What`s New in EMC Studio v6.0
Contents
1. 1 10 Frequency kHz 100 Consulting and Software 4 16 What is New in EMC Studio v 6 0 Magnetic Field above the Steel Plate ee ELL LEE IG ELI I O Measurement Numerical solution Measurement Setup Steel Shield Peal part J Imaginary part 9 1 10 Frequency kHz Measurements are performed in AUDI AG Germany 100 e eo Permeability Frequency kHz Magnetic Field Distribution Aluminum plate f 10 Hz Steel plate f 10 Hz Aluminum plate f 5 kHz Steel plate f 5 kHz Consulting and Software What is New in EMC Studio v 6 0 17 1 6 Dielectric Substrates Support in LF Electric Field Analysis Type Infinite dielectric substrate is supported for LF Electric Field Analysis Type calculations Dielectric Mutual Capacitance Substrate C11 pF 2 8478 4 9843 Potential O Infinite Dielectric Substrate Properties Mame Infinite Dielectric Substrate 1 Dielectric Substrate Parameters aw ee Xx Y Z Layer Thickness Top Point 0 0 0 0 0 0 m Laver 1 2B 3 Top Marmal 0 0 0 0 1 0 m Dielectric Layer x Show normal f Mame Laver 1 Mode Diele2. Bl x File Edit View Tools Diagnostics Calculation Results Window Help 8 x D 8 oc S PPacIS Pide l tema ev X 9Q 9 amp 092060 ot RRA E De N09 li fm a P rA P emi kK 14 0 L Observation Quantities m 2 QAP S BP 7 a Ky test_4 S Hg Mesh Y amp e Topology amp Meshes 4 Cables 9 Devices M8 Geometry Les Model BR Mesh be Post Processing x Found intersection bet cable s in segment BNS405 and triangle 1313 amp Found intersection bet cable s in segment BNS224 and triangle 1642 amp Found intersection bet cable s in segment BNS224 and triangle 1652 Found intersection between cable s in segment BNS498 and triangle 1919 3 Found intersection between cable s in segment BNS498 and triangle 1920 3 Found intersection between cable s in segment BNS347 and triangle 1978 i E ol XB Message Boa f B Diagnostics ElHybrid Output Error messages are disabled automatically after proper changes in model Found intersection between cablets in segment BNSz24 and triangle 1642 Found intersection between cable s in segment BNS405 and triangle 1313 j Found intersection between cable s in segment BNSz24 and triangle 1652 Found intersection between cable s in segment BNS5498 and triangle 1919 Found intersection between cable s in segment BNS498 and triangle 1920
3. Ej ial Ed pur miii iu E o e 1 4 EMCoS Consulting and Software What is New in EMC Studio v 6 0 13 1 4 2 Near Field Distribution in Near Field Grid In order to allow observation of near fields in near field grid EMC Studio v6 0 provides updated Near Field 3D post processing tool To view near field distribution in 3D grid l Activate Near Field Distribution dialog 2 On General tab specify general observation parameters 3 Switch to Areas tab and choose Near Field Grid radio button 4 In 2D Plane group define normal vector X Y or Z and plane level from Plane Level combo box or by moving corresponding slider If Use levels of whole grid is selected then field values for chosen plane level are recalculated related to min and max values of whole grid Total Magnetic Field Distribution Plane level z 0 5 m Near Field Distribution x General Areas Levels Animation Advanced C Near Field 4reas Near Field Grid 2D plane ri a URS Normal vector C X CON ie 7 Plane level im 0 5 ES Use levels of whole grid v Enable automatic update Update Total Magnetic Field Distribution Plane level z 1m Near Field Distribution x General Areas Levels Animation Advanced C Near Field Areas Near Field Grid SS NEA 2D plane Normal vector C X CON F Plane level im 1 m Use levels of whole grid v Enable automatic
4. X Delete Route deletes selected cable routes view Hote cancel EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 29 1 11 2 New Method for Hybrid Cables Creation Based on Pre defined Route When cables are created based on pre defined routes in Hybrid Analysis Types they are automatically added to the active objects parameters and can be accessed or edited directly from Objects Parameters dialog 7 X PS T pa Se ee pain Pi Mame Cable 5 Part Number Ra 213 0_ M1774 e JObject Properties mm ico ico j Ej Parameters Cables cable Routes Part Humber Cable 1 RG zi18 l M17 Route 1 Cable 2 RG z13 l M17 Route 3 Parameters Routing Cable 3 multi part 2 Route 4 Cable 4 RG P18 U M17 Route 4 Type segments Route Route wie f em Cable Raute Length 0 812536 m TN To view and modify cables properties 1 Select object in Elements Tree View 2 Activate objects popup menu with right mouse click and select Properties item 3 In Object Properties dialog switch to Cables tab Cables section displays all cables created in current object and provides editing functionality a Add Cable creates new cable yi Edit Cable edits cable parameters x Delete Cable deletes selected cables 4 EMCoS Consulting and Software 30 What is New in EMC Studio v 6 0 1 12 Extension of Models Libr
