Ag数据

Software AG：从数据整合到业务转型
软件AG成立于1969年，是全球领先的企业软件和数字化解决方案提供商之一。

软件AG的使命是帮助企业实现数字化转型，并赋予企业创新和竞争力。

数据整合是数字化转型的基础步骤。

企业通常面临来自不同来源的数据的挑战，这些数据以不同的格式和结构存在。

软件AG的数据整合解决方案帮助企业将分散的数据整合在一起，并将其转化为有用的信息。

它提供了一种集成平台，可以从各种数据源中提取、转换和加载数据。

这使得企业能够更好地管理和利用数据，形成合理的数据治理策略。

数据整合只是数字化转型的第一步。

一旦数据整合完成，企业需要将数据转化为业务洞察力，实现业务的转型与创新。

软件AG的业务转型解决方案提供了一种快速、敏捷、灵活的方式来实现业务转型。

它将数据分析、过程自动化和应用集成融合在一起，帮助企业实现数字化的业务转型。

通过将各个业务环节与数据和技术相结合，企业可以更好地解决业务挑战，提高效率和创新能力。

软件AG还为企业提供了扩展和定制的解决方案，以适应不同行业和企业的需求。

通过与合作伙伴和客户紧密合作，软件AG能够提供个性化的解决方案，帮助企业更好地应对数字化转型的挑战。

软件AG是一家全球领先的企业软件和数字化解决方案提供商，致力于帮助企业实现数字化转型并赋予企业创新和竞争力。

从数据整合到业务转型，软件AG为企业提供了全面的技术支持和解决方案，帮助企业更好地管理和利用数据，实现业务转型和创新。

无论企业所处的行业和规模如何，软件AG都能够提供定制化的解决方案，以满足企业的需求。

AG 系列机芯工厂模式的调试方法及数据
1、工厂菜单的进入与退出
1） 按工厂调试菜单键TEST 进入，屏幕出现“TEST ”字样。

（TEST 键的制作见下列说明） 2） 按0～9数字键选择对应MO ～M9菜单。

3） 后按工厂调试菜单键TEST ，屏幕出现“BUS OPEN MODE ”字样。

4
） 再按工厂调试菜单键TEST 退出。

2、AV MODE1：TV →AV
AV MODE2：TV →AV1→AV2
AV MODE3：TV →AV →S-VHS
AV MODE4：TV →AV1→AV2→SVHS AV MODE5：TV →AV1→AV2→SVHS
3、COLOR SYS 仅对AV 有效。

4、以上ROM 存储数据适用于29寸永新管，当显像管变化时，预置参数需重新设置。

5、工厂调试菜单中，备注项“*”表示该项目为机型功能固定设置值，不能调节。

M5改为：(见左下表)
7、用户遥控器中P+、P-、 V+、V-中间位置印制板键为 工厂“TEST ”键，打开遥控 器，用一根小导线连通此键 边缘两焊盘，让其起作用， 按此键对应按钮，则可进入 工厂调试菜单。

注意：工厂菜单中有机型功能 固定设置值，不能修改，非特 殊情况不要进入，以免操作错误。

（遥控器的工厂调试菜单TEST。

窄带脚本:rootadminenableconfighostname LS_diantoushudong_PVMB/ /配置设备的业务单板frame add 01board batadd 0/7 0/11 A32board add 0/17 TSSboard delete 0/5yboard confirm 0//配置设备的IP地址和掩码、网关interface ethip address 192.168.6.133 255.255.255.192 192.168.6.129 vlan_tag 2000ip address 192.168.7.133 255.255.255.192 192.168.7.129 vlan_tag 2001quit//创建MG接口0（用于与上层SOFTX3000设备对接）interface h248 0Yif-h248 attribute code text transfer udp domainName mgip 192.168.6.133 mgport 2944 mg-media-ip 192.168.7.133 mgc-domain-name1 mgcip_1 192.9.168.2 mgcport_1 2944ResetYQuit//配置AG的用户数据（这一段不能一次粘贴完）esl usermgpstnuser batadd 0/7/0 0/11/31 0 terminalid 0pstnport attribute batset 0/7/0 0/11/31 polarity-reverse Supportquit//网管配置interface ethip modify 10.144.75.234ip_address 10.117.0.45submask 255.255.255.0gateway 10.117.0.1 vlan_tag 1000ip modify 172.20.1.2 ip_address 10.115.101.21 submask 255.255.255.0 gateway 10.115.101.1 vlan_tag 1000quitnms name N2000 218.58.194.26 public privatenms activate name N2000//统一上行配置sysman mode inband working mode integratedy//EMU的配置(注意拨码开关)emu add 0 power4845 0 0 rs232 POW interface emu 0power battery parameter 0.15 60 1 100 power battery temperature 60 -40 80quit//保存数据autosave onautosave interval 1440save宽带脚本:rootadminenableconfigsysname LM_diantoushudong_IPMB//网管配置：vlan 1000 standardport vlan 1000 0/2 0interface vlanif 1000description GuanLi_VLANip address10.117.0.44 255.255.255.0quitip route-static0.0.0.0 0.0.0.0 10.117.0.1//业务配置：board confirm 0adsl line-profile add 2yADSL_2My1y661y631631y32204832640//激活线路模板（这一段不能一次粘贴完）interface adsl 0/6deactivate allactivate all profile-index 2Quit//设置上行端口属性interface ipm 0/2speed 0 100flow-control 0quit//业务配置vlan 2993 smartport vlan 2993 0/2 0service-port vlan 2993 adsl 0/6/0 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/1 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/2 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/3 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/4 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/5 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/6 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/7 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/8 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/9 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/10 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/11 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/12 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/13 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/14 vpi 8 vci 81 rx-cttr 6 tx-cttr 6 service-port vlan 2993 adsl 0/6/15 vpi 8 vci 81 rx-cttr 6 tx-cttr 6//配置SNMP协议snmp-agent community read publicsnmp-agent community write privatesnmp-agent trap enable standardsnmp-agent trap source vlanif 1000snmp-agent target-host trap address 218.58.194.26 securityname private snmp-agent sys-info contact linmu_diantoushudongsnmp-agent sys-info loca linmu_diantoushudong//统一上行配置（用于窄带业务，与宽带无关）vlan 2000 standardinterface vlanif 2000description XINLING_VLANquitvlan 2001 standardinterface vlanif 2001description MEITI_VLANquitport vlan 1000 0/2 6port vlan 1000 0/2 7port vlan 2000 0/2 0port vlan 2000 0/2 6port vlan 2000 0/2 7port vlan 2001 0/2 0port vlan 2001 0/2 6port vlan 2001 0/2 7//保存数据autosave interval onautosave interval 1440 save。

