JP2007088575A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a compact digital camera capable of transmitting and receiving data between a lens unit and a camera body speedily. <P>SOLUTION: The digital camera 10 comprises the camera body 11 and the lens unit 12 fitted to the camera body 11 detachably. When the lens unit 12 is fitted to the camera body 11, respective contacts PL1-PL24 of the lens unit 12 are connected to respective contacts PB1-PB24 of the camera body 11 electrically. A body control unit 60 controls a UART62b, allows a control signal for setting the type of a signal transmitted by each connection section to be transmitted and received between a UART47b and the UART62b, and allows the type of signals transmitted by each connection to be set. Further, a unit controller 40 and a body control unit 60 control each of serial drivers 47, 62, thus transmitting and receiving the signal via each connection section. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a digital camera in which a lens unit including a photographic lens and a solid-state image sensor is detachably attached to a camera body.

  In recent years, digital cameras that store image data captured by a solid-state imaging device such as a CCD image sensor in a recording medium such as a memory card are generally used. There is also known a digital camera in which an interchangeable lens is detachably attached to a camera body.

In the digital camera as described above, a mount portion on which the interchangeable lens is detachably mounted is provided in the camera body, and an opening for allowing subject light to enter the CCD image sensor is formed in the mount portion. Yes. For this reason, there is a problem that dust enters the camera body, and the dust adheres to the CCD image sensor and its peripheral parts, thereby degrading the image quality of the photographed image. In order to solve such a problem, there is known a digital camera in which a lens unit in which a CCD image sensor is integrally housed in an interchangeable lens is detachably attached to a camera body (see, for example, Patent Document 1). .
JP-A-8-172561

  In the digital camera described in Patent Document 1, it is necessary to transmit and receive data such as control signals and captured images between the lens unit and the camera body. For this reason, a plurality of contacts are provided on each of the lens unit and the camera body, and when the lens unit is mounted on the camera body, these are electrically connected to enable data transmission / reception. However, when data transmission / reception between the lens unit and the camera body is performed at high speed, it is necessary to increase the number of contacts, and there is a problem that the digital camera is enlarged and a manufacturing cost is increased. .

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a digital camera that can transmit and receive data between a lens unit and a camera body at high speed without increasing the size.

  In order to solve the above problems, in the digital camera of the present invention, when a lens unit having a photographing lens and a solid-state imaging device is detachably attached to a camera body, and the lens unit is attached to the camera body, A digital camera in which a unit side contact provided in the lens unit and a body side contact provided in the camera body are electrically connected, and a plurality of the unit side contact and the body side contact are connected. Setting means for setting the type of signal transmitted by each connection part among the connection parts, and transmission / reception of the signal set by the setting means between the lens unit and the camera body via each connection part Controlling the transmission / reception means, the setting means, and the transmission / reception means to switch the type of signal transmitted by each connection unit, and And it is characterized in that it comprises a control means for transmitting and receiving signals between's unit and said camera body.

  When performing still image shooting, the control unit controls the setting unit and the transmission / reception unit, and uses a connection unit that transmits a timing signal instructing the light emission timing of the strobe among the plurality of connection units. It is preferable that the image data captured by the solid-state image sensor is transmitted to the camera body.

  Further, when performing still image shooting, the control unit controls the setting unit and the transmission / reception unit, and among the plurality of connection units, the connection unit transmits a shutter signal from the camera body to the lens unit. After the shutter signal is transmitted, the image data picked up by the solid-state image sensor may be transmitted to the camera body via the connection unit.

  The camera body is provided with a moving image shooting button operated during moving image shooting and a shutter button operated during still image shooting, and the moving image shooting button is operated to perform moving image shooting. When the shutter button is operated during shooting, still image shooting is preferably performed.

