Code reading apparatus having optimal battery voltage detection function

US 6,023,539 A
Filed: 11/06/1998
Issued: 02/08/2000
Est. Priority Date: 11/17/1997
Status: Expired due to Fees

First Claim

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1. A code reading apparatus comprising:

illumination means for illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;

image sensing means for receiving each of light beams reflected by the recording medium including the code illuminated by said illumination means in a read/scan operation for the code, and for outputting a corresponding image sensing signal;

signal processing means for decoding the audio information data by processing the image sensing signal output from said image sensing means;

reproduction output means for reproducing audio information based on the audio information data decoded by said signal processing means, and for outputting the audio information;

supply voltage detection means for detecting a supply voltage to a power supply circuit system including a battery used as a power supply of said apparatus;

a power switch for turning on/off the supply voltage to said power supply circuit system; and

detection timing control means for controlling said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at a time of light emission after the supply voltage to said power supply circuit system is turned on by said power switch and a first light emission is performed by said illumination means;

wherein said image sensing means includes a solid-state image sensing device for storing a signal charge corresponding to the light beams reflected by the recording medium by setting an exposure interval after an unnecessary charge stored in a light-receiving section is removed, and for transferring the stored signal charge from the light-receiving section to a light-shielding section after the exposure interval ends, thereby performing an electronic shutter operation; and

wherein said detection timing control means controls said supply voltage detection means to detect a supply voltage at a predetermined timing within a predetermined interval comprising an interval in which the unnecessary charge is removed, the exposure interval, and an interval in which the signal charge is transferred from the light-receiving section to the light-shielding section.

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Abstract

An illumination section illuminates a code on a recording medium, on which data about audio information is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals. An image sensing section receives each of light beams reflected by the recording medium including the code illuminated by the illumination section in a read/scan operation for the code, and outputs a corresponding image sensing signal. A signal processing section decodes the data about the audio information by processing the image sensing signal output from the image sensing section. A reproduction output section reproduces the audio information on the basis of the data decoded by the signal processing section and outputs the information. A supply voltage detection section detects a supply voltage to a power supply circuit system including a battery used as a power supply of the apparatus. A detection timing control section controls the supply voltage detection section to detect the supply voltage at a predetermined timing in image sensing operation performed by the image sensing section at the time of light emission after the supply voltage to the power supply circuit system is turned on by a power switch and first light emission is performed by the illumination section.

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26 Claims

1. A code reading apparatus comprising:
- illumination means for illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  image sensing means for receiving each of light beams reflected by the recording medium including the code illuminated by said illumination means in a read/scan operation for the code, and for outputting a corresponding image sensing signal;
  
  signal processing means for decoding the audio information data by processing the image sensing signal output from said image sensing means;
  
  reproduction output means for reproducing audio information based on the audio information data decoded by said signal processing means, and for outputting the audio information;
  
  supply voltage detection means for detecting a supply voltage to a power supply circuit system including a battery used as a power supply of said apparatus;
  
  a power switch for turning on/off the supply voltage to said power supply circuit system; and
  
  detection timing control means for controlling said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at a time of light emission after the supply voltage to said power supply circuit system is turned on by said power switch and a first light emission is performed by said illumination means;
  
  wherein said image sensing means includes a solid-state image sensing device for storing a signal charge corresponding to the light beams reflected by the recording medium by setting an exposure interval after an unnecessary charge stored in a light-receiving section is removed, and for transferring the stored signal charge from the light-receiving section to a light-shielding section after the exposure interval ends, thereby performing an electronic shutter operation; and
  
  wherein said detection timing control means controls said supply voltage detection means to detect a supply voltage at a predetermined timing within a predetermined interval comprising an interval in which the unnecessary charge is removed, the exposure interval, and an interval in which the signal charge is transferred from the light-receiving section to the light-shielding section.
- View Dependent Claims (2, 3, 4)
- - 2. An apparatus according to claim 1, further comprising power supply inhibition means for inhibiting said power supply circuit system including said battery from supplying power to a circuit system associated with said reproduction output means in a read interval including the timing at which said supply voltage detection means detects the supply voltage.
  - 3. An apparatus according to claim 1, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on;
    - andwherein said code reading apparatus further comprises warning means for generating a warning when a difference or ratio between a supply voltage detected by said supply voltage detection means at a predetermined timing before the first emission and a supply voltage detected by said supply voltage detection means at a predetermined timing after the first emission exceeds a predetermined level.
  - 4. An apparatus according to claim 1, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on;
    - andwherein said code reading apparatus further comprises power supply inhibition means for inhibiting said power supply circuit system from supplying power to at least one of said illumination means and said image sensing means when a difference or ratio between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and the supply voltage detected by said supply voltage detection means at a predetermined timing after the first light emission exceeds a predetermined level.