5. m T pum i o o ken Ce pu i Cc 75 100 Frequency MHz FM 1 theta 85 deg Fh 2 theta 85 deg 240 espe ae 270 270 Frequency 66 MHz Frequency 125 MHz For convenient antenna Correlation Coefficient observation new 2D Post Processing Tool are available EMCoS Consulting and Software 4 10 What is New in EMC Studio v 6 0 1 3 2 New 2D Post Processing Tool for Correlation Coefficient Observation EMC Studio v6 0 provides new 2D post processing tool for antenna correlation coefficient observation and analysis To activate Correlation Coefficient dialog E e Click Correlation Coefficient d button on Post Processing bar e Select Results Correlation Coefficient from Main Menu Correlation Coefficient Value Frequencies Preview Theta Component 1 QOOO000 nay a Fhi Component Linear C Log C dB Mew GRAPH Add to GRAPH MATLAB C Phase d A EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 11 1 4 Special Solution for Smart Entry Antenna System 1 4 1 Near Field Calculation in Volume Near Field Grid EMC Studio v6 0 provides new observation quantity Near Field Grid required for near field calculation and observation in volume In this case field values are calculated in vertices of the defined near field grid Near Field Grid Properties x Mame Mear Field Grid 1
6. 1 14 New 2D Post Processing Tool for Hybrid Analysis Type Eye Pattern 32 1 15 Full Support of Windows 7 sssssssss m hme 32 2 Improvements VO U iessssesssezkseSuvsusuzesuweskssSuwEsEresuseskaegusvossuEu eskseSuREEkpE USE RVREEEAFEENE 33 What is New in EMC Studio v 6 0 5 1 New Features v6 0 1 1 New Features and I mprovements in Matrix Partition Solution EMC Studio v6 0 provides improved Matrix Partitioning calculation scheme This includes e Improvement of calculation scheme less HD space required easier parallel cluster calculations e Optimized task processing one input file definition for set of problems one execution of computational solver e Improvements in Layers organization for geometry objects e layer Sets for convenient definition of calculation task and separate view of each model variation Matrix Partition Calculation Tasks Task1l Layers Set 1 Task2 Layers Set 2 ase Layer L1 L2 Task3 Layers Set 3 ase Layer L1 L3 ase Layer L1 L2 L3 ase Layer L1 L3 L4 ase Layer L1 L2 L3 L4 Task4 Layers Set 4 Task5 Layers Set 5 Calculation Task I xj General Analysis Type EM Task Marne antenna _otimization Comment Run Editor Before Calculation Advanced Settings X General Layer seks Memory Solver Range Layer Sets Activate All Layers Set 1 start 1 MHz 6 Layers Set 2 DESI Stop 180
7. Hh 2 Bun s a0000 Bz Bollo ac Y 2 00000 za zr 5 5 Z 0 1 1 6 16 1 5 Grid Settings Points C Lines Surface Visibility 951 m To define near field grid observation region Qu l Click Near Field Grid button on Elements Panel 2 In Create Near Field Grid dialog specify near field grid name or use default 3 Define Minimum Maximum and Step values for each axis N Points and Size values are recalculated automatically 4 Define grid visualization settings in Grid Settings group Three visualization modes are available points lines and surface EMCoS Consulting and Software 12 What is New in EMC Studio v 6 0 T T i A T ep Bay rand Puta past a mene ol H a L P El m A i Tae 4l 5 M tn P Z a F le gt t Ps m a a a a a Points View Lines View Surface View 5 Define points or lines visualization density by moving Density slider For surface view move slider to set required transparency level 6 Click Create button Convert Near Field Grid to Field Probes To convert near field grid to field probes 1 Select near field grid in Viewer 3D or Tree View 2 Activate near field grid popup menu with right mouse click and select Convert to Field Probes item Near field grid will be converted to field probes located in the grid vertices n ni D i M Un H Y
8. 6 Dielectric Substrates Support in LF Electric Field Analysis Type 17 1 7 Extension of Shield Shapes ssssssssseen mH memes 18 1 7 1 Shielded Ribbon Cables Support ssssssssse nmn 18 1 7 2 Outer Covering Support for Coaxial Ribbon and Multi Cables 18 1 7 3 Wrap Shaped Shields Support ssssssessenn HM emnes 19 1 8 Extended Functionality in System Simulation and Schematic ssesesse 20 L S LIBIS Devices SUDDOTE irran isre dre d senha te OP rd a tela a P EO nca dt DU S 20 1 8 2 Bits Sequence Sources Support ssssssssesssssseee Hee nnns 21 1 8 3 User Defined Probes for Circuit File Devices eeeennnn 23 1 8 4 Improved Wires Routing in System Diagram sssssse nnn 24 L9 SC MIe JE XEenslollsrecbrebtun dFasari EE T RECON REE race TIEFE OF Deb pP EE es 25 1 10 Improved Intersection Detection between Cables and Triangles 26 1 11 Extension of Object Model Ideology to Hybrid Analysis Types se 27 1 11 1 New Segments Grouping Functionality Cable Routes seeeeeee 28 1 11 2 New Method for Hybrid Cables Creation Based on Pre defined Route 29 1 12 Extension of Models Library with Virtual Bench Models eene 30 1 13 Improved 2D Post Processing for Near Field Observations seeeeeeeees 31
