to read the CDI of each slave The CDI is the current slave configura tion data collected by the AS Interface master module at power up and stored in the AS Inter
56. ce Power Supply PS2R Q3OABL Output 30 5V DC 2 4A 73W Connect the devices as shown below Slim Type CPU Module AS Interface Master Module FCAA D20RK1 FC4A AS62M Computer Link Cable 4C FC2A KC4C 3m 9 84 ft long dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL lll El Standard AS Interface Cable AS Interface Power Supply Standard Slave Address 0 ID 0 1 0 7 ID2 F 101 7 44 4 OPERATION BASICS Selecting the PLC Type Start WindLDR on a computer 1 From the WindLDR menu bar select Configure PLC Selection The PLC Selection dialog box appears 2 Select MicroSmart 20Ry PLC Selection x Type 3 Click OK to save changes and return to the ladder editing screen FA 35 11 FA 35 CP11T FA 3S EP12 X Cancel 35 EP13 Micro 1 Help Micro 3 MicroSmart 10 MicroSmart 16 MicroSmart 24 MicroSmart 20Tr MicroSmart 40 Default IMicroSmart 20R y Use as Default Function Area Settings Use of the AS Interface master module must be selected in the Function Area Settings dialog box 1 From the WindLDR menu bar select Configure Function Area Settings The Function Area Settings dialog box appears 2 Select the Others tab Run Stop Special Input Communication Input Filter Group 1 10 z Group 2 11 ams Fj Group
57. ce operands in the CPU module or to control the AS Interface master module CHAPTER 7 USING WINDLDR Procedures to use WindLDR ver 4 30 for the AS Interface system INDEX Alphabetical listing of key words SwitchNet SwitchNet is an IDEC trademark for pushbuttons pilot lights and other control units capable of direct connection to the AS Interface SwitchNet devices are completely compatible with AS Interface Ver 2 1 Note In this manual ASI is short for AS Interface and is not intended to represent any particular product IMPORTANT INFORMATION Under no circumstances shall IDEC IZUMI Corporation be held liable or responsible for indirect or consequential damages resulting from the use of or the application of IDEC PLC components individually or in combination with other equipment persons using these components must be willing to accept responsibility for choosing the correct component to suit their application and for choosing an application appropriate for the component individually or in combination with other equipment diagrams and examples in this manual are for illustrative purposes only In no way does including these diagrams and exam ples in this manual constitute a guarantee as to their suitability for any specific application To test and approve all programs prior to installation is the responsibility of the end user PREFACE 2 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL TABLE OF CONTENTS
58. configuration must be done using either WindLDR or the pushbut tons on the front of the AS Interface master module This section describes the method of configuration using WindLDR Configuration is the procedure to store the following information to the AS Interface master module EEPROM A list of slave addresses to be used Configuration data to specify slave types or identification codes ID I O ID2 ID1 Parameters P3 P2 P1 PO to designate the slave operation at power up WindLDR provides two options for configuration auto configuration to execute automatic configuration and manual con figuration to execute configuration according to the data selected by the user Auto Configuration Auto configuration stores the current slave configuration data LDS CDI PI to the AS Interface master module EEPROM LPS PCD PP To execute auto configuration press Auto Configuration in the Configure AS Interface Mas ter dialog box Auto configuration takes approximately 1 minute and has the same effect as the configuration using the pushbuttons on the AS Interface master module Slave Configuration Data AS Interface Master Module EEPROM List of detected slaves LDS List of projected slaves LPS Configuration data image CDI Configuration Permanent configuration data PCD Parameter image PI Permanent parameter PP Manual Configuration Manual configuration is the procedure to write the LPS PCD and PP desig nated on Wi
59. d in the CPU module For the processing times of the ASI commands see page 6 17 r 1 Constantly Ladder Processing Updated Operands ah D1700 D1775 AS Interface ASI Command k Processing D1941 D1945 Z TASI Command Other Updated Operands aim Processing D1776 D1940 IDI ODI Status Information Analog 1 0 LAS LDS LPF i LPS CDI PCD PI PP Slave O 101 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 AS INTERFACE OPERANDS 1 0 Data The AS Interface master module can process digital I O data and analog I O data Digital I O data can be a maximum of 4 digital inputs and 4 digital outputs per slave Analog I O data consists of 4 channels of 16 bit analog input or output data per slave Digital 1 0 Data of Standard Slaves and Expansion Slaves The digital I O data for standard slaves and slaves sensors and actuators on the AS Interface bus are allocated to the AS Interface internal relays in the ascending order starting with slave 0 The input data image IDI for each slave is allo cated to M1300 through M1617 and the output data image ODI is allocated to M1620 through M1937 For example in the case of slave 3A the input data is allocated to M1314 DIO through M1317 DI3 and the output data is allocated to M1634 DOO through M1637 DO3 Digital Input Data Image
60. data registers D1844 through D1907 Execute the ASI command Read PCD before using the PCD data for program execution Data Format PCD Bits 15 to 12 Bits 11 to 8 Bits 7 to 4 Bits 3 to 0 ID Code 1 0 Code ID2 Code ID1 Code D1844 Bytes O and 1 Slave D1845 Bytes 2 and 3 Slave 1 A D1846 Bytes 4 and 5 Slave 2 A D 1844 N Slave N A D1875 Bytes 62 and 63 Slave 31 A D1876 Bytes 64 and 65 unused D1877 Bytes 66 and 67 Slave 1B D 1876 N Slave NB D1907 Bytes 126 and 127 Slave 31B MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 9 6 AS INTERFACE OPERANDS Parameter Image Data registers D1908 through D1923 are allocated to read the PI of each slave The PI is made up of four parameters the P3 P2 P1 and PO The PI is the current slave parameter data collected by the AS Interface master module at power up and stored in the AS Interface master module To change the PI settings use WindLDR Slave Status dialog box or execute the ASI command Change Slave PI The ASI command Read PI can be used to read PI data to data registers D1908 through D1923 After changing the PI set tings execute the ASI command Read PI then you can use the updated PI data for program execution Data Format PI Bits 15to 12 Bits 11 to 8 Bits 7 to 4 Bits 3 to 0 P3 P2 P1 PO P3 P2 P1 PO P3 P2 P1 PO P3 P2 P1 PO D1908 Bytes O and 1 Slave 3 A Slave 2 A Slave 1 A Slave O D1909 Byte
