Abstract: An endoscope includes an image sensor and a first memory, which is a nonvolatile memory, storing first information disposed in a distal end portion, and includes a controller and a second memory configured to back up the first information disposed on a proximal end side relative to the distal end portion. The controller reads out the first information stored in the first memory and stores the read first information as a backup in the second memory when the controller is started when supplied with power, and reads out the first information stored in the second memory and transmits the read first information to a video processor when the controller receives a request from the video processor.

Abstract: An imaging device includes: a pixel unit including a plurality of pixels that are arranged in a two-dimensional matrix, each pixel being configured to generate an imaging signal corresponding to an amount of light received and output the image signal; an A/D converter configured to conduct A/D conversion on the imaging signal generated by the pixel unit or on a drive power for driving the pixel unit, to generate a digital signal and output the digital signal to an external unit; a switch that is capable of switching a connection of the A/D converter to the pixel unit or a transmission line for transmitting the drive power; and a first controller configured to control the switch to connect the A/D converter to the transmission line in predetermined timing to cause the A/D converter to output a voltage value of the drive power to the external unit.

Abstract: An endoscope includes an image sensor and a first memory, which is a nonvolatile memory, storing first information disposed in a distal end portion, and includes a controller and a second memory configured to back up the first information disposed on a proximal end side relative to the distal end portion. The controller reads out the first information stored in the first memory and stores the read first information as a backup in the second memory when the controller is started when supplied with power, and reads out the first information stored in the second memory and transmits the read first information to a video processor when the controller receives a request from the video processor.

Abstract: An endoscope apparatus includes image sensors, a power supply unit, a failure detection unit, and a controller. The power supply unit supplies power independently to the image sensors. The failure detection unit detects a failure in each of the image sensors. The controller controls the power supply unit to stop power supply to an image sensor in which a failure is detected at the failure detection unit.

Abstract: An endoscope system includes: an image pickup device for picking up an object image; a drive control circuit for initializing and driving the image pickup device; and a monitoring portion for detecting abnormality of an image pickup signal from the image pickup device and outputting an initialization start signal to the drive control circuit. The monitoring portion compares a synchronization code, an optical black pixel value and an effective pixel value of the image pickup signal with respective thresholds indicating a normal range and a stipulated number of times or a stipulated number of pieces, and in a case of detecting abnormality of one of the synchronization code, the optical black pixel value and the effective pixel value, outputs the initialization start signal to the drive control circuit, and the drive control circuit initializes the image pickup device in a case of receiving the initialization start signal the monitoring portion.

Abstract: An imaging device includes: a pixel unit including a plurality of pixels that are arranged in a two-dimensional matrix, each pixel being configured to generate an imaging signal corresponding to an amount of light received and output the image signal; an A/D converter configured to conduct A/D conversion on the imaging signal generated by the pixel unit or on a drive power for driving the pixel unit, to generate a digital signal and output the digital signal to an external unit; a switch that is capable of switching a connection of the A/D converter to the pixel unit or a transmission line for transmitting the drive power; and a first controller configured to control the switch to connect the A/D converter to the transmission line in predetermined timing to cause the A/D converter to output a voltage value of the drive power to the external unit.

Abstract: An image pickup apparatus includes a head portion including an image pickup device, and a connector portion integrally connected with the head portion via a cable. The head portion includes: an electronic shutter register configured to store a set value for controlling an image pickup device, among control data transmitted from the connector portion; and a communication circuit configured to, based on information indicating whether or not to transmit the set value for controlling the image pickup device, among the control data transmitted from the connector portion, to a register provided in the image pickup device, perform control of whether or not to transmit the set value stored in the electronic shutter register to the register provided in the image pickup device.

Abstract: An endoscope includes: a CMOS image sensor including only a vertical OB pixel region as an optical black pixel region, and a horizontal OB pixel region generation processing section that reads a photoelectric conversion signal generated in an effective pixel region in the CMOS image sensor and an OB signal generated in the vertical OB pixel region, adds the OB signal generated in the vertical OB pixel region to the beginning or end of each row of the photoelectric conversion signal which has been generated in the effective pixel region and read out for each row, and outputs a signal to which the OB signal is added.

Abstract: An endoscope is an endoscope connectable to a processor provided with a high frequency component enhancement circuit configured to perform, for an image pickup signal having an attenuated high frequency component, enhancement correction of the high frequency component, the endoscope including: a CMOS image sensor provided with an image pickup portion configured to pick up an optical image of a subject and generate an analog image pickup signal and an A/D converting portion configured to convert the analog image pickup signal to a digital image pickup signal and output the digital image pickup signal; a cable for transmitting the digital image pickup signal; and a filter having frequency characteristics equalizing frequency characteristics of the high frequency component enhancement circuit.

Abstract: An endoscope system includes a head portion, a connector portion and a CCU. The head portion includes a test signal generating portion configured to generate a first test pattern signal. The connector portion includes: a test signal generating portion configured to generate a second test pattern signal which is a same pattern signal as the first test pattern; a first comparison circuit configured to output a comparison result of comparing the first test pattern signal with the second test pattern signal; and a test signal generating portion configured to generate a third test pattern signal. The CCU includes: a test signal generating portion configured to generate a fourth test pattern signal which is a same pattern signal as the third test pattern; and a second comparison circuit configured to output a comparison result of comparing the third test pattern signal with the fourth test pattern signal.

