devicexplorer opc server - fawebdevicexplorer opc server ... excel vba . memory simatic-s7 ......
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Communication Software
http:/ /www.faweb.net/
DeviceXPlorer OPC Server
TAKEBISHI Corporation
DeviceXPlorer OPC Server DXP2007Series Ver4.2
* A l l o f t h e a b o v e p r o d u c t s a n d a n y o t h e r t r a d e m a r k a r e u n d e r t h e t r a d e m a r k o f t h e i r r e s p e c t i v e m a n u f a c t u r e s . * T h e c o n t e n t s w i l l b e c h a n g e d w i t h o u t n o t i c e i n t h e f u t u r e . Jun . 2010
+81-75-325-2261
Ava i l ab le : Weekday 9 :00 -17 :00 Japan loca l t ime
Support Dial
fa -suppor t@takeb ish i . co . jp
www.faweb.net
O n l i ne Sh op :
P l e a s e c o n t a c t u s .
[ J AP A N ] H e a d O f f i c e 2 9 , M a m e d a c h o , N i s h i k y o g o k u , U k y o - k u , K y o t o 6 1 5 - 8 5 0 1 T E L + 8 1 - 7 5 - 3 2 5 - 2 1 7 2
T o k y o B r a n c h S h i n - Y o k o h a m a K o t s u B l d g . 6 F 3 - 1 8 - 1 6 , S h i n - Y o k o h a m a ,
K o h o k u k u , Y o k o h a m a 2 2 2 - 0 0 3 3 T E L + 8 1 - 4 5 - 4 7 4 - 3 2 5 9
K o f u S a l e s O f f i c e N a k a z a w a B l d g . 3 0 1 R o o m , 2 - 3 - 2 3 , S u m i y o s h i K o f u Y a m a n a s h i 4 0 0 - 0 8 5 1 T E L + 8 1 - 5 5 - 2 0 6 - 1 0 7 5
N a g o y a B r a n c h L o t u s B l d g . 5 F , 1 8 - 2 2 , T s u b a k i - C h o , N a k a m u r a - K u , N a g o y a 4 5 3 - 0 0 1 5 T E L + 8 1 - 5 2 - 4 5 4 - 3 7 2 1
S h i g a B r a n c h S h i g a B r a n c h 1 6 4 , T o m a c h i , H i k o n e , S h i g a 5 2 2 - 0 0 0 9 T E L + 8 1 - 7 4 9 - 2 3 - 0 6 5 4
R i t t o B r a n c h 9 - 5 - 2 6 , O g a k i , R i t t o , S h i g a 5 2 0 - 3 0 2 4 T E L + 8 1 - 7 7 - 5 5 3 - 0 1 1 5
O s a k a B r a n c h S a k u r a b a s h i - C h i y o d a B l d g . 2 F , 2 - 1 - 2 7 , D o j i m a , K i t a - k u , O s a k a 5 3 0 - 0 0 0 3 T E L + 8 1 - 6 - 6 3 4 1 - 5 0 8 1
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K y u s h u B r a n c h H i g a s h i - H i e S q u a r e B l d g . 4 F , 3 - 1 2 - 1 6 , H i g a s h i H i e ,
H a k a t a k u , F u k u o k a 8 1 2 - 0 0 0 7 T E L + 8 1 - 9 2 - 4 7 3 - 7 5 8 0
[ G L O B AL ] T a k e b i s h i E l e c t r i c S a l e s S h a n g h a i L i m i t e d R o o m E 2 7 / F . , H u a D u B u i l d i n g 8 3 8 Z h a n g Y a n g R o a d , P u d o n g N e w A r e a , S h a n g h a i 2 0 0 1 2 2 T E L + 8 6 - 2 1 - 6 8 7 5 - 6 6 8 0
T a k e b i s h i E l e c t r i c S a l e s S h a n g h a i L i m i t e d T I A N J I N B r a n c h R o o m 1 4 0 5 , T h e E x c h a n g e T o w e r 2 1 8 9 N a n j i n g R o a d , H e p i n g D i s t r i c t , T i a n j i n T E L + 8 6 - 2 2 - 8 3 1 9 - 5 2 2 0
T a k e b i s h i E l e c t r i c S a l e s H o n g K o n g L i m i t e d O f f i c e N o . 1 , 2 2 / F . , 1 4 8 E l e c t r i c R o a d , N o r t h P o i n t , H o n g K o n g T E L + 8 5 2 - 2 5 0 6 - 1 8 5 7
TAKEBISHI Corporation
In developing and evolving manufacturing industry, OPC assume a core of information-
oriented. DeviceXPlorer which util izes its benefit to the full and connects the
enterprise top and site. DeviceXPlorer is evolving with PLCs which become more
highly functional and speed up. TAKEBISHI contemplates the future in production site
and offers the most advanced and appropriate solution.
1 2
OPC (Ole for Process Cont ro l ) is s tandard in ter face spec i f icat ion for communi-cat ion between appl icat ions in manufactur ing indust ry system. OPC has an ar -ch i tecture of server and c l ient type. OPC Server communicates wi th f ie ld de-v ices such as PLC. OPC Cl ient prov ides var ious funct ions bas ing on data of equipments acqui red f rom OPC Server . The OPC def ine these inter face spec i f i -cat ions. You wi l l reduce the cost of dependence between a product ion l ine and IT system by develop ing OPC system.
Interface specif ication for communicating with applications
OPC Client OPC Server Equipment
OPC . . .
OPC has var ious inter face such as OPC DA for rea l t ime communicat ion, OPC HDA for h is tor ica l data access, OPC AE for A larm & Event . The speci f icat ion of OPC is s tandard ized by OPC foundat ion. Mi tsubish i , Omron, Yokogawa, Rock-wel l , and Siemens, etc more than 350 Japanese, Amer ican and European PLC vendors and sof tware package vendors par t ic ipate in i t .
What’s OPC
DeviceXPlorer is a OPC Server that communicates wi th a l l k inds of f ie lds de-v ices such as PLC and measur ing ins t ruments. Dev iceXPlorer corresponds wi th a l l spec i f icat ion of OPC DA, Ethernet , Ser ia l and or ig ina l networks, so that i t can be usefu l in any scenes in operat ing factory.
OPC Server providing abundant connectivity
What’s DeviceXPlorer
O P C I n t e r f a c e
E t h e r n e t / R S 2 3 2 C
DeviceXPlorer OPC Server
OPC Cl ient
In the evolving facilities or changing scene, we pursue Operational Excellence.
Because there is sophisticated scene over there.
E R P / M E S S C A D A
D C S
V i s u a l B a s i c V i s u a l C / C + +
V B . N E T C # . N E T
E X C E L V B A
V S T O
Me
mo
ry
Features
3 4
Unified all PLC into single namespace !
I t used each k inds o f OPC Serve r when the re were some k inds o f PLC in the fac to ry . Dev iceXPlo re r DXP2007 se -r ies i n teg ra ted a l l ex i s t i ng p roduc ts and communica te w i th mu l t i p le PLCs . So , OPC c l i en t on l y access s ing le name-space and then i t can access a l l PLCs .
Connectivity - Multiple PLC
...
