Ellis, S. C. Power management in notebook PC's. Proceedings of the Silicon Valley Personal Computing Conference, 749--754, 1991.  Home/Search   Document Not in Database   Summary   Related Articles   Check

.... [6] Technologies in development, such as lithium polymer, lithium anode, zinc manganese dioxide, and zinc air, may lead to even higher battery capacities in the future [6] As an example of the battery capacity one can get today, a modern Apple laptop comes with a 29 32 W h lithium ion battery [11]. Secondary Storage Secondary storage in modern computers generally consists of a magnetic disk supplemented by a small amount of DRAM used as a disk cache; this cache may be in the CPU main memory, the disk controller, or both. Such a cache improves the overall performance of secondary ....

S. C. Ellis, "Power management in notebook PC's," Proc. Silicon Valley Personal Computing Conf., 1991, pp. 749--754.

....Intel386 SL 2.88 W [15] 33 MHz Motorola 68LC040 3.33 W This paper 25 50 MHz MicroSPARC 4.60 W [29] FPU Cyrix 83D87 0.15 W [22] Motorola 68882 0.46 W This paper Display Used in Duo 230: 9 0.20 W This paper (mono) Used in Sharp PC 6785 0.32 W [16] Suggested for Intel386 SL system 0. 35 W [14] Suggested for Am386 DXL system 0.46 W [22] Toshiba reflective 7.9 TFD AMLCD prototype y 0.46 W [9] color) Used in Duo 270c 280c: 8.4 0.75 W This paper Sharp typical color display 3.45 W [9] Micron Display Technology estimate of a 10 FED y 5.75 W [10] Backlight Used in ....

....Used in Duo 270c 280c: 8.4 0.75 W This paper Sharp typical color display 3.45 W [9] Micron Display Technology estimate of a 10 FED y 5.75 W [10] Backlight Used in Sharp PC 6785 1.43 W [16] mono) Suggested for Am386 SL system 1.56 W [22] Suggested for Intel386 SL system 2. 00 W [14] Used in Duo 230: 9 , intensity 70 cd=m 2 2.38 W This paper (color) Used in Duo 270c: 8.4 , intensity 70 cd=m 2 3.21 W This paper Used in Duo 280c: 8.4 , intensity 70 cd=m 2 3.40 W This paper Toshiba 9.5 , intensity 60 cd=m 2 3.45 W [9] Toshiba 9.5 , intensity 70 cd=m 2 4.14 W [9] ....

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Ellis, S. Power management in notebook PC's. Proceedings of the Silicon Valley Personal Computing Conference, 749--754, 1991.

....the power in synchronous designs, it is important to minimize switching activity by powering down execution units when they are not performing useful operations. This is an important concern since logic modules can be switching and consuming power even when they are not being actively utilized [19]. While the design of synchronous circuits requires special design effort and power down circuitry to detect and shut down unused units, self timed logic has inherent power down of unused modules, since transitions occur only when requested. However, since self timed implementations require the ....

S.C. Ellis, "Power Management in Notebook PC's", Silicon Valley Personal Computer Conference, pp. 749-754, 1991.

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Ellis, S. C. Power management in notebook PC's. Proceedings of the Silicon Valley Personal Computing Conference, 749--754, 1991.

No context found.

Ellis, S. C. Power management in notebook PC's. Proceedings of the Silicon Valley Personal Computing Conference, 749--754, 1991.

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