Day/night mirror

US 4,701,022 A
Filed: 11/28/1984
Issued: 10/20/1987
Est. Priority Date: 11/28/1984
Status: Expired due to Term

First Claim

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1. In a day/night rearview mirror assembly having a mirrored surface in association with a voltage-controlled optical medium wherein the medium controls the brightness of the field of view reflected by the mirrored surface in accordance with voltage applied to the medium and a control circuit for applying control voltage to the medium including a sensor for sensing incident light from the field of view to distinguish between a field of view which is bright and one which is dim and a second sensor for sensing general ambient light in the vicinity of the mirror assembly to distinguish between daytime conditions and nighttime conditions, the improvement which comprises said control circuit comprising means for operating said mirror assembly to two different states of brightness, one higher and the other lower, comprising a logic gate having an output and plural inputs, means operatively coupling the logic gate output with the optical medium such that the logic gate output causes control voltage to be selectively applied to said medium to thereby selectively operate the mirror assembly to the two different states of brightness in accordance with a control provided by said logic gate, plural input circuits each of which has an output connected to a corresponding one of the inputs of said logic gate, one of said input circuits containing the first-mentioned sensor and another of said input circuits containing the second sensor, each input circuit comprising its own timing means for imposing a certain predetermined minimum time requirement on certain change sensed by the corresponding sensor before the effect of such change is allowed to occur at the output of the corresponding input circuit, the timing means of said second input circuit imposing a minimum time requirement on both a change in sensed ambient light indicative of transition from day to night as well as a change in sensed ambient light indicative of transition from night to day, and the timing means of said first input circuit imposing a minimum time requirement only on a change in sensed light from the field of view indicative of a transition from bright to dim and not on a change indicative of a transition from dim to bright.

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Abstract

A day/night rearview mirror comprises an optical medium which is electrically driven between transmissive and opaque states. The mirror comprises a housing containing a circuit board assembly over which a mirrored reflecting surface is disposed. The mirrored reflecting surface is in turn overlaid by an optical transmission plate containing the optical medium. The transmission plate, mirror and circuit board are retained on the housing by means of a bezel. Electrical conductivity from the circuit board to the transmission plate is provided by helical coiled spring conductors which are conveniently supported in sleeves integrally formed with a retaining frame for the mirrored reflecting surface of the mirror. The circuit board contains a circuit for controlling the optical transmission plate and suitable controls which are accessible to the user to adjust certain operational characteristics of the mirror assembly. It also includes a pair of photodetectors forming sensors which sense general ambient lighting conditions and incident light from the field of view, respectively. The sensors are coupled in electronic input circuits to a logic gate. The output of the logic gate controls the optical transmission plate. The transmission plate is forced to an opaque condition only when both a nighttime ambient condition is sensed and there are also bright lights form the field of view incident upon the mirrored reflecting surface. The circuits impose certain timing requirements on changes in sensed conditions so that the mirror does not change state in response to momentary departures form generally prevailing conditions.