AG 玻璃各项数据的检测方法
防眩光玻璃是指通过腐蚀、涂布、喷砂或抛光等方法对玻璃表面进行特殊处理，降低环境光的镜反影响。

改变玻璃表面的粗糙度，从而使表面产生哑光的效果，达到漫反射的作用。

AG 玻璃按照加工工艺分为化学蚀刻、喷涂、镀膜三种，其中化学蚀刻加工工艺的耐久性最佳。

AG 玻璃不仅可以应用于中大尺寸产品上，在小微尺寸产品上优势更明显，目前已被华为、苹果、一加等多家手机终端品牌使用，AG 工艺也成为渐变色之后，手机开发的新热点。

因为应用范围和场景的不同，客户对AG 玻璃的要求参数也尽不相同，那幺在质检过程中是如何使用参数仪器才进行操作和检测各项数据的呢？请看下面的详细操作讲解：
光泽度检验
检测仪器：光泽度仪
检测指标：光泽度。

Data and signal line chokesCommon-mode chokes, ring core0.005 … 47 mH, 100 … 1200 mA, +60 °CSeries/Type:B82793C0/S0Date:March 2016¤ EPCOS AG 2016. Reproduction, publication and dissemination of this publication, enclosures hereto and the information contained therein without EPCOS’ prior express consent is prohibited.EPCOS AG is a TDK Group Company.Rated voltage 42 V AC/80 V DC Rated inductance 0.005 ... 47 mH Rated current 100 ... 1200 mA Construction■Current-compensated double choke ■Ferrite core■LCP case (UL 94 V-0), silicone potting ■Bifilar winding (B82793C0)■Sector winding (B82793S0)Features■High rated currents, reduced components height ■Qualified to AEC-Q200 (L d 4.7 mH)■Suitable for reflow soldering ■RoHS-compatibleFunction■B82793C0:Suppression of asymmetrical interference coupled in on lines,whereas data signals up to some MHz can pass unaffectedly.■B82793S0:Suppression of asymmetrical and symmetrical interference (by L stray )coupled in on lines. The high-frequency portions of the symmetrical data signal are decreased so far that EMC problems can be significantly reduced.Applications■Automotive applications, e.g. CAN bus ■Industrial applications■Types with L R ! 4.7 mH only for telecom applicationsTerminals■Base material CuSn6■Layer composition Ni, Sn ■Hot-dippedMarking■Marking on component: Manufacturer, process location (coded),winding method (coded),ordering code (short form), date of manufacture (YWWD)■Minimum data on reel: Manufacturer, ordering code,L value and tolerance, quantity, date of packing Delivery mode and packing unit■16-mm blister tape, wound on 330-mm reel ■Packing unit: 1500 pcs./reel Common-mode chokes, ring coreDimensional drawing and pin configurationLayout recommendationTaping and packing Blister tapeReelDimensions in mmDimensions in mmCommon-mode chokes, ring coreCommon-mode chokes, ring coreTechnical data and measuring conditionsRated voltage V R42 V AC (50/60 Hz) / 80 V DCRated temperature T R+60 °CRated current I R Referred to 50 Hz and rated temperatureRated inductance L R Measured with Agilent 4284A, 0.1 mA, +20 °CMeasuring frequency:L R d 1 mH = 100 kHzL R! 1 mH = 10 kHzInductance is specified per winding.Inductance tolerance r30% (L R d0.47mH), –30/+50% (L R t1mH) at +20 °C Inductance decrease 'L/L 10% at DC magnetic bias with I R, +20 °CStray inductance L stray,typ Measured with Agilent 4284A, 5 mA, +20 °C, typical valuesMeasuring frequency:L R d 11P H = 1 MHzL R! 11P H = 100 kHzDC resistance R typ Measured at +20q C, typical values, specified per winding Solderability SnPb:+(215 r3) °C, (3 r0.3) sSn96.5Ag3.0Cu0.5:+(245 r5) °C, (3 r0.3) sWetting of soldering area t 95%(to IEC 60068-2-58)Resistance to soldering heat+(260 r5) °C, (10 r1) s (to IEC 60068-2-58)Climatic category 40/125/56 (to IEC 60068-1)Storage conditions (packaged)–25 °C … +40 °C, d 75% RHWeight Approx. 0.25 gCharacteristics and ordering codesL R mH L stray,typnHI RmAR typm:V testV DC, 2 sOrdering code0.005 40120060250B82793C0502N201 0.011 50 80080250B82793C0113N201 0.02560 800110250B82793C0253N201 0.0251400 800110250B82793S0253N201 0.05170 800140250B82793C0513N201 0.0512300 800140250B82793S0513N201 0.10 100 500180250B82793C0104N2010.47 100 700170750B82793C0474N2151.070 700140750B82793C0105N2652.2 120 500400750B82793C0225N265 4.7 250 400550750B82793C0475N265 For telecommunications203001001800750B82793C0206N265 4712001003700750B82793C0476N265 Common-mode chokes, ring coreInsertion loss D (typical values at |Z| = 50 :, +20 °C)asymmetrical, all branches in parallel (common mode)symmetrical (differential mode)L R = 0.005 mHL R = 0.025 mH (low L stray)L R = 0.011 mHL R = 0.025 mH (high L stray) Common-mode chokes, ring coreInsertion loss D (typical values at |Z| = 50 :, +20 °C)asymmetrical, all branches in parallel (common mode)symmetrical (differential mode)L R = 0.051 mH (low L stray) L R = 0.10 mH L R = 0.051 mH (high L stray) L R= 0.47 mH Common-mode chokes, ring coreInsertion loss D (typical values at |Z| = 50 :, +20 °C)asymmetrical, all branches in parallel (common mode)symmetrical (differential mode)L R =1.0 mH L R = 4.7 mH L R = 2.2 mH L R= 20 mH Common-mode chokes, ring coreInsertion loss D (typical values at |Z| = 50 :, +20 °C)asymmetrical, all branches in parallel (common mode)symmetrical (differential mode)L R = 47 mHCurrent derating I op /I Rversus ambient temperatureCommon-mode chokes, ring coreRecommended reflow soldering curvePb containing solder material (based on CECC 00802 edition 2)Pb-free solder material (based on JEDEC J-STD 020D)Time from +25 °C to T 4: max 300 s Maximal numbers of reflow cycles: 3T 1°C T 2°C T 3°C T 4°C t 1s t 2s t 3s150200217250< 110< 90< 40 @ T 4–5 °CCommon-mode chokes, ring core■Please note the recommendations in our Inductors data book (latest edition) and in the data sheets.–Particular attention should be paid to the derating curves given there.–The soldering conditions should also be observed. Temperatures quoted in relation to wave soldering refer to the pin, not the housing.■If the components are to be washed varnished it is necessary to check whether the washing varnish agent that is used has a negative effect on the wire insulation, any plastics that are used, or on glued joints. In particular, it is possible for washing varnish agent residues to have a negative effect in the long-term on wire insulation.Washing processes may damage the product due to the possible static or cyclic mechanical loads (e.g. ultrasonic cleaning). They may cause cracks to develop on the product and its parts, which might lead to reduced reliability or lifetime.