  Further, when the moving image shooting button is operated, a signal instructing start and end of shooting by the transmission / reception means is a control signal between the lens unit and the camera body among the plurality of connection portions. When the shutter button is operated by being transmitted to the lens unit via a transmission connection unit, a shutter signal linked to the operation timing is transmitted via the shutter signal connection unit among the plurality of connection units. Is preferably transmitted to the lens unit.

  According to the digital camera of the present invention, the type of signal transmitted by each connection unit is switched, and signals are transmitted and received between the lens unit and the camera body, so one connection unit is used for transmission of a plurality of signals. Is possible. For this reason, it is possible to reduce the number of each of the unit side contact and the main body side contact, and it is possible to reduce the size of the digital camera and the manufacturing cost.

  Since the image data is transferred to the camera body using the connection unit that transmits the timing signal that indicates the light emission timing of the strobe, the number of contact points of the unit side contact and the body side contact can be reduced.

  Since the image data is transferred to the camera body using a connection unit that transmits a timing signal that indicates the light emission timing of the strobe, the number of contact points of the unit side contact and the body side contact can be reduced.

  Since the image data is transferred to the camera body using the connection unit that transmits the shutter signal from the camera body to the lens unit, the number of contact points of the unit side contact and the body side contact can be reduced.

  When moving image shooting is performed, still image shooting is possible by operating the shutter button, and still image shooting can be performed without missing a shutter chance even during moving image shooting.

  When the shutter button is operated, a shutter signal linked to the operation timing is transmitted to the lens unit via the shutter signal connecting portion, so that the shutter button is compared with the case where the shutter signal is transmitted as a control signal. The time lag occurring between the operation and the imaging process can be reduced.

  A digital camera 10 shown in FIG. 1 includes a camera body 11 and a lens unit 12, and the lens unit 12 is detachably attached to the camera body 11.

  A photographing lens 13 is exposed on the front surface of the lens unit 12, and a mount portion 14 is provided on the rear surface. The mount portion 14 includes three bayonet claws 15 that are arranged at equal intervals along the outer periphery. The lens unit 12 is provided with a CCD image sensor (hereinafter simply referred to as a CCD) 16 that is a solid-state imaging device that captures a subject image formed by the photographing lens 13.

  In addition, a mount portion 17 is provided on the front surface of the camera body 11. The mount portion 17 includes three bayonet grooves 18 that are arranged at equal intervals along the outer periphery. When the lens unit 12 is attached to the camera body 11, the lens unit 12 is attached to the camera body 11 by aligning and pushing the bayonet claw 15 into the bayonet groove 18 and rotating it clockwise. The lens unit 12 is an interchangeable lens unit. The lens unit 12 has different focal lengths of the photographing lens 13, those having different numbers of pixels of the CCD 16, those capable of monochrome photographing, infrared photographing. A plurality of types of lens units, such as those that can be used, are prepared.

  The mount portion 17 is provided with a lock pin 19. When the lens unit 12 is attached to the camera body 11, the lock pin 19 is a pin hole (not shown) formed in the mount portion 14. And the rotation of the lens unit 12 is locked. This prevents the lens unit 12 from rotating and falling off the camera body 11. Furthermore, the mount 17 is provided with a mount lid 20 that is spring-biased forward to prevent dust from entering the camera body 11 when the lens unit 12 is not attached.

  A lock release button 21 is provided in the vicinity of the mount portion 17. When the lock release button 21 is pressed while the lens unit 12 is mounted on the camera body 11, the lock pin 19 moves backward in conjunction with this operation, and the lock pin 19 and a pin hole (not shown). ) Is released. For this reason, the lens unit 12 can be detached from the camera body 11 by rotating the lens unit 12 while pressing the lock release button 21.

  Further, a strobe 24 is provided at the upper front of the camera body 11. Further, on the upper surface of the camera body 11, a shutter button 25 that is pressed during still image shooting, a moving image shooting button 26 that is operated during moving image shooting, and a switching dial that is rotated when switching between the shooting mode and the playback mode. 27 and a power operation button 28 are provided. Further, an LCD 71 (see FIG. 4) described later is provided on the back surface (not shown).

