Photodiode light sensor

US 6,504,142 B2
Filed: 01/25/2002
Issued: 01/07/2003
Est. Priority Date: 01/25/1999
Status: Expired due to Term

First Claim

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1. A light sensor comprising:

a photodiode light transducer exposed to light, the exposed light transducer operative to accumulate charge in proportion to light incident over a predetermined integration period; and

a sensor logic in communication with the exposed light transducer, the sensor logic operative to;

(a) reset the charge accumulated in the exposed light transducer at the beginning of the predetermined light integration period, (b) measure the charge accumulated by the exposed light transducer over the predetermined light integration period, and (c) determine a pulse having a width based on the measured accumulated exposed light transducer charge.

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Abstract

Light sensors having a wide dynamic range are used in a variety of applications. A wide dynamic range light sensor includes an exposed photodiode light transducer accumulating charge in proportion to light incident over an integration period. Sensor logic determines a light integration period prior to the beginning of integration and the charge is reset. Charge accumulated by the exposed light transducer over the light integration period is measured and a pulse having a width based on the accumulated charge is determined.

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26 Claims

1. A light sensor comprising:
- a photodiode light transducer exposed to light, the exposed light transducer operative to accumulate charge in proportion to light incident over a predetermined integration period; and
  
  a sensor logic in communication with the exposed light transducer, the sensor logic operative to;
  
  (a) reset the charge accumulated in the exposed light transducer at the beginning of the predetermined light integration period, (b) measure the charge accumulated by the exposed light transducer over the predetermined light integration period, and (c) determine a pulse having a width based on the measured accumulated exposed light transducer charge.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The light sensor of claim 1, wherein the predetermined integration period is variable, and said sensor logic determines the duration of the predetermined integration period prior to the beginning of charge accumulation during the predetermined integration period.
  - 3. The light sensor of claim 1 further comprising a comparator with one input connected to the exposed light transducer and the other input connected to a switched capacitor circuit, the switched capacitor circuit operable to charge a capacitor to a fixed voltage when the switch is closed and to discharge the capacitor at a constant rate when the switch is open, wherein the sensor logic is further operative to close the switch during the predetermined light integration period and open the switch after the predetermined light integration period, thereby creating the pulse at the comparator output.
  - 4. The light sensor of claim 3 further comprising a second comparator with one input connected to a fixed voltage and the other input connected to the switched capacitor circuit, the second comparator output operative to inhibit output of the determined pulse if the ramp voltage is less than the fixed voltage.
  - 5. The light sensor of claim 1 further comprising a photodiode light transducer shielded from light, the shielded light transducer operative to accumulate charge in proportion to noise over the predetermined integration period, wherein the sensor logic is further operative to:
6. The light sensor of claim 5, wherein the light sensor has an input for receiving an integration signal and wherein the noise is dependent on the light sensor temperature, the sensor logic further operable to:
- determine an integration period based on the integration signal; and
  
  output the output pulse after a time length following the end of the integration signal, the time length based on the noise level, the time length thereby indicating the light sensor temperature.
7. The light sensor of claim 1, wherein the sensor logic determines the predetermined integration period from the asserted portion of a control signal received by the sensor logic.
8. The light sensor of claim 1, wherein the sensor logic is operative to determine each predetermined integration period by cycling through a sequence of predetermined time periods.
9. The light sensor of claim 1 further comprising at least one additional exposed photodiode light transducer, each additional exposed light transducer operative to accumulate charge in proportion to light incident over an integration period at a rate different than the rate of any other exposed light transducer, the sensor logic further operative to:
- reset the charge accumulated in each of the at least one additional exposed light transducer at the beginning of the predetermined integration period;
  
  measure the charge accumulated by each of the at least one additional exposed light transducer over the predetermined integration period; and
  
  output a pulse having a width based on the measured accumulated charge for each of the at least one additional exposed light transducer.
10. The light sensor of claim 9, wherein each exposed light transducer has a different collector area thereby having a different charge accumulation rate.
11. The light sensor of claim 9, wherein each exposed light transducer has an aperture for admitting light incident on the sensor, each sensor aperture having a different admitting area thereby giving each exposed light transducer a different charge accumulation rate.
12. The light sensor of claim 1, wherein the light transducer comprises:
- a photodiode overlaying a substrate, the photodiode operative to accumulate incident charge in a photodiode well formed in a region of the substrate underlying the photodiode, the photodiode having an intrinsic photodiode capacitance;
  
  a floating diffusion formed in the substrate, the floating diffusion having a diffusion well formed in a region of the substrate underlying the floating diffusion when the charge is reset, the floating diffusion operative to eliminate charge in the diffusion well when the charge is reset, the floating diffusion charge determining an output potential, the floating diffusion having an intrinsic floating diffusion capacitance; and
  
  a transmission gate between the photodiode and the floating diffusion, the transmission gate defining a transmission well formed in a region of the substrate between the region of the substrate underlying the photodiode and the region of the substrate underlying the floating diffusion, the transmission well having a depth shallower than the photodiode well and the diffusion well, the transmission gate having an intrinsic transmission gate capacitance;
  
  wherein, when the charge is reset, charge in the photodiode well above the depth of the transmission well flows through the transmission well, through the floating diffusion, and is eliminated; and
  
  wherein, during the predetermined integration period, charge produced by light incident on the photodiode flows through the transmission well and into the diffusion well, producing output voltage inversely proportional to the floating diffusion capacitance, until the diffusion well is filled to the depth of the transmission well wherein charge produced by light incident on the photodiode fills the photodiode well, the transmission well, and the diffusion well, producing output voltage inversely proportional to the sum of the floating diffusion capacitance, the photodiode capacitance, and the transmission gate capacitance;
  
  thereby providing a first sensitivity during charge accumulation in the diffusion well only and a second sensitivity during charge accumulation in the diffusion well, the transmission well, and the photodiode well, the first sensitivity greater than the second sensitivity.
13. The light sensor as in claim 12 further comprising an anti-bloom gate between the photodiode and a source voltage diffusion, the anti-bloom gate defining an anti-blooming well formed in a region of the substrate between the region of the substrate underlying the photodiode and the source voltage diffusion, the anti-blooming well having a depth shallower than the transmission well.

