Radar apparatus and a vehicle safe distance control system using this radar apparatus
First Claim
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1. A radar apparatus comprising:
- a rotary polygon mirror with a plurality of mirror surfaces inclined at different angles with respect to a rotational axis of said rotary polygon mirror;
pulse beam transmitting means for generating a transmission beam to a predetermined measuring area, said pulse beam transmitting means including a light source for emitting a pulse beam which is reflected by said rotary polygon mirror and converted into said transmission beam advancing toward said predetermined measuring area; and
light receiving means for receiving the transmission beam returned from an object positioned within said measuring area,wherein, in a three-dimensional coordinate system defined by Y axis parallel to the rotational axis of said rotary polygon mirror, Z axis extending from said rotary polygon mirror to a center of said measuring area, and X axis normal to both of said Y axis and said Z axis, said pulse beam is irradiated to said mirror surfaces from a direction inclined at a predetermined angle with respect to an XZ plane in said three-dimensional coordinate system.
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Abstract
A radar apparatus comprises a rotary polygon mirror with a plurality of mirror surfaces inclined at different angles. A semiconductor laser diode and a collimator lens are disposed above the polygon mirror. An infrared pulse beam emitted from the semiconductor laser diode is reflected by a reflection mirror disposed at an upper position in front of the polygon mirror to reflect the pulse beam obliquely downward toward the rotary polygon mirror so that the pulse beam is reflected as a transmission beam advancing toward a measuring area in a forward direction. A light receiving means receives the transmission beam returned from an object positioned within the measuring area.
96 Citations
12 Claims
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1. A radar apparatus comprising:
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a rotary polygon mirror with a plurality of mirror surfaces inclined at different angles with respect to a rotational axis of said rotary polygon mirror; pulse beam transmitting means for generating a transmission beam to a predetermined measuring area, said pulse beam transmitting means including a light source for emitting a pulse beam which is reflected by said rotary polygon mirror and converted into said transmission beam advancing toward said predetermined measuring area; and light receiving means for receiving the transmission beam returned from an object positioned within said measuring area, wherein, in a three-dimensional coordinate system defined by Y axis parallel to the rotational axis of said rotary polygon mirror, Z axis extending from said rotary polygon mirror to a center of said measuring area, and X axis normal to both of said Y axis and said Z axis, said pulse beam is irradiated to said mirror surfaces from a direction inclined at a predetermined angle with respect to an XZ plane in said three-dimensional coordinate system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 12)
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11. A radar apparatus comprising:
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a rotary polygon mirror with a plurality of mirror surfaces inclined at different angles with respect to a rotational axis of said rotary polygon mirror; a reflection mirror disposed at an upper front position spaced from said rotary polygon mirror for receiving a pulse beam emitted from a light source and reflecting said pulse beam obliquely downward toward said rotary polygon mirror so that said pulse beam is reflected as a transmission beam advancing toward a measuring area in a forward direction; and light receiving means for receiving said transmission beam returned from an object positioned within said measuring area.
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Specification