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The voltage, read by the ADC, is a function of the ambient light. This information is now available to the CPU to adjust the PWM duty cycles and alter brightness. For instance, this function is useful to adjust daylight driving when encountering dark tunnels.

Granted, the cost of labor within a specific geography can impact the cost of other things, including materials and overhead, since both contain downstream labor as part of their cost structures. But why not just specify them directly? It certainly would make more sense from a pricing perspective, since without a significant cost saving in materials or overhead, it does not make financial sense to transfer manufacturing to remote regions simply to reap the benefit of low-cost labor.

As an example of the improvement offered by H.264, Figure 1 shows the same video frame encoded using MPEG-2 and H.264 at the same bit rate.

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122821-1_Datasheet PDF

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Granted, the cost of labor within a specific geography can impact the cost of other things, including materials and overhead, since both contain downstream labor as part of their cost structures. But why not just specify them directly? It certainly would make more sense from a pricing perspective, since without a significant cost saving in materials or overhead, it does not make financial sense to transfer manufacturing to remote regions simply to reap the benefit of low-cost labor.

As an example of the improvement offered by H.264, Figure 1 shows the same video frame encoded using MPEG-2 and H.264 at the same bit rate.

Media processors lie between ASSPs and digital signal processors (DSPs) on the specialization-vs.-flexibility continuum. Media processors are optimized for tasks associated with audio and video processing, rather than for a broad range of signal processing tasks, as DSPs are. Media processors are typically heterogeneous multiprocessors, incorporating a main processing engine similar to a DSP, plus two or three specialized coprocessors, and audio- and video-specific peripherals.

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As an example of the improvement offered by H.264, Figure 1 shows the same video frame encoded using MPEG-2 and H.264 at the same bit rate.

Media processors lie between ASSPs and digital signal processors (DSPs) on the specialization-vs.-flexibility continuum. Media processors are optimized for tasks associated with audio and video processing, rather than for a broad range of signal processing tasks, as DSPs are. Media processors are typically heterogeneous multiprocessors, incorporating a main processing engine similar to a DSP, plus two or three specialized coprocessors, and audio- and video-specific peripherals.

Click to enlarge.

Checklist of factors to review when selecting the best TIM for your application 1 Determine the amount of thermal dissipation necessary2 Determine the mechanical strengths necessary3 Determine the temperature range for the device or module4 Determine the stresses that the device will undergo in its end use5 Determine compatibility of other chemicals in your process6 Review these factors in contrast to typical performance characteristics of today's thermal interface materials

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Media processors lie between ASSPs and digital signal processors (DSPs) on the specialization-vs.-flexibility continuum. Media processors are optimized for tasks associated with audio and video processing, rather than for a broad range of signal processing tasks, as DSPs are. Media processors are typically heterogeneous multiprocessors, incorporating a main processing engine similar to a DSP, plus two or three specialized coprocessors, and audio- and video-specific peripherals.

Click to enlarge.

Checklist of factors to review when selecting the best TIM for your application 1 Determine the amount of thermal dissipation necessary2 Determine the mechanical strengths necessary3 Determine the temperature range for the device or module4 Determine the stresses that the device will undergo in its end use5 Determine compatibility of other chemicals in your process6 Review these factors in contrast to typical performance characteristics of today's thermal interface materials

Consider the case of transmit diversity to obtain the same gains for transmit or receive. The two main types of transmit diversity techniques are space-time coding and transmit beam forming. With space-time coding, the same data is sent on multiple transmit antennas, but is coded differently on each antenna. Because the coding is different on each transmit antenna, the receiver can distinguish the fading of each antenna and through appropriate signal processing, obtain a diversity gain against the multipath fading.

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Checklist of factors to review when selecting the best TIM for your application 1 Determine the amount of thermal dissipation necessary2 Determine the mechanical strengths necessary3 Determine the temperature range for the device or module4 Determine the stresses that the device will undergo in its end use5 Determine compatibility of other chemicals in your process6 Review these factors in contrast to typical performance characteristics of today's thermal interface materials

Checklist of factors to review when selecting the best TIM for your application 1 Determine the amount of thermal dissipation necessary2 Determine the mechanical strengths necessary3 Determine the temperature range for the device or module4 Determine the stresses that the device will undergo in its end use5 Determine compatibility of other chemicals in your process6 Review these factors in contrast to typical performance characteristics of today's thermal interface materials

Consider the case of transmit diversity to obtain the same gains for transmit or receive. The two main types of transmit diversity techniques are space-time coding and transmit beam forming. With space-time coding, the same data is sent on multiple transmit antennas, but is coded differently on each antenna. Because the coding is different on each transmit antenna, the receiver can distinguish the fading of each antenna and through appropriate signal processing, obtain a diversity gain against the multipath fading.

Traditional engineering approach implies that local control systems are connected only by a communication channel and its components. At the same time, every new electronic control system is added into an already formed architecture, which leads to the problem of the new system's proper functioning in an automobile.

Complexity Equals Cost While performance demands favor the bus master bridge, system complexity concerns favor the simple bridge. All the simple bridge design requires is a basic slave interface to the wireless chipset and a simple memory-mapped bus interface to the processor, along with some buffer memory. Such designs can typically be implemented in a modest-sized FPGA although simple bridges that also require the use of external memory to meet performance requirements will be more complex.

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Consider the case of transmit diversity to obtain the same gains for transmit or receive. The two main types of transmit diversity techniques are space-time coding and transmit beam forming. With space-time coding, the same data is sent on multiple transmit antennas, but is coded differently on each antenna. Because the coding is different on each transmit antenna, the receiver can distinguish the fading of each antenna and through appropriate signal processing, obtain a diversity gain against the multipath fading.

Traditional engineering approach implies that local control systems are connected only by a communication channel and its components. At the same time, every new electronic control system is added into an already formed architecture, which leads to the problem of the new system's proper functioning in an automobile.

Complexity Equals Cost While performance demands favor the bus master bridge, system complexity concerns favor the simple bridge. All the simple bridge design requires is a basic slave interface to the wireless chipset and a simple memory-mapped bus interface to the processor, along with some buffer memory. Such designs can typically be implemented in a modest-sized FPGA although simple bridges that also require the use of external memory to meet performance requirements will be more complex.

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