■The following points must be observed if the components are potted in customer applications: –Many potting materials shrink as they harden. They therefore exert a pressure on the plastic housing or core. This pressure can have a deleterious effect on electrical properties, and in extreme cases can damage the core or plastic housing mechanically.–It is necessary to check whether the potting material used attacks or destroys the wire insulation, plastics or glue.–The effect of the potting material can change the high-frequency behaviour of the components.■Ferrites are sensitive to direct impact. This can cause the core material to flake, or lead to breakage of the core.■Even for customer-specific products, conclusive validation of the component in the circuit can only be carried out by the customer.Display of ordering codes for EPCOS productsThe ordering code for one and the same product can be represented differently in data sheets, data books, other publications and the website of EPCOS, or in order-related documents such as shipping notes, order confirmations and product labels. The varying representations of the ordering codes are due to different processes employed and do not affect the specifications of the respective products. Detailed information can be found on the Internet under /orderingcodes.Please read Cautions and warnings and1103/16Important notes at the end of this document.Important notesThe following applies to all products named in this publication:1.Some parts of this publication contain statements about the suitability of our products for certain areasof application. These statements are based on our knowledge of typical requirements that are often placed on our products in the areas of application concerned. We nevertheless expressly point out that such statements cannot be regarded as binding statements about the suitability of our products for a particular customer application. As a rule we are either unfamiliar with individual customer applications or less familiar with them than the customers themselves. For these reasons, it is always ultimately incumbent on the customer to check and decide whether a product with the properties described in the product specification is suitable for use in a particular customer application.2.We also point out that in individual cases, a malfunction of electronic components or failure beforethe end of their usual service life cannot be completely ruled out in the current state of the art, even if they are operated as specified. In customer applications requiring a very high level of operational safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health (e.g. in accident prevention or life-saving systems), it must therefore be ensured by means of suitable design of the customer application or other action taken by the customer (e.g.installation of protective circuitry or redundancy) that no injury or damage is sustained by third parties in the event of malfunction or failure of an electronic component.3.The warnings, cautions and product-specific notes must be observed.4.In order to satisfy certain technical requirements, some of the products described in this publicationmay contain substances subject to restrictions in certain jurisdictions (e.g. because they are classed as hazardous). Useful information on this will be found in our Material Data Sheets on the Internet (/material). Should you have any more detailed questions, please contact our sales offices.5.We constantly strive to improve our products. Consequently, the products described in this publicationmay change from time to time. The same is true of the corresponding product specifications. Please check therefore to what extent product descriptions and specifications contained in this publication are still applicable before or when you place an order.We also reserve the right to discontinue production and delivery of products. Consequently, we cannot guarantee that all products named in this publication will always be available. The aforementioned does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.6.Unless otherwise agreed in individual contracts, all orders are subject to our General Terms andConditions of Supply.7.Our manufacturing sites serving the automotive business apply the IATF 16949 standard. The IATFcertifications confirm our compliance with requirements regarding the quality management system in the automotive industry. Referring to customer requirements and customer specific requirements (“CSR”) TDK always has and will continue to have the policy of respecting individual agreements. Even if IATF 16949 may appear to support the acceptance of unilateral requirements, we hereby like to emphasize that only requirements mutually agreed upon can and will be implemented in our Quality Management System. For clarification purposes we like to point out that obligations from IATF 16949 shall only become legally binding if individually agreed upon.8.The trade names EPCOS, CeraCharge, CeraDiode, CeraLink, CeraPad, CeraPlas, CSMP, CTVS,DeltaCap, DigiSiMic, ExoCore, FilterCap, FormFit, LeaXield, MiniBlue, MiniCell, MKD, MKK, MotorCap, PCC, PhaseCap, PhaseCube, PhaseMod, PhiCap, PowerHap, PQSine, PQvar, SIFERRIT, SIFI, SIKOREL, SilverCap, SIMDAD, SiMic, SIMID, SineFormer, SIOV, ThermoFuse, WindCap are trademarks registered or pending in Europe and in other countries. Further information will be found on the Internet at /trademarks.Release 2018-101203/16。