9. A Seo ee BEEN S NOR e Ud Ew diego ea Dec C urs cJ est ee Py NUNT es d ae CV Nw EU MR ND S o BEEBE NE NCC Eee Dan ee i OS dun c cust C S a 2A 2 ee DOES IT ERE a Tx ao REEE 4 Lacy SES SR S oSv nO r S foe E Note Cable routes and cables defined based on them are stored as a part of EMC Studio object which can be exported to the external emm EMC Model files or added to Models Library In order to create new cable route based on selected segments activate segments popup menu and choose Create Cable Route on Segment s item Note One segment can belong to several routes Cable routes can be added edited or deleted directly from Object Properties dialog To view and modify cable routes properties Object Properties o x 1 Select object in Elements Tree View fm ico ico KJ E 2 Activate objects popup menu with right Mame Environment mouse click and select Properties item Parameters Cables Cable Routes 3 In Object Properties dialog switch to Cable Routes tab d ou X Cable Routes section displays all cable segments l l Route 1 BMS10 3144 BM5525 7291 roures TEE in Current object and provides ace BNS142 3848 BN517U 4017 editing functionality Route 3 BMS10 3144 BMS525 7291 BNSi4 3846 BMS170 4017 Add Route creates new cable route Aee ee EIL EET EAT v Edit Route edits cable route content allows to add or remove segments
10. Studio v6 0 provides new ideology of Multiport solution This includes e Easier calculation approach for analysis of multiport systems e User defined reference impedance e User defined type of output network parameters S Z or Y e New Port objects are introduced in TriD solver e Antenna diversity analysis by means of Correlation Coefficient e New 2D Post Processing Tool for Correlation Coefficient observation Calculation Task p X General Analvsis Tvpe EM Task Mame antenna atimizakion comment Run Editor Before Calculation Advanced Settings xX General Memory Solver Forts Range Impedance ohm Start 1 Mhz Calculation Stop 180 MHz Network Parameters Type Step E MHz Freq N s0 Correlation Coefficient Solution andard Cf Mulipart D Advanced Settings Matrix Partition C Multi Excitation Output Options OK Cancel cancel EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 9 1 3 1 Antenna Diversity Analysis by means of Correlation Coefficient EMC Studio v6 0 provides new method for antenna diversity analysis by means of Correlation Coefficient n CLEA MCIOOX a eee ee ee Ge eh eG E T o A 2 he aa oN eee Node 2 a le e eh ee eee oF o x General Analysis Type EM TIKI KE XX P oes Impedance 50 Ohm Pdi AVAVAY Res Network Parameters Type nnd
11. Syntax Viname nodel node2 SBS param1 PSpice Syntax Viname nodel node2 SBS param1 HSpice Syntax Viname nodel node2 SBS param1 EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 23 1 8 3 User Defined Probes for Circuit File Devices During calculation of devices defined from cir file only voltages on pins are printed to output file and results for inner circuit elements are omitted EMC Studio v6 0 provides possibility to get output results for particular elements of file devices For this purpose user defined probes can be added to spice syntax directly in Spice Editor To create user defined probes for circuit elements of the file device l In Device Properties dialog click Open in Spice Editor button In Spice Editor switch to Probes tab Click Add Probe P button to create new probe New probe entry with default type Voltage will be added to Probes Table u ew N Choose required probe type Voltage or Current from Type column x v 5 M ame Device Type File Device Base Node x F amp Cl c Pins Y Probes k SUBCKT Dv 5 P1 P2 P3 P4 PS RR1 P6P25U RR2 P P650 Bei at ud RRAPI P50 z P voltage CCl P9 P4 10e 9 CC2 0 P3 10e 9 RRS PS P3 50 LL1 P30 16 6 DOL PS P9 diodi OPNFL PS P1 PF BIT_Spice3_ PNP P3 voltage ENDS begin probes number of probes 4 orobe 1 ie E UD