  As shown in FIG. 2, a mount contact 30 that is a unit side contact is provided on the back surface of the bayonet claw 15 described above. The mount contacts 30 are composed of 24 contacts PL1 to PL24, and eight are provided on each bayonet claw 15.

  Further, as shown in FIG. 3, the mount portion 17 is provided with a mount contact 31 which is a main body side contact. The mount contact 31 is composed of 24 contacts PB1 to PB24, similar to the mount contact 30 described above. Each contact PB1 to PB24 is connected to the contact PL1 described above when the lens unit 12 is mounted on the camera body 11. It is arrange | positioned in the position connected with each of -PL24.

  Next, the electrical configuration of the lens unit 12 will be described. As shown in FIG. 4, the lens unit 12 is provided with a unit controller 40 that controls each part in the unit. The unit control unit 40 includes a ROM 40a in which a control program for controlling each unit is stored, and a RAM 40b in which work data is temporarily stored. The unit control unit 40 controls each unit based on this control program.

  A CCD 16 is connected to the unit controller 40 via a CCD driver 41. The unit controller 40 controls the CCD driver 41 to drive the CCD 16. The CCD 16 converts the subject image formed by the photographing lens 13 into an electrical signal by photoelectric conversion, and outputs an imaging signal.

  The CCD 16 is connected to an analog signal processing unit 42, and an imaging signal is output to the analog signal processing unit 42. The analog signal processing unit 42 is connected to the unit control unit 40 via the data bus 43 and is controlled by the unit control unit 40. The analog signal processing unit 42 performs noise removal and amplification processing on the imaging signal and outputs the processed signal to the A / D converter 44. Thereafter, the image signal from which noise has been removed and amplified is converted from an analog signal to a digital signal by the A / D converter 44 and output as image data.

  An AE / AF detector 45 is connected to the A / D converter 44, and image data is input. The AE / AF detection unit 45 is controlled by the unit control unit 40, detects an AE detection value at which the exposure is optimal, and outputs the AE detection value. Further, the AE / AF detection unit 45 integrates the high-frequency component of the image data and outputs an AF detection value that maximizes this integration value.

  The AE / AF detection unit 45 is connected to the unit control unit 40 via the data bus 43, and the above-described AE detection value and AF detection value are output to the unit control unit 40. The unit control unit 40 controls the electronic shutter speed of the CCD 16 based on the AE detection value, and further moves the focus lens of the photographing lens 13 to the in-focus position based on the AF detection value.

  A YC converter 46 is connected to the A / D converter 44. The YC conversion unit 46 performs YC conversion processing on the image data acquired from the A / D converter 44. In addition to the unit controller 40, the analog signal processor 42, the AE / AF detector 45, and the YC converter 46, a serial driver 47 is connected to the data bus 43.

  The serial driver 47 is connected to the mount contact 30 and is a transmission / reception unit that transmits / receives image data, control signals, and the like to / from the camera body 11. The serial driver 47 converts the image data subjected to YC conversion processing and the control signal into a serial signal and transmits the serial signal to the camera body 11 via the mount contact 30. When a control signal is received, the serial signal is converted into a parallel signal. Further, when a direct signal such as a shutter signal or a strobe light emission timing signal is transmitted / received, the conversion processing as described above is not performed.

  In addition, a power control unit 48 is connected to the mount contact 30. A battery 49 and a DC / DC converter 50 are connected to the power control unit 48, and the battery 49 is further connected to the DC / DC converter 50. The power control unit 48 controls the DC / DC converter 50 to step down the voltage supplied from the battery 49 to a predetermined voltage and supply power to each part in the lens unit 12. The DC / DC converter 50 is connected to the mount contact 30.

