DEVICE DESIGN Clause Samples
The DEVICE DESIGN clause establishes the requirements and standards for the design and development of a device within an agreement. It typically outlines the technical specifications, performance criteria, and compliance obligations that the device must meet, and may specify processes for design approval, modifications, or documentation. By clearly defining these expectations, the clause ensures that both parties understand the design parameters, reducing the risk of disputes and ensuring the final product meets agreed-upon needs.
DEVICE DESIGN. 3.1. The [****] is a low cost design intended to incorporate the BASIC features and functions of the ER800 series device with the following requirements of this document. The device will not incorporate lead loss or two channel recording.
DEVICE DESIGN. 3.1. The ERNG is to incorporate all the features and functions of the current EASITrak and the new ER800 series device with the following requirements of this document.
DEVICE DESIGN. The proposed design of the cadmium consists of three main components. An aluminium tube, machined to fit within the existing aluminium liner of the Large object irradiation device will serve as a structural component. It will consist of a tube with two flanges. A cadmium foil will be secured onto the outer surface of the tube in between the flanges. By this design, irradiated samples will not come in direct contact with the cadmium material. A flexible aluminium strip will be attached to the flange on the aluminium tube, enabling movement of the liner. The selected cadmium shield length, based on the results in the present report and practical considerations is 50 cm. Figure 8 displays the conceptual design of the shield. Samples to be irradiated will be mounted onto a polyethylene holder and inserted into the cadmium shield. To facilitate insertion, the flanges on the cadmium shield will have pronounced chamfers. After irradiation the cadmium shield will be partially withdrawn to limit further activation and achieve an appropriate cooling time. When not in use, it will be possible to store the cadmium shield within an existing concrete shield designed for storage of the inner concrete / steel plugs of the reactor beam ports.
DEVICE DESIGN. 3.1. The [****] is to incorporate all the features and functions of the current [****] and the new ER800 series device with the following requirements of this document.
DEVICE DESIGN. Support a system analyses to incorporate the models developed under Task 2.2 and the system requirements elucidated under Task 2.
1. Results of these analyses and actual device performance assessment will result in the development and analysis of functional interfaces between device elements to support technical integration and to ensure compatibility as newer versions of the device are developed. Support analysis of functional interfaces between system elements and support technical integration to ensure compatibility. A configuration control process for for nano-composite solar cell Program will be established and must be followed.