M E L S E C S Y S M A C T O Y O P U C
C o n t r o l L o g i x
S I M A T I C - S 7
Mitsubishi, Rockwell AB, Siemens
New model PLC
You w i l l access to the newes t mode ls o f Cont ro lLog ix o f Rockwe l l , S ima t i c -S7 o f S iemens , MELSEC o f M i tsub ish i so we a re a lways expand ing dev ice connec t i v i t y .
Latest Operating System
Windows 7, Windows Server 2008
D e v i c e X P l o r e r s u p p o r t s W i n d o w s 7 a n d V i s t a . B u t f o l l o w i n g c o n n e c t i v i t y a r e d e p e n d s o n e a c h P L C s t a t u s . - M E L S E C E Z S o c k e t c o m m u n i c a t i o n - M E L S E C P C b o a r d c o m m u n i c a t i o n - S Y S M A C F i n s G a t e w a y c o m m u n i c a t i o n - T O Y O P U C C P U p o r t c o m m u n i c a t i o n - F A N U C F O C A S 1 / 2 c o m m u n i c a t i o n
Passing all certif ications
OPC Compliance Test
Dev iceXPlo rer i s con f i rmed exce l l en t connec t i v i t y be tween g loba l OPC packages a t the OPC In te roperab i l i t y Workshop . And a l so Dev iceXPlo re r co r responds to OPCDA2.0 /3 .0 comp l i -ance ce r t i f i ca t i ons .
Provide the latest OPC technology
OPC DA 3.0
Our Dev iceXP lo re r co r responds to OPCDA3.0 . There -fo re , even i f t he OPC c l i en t i s deve loped w i th VB/VC e tc , some func t i ons added w i th OPCDA3.0 such as MaxAge and KeepAl i ve can be used .
English, Japanese, Chinese
Multiple Language
You w i l l sw i tch l oca le to keep commun ica t i on by on ly se -lec t i ng the ta rge t l anguage on Op t ion d ia log o f Too l menu . So you can se lec t su i tab le use r i n te r face fo r any eng ineer opera t ing OPC Serve r . I t suppor ts Japanese, Eng l i sh , Ch inese (S imp l i f i ed Ch inese . )
MELSEC-L
Sharing between OPC Clients
Shared Memory
You w i l l sha re the app l i ca t ion da ta be tween OPC Cl ien ts th rough shared memory in Dev iceXP lore r . By deve lop ing app l i ca t i on wh ich commun ica tes to f i e l d dev ice , i t a l so works as a cus tom OPC Serve r .
Vendor Produc t
Wonderware I nTouch , H is to r ian , IAS
GE In te l l i gen t P la t fo rms Cimpl i c i t y , iF i x
Rockwe l l Au tomat ion RSView
Siemens WinCC
ICONICS Genes is , GraphWorX
Nat iona l Ins t ruments LabVIEW
Ci tec t Ci tec tSCADA
JT Eng ineer ing JoyWatcher
Yamatake (azb i l ) Harmonas , PREXION, DGPL2
Yokogawa ASTMAC, ExaP i l o t
10,000-20,000 points per second
Communication performance
Command i s op t im ized fo r each PLC p ro toco l , so h igh pe r fo rmance i s ach ieved . I n case o f E the rne t commun i -ca t i on o f MELSEC-Q se r ies , i t can access to 20 ,000 po in ts o f reg is te r pe r second a t the max imum.
S t a n d a r d c o m m u n i c a t i o n p e r f o r m a n c e . ( M E L S E C - Q s e r i e s E t h e r n e t c o m m u n i c a t i o n )
P e n t i u m 4 1 . 8 G H z R A M 5 1 2 M B 1 0 0 B A S E - T X S c a n T i m e - u n d e r 1 0 m s A c c e s s p o i n t s i s t h e c o n t i n u o u s a r e a o f d a t a r e g i s t e r . T h e d e v i c e v a l u e i s c h a n g e d e v e r y s c a n .
Env i ronment
Assigning duplex ports to a device
Redundant communication
Compatible with 64bit OS
OPC Server x64 Edition
Dev iceXPlo rer p roduc ts bund les 64b i t OPC Serve r wh ich has h igh pe r fo rmance on Win64 sys tem.
F o l l o w i n g c o n n e c t i v i t y a r e n o t s u p p o r t o n W i n d o w s 6 4 b i t o p e r a t i n g s y s t e m . - D D E / S u i t e L i n k c o m m u n i c a t i o n - M E L S E C E Z S o c k e t c o m m u n i c a t i o n - M E L S E C P C b o a r d c o m m u n i c a t i o n - S Y S M A C F i n s G a t e w a y c o m m u n i c a t i o n - T O Y O P U C C P U p o r t c o m m u n i c a t i o n - F A N U C F O C A S 1 / 2 c o m m u n i c a t i o n
Dev iceXPlo rer suppor ts S ta t i c tag and Dynamic tag . Tags tha t a re de f ined in advance a re ca l l ed "S ta t i c tag " and tags tha t a re no t de f ined in advance are ca l l ed "Dynamic tags . " Us ing S ta t i c tag a l l ows c l i en t t o access PLC wi th -ou t ca r i ng phys ica l dev ices . Even i f PLC vendor has changed , sys tem can be reo rgan ized w i thou t phys ica l t ags name. So , f l ex ib le sys tem can be bu i l t w i th benef i t o f OPC. Dynamic tags access phys ica l address o f PLC d i -rec t l y , so tha t eng ineers can save t ime to spec i f y tags .
Standardization by using alias name
Static tag and Dynamic tag
D M 1 1 D M 1 0
T e m p
D M 1 1
S p e e d
D M 1 0
T e m p
D 1
S p e e d
D 0
D 1 D 0
T e m p S p e e d
PLC A PLC B
Conf igu ra t ion f i l e A Conf igu ra t ion f i l e B
Dev iceXPlo rer can d iagnose s ta tus o f connec t ions , con -f i gu red pa ramete r , and tag in fo rmat ion and so on fo r each OPC in te r face , DDE/Su i teL ink in te r face . RAS d iagnos is enab les to t race eas i l y o f sou rce o f unexpec ted t roub les and i t sho r tens the down t ime .
Finding cause of trouble
RAS diagnosis
Feature
AB Con t ro lLog ix Siemens S7-1200
M E L S E C
S Y S M A C
T O Y O P U C
B r e a k
S w i t c h
Compatible with all of SCADA
SCADA Ready
We tes t i f i ed Dev iceXP lo re r commun ica te w i th fo l low ing OPC C l ien t so f tware such as SCADA/DCS/MES.
OPC Server SCADA Cus tom App l i ca t ion
O P C O P C
(Windows language pack i s requ i red )
Dev iceXPlo rer supp l ies the shared memory by de fau l t .
I t i s poss ib le to cons t ruc t redundant communica t ion to ass ign dup lex commun ica t ion po r ts to a dev ice . When the t roub le such as cab le b reak ing occu rs i n one commun ica -t i on rou te , i t sw i t ches to ano the r commun ica t i on rou te and con t inues work ing . OPC C l ien t doesn ' t have to ca re tha t commun ica t ion rou te has been swi t ched.
2 s e t o f L A N a d a p t e r s
Dev iceXPlo rer suppor ts Layer L ink access f rom ME-NET, FL -ne t , and HPC L ink th rough connec t ing s ta t i on . And i t accesses by des ignat ing a p rogram number , L ink number and Por t number o f b r idge s ta t i on .