  Next, the electrical configuration of the camera body 11 will be described. The camera body 11 is provided with a body control unit 60 that controls each part in the body. The main body control unit 60 includes a ROM 60a in which a control program for controlling each unit is stored, and a RAM 60b in which work data is temporarily stored. The main body control unit 60 controls each unit based on this control program.

  The main body control unit 60 is connected to the serial driver 62, the memory 63, the digital signal processing unit 64, the LCD driver 65, the compression / decompression processing unit 66, the media controller 67, the strobe control unit 68, and the I / O via the data bus 61. Port 69 is connected.

  The serial driver 62 is connected to the mount contact 31 and is a transmission / reception unit that transmits / receives image data, control signals, and the like to / from the lens unit 12. When the serial driver 62 receives image data or a control signal from the lens unit 12, the serial driver 62 converts the serial signal into a parallel signal. When transmitting a control signal to the lens unit 12, the parallel signal is converted into a serial signal and transmitted. Further, when a direct signal such as a shutter signal or a strobe light emission timing signal is transmitted / received, the conversion processing as described above is not performed.

  Image data received by the serial driver 62 is temporarily stored in the memory 63. Note that the image data is low-resolution through image data or high-resolution recording image data. The digital signal processing unit 64 performs various image processing such as gradation conversion and white balance correction on the image data.

  When the shooting mode is set, the image data subjected to image processing by the digital signal processing unit 64 is input to the LCD driver 65. The main body control unit 60 controls the LCD driver 65 to display the image data on the LCD 71 as a through image.

  When the still image shooting process is performed, the image data subjected to the image processing by the digital signal processing unit 64 is compressed by the compression / decompression processing unit 66 in a compression format such as the JPEG method. Thereafter, the compressed image data is recorded on the recording medium 72 by the media controller 67. In addition, when performing moving image shooting processing, the compression / decompression processing unit 66 performs compression processing in a compression format such as the MPEG method, and the moving image data is recorded on the recording medium 72.

  The strobe control unit 68 controls the strobe light emitting unit 24 to emit strobe light. The I / O port 69 transmits and receives signals to and from the lens unit 12 via the mount contact 31. A battery 75 and a DC / DC converter 76 are connected to the power supply control unit 70, and the battery 75 and the DC / DC converter 76 are also connected.

  In addition, a power source SW 77 is connected to the power source control unit 70. The power SW 77 is turned on / off by the operation of the power button, and outputs an ON signal and an OFF signal to the power controller 70. When the power supply control unit 70 acquires the ON signal from the power supply SW 77, the power supply control unit 70 controls the DC / DC converter 76 to step down the supply voltage of the battery 75 to a predetermined voltage and supply it to each unit in the main body. The battery 75 is connected to the mount contact 31 so that power can be supplied to the lens unit 12 side.

  Further, switches S1 to S3 are connected to the main body control unit 60. The switch S1 is a switch that is turned on when the shutter button 25 is half-pressed, and the switch S2 is a switch that is turned on when the shutter button 25 is fully pressed. The switch S3 is a switch that is turned ON / OFF by the operation of the moving image shooting button 26. The main body control unit 60 acquires operation signals from these switches S1 to S3 and executes processing corresponding to each operation signal.

  Hereinafter, transmission / reception of data between the camera body 11 and the lens unit 12 will be described. As shown in FIG. 5, the serial driver 47 is connected to the contacts PL <b> 1 to PL <b> 21, and performs transmission / reception with the camera body 11 via each contact. The serial driver 47 includes an LVDS (Low Voltage Differential Signaling) circuit 47a and a UART (Universal Asynchronous Receiver Transmitter) 47b.

  The LVDS circuit 47 a is a circuit that serially transfers data by a low-amplitude differential method using a potential difference between both ends of a resistor, and transfers image data to the camera body 11. The UART 47b is a circuit that converts a parallel signal into a serial signal and transmits the signal, or converts a received serial signal into a parallel signal, and is used for transmission and reception of control signals.

