초록 ▼

Provided is a photoelectric conversion apparatus for detecting focus, which provides an increased number of ranging points while suppressing a chip-area increase. In a first mode, signals from a first line sensor L1 group are written in a first line memory L1 group while signals from a second line s

Provided is a photoelectric conversion apparatus for detecting focus, which provides an increased number of ranging points while suppressing a chip-area increase. In a first mode, signals from a first line sensor L1 group are written in a first line memory L1 group while signals from a second line sensor L2 group are written in a second line memory L2 group. In a second mode, signals from the second line sensor L2 group are written in the first line memory L1 group while signals from the first line sensor L1 group are written in the second line memory L2 group, so that even one and the same line sensor can select different ranging point regions, enabling provision of an increased number of ranging points while suppressing a chip-area increase.

대표청구항 ▼

1. A photoelectric conversion apparatus comprising: a plurality of line sensors, each arranged along a respective one of a plurality of rows,wherein the line sensors each include a plurality of sensor elements, and each of the line sensors is controlled such that: in a first mode, first sensor eleme

1. A photoelectric conversion apparatus comprising: a plurality of line sensors, each arranged along a respective one of a plurality of rows,wherein the line sensors each include a plurality of sensor elements, and each of the line sensors is controlled such that: in a first mode, first sensor elements within the line sensor, arranged correspondingly to a ranging point region for detecting focus in the first mode, are set as effective, while the other sensor elements within the line sensor, arranged outside of the region corresponding to the ranging point region for detecting focus in the first mode, are set as non-effective, andin a second mode, the other sensor elements within the line sensor are set as effective, while at least some of the first sensor elements are set as non-effective, andwherein a portion of the sensor elements within each of the line sensors are set as effective in both of the first and second modes. 2. The photoelectric conversion apparatus according to claim 1, further comprising a sensor drive circuit, a frame memory, a line selecting circuit, and a line selection switching circuit, wherein a signal from an effective portion of a group of the line sensors selected by the line selecting circuit is transferred by the sensor drive circuit to the frame memory corresponding to the effective portion, and held by the frame memory so as to be processed as a signal for arithmetic operation,wherein a switching of the ranging point region between the first and second modes is controlled through the line selection switching circuit connected between the sensor drive circuit and the line selecting circuit, andwherein the frame memory for driving in the first mode and the frame memory for driving in the second mode are the same. 3. A photoelectric conversion apparatus comprising: a plurality of line sensors including first and second line sensors;a first line memory having memories, each one arranged correspondingly to a respective one of sensor elements in a ranging point region in a respective first array of each of the first and second line sensors;a second line memory having memories, each one arranged correspondingly to a respective one of sensor elements in a ranging point region in a respective second array of each of the first and second line sensors; anda control circuit,wherein the control circuit controls in a first mode such that signals read out from the sensor elements in the ranging point region in the first array of the first line sensor are written in the first line memory, and signals read out from the sensor elements in the ranging point region in the second array of the second line sensor are written in the second line memory, andwherein the control circuit controls in a second mode such that signals read out from the sensor elements in the ranging point region in the second array of the first line sensor are written in the second line memory, and signals read out from the sensor elements in the ranging point region in the first array of the second line sensor are written in the first line memory, andwherein the ranging point region in the first array of each of the first and second line sensors is different from the ranging point region in the second array of the respective line sensor. 4. The photoelectric conversion apparatus according to claim 3, wherein the ranging point region in the first array of at least one of the first and second line sensors is overlapped at least in part with the ranging point region in the second array of the respective line sensor. 5. The photoelectric conversion apparatus according to claim 3, wherein the control circuit conducts the controlling such that, after an operation of the first mode, an operation of the second mode is conducted. 6. An imaging system comprising the photoelectric conversion apparatus according to claim 3, as an AF sensor. 7. A driving method of a photoelectric conversion apparatus which includes first and second line sensors, each having a plurality of pixels, and a line memory, the method comprising: in a first mode, reading out signals from a first set of the pixels of the first line sensor without reading out signals from pixels of the first line sensor other than the first set of the pixels, and reading out signals from a second set of the pixels of the second line sensor without reading out signals from pixels of the second line sensor other than the second set of the pixels; andin a second mode, reading out signals from a third set of the pixels of the first line sensor without reading out signals from pixels of the first line sensor other than the third set of the pixels, and reading out signals from a fourth set of the pixels of the second line sensor without reading out signals from pixels of the second line sensor other than the fourth set of the pixels,wherein the first and third sets of the pixels include different pixels, and the second and fourth sets of the pixels include different pixels. 8. The driving method according to claim 7, wherein the first and second sets of pixels are arranged in a staggered manner.