Dev iceXPlo rer suppor ts sma l l p rog ramma-b le con t ro l l e r ca l l ed PC10 se r ies wh ich has h igh speed ca lcu la t i on CPU, la rge memory and many communica t i ve use fu l f unc t i ons .
Dev iceXPlo rer i s ava i l ab le to access to Ex tens ion Bu f fe r reg is te r (EB) o f PC10 /PC3.
I t i s poss ib le to ge t /poke un -cont inuous dev ice a rea a t a once by us ing Random Access command. So , i t de l i ve rs h igh th roughpu t on even la rge sys tem.
You can access EM by des igna t ing a bank number and dev ice number , Fo r examp le , you des igna te “EM1: 9999” so tha t you access an address 9999 o f bank1.
( I t i s no t compat ib le SysmacGateway. )
SYSMAC-CP SYSMAC-CS
Dev iceXPlo rer suppor ts CJ2 se r ies wh ich con t ro l w i th h igh pe r fo rmance and CP se r ies wh ich de l i ve r h igh cos t pe r fo rmance .
SYSMAC-CJ2
You can ge t many va lues a t a once by separa t ing tags w i th s lash symbo l . Fo r examp le , when you access 4 po in t o f Dev ice1 .D0 /D1000/ZR200 /M0 a t a once, you can ge t va lues o f 100, 9876, -32768 , 1 .
Dev iceXPlo rer supp ly the way to access bu f fe r memory in each Spec ia l Un i t . Fo r examp le , se lec t QD75 as Spec ia l un i t and then access ing the tag named "G800" , you w i l l ge t the fo rward p resen t va lue .
Dev iceXPlo rer suppor ts s tand-a lone mot ion con-t ro l l e r ca l l ed Q170MCPU. So you w i l l access to bo th mot ion con t ro l sys tem and d isc re te con t ro l sys tem.
When you access the random access bu f fe r ove r E the rne t , you can ge t more fas t da ta exchange no t depends on the scan t ime.
You w i l l access to each dev ice memory i n Mu l t i p le CPU Sys tem. And you can bu i l d sys tem smoo th l y so CPU re -f resh pa ramete r se t t i ng i s no t requ i red . A l so , Dev iceX-P lo re r suppor ts to access the da ta w i th spec i f y i ng Con-t ro l /S tandby in redundancy sys tem.
Dev iceXPlo rer suppor ts to access to ta rge t s ta t i on on MELECNET/H o r CC-L ink / IE th rough Ethe rne t connec t i ng s ta t i on .
MITSUBISHI MELSEC
5 6
OMRON SYSMAC
JTEKT TOYOPUC
Transient Communication Control sliding packet
Random Access Buffer
Stand-alone Motion Q170M
Direct access to SP Unit
Multiple CPU and Redundant CPU
MELSEC-Q
MELSEC-Q is ma in se r i es . I t has Un i -ve rsa l Mode l , Re-dundan t CPU, P roc -ess CPU and more .
MELSEC-L se r ies i s popu la r mode l a t -tached Mot ion , DIO and f i e ld ne twork .
MELSEC-QnA
MELSEC-QnA se r ies l ooks l i ke A se r ies on the ou ts ide , bu t so f tware arch i tec -tu re i s Q se r ies .
MELSEC-A
MELSEC-A se r ies i s d i scon t inued l i nes bu t i t i s s t i l l work -ing i n many p lan ts .
MELSEC-L MELSEC-FX
MELSEC-FX se r ies i s used as a sensor con t ro l l e r i n smal l sys tem.
Support the new and the legacy MELSEC ! SYSMAC-CJ2
FINS Network
FinsGateway 2003
FINS/TCP Communication
Expended data memory (EM)
TOYOPUC-PC10 Series Layer Link Access
Random Access Command
Expanded Buffer Register
Batch access for many values
Field Devices
When you use Q4E p ro toco l , i t i s embedded a sequence number i n each reques t message . And when t imeou t e r ro r i s occur red , i t p ro tec ts to happen a lag be tween reques t message and rep ly message .
You can access to ta rge t s ta t i on on F INS ne twork by spec i f y i ng Ne twork number , Node number , and Un i t num-ber .
When you use F insGateway 2003 , Dev iceXPlo re r enab les to access Communica t ion L ink Board , SYSMAC L ink Board and a lso CS1D redundan t con t ro l sys tem.
You can use F INS/TCP pro toco l fo r CJ . Dev iceXPlo re r commun ica te w i th node number pub l i shed f rom SYSMAC a t es tab l i shed connec t ion .
You can access to ne twork s ta t i on by des igna t ing s lave ID o f ta rge t E the rne t modu le . when you access da ta t ype as LONG type , LONGLONG type , FLOAT type , and DOUBLE type , you can swap upper word and lower word .
The Etherne t modu le o f MP2000 se r ies i s ava i l ab le to use the expanded MEMOBUS command. I t i s expanded ac -cess po in t o f ba tch read ing /wr i te commands and suppor ts random wr i te command to re ten t ion reg is te r . You w i l l ge t more h igh speed commun ica t ion by us ing the expanded MEMOBUS command.
Dev iceXPlo rer communica tes to FP-X se r ies and FP2 /FP2SH ser ies across E the rnet . You can access to ne twork s ta t i on on compute r l i nk by des igna t ing an un i t number o f PLC.
Wi th us ing FP2 /FP2SH ser ies , you can access the laye r ne twork by des igna t ing a s ta t i on address o f ga teway.
Dev iceXPlo rer suppor ts SPH3000 se r ies wh ich has h igh speed and h igh conf idence , SPH2000 se r ies as board t ype , and MICREX-F se r ies . I t p rov ides a w ide connec-t i v i t y f rom la tes t fac i l i t y to l egacy fac i l i t y .
You can access to b road cas t a rea in P L ink modu le and PE L ink modu le . A l so , Dev iceXPlo re r suppor t s common memory o f FL-ne t modu le .
You can access to any s ta t i on on Sate l l i t e Ne t th rough E the rne t connec t i ng s ta t i on by des igna t ing the po r t num-ber and s lo t number .
You can access some dev ices o f B i t t ype , by te t ype , and word t ype .
You can access to bu f fe r memory in the spec ia l modu le (ana log inpu t /ou tpu t , tempera tu re con t ro l , o r P ID con t ro l e tc . . . ) by des ignat ing un i t number and s lo t number o f ta r -ge t modu le . P lease use an E the rne t modu le on and a f te r ve rs ion Rev .03 .00 , when you access to the bu f fe r memory (a spec ia l modu le da ta . )
When you use F3LE01-5T, you can use the unsynchro -n ized command wh ich i s no t a f fec ted scan t ime . The command make i t poss ib le to ge t 502 po in ts as the reg is -te r va lue (no rma l l y : 251 po in ts ) a t a once . (Da ta synchron ism i s guaran teed by 16 b i t . )
Dev iceXPlo rer suppor ts the H ID IC Task Code commun ica -t i on ve rs ion5, so you can access e f f i c ien t l y to enhance CPU such as EH150 se r ies , H-4010 Ser ies . I t suppor ts a b ina ry code communica t i on w i th TCP/ IP and UDP/ IP .
