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Each of three single glass panels produces two shadows.
I was just testing my new SIGMA 17-70 f2.8-4.0 HSM OS DC Macro Contemporary lens for Nikon F on my Nikon DSLR D7200. This lens is not a specific macro lens although the word "Macro" is part of the name.
According to SIGMA information it is also compatible with the FTZ adapter on Nikon Z cameras. I'll test this with my Z50 later.
Remark: I didn't cleanup the window for this spontaneous test, so
sorry for any spots!
I'm quite fine with this first test results - especially as it is no specific macro lens!
The lens appeared already on the market in 2013 and was the first one of the modern/current Contemporary line lens products.
Please click in the photo for a 99% crop!
Freehand test with my 'new' AF-P Nikkor 70-300 4.5-5.6E ED VR on Nikon D3S.
As previously announced this set should not really work together. After a short testing session of the single AF and the VR feature I noticed that the AF and the VR were working correctly and very quickly. The VR did even freeze the finder view.
So I'm very happy that the main features of the D3S are compliant with the rather new AF-P lens.
Further features will have to be tested in the future.
PictionID:55547658 - Catalog:14_036899 - Title:GD/Astronautics Details: Building 33; Electrical Equipment-Flat Pak Manufacturing Date: 04/02/1965 - Filename:14_036899.tif - ---- Images from the Convair/General Dynamics Astronautics Atlas Negative Collection. The processing, cataloging and digitization of these images has been made possible by a generous National Historical Publications and Records grant from the National Archives and Records Administration---Please Tag these images so that the information can be permanently stored with the digital file.---Repository: San Diego Air and Space Museum
Using lean manufacturing principles and cell-based methodology (ISO13485 certified), DTx provides the ultimate in flexibility and quality. We use proprietary software and methods to create an automated device history record for all systems. Component serial numbers, operator identification, assembly time, test, packaging, shipping, repair and upgrade information are stored and indexed to the top-level assembly. Data is scanned to eliminate input error and the process requires each step be complete for the next to begin. DTx provides full traceability with Device Record Reports on demand. DTx digitally displays online work instructions during the production process. We employ photographs, drawings and in-process quality checks to ensure consistent quality. DTx creates Client specific test scripts to simulate the product in use. This ensures a high quality “out of box” experience and facilitates direct shipment programs
DTx is the authority on highly reliable embedded computing solutions. Utilizing our paperless automated Manufacturing Execution System (MES), we can offer you the absolute in traceability, quality, flexibility, and product life cycle control that no other ODM can. The interconnected MES modules (ERP, Product Control Tracking Systems – PCTS, Functional Test Automation, Product Monitoring Board, and Data-On-Demand SQL Database) document all components used and operations completed during production and provide real-time status and planning reports
PictionID:55544736 - Catalog:14_036671 - Title:Atlas Centaur Details: Testing - Filename:14_036671.tif - ---- Images from the Convair/General Dynamics Astronautics Atlas Negative Collection. The processing, cataloging and digitization of these images has been made possible by a generous National Historical Publications and Records grant from the National Archives and Records Administration---Please Tag these images so that the information can be permanently stored with the digital file.---Repository: San Diego Air and Space Museum
DoD is used to communicate and analyze scanned data from the PCTS and Functional Test Automation modules both internally and externally. This information is refreshed every 60 seconds and made available on an interactive company intranet site, as well as on production floor display stations. The collected data maps work-in-progress and completion status for all work orders and reports functional test status and assembly time.
Our core competency in manufacturing is to provide our customers with a technology outsource alternative. DTx's proprietary Production Control and Tracking System (PCTS) can accommodate the manufacturing of the highest level assembly for our customers. The EN ISO 13485 2003 processes used in manufacturing ensure the same quality and traceability demanded in the manufacturing of your product go into every product we build. This makes DTx a natural extension of your manufacturing facility. Coupled with tightly controlled engineering change process our manufacturing core competency is to provide our customers with an identical product each time they receive it for an extended and agreed upon period of time.
PCTS utilizes online work instructions and handheld scanners to provide 100% traceability of all component part and serial numbers. PCTS also tracks employee data, order data, assembly operations, quality inspection steps, test data, intervals between scans and total build time. This data is stored in an SQL database and is included in a 2D barcode label attached to each unit. It also becomes part of the device history record which is maintained for the life of the product. Anytime a product is returned for repair or upgrade the record is updated.
PictionID:55546668 - Catalog:14_036823 - Title:GD/Astronautics Testing Details: Douglas F-12 Valve; Vibration Test Set Up Date: 12/08/1968 - Filename:14_036823.tif - ---- Images from the Convair/General Dynamics Astronautics Atlas Negative Collection. The processing, cataloging and digitization of these images has been made possible by a generous National Historical Publications and Records grant from the National Archives and Records Administration---Please Tag these images so that the information can be permanently stored with the digital file.---Repository: San Diego Air and Space Museum
PictionID:55549256 - Catalog:14_037019 - Title:GD/Astronautics Testing Details: Building 28; Zero G Vent System-Test Set Up Date: 04/10/1967 - Filename:14_037019.tif - ---- Images from the Convair/General Dynamics Astronautics Atlas Negative Collection. The processing, cataloging and digitization of these images has been made possible by a generous National Historical Publications and Records grant from the National Archives and Records Administration---Please Tag these images so that the information can be permanently stored with the digital file.---Repository: San Diego Air and Space Museum
DTx utilizes a 2D and 3D bar-coding system that gathers and maintains all critical information of a product to the assembly serial number. Using a proprietary automated serial number tracking system, DTx maintains traceability of all major components within an assembly to the assembly serial number. This information is updated with each revision or repair performed on an assembly. Handheld scanners record component manufacturer’s serial number into SQL database indexed to the assembly’s top level serial number as the automated device history record. The serial numbers are recorded during the assembly process to achieve 100% traceability. Label information includes: component serial numbers, operator identification, assembly time, testing packaging, shipping, repair, and upgrade information.
Additionally, DTx is able to customize a wide variety of labels to include the material used, the text included on the label (to include 1 D, 2D & 3D bar codes), the size of the label within certain limitations, and graphics. Customized labels are not printed until needed, and the individual work instructions generated during the production process indicate which labels to apply
Functional Testing Services at QA InfoTech: To know more: www.qainfotech.com/core_functional_testing_services.html
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com
These prototoypes were created with an Mcor Matrix 3D printer by an Mcor design engineer
in the design and functional testing and use of other Mcor 3D printers. www.mcortechnologies.com