61. e master module EEPROM does not match the current slave con figuration or configuration data image CDI Then configuration is not complete or an error was found on the AS Interface bus Status LEDs LMO Local mode Indicates the mode of the AS Interface master module Goes on when the AS Interface master module is in local mode Goes off when the AS Interface master module is in connected mode CMO Connected mode Indicates the mode of the AS Interface master module Goes on when the AS Interface master module is in connected mode Goes off when the AS Interface master module is in local mode OFF Offline Indicates the operating status of the AS Interface master module Goes on when the AS Interface master module is in normal protected offline CNF Configuration Indicates the configuration status of the AS Interface master module Flashes when the AS Interface master module is in configuration mode Input LEDs INO IN3 Indicates the operating status of four inputs at the address indicated by the address LEDs Goes on when the corresponding input at the indicated address is on Output LEDs OUTO OUT3 Indicates the operating status of four outputs at the address indicated by the address LEDs Goes on when the corresponding output at the indicated address is on Ox 3x place of 10 Address LEDs x0 x9 place of 1 Aor B slave Indicates the slave address of OA through 32B Goes
62. es for the Phoenix terminal blocks and crimping tool for the ferrules are listed below The screwdriver is used for tightening the terminal screws and mounting screws on the terminal block These ferrules crimping tool and screwdriver are made by Phoenix Contact and are available from Phoenix Contact Type numbers of the ferrules crimping tool and screwdriver listed below are the type numbers of Phoenix Contact When ordering these products from Phoenix Contact specify the Order No and quantity listed below Ferrule Order No Quantity of Cables Cable Size Phoenix Type Order No Pcs Pkt 0 5 mm AWG20 Al 0 5 8 WH 32 00 01 4 100 For 1 cable connection 0 75 mm2 AWG18 Al 0 75 8 GY 32 00 51 9 100 1 5mm AWG16 Al 1 5 8 BK 32 00 04 3 100 0 5 mm AWG20 ALTWIN 2 x 0 5 8 WH 3200933 100 For 2 cable connection 5 0 75 mm AWG18 AFTWIN 2 0 75 8 GY 3200807 100 Crimping Tool and Screwdriver Order No Tool Name Phoenix Type Pcs Pkt Tightening Torque Description Crimping Tool CRIMPFOX ZA 3 1201882 1 For crimping ferrules 0 5 to 0 6 N m For tightening terminal screws Screwdriver SZS 0 6 x 3 5 1205053 10 0 3 to 0 5 N m For tightening mounting screws MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 3 5 3 INSTALLATION AND WIRING AS Interface Cable Wiring Before wiring the AS Interface cable remove the AS Interface cable terminal block from the AS Interface cable connector on the
63. escription Time ms D1941 D1942 D1943 D1944 D1945 Read LPS 1 0 3 Reads LPS to D1776 D1779 010B O84C 0001 Read CDI 10 4 3 Reads CDI to D1780 D1843 010C 4050 0001 Read PCD 10 4 3 Reads PCD to D1844 D1907 O10E 4090 0000 0000 0001 Read PI 3 0 3 Reads PI to D1908 D1923 0107 20DO 0001 Read PP 3 0 3 Reads PP to D1924 D1939 0108 2 0000 0000 0001 Read Slave 0 ID1 0 7 3 Reads slave ID1 to D1940 0109 2 0000 0000 0001 Write Slave O ID1 0 7 3 Writes D1940 to slave O ID1 0209 2 0000 0001 Copy PI to gg 4 Copies parameter image to yerme 0306 0100 0000 0000 0001 nent parameter Change Slave PI e 0 8 4 Writes Pl to slave Note 0306 0102 000 00x 0001 Go to Normal Protected Offline 0 8 4 From normal protected mode to o301 0000 0000 0001 mal protected offline 4 From normal protected offline to nor Go to Normal Protected Mode 0 8 0306 0300 0000 0000 0001 mal protected mode Prohibit Data Exchange 0 8 4 From normal protected mode to 0404 0000 0000 0001 mal protected data exchange off Enable Data Exchange 0 8 4 From normal protected data exchange 0306 o400 0000 0000 0001 off to normal protected mode Change Slave Address 2 g ke slave e e new 0306 0500 00 0001 address Note Enable Auto Addressin
64. executed correctly 14h Peripheral device failure The CPU module stores all values automatically 24h ASI command error Sl ae 74h Impossible to execute 84h Execution resulting in error Sample Program Change Slave PI This sample program changes the PI value of slave 1A to 3 To use the ASI command Change Slave PI store new parame ter value 3 to D1943 and 1 to D1944 to designate the slave address using the MACRO instruction on WindLDR Command Data Hexadecimal Program D1941 D1942 D1943 D1944 D1945 Write PI parameter 3 to slave 1A 0306 0102 0003 0001 0001 Parameters P3 through PO are weighted as shown in the table below When the PI parameter is set to 3 P3 and P2 are turned off and P1 and PO are turned on Weight 8 4 2 1 ON OFF OFF OFF ON ON When input IO turns on the MACRO instruction stores hexa H EU i MACRO St Disas decimal values 0306 0102 0003 0001 and 0001 to five data registers D1941 through D1945 Hexadecimal 03060102000300010001 X Cancel Help D D2 Macro 03 06 01 02 00 03 00 01 00 01 Toe Name D1941 pis Allocation Number 01941 D1945 Tag Name Comment Insert Delete Edit ue 6 18 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL Z USING WINDLDR Introduction This chapter describes the procedures to use WindLDR for the AS Interface system WindLDR contains the Configure AS Interface Master dialog box to configure s
65. face master module The CDI is made up of four codes the ID code I O code ID2 code and ID1 code The CDI of slaves not connected to the AS Interface bus is FFFFh The ASI command Read CDI can be used to read the CDI data to data registers D1780 through D1843 Execute the ASI command Read CDI before using the CDI data for program execution Data Format CDI Bits 15to 12 Bits 11 to 8 Bits 7 to 4 Bits 3 to 0 ID Code 1 0 Code ID2 Code ID1 Code D1780 Bytes O and 1 Slave D1781 Bytes 2 and 3 Slave 1 A D1782 Bytes 4 and 5 Slave 2 A D 1780 N Slave N A D1811 Bytes 62 and 63 Slave 31 A D1812 Bytes 64 and 65 unused D1813 Bytes 66 and 67 Slave 1B D 1812 N Slave NB D1843 Bytes 126 and 127 Slave 31B Permanent Configuration Data PCD Data registers D1844 through D1907 are allocated to read and write the PCD of each slave Like the CDI the PCD is made up of four codes the ID code I O code ID2 code and ID1 code When auto configuration is executed the CDI is copied to the PCD and stored in the EEPROM of the AS Interface master module When you execute manual configuration you can set the PCD using the Configure Slave dialog box on WindLDR Set the PCD of each slave to the same value as its CDI If the PCD is different from the CDI for a slave then that slave does not function correctly Set FFFFh to the PCD of vacant slave numbers The ASI command Read PCD can be used to read the PCD data to