YOKOGAWA FA-M3
7 8
HITACHI HIDIC
SHARP SATELLITE
FUJI MICREX
PANASONIC FP
YASUKAWA MP
MICREX-SX & MICREX-F Buffer Access Memory FA-M3 Unsynchronized Command
Task Code Version 5 LUMP Address
Support for Satellite Net Type of Bit and Byte and Word
MICREX-SX
P Link / PE Link Module
FP-X & FP2 Layer Access
Expanded MEMOBUS Network Access / Word Swap
Field Devices
MICREX-F
You can access to o the r s ta t i on th rough CPU l i nk by des -ignat ing a LUMP address ( l oop number , un i t number , modu le number and po r t number . )
Dev iceXPlo rer suppor ts 4 i n te r faces in the case o f read ing f rom OPC Serve r , such as Synchronous Read (dev ice /cache read) , Asynchronous Read , Adv ise , and I tem I /O Read .
Dev iceXPlo rer wraps th i rd pa r t y OPC Serve r and p rov ide OPC in te r face adapted OPC cer t i f i ca t i on . You w i l l use OPC Serve r wh ich does no t compat ib le w i th OPC fu l l -i n te r face in the sys tem.
Dev iceXPlo rer suppor ts Inpu t s ta tus , Ou tpu t co i l , I npu t reg is te r , and Ex tended reg is te r . I t i s ava i l ab le to ac -cess a no rmal address and ex tended address o f 10000 address and more . And You can connec t to ne twork s ta t i on by des igna t ing MODBUS s lave ID .
Dev iceXPlo rer suppor ts E the rne t commun ica t i on (MODBUS/TCP) and Ser ia l commun ica t ion (MODBUS/ASCI I , MOD-BUS/RTU) . I t i s ava i l ab le to swap in the case o f LONG, LONGLONG, FLOAT, and DOUBLE.
You can ge t PMC da ta by us ing FOCAS1 o r FOCAS2 fo r des ignated IP address and po r t number .
You can access dev ice in -fo rmat ion inc lud ing in te rna l re lay , coun te r , and da ta tab le e tc by des ignat ing PMC type in each NC.
I t i s no t necessary CP card and S IMATIC NET l i b ra ry on the PC. OPC Serve r communica te w i th PLC v ia na t i ve E the rne t .
You can access to E the rne t modu le o f S7-300 Ser ies and S7-400 Ser ies because Dev iceXPlo re r suppor ts S7 p ro to -co l (TCP/ IP) . A l so Dev iceXPlo re r suppor ts to access i n te rna l E therne t po r t o f l a tes t Ser ies ca l l ed S7-1200 .
I t i s ava i l ab le to se t the based da ta t ype in CPU.
You can de f ine symbo l i c segment o f g loba l tag as OPC I tem. Fo r examp le , the tag de f ined “S t ruc t1 .Boo l1 ” i n Con-t ro lLog ix i s accessed i tem ID as “Dev ice1 .S t ruc t1 .Boo l1 . ”
You can access to the CPU suppor ted E the rNe t / IP by des -ignated CIP po r t number (backp lane i s f i xed to "1 " ) and C IP l i nk address .
You can access to i n te rna l E the rne t po r t o f KV-5000 Se-r ies . Dev iceXP lo re r suppor ts ASCI I code on computer l i nk command , and you w i l l se lec t TCP/ IP and UDP/ IP . You can communica te w i th h igh pe r fo rmance so KV-LE20V i s expanded to a max imum o f 1000 words pe r reques t .
Dev iceXPlo rer suppor ts a l l o f KV dev ices such as da ta memory , con t ro l memory , and expanded memory e tc .
( S 5 p r o t o c o l i s n o t s u p p o r t e d . )
9 10
KEYENCE KV
ROCKWELL AB
SIEMENS SIMATIC-S7
FANUC PMC
MODBUS
OPCDA
Field Devices
KV-5000 & KV-LE20V Full-supported Devices
Symbolic Segment EtherNet/IP(CIP Service)
S7 Protocol Unnecessary CP Card
Access to device of PMC
MODBUS/TCP MODBUS Expanded Area
Third Party OPC Server Synchronous / Asynchronous
FOCAS1 / FOCAS2
( F O C A S 1 o r F O C A S 2 i s r e q u i r e d . )
I f OPC Serve r does no t suppor t the wr i te I /F , you can choose i t t o “NONE. ”
Module List
11 12
V e n d o r S e r i e s C P U E t h e r n e t S e r i a l O t h e r s
M I T S U B I S H I
M E L S E C - Q
Q 2 6 U D ( E ) H Q 2 5 ( H / P H / P R H ) Q 2 0 U D ( E ) H Q 1 3 U D ( E ) H Q 1 2 ( H / P H / P R H ) Q 1 0 U D ( E ) H Q 0 6 ( H / P H / U D H / U D E H ) Q 0 4 U D ( E ) H Q 0 3 U D ( E ) Q 0 2 ( U / H / P H ) Q 0 1 ( U ) Q 0 0 ( U ) ( J )
Q J 7 1 E 7 1 - 1 0 0 Q J 7 1 E 7 1 - B 2 Q J 7 1 E 7 1 - B 5 C P U E t h e r n e t p o r t
Q J 7 1 C 2 4 N Q J 7 1 C 2 4 N - R 2 Q J 7 1 C 2 4 N - R 4 C P U U S B p o r t C P U S e r i a l p o r t
Q 8 1 B D - J 7 1 L P 2 1 - 2 5 Q 8 1 B D - J 6 1 B T 1 1 Q 8 0 B D - J 7 1 G P 2 1 ( S ) - S X Q 8 0 B D - J 7 1 L P 2 1 ( S ) - 2 5 Q 8 0 B D - J 7 1 L P 2 1 G Q 8 0 B D - J 7 1 B R 1 1 Q 8 0 B D - J 6 1 B T 1 1 N G X - S i m u l a t o r * 1
Q 1 7 0 M C P U E t h e r n e t p o r t
M E L S E C - L L 2 6 C P U - B T L 0 2 C P U C P U E t h e r n e t p o r t
L J 7 1 C 2 4 L J 7 1 C 2 4 - R 2 C P U U S B p o r t
M E L S E C - F X
F X 3 U ( C ) F X 3 G F X 2 N ( C ) F X 1 ( S / N / N C ) F X 0 ( S / N )
F X 3 U - E N E T ( - L )