Abstract: A power supply control circuit includes a drive voltage generation circuit configured to generate a plurality of drive voltages by using a plurality of power supply voltages that are supplied from outside, a sequencer configured to stop, when supply of the plurality of power supply voltages is stopped in a predetermined order, generation of the plurality of drive voltages according to priority ranks set in advance, and a power supply monitor circuit configured to perform, when supply of one power supply voltage, among the plurality of power supply voltages, is stopped in an order different from the predetermined order but supply of other power supply voltages is continued, an operation for simultaneously stopping generation of drive voltages that are set at higher priority ranks than a priority rank for stopping generation of a drive voltage that uses the one power supply voltage.

Abstract: An endoscope system includes: an image pickup device for picking up an object image; a drive control circuit for initializing and driving the image pickup device; and a monitoring portion for detecting abnormality of an image pickup signal from the image pickup device and outputting an initialization start signal to the drive control circuit. The monitoring portion compares a synchronization code, an optical black pixel value and an effective pixel value of the image pickup signal with respective thresholds indicating a normal range and a stipulated number of times or a stipulated number of pieces, and in a case of detecting abnormality of one of the synchronization code, the optical black pixel value and the effective pixel value, outputs the initialization start signal to the drive control circuit, and the drive control circuit initializes the image pickup device in a case of receiving the initialization start signal the monitoring portion.

Abstract: An image pickup apparatus includes a head portion including an image pickup device, and a connector portion integrally connected with the head portion via a cable. The head portion includes: an electronic shutter register configured to store a set value for controlling an image pickup device, among control data transmitted from the connector portion; and a communication circuit configured to, based on information indicating whether or not to transmit the set value for controlling the image pickup device, among the control data transmitted from the connector portion, to a register provided in the image pickup device, perform control of whether or not to transmit the set value stored in the electronic shutter register to the register provided in the image pickup device.

Abstract: An endoscope system includes a head portion, a connector portion and a CCU. The head portion includes a test signal generating portion configured to generate a first test pattern signal. The connector portion includes: a test signal generating portion configured to generate a second test pattern signal which is a same pattern signal as the first test pattern; a first comparison circuit configured to output a comparison result of comparing the first test pattern signal with the second test pattern signal; and a test signal generating portion configured to generate a third test pattern signal. The CCU includes: a test signal generating portion configured to generate a fourth test pattern signal which is a same pattern signal as the third test pattern; and a second comparison circuit configured to output a comparison result of comparing the third test pattern signal with the fourth test pattern signal.

Abstract: An endoscope is an endoscope connectable to a processor provided with a high frequency component enhancement circuit configured to perform, for an image pickup signal having an attenuated high frequency component, enhancement correction of the high frequency component, the endoscope including: a CMOS image sensor provided with an image pickup portion configured to pick up an optical image of a subject and generate an analog image pickup signal and an A/D converting portion configured to convert the analog image pickup signal to a digital image pickup signal and output the digital image pickup signal; a cable for transmitting the digital image pickup signal; and a filter having frequency characteristics equalizing frequency characteristics of the high frequency component enhancement circuit.

Abstract: A power supply control circuit includes a drive voltage generation circuit configured to generate a plurality of drive voltages by using a plurality of power supply voltages that are supplied from outside, a sequencer configured to stop, when supply of the plurality of power supply voltages is stopped in a predetermined order, generation of the plurality of drive voltages according to priority ranks set in advance, and a power supply monitor circuit configured to perform, when supply of one power supply voltage, among the plurality of power supply voltages, is stopped in an order different from the predetermined order but supply of other power supply voltages is continued, an operation for simultaneously stopping generation of drive voltages that are set at higher priority ranks than a priority rank for stopping generation of a drive voltage that uses the one power supply voltage.

Abstract: An endoscope includes: a CMOS image sensor including only a vertical OB pixel region as an optical black pixel region, and a horizontal OB pixel region generation processing section that reads a photoelectric conversion signal generated in an effective pixel region in the CMOS image sensor and an OB signal generated in the vertical OB pixel region, adds the OB signal generated in the vertical OB pixel region to the beginning or end of each row of the photoelectric conversion signal which has been generated in the effective pixel region and read out for each row, and outputs a signal to which the OB signal is added.

Abstract: An endoscope apparatus includes image sensors, a power supply unit, a failure detection unit, and a controller. The power supply unit supplies power independently to the image sensors. The failure detection unit detects a failure in each of the image sensors. The controller controls the power supply unit to stop power supply to an image sensor in which a failure is detected at the failure detection unit.

Abstract: An endoscope includes: an image pickup device mounted in a distal end portion of an insertion portion; wiring that transmits a power supply having a plurality of different power supply voltages for driving the image pickup device, a drive signal that drives the image pickup device, an image pickup signal that is outputted from the image pickup device, and a ground level; a substrate on which a connector that relays the wiring is provided; a first voltage comparing portion that compares the plurality of different power supply voltages; a power supply generation portion that generates a plurality of second power supply voltages; a second voltage comparing portion that compares the plurality of second power supply voltages; and a power supply control portion that controls a supply of power to the image pickup device based on comparison results of the first and second voltage comparing portions.

Abstract: An imaging apparatus includes: a sensor unit having a light receiving unit provided with a plurality of pixels for photoelectrically converting received light to generate an electrical signal after photoelectric conversion, and capable of reading the electrical signal generated by the light receiving unit as image information; a control unit configured to control an output mode of the electrical signal on a pixel-by-pixel basis such that a pixel signal level generated by photoelectrically converting the light and a reset level of the pixels are alternately output, and configured to output the electrical signal corresponding to a specified display pattern; a signal processing unit configured to perform signal processing on the electrical signal output from the sensor unit; and a transmission unit configured to transmit a processed signal processed by the signal processing unit to outside.