66. g 0 8 4 Enables auto address assign default 0306 0800 0000 0000 0001 Disable Auto Addressing 0 8 4 Disables auto address assign 0306 0801 0000 0000 0001 1 WindLDR has the Slave Status dialog box to execute this command to write a PI value to a designated slave See Sam ple Program on page 6 18 2 WindLDR has the Change Slave Address dialog box to execute this command 3 Completed in a scan when the five data registers store respective values When completed D1945 stores 4 See Request and Result Codes on page 6 18 Other commands takes several scans to complete execution 4 Each scan time extends by 0 8 msec At least 1 sec is required until the ASI command takes effect Note Specify the slave address in the data register as shown in the table below Data Register Value Data Register Value Slave Address Slave Address Hexadecimal Decimal Hexadecimal Decimal O A Oh 0 1 A 1h 1 1B 21h 33 2 A 2h 2 2B 22h 34 31 1Fh 31 31B 3Fh 63 dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 17 6 AS INTERFACE OPERANDS Request and Result Codes D1945 Value Lower Byte Description Note 00h Initial value at power up 01h Request ozh Processing command While D1945 lower byte stores O1h O2h or O8h 04h Completed normally do not write any value to D1945 otherwise the ASI 08h Executing configuration command is not
67. g the ASI commands Enable Data Exchange and Prohibit Data Exchange M1961 Off line M1961 goes on when a command to switch to normal protected offline is issued To switch to normal protected offline from normal protected mode either press the PB2 button on the AS Interface master module or issue the ASI command Go to Normal Protected Offline M1961 remains on until normal protected offline is exited M1962 Connected Mode M1962 indicates that the AS Interface master module is in connected mode While in connected mode M1962 remains on Then LMO LED remains off and the CMO LED remains on dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 7 6 AS INTERFACE OPERANDS Slave List Information Data registers D1764 through D1779 are assigned to slave list information to determine the operating status of the slaves The slave list information is grouped into four lists List of active slaves LAS shows the slaves currently in operation List of detected slaves LDS the slaves detected on the AS Interface bus List of peripheral fault slaves LPF the faulty slaves List of projected slaves LPS the slave configuration stored in the AS Interface master module List of Active Slaves LAS Data registers D1764 through D1767 are allocated to read the LAS You can check the register bits to determine the oper ating status of each slave When a bit is on it indicates that the corresponding slave is active Data Format LAS B
68. here corrosive chemicals or flammable gases are present The modules should not be exposed to chemical oil or water splashes dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 3 1 3 INSTALLATION AND WIRING Assembling Modules N Caution Assemble MicroSmart modules together before mounting the modules onto a DIN rail Attempt to assemble modules on a DIN rail may cause damage to the modules Turn off the power to the MicroSmart before assembling the modules Failure to turn power off may cause electrical shocks The following example demonstrates the procedure for assembling the 40 I O type CPU module and the AS Interface master module together When assembling the 20 I O relay output type CPU module take the same procedure 1 When assembling an AS Interface master mod ule remove the expansion connector seal from the 40 I O type CPU module i Bag 2 Place the CPU module and AS Interface master module side by side Put the expansion connectors together for easy alignment 3 With the expansion connectors aligned correctly and the blue unlatch button in the down position press the CPU module and AS Interface master module together until the latches click to attach the modules together firmly If the unlatch button is in the up position push down the button to engage the latches Note When assembling other 1 0 modules with the AS Interface master module take the same procedure Disassembling Modules
69. hether or not the conditions for the auto addressing function are satisfied M1943 goes on when the auto addressing function is enabled and there is one faulty slave a slave which cannot be recognized by the AS Interface mas ter module on the AS Interface bus M1944 Configuration M1944 indicates whether the AS Interface master module is in configuration mode on or other mode off While config uration mode is enabled M1944 remains on and the CNF LED flashes M1945 Normal Operation Active M1945 remains on while the AS Interface master module is in normal protected mode M1945 is off while in other modes When M1945 turns on the CPU module starts to exchange data communication with the connected slaves M1946 APF not APO M1946 goes on when the AS Interface power supply has failed then the PWR LED goes off M1947 Offline Ready M1947 indicates that the AS Interface master module is in normal protected offline While in normal protected offline M1947 remains on and the OFF LED also remains on M1950 Periphery OK M1950 remains on while the AS Interface master module does not detect a failure in peripheral devices When a failure is found M1950 goes off M1960 Data Exchange Active M1960 indicates that data exchange is enabled While M1960 is on the AS Interface master module is in normal protected mode and data exchange between the AS Interface master module and slaves is enabled The data exchange can be enabled and disabled usin
