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3.5mm to feet

There’s no need to remove your iPhone or iPad case to connect your 3.5 mm headphones or your charging cable, since the 3.5 mm Audio + Charge RockStar works with most cases.

The Belkin 3.5 mm Audio + Charge RockStar offers dual functionality for charging and listening to your iPhone or iPad. Whether you want to charge in the car, on the go or at home, the adapter makes it possible to listen to 3.5 mm audio and power your iPhone, simultaneously.

The 3.5 mm Audio + Charge RockStar supports any audio jack using the 3.5 mm connector with up to 48 kHz, 24-bit audio output for clear conversations and flawless music playback.

3.5mm to cm

Points to note if considering TDI technology TDI requires more care in synchronization and alignment but in general practice these requirements are not difficult to achieve. A TDI sensor can withstand some misalignment (either translational or rotational) without negative effect on image quality and a total misalignment of one pixel or less across the length of a TDI sensor will not affect image quality. In most applications, a 96-stage TDI device can comfortably tolerate a 2-4% velocity mismatch between inspection web and imager. This is not difficult to achieve using a web-mounted encoder to supply a sync signal to the camera, even with webs that change speed and this approach is used in thousands of successful applications. Designed for light-starved applications, TDI typically lacks antiblooming to subdue "glints", and as well, TDI sensors generally use photogates - surface electrodes covering the entire pixel - and while this ensures 100% fill factor, it can attenuate incoming photons in the deep blue region. One camera manufacturer, Teledyne DALSA has produced an anti-blooming device to solve the first problem and has also developed enhanced blue-response TDI sensors to compensate for the latter issue.

Adept Electronic Solutions are "The Machine Vision and Imaging Specialists" and distributor of Machine Vision products in Australia and New Zealand. To find out more about any machine vision product please email us at: adept@adept.net.au or call us at Perth (08) 92425411 / Sydney (02) 99792599 / Melbourne (03) 95555621 or use our online contact us page.

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12W pass-through charging powers up your iOS device at maximum speed. So whether you’re listening to music or watching videos, using audio navigation or taking calls whilst you charge there’s nothing slowing you down.

Note: Products sold through this website that do not bear the Apple brand name are serviced and supported exclusively by their manufacturers in accordance with terms and conditions packaged with the products. Apple’s Limited Warranty does not apply to products that are not Apple branded, even if packaged or sold with Apple products. Please contact the manufacturer directly for technical support and customer service.

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** High quantum efficiency ** High resolution ** Wide imaging areas ** Efficient thermal packaging ** Efficient management of high-speed circuitry

What is TDI? TDI refers to Time Delay Integration, a specialised detector readout mode used for observing a high-speed moving object under low light conditions normally undetectable by classic CCD imaging. With an effect similar to that of a linescan camera, TDI is designed to allow continuous movement of the object past the sensor to produce a continuous video image of a moving, two-dimensional object: a definite advantage over stop-then-start capture of traditional technologies. In the past, certain image-capture deployments traded-off sensitivity in order to capture a fast-moving object. TDI-mode technology preserves sensitivity while not degrading image quality, even given the relative fast movement between the sensor and the objects under image. How does TDI work? Based on the concept of accumulating multiple exposures of the same (moving) object, TDI mode effectively increases the integration time available to collect incident light. The technique senses a change in light pattern and shifts them across the CCD in a manner that is synchronised with the movement of the image, in order to integrate more light from the scene. The number of lines on the sensor corresponds to the increase in sensitivity. For example a 256 line TDI sensor provides 256x more sensitivity than a single linescan camera. Imaging in TDI mode provides dramatically increased responsivity compared to other video scanning methods by permitting much greater scanning speeds in low light, or allows reduced lighting levels (and costs) at conventional speeds and so producing a crisp image.

Where can TDI technology be used? TDI CCDs are used in applications that require the ability to operate in extreme lighting conditions, that require both high speed and high sensitivity, for example: ** inline monitoring, inspection and guidance ** sorting ** earth observation satellite (for weather observation, for example)