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25 Claims

1. In a day/night rearview mirror assembly having a mirrored surface in association with a voltage-controlled optical medium wherein the medium controls the brightness of the field of view reflected by the mirrored surface in accordance with voltage applied to the medium and a control circuit for applying control voltage to the medium including a sensor for sensing incident light from the field of view to distinguish between a field of view which is bright and one which is dim and a second sensor for sensing general ambient light in the vicinity of the mirror assembly to distinguish between daytime conditions and nighttime conditions, the improvement which comprises said control circuit comprising means for operating said mirror assembly to two different states of brightness, one higher and the other lower, comprising a logic gate having an output and plural inputs, means operatively coupling the logic gate output with the optical medium such that the logic gate output causes control voltage to be selectively applied to said medium to thereby selectively operate the mirror assembly to the two different states of brightness in accordance with a control provided by said logic gate, plural input circuits each of which has an output connected to a corresponding one of the inputs of said logic gate, one of said input circuits containing the first-mentioned sensor and another of said input circuits containing the second sensor, each input circuit comprising its own timing means for imposing a certain predetermined minimum time requirement on certain change sensed by the corresponding sensor before the effect of such change is allowed to occur at the output of the corresponding input circuit, the timing means of said second input circuit imposing a minimum time requirement on both a change in sensed ambient light indicative of transition from day to night as well as a change in sensed ambient light indicative of transition from night to day, and the timing means of said first input circuit imposing a minimum time requirement only on a change in sensed light from the field of view indicative of a transition from bright to dim and not on a change indicative of a transition from dim to bright.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The improvement set forth in claim 1 in which said one and said another input circuits each comprises a corresponding operational amplifier stage with the corresponding sensor being operatively coupled with an input of the corresponding amplifier stage, and in which change in each of the respective sensors, between bright and dim for the first sensor and between night and day for the second sensor, is effective to change the state of the corresponding operational amplifier, each operational amplifier stage including means providing a threshold signal against which a corresponding signal developed from the corresponding sensor is measured and means for selectively establishing each threshold signal in accordance with the condition of the corresponding stage'"'"'s output.
  - 3. The improvement set forth in claim 2 in which each threshold is selectively established at threshold levels corresponding to a difference in sensed light intensity of substantially a 2 to 1 ratio.
  - 4. The improvement set forth in claim 2 in which each input circuit includes a second operational amplifier stage, and the corresponding timing means is connected between the first and second operational amplifier stages in each input circuit, each second amplifier stage having means providing a threshold at which it responds to change passed from the corresponding first amplifier stage by the corresponding timing means including means for selectively establishing the corresponding threshold in accordance with the condition of the output signal of the corresponding second operational amplifier stage.
  - 5. The improvement set forth in claim 4 in which the timing means in said second input circuit comprises means for imposing a pre-calculated delay in passign change in the first stage'"'"'s output to the second stage'"'"'s input regardless of whether the change is indicative of transition from day to night or of transition from night to day.
  - 6. The improvement set forth in claim 5 in which each timing means comprises an RC timing circuit and in which the timing means of said first input circuit comprises a diode arranged cooperatively with the corresponding RC timing circuit to prevent imposition of a minimum time requirement on a change indicative of a transition from dim top bright.
  - 7. The improvement set forth in claim 6 in which the means providing a threshold for each second amplifier stage comprises means for establishing the last-mentioned threshold at a level which corresponds to the RC time constant of the corresponding timing circuit.
  - 8. The improvement set forth in claim 1 in which said logic gate comprises an OR logic gate arranged to selectively control the mirror assembly to the two different states of brightness such that the low state of brightness occurs only when said first input circuit is indicating a bright condition and when said second input circuit indicates a nighttime condition.

9. In a day/night rearview mirror assembly having a mirrored surface in association with a voltage-controlled optical medium wherein the medium controls the brightness of the field of view reflected by the mirrored surface in accordance with voltage applied to the medium and a control circuit for applying control voltage to the medium including a sensor for sensing incident light from the field of view to distinguish between a field of view which is bright and one which is dim and a second sensor for sensing general ambient light in the vicinity of the mirror assembly to distinguish between daytime and nighttime conditions, the improvement which comprises means for operating said mirror assembly to two different states of brightness, one higher and the other lower, comprising a logic gate having an output and plural inputs, means operatively coupling the logic gate output with the optical medium such that the logic gate output causes control voltage to be selectively applied to said medium to thereby selectively operate the mirror assembly to the two different states of brightness in accordance with the condition of inputs to the logic gate, each sensor being operatively coupled in an input circucit to a corresponding input of the logic gate, each input circuit comprising timing means imposing certain time requirements on certain changes sensed by the sensors, said logic gate providing control such that the optical medium assumes a non-opaque condition to cause the mirror assembly to operate at the higher state of brightness if either the first input circuit is indiating the absence of bright light from the field of view or the second circuit is indicating a daytime condition and the optical medium otherwise in response to said sensors assumes an opaque condition to cause the mirror assembly to operate at the lower state of brightness.
- View Dependent Claims (10)
- - 10. The improvement set forth in claim 9 in which each input circuit comprises a first operational amplifier stage and a second operational amplifier stage, each operational amplifier stage comprises its own operational amplifier and said four operational amplifiers being contained in a quad op amp integrated circuit chip.