70. iie dae ay POESIE Ehe m teh NR 6 2 Status Information orte rere atur x once orden Fatti o Ro Rp nts 6 6 Slave List Information RO a RU ayapa Pak wee kG 6 8 Slave Identification Information Slave Profile 6 9 SwitchNet Data 1 0 Port ras 6 11 Internal Relays for SwitchNet Slaves 6 13 ASI Comimatids eee x aste RR r a age A ake e Mum 6 17 UsiNG WINDLDR Configure AS Interface 7 1 Change Slave Address uu las Uc aa aa aaa 7 2 Configuration i i E 7 3 Monitor AS Interface Slave 7 4 ErroriMessages oa hy ae a Wake RF dee hale Dow hee e ei 7 5 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 1 AS INTERFACE Introduction This chapter describes general information about the Actuator Sensor Interface abbreviated AS Interface AS Interface is a type of field bus that is primarily intended to be used to control sensors and actuators AS Interface is a network system that is compatible with the IEC62026 standard and is not proprietary to any one manufacturer A master device can communicate with slave devices such as sensors actuators and remote I Os using digital and analog signals transmitted over the AS Interface bus The
71. its 15 to 8 Bits 7 to 0 D1764 Bytes O and 1 Slaves 15 A to 8 A Slaves 7 A to O D1765 Bytes 2 and 3 Slaves 31 A to 24 A Slaves 23 A to 16 A D1766 Bytes 4 and 5 Slaves 15B to 8B Slaves 7B to OB D1767 Bytes 6 and 7 Slaves 31B to 24B Slaves 23B to 16B List of Detected Slaves LDS Data registers D1768 through D1771 are allocated to read the LDS You can check the register bits to determine the detec tion status of each slave When a bit is on it indicates that the corresponding slave has been detected by the master Data Format LDS Bits 15 to 8 Bits 7 to 0 D1768 Bytes O and 1 Slaves 15 A to 8 A Slaves 7 A to O D1769 Bytes 2 and 3 Slaves 31 A to 24 A Slaves 23 A to 16 A D1770 Bytes 4 and 5 Slaves 15B to 8B Slaves 7B to OB D1771 Bytes 6 and 7 Slaves 31B to 24B Slaves 23B to 16B List of Peripheral Fault Slaves LPF Data registers D1772 through D1775 are allocated to read the LPF You can check the register bits to determine the fault status of each slave When a bit is on it indicates that the corresponding slave is faulty Data Format LPF Bits 15 to 8 Bits 7 to 0 D1772 Bytes O and 1 Slaves 15 A to 8 A Slaves 7 A to O D1773 Bytes 2 and 3 Slaves 31 A to 24 A Slaves 23 A to 16 A D1774 Bytes 4 and 5 Slaves 15B to 8B Slaves 7B to OB D1775 Bytes 6 and 7 Slaves 31B to 24B Slaves 23B to 16B List of Projected Slaves LPS Data registers D1776 through D1779 are allo
72. laves and to change slave addresses and the Monitor AS Interface Slave dialog box to monitor the slave operation For the procedures to select the PLC type and Function Area Settings see page 4 2 Configure AS Interface Master AS Interface compatible slave devices are set to address 0 at factory and must be assigned a unique slave address so that the master can communicate with the slave correctly From the WindLDR menu bar select Configure gt AS Interface Master The Configure AS Interface Master dialog box appears opu Click the slave address to Configure AS Interface Master x open the Change Seve RN Current Address Slave A 1 Address dialog box CDI PCD CDI PCD New Address Svea f ij 00 FFFF FFFF 18 FFFF FFFF NITE C Slave B FFFF FFFF 17 FFFF X Cancel Slave Configuration Data Structure IDAOADZADI CDI FFFF PCD Parameters PP 0 Cc e Off On 4 fe Off On 2 C fe Off 3 On e Off TN Button open the Configure Slave dialog box 02 18 FFFF FFFF 19 FFFF FFFF Refresh 20 FFFF FFFF Switch Slave 21 T 22 FFFF FFFF Gay File Open Click a PCD value to 07 FFFF FFFF 23 FFFF File Save 08 FFFF FFFF 24 FFFF FFFF Help 08 FFFF FFFF 221 agar Olana 10 FFFF 26 FFF FFFF structure of CDI PCD 0
73. lick the output of slave address 01 to open the Slave Status 01A dialog box 3 Click the On or Off button to change the statuses of outputs OO through O3 and parameters PI PO through P3 as required Monitor AS Interface Slaves x Slave A In Out In Out In Out In Out Blue Shade oo 0000 0000 08 0000 0000 16 0000 0000 24 0000 0000 0000 0000 Slave Status 01A x Outputs r o0 m01 ro2 On On On Off C off C otf Off Parameters PI 1 2 rP3 C On On On fe Off C Off C Off C Off gs Store L Close The selected parameters PI are in effect until the CPU module is shut down When the CPU module is powered up again the parameter values PP selected in the slave configuration procedure page 4 4 will take effect To store the changed parameter values to the AS Interface master module EEPROM execute the Copy PI to PP command by storing 0306 0100 0000 0000 0001 to data registers D1941 through D1945 See page 6 17 46 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 4 OPERATION BASICS Troubles at System Start up The following table summarizes possible troubles at system start up probable causes and actions to be taken Trouble PWR LED is off power Cause and Action AS Interface power is not supplied to the AS Interface master module Check that wiring is correct and AS Interface
74. lips on both sides of the MicroSmart modules to prevent moving sideways Removing from DIN Rail 1 Insert a flat screwdriver into the slot in the clamp 2 Pull out the clamps from the modules 3 Turn the MicroSmart modules bottom out Direct Mounting on Panel Surface MicroSmart modules can also be mounted on a panel surface inside a console When mounting a slim type CPU module AS Interface master module and other expansion modules use optional direct mounting strip 4 as described below Installing the Direct Mounting Strip 1 Remove the clamp from the module by pushing the clamp inward 2 Insert the direct mounting strip into the slot where the clamp has been removed A Further insert the direct mounting strip until the hook enters into the recess in the module B Groove 35 mm wide DIN Rail Clamp 35 mm wide DIN Rail Clamp Direct Mounting Strip FCAA PSP1P ii dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 3 3 3 INSTALLATION AND WIRING Removing the Direct Mounting Strip 1 Insert a flat screwdriver under the latch of the direct A mounting strip to release the latch A si dim Md of 2 Pull out the direct mounting strip B 9 od Ex A Caution Reusing the Direct Mounting Strip When you
75. ndLDR to the AS Interface FFFFh 0 DOE master module EEPROM LPS is auto Other values 4 gt matically generated by WindLDR based Configure Slave 02A x PCD LPS Slave Configuration Data Structure IDAOMDZADI on the value for PCD Parameters PP P t To change PCD and PP use the Configure Slave dialog box Set the Lab m a x js 28 i m PCD of each slave to the same value as its CDI If the PCD is differ PP ee Tore Tom ent from the CDI for a slave then that slave does not function cor rectly Set FFFFh to the PCD of vacant slave numbers After entering PCD value and selecting parameter statuses click OK At this point the configuration data are not stored to the AS Interface master module EEPROM To store the changes click Manual Configuration on the Configure AS Interface Master dialog box The screen display of the Configure AS Interface Master dialog box can be updated using Refresh If you save the configuration data to a file you can open the file to configure other AS Interface master modules using the same data To save and open the configuration file click File Save or File Open If the configuration command is not processed correctly the error message AS Interface Master Error and an error code will appear See page 7 5 If the error message Configuration failure Confirm the slave setup and perform configuration again is shown