F X x x - 2 3 2 - B D F X x x - 4 8 5 - B D F X x x - 2 3 2 A D P F X x x - 4 8 5 A D P C P U S e r i a l p o r t
M E L S E C - Q n A Q 4 A ( R ) Q 3 A Q 2 A ( S / S H ) ( - S 1 )
A ( 1 S ) J 7 1 Q E 7 1 ( N ) - T A ( 1 S ) J 7 1 Q E 7 1 ( N ) - B 2 A ( 1 S ) J 7 1 Q E 7 1 ( N ) - B 5
A J 7 1 Q C 2 4 ( N ) ( - R 2 / - R 4 ) A 1 S J 7 1 Q C 2 4 ( N ) ( - R 2 ) C P U S e r i a l p o r t
M E L S E C - A
A 4 U A 3 ( N / A / U ) A 2 ( N / A / U ) ( S / S H ) ( - S 1 ) A 1 ( N ) ( S / S H )
A J 7 1 E 7 1 ( - S 3 ) A ( 1 S ) J 7 1 E 7 1 ( N ) - T A ( 1 S ) J 7 1 E 7 1 ( N ) - B 2 A ( 1 S ) J 7 1 E 7 1 ( N ) - B 5
A J 7 1 U C 2 4 * 2 A J 7 1 C 2 4 - S 8 A 1 S J 7 1 U C 2 4 C P U S e r i a l p o r t
O M R O N
S Y S M A C - C J
C J 2 H C J 1 G C J 1 H C J 1 M
C J 1 W - E T N 1 1 / 2 1 C J 1 W - E I P 2 1 * 3 C P U E t h e r n e t p o r t
C J 1 W - S C U 4 2 / 3 2 / 2 2 C J 1 W - S C U 4 1 / 3 1 ( - V 1 ) C J 1 W - S C U 2 1 ( - V 1 ) C P U S e r i a l p o r t
C o n t r o l l e r L i n k , e t c * 4
S Y S M A C - C S C S 1 G C S 1 H C S 1 D
C S 1 W - E T N 2 1 / 1 1 / 0 1 C S 1 W - E I P 2 1 * 3 C S 1 D - E T N 2 1 D
C S 1 W - S C U 3 1 / 2 1 ( - V 1 ) C S 1 W - S C B 4 1 / 2 1 ( - V 1 ) C P U S e r i a l p o r t
S Y S M A C - C P C P 1 E C P 1 L C P 1 H
C P 1 W - C l F 4 1 C J 1 W - E T N 2 1 C J 1 W - E I P 2 1 * 3
C P 1 W - C I F 1 2 / 1 1 / 0 1 C J 1 W - S C U 4 1 / 3 1 ( - V 1 ) C J 1 W - S C U 2 1 ( - V 1 )
S Y S M A C - C V
C V M 1 ( D ) C V 2 0 0 0 C V 1 0 0 0 C V 5 0 0
C V 5 0 0 - E T N 0 1 C V 5 0 0 - L K 2 0 1 C P U S e r i a l p o r t
S Y S M A C - C
C 2 0 0 H C Q M 1 ( H ) C P M 1 / 2 C 2 0 0 0 H / C 1 0 0 0 H
C 5 0 0 - L K 2 0 3 / 2 0 1 C 5 0 0 - L K 1 0 3 / 1 0 1 C 2 0 0 - L K 2 0 2 / 2 0 1 / 1 0 1 C 1 2 0 - L K 2 0 2 / 2 0 1 / 1 0 1 C P U S e r i a l p o r t
S Y S M A C - O n e N S J N S J N S J W - E T N 2 1 C P U E t h e r n e t p o r t
J T E K T * 5
T O Y O P U C - P C 1 0 P C 1 0 G P C 1 0 G E
E N - I / F ( - T ) F L / E T - n e t - 5 F L / E T - T - V 2 ( H ) C P U E t h e r n e t p o r t
C P U S e r i a l p o r t
T O Y O P U C - P C 3 J P C 3 J ( L / D / M / N M / N F ) M U L T I - G W
E N - I / F ( - T ) F L / E T - n e t - 5 F L / E T - T - V 2 ( H )
T O Y O P U C - P C 2 J P C 2 J ( C / S / R ) P C 2 J 1 6 ( R / H / P R / H R )
E N - I / F ( - T ) F L / E T - n e t - 5 F L / E T - T - V 2 ( H )
Y O K O G A W A F A - M 3 ( R )
F 3 S P 6 7 - 6 S F 3 S P 6 6 - 4 S F 3 S P 5 9 - 7 S F 3 S P 5 8 - 6 H / S F 3 S P 5 3 - 4 H / S F 3 S P 3 8 - 6 N / S F 3 S P 3 5 - 5 N F 3 S P 2 8 - 3 S / N F 3 S P 2 5 - 2 N F 3 S P 2 1 - 0 N F 3 S P 0 8 - 0 P F 3 S P 0 5 - 0 P
F 3 L E 1 2 - 0 T F 3 L E 1 1 - 0 T F 3 L E 0 1 - 5 T
F 3 L C 1 2 - 1 F F 3 L C 1 1 - 2 F / 1 F F 3 L C 1 1 - 2 N / 1 N
H I T A C H I
H I D I C E H 1 5 0 - E H V E H V - C P U 1 2 8 / 6 4 / 3 2 / 1 6 E H - E T H
H I D I C E H 1 5 0 E H - C P U 5 4 8 / 5 1 6 / 3 1 6 A E H - C P U 2 0 8 A / 1 0 4 A
E H - E T H
H I D I C - H
H - 4 0 1 0 H - 2 0 0 2 H - 1 0 0 2 H - 7 0 2 H - 3 0 2 H - 2 5 2
L A N - E T H ( 2 )
C P U S e r i a l p o r t
C P U S e r i a l p o r t
V e n d o r S e r i e s C P U E t h e r n e t S e r i a l O t h e r s
S H A R P S A T E L L I T E - J W
J W 3 0 0 J W 1 0 0 H J W 7 0 H J W 5 0 H J W 3 0 H / 2 0 H
J W - 2 5 5 C M J W - 2 5 T C M J W - 5 1 C M
J - B o a r d Z - 3 0 0 Z - 5 0 0
Z 3 3 9 J
F U J I
M I C R E X - S X
S P H 3 0 0 0 S P H 3 0 0 S P H 3 0 0 E X S P H 2 0 0 0 S P H 2 0 0
N P 1 L - E T 1 N P 1 L - E T 2 C P U E t h e r n e t p o r t
N P 1 L - R S 1 N P 1 L - R S 2 N P 1 L - R S 3 N P 1 L - R S 4 N P 1 L - R S 5
M I C R E X - F
F 1 5 0 S F 1 4 0 S F 1 2 0 S F 1 2 0 H F 8 0 H F 7 0 F 5 5
F F U 1 7 0 B N C 1 L - E T 1
F F U 1 2 0 B N C 1 L - R S 2 N C 1 L - R S 4 N V 1 L - R S 2
P A N A S O N I C
F P - X F P - X C 6 0 R / T / P ( D ) F P - X C 3 0 R / T / P ( D ) F P - X C 1 4 R / T / P ( D )
F P - X C O M 5
F P 2 F P 2 F P 2 S H
F P 2 E T - L A N
Y A S U K A W A * 6 M P 2 0 0 0
M P 2 4 0 0 M P 2 3 1 0 M P 2 3 0 0 ( S ) M P 2 2 0 0
2 1 8 I F - 0 1 2 1 8 I F - 0 2 C P U E t h e r n e t p o r t
M P 9 0 0 M P 9 2 0 2 1 8 I F A
K E Y E N C E
K V
K V - 5 0 0 0 K V - 3 0 0 0 K V - 1 0 0 0 K V - 7 0 0
K V - L E 2 0 V K V - L E 2 0 A K V - L E 2 0
R O C K W E L L * 7
A B C o n t r o l L o g i x 1 7 5 6 1 7 5 6 - E N B T
A B C o m p a c t L o g i x 1 7 6 9 - L 3 5 E 1 7 6 9 - L 3 2 E 1 7 6 8
1 7 6 8 - E N B T C P U E t h e r n e t p o r t
A B F l e x L o g i x 1 7 9 4 1 7 8 8 - E N B T
A B D r i v e L o g i x 5 7 3 0 / 5 7 2 0 1 7 8 8 - E N B T
S I E M E N S
