Operation and Maintenance

Levels of User Access

The laser imager has four levels of user access:

Level 1 Operator

Level 2 Operator

(Key Operator)

Activities include printing, clearing of some errors, and removing film jams.

Activities include printing, clearing of some errors, removing film jams, performing minor setup, deleting, and reprinting of jobs. Access to Level 2 requires a Key Operator ID and passcode. Refer to “Key Operator Information” on page 3-26.

 

Level 3 First Call

First Call Service providers are Kodak-trained and

 

Service

certified self-maintenance customers. Level 3 First

 

 

Call provides access to all Level 1 and 2 features

 

 

and functions. In addition, First Call activities

 

 

include Preventive Maintenance with the ability to

 

 

reset some imaging parameters. Access to Level 3

 

 

requires a Level 3 ID and passcode.

 

Level 4 Full

Full Service providers are Kodak Health Imaging

 

Service

Field Engineers and Kodak Technical Support staff.

 

 

Level 4 Full Service requires licensing for a

 

 

specified period. Full Service providers have

 

 

access to all Level 1, 2, and 3 service features. The

 

 

providers can also access the laser imager through

 

 

a service computer or through a remote computer

 

 

connected to the network. Access to Level 4

 

 

requires a Service ID and passcode.

Power Failures

In the event of a power loss, the laser imager shuts down. To restore power,

 

press and hold the power switch to the ON position for about 2 seconds.

January 10, 2006

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Kodak DryView 8900 manual Levels of User Access, Power Failures
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DryView 8900 specifications

The Kodak DryView 8900 is a state-of-the-art dry imaging system that revolutionizes medical imaging with its advanced technology and unparalleled performance. Designed primarily for the healthcare sector, this system delivers high-quality printed images for various diagnostic applications, making it an essential tool for hospitals, clinics, and imaging centers.

One of the standout features of the Kodak DryView 8900 is its exceptional image quality. The system utilizes advanced imaging algorithms and high-resolution printing capabilities to produce crisp, clear images that facilitate accurate diagnosis and enhanced patient care. This high fidelity is crucial in fields such as radiology, mammography, and other imaging modalities where precision is paramount.

Incorporating thermal imaging technology, the DryView 8900 eliminates the need for traditional wet processing chemicals, which is not only environmentally friendly but also simplifies the workflow in medical facilities. This dry imaging process results in faster turnaround times for print production, allowing clinicians quick access to essential imaging data.

The DryView 8900 also boasts a user-friendly interface, designed with healthcare professionals in mind. Its intuitive controls and straightforward operation minimize the learning curve, enabling users to navigate the system efficiently. Moreover, the printer supports a variety of film sizes and formats, providing flexibility to meet the diverse needs of medical imaging departments.

Another impressive characteristic of the Kodak DryView 8900 is its durability and reliability. Built with robust components, the system is designed to handle the rigorous demands of a busy clinical environment. Regular maintenance and servicing are streamlined, helping to maintain optimal performance and reduce downtime.

Additionally, the Kodak DryView 8900 incorporates connectivity options that allow seamless integration with existing imaging systems and PACS (Picture Archiving and Communication Systems). This connectivity ensures that the DryView 8900 can receive high-quality images directly from modalities, enhancing the overall efficiency of the imaging process.

In summary, the Kodak DryView 8900 is a cutting-edge imaging solution that combines remarkable image quality, user-friendly design, and reliable performance. With its dry imaging technology, broad compatibility, and environmental considerations, this system stands out as a vital asset in today’s medical imaging landscape, driving advancements in healthcare delivery and patient outcomes.
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