76. ntification codes The master checks the identification codes to determine the type and feature of the slave connected on the AS Interface bus ID Code The ID code consists of 4 bits to indicate the type of the slave such as sensor actuator standard slave or A B slave For example the ID code for a standard remote I O is 0 and that for an slave is A hex 1 0 Code The I O code consists of 4 bits to indicate the quantity and allocation of I O points on a slave 1 0 Code Allocation 1 0 Code Allocation 1 0 Code Allocation 1 0 Code Allocation Oh LLLI 4h LLB B 8h 0 0 0 0 Ch O B 1h 1 1 1 O 5h 1 0 0 0 9h 0 0 0 I Dh 1 1 1 2h LLLB 6h LB B Ah 0 0 B Eh O B 3h 1 1 0 0 7h B B B B Bh O Fh reserved l input O output B input and output ID2 Code The ID2 code consists of 4 bits to indicate the internal function of the slave ID1 Code The ID1 code consists of 4 bits to indicate additional identification of the slave Standard slaves can have an ID1 code of 0000 through 1111 bin A B slaves use the MSB to indicate A or B slave and can have a unique value only for the lower three bits The MSB of A slaves is set to 0 and that of B slaves is set to 1 dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 1 3 1 AS INTERFACE Quantities of Slaves and 1 0 Points The quantity of slaves that can be connected to one AS Interface bus is as follows e S
77. o or more slaves with the same address Each slave must have a unique address If two slaves have the same address and same identification codes ID 1 0 ID2 ID1 the AS Interface master module may fail to detect an error When changing the duplicate slave address using WindLDR remove one of the slaves from the bus MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 4 7 4 OPERATION BASICS 48 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 5 PUSHBUTTONS AND LED INDICATORS Introduction This chapter describes the operation of pushbuttons PB1 and PB2 on the AS Interface master module to change operation modes and also explains the functions of address and I O LED indicators Pushbutton Operation The operations performed by pushbuttons PB1 and PB2 on the front of the AS Interface master module depend on the duration of being pressed A long press switches the operation mode and a short press switches the slave being moni tored on the I O LEDs If the duration of pressing PB1 or PB2 does not correspond to either of these the status of the AS Interface master module does not change Long Press v A long press takes effect when you press either pushbutton PB1 or PB2 or both for 3 seconds or more Use the long press to change the operation mode of the AS Interface master module or to 1 save the configuration data to the AS Interface master module EEPROM Short Press A short press takes effect when you
78. od of configuration is manual configuration as follows 2 Click the PCD value FFFF of slave address 01 to open the Configure Slave 01A dialog box 3 Enter the same value as CDI 07 7 to the PCD field Set FFFF to PCD values of all unused slaves 4 Select initial settings of parameters 0 through 3 if required Configure AS Interface Master x Slave Yellow Shade CO PO c re fice Do nani Auto Configuration 01 07F7 17 FFFF FFFF Manual Configuration 18 FFFF FFFF 03 FFFF FFFF 19 FFFF FFFF Configure Slave 01 x 04 FFFF 20 FFFF FFFF Slave Configuration Tn Switch Slave 05 FFFF FFFF mM FFFF FFFF Data Structure IDAO1D24D1 GE File Op FFFF FFFF FFFF ile Open ax m 22 07 FFFF FFFF 28 FFFF FFFF Es pr File Save 08 FFFF 24 FFFF FFFF Help Parameters PP 09 FFFF FFFF 25 ELER FFFF 4 2 3 10 FFFF FFFF 26 ARP FFFF Data Structure of CDI PCD C On On C On On EEE SEFER FFF FFF IDAOAD2AD1 9o s 12 FFFF FFFF 28 FFFF FFFF 13 FFFF 28 FFFF 14 FFFF FFFF 30 FFFF FFFF FFFF 5 Click the Manual Configuration button to store the selected PCD and parameter values to the master module 6 Check that the blue shade appears at slave address 01 Now configuration is complete Configure AS Interface Master x Slave A
79. open the Configure AS Interface Master dialog box Press Refresh to collect slave information and update the screen display When configuration in the mas ter module is complete you do not have to press Refresh since the screen display is updated automatically On the Configure AS Interface Master dialog box slave address 0 is shaded with yellow This means that the master mod ule has found slave address 0 on the AS Interface bus The CDI for address 0 shows 07F7 ID 0 I O 7 ID2 F ID1 7 3 Click the slave address 00 to open the Change Slave Address dialog box for slave 0 To assign slave address 1 to the slave enter 1 in the New Address field and click OK Configure AS Interface Master x Yellow Shade Slave A CDI PCD CDI PCD J Close 00 MRI FFFF 16 FFFF FFFF Auto Configuration Ol FFFF FFFF 17 FFFF FFFF Click slave address O to open the 02 FFFF FFFF 18 FFFF FFFF Manual Configuration Change Slave Address dialog box 03 _FFFF 19 FFF 04 FFFF FFFF 20 FFFF FFFF Switch Slave 05 FFFF FFFF M FFFF Change Slave Address x 06 FFFF 22 FFFF File Open Current Address Slave A 0 O Vande FFF 23 FFFF File Save New Address Slave A 1 i C Slave B 08 FFFF FFFF 24 FFFF FFFF Help 09 FFFF FFFF 25 FFFF FFFF X conca 10 FFFF 28 FFFF FFFF structure of CDI PCD 11 FFFF FFFF 27 FFFF
80. power is supplied Power is not supplied from the CPU module to the AS Interface master module Check the connection between the CPU module and the AS Interface master module FLT LED is on fault Slave configuration on the bus is incorrect Use the WindLDR slave monitor function to check that slaves are connected correctly Perform configuration if necessary For the configuration method see page 7 1 If FLT LED remains on even though slaves are connected correctly and configuration is completed either disconnect and reconnect the AS Interface connector or turn off and on the AS Interface power supply LMO LED is on local mode The CPU module fails to communicate with the AS Interface master module Check the following points s the CPU module compatible with AS Interface Check the Type No of the CPU module s the system program of the CPU module 201 or higher Check the system program version in the Online gt PLC Status dialog box in WindLDR s a check mark put in the check box Use AS Interface Master Module in WindLDR Function Area Settings The box is checked as default If not put a check mark and download the user program to the CPU module OFF LED is on offline While a slave of address O was connected power was turned on After changing the slave address power up again For the address changing method see page 7 2 Slave operation is unstable Check if there are tw