14. A light sensor package comprising:
- an encapsulant having a lens for receiving light, the encapsulant admitting a power pin, a ground pin, and an output pin;
  
  an exposed photodiode light transducer disposed within the encapsulant, the exposed light transducer operative to accumulate charge in proportion to light received through the lens incident on the exposed light transducer over an integration period;
  
  a light-to-voltage circuit disposed within the encapsulant and in communication with the exposed light transducer, the light-to-voltage circuit operative to output a light voltage signal based on charge accumulated by the exposed light transducer; and
  
  a voltage-to-pulse circuit disposed within the encapsulant and in communication with the light-to-voltage circuit, the voltage-to-pulse circuit operative to output a pulse on the output pin, the pulse width based on the light voltage signal.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23)
- - 15. The light sensor package of claim 14 further comprising:
16. The light sensor package of claim 14 further comprising a sensor logic disposed within the encapsulant and in communication with an exposed light transducer and the light-to-voltage circuit, the sensor logic operative to:
- determine a light integration period;
  
  reset the charge accumulated in the exposed light transducer at the beginning of the determined light integration period; and
  
  control the accumulation of charge by the exposed light transducer during the determined light integration period.
17. The light sensor package of claim 16 wherein the sensor logic is operative to determine the light integration period from the asserted portion of a control signal received on the output pin.
18. The light sensor package of claim 16 wherein the sensor logic is operative to determine each light integration period by cycling through a sequence of predetermined time periods.
19. The light sensor package of claim 16 further comprising at least one additional exposed photodiode light transducer, each additional exposed light transducer operative to accumulate charge in proportion to light incident over an integration period at a rate different than the rate of any other exposed light transducer, the sensor logic further operative to:
- reset the charge accumulated in the at least one additional exposed light transducer at the beginning of the determined light integration period;
  
  measure the charge accumulated by the at least one additional exposed light transducer over the determined light integration period; and
  
  output a pulse having a width based on the measured accumulated charge for each of the at least one additional exposed light transducer.
20. The light sensor package of claim 19 wherein each exposed light transducer has a different collector area thereby having a different charge accumulation rate.
21. The light sensor package of claim 19 wherein each exposed light transducer has an aperture for admitting light incident on the sensor, each sensor aperture having a different admitting area thereby giving each exposed light transducer a different charge accumulation rate.
22. The light sensor package of claim 14, wherein the power pin, ground pin, and output pin are formed from a leadframe having a component support surface on which the photodiode light transducer, light-to-voltage circuit and the voltage-to-pulse circuit are mounted, the component support surface disposed at one end of one of the power, ground and output pins.
23. The light sensor package of claim 22, wherein the encapsulant encapsulates the photodiode light transducer, light-to-voltage circuit and the voltage-to-pulse circuit on the component support surface and retains the power, ground and output pins.

24. A light sensor package comprising:
- an encapsulant having a lens for receiving light, the encapsulant admitting a power pin, a ground pin, and a communication pin;
  
  an exposed photodiode light transducer disposed within the encapsulant, the exposed light transducer operative to accumulate charge in proportion to light received through the lens incident on the exposed light transducer over an integration period; and
  
  a light-to-voltage circuit disposed within the encapsulant and in communication with the exposed light transducer, the light-to-voltage circuit operative to output a light voltage signal based on charge accumulated by the exposed light transducer, wherein the integration period being determined from an asserted portion of a control signal received on the communication pin.
- View Dependent Claims (25, 26)
- - 25. The light sensor package of claim 24 further comprising a voltage-to-pulse circuit disposed within the encapsulant and in communication with the light-to-voltage circuit, the voltage-to-pulse circuit operative to output a pulse on the communication pin, the pulse width based on the light voltage signal.
  - 26. The light sensor package of claim 24 further comprising a sensor logic disposed within the encapsulant and in communication with exposed light transducer and the light-to-voltage circuit, the sensor logic operative to:

Specification

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Current Assignee
Gentex Corporation
Original Assignee
Gentex Corporation
Inventors
Fossum, Eric R., Bechtel, Jon H., Nixon, Robert H.
Primary Examiner(s)
EVANS, FANNIE L

Application Number

US10/057,696
Publication Number

US 20020100865A1
Time in Patent Office

347 Days
Field of Search

250/214.R, 250/214.C, 250/214.1, 250/215, 359/601, 359/602, 359/603, 359/604, 359/605, 359/606, 359/607, 359/608, 327/517
US Class Current

250/214.00C
CPC Class Codes

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

G01J 1/0488   with spectral filtering

G01J 1/4228   arrangements with two or mo...

G01J 1/44   Electric circuits for comma...

G01J 1/46   using a capacitor

H01L 2224/48091   Arched

H01L 2224/48247   connecting the wire to a bo...

H01L 2924/00014   the subject-matter covered ...

H01L 31/101   Devices sensitive to infrar...

H01L 33/54   having a particular shape

Photodiode light sensor

First Claim

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Abstract

170 Citations

26 Claims

Specification

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Photodiode light sensor

First Claim

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0 Petitions

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Accused Products

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Abstract

170 Citations

26 Claims

Specification

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Use Cases

Quick Links

Others