  The serial driver 62 is connected to the contacts PB1 to PB21, and performs transmission / reception with the lens unit 12 via each contact. Similar to the serial driver 47, the serial driver 62 also includes an LVDS circuit 62a and a UART 62b. The LVDS circuit 62a receives the image data transmitted from the LVDS 47a.

  The contacts PB1 to PB24 on the camera body 11 side are connected to the contacts PL1 to PL24 on the lens unit 12 side when the lens unit 12 is mounted on the camera body 11. For example, the contact PL1 is connected to the contact PB1, and the contact PL24 is connected to the contact PB24.

  The battery 75 on the camera body 11 side is connected to the contact PB22, and the DC / DC 50 on the lens unit 12 side is connected to the contact PL22. For this reason, when the lens unit 12 is attached to the camera body 11, the DC / DC 50 is connected to the battery 75 via the contacts PL22 and PB22. For this reason, it is possible to supply power from the battery 75 to the DC / DC 50, and the lens unit 12 is driven by the battery 75 even when the battery 49 is not set in the lens unit 12 or when there is no remaining battery 49. It is possible to drive the side.

  The I / O port 70 on the camera body 11 side is connected to the contact PB23 and the contact PB24, and a pull-up resistor 80 is connected to the contact PB24. The power control unit 48 on the lens unit 12 side is connected to the contact PL23, and the contact PL24 is grounded.

  When the lens unit 12 is not attached to the camera body 11, the potential of the contact PB 24 is boosted to, for example, about 5 V by the pull-up resistor 80, and a Hi signal is input to the I / O port 70. Further, when the lens unit 12 is mounted on the camera body 11, the contact PB24 is connected to the contact PL24. Since the contact PL24 is grounded, the potential of the contact PB24 becomes 0V, and a Low signal is input to the I / O port 70.

  The main body control unit 60 detects the mounting of the lens unit 12 based on a signal input to the I / O port 70. That is, the main body control unit 60 detects the mounting of the lens unit 12 when a Low signal is input to the I / O port 70.

  The main body control unit 60 outputs a power control signal to the power control unit 48 on the lens unit 12 side via the I / O port 70 when the power button 28 is operated and power is supplied from the battery 75. To do. When the power control unit 48 acquires the power control signal, the power control unit 48 starts power supply to each unit, and the lens unit 12 is turned on.

  The serial drivers 47 and 62 drive the LVDS circuits 47 a and 62 a to transmit image data from the lens unit 12 to the camera body 11. The serial drivers 47 and 62 drive the UARTs 47 b and 62 b to transmit and receive control signals between the lens unit 12 and the camera body 11 and to transmit status information from the lens unit 12 to the camera body 11. . The UARTs 47b and 62b are setting means for setting the type of signal transmitted by each connection part among the plurality of connection parts to which the contact points PL1 to PL24 and the contact points PB1 to PB24 are connected. The UARTs 47b and 62b are The control signal for setting the type of signal transmitted by each connection unit is transmitted and received.

  The serial drivers 47 and 62 transmit a light emission timing signal for instructing the light emission timing of the strobe 24 from the lens unit 12 to the camera body 11, and send a shutter signal linked to the operation timing of the shutter button 25 from the camera body 11 to the lens. Or transmitted to the unit 12. The light emission timing signal is a signal transmitted from the lens unit 12 to the camera body 11 in order to synchronize the imaging processing by the CCD 16 and the light emission of the strobe 24. The shutter signal includes a shutter signal (S1) when the shutter button 25 is half-pressed and a shutter signal (S2) when the shutter button 25 is fully pressed.

  Further, the main body control unit 60 controls the UART 62b based on the control program, and transmits / receives a control signal for setting the type of signal transmitted by each connection unit between the UARTs 47b and 62b. To set the type of signal transmitted. Thereafter, the unit control unit 40 and the main body control unit 60 control the serial drivers 47 and 62 so that the set signals are transmitted and received by each connection unit.