12. m Max Size 17 2086 mm Shield Min Perimeter 356584 mm shield Copper braid o 1j Type Braided Thickness n36 mm Method Vance Transfer Impedance Outer Covering Material Diameter Circular Shield amp single_cabl Single Delete single cabl Single Duplicate amp single cabl Single Bundling EMCoS Consulting and Software p Enable v 0 3 mm Right 0 00135 O 00027 O 00046 O 00481 O 00297 n 00105608 00026673 O 00521097 20 What is New in EMC Studio v 6 0 1 8 Extended Functionality in System Simulation and Schematic 1 8 11 BI S Devices Support IBIS is the Input Output Buffer Information Specification from the Electronics Industry Alliance IBIS is a behavioral model that describes the electrical characteristics of the digital inputs and outputs of a ECU through V I and V T data without providing the actual circuit information An IBIS model consists of tabular data made up of current and voltage values in the output and input pins as well as the voltage and time relationship at the output pins under rising or falling switching conditions This tabulated data represents the behavior of the ECU In order to introduce ECU behavioral characteristics to system simulation model EMC Studio v6 0 provides new type of device I BIS Device Problems5 EMC Studio Schematic ENS ial x F F
13. ss e Selected triangles are located in the Extension Area of What is New in EMC Studio v 6 0 7 1 2 New Features and Improvements in Multi Excitation Solution EMC Studio v6 0 provides improved Multi Excitation calculation scheme This includes e Improvement of calculation scheme less HD space required easier parallel cluster calculations e Optimized task processing one input file definition for set of problems one execution of computational solver e Excitation Sets allows to group several excitation sources for convenient definition of calculation task Multi Excitation Calculation Tasks Task1 Excitations Set 1 V1 1 V2 1 Task2 Excitations Set 2 V1 2 V2 2 4 Task3 Excitations Set 3 V1 3 V2 3 NIS LAE a Ni AC SNR NON Lan USD Ea MN Calculation Task F General Analysis Type EM Task Mame Excitation variation Comment Run Editor Before Calculation Domain ir Frequency C Time Activate All Excitations Set 1 Excitations Set 2 Deactivate All Excitations Set 3 Frequency C Single ir Range C List C Adaptive Sampling Solution C Standard C Multiport C ha bx D Mode Sequential C Parallel Adaptive MoM Consulting and Software 8 What is New in EMC Studio v 6 0 1 3 New Ideology of S Y Z Solution Multiport Solution EMC
14. update Update If Enable automatic update check box is switched on then near field visualization in Viewer 3D will be dynamically updated A4 EMCoS Consulting and Software 14 What is New in EMC Studio v 6 0 1 4 3 Field Reference Level Iso line and I so surface Definition EMC Studio v6 0 provides new field reference levels visualization options for convenient analysis of smart entry antenna systems Iso line and I so surface modes Near Field Distribution General Areas Levels Animation Advanced Field Min value 2 92002 1e 5 _ _ IOS Max value 3 714363842 i v Define reference level Reference level 1 6e 3 Linear m Highlight areas Above Below v Show Border tso ine C Iso surface Normalize minimax values For all Frequencies user defined minimax values keep minimax values Far all Frequencies Total Magnetic Field Reference Level Iso line View Near Field Distribution General Areas Levels Animation Advanced Field Min value z a20021e 5 ai ISOS Max value 3 714363e 2 ANAN a EA v Define reference level Reference level 1 66 3 Linear Normal vector ka Above W Show Border C Iso line Normalize minimas values For all frequencies User defined minimax values Keep minimas values For all frequencies Total Magnetic Field Reference Level 1so su
15. ET ce Ex B pe d ao s 7 3 nfg 3 fi ae 1 a a oe 40 e 2 4 nfg_O_4 s i ee oe P s pO 5 na n 5 2 EL d hi eet Migs Re nee is JE a aA ll ELLE ane e 6 nfg 6 m Pre b er el ee ee Pd Ty Ap pra en y 11 nfg D 11 3e LL Laat a Rae B CAS s a bl ae a o Erat t ad A a J gt 15 nfg_0 15 E m ATL 16 nfg 0 16 boo a gpl AM ec 7 nfq D 17 Po dup ME T geal ERR SES Linear ies oS Eu Cmee Cms a un D E am ru 21 nfg 0 21 Component ae ee a Ae ape Cx Cv Cz Gras Cw 5 7 m Ed gr 52 ae ES nrg 023 cy OE E pel 24 nfo O z D Wap ae Se a Electric C Incident New GRAPH Pl a 4 mae Project Magnetic Scattered h m Ee I dts o an File Total Add to GRAPH Le pee ee al P e all From fil m aio e MATLAB Ej O LEE ed ED 7 A X WA N X h N V vi Names of the obtained field probes have the following format e nfa Near Field Area ID internal ID of point from Near Field Area e nfg Near Field Grid ID internal ID of point from Near Field Grid EMCoS Consulting and Software 4 32 What is New in EMC Studio v 6 0 1 14 New 2D Post Processing Tool for Hybrid Analysis Type Eye Pattern EMC Studio v6 0 provides new 2D post processing tool Eye Pattern Eye Pattern post processing tool allows to analyze signal integrity results obtained for System Simulation Hybrid Cross Talk and Susceptibility ana