ag 晶格常数
ag晶格常数是一个重要的物理常数，它可以用来评估晶体的结构和晶格常数。

它也可以用来计算晶体本质处理温度的最低温度。

ag晶格常数的计算对于研究晶体的晶格结构和形态都具有重要意义。

晶格常数由六个称为质量中心的点组成，它们在一个立体晶体中由两个连接网格组成，在这个连接网格中，每个质量中心由垂直于它们的实心轴所连接。

质量中心之间的距离被称为ag晶格常数。

ag 晶格常数的值越大，晶体的结构就越密，而越小的ag晶格常数意味着晶体结构越松散。

除了用来衡量晶体结构外，ag晶格常数也可以用来计算晶体的本质处理温度。

这个温度是晶体中的原子结构发生变化的温度，这种变化可能会使晶体的性质，特别是电子属性发生变化。

计算ag晶格常数的值可以用来计算晶体的本质处理温度。

此外，ag晶格常数还可以用来研究有价金属晶体的电学性质。

ag晶格常数可以通过修正晶体结构变得更加非线性来评估晶体的电学性质。

例如，ag晶格常数可以通过改变晶体原子间距来影响电阻率，从而调节晶体的电学性质。

ag晶格常数也可以用来评估晶体的振动性能。

ag晶格常数与晶体原子之间的性能有关，当这些原子间的距离改变时，晶体的振动性能也会发生变化。

在控制晶体的振动性能时，ag晶格常数都可以用来提供诊断数据。

总之，ag晶格常数是一个重要的物理常数，它在研究晶体结构
和形态，以及晶体的晶体本质处理温度，电学性质和振动性能等方面都具有重要意义。

生产厂家：中兴设备型号：ZXMG5200目前版本：V2.0.2P2T3网络位置：综合接入媒体网关，根据组网规划，上联设备可以是EPON或最近的城域网、承载网；下挂宽窄带一体化的综合接入业务接口及协议描述：1.呼叫和控制支持H.248和MGCP协议2.实时传输协议RTP/RTCP3.语音信号的编解码算法支持G.711、G.729、G.723.14.支持PSTN业务（包括拨号上网）、ISDN业务、传真业务、V5接入和xDSL业务（包括IPTV组播业务）。

