Sonoclock 590. Sonoclock 590 Q. 7 Remove the back-up battery. The product, in the operating manual. Grundig Intermedia GmbH. 72011 410 3100 14/51. User/Owner manual for Grundig Sonoclock 410 (original from manufacturer) [Definition] Contains information on how to operate the device. It doesn't contain information on how to repair/service it.
The MPEX1394B3 3-Port Mini PCI Express FireWire Card is a PCI Express to FireWire-800/FireWire-400 adapter that enables you to add external FireWire connectivity on very small form factor or embedded systems. The PCIe FireWire card provides two FireWire-800 ports and one FireWire-400 port, this adapter card supports the latest external FireWire storage devices at data transfer speeds of up to 800 Mbps. Using the Mini PCI Express (Mini Card) form factor, this adapter card is designed for use in the latest very small form factor computer systems, such as Mini-ITX or custom embedded solutions where a full-sized PCI Express card would not fit. Backed by a StarTech.com 2-year warranty and free lifetime technical support.
AVNIR-2 stands for Advanced Visible and Near Infrared Radiometer Type 2. It is a successor of AVNIR-1 and is one of the three sensors on-board the ALOS satellite; the other two sensors are PRISM and PALSAR. Clipper Summer 87 Software As A Service. The main improvement in AVNIR-2 over AVNIR-1 is the image resolution. While AVNIR-1 produced 16 meter resolution images, AVNIR-2 is capable of producing 10 meter resolution multi-spectral images.
LIDAR ASCII data. This newer format has been written into the PCI Geomatica GDB for Geomatica version 10. Then click the Next button to continue to step 3.
AVNIR-2 is designed for observing land and coastal zones. The images can provide a basis for land coverage and land-use classification maps for monitoring regional environments. In addition, the instrument has across track pointing capability which is useful for quick response applications such as disaster monitoring. PCI Geomatica 10.3 supports AVNIR-2 1A, 1B1 and 1B2R data (with or without Rational Functions).
Geomatica V10.2 supported all formats of AVNIR-2 except 1B2R with Rational Functions. This tutorial explains AVNIR-2 orthorectification using rigorous modeling and rational polynomial coefficients. Rigorous Modeling Initial Project Setup Start OrthoEngine and click ‘New’ on the File menu to start a new project. Enter a project ‘Filename’, ‘Name’ and ‘Description’. Select ‘Optical Satellite Modeling’ as the Math Modeling Method. Under Options, select ‘Toutin's Model’.
After accepting this panel you will be prompted to enter the projection information for the output files, the output pixel spacing, and the GCP projection information. Data Input AVNIR-2 data is distributed with 4 separate image files. These files are simply the four image channels (or bands). The image below illustrates the typical file naming convention used for non-RPC AVNIR-2 data. Under the ‘Processing Step’ select ‘Data Input’ and click on ‘Read CD-ROM’.
Select ‘AVNIR (LGSOWG)’ as the CD Format and VOL file as the header file. Since the data is available in 4 channels press all 4 channels as the ‘Requested Channels’. Provide a PIX file name and click ‘Read’. This will automatically merge the 4 raw bands, import them into a single PIX file and will add it to the OE project. Collect GCPs and Tie Points Select the ‘GCP/TP Collection’ processing step. GCP collection can be done using various options: ‘Manual Entry’, ‘Geocoded Images/Vectors’, ‘Chip Database’ or a ‘Text File’.
For the AVNIR-2 Rigorous model, a minimum of six accurate GCPs per image (or more, depending on the accuracy of the GCPs and accuracy requirements of the project) are required. After collecting the GCPs, select the ‘Model Calculation’ Processing Step and click on ‘Compute Model’. Check ‘Residual Report’ panel (under the Reports processing step) to review the initial results. Generating Orthos The final step is to set up Ortho Image Production. Proceed to the ‘Ortho Generation’ processing step and select the file(s) to be orthorectified.
Choose the DEM file to be used in the processing and other processing parameters. Click on ‘Generate Orthos’ to create the final Orthorectified image. Rational Polynomial Coefficients (RPC) AVNIR-2 data delivered with RPC files can be processed and corrected using Rational Functions project in the absence of adequate number of GCPs.
Further addition of 1-4 GCPs into your project in addition to the delivered RPCs can significantly improve the accuracy of your final ortho image. Initial Project Setup Start a new project and select the math modeling method as ‘Optical Satellite Modeling’. Under ‘Options’ select ‘Rational Functions’ (Extract from Image) option. AVNIR-2 Data with Rational Functions The image below illustrates the typical file naming convention used for RPC AVNIR-2 data. Data Merging AVNIR-2 data with RPC is distributed as 4 separated channels/bands. OrthoEngine ‘Merge / Pansharp Multispectral Image’ functionality can be used to merge the 4 raw bands into one single PIX file.