16. Found intersection between cable s in segment BN5347 and triangle 1978 EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 27 1 11 Extension of Object Model Ideology to Hybrid Analysis Types EMC Studio v6 0 extends Object Model ideology to Hybrid Analysis Types In new version object parameters of Hybrid Analysis Type are extended with user defined Cable Routes special group of the segments used for cables construction Hybrid cables created based on Cable Routes are also considered as Object Model parameters EMC Object Geometry Elements Name Variable Value Model Elements Mesh Elements Cables and cable routes have the following attributes Cable attributes e Cable Name unique name of the hybrid cable defined based on route e Part Number reference to a library cable e Position 2D position in bundle cross section e Route reference to route on which cable is created Route attributes e Route Name unique name of the route e Segments unique name of the segments included in cable route EMCoS Consulting and Software 28 What is New in EMC Studio v 6 0 1 11 1 New Segments Grouping Functionality Cable Routes Segments intended for hybrid cables creation can be combined into special groups called Cable Routes These groups can be used as pre defined routes during cables creation procedure eae x L T P F H A T PEL a e iin f a UE Am
17. Fype Current name RAZ orobe 2 Fype Current Li s name LL1 6 Double click on probe entry in Name column and define probe name Probe name definition depends on chosen probe type e Voltage probe name should correspond to name of elements connection node defined in editor e Current probe name should correspond to elements full name defined in editor 7 Click OK To remove existing probes select them in Probes Table and click Remove Probe x button 24 What is New in EMC Studio v 6 0 Defined probes will be appended to the loaded spice file as a comment with the following format begin probes number of probes N number of defined probes probe m probe index from 1 to N type Voltage or Current type of probe name Probe name end probes 1 8 4 I mproved Wires Routing in System Diagram Improved System Diagram in EMC Studio v6 0 provides smart rule for automatic routing of connector wires between devices mmm mmm mmm mmm mmm mmm mmm mmm mmm mmm mmm mmm mmm mmm mmm mmm 1 7 mmm mmm mmm mma mmm mmm mmm mmm fe mmm mmm mmm mmm mmm mmm Hn l z I z e es I E I 5 5 D l gt I a mmm a a i EE m Old Wire Routing Rule in System New Wire Routing Rule in System Diagram Diagram EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 25 1 9 ASC File Extension ASC file format is extended with additional in
18. MHz F Layers Set 3 Step E Layers Set 4 P MHz _ Layers Set 5 Solution C Standard P hulipa Advanced Settings Matrix Partition VIE tation Output Options cancel za EMCoS Consulting and Software 4 6 What is New in EMC Studio v 6 0 1 1 1 Detection of Geometry Elements Related to Dielectric Substrate For correct simulations of glass antenna optimization problems using Matrix Partitioning scheme all metallic elements affected by dielectric substrate must be placed to the same Base Layer or Additional Layers Set as dielectric New geometry selection tool provides fast and convenient access to triangles and wire segments related to particular dielectric substrate In order to select wires or triangles near selected dielectric substrate s 1 Select dielectric substrate s to select corresponding geometry elements wires or triangles 2 Click Select A button on Mesh Editor toolbar and in button popup menu select Triangles gt Near Selected Dielectric Substrates or Wires gt Near Selected Dielectric Substrates item All wires and triangles related to the selected dielectric substrate s will be selected Finite Dielectric Substrate Properties Mame Dielectric Substrate Finite 1 Dielectric Substrate Parameters Extension Height 0 005 m ae IN v A Layer Thickness 0 00314 Show normal JT View Structure Layer Jbaselayer
19. What is New in EMC Studio v 6 0 compared to version 5 1 Date 25 11 2010 EMCoS 27 Pekin Str 0160 Tbilisi GEORGIA Email info emcos com Phone 995 32 389091 Fax 995 32 389092 http www emcos com EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 3 Contents L New Features VO isesdussasssuawas uud vex uuaxEawE xad mEEEa weg aM RAE DUMP CE EE I NR MERE E CNN INE REM EUE 5 1 1 New Features and Improvements in Matrix Partition Solution cece eee ee eee eee ees 5 1 1 1 Detection of Geometry Elements Related to Dielectric Substrate 6 1 2 New Features and Improvements in Multi Excitation Solution sseeeeeee 7 1 3 New Ideology of S Y Z Solution Multiport Solution eeeeeennnnnnn 8 1 3 1 Antenna Diversity Analysis by means of Correlation Coefficient 9 1 3 2 New 2D Post Processing Tool for Correlation Coefficient Observation 10 1 4 Special Solution for Smart Entry Antenna SYSteM ccce cece cece ee eeeeeeeeeeeeeeeeeneas 11 1 4 1 Near Field Calculation in Volume Near Field Grid eeeeeeeeeeese 11 1 4 2 Near Field Distribution in Near Field Grid eeeseennnn 13 1 4 3 Field Reference Level Iso line and Iso surface Definition ss 14 1 5 LF Magnetic Field Analysis Type for Low Frequency Problems eee 15 1