5.支持基于SNMP协议的综合网管6. 在IP网络侧支持100 Mbits/s、1000 Mbits/s以太网接口，用于窄带媒体流、H.248协议流及宽带数据流的出口7.用于维护及环境监控的232串口承载业务能力：1.纯模拟用户1184线（利旧）2.纯ADSL用户320线（利旧）3.处理能力BHCA值20K应用中注意事项：1. 如果主框有用户板，不能混插到利旧从框，否则烧毁SP板2. 将上联设备端口设为强制百兆全双工，否则端口协商会有问题，出现时通时断等故障3. 如果2个上联口都启用，注意增加PVID保护上联口（一般用不常用的VLAN如4001，4002做PVID）MSAG(config)# vlan add-port 4001 port 0/9/0 untaggedMSAG(config)# vlan add-port 4002 port 0/9/1 untagged4. 严禁将相同的VLAN在2个上联口都透传，可能会引起VLAN成环，影响到整个二层数据网数据配置模板：一．加载主控板版本1. AG开局配置要在现场，首先将串口线连接主框背板右边串口（如果PC没有串口则要另配串口转接头）2. 拔出10槽ICS板，PC连至9槽ICS板正面的网口3. 将PC的IP地址设置为168.10.0.100，打开FTP工具，新建2个用户，一个用户名密码为su3，另一个用户名密码为zte，填写版本路径4. 打开超级终端将9槽ICS板连好网线，插回机架，迅速不停按s键，直到进入ICSBOOT状态小写c命令,在 inet on ethernet(e)输入168.10.0.1（修改带外管理地址），在 host inet(h)输入168.10.0.100（和调试PC地址一致）小写q命令（设定ICS板上的IN BAND MAC和INC MAC，注意格式并大写）小写i命令（设定系统时间，注意格式）E C:（格式化主控板C盘）E D:（格式化主控板D盘）E E:（格式化主控板E盘）T icsVer.z（上传主版本）T icsFpga.bin（上传主板固件版本）T icsSlav.bin（上传主板从CPU版本）T icsSlav1.bin（上传主板从CPU版本）5. 将9槽ICS拔出，插入10槽ICS，连上网线同样方式加载10槽ICS板，带外管理地址设为168.10.0.2MAC地址为10槽ICS板的二．上传系统文件1.将10槽ICS拔出，插入9槽ICS板等待约2分钟， telnet 168.10.0.1 8888 回车，密码zxmg（小写）2.在命令提示符0x1389>下面输入以下命令，出现done为传送成功，如果出现failed，先再传几次，如果还是这样，检查PC的IP是不是168.10.0.100，再检查FTP工具的设置是否正确。