  Next, still image shooting processing of the digital camera 10 having the above-described configuration will be described with reference to the flowchart of FIG. The power button 28 is operated to turn on the digital camera 10. At this time, the contacts PL19 and PB19, which are strobe ports, are set to Hi impedance. In this way, erroneous transmission of signals is prevented by setting the contacts PL19 and PB19 to high impedance.

  Thereafter, the main body control unit 60 determines whether or not the shooting mode is set. If it is determined that the shooting mode is not set, the still image shooting process is terminated. When it is determined that the photographing mode is set, a control signal is transmitted / received between the UARTs 47b and 62b via the contacts PL13 and PB13 and the contacts PL14 and PL14, and the contacts PL19 and PB19 are set as strobe output ports. The

  The main body control unit 60 determines whether or not the shutter button 25 is half-pressed and the switch S1 is turned on. When it is determined that the switch S1 is not turned on, the standby state is maintained until the switch S1 is turned on.

  When it is determined that the switch S1 is turned on, the main body control unit 60 transmits a shutter signal (S1) to the lens unit 12 side. After acquiring the shutter signal (S1), the lens unit 12 performs photographing preparation processing such as AE processing and AF processing.

  Thereafter, the main body control unit 60 determines whether or not the shutter button 25 is fully pressed and the switch S2 is turned on. When it is determined that the switch S2 is not turned on, the standby state is maintained until the switch S2 is turned on.

  When it is determined that the switch S2 is turned on, the main body control unit 60 acquires the AE detection value from the lens unit 12 and determines whether or not strobe light emission is necessary. When it is determined that the strobe light emission is necessary, a strobe light emission timing signal is transmitted from the lens unit 12 to the camera body 11 via the contacts PL19 and PB19 when the lens unit 12 performs imaging. This timing signal is directly transmitted to the unit controller 40 without being controlled by the UARTs 47b and 62b. The strobe control unit 68 controls the strobe 24 to emit light based on this timing signal.

  If it is determined that the strobe light emission is not necessary, the strobe light emission timing signal is not transmitted, so that the image pickup process is performed without causing the strobe 24 to emit light.

  The imaging signal output from the CCD 16 is subjected to various processes by the analog signal processing unit 42 and the A / D conversion unit 44 and is output to the YC conversion unit 46 as image data. The YC conversion unit 46 performs YC conversion processing on the image data. Thereafter, control signals are transmitted and received between the UARTs 47b and 62b via the contacts PL13 and PB13 and the contacts PL14 and PL14, and the contacts PL19 and PB19 are set as image data transfer ports (data buses).

  This image data is converted into a serial signal by the LVDS circuit 47a and transferred from the lens unit 12 to the camera body 11 side. The LVDS 62a receives the image data and converts the image data of the serial signal into a parallel signal.

  The main body control unit 60 controls the digital signal processing unit 64 to perform various types of image processing on the image data received from the lens unit 12, and then controls the compression / decompression processing unit 66 to compress the image data. Thereafter, the main body control unit 60 controls the media controller 67 to record the image data on the recording medium 72, and the still image shooting process is completed.

  In this way, the number of contacts can be reduced by switching the contacts PL19 and PB19 to the strobe output port or the image data transfer port (data bus).

  In the above description of the still image shooting process, the case where the connection portion of the contacts PL19 and PB19 is switched between the strobe output port and the image data transfer port (data bus) has been described as an example. Will be described with reference to the flowchart of FIG. 7 in the case of switching between the shutter port and the image data transfer port (data bus).

  When the power button 28 is operated and the power of the digital camera 10 is turned on, the main body control unit 60 determines whether or not the photographing mode is set. If it is determined that the shooting mode is not set, the still image shooting process is terminated.

  When it is determined that the photographing mode is set, a control signal is transmitted and received between the UARTs 47b and 62b via the contacts PL13 and PB13 and the contacts PL14 and PB14, and the contacts PL20 and PB20 are outputs for the shutter signal (S1). The ports and contacts PL21 and PB21 are set as output ports for the shutter signal (S2).