20. al TEM Cell Virtual TEM Cell Wy System Diagram Location Preces radiation mode susceptibility made s0 m YD m z m FA Septum Paramet Length L m z width Wi m 0 74257 Height H m 0 15 Triangle length OF GA Plate Parameters Length A m 3 8 view Mote cancel EMCoS Consulting and Software What is New in EMC Studio v 6 0 31 1 13 Improved 2D Post Processing for Near Field Observations Preview of field probes selected in 2D post processing is available in centers of triangles for Near Field Areas and in grid vertices of Near Field Grid To display preview of field probes for near field areas or near field grid activate Field tn Field Probes dialog and select All from file option List of Field Probes will be automatically filled with field probes corresponding to near field areas or near field grid is Preview of the selected field probes Y Field in Field Probes Field Probes Frequencies Preview Sv NI vA A AN A E Let i Pd GN pee T 2 n a on LJ 2 d g 01 7 x T LA
21. ary with Virtual Bench Models Virtual benches in EMC Studio v6 0 are introduced as parametric models in Models Library Up to date cable models and device types for hybrid analysis are supported Virtual bench models Virtual Antenna Virtual Stripline Virtual BCI and Virtual TEM Cell integrated in Models Library are variables based and contain pre defined cable routes Based on these routes user can define required cables configuration and simulate testing model Untitled1 EMC Studio Pe ES File Edit View Tools Diagnostics Calculation Results Window Help D dG Mo c m EE e oP de viun5msss mummmnu k G Q amp 0922 e t RAA a DeM kM x J Sy MALA Y g Models Library X N09 Meshes samio 9 Antennas E Cables 9 EMC Devices g 9 9 Simple microstrip structures Wire Structures TEM douice ioe Model Properties Mame Virtual stripline radiation made z mou XD y v7 4 X Virtual antenna Virtual antenna radiation mode susceptibility mode p d hy M d NM 2 STs d virtual BCI Virtual BCI aa ae e measurements A 4 Y DX ANN A An e DO UA A Virtual stripline virtual stripline radiation mode susceptibility mode Parameters Cables Cable Routes Perey xiav virtu
22. ctric Layer Parameters Layer Base Layer Manual Thickness C From File T Permitkivity E i Permeability Magnetic loss Factor Dielectric loss Factor C Conductivity EMCoS Consulting and Software 4 18 1 7 Extension of Shield Shapes 1 7 1 Shielded Ribbon Cables Support What is New in EMC Studio v 6 0 EMC Studio v6 0 supports shielded ribbon cables in Hybrid Analysis Types Cables Library 2 O e ge ce ini x E 9 Shields Library x Single Cables amp single_cable_part_1 amp single cable part 2 amp single cable part 3 amp single cable part 4 amp single cable part 5 Twisted Pair Cables hum sahla mas i am amp Shield Copper braid 0 18 8 24 Name Copper braid 0 255 9 36 Tope Copper braid D 127 7 16 Copper braid D 1 4 16 Copper braid D 16 9 16 Copper braid D 16 7 16 Copper braid D 127 8 16 SolidPEC PECS PEC10 PEC116 Parameters Material Filaments diameter Filaments in carrier Carriers in braid Wave angle Copper braid D 18 8 24 Braided Copper annealed p 0 18 mm 95 ig Shield inner diameter pA mm Shield inner perimeter 22 6195 mm Method Vance m View Structure Show Dependent Parameters gt General Part Number ribbon_cable _part_1 Conductor Shape circle v Number sf Material copper ss my Distance
23. formation in EMCoS software products EMC Studio EMC Expert and Harness Studio Family This includes Cable Material Parameters Insulation and Conductor Materials Parameters Shield Parameters Solid Braided and Layered Information about Cable Parts and Parameters Single TWP Coaxial Multi and Fiber Devices and Splices Parameters Unit Definition for Exported and Imported ASC File Optimization of harness route definition and improved re segmentation of imported harness ASC file format extension provides better data exchange capabilities between EMC Studio and other EMCoS products a wae Cross Yiewer BNS307_2526588 xj hit Q a a E B T Fixedscaling1 ET Harness Studio Model E EMC Studio Model A4 EMCoS Consulting and Software 26 What is New in EMC Studio v 6 0 1 10 Improved Intersection Detection between Cables and Triangles Improved intersection detection between cables and triangles provides more convenient errors fixing procedure Problematic cables and triangles are highlighted in Viewer 3D when corresponding errors are selected in Diagnostic Board This provides fast and easy access to problematic regions After manual correction of problematic areas corresponding error messages are disabled automatically without reapplying checking functions This significantly optimizes model pre processing routines and saves time test 4 EMC Studio Viewer 3D B