11. In a day/night rearview mirror assembly having a mirrored surface in association with a voltage-controlled optical medium wherein the medium controls the brightness of the field of view reflected by the mirrored surface in accordance with voltage applied to the medium and a control circuit for selectively applying control voltage to the medium including a sensor for sensing incident light from the field of view to distinguish between a field of view which is bright and one which is dim and a second sensor for sensing general ambient light in the vicinity of the mirror assembly to distinguish between daytime conditions and nighttime conditions, the improvement which comprises said control circuit comprising means for operating said mirror assembly to two different states of brightness, one higher and the other lower, comprising a logic gate having an output and plural inputs, means operatively coupling the logic gate output with the optical medium such that the logic gate output exercises control over the selective application of the control voltage to said medium to thereby selectively operate the mirror assembly to the two different states of brightness, plural input circuits each of which has an output connected to a corresponding one of the inputs of said logic gate, one of said input circuits containing the first-mentioned sensor and another of said input circuits containing the second sensor, timing means for imposing certain predetermined minimum time requirements on certain changes sensed by said sensors before such changes are allowed to affect the selective application of the control voltage to said medium, said one and said another input circuits each comprising a corresponding operational amplifier stage with the corresponding sensor being operatively coupled with an input of the corresponding operational amplifier stage, and in which change in each of the respective sensors, between bright and dim for the first sensor and between night and day for the second sensor, if effective to change the state of the corresponding operational amplifier stage, each operational amplifier stage including means providing a threshold signal against which a corresponding signal developed from the corresponding sensor is measured and means for selectively establishing each threshold signal in accordance with the condition of the corresponding operational amplifier stage'"'"'s output.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The improvement set forth in claim 11 in which each threshold is selectively established at threshold levels corresponding to a difference in sensed light intensity of substantially a 2 to 1 ratio.
  - 13. The improvement set forth in claim 11 in which each input circuit includes a second operational amplifier stage, and said timing means comprises timing circuits connected between the first and second operational amplifier stages in each input circuit, each second operational amplifier stage having means providing a threshold at which it responds to change passed from the corresponding first operational amplifier stage by the corresponding timing circuit including means for selectively establishing the corresponding last-mentioned threshold in accordance with the condition of the output signal of the corresponding second operational amplifier stage.
  - 14. The improvement set forth in claim 13 in which the timing circuit in said another input circuit comprises means for imposing a pre-calculated delay in passing change in the corresponding first operational amplifier stage'"'"'s output to the corresponding second operational amplifier stage'"'"'s input regardless of whether the change is indiative of transition from day to night or of transition from night to day.
  - 15. The improvement set forth in claim 14 in which each timing circuit comprises an RC timing circuit and in which the timing circuit of said one input circuit includes a diode arranged cooperatively with the corresponding RC timing circuit to prevent imposition of a minimum time requirement on a change indicative of a transition from dim to bright.
  - 16. The improvement set forth in claim 15 in which the means providing a threshold for each second operational amplifier stage comprises means for establishing the corresponding threshold at a level which corresponds to the RC time constant of the corresponding timing circuit.

17. In a day/night rearview mirror assembly having a mirrored surface in association with a voltage-controlled optical medium wherein the medium controls the brightness of the field of view reflected by the mirrored surface in accordance with voltage applied to the medium and a control circuit for selectively applying control voltage to the medium including a sensor for sensing incident light from the field of view to distinguish between a field of view which is bright and one which is dim and a second sensor for sensing general ambient ligth in the vicinity of the mirror assembly to distinguish between daytime conditions and nighttime conditions, the improvement which comprises said control circuit comprising means for operating said mirror assembly to two different stages of brightness, one higher and the other lower, comprising a logic gate having an output and plural inputs, means operatively coupling the logic gate output with the optical medium such that the logic gate output exercises control over the selective application of the control voltage to said medium to thereby selectively operate the mirror assembly to the two different states of brightness, plural input circuits each of which has an output connected to a corresponding one of the inputs of said logic gate, one of said input circuits containing the first-mentioned sensor and another of said input circuits containing the second sensor, said one and said another input circuits each comprising a corresponding operational amplifier stage with the corresponding sensor being operatively coupled with an input of the corresponding operational amplifier stage, and in which change in each of the respective sensors, between bright and dim for the first sensor and between night and day for the second sensor, is effective to change the state of the corresponding operational amplifier stage, each operational amplifier stage including means providing a corresponding threshold signal against which a corresponding signal developed from the coresponding sensor is measured and means for selectively establishing each threshold signal in accordance with the condition of the corresponding operational amplifier stage'"'"'s output, and in which each threshold is selectively established at threshold levels corresponding to a difference in sensed light intensity of substantially a 2 to 1 ratio.
- View Dependent Claims (18, 19, 20, 21, 22)
- - 18. The improvement set forth in claim 17 including timing means for imposing certain predetermined minimum time requirements on certain changes sensed by said sensors before such changes are allowed to affect the selective application of the control voltage to said medium.
  - 19. The improvement set forth in claim 18 in which each input circuit includes a second operational amplifier stage, and said timing means comprises timing circuits connected between the first and second operational amplifier stages in each input circuit, each second operational amplifier stage having means providing a threshold at which it responds to change passed from the corresponding first operational amplifier stage by the corresponding timing circuit including means for selectively establishing the corresponding last-mentioned threshold in accordance with the condition of the output signal of the corresponding second operational amplifier stage.
  - 20. The improvement set forth in claim 19 in which the timing circuit in said another input circuit comprises means for imposing a pre-calculated delay in passing change in the corresponding first operational amplifier stage'"'"'s output to the corresponding second operational amplifier stage'"'"'s input regardless of whether the change is indicative of transition from day to night or of transition from night to day.
  - 21. The improvement set forth in claim 20 in which each timing circuit comprises an RC timing circuit and in which the timing circuit of said one input circuit includes a diode arranged cooperatively with the corresponding RC timing circuit to prevent imposition of a minimum time requirement on a change indicative of a transition from dim to bright.
  - 22. The improvement set forth in claim 21 in which the means providing a threshold for each second operational amplifier stage comprises means for establishing the corresponding threshold at a level which corresponds to the RC time constant of the corresponding timing circuit.