Guide for invoices via data telecommunicationFreight invoicesTable of contents1. Introduction: invoices via data telecommunication (3)2. Process of Data transmission (4)2.1. Requirements (4)2.2. Preparation (4)3. Data set (4)3.1. Definition of the format of to be imported freight invoice data sets (5)3.2. Remarks (8)4. Testing period (9)4.1. EDI test (10)4.2. Test of data sets (10)5. Productive use (11)6. Definition transmission protocol (11)7. Data security (12)Annex: Parameter sheet for the connection with remote transmission of Porsche 131.Introduction: invoices via data telecommunicationThe requirements on the works logistics department have increased as a result of the enlarged product-range of the Porsche AG. The multitude of invoices received from different forwarding agents under different conditions cannot be checked manually anymore on a day-to-day basis. Therefore, an electronic transfer of billing data considerably facilitates the execution of freight invoices.With today’s available IT every transport can be evaluated with the corresponding conditions of the forwarding agent and balanced with the data of the incoming and outgoing goods. As a result, release for payment can be issued much faster if it conforms with the billing data. Installation of data telecommunication accessThe process is divided into four stages: During the preparation stage, the forwarder lays the foundations for a data telecommunication access with support of the Porsche AG. The following system establishment stage contains all activities that are related to the line installation. Afterwards, the quality of the dataset is investigated before the access can be fully used.In a nutshell, the following steps need to be taken:The Installation period of the invoice data telecommunication will take approximately three months. Both parties will define tasks with respective deadlines that must be considered in order to ensure a quick implementation.Until the connection is completed, Porsche AG will not accept any invoices sent by paper. The service provider is in charge of arranging a timely installation.No.: Tasks: ResponsibilityWithwhom?Timeperiod1. Sending guide to service provider Mrs. Darocha2. Checking technical process of telecommunication forwarder 2 weeks3. Decision concerning the system forwarder 2 weeks4. Request station ID and odette ID; fill in parametersheet; sending sheet to Mrs. Darocha forwarder 1week5. Generate master data into system:- conditions- suppliers / forwarders PZLFFR2 FI1 week6. Technical performance test data center forwarder 1 week7. Generate data set forwarder 2 weeks8. Start of testing period with data set Mrs. Darocha forwarder 3 weeks9. Agreement relating productive functioning Mrs. Darocha forwarder2.Process of data transmission2.1. Requirements for forwarding agentsPorsche works exclusively with OFTP2 protocols. For any further information, please visit https://. You can also find certified software and order the certificate necessary for transferring to OFTP2 at https:///services/oftp2/software.2.2. PreparationParameter sheetIn order to install an EDI connection to Porsche AG, the IBD will make up the digital line link and undertake performance tests ( installation of connection, handling of protocols, confirmation of transmission). Therefore, please fill out the parameter sheet on page 13 of this guide and send it via e-mail to **************************.Odette IDTo find Odette ID, please visit https:///3.Data setFor installing the data set, we recommend the following service providers:Provider: Active logisticsAddress: Ludwig-Erhard-Str. 5, 56073 Koblenz, GermanyContact: Mr. Ralf BergerTelephone: +49 (0)261-8099-177E-Mail: ***************************Provider: applilog GmbHAddress: Dr.-Ernst-Derra-Straße 6, 94036 Passau, GermanyContact: Mr. Joachim MüllerTelephone: +49 (0)851-955 8211E-Mail: *********************Since freight invoice files contain multiple freight invoice transmissions, they can be assigned to different transmissions. Should the entry in the fields be correct, a transmission can be clearly identified through its transmission date, transmission time and forwarder number. In order for freight invoice data sets to be imported faultlessly, please write the sets of a transmission consecutively in the file so that the contents of the aforementioned file arrange for the sets within the file.Data set files correlate with two blocks:Invoice headerContains data which is valid for the entire invoiceInvoice positioncomprises all fields coming after “position number”. An invoice position alwaysrefers to exactly one forerun, one main run, one off-carriage, one direct payoff orpalette substitution. An invoice position can contain data of multiple bills oflading.3.1.Definition of the format of future imported freight invoice data setsField description Information Type Can/Must PositionfromLength Dec.