24. ile Edit View Tools Diagnostics Calculation Results Window Help x D m M o e S f EPI fe D 3 65 dA Ae v Ts Tt Ik Q Iqla a X 2 G pti sre fat Project amp Linear Impedances 4 Transmission Lines Ricci Dv_1 x adcl dl b5 5 I d Pin 27 R1 ae Pin 28 ae Pin 29 ae Pin 34 ae Pin 35 ae Pin 36 S Pin 37 0 M amne Dv 1 1e Device Type ipis TL Base Made S Pin 38 1 a ZEE ns ae Pin_4 ns amp Pin 44 gns S Pin 45 20ns d Pin 46 Fin 46 Properties Type 3 State gi ae Pin 47 d Pin 52 Model Name ae Pin 53 ae Pin 54 ae Pin 55 ae Pin 56 ae Pin 57 1ODLO65 DOLIT tup 0 178 2 597e 005 1 23e 013 El x ew eme Open in Schematic pen in Spice Editor Gy Elements E Tree 4 Ready To define device data from IBIS file l Activate Device Properties dialog 2 Choose I BIS device type from Device Type combo box 3 In Device Properties dialog click Load Device from file El button and select required ibs file from standard Open dialog and click OK Note Devices defined from IBIS data file are visualized in light cyan color in System Diagram window EMCoS Consulting and Software What is New in EMC Studio v 6 0 21 After IBIS device creation all pins loaded from IBIS file are imported into Schematic environment as elements f
25. l Thickness m Shield Min Perimeter 30 6914 mm ecto sid D m Transfer Impedance PVC os Emm J Delete Duplicate Bundling Add Single Single Twisted Twisted Part Number Type x single cabl single cabl 5 twp cable 9 two cable 0 0027567 0 0 00065 0 0 0022467 0 0 0025467 General ribbon_cable_part_1 Part Number M Conductor Shape 5 Copper buf m 1 2 mm 0 45 mm Number Material Distance Radius circle w Insulation Material Width Height M Recalculate Automatically 177 7 Outer Covering Material pvc eal Thickness o 55 mm WV Shield Min Perimeter as mm Shield Copper braio ei z os m Method Yas mm Transfer Impedance Type Thickness 4 EMCoS Consulting and Software What is New in EMC Studio v 6 0 19 Outer covering parameters Material and Thickness are defined in Outer Covering group in Parameters Panel of Cables Library dialog 1 7 3 Wrap Shaped Shields Support EMC Studio v6 0 extends shield shapes and provides wrap shaped shields support for multi cables General Park Number miti pat 3 Boundary Shape Wrap
26. l2 mm Radius n5 mm M Insulation Material c rl EN Width 8 05487 mm Height mm v Recalculate Automatically Outer Covering Material pvc Ed Thickness 0 55 mm d deocococmmo r Min Perimeter 14 52 mm Shield Type Thickness Method Transfer Impedance os it S mm vance mm ca oem In order to define shield parameters for ribbon cables switch on Shield check box in Parameters Panel 1 7 2 Outer Covering Support for Coaxial Ribbon and Multi Cables EMC Studio v6 0 provides definition of outer covering for coaxial ribbon and multi cables gt General Part Number RG 213 U_M17 74 M Conductor Material Copper annealed zi Diameter 2 053 mm Insulation Material Polyethylene Y buc Diameter 72 mm Shield Min Diameter 2 2583 Shield Copper_braid o 18 v Type Braided Thickness n3 mm Methad Vance Transfer Impedance pvc od A M Outer Covering Material Thickness 0 65 mm Electrical Properties Cable Impedance Velocity of propagatid General Part Number multi part2 M Boundary Shape circle ass Diameter 10 mm Shield Type Thickness Method M Outer Covering Materia
27. lysis in Time Domain calculations To activate Eye Pattern dialog e Click Eye Pattern pe button on Post Processing bar e Select Results Eye Pattern from Main Menu Lx Eye Pattern Probes Frequencies Preview voltage Current Dy RRL Dy 1 PIMI C Magn Peal C Phase C Imag Linear C log f de i B J 909626 00 Bits Length 1e 008 Project 5 392962e 00 aud C File 5 394962e UIn Number of periods E Add to GRAPH s All From File amp 320896225 0 MATLAB Eg 1 15 Full Support of Windows 7 EMC Studio v6 0 provides full support of Windows 7 operating system EMCoS Consulting and Software 4 What is New in EMC Studio v 6 0 33 2 improvements v6 0 Consulting and Software I mprovements in Computational Cores Faster LC calculation with LF Electric Field solver Improved construction of cable bundle cross section Binary format for TriD output file is supported Improved output file for time domain TriD calculations Definition of multiple calculations for stochastic cables analysis is available in XTalk and Radiation Hybrid solvers Slight improvements in S2Cir converter User s Manual for Hybrid Cores is available Support of Multiple Near Field Sources and Impressed Currents I mprovement of Cables Auto bundling for Random Type Improved Processing of Imported Touchstone and cir Devices in Schematic and Cores I m