23. In a day/night rearview mirror assembly having a mirrored surface in association with a voltage-controlled optical medium wherein the medium controls the brightness of the field of view reflected by the mirrored surface in accordance with voltage applied to the medium and a control circuit for selectively applying control votlage to the medium including a sensor for sensing incident light from the field of view to distinguish between a field of view which is bright and one which is dim and a second sensor for sensing general ambient light in the vicinity of the mirror assembly to distinguish between daytime conditions and nighttime conditions, the improvement which comprises said control circuit comprising means for operating said mirror assembly to two different stages of brightness, one higher and the other lower, comprising a logic gate having an output and plural inputs, means operatively coupling the logic gate output with the optical medium such that the logic gate output exercises control over the selective application of the control voltage to said medium to thereby selectively operate the mirror assembly to the two different states of brightness, plural input circuits each of which has an output connected to a corresponding one of the inputs of said logic gate, one of said input circuits containing the first-mentioned sensor and another of said input circuits containing the second sensor, said one and said another input circuits each comprising a corresponding operational amplifier stage with the corresponding sensor being operatively coupled with an input of the corresponding operational amplifier stage, and in which change in each of the respective sensors, between bright and dim for the first sensor and between night and day for the second sensor, is effective to change the state of the corresponding operational amplifier stage, and in which each input circuit includes a second operational amplifier stage, said first and second operational amplifier stages of said one input circuit and said first and second operational amplifier stages of said another input circuit being contained in a single quad op amplifier integrated circuit chip.
- View Dependent Claims (24)
- - 24. The improvement set forth in claim 23 including timing means for imposing certain predetermined minimum time requirements on certain changes sensed by said sensors before such changes are allowed to occur at the output of said logic gate, said timing means being external of and operatively connected with said quad op amp integrated circuit chip in circuit relationship between the first and second operational amplifier stages of each of said one and said another input circuits.

25. In a day/night rearview mirror assembly having a mirrored surface in assocation with a voltage-controlled optical medium wherein the medium controls the brightness of the field of view reflected by the mirrored surface in accordance with voltage applied to the medium and a control circuit for selectively applying control voltage to the medium including a sensor for sensing incident light from the field of view to distinguish between a field of view which is bright and one which is dim and a second sensor for sensing general ambient light in the vicinity of the mirror assembly to distinguish between daytime conditions and nighttime conditions, the improvement which comprises said control circuit comprising means for operating said mirror assembly to two different stage of brightness, one higher and the other lower, comprising a logic gate having an output and plural inputs, means operatively coupling the logic gate output with the optical medium such that the logic gate output exercises control over the selective application of the control voltage to said medium to thereby selectively operate the mirror assembly to the two different states of brightness, plural input circuits each of which has an output connected to a corresponding one of the inputs of said logic gate, one of said input circuits containing the first-mentioned sensor and another of said input circuits containing the second sensors, operator controlled selectable switching means having plural inputs and an output, means operatively connecting the output of said logic gate to one of said operator controlled selected switching means inputs, means providing a higher brightness command signal, means providing a lower brightness command signal, means operatively connecting said means providing a higher brightness command signal to another input opf said operator controlled selectable switching means, means operatively connecting said means providing a lower brightness command signal to a further input of said operator controlled selectable switching means, said operator controlled selectable switching means being operable to selectively connect its input to its output.

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Current Assignee
Gentex Corporation
Original Assignee
C-D Marketing, Ltd.
Inventors
Jacob, Keith D.
Primary Examiner(s)
Corbin, John K.
Assistant Examiner(s)
Dzierzynski, P. M.

Application Number

US06/675,487
Time in Patent Office

1,056 Days
Field of Search

350/278, 350/279, 350/281
US Class Current

359/603
CPC Class Codes

B60R 1/088 using a cell of electricall...

G02B 5/08 Mirrors vehicle mirrors inv...

Day/night mirror

First Claim

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Abstract

363 Citations

25 Claims

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Day/night mirror

First Claim

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Abstract

363 Citations

25 Claims

Specification

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Solutions

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