S I M A T I C - S 7 S 7 - 1 2 0 0 S 7 - 4 0 0 S 7 - 3 0 0
C P 4 4 3 - 1 C P 3 4 3 - 1 C P U E t h e r n e t p o r t
F A N U C P M C
3 2 0 i 3 1 0 i 3 0 0 i 2 1 0 1 6 0 i - L 1 6 0 i -W , 1 8 0 i -W 1 6 0 i - P , 1 8 0 i - P 1 6 0 i - B , 1 8 0 i - B , 2 1 0 i - B 1 6 0 i - A , 1 8 0 i - A , 2 1 0 i - A 1 6 0 1 8 0 1 5 0 i 1 5 0 0 i - A 0 i - B
C P U E t h e r n e t p o r t P C M C I A E t h e r n e t c a r d
F A N U C P o w e r M a t e P M i - H P M i - D
C P U E t h e r n e t p o r t P C M C I A E t h e r n e t c a r d
( G e n e r a l )
M O D B U S M O D B U S d e v i c e s H I O K I 2 3 0 0 S m a r t S i t e M - S Y S T E M R 3 S e r i e s e t c
M O D B U S / T C P M O D B U S / R T U M O D B U S / A S C I I
O P C D A ( O P C D A S e r v e r ) * 9 O P C D A 2 . 0 5 A / 3 . 0
( S h a r e d M e m o r y ) ( M E M O R Y M A P E D F I L E )
F A N U C * 8
* 1 U n s u p p o r t e d G X - S i m u l a t o r 2 . * 2 S u p p o r t c o m m u n i c a t i o n p r o t o c o l o f M E L S E C - A S e r i e s a s t y p e 1 a n d t y p e 4 . * 3 S u p p o r t F i n s p r o t o c o l . U n s u p p o r t e d E t h e r N e t / I P c o m m u n i c a t i o n . * 4 F i n s G a t e w a y i s r e q u i r e d f o r C o n t r o l l e r L i n k c o m m u n i c a t i o n . F o r E t h e r n e t a n d S e r i a l c o m m u n i c a t i o n , F i n s G a t e w a y i s n o t r e q u i r e d . * 5 J T E K T “ c o m m u n i c a t i o n l i b r a r y ” ( T J A - 2 0 6 7 ) i s r e q u i r e d f o r C P U i n t e r n a l p o r t c o m m u n i c a t i o n . * 6 S u p p o r t E x p e n d e d M E M O B U S p r o t o c o l . * 7 S u p p o r t E t h e r N e t / I P ( C I P s e r v i c e ) c o m m u n i c a t i o n . * 8 F U N U C “ F O C A S 1 ” o r “ F O C A S 2 ” a r e r e q u i r e d . * 9 A v a i l a b l e t o c o n n e c t t o S C A D A o r t h i r d p a r t y ’ s O P C S e r v e r t h r o u g h O P C D A i n t e r f a c e .
Specification
D X P M E L - U
D X P S Y S - U
D X P T Y P - U
D X P F A M - U
D X P H I D - U
D X P S T L - U
D X P M R X - U
D X P P F P - U
D X P Y M P - U
D X P K K V - U
D X P A L B - U
D X P S M T - U
D X P G F C - U
D X P M D B - U
D X P O P C - U
( A L L )
P r o d u c t M o d e l S u p p o r t P L C I / F
P r i c e E T N R S 2 e t c
D X P M E L S E C O P C S e r v e r D X P M E L - U M I T S U B I S H I M E L S E C - Q / L / F X / Q n A / A S e r i e s ● ● ●
D X P S Y S M A C O P C S e r v e r * 2 D X P S Y S - U O M R O N S Y S M A C - C J / C S / C P / C V / C S e r i e s ● ● ●
D X P T O Y O P U C O P C S e r v e r * 3 D X P T Y P - U J T E K T T O Y O P U C - P C 1 0 / P C 3 J / P C 2 J S e r i e s ● ● ●
D X P F A - M 3 O P C S e r v e r D X P F A M - U Y O K O G A W A F A - M 3 S e r i e s ● ●
D X P H I D I C O P C S e r v e r D X P H I D - U H I T A C H I H I D I C - E H / H S e r i e s ●
D X P S A T E L L I T E O P C S e r v e r D X P S T L - U S H A R P S A T E L L I T E J W S e r i e s ●
D X P M I C R E X O P C S e r v e r D X P M R X - U F U J I M I C R E X - S X / F S e r i e s ● ●
D X P F P O P C S e r v e r D X P P F P - U P A N A S O N I C F P - X / F P 2 S e r i e s ●
D X P M P O P C S e r v e r D X P Y M P - U Y A S U K A W A M P 2 0 0 0 S e r i e s ( M E M O B U S ) ●
D X P K V O P C S e r v e r D X P K K V - U K E Y E N C E K V S e r i e s ●
D X P A B O P C S e r v e r D X P A L B - U R O C K W E L L A B C o n t r o l L o g i x ( E t h e r N e t / I P ) ●
D X P S I M A T I C O P C S e r v e r D X P S M T - U S I E M E N S S I M A C T I C - S 7 S e r i e s ●
D X P F A N U C O P C S e r v e r * 4 D X P G F C - U F A N U C P M C S e r i e s ●
D X P M O D B U S O P C S e r v e r D X P M D B - U M O D B U S / T C P 、 M O D B U S / R T U 、 M O D B U S / A S C I I ● ●
D X P O P C D A O P C S e r v e r D X P O P C - U O P C D A 2 . 0 5 A / 3 . 0 ●
D X P S t a n d a r d L i c e n s e 1 0 P A C K D X P □ □ □ - L 1 0 - U * 6 1 m e d i a a n d 1 0 L i c e n s e s s e t - - - U S D 5 , 8 0 0
U S D 6 8 0
Lineup Performance specification
* 1 Y o u c a n s e l e c t E n g l i s h v e r s i o n o r J a p a n e s e v e r s i o n . I f y o u w o u l d l i k e t o J a p a n e s e , p l e a s e a d d t o " - J " a f t e r t h e m o d e l . * 1 U s u a l l y i n s t a l l m e d i a i s C D t y p e . I f y o u w a n t t o u s e U S B m e d i a , p l e a s e a d d t o " - U S B " a f t e r t h e m o d e l . * 1 S h a r e d m e m o r y c o n n e c t i v i t y i s a v a i l a b l e w i t h a l l o f D e v i c e X P l o r e r S t a n d a r d / E n t e r p r i s e l i c e n s e .