28. or circuit model construction In Schematic Elements Tree all IBIS pins are located under the elements group having the same name as loaded IBIS file Pin parameters loaded from IBIS file can be viewed and edited from Elements Properties dialog For this purpose select pin in Schematic window activate elements popup menu with right mouse click and select Elements Properties item Note HSpice model is used for IBIS devices 1 8 2 Bits Sequence Sources Support EMC Studio v6 0 supports special type of sources in Schematic Elements Library intended for bit signal generation in time domain tasks Bits Sequence Sources This includes e Pseudo Random Bits Sequence Age sources Time Domain bega DC Voltage Source e Random Bits Sequence wat DC Curent Source Wm Pulse Voltage Source e Static Bits Sequence 3 em Pulse Current Source b db Sinusoidal Voltage Source Ee db Sinusoidal Current Source ve da Exponential Voltage Source ve aa Exponential Current Source ai da Single Frequency FM Voltage Source xa db Single Frequency FM Curent Source we on PL Voltage Source aot PWL Current Source I la Bits Sequence Sources gta PRBS Voltage Source an Random Bits Sequence Valtage Source X Static Bits Sequence Voltage Source Note In order to support Bits Sequence Sources in Spice calculations EMC Studio generates bit signal and converts the signal to PWL source PRBS Voltage Source N number of bits will be calculated by form
29. provements in System Diagram and Schematic mproved automatic placement of devices View of indexes of circuit element pins in Schematic I mprovements in Cables Library Units for all cable types are changed from meters to millimeters mproved definition of shield parameters Additional parameter Angle for internal wires of multi cables Cables description generation for all cable types Convenient Selection of Splices I mproved Union Segments Functionality Possibility to Edit I nput File for Hybrid Analysis Type for Advanced Users I mprovements in Post Processing Mode mproved field probes processing Convenient Handling of Near Field Areas in 3D Post Processing I mprovement of Static2D Viewer GUI Improvements EMCoS
30. rface View Note lIso surface option is available only for fields calculated in near field grid Consulting and Software What is New in EMC Studio v 6 0 15 1 5 LF Magnetic Field Analysis Type for Low Frequency Problems New LF Magnetic Field Analysis Type in EMC Studio v6 0 provides environment for modeling of low frequency magnetic field interaction with thin 3D sheets characterized by combined resistive and magnetic properties Automotive and industrial magnetic shielding problems can be effectively solved in frequency range from DC up to several MHz LFMF Demo Project EMC Studio Viewer 3D amp File Edit View Tools Diagnostics Calculation Results Window Help 18 x D H 7 wtEpugzejlnc aeviutisssmummmv S k OQ SDNGOGle ot QQQQl ob 6ME eRB x yy Outputs ae THEEERTER To ln fr T e be E amp ore 7 21 141 71 vi SN ai X Av AY a y m AJ 8 0 Model s H8 Mesh amp Post Processing vX 2D Plots apr Sf E 4 KN 4 Viewer 3D gt j E Geometry S Model RE Mesh e Post Processing Ready O Measurement Numerical solution Measurement Setup Aluminium Shield
31. ula NBits 2 N 1 a VLow voltage at low state O08 VHigh voltage at high state Rise Time time required for a signal to change from VLow value to VHigh value s Fall Delay time required for a signal to change from VHigh value to VLow value s Bits Length pulse width s Consulting and Software 22 What is New tn EMC Studio v 6 0 Spice Syntax Viname nodel node2 PRBS param1 PSpice Syntax Viname nodel node2 PRBS param1 HSpice Syntax Viname nodel node2 PRBS param1 Random Bits Sequence Voltage Source Meme NBit number of bits will be calculated by formula NBits we 2 N 1 VLow voltage at low state oS VHigh voltage at high state FEN Rise Time time required for a signal to change from VLow value to VHigh value s Fall Delay time required for a signal to change from ane VHigh value to VLow value s Bits Length pulse width s Spice Syntax Viname nodel node2 RBS param1 PSpice Syntax V name nodel node2 RBS param1 HSpice Syntax Viname nodel node2 RBS param1 Static Bits Sequence Voltage Source Bits Sequence user defined sequence of bits 101101110010 VLow voltage at low state IQ VHigh voltage at high state Rise Time time required for a signal to change from VLow value to VHigh value s Fall Delay time required for a signal to change from VHigh value to VLow value s Bits Length pulse width s Spice
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