οTransmission date Date of data transmission, written informat TTMMJJJJN M 1 8οTransmission date Time of data transmission, written informat HHMMSSN M 9 6οForwarder∙name Name of forwarder A M 15 30∙number Definite forwarder number N M 45 9οInvoice number Number of freight invoice N M 54 8οInvoice date Written in format DDMMYYYY N M 62 8οOrder number Porsche order number, only forinformation purposesN C 70 8οPurchase order number Porsche purchase order number, onlyfor information purposesN C 78 6οTotal / Net Net amount of invoice N M 84 13 11,2 οTotal / VAT Value Added Tax N M 97 13 11,2 οTotal / Gross Gross amount of invoice N M 110 13 11,2 οNominal account Nominal account of freight invoice N C 123 6οCost Center Cost center of freight invoice A M 129 6A M 135 3οCurrency Currency of all invoice amountsAllowed values:❑Empty (matches EUR)❑EUR: EURON C 138 2οVersion Version of interface:❑Empty – matches version 2οVAT free amount ❑VAT free amount A M 140 13 11,2ο VAT rate ❑Vat rate in procent A C 153 13 11,2οFiller Reserve AC13166οPosition number Invoice position N M 179 3A M 182 1οData type Data set type of following positiondata in remaining fields:∙‘D’ = Direct payoff (sender =supplier, recipient = shipmentrecipient)∙‘V’ = Forerun (sender = supplier,recipient = unproductive)∙‘H’ = Main run (sender =unproductive, recipient =shipment recipient /unproductive)∙‘N’ = Off-carriage (sender =shipment recipient /unproductive, recipient =shipment recipient /unproductive)∙‘T’= palette substitution fee∙‘F’= Resulting set: A main set withidentical forwarder number,freight invoice number andposition number already existsA M 183 1οInvoice type Type of invoiced service:∙“E” = incoming goods∙“V” = outgoing goods∙“L” = outgoing empties∙“M” = Milk runοSender addressA M 184 3∙country Motor vehicle country code,empty = Germany∙postal code Postal code A M 187 7∙location Locationdenomination A M 194 3030224∙district ACN M 254 2∙Loading plant Only for supplier = Porsche AG:Loading plant at outgoing goodsN M 256 2∙Loading place Only for supplier = Porsche AG:Loading plant at outgoing goodsοRecipient address∙ country Motor vehicle country code, empty = Germany A M 258 3 ∙ postal code Postal codeAM2617∙ location Location denomination A M 268 30 ∙ Delivery plant Identification of delivery plant (only incoming goods at Porsche) N C 298 2 ∙ Delivery place Identification of delivery place (only incoming goods at Porsche)N C 300 2 ο Distance [km] Distance between sender address and recipient addressN M 302 4 ο Date of shipment Written in format DDMMYYYY NM3068ο Extra tourSignal, whether transport is an extra tour or not, if so: “S” = Extra tour; “Y”= dangerous goods A C 314 1ο Weight of shipment (kg] N M 315 7 ο Chargeable weight N M 322 7 ο Loading meter [m]N C 329 4 3,1 ο Volume [m 3] N M 333 6 3,3ο Rate E.g. “fixed rate for 5 tons”A C 339 10 ο Dangerous goods classAC34915ο Net freightNet freight of invoice position;palette exchange set (set type = “T”) stands for palette substitution fee N M 364 13 11,2ο Margin in percent Fields for margin in % and margin (EUR) are both empty or filled N C 377 5 3,2 ο Margin Fields for margin in % and margin (EUR) are both empty or filled N C 382 13 11,2 ο House freightNC3951311,2ο Freight termCodification according to freight terms of VDA01 = freight forward (goods) 02 = free destination03 = carriage paid (empties) 04 = free German border05 = free recipient / forwarder99 = Special freight terms (individual agreement)N M 408 2ο Remarks 3 lines with remarks concerning the invoice position (reverse charge) ∙ line 1 E.g. amount of trading units and text A C 410 40 ∙ line 2 A C 450 40 ∙ line 3AC49040ο Filler A C 530 50οB/L number Up to 10 B/L numbers together withsupplier number and name;Supplier number + B/L number referto B/L∙supplier name 1 Supplier name of first B/L A M 580 20∙supplier number 1 Supplier number of first B/L N M 600 8∙B/L number 1 Number of first B/L N M 608 8∙Supplier name 2 Supplier name of second B/L A C 616 20∙supplier number 2 Supplier number of second B/L N C 636 8∙B/L number 2 Number of second B/L N C 644 8∙supplier name 3 Supplier name of third B/L A C 652 20∙supplier number 3 Supplier number of third B/L N C 672 8∙B/L number 3 Number of third B/L N C 680 8∙supplier name 4 Supplier name of fourth B/L A C 688 20∙supplier number 4 Supplier number of fourth B/L N C 708 8∙B/L number 4 Number of fourth B/L N C 716 8∙supplier name 5 Supplier name of fifth B/L A C 724 20∙supplier number 5 Supplier number of fifth B/L N C 744 8∙B/L number 5 Number of fifth B/L N C 752 8∙supplier name 6 Supplier name of sixth B/L A C 760 20∙supplier number 6 Supplier number of sixth B/L N C 780 8∙B/L number 6 Number of sixth B/L N C 788 8∙supplier name 7 Supplier name of seventh B/L A C 796 20∙supplier number 7 Supplier number of seventh B/L N C 816 8∙B/L number 7 Number of seventh B/L N C 824 8∙supplier name 8 Supplier name of eighth B/L A C 832 20∙supplier number 8 Supplier number of eighth B/L N C 852 8∙B/L number 8 Number of eighth B/L N C 860 8∙supplier name 9 Supplier name of ninth B/L A C 868 20∙supplier number 9 Supplier number of ninth B/L N C 888 8∙B/L number 9 Number of ninth B/L N C 896 8∙supplier name 10 Supplier name of tenth B/L A C 904 20∙supplier number 10 Supplier number of tenth B/L N C 924 8∙B/L number 10 Number of tenth B/L N C 932 8οSet ending Always stated with '*' (ASCII 042) A M 940 13.2.RemarksUnless a data set of set type “F” (following set) is extending an already existing invoice position, forwarder number, invoice number and invoice position number must be clearly identify an invoice position.Please fill in all fields marked with an “M “before transmitting all invoices, otherwise they won`t be transmitted. Mrs. Darocha will invite you to a meeting beforehand to identify which fields marked as “C “must also be filled in.If an invoice position contains more than ten bills of loading, the system generates a following set (set type “F”). These following sets save the additional bill of loadingnumbers. The main fields of a following set have to contain the same content of the main invoice. All 10 waybill numbers will be listed with the content of the main invoice.The Supplier numbers on invoices must correspond with the supplier number stated on all bills of loading. As a result, the supplier number and the bill of loading number mustclearly refer to one bill of loading.In the case of incoming goods (Porsche AG as recipient), data belonging to the sender can be found in fields “supplier name” and “supplier number”.In the case of outgoing goods (Porsche AG as sender), data belonging to the recipient can be found in fields “supplier name” and “supplier number”.Transmission time stamps (fields “transmission date” and “transmission time”) must NOT be identical in all sets of a freight invoice transmission. The transmission time per invoice must be different (for example, one invoice per second)Different transmissions with identical transmission time stamps (fields “transmission date” and “transmission time”) cannot exist. Should this case occur, program CARGO will reject the most recent transmission.Field “account number” refers to a total account. As a result, all positions of an invoice must be assigned to the stated account number. A separate agreement determines which service positions (empties, returned goods, fulls/incoming goods etc.) are assigned towhich corresponding account number.One set length of a freight invoice data set contains 940 symbols or rather bytes. Extensions in version 3:The version number determines which fields to import additionally to the fields to the version before (e.g., the field “VAT free amount”: This field does not exist in currentversion two.New field for “VAT free amount”: The value will only be accepted if the field “version” is filled in with the value = 34.Testing periodDuring a testing period, the following steps by accounts payable cargo team leader at Porsche (Mrs. Darocha), the IT department at Porsche and the forwarding agent undertake the following actions to coordinate the process in form and content:Transmission of test data via e-mail (txt.file)Format is EBCDICFormal examination of invoiceExamination of invoice as regards contentIn case of necessary adjustments: Feedback to forwarding agent4.1.EDI testThe OFTP2 team at Porsche tests transfer data between forwarder and Porsche.4.2. Test of data sets and activated systemsAll data sets are checked for potential errors. In case of an already existing EDI connection, this data can be sent via telecommunication. Otherwise, it is also possible to send data via e-mail to Mrs. Darocha during the testing period.5. Productive useShould the testing period work flawlessly, the EDI process is going to work productively, meaning that from this point on it is not necessary to send data transmissions or original invoices via e-mail. Please stay in contact with Mrs. Darocha. Process of productive use:6. Definition transmission reportExample:The transmission report contains a short collective invoice with the following fields: Freight invoice transmission report dated 07012019/130115 (date/time)Invoice no. Date Gross NetVatVat rate12345678 19.07.19 119,00 €100,00 € 19,00 € 19% 12345679 19.07.19 238,00 € 200,00 € 38,00 €19% 1234568019.07.19357,00 € 300,00 € 57,00 €19%Summe714,00 €600,00 €114,00 €Please add information in case of tax exemption, for example “reverse charge”Furthermore, please state the service provider’s invoice address, VAT identification number / tax number, the account number and the receivers address. Please also note the sender on the summary sheet and send it via e-mail to ********************.ForwarderB/LIncoming goods department: Capturing B/LPZL (Logistics) Transport planning + procurement lanungFFR2(Accounting) Freight invoice Frau DarochaFreight invoice data (possibly corrected) via EDISummary sheet (Faxing transmission protocol to Mrs. DarochaGenerated error protocol by program CARGO faxed to forwarderLVR IBM-HostSAP CargoPorsche AG Freight invoices in paper mold inapplicableAnalysesIf invoice and B/L conform, invoice is paidAutomatic comparison invoice - B/LAutomatic allocation ofinvoice in SAP7.Data securityPorsche AG saves each one of the last five transmissions. In case of faulty transmissions, the forwarder will receive a report stating all flawed invoices. In this case, please correct those data files and send it again. Each data file needs to be available for 30 days in the forwarders’ system.Annex: Parameter sheet for the connection with remote transmission of PorschePorschePartnerFirmenanschrift(Firmenname, Adresse) Company address(Company name, address) Dr. Ing.h.c.F. Porsche AG Porscheplatz 1D - 70435 StuttgartAnsprechpartner Datenaustausch(Name, Tel.-Nr., Email) Contact for data exchange (name, phone, e-mail) IBM Servicedesk +49 711 911 25600**************************Kundennummer / LieferantennummerCustomer ID / Supplier IDSSID SSID O0013000018PORSCHE-R3I SFID SFID O0013000018PORSCHE-PAGPasswort Password PORSOFTPSID SID R3I TLS SSL Zertifikat CATLS SSL certificate CAOdetteDatenverschlüsselung File encryption Nein/No Datensignierung File signature Nein/No EERP Signierung EERP signature Nein/No EERP eingehend EERP incoming Ja/Yes EERP ausgehendEERP outgoingJa/YesÜbertragungsmodus Transfer mode Unstrukturiert/UnstructuredSatzformat Format Satzlänge LengthEin- und ausgehende IP-Adressen (Internet) Incoming and outgoing IP addresses (Internet) oftp2-1.fw.porsche.de84.21.32.221Ein- und ausgehende IP-Adressen (ENX) Incoming and outgoing IP addresses (ENX) 141.36.103.9 ENX Solution Nummer ENX Solution number L000031734 IPSEC Peer Adresse IPSEC peer address 212.185.34.174 ENX Registrierungsnr.ENX registration no.0000230001Port Port 6619 (OFTP2/TLS)Empfangsbereitschaft Stand by 00:00 – 24:00Verantwortlicher –Verbindungseinrichtung (Name, Tel.-Nr., Email)Responsibility – transfer connection (Name, phone, e-mail)OFTP2 Operating +49 711 911 25605**************************Regard: This guide is only an extraction of “Outline for remote transmission of Porsche AG with its suppliers”This extraction is continuously and completely valid.Imprint:As at 01.08.2019Dr. Ing. h.c. F. Porsche AktiengesellschaftFrachtenprüfung (FFR2)/ Werklogistik (PZL)Porscheplatz 170435 Stuttgart, Germany。