* 2 F o r u s i n g F i n s G a t e w a y c o m m u n i c a t i o n s u c h a s C o n t r o l l e r L i n k b o a r d , p u r c h a s e F i n s G a t e w a y l i c e n s e f o r D X P ( D X P F G W ) s e p a r a t e l y . S y s m a c G a t e w a y i s n o t s u p p o r t e d . * 3 I t n e e d s J T E K T " C o m m u n i c a t i o n l i b r a r y " f o r a c c e s s i n g t o T O Y O P U C C P U i n t e r n a l s e r i a l p o r t . * 4 F A N U C " F O C A S 1 " o r " F O C A S 2 " i s r e q u i r e d . * 5 T o g e t a n u p g r a d e s e r v i c e a n d e n h a n c e d u p g r a d e s e r v i c e , i t i s n e e d t o s h o w u s e r ' s i n f o r m a t i o n a n d p r o d u c t s e r i a l n u m b e r o n o r d e r i n g . * 6 “ D X P □ □ □ - U ” : P l e a s e s e l e c t a m o d e l l e t t e r o f s t a n d a r d l i c e n s e . L i c e n s e P a c k T h e l i c e n s e p a c k ( D X P □ □ □ - L 1 0 - U ) i n c l u d e s w i t h a i n s t a l l m e d i a a n d 1 0 l i c e n s e s . P l e a s e m e n t i o n e d t h a t y o u d o n o t u p g r a d e f o r e a c h o t h e r . T e c h n i c a l S u p p o r t S e r v i c e T h e p r o d u c t s a r e i n c l u d e d w i t h t e c h n i c a l s u p p o r t s e r v i c e . Y o u c a n i n q u i r e b y e m a i l , t e l e p h o n e , a n d F A X . A n d y o u w i l l d o w n l o a d s o f t w a r e p a t c h e s e v e r y t i m e . U p g r a d e S e r v i c e I f y o u h a v e s t a n d a r d l i c e n s e o r e n t e r p r i s e l i c e n s e , y o u c a n u p g r a d e t h e l a t e s t v e r s i o n b y f r e e w i t h i n 1 y e a r a f t e r p u r c h a s e i t a t o n l y o n c e . ( w i t h o u t m a j o r u p g r a d e ) I t n e e d s t o r e g i s t e r t h e u s e r i n f o r m a t i o n . A f t e r 1 y e a r o f p u r c h a s e , y o u s h o u l d p u r c h a s e t h e u p g r a d e p r o d u c t ( m o d e l : D X P □□□ - V - U ) . S o f t w a r e M a i n t e n a n c e S e r v i c e Y o u c a n a d d 3 y e a r s m a i n t e n a n c e s e r v i c e o r 5 y e a r s m a i n t e n a n c e s e r v i c e t o E n t e r p r i s e l i c e n s e . T h e r e a r e F r e e u p d a t e s e r v i c e a n d S p o t s e r v i c e . F r e e u p d a t e s e r v i c e s u p p l i e s t o u p g r a d e b y f r e e e v e r y t i m e i n t h e t e r m ( i n c l u d i n g m a j o r u p g r a d e . ) T h e s p o t s e r v i c e m a k e y o u p o s s i b l e t o r e q u e s t a e n g i n e e r g o e s t o t h e f i e l d s i t e w i t h e x t r a f e e . I t i s N O T f r e e s e r v i c e . Y o u c a n n o t c h a n g e o r e x t e n d t h e t e r m o f m a i n t e n a n c e s e r v i c e .
13 14
Price List
I t e m D e s c r i p t i o n
O S * 1 W i n d o w s 7 / V i s t a / 2 0 0 8 / 2 0 0 3 / X P / 2 0 0 0
H a r d d i s k 1 0 0 M B o r m o r e ( M E L S E C E Z S o c k e t a n d S Y S M A C F i n s G a t e w a y c o m m u n i c a t i o n s r e q u i r e m o r e t h a n 2 0 0 M B )
M e m o r y 1 G B o r m o r e
L i c e n s e I t r e q u i r e s a l i c e n s e f o r e a c h c o m p u t e r t o i n s t a l l . ( T h e r e a r e n o r e s t r i c t i o n s f o r t h e n u m b e r o f P L C c o n n e c t i o n s a n d O P C c l i e n t c o n n e c t i o n s )
P r o t e c t i o n P r o t e c t e d b y s o f t w a r e k e y ( P r o t e c t e d b y U S B k e y f o r A s i a n c o u n t r i e s )
D e v e l o p m e n t L a n g u a g e V B . N E T , V i s u a l B a s i c ( V S 2 0 1 0 , V S 2 0 0 8 , V S 2 0 0 5 , V S 6 . 0 ) , V B A , V S T O
C # . N E T , V i s u a l C / C + + ( V S 2 0 1 0 , V S 2 0 0 8 , V S 2 0 0 5 , V S 6 . 0 )
T h r e a d i n g M o d e l M T A ( F r e e T h r e a d i n g )
W i n d o w s S e r v i c e A c t i v a t i o n P o s s i b l e
M a x i m u m P L C s * 3 2 5 6
M a x i m u m T a g s U n r e s t r i c t e d
P r o t o c o l s O P C - D A 3 . 0 , O P C - D A 2 . 0 5 A , D D E , S u i t e L i n k * 4
A l i a s T a g N a m e P o s s i b l e
S i m u l a t i o n M o d e P o s s i b l e ( S i n e / R a m p / S h a r e d m e m o r y )
O P C
P R O G . I D T a k e b i s h i . D x p . 1
O P C A c c e s s P a t h P o s s i b l e
O P C I t e m I D U s e d e l i m i t e r s t o s p e c i f y d e v i c e , g r o u p a n d t a g n a m e s .