5. A code reading apparatus comprising:
- illumination means for illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  image sensing means for receiving each of light beams reflected by the recording medium including the code illuminated by said illumination means in a read/scan operation for the code, and for outputting a corresponding image sensing signal;
  
  signal processing means for decoding the audio information data by processing the image sensing signal output from said image sensing means;
  
  reproduction output means for reproducing audio information based on the audio information data decoded by said signal processing means, and for outputting the audio information;
  
  supply voltage detection means for detecting a supply voltage to a power supply circuit system including a battery used as a power supply of said apparatus;
  
  a power switch for turning on/off the supply voltage to said power supply circuit system; and
  
  detection timing control means for controlling said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at a time of light emission after the supply voltage to said power supply circuit system is turned on by said power switch and a first light emission is performed by said illumination means;
  
  wherein said image sensing means includes a solid-state image sensing device for storing a signal charge corresponding to the light beams reflected by the recording medium by setting an exposure interval after an unnecessary charge stored in a light-receiving section is removed, and for transferring the stored signal charge from the light-receiving section to a light-shielding section after the exposure interval ends, thereby performing an electronic shutter operation; and
  
  wherein said detection timing control means controls said supply voltage detection means to detect a supply voltage at a predetermined timing within a predetermined interval between an instant at which an image sensing signal is output from said solid-state image sensing device and a next unnecessary charge removal interval.
- View Dependent Claims (6, 7, 8)
- - 6. An apparatus according to claim 5, further comprising power supply inhibition means for inhibiting said power supply circuit system including said battery from supplying power to a circuit system associated with said reproduction output means in a read interval including the timing at which said supply voltage detection means detects the supply voltage.
  - 7. An apparatus according to claim 5, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on;
    - andwherein said code reading apparatus further comprises warning means for generating a warning when a difference or ratio between a supply voltage detected by said supply voltage detection means at a predetermined timing before the first emission and a supply voltage detected by said supply voltage detection means at a predetermined timing after the first emission exceeds a predetermined level.
  - 8. An apparatus according to claim 5, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on;
    - andwherein said code reading apparatus further comprises power supply inhibition means for inhibiting said power supply circuit system from supplying power to at least one of said illumination means and said image sensing means when a difference or ratio between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and the supply voltage detected by said supply voltage detection means at a predetermined timing after the first light emission exceeds a predetermined level.

9. A code reading apparatus comprising:
- illumination means for illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  image sensing means for receiving light beams reflected by the recording medium including the code illuminated by said illumination means in a read/scan operation for the code, and for outputting a corresponding image sensing signal;
  
  signal processing means for decoding the audio information data by processing the image sensing signal output from said image sensing means;
  
  reproduction output means for reproducing audio information based on the audio information data decoded by said signal processing means, and for outputting the audio information;
  
  supply voltage detection means for detecting a supply voltage to a power supply circuit system including a battery used as a power supply of said apparatus;
  
  a power switch for turning on/off the supply voltage to said power supply circuit system;
  
  detection timing control means for controlling said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at a time of light emission after the supply voltage to said power supply circuit system is turned on by said power switch and a first light emission is performed by said illumination means; and
  
  power supply inhibition means for inhibiting said power supply circuit system including said battery from supplying power to a circuit system associated with said reproduction output means in a read interval including the timing at which said supply voltage detection means detects the supply voltage.

10. A code reading apparatus comprising:
- illumination means for illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  image sensing means for receiving light beams reflected by the recording medium including the code illuminated by said illumination means in a read/scan operation for the code, and for outputting a corresponding image sensing signal;
  
  signal processing means for decoding the audio information data by processing the image sensing signal output from said image sensing means;
  
  reproduction output means for reproducing audio information based on the audio information data decoded by said signal processing means, and for outputting the audio information;
  
  supply voltage detection means for detecting a supply voltage to a power supply circuit system including a battery used as a power supply of said apparatus;
  
  a power switch for turning on/off the supply voltage to said power supply circuit system; and
  
  detection timing control means for controlling said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at a time of light emission after the supply voltage to said power supply circuit system is turned on by said power switch and a first light emission is performed by said illumination means;
  
  wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on; and
  
  wherein said code reading apparatus further comprises warning means for generating a warning when a difference or ratio between a supply voltage detected by said supply voltage detection means at a predetermined timing before the first light emission and a supply voltage detected by said supply voltage detection means at a predetermined timing after the first light emission exceeds a predetermined level.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. An apparatus according to claim 10, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at a time of each light emission operation after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said warning means generates the warning when a difference or ratio between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and an average of the supply voltages detected by said supply voltage detection means a plurality of number of times exceeds a predetermined level.
  - 12. An apparatus according to claim 10, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage a plurality of times at a high speed at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on, and also controls said supply voltage detection means to detect the supply voltage a plurality of times at a high speed at a predetermined timing in an image sensing operation performed by said image sensing means at the time of light emission after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said warning means generates the warning when a difference or ratio between an average of the supply voltages detected by said supply voltage detection means at the predetermined timing before the first light emission and an average of the supply voltages detected by said supply voltage detection means at the predetermined timing after the first light emission exceeds a predetermined level.
  - 13. An apparatus according to claim 12, wherein said supply voltage detection means detects the supply voltage to be detected the plurality of times at the high speed as digital data, and calculates the averages from the digital data.
  - 14. An apparatus according to claim 10, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing in the image sensing operation performed by said image sensing means at the time of each of a plurality of light emission operations after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said warning means generates the warning when any one of differences or ratios between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and the supply voltages detected by said supply voltage detection means the plurality of number of times exceeds a predetermined level.
  - 15. An apparatus according to claim 10, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing in the image sensing operation performed by said image sensing means at the time of each of a plurality of light emission operations after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said warning means generates the warning in accordance with the number of times or the time during which a difference or ratio, of differences or ratios between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and the supply voltages detected by said supply voltage detection means the plurality of number of times, which exceeds a predetermined level is detected.

16. A code reading apparatus comprising:
- illumination means for illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  image sensing means for receiving light beams reflected by the recording medium including the code illuminated by said illumination means in a read/scan operation for the code, and for outputting a corresponding image sensing signal;
  
  signal processing means for decoding the audio information data by processing the image sensing signal output from said image sensing means;
  
  reproduction output means for reproducing audio information based on the audio information data decoded by said signal processing means, and for outputting the audio information;
  
  supply voltage detection means for detecting a supply voltage to a power supply circuit system including a battery used as a power supply of said apparatus;
  
  a power switch for turning on/off the supply voltage to said power supply circuit system; and
  
  detection timing control means for controlling said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at a time of light emission after the supply voltage to said power supply circuit system is turned on by said power switch and a first light emission is performed by said illumination means;
  
  wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on; and
  
  wherein said code reading apparatus further comprises power supply inhibition means for inhibiting said power supply circuit system from supplying power to at least one of said illumination means and said image sensing means when a difference or ratio between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and the supply voltage detected by said supply voltage detection means at a predetermined timing after the first light emission exceeds a predetermined level.
- View Dependent Claims (17, 18, 19, 20, 21)
- - 17. An apparatus according to claim 16, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at the time of each light emission operation after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said power supply inhibition means inhibits the supply of power when a difference or ratio between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and an average of the supply voltages detected by said supply voltage detection means a plurality of times exceeds a predetermined level.
  - 18. An apparatus according to claim 16, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage, a plurality of times at a high speed at a predetermined timing before the first light emission is performed by said illumination means after said power switch is turned on, and also controls said supply voltage detection means to detect the supply voltage a plurality of times at a high speed at a predetermined timing in an image sensing operation performed by said image sensing means at the time of light emission after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said power supply inhibition means inhibits the supply of power when a difference or ratio between an average of the supply voltages detected by said supply voltage detection means at the predetermined timing before the first light emission and an average of the supply voltages detected by said supply voltage detection means at the predetermined timing after the first light emission exceeds a predetermined level.
  - 19. An apparatus according to claim 18, wherein said supply voltage detection means detects the supply voltage to be detected the plurality of times at the high speed as digital data, and calculates the average from the digital data.
  - 20. An apparatus according to claim 16, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at the time of each of a plurality of light emission operations after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said power supply inhibition means inhibits the supply of power when any one of differences or ratios between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and the supply voltages detected by said supply voltage detection means the plurality of times exceeds a predetermined level.
  - 21. An apparatus according to claim 16, wherein said detection timing control means controls said supply voltage detection means to detect the supply voltage at a predetermined timing in an image sensing operation performed by said image sensing means at the time of each of a plurality of light emission operations after said power switch is turned on and the first light emission is performed by said illumination means;
    - andwherein said power supply inhibition means inhibits the supply of power in accordance with the number of times or the time during which a difference or ratio, of differences or ratios between the supply voltage detected by said supply voltage detection means at the predetermined timing before the first light emission and the supply voltages detected by said supply voltage detection means the plurality of times, which exceeds a predetermined level is detected.

