IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0487287
(2009-06-18)
|
등록번호 |
US-8334495
(2012-12-18)
|
우선권정보 |
JP-2008-166334 (2008-06-25) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Semiconductor Energy Laboratory Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
4 |
초록
▼
A photometric device with a wide dynamic range. The photometric device includes a constant current generation circuit, a fixed clock signal generation circuit which generates a fixed clock signal having a fixed frequency, a photoelectric conversion element, a variable clock signal generation circuit
A photometric device with a wide dynamic range. The photometric device includes a constant current generation circuit, a fixed clock signal generation circuit which generates a fixed clock signal having a fixed frequency, a photoelectric conversion element, a variable clock signal generation circuit, and a digital signal generation circuit. The fixed clock signal generation circuit generates a fixed clock signal that oscillates at a fixed frequency, from constant current. The variable clock signal generation circuit generates a variable clock signal that oscillates at a frequency proportional to the amount of photocurrent, from photocurrent generated in the photoelectric conversion element. The digital signal generation circuit sets a measurement period using the fixed clock signal, counts the number of pulses of the variable clock signal that oscillates for the measurement period, and outputs a digital signal including the count value as data.
대표청구항
▼
1. A photometric device comprising: a constant current generation circuit configured to output a constant current;a first clock signal generation circuit configured to generate a first clock signal, the first clock signal oscillating at a frequency proportional to the constant current, the first clo
1. A photometric device comprising: a constant current generation circuit configured to output a constant current;a first clock signal generation circuit configured to generate a first clock signal, the first clock signal oscillating at a frequency proportional to the constant current, the first clock signal generation circuit comprising: a first ramp signal generation circuit;a first hysteresis comparator circuit connected to the first ramp signal generation circuit; anda first buffer circuit connected to the first ramp signal generation circuit and the first hysteresis comparator circuit;a photoelectric conversion element configured to generate a photocurrent when receiving light;a second clock signal generation circuit configured to generate a second clock signal, the second clock signal oscillating at a frequency proportional to the photocurrent, the second clock signal generation circuit comprising: a second ramp signal generation circuit;a second hysteresis comparator circuit connected to the second ramp signal generation circuit; anda second buffer circuit connected to the second ramp signal generation circuit and the second hysteresis comparator circuit; anda digital signal generation circuit configured to count the number of pulses of the second clock signal, the digital signal generation circuit configured to output a digital signal including a count value of the number of pulses, the digital signal generation circuit configured to set a timing when counting of the number of pulses of the second clock signal starts and a timing when the counting finishes, based on the first clock signal. 2. The photometric device according to claim 1, wherein the second clock signal generation circuit includes a photocurrent amplifier circuit, and the photocurrent amplifier circuit is configured to amplify the photocurrent by x times (x≧1) or more, andwherein the second clock signal generation circuit is configured to generate the second clock signal from an amplified current, and the amplified current is output from the photocurrent amplifier circuit. 3. The photometric device according to claim 1, wherein the first clock signal generation circuit includes a constant current amplifier circuit, the constant current amplifier circuit is configured to amplify the constant current by y times (y≧1) or more, and the first clock signal generation circuit is configured to generate the first clock signal from an amplified current which is output from the constant current amplifier circuit, andwherein the second clock signal generation circuit includes a photocurrent amplifier circuit, the photocurrent amplifier circuit is configured to amplify the photocurrent by x times (x≧1) or more, and the second clock signal generation circuit is configured to generate the second clock signal from an amplified current which is output from the photocurrent amplifier circuit. 4. The photometric device according to claim 1, wherein the second clock signal generation circuit includes a photocurrent amplifier circuit, and the photocurrent amplifier circuit is configured to amplify the photocurrent by x times (x≧1) or more,wherein the second clock signal generation circuit is configured to generate the second clock signal from an amplified current, and the amplified current is output from the photocurrent amplifier circuit, andwherein the photocurrent amplifier circuit is a current mirror circuit. 5. The photometric device according to claim 1, wherein the first clock signal generation circuit includes a constant current amplifier circuit, the constant current amplifier circuit is configured to amplify the constant current by y times (y≧1) or more, and the first clock signal generation circuit is configured to generate the first clock signal from an amplified current which is output from the constant current amplifier circuit,wherein the second clock signal generation circuit includes a photocurrent amplifier circuit, the photocurrent amplifier circuit is configured to amplify the photocurrent by x times (x≧1) or more, and the second clock signal generation circuit is configured to generate the second clock signal from an amplified current which is output from the photocurrent amplifier circuit, andwherein each of the photocurrent amplifier circuit and the constant current amplifier circuit is a current mirror circuit. 6. An electronic device comprising: the photometric device according to claim 1; anda display panel,wherein display luminance of the display panel is adjusted in accordance with the digital signal. 7. The photometric device according to claim 1, wherein the second clock signal generation circuit has the same structure as the first clock signal generation circuit. 8. A photometric device comprising: a constant current generation circuit configured to output a constant current;a first clock signal generation circuit configured to generate a first clock signal, the first clock signal oscillating at a frequency proportional to the constant current, the first clock signal generation circuit comprising: a first ramp signal generation circuit;a first hysteresis comparator circuit connected to the first ramp signal generation circuit; anda first buffer circuit connected to the first ramp signal generation circuit and the first hysteresis comparator circuit;a photoelectric conversion element configured to generate a photocurrent when receiving light;a second clock signal generation circuit including a photocurrent amplifier circuit including a first amplifier circuit configured to amplify the photocurrent and a second amplifier circuit having an amplification factor different from that of the first amplifier circuit, the photocurrent amplifier circuit being configured to output a first amplified photocurrent amplified by the first amplifier circuit and a second amplified photocurrent amplified by the second amplifier circuit,a gain switching circuit configured to output one of the first amplified photocurrent and the second amplified photocurrent which are input to the gain switching circuit, anda third clock signal generation circuit configured to generate a second clock signal from one of the first amplified photocurrent and the second amplified photocurrent which are output from the gain switching circuit, the second clock signal oscillating at a frequency proportional to the photocurrent, the third clock signal generation circuit comprising: a second ramp signal generation circuit;a second hysteresis comparator circuit connected to the second ramp signal generation circuit; anda second buffer circuit connected to the second ramp signal generation circuit and the second hysteresis comparator circuit; anda digital signal generation circuit configured to count the number of pulses of the second clock signal, the digital signal generation circuit configured to output a digital signal including a count value of the number of pulses, and the digital signal generation circuit configured to set a timing when counting of the number of pulses of the second clock signal starts and a timing when the counting finishes, based on the first clock signal. 9. The photometric device according to claim 8, wherein the first clock signal generation circuit includes a third amplifier circuit, the third amplifier circuit is configured to amplify the constant current by y times (y≧1) or more, and the first clock signal generation circuit is configured to generate the first clock signal from an amplified constant current amplified by the third amplifier circuit. 10. The photometric device according to claim 8, wherein the first clock signal generation circuit includes a third amplifier circuit, the third amplifier circuit is configured to amplify the constant current by y times (y≧1) or more, and the first clock signal generation circuit is configured to generate the first clock signal from an amplified constant current amplified by the third amplifier circuit, andwherein the third amplifier circuit is a current mirror circuit. 11. The photometric device according to claim 8, wherein each of the first amplifier circuit and the second amplifier circuit in the second clock signal generation circuit is a current mirror circuit. 12. An electronic device comprising: the photometric device according to claim 8; anda display panel,wherein display luminance of the display panel is adjusted in accordance with the digital signal. 13. The photometric device according to claim 8, wherein the first clock signal generation circuit has the same structure as the third clock signal generation circuit.
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