81. press either pushbutton PB1 or PB2 for 0 5 second or less Use the short press to change the slave address when monitoring slave I O status on the AS Inter face master module LED indicators Transition of AS Interface Master Module Modes Using Pushbuttons Connected Mode MicroSmart Power ON Normal Protected Mode PB2 PB2 ec Normal Protected Offline Normal Protected Data Exchange Off Store Configuration Data to EEPROM Local Mode Note All pushbutton operations PB1 ey e J Configuration Mode PB2 for changing modes are PB2 f long press m Protected Mode FB et PB2 Store Configuration Data to EEPROM 1 Pushbutton operation or execution of the ASI command Go to Normal Protected Offline 2 Pushbutton operation or execution of the ASI command Go to Normal Protected Mode 3 Execution of the ASI command Prohibit Data Exchange 4 Execution of the ASI command Enable Data Exchange 5 Configuration is done by clicking the Auto Configuration or Manual Configuration button in WindLDR The configuration data is saved to the AS Interface master module EEPROM dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 5 1 5 PUSHBUTTONS AND LED INDICATORS AS Interface Master Module Operation Modes The AS Interface master module has two modes of operation connected mode is used for actual
82. put data is O off LED is off 4 X2 The input data from 2 position selector key selector and illuminated selector switches and 2 position lever switches depend on the operator position as shown below Selector Lever Left Right 2 Up 2 position Operator E gt Ne 1 Down Operator Position 1 DI2 5 X3 The input data from 3 position selector key selector and illuminated selector switches and 3 position lever switches depend on the operator position as shown below Selector Lever Center 2 Up 3 position Operator Let 0 Right p p 1 2 0 Center 1 Down Operator Position 1 0 DI3 0 0 DI2 1 0 6 Unused input bits DI3 and DI2 are O off and unused input bits DI1 and DIO are 1 on Slaves ignore unused output data sent from the master dec MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 11 6 AS INTERFACE OPERANDS HW Series Digital 1 0 Data Allocation Input data is sent from slaves to the AS Interface master Output data is sent from the AS Interface master to slaves Communication Input Data Output Data eae io Used 1 0 Block Mounting slave send data slave receive data ave Uni ed Position DI2 DIL DIO 2 DO1 DOO Pushbutton 1 in O 0 X1 1 1 Pilot light 1 out 0 1 1 X1 Illuminated pushbutton 1 in 1 out 0 X1 1 1 X1 Selector Key selector 2 position 1in 0 X2 1 1
83. re always reserved for each slave Analog Slave Module Data Storage Analog Input Slave Data Storage Analog Output Slave 1st D1700 D1703 Slave 1 D1732 D1735 Unused 2nd D1704 D1707 Unused 01736 01739 Slave 5 01708 01711 Slave 13 01740 01743 4th D1712 D1715 Slave 14 D1744 D1747 Slave 14 5th D1716 D1719 Slave 20 D1748 D1751 Unused 6th D1720 D1723 Slave 21 D1752 D1755 Slave 21 7th D1724 D1727 Unused D1756 D1759 Slave 25 8th D1728 D1731 reserved D1760 D1763 reserved MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 5 6 AS INTERFACE OPERANDS Status Information The status information is allocated to AS Interface internal relays M1940 through M1997 These internal relays are used to monitor the status of the AS Interface bus If an error occurs on the bus you can also confirm the error with the status LEDs on the front of the AS Interface master module in addition to these status internal relays Status Information Internal Relays Description Internal Relays Status ON OFF M1940 Config OK Configuration is complete Configuration is incomplete Slave address is detected on Slave address O is not detected on M1941 the AS Interface bus the AS Interface bus M1942 Auto Address Assign Auto addressing is enabled Auto addressing is disabled M1943 Auto Address Available Auto addressing is ready Auto addressing is not re
84. rs require 2 slave addresses Communication Block Mounting Position Mounting Position NI AS i 4 AS Rear View Address Marking Area Mounting Position D 1 00 DO ZI a a i gt r AS AS i On 3 position selector key selector and illuminated selector switches communication blocks and are mounted in positions shown above 6 Unused input bits DI3 and DI2 are O off and unused input bits DI1 and DIO are 1 on Slaves ignore unused output data sent from the master 6 12 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 AS INTERFACE OPERANDS Internal Relays for SwitchNet Slaves L6 Series i s Selector Key selector Slave Number Pushbutton Pilot Light Illuminated Pushbutton Lever 2 position Input DI2 Output DOO Input DI2 Output DOO Input DI2 Slave 0 M1302 M1620 M1302 M1620 M1302 Slave 1 A M1306 M1624 M1306 M1624 M1306 Slave 2 A M1312 M1630 M1312 M1630 M1312 Slave 3 A M1316 M1634 M1316 M1634 M1316 Slave 4 A M1322 M1640 M1322 M1640 M1322 Slave 5 A M1326 M1644 M1326 M1644 M1326 Slave 6 A M1332 M1650 M1332 M1650 M1
85. s 2 and 3 Slave 7 A Slave 6 A Slave 5 A Slave 4 D1910 Bytes 4 and 5 Slave 11 A Slave 10 A Slave 9 A Slave 8 A D 1908 N 4 Slave N 3 A Slave N 2 A Slave N 1 A Slave N A D1915 Bytes 14 and 15 Slave 31 A Slave 30 A Slave 29 A Slave 28 A D1916 Bytes 16 and 17 Slave 3B Slave 2B Slave 1B unused D1917 Bytes 18 and 19 Slave 7B Slave 6B Slave 5B Slave 4B D 1916 N 4 Slave N 3 B Slave N 2 B Slave N 1 B Slave NB D1923 Bytes 30 and 31 Slave 31B Slave 30B Slave 29B Slave 28B Permanent Parameter PP Data registers D1924 through D1939 are allocated to read and write the PP of each slave Like the PI the PP is made up of four parameters the P3 P2 P1 and PO When auto configuration is executed the PI is copied to the PP and stored in the EEPROM of the AS Interface master module When you execute manual configuration you can set the PP using the Con figure Slave dialog box on WindLDR The ASI command Read PP can be used to read PP data to data registers D1924 through D1939 After changing the PP set tings execute the ASI command Read PP then you can use the updated PP data for program execution Data Format PP Bits 15 to 12 Bits 11 to 8 Bits 7 to 4 Bits 3 to 0 P3 P2 P1 PO P3 P2 P1 PO P3 P2 P1 PO P3 P2 P1 PO D1924 Bytes and 1 Slave 3 A Slave 2 A Slave 1 A Slave D1925 Bytes 2 and 3 Slave 7 A Slave 6 A Slave 5 A Slave 4 D1926 Bytes 4 and 5 Slave 11