22. A code reading method comprising the steps of:
- illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  receiving light beams reflected by the recording medium including the code in a read/scan operation for the code, and outputting a corresponding image sensing signal;
  
  decoding the audio information data by processing the image sensing signal;
  
  reproducing audio information based on the decoded audio information, and outputting the information;
  
  detecting a supply voltage to a power supply circuit system including a battery used as a power supply;
  
  turning on/off the supply voltage to said power supply circuit system; and
  
  controlling detection of the supply voltage at a predetermined timing in an image sensing operation at a time of light emission after the supply voltage to said power supply circuit system is turned on and a first light emission is performed;
  
  wherein a solid-state image sensing device is controlled to store a signal charge corresponding to the light beams reflected by the recording medium by setting an exposure interval after an unnecessary charge stored in a light-receiving section is removed, and to transfer the stored signal charge from the light-receiving section to a light-shielding section, thereby performing an electronic shutter operation; and
  
  wherein detection of the supply voltage is controlled to occur at a predetermined timing within a predetermined interval comprising an interval in which the unnecessary charge is removed, the exposure interval, and an interval in which the signal charge is transferred from the light-receiving section to the light-shielding section.
- View Dependent Claims (23)
- - 23. A method according to claim 22, further comprising the step of inhibiting said power supply circuit including said battery from supplying power to a circuit system associated with reproduction and output of the audio information during a read/scan interval for the code, which includes the timing at which the supply voltage is detected.

24. A code reading method comprising the steps of:
- illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  receiving light beams reflected by the recording medium including the code in a read/scan operation for the code, and outputting a corresponding image sensing signal;
  
  decoding the audio information data by processing the image sensing signal;
  
  reproducing audio information based on the decoded audio information, and outputting the information;
  
  detecting a supply voltage to a power supply circuit system including a battery used as a power supply;
  
  turning on/off the supply voltage to said power supply circuit system; and
  
  controlling detection of the supply voltage at a predetermined timing in an image sensing operation at a time of light emission after the supply voltage to said power supply circuit system is turned on and a first light emission is performed;
  
  wherein a solid-state image sensing device is controlled to store a signal charge corresponding to the light beams reflected by the recording medium by setting an exposure interval after an unnecessary charge stored in a light-receiving section is removed, and to transfer the stored signal charge from the light-receiving section to a light-shielding section after the exposure interval ends, thereby performing an electronic shutter operation, andwherein detection of the supply voltage is controlled to occur at a predetermined timing within a predetermined interval between an instant at which an image sensing signal is output from said solid-state image sensing device and a next unnecessary charge removal interval.
- View Dependent Claims (25)
- - 25. A method according to claim 24, further comprising the step of inhibiting said power supply circuit including said battery from supplying power to a circuit system associated with reproduction and output of the audio information during a read/scan interval for the code, which includes the timing at which the supply voltage is detected.

26. A code reading method comprising the steps of:
- illuminating a code on a recording medium, on which audio information data is recorded as an optically readable code, by repeatedly emitting light at predetermined intervals;
  
  receiving light beams reflected by the recording medium including the code in a read/scan operation for the code, and outputting a corresponding image sensing signal;
  
  decoding the audio information data by processing the image sensing signal;
  
  reproducing audio information based on the decoded audio information, and outputting the information;
  
  detecting a supply voltage to a power supply circuit system including a battery used as a power supply;
  
  turning on/off the supply voltage to said power supply circuit system;
  
  controlling detection of the supply voltage at a predetermined timing in an image sensing operation at a time of light emission after the supply voltage to said power supply circuit system is turned on and a first light emission is performed; and
  
  inhibiting said power supply circuit including said battery from supplying power to a circuit system associated with reproduction and output of the audio information during a read/scan interval for the code, which includes the timing at which the supply voltage is detected.

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Current Assignee
Olympus Optical Corporation Limited (Olympus Corporation)
Original Assignee
Olympus Optical Corporation Limited (Olympus Corporation)
Inventors
Ohnami, Yoshikazu, Mori, Takeshi, Matsui, Akira, Matsueda, Akira
Primary Examiner(s)
Grant, II, Jerome

Application Number

US09/187,774
Time in Patent Office

459 Days
Field of Search

358/474, 358/479, 358/475, 358/448, 358/443, 358/401, 358/421, 358/468, 382/312, 382/313, 382/314, 382/315, 382/317
US Class Current

382/317
CPC Class Codes

G06K 13/063 Aligning cards

Code reading apparatus having optimal battery voltage detection function

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Code reading apparatus having optimal battery voltage detection function

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Abstract

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