D a t a t y p e
V T _ B O O L ( L o g i c a l v a l u e s ) V T _ B O O L | V T _ A R R A Y
V T _ I 1 ( 8 b i t s i g n e d i n t e g e r s ) V T _ I 1 | V T _ A R R A Y
V T _ U I 1 ( 8 b i t u n s i g n e d i n t e g e r s ) V T _ U I 1 | V T _ A R R A Y
V T _ I 2 ( 1 6 b i t s i g n e d i n t e g e r s ) V T _ I 2 | V T _ A R R A Y
V T _ U I 2 ( 1 6 b i t u n s i g n e d i n t e g e r s ) V T _ U I 2 | V T _ A R R A Y
V T _ I 4 ( 3 2 b i t s i g n e d i n t e g e r s ) V T _ I 4 | V T _ A R R A Y
V T _ U I 4 ( 3 2 b i t u n s i g n e d i n t e g e r s ) V T _ U I 4 | V T _ A R R A Y
V T _ R 4 ( 3 2 b i t s i g n e d r e a l n u m b e r ) V T _ R 4 | V T _ A R R A Y
V T _ I 8 ( 6 4 b i t s i g n e d i n t e g e r s ) V T _ I 8 | V T _ A R R A Y
V T _ B S T R ( C h a r a c t e r s t r i n g ) V T _ B S T R | V T _ A R R A Y
V T _ A R R A Y ( A r r a y )
D D E / S u i t e L i n k * 4 A p p l i c a t i o n N a m e A n y ( D e f a u l t : “ D x p ” )
T o p i c N a m e A n y ( D e f a u l t : “ D e v i c e n a m e ” )
E x t e n d e d F o r m a t
B o o l e a n e x : M 1 0 0 = 0 ( 1 0 0 o f i n t e r n a l r e l a y )
B i t p o s i t i o n o f w o r d d e v i c e e x : D 1 : 1 5 = 1 ( 1 5 t h b i t o f D 1 )
1 6 b i t s i g n e d i n t e g e r s e x : D 1 : W = 3 2 7 6 7 ( 1 o f d a t a r e g i s t e r )
1 6 b i t u n s i g n e d i n t e g e r s e x : D 1 : U = 6 5 5 3 5 ( 1 o f d a t a r e g i s t e r )
3 2 b i t s i g n e d i n t e g e r s e x : D 1 : D = 2 1 4 7 4 8 3 6 4 7 ( 3 2 b i t o f D 1 t o D 2 )
3 2 b i t u n s i g n e d i n t e g e r s e x : D 1 : D U = 4 2 9 4 9 6 7 2 9 5 ( 3 2 b i t o f D 1 t o D 2 )
6 4 b i t u n s i g n e d i n t e g e r s e x : D 1 : I U = 2 1 4 7 4 8 3 6 4 7 ( 6 4 b i t o f D 1 t o D 4 )
B C D e x : D 1 : B = 0 x 1 2 3 4 ( 1 6 b i t B C D f r o m D 1 )
3 2 b i t s i g n e d r e a l n u m b e r e x : D 1 : R = 9 . 8 7 6 ( 3 2 b i t f l o a t i n g d e c i m a l p o i n t o f D 1 t o D 2 )
C h a r a c t e r s t r i n g e x : D 1 : S 1 0 = “ A B C D E F . . . ” ( C h a r a c t e r s t r i n g o f D 1 t o D 1 0 )
T e x t f o r m a t b i n a r y e x : D 1 : B 1 0 = “ 0 0 0 0 1 1 1 1 . . . ” ( B i n a r y t e x t o f 1 6 b i t / p o i n t )
T e x t f o r m a t o c t a l e x : D 1 : O 1 0 = “ 1 7 3 , 1 4 2 , 6 0 , . . . ” ( O c t a l t e x t d i v i d e d b y c o m m a )
T e x t f o r m a t d e c i m a l e x : D 1 : D 1 0 = “ 3 2 7 6 7 , 2 5 5 , - 1 , . . . ” ( D e c i m a l t e x t d i v i d e d b y c o m m a )
T e x t f o r m a t h e x a d e c i m a l e x : D 1 : H 1 0 = “ F F F F 0 0 0 0 1 2 3 4 . . . ” ( H e x t e x t o f 4 f i g u r e s / p o i n t )
A r r a y e x : D 1 : A 1 0 ( a r r a y D 1 t o D 1 0 )
R e a d - o n l y e x : D 1 : O R ( f o r b i d w r i t e t o t a g )
W r i t e - o n l y e x : D 1 : O W ( d o n o t r e a d t a g )
A p p l i c a t i o n t y p e * 2 3 2 b i t A p p l i c a t i o n ( W i n 3 2 / x 8 6 ) , 6 4 b i t A p p l i c a t i o n ( W i n 6 4 / x 6 4 )
V T _ U I 8 ( 6 4 b i t s i g n e d i n t e g e r s ) V T _ U I 8 | V T _ A R R A Y
V T _ R 8 ( 6 4 b i t s i g n e d r e a l n u m b e r ) V T _ R 8 | V T _ A R R A Y
6 4 b i t s i g n e d i n t e g e r s e x : D 1 : I = 2 1 4 7 4 8 3 6 4 7 ( 6 4 b i t o f D 1 t o D 4 )
6 4 b i t s i g n e d r e a l n u m b e r e x : D 1 : D R = 1 . 2 3 ( 6 4 b i t f l o a t i n g d e c i m a l p o i n t o f D 1 t o D 4 )
* 1 f o l l o w i n g c o n n e c t i v i t y a r e d e p e n d s o n e a c h P L C s t a t u s . - M E L S E C E Z S o c k e t c o m m u n i c a t i o n - S Y S M A C F i n s G a t e w a y c o m m u n i c a t i o n - T O Y O P U C C P U p o r t c o m m u n i c a t i o n - F A N U C F O C A S 1 / 2 c o m m u n i c a t i o n * 2 Y o u c a n i n s t a l l t o s e l e c t 3 2 b i t o r 6 4 b i t O P C S e r v e r . P l e a s e r e f e r t o t h e m a n u a l f o r t h e l i m i t a t i o n o f 6 4 b i t O P C s e r v e r . * 3 T h e p e r f o r m a n c e d e c r e a s e s a s i n c r e a s i n g n u m b e r o f P L C c o n n e c t i o n s . W h e n y o u a c c e s s 1 0 P L C s o r m o r e , i t i s r e c o m m e n d e d t o u s e H y p e r T h r e a d i n g C P U o r D u a l C o r e C P U . * 4 D D E / S u i t e L i n k f o r W i n d o w s 7 / V i s t a / 2 0 0 8 a n d 6 4 b i t O S a r e n o t g u a r a n t e e d b y m a n u f a c t u r e r s (W o n d e r w a r e . )
DeviceXPlorer OPC Server S tandard L icense * 1
D X P S t a n d a r d L i c e n s e V e r s i o n u p * 5 D X P □ □ □ - V - U * 6 U p g r a d e t o t h e l a t e s t v e r s i o n - - - U S D 3 4 0
P r o d u c t M o d e l S u p p o r t P L C I / F
P r i c e E T N R S 2 e t c
D X P E n t e r p r i s e O P C S e r v e r D X P E N T - U S u p p o r t a b o v e a l l P L C * 2 * 3 * 4 ● ● ● U S D 1 , 2 8 0
D X P E n t e r p r i s e O P C S e r v e r w i t h 3 Y e a r s M a i n t e n a n c e D X P E N T - M 3 - U W i t h F r e e u p d a t e s e r v i c e / S p o t s e r v i c e ● ● ● U S D 1 , 9 8 0
D X P E n t e r p r i s e O P C S e r v e r w i t h 5 Y e a r s M a i n t e n a n c e D X P E N T - M 5 - U W i t h F r e e u p d a t e s e r v i c e / S p o t s e r v i c e ● ● ● U S D 2 , 9 8 0
D X P E n t e r p r i s e 1 0 L i c e n s e P a c k D X P E N T - L 1 0 - U 1 m e d i a a n d 1 0 L i c e n s e s s e t - - - U S D 1 1 , 0 0 0
DeviceXPlorer OPC Server Enterpr ise L icense * 1
P r o d u c t M o d e l S u p p o r t P L C I / F
P r i c e E T N R S 2 e t c
D X P F i n s G a t e w a y L i c e n s e D X P F G W - U F o r D X P S Y S M A C O P C S e r v e r o r E n t e r p r i s e l i c e n s e - - - U S D 2 9 0
Opt ion
D X P E n t e r p r i s e V e r s i o n u p * 5 D X P E N T - V - U U p g r a d e t o t h e l a t e s t v e r s i o n - - - U S D 6 4 0
D X P E n h a n c e d U p g r a d e * 5 D X P E N T - C H G - U F r o m s t a n d a r d l i c e n s e t o E n t e r p r i s e l i c e n s e - - - U S D 6 4 0
U S B m e d i a ( M o d e l : D X P □ □ □ - U - U S B )
C D m e d i a ( M o d e l : D X P □ □ □ - U )