86. s Manual This user s manual describes brief information about the AS Interface and the entire functions installation and program ming of the MicroSmart AS Interface interface module Note WindLDR Ver 4 21 and higher are compatible with the AS Interface master module This manual describes procedures for using WindLDR Ver 4 30 CHAPTER 1 AS INTERFACE General information about of the Actuator Sensor Interface abbreviated AS Interface CHAPTER 2 MODULE SPECIFICATIONS Specifications of the AS Interface master module and applicable cables CHAPTER 3 INSTALLATION AND WIRING Methods and precautions for installing and wiring the AS Interface master module CHAPTER 4 OPERATION BASICS General information about simple operating procedures for the basic AS Interface system from programming WindLDR on a computer to monitoring the slave operation CHAPTER 5 PUSHBUTTONS AND LED INDICATORS Operation of pushbuttons PB1 and PB2 on the AS Interface master module to change operation modes and also the func tions of address and I O LED indicators CHAPTER 6 AS INTERFACE OPERANDS AS Interface operands or internal relays M1300 through M1997 and data registers D1700 through D1999 assigned in the CPU module to control and monitor the AS Interface bus Provides detailed description about internal relays allocated to SwitchNet control units for use as slaves in the AS Interface network Also describes ASI commands used to update AS Interfa
87. scription zd deed ni ei slaves slaves fault slaves slaves No Shade The slave is not recognized by the master OFF OFF OFF ON OFF Blue Shade The slave is active ON ON OFF ON Yellow Shade The slave is recognized but not enabled to operate OFF ON OFF OFF Red Shade An error was found in the slave ON OFF ON OFF ON ON OFF Change Slave Address When a slave is connected to the AS Interface master module the slave address can be changed using WindLDR A Warning A Caution To change a slave address from the WindLDR menu bar select Configure j Change Slave Address gt AS Interface Master The Configure AS Interface Master dialog box cive diwet 4 Current Address Slave A 1 appears Click a slave address to open the Change Slave Address dialog box Select Slave A or Slave B enter a required address in the New Address field and click OK The Change Slave Address dialog box is closed The new slave Duplicate slave addresses Each slave must have a unique address Do not connect two or more slaves with the same address otherwise the AS Interface master module cannot locate the slave correctly When two slaves have the same address and different identification codes ID I O ID2 ID1 the AS Interface master module detects an error When two slaves have the same address and same identification codes the AS Interface master module cannot detect an error Failure to observe this warning may cause severe personal injury or heav
88. ssign M1942 indicates that the auto addressing function is enabled The default setting is enabled and M1942 is normally on This setting can be changed using the ASI commands Enable Auto Addressing and Disable Auto Addressing Note When the auto addressing function is enabled at the AS Interface master module and a slave fails you can replace the slave with a new slave which has the same identification codes without stopping the AS Interface bus f the replacement slave is assigned the same address and has the same identification codes as the failed slave the replacement slave is automatically added to the LDS list of detected slaves to continue operation If the assigned address or the identification codes of the replacement slave are different from the failed slave the FLT LED will go on When replacing a failed slave with a new slave which is assigned address O factory setting and has the same identifica tion codes the new slave will be assigned the address of the failed slave and added to the LDS and LAS list of active slaves If the identification codes of the replacement slave are different from the failed slave the FLT LED will go on The auto addressing function for a replacement slave works only when one slave has failed This function cannot be used to replace multiple slaves 6 6 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 AS INTERFACE OPERANDS M1943 Auto Address Available M1943 indicates w
89. tandard slaves 31 maximum AJB slaves 62 maximum The limits for slave quantities given above apply when the slaves are either all standard slaves or are all A B slaves When 62 slaves with four inputs and three outputs are connected a maximum of 434 I O points 248 inputs and 186 outputs can be controlled over the bus When using a mix of standard slaves and slaves together the standard slaves can only use addresses 1 A through 31 A Also when a standard slave takes a certain address the B address of the same number cannot be used for A B slaves AS Interface Bus Topology and Maximum Length The AS Interface bus topology is flexible and you can wire the bus freely according to your requirements When repeaters or extenders are not used the bus length can be 100m 328 feet at the maximum AS Interface Bus Cycle Time The AS Interface bus cycle time is the amount of time required for a master to cycle through every slave on the bus The information for each slave is continuously transmitted over the bus in sequence so the AS Interface bus cycle time depends on the quantity of active slaves When up to 19 slaves are active the bus cycle time is 3 msec When 20 to 31 slaves are active the bus cycle time is 0 156 x 1 N msec where N is the number of slaves When A slave and B slave have the same address number e g 12A and 12B the two slaves are alternately updated each cycle Therefore when the system consists
