초록 ▼

A spacecraft (8) includes a movable appendage such as solar panels (12) operated by a stepping motor (28) driven by pulses (311). In order to reduce vibration andor attitude error, the drive pulses are generated by a clock down-counter (312) with variable count ratio. Predetermined desired clock rat

A spacecraft (8) includes a movable appendage such as solar panels (12) operated by a stepping motor (28) driven by pulses (311). In order to reduce vibration andor attitude error, the drive pulses are generated by a clock down-counter (312) with variable count ratio. Predetermined desired clock ratios are stored in selectable memories (314a-d), and the selected ratio (R) is coupled to a comparator (330) together with the current ratio (C). An up-down counter (340) establishes the current count-down ratio by counting toward the desired ratio under the control of the comparator; thus, a step change of solar panel speed never occurs. When a direction change is commanded, a flag signal generator (350) disables the selectable memories, and enables a further store (360), which generates a count ratio representing a very slow solar panel rotational rate, so that the rotational rate always slows to a low value before direction is changed. The principles of the invention are applicable to any movable appendage.

대표청구항 ▼

A spacecraft, comprising: a body (10); at least one solar panel (12) rotationally connected to said body for generating electric power when insolated; pulse-operated drive means (28) coupled (30) to said body (10) and to said solar panel (12), for rotating said solar panel relative to said body by a

A spacecraft, comprising: a body (10); at least one solar panel (12) rotationally connected to said body for generating electric power when insolated; pulse-operated drive means (28) coupled (30) to said body (10) and to said solar panel (12), for rotating said solar panel relative to said body by an incremental angle in response to each drive pulse (311) of a sequence of drive pulses; count-down means (312) coupled to said pulse operated drive means (28) and to a source of first clock signals (312c), said count-down means (312) also including a current count ratio signals input port (J0-J7), for counting said first clock signals modulo said current count, and for generating each of said drive pulses (311) in response to the count of said count-down means (312), whereby a larger current count counts a larger number of said first clock signals and thereby increases the time interval between said drive pulses and slows the rotational rate of said solar panel; a source of signals (316, 318, and 320) representing a selected one of a predetermined number of solar panel rotational rates; a number, equal to said predetermined number, of read-only digital memories (314a, 314b, 314c, and 314d), each of said read-only memories being preloaded with information in the form of a digital count ratio signals corresponding to a different one of said solar panel rotational rates, and each of said read-only memories being coupled to said source of signals (316, 318, and 320) for being one of enabled and disabled thereby, in such a manner that only one of said digital memories (314) is enabled at any one time; a source (342) of ramp clock signals, which may be the same as said first clock signals; controllable up-down counting means (340) including a clock input port (340c) coupled to said source of ramp clock signals, and also including an enable input port (340e) and a count direction input port (340d), for (a) generating and applying to said count-down means (312) said current count ratio signals, said current count ratio signals being representative of the current count of said up-down counting means (b) enabling said up-down counting means for counting said ramp clock signals in response to a second logic characteristic of a digital enable signals applied to said enable input port (340e), and disabling said up-down counting means in response to a first logic characteristic of said enable signals applied to said enable input port (340e), and (c) configuring said up-down counting means for counting up in response to a first logic characteristic of digital count direction signals applied to said count direction input port (340d); comparator means (330) coupled to said read-only digital memories (314a-314d) and to said up-down counting means (340), for comparing said current count ratio signals with said digital count ratio signals, for (a) generating and coupling to said enable input port (340e) of said up-down counting means (340) said digital enable signals, said digital enable signals indicating by a first logic characteristic that said current count ratio signals equals said digital count ratio signals, and by a second logic characteristic that said current count ratio signals is unequal to said digital count ratio signals, and (b) generating and coupling to said count direction input port (340d) of said up-down counting means (340) said digital count direction signals, said digital count direction signals indicating by a first logic characteristic that said digital count ratio signals exceeds said current count ratio signals and by a second logic characteristic that said digital count ratio signals does not exceed said current count ratio signals; whereby when said digital count ratio signals applied to said comparator means (330) represents a small number, indicative of a command for rapid rotation of said solar panel, and said current count ratio signals represent a larger number, indicative of slower actual rotation of said solar panel, said comparator means (a) generates said digital enable signals with said second logic characteristic, whereby said up-down counting means (340) is enabled for counting, and (b) generates said count direction signals with said second logic characteristic, for thereby configuring said up-down counting means for counting down, so that said current count ratio signals approach said digital count ratio signals, and said rate of rotation of said solar panel increases, and when said digital count ratio signals applied to said comparator means represent a large number, indicative of a command for slow rotation of said solar panel, and said current count ratio signals represent a smaller number, indicative of faster actual rotation of said solar panel, said comparator means (c) generates said digital enable signals with said second logic characteristic, whereby said up-down counting means is enabled for counting, and (d) generates said count direction signals with said first logic characteristic, for thereby configuring said up-down counting means for counting up, so that said current count ratio signals approach said digital count ratio signals, and said rate of rotation of said solar panel decreases, and when said current count ratio signals equals said digital count ratio signals, said digital enable signals are set to said first logic characteristic, thereby disabling said up-down counting means from counting, so that said rotational rate of said solar panel remains at the rate represented by said selected one of said digital count ratio signals.