Browse for raw image bands; provide an output PIX file name in the Merge window and click ‘Merge’ button. At the end of this process, the user will be prompted to add the final PIX file into the OrthoEngine project. Click ‘Yes’ and the PIX file will be added to the OrthoEngine project. GCP Collection At this stage an ortho image can be directly generated in the absence of any GCPs. The model will be computed based on the supplied RPCs. If GCPs are available, they can be added into the project using the same process as defined in section 1.3 of this document. The model will be automatically computed, and GCPs can be reviewed through Residual report.
Note: It is recommended to use 1st order RPC adjustment in an AVNIR-2 Rational Function project. Ortho Generation The final step is to ‘Schedule Ortho Generation’.
Proceed to the ‘Ortho Generation’ processing step and select the files to be processed. Select an appropriate DEM file and set other processing options before generating the final ortho image.
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Vettem egy Grundig rádió , az 55V feszültség nem volt meg az SI902 biszositték szakadt volt,T902 zárlatos, R909,R906 elégve .Potoltam a hibás alatrészeket és el is indult a rádió, de 20mp után megint elégette a R909 ellenállást.A T903 tranzisztor mérve jónak tünik, de helyetsitteni nem tudom mivel mert MSPL01 a tipusa és nem tudom hogy mit tegyek helyette.Az 55V on az áramfelvétel 45mA.A R909 ellenállást telyesitményét növelem 10W ra akkor müködik,de nagyon melegszik a 10W ellenállás .A T902 DB139 helyett BD 245 tettem ilyenem volt.A feszültség 55V fix nem ingadozik.Lehet hogy hibás mégia a T903 tranzisztor.
Vettem egy Grundig rádió , az 55V feszültség nem volt meg az SI902 biszositték szakadt volt,T902 zárlatos, R909,R906 elégve .Potoltam a hibás alatrészeket és el is indult a rádió, de 20mp után megint elégette a R909 ellenállást.A T903 tranzisztor mérve jónak tünik, de helyetsitteni nem tudom mivel mert MSPL01 a tipusa és nem tudom hogy mit tegyek helyette.Az 55V on az áramfelvétel 45mA.A R909 ellenállást telyesitményét növelem 10W ra akkor müködik,de nagyon melegszik a 10W ellenállás .A T902 DB139 helyett BD 245 tettem ilyenem volt.A feszültség 55V fix nem ingadozik.Lehet hogy hibás mégia a T903 tranzisztor.
Sziasztok! Grundig CN730 kazettás magnóhoz keresek kapcsolási rajzot, szervízdoksit! köszönettel: [email protected]
Sziasztok! A fenti fejegység véletlenszerűen, de percenként bekapcsol. Bekapcsolt állapotban a TAPE-RDS felirat villog 10-15Hz-el (kb.) és ilyenkor elhallgat. Nosza valamelyik mechanika végálláskapcsoló kh-s. De nem egyik sem kh-s. Próbáltam azt, hogy az alaphelyzetbe zárót összeforrasztottam a bontóról pedig leforrasztottam az egyik vezetéket. Helyzet változatlan. Szkóppal méricskélve az egyik kapcsoló (alaphelyzetben bontott állapotban van) lábán alaktalan, hullámzó véletlenszerűen változó jel van. Amikor ez a jel eléri a 2V-ot akkor kapcsol magnóra (TAPE). Néha begerjed és szabályos négyszögjel van a lábán, olyankor villog a kijelzőn a felirat (jogosan). Kérdés, hogy mi ott az a zavar, mitől lesz négyszögjel és honnan jön? Tudom kettőt és könnyebbet, de egész délután ezzel küzdök, már tikkel a szemem. Rajzot nem találtam, de jól jönne. Csatolom az előlapot, hátha ismerős valakinek. Üdv.
Üdv! Egy Grundig R2000-es került hozzám. Ismerősé, akit ráadásul érzelmi szálak fűznek a készülékhez, ezen kívül hölgy is az illető. A panasz az volt, hogy nem szól. Szétszedtem és hiányzott a 63V. A táp: A nyíllal jelölt biztosíték volt kiégve. Rövid méricskélés után nem találtam semmi különösebb problémát, így betettem egy 1.3 amperest (ilyen volt otthon, de mielőtt visszaadom veszek olyat mint ami gyárilag volt benne), bekapcsoltam és tökéletesen működik. Először arra gondoltam, hogy túlhajtották szegényt, de a végfokok tápját a 2x21V látja el. A biztosíték csere után járattam egy órát, semmi problémát nem tapasztaltam vele azóta. Mit gondoltok, merjem visszaadni? Azért dilemmázok, mert nem szeretném visszakapni egy hét múlva, a biztosítékok meg nem szoktak csak úgy kiégni... Rajz: http://elektrotanya.com/?q=showresult&megnev=grundig&megnev2=r2000gb&kategoria=&kat2=schematics DM
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