90. ternal relay M1945 Normal Operation Active turns on Make sure that M1945 is on before starting to access the slave I O data MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 3 6 AS INTERFACE OPERANDS Analog 1 0 Data of Analog Slaves The I O data for a maximum of seven analog slaves four channels for each slave on the AS Interface bus is stored to AS Interface data registers in the CPU module The analog slave addresses 1 to 31 are in the ascending order The input data for each analog slave is allocated to data registers D1700 to D1731 and the output data is allocated to D1732 to D1763 The AS Interface master module is compliant with analog slave profile 7 3 The maximum number of analog slaves that can be connected to the AS Interface bus is seven Do not connect eight or more analog slaves to one bus otherwise the slaves will not function correctly When data registers D1700 through D1731 allocated to analog inputs contain 7FFF do not use this data for programming because this value is reserved for a special meaning as follows Unused channel on a slave allocated to analog slave For a channel on a slave not allocated an analog slave the corresponding data register holds an indefinite value Data overflow Communication between the master and analog slave is out of synchronism When using analog slaves read the user s manual for the analog slave to process the data properly Analog Input Data
91. tion Degree 2 IEC 60664 Degree of Protection IP20 Corrosion Immunity Free from corrosive gases Altitude Operation Transport O to 2 000m 0 to 6 565 feet O to 3 000m 0 to 9 840 feet Vibration Resistance When mounted on a DIN rail 10 to 57 Hz amplitude 0 075 mm 57 to 150 Hz acceleration 9 8 m s 2 hours per axis on each of three mutually perpendicular axes When mounted on a panel surface 2to 25 Hz amplitude 1 6 mm 25 to 100 Hz acceleration 39 2 m s 90 minutes per axis on each of three mutually perpendicular axes Shock Resistance 147 m s 11 msec duration 3 shocks per axis on three mutually perpen dicular axes IEC 61131 External Power Supply AS Interface power supply 29 5 to 31 6V DC AS Interface Current Draw 65 mA normal operation 110 mA maximum Effect of Improper Input Connection No damage Connector on Mother Board MSTB2 5 3 GF 5 08BK Phoenix Contact Connector Insertion Removal Durability 100 times minimum Internal Current Draw 80 mA 5V DC O mA 24V DC AS Interface Master Module Power Consumption 540 mW 24V DC Weight Communication Specifications Maximum Bus Cycle When 1 through 19 slaves are connected When 20 through 62 slaves are connected where N is the number of active slaves 85g 3 msec 0 156 x 1 msec 5 msec maximum when 31 standard or A B slaves are connected 10 msec maximum when 6
92. ut has an error Flash OFF This address is not assigned a slave OFF OFF The AS Interface bus communication is disabled because the AS Interface power is not supplied or the AS Interface master module is in normal protected offline Slave 1 0 Status The I O status of each slave can be monitored on the address LEDs and I O LEDs Use the short press to change the slave address when monitoring slave I O status on the AS Interface master module A short press on PB1 increments the address At the last address 31B another short press will return to the first address 0A A short press on PB2 decre ments the address At the first address 0A another short press will return to the last address 31B The figures below illustrate what happens when you press the PB1 button while the address LEDs indicate 25A The address LEDs increment to 26A where a slave is assigned Note that the address LEDs flash if no slave is assigned Short press 1 0 LEDs Ox 1x 2x 3x 1 2 4 5 x6 7 8 9 _ on PB1 indicate statuses gt e Tik Jud Monitoring Slave Address 25A Monitoring Slave Address 26A Address LEDs are flashing since Address LEDs go on and 1 0 no slave is assigned LEDs indicate the statuses 54 MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 6 AS INTERFACE OPERANDS Introduction This chapter describes AS Interface operands or internal relays M1300 through M1
93. xpertise must not use the MicroSmart Prevent metal fragments and pieces of wire from dropping inside the MicroSmart housing Put a cover on the MicroSmart modules during installation and wiring Ingress of such fragments and chips may cause fire hazard damage or malfunction Do not touch the connector pins with hand otherwise electrostatic discharge may damage the internal elements Installation Location The MicroSmart modules must be installed correctly for optimum performance The MicroSmart is designed for installation in a cabinet Do not install the MicroSmart outside a cabinet The environment for using the MicroSmart is Pollution degree 2 Use the MicroSmart in environments of pollution degree 2 accord ing to IEC 60664 1 Make sure that the operating temperature does not drop below 0 or exceed 55 C If the temperature does exceed 55 C use a fan or cooler Mounting Clip BNL6P Mount the MicroSmart on a vertical plane as shown at right To eliminate excessive temperature build up provide ample venti lation Do not install the MicroSmart near and especially above any device which generates considerable heat such as a heater transformer or large capacity resistor The relative humidity should be above 30 and below 95 The MicroSmart should not be exposed to excessive dust dirt salt direct sunlight vibrations or shocks Do not use the MicroSmart in an area w
94. y damage to property When a slave with address 0 is connected to the AS Interface master module power up the Micro Smart CPU module first Approximately 5 seconds later turn on the AS Interface power supply If the CPU module and AS Interface power supply are turned on at the same time the AS Inter face master module enters normal protected offline In this mode slave addresses can be changed but the slave status cannot be confirmed on WindLDR Slave A C Slave B E X cancel New Address address is stored in the slave module nonvolatile memory Changing slave addresses takes approximately 40 seconds If the command is not processed correctly the error message AS Interface Master Error and an error code will appear See page 7 5 The address cannot be changed in the following cases Error Code Description An error was found on the expansion 1 0 bus 7 The AS Interface master module is in local mode The slave you are trying to change does not exist A slave of the designated new address already exists 8 While a standard slave was set at A address attempt was made to set an A B slave at B 7 2 address of the same number While an A B slave was set at B address attempt was made to set a standard slave at A address of the same number MICROSMART AS INTERFACE MASTER MODULE USER S MANUAL 7 UsING WINDLDR Configuration Before commissioning the AS Interface master module
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