  The main body control unit 60 determines whether or not the shutter button 25 is half-pressed and the switch S1 is turned on. When it is determined that the switch S1 is not turned on, the standby state is maintained until the switch S1 is turned on.

  When it is determined that the switch S1 is turned on, the main body control unit 60 transmits a shutter signal (S1) to the lens unit 12 side via the contacts PB20 and PL20. The shutter signal (S1) is directly transmitted to the unit controller 40 without being controlled by the UARTs 47b and 62b.

  When the unit control unit 40 acquires the shutter signal (S1), the unit control unit 40 controls each unit to perform shooting preparation processing such as AE processing and AF processing. Thereafter, the main body control unit 60 determines whether or not the shutter button 25 is fully pressed and the switch S2 is turned on. When it is determined that the switch S2 is not turned on, the standby state is maintained until the switch S2 is turned on.

  When it is determined that the switch S2 is turned on, the main body control unit 60 transmits this shutter signal (S2) to the lens unit 12 side via the contacts PB21 and PL21. The shutter signal (S2) is directly transmitted to the unit control unit 40 without being controlled by the UARTs 47b and 62b, and the unit control unit 40 controls each unit and executes an imaging process.

  The imaging signal output from the CCD 16 is subjected to various processes by the analog signal processing unit 42 and the A / D conversion unit 44 and is output to the YC conversion unit 46 as image data. The YC conversion unit 46 performs YC conversion processing on the image data. Thereafter, control signals are transmitted and received between the UARTs 47b and 62b via the contacts PL13 and PB13 and the contacts PL14 and PL14. The contacts PL20 and PB20 and the contacts PL21 and PB21 are image data transfer ports (data buses). Set to

  This image data is converted into a serial signal by the LVDS circuit 47a and transferred from the lens unit 12 to the camera body 11 side. The LVDS 62a receives the image data and converts the image data of the serial signal into a parallel signal.

  The main body control unit 60 controls the digital signal processing unit 64 to perform various types of image processing on the image data received from the lens unit 12, and then controls the compression / decompression processing unit to compress the image data. Thereafter, the main body control unit 60 controls the media controller 67 to record the image data on the recording medium 72, and the still image shooting process ends.

  Next, a process for performing still image shooting during moving image shooting with the digital camera 10 will be described with reference to a flowchart of FIG. When the power button 28 is operated and the power of the digital camera 10 is turned on, the main body control unit 60 determines whether or not the photographing mode is set. If it is determined that the shooting mode is not set, the moving image shooting process is terminated.

  When it is determined that the shooting mode is set, a control signal is transmitted and received between the UARTs 47b and 62b via the contacts PL13 and PB13 and the contacts PL14 and PB14, and the contacts PL1 to PL4 and PB1 to PB4 are photographed. Set to the port for transferring the received image data. Thereafter, the main body control unit 60 determines whether or not the switch S3 is turned on. If it is determined that the switch S3 is not turned on, the moving image shooting process is terminated.

  If it is determined that the switch S3 is turned on, a moving image shooting start signal is transmitted as a control signal to the lens unit 12 side via the contacts PB13 and PL13 by the UARTs 47b and 62b. When the unit control unit 40 acquires the start signal via the UART 47b, the unit control unit 40 controls each unit to execute imaging processing at a predetermined interval, and the image data captured via the contacts PL1 to PL4 and PB1 to PB4 is converted to LVDS. The circuits 47a and 62a sequentially transfer to the camera body 11 side.

  During the transfer of the image data, control signals are transmitted and received between the UARTs 47b and 62b via the contacts PL13 and PB13 and the contacts PL14 and PB14, and the contacts PL21 and PB21 are set as the output port for the shutter signal (S2). The

  The main body control unit 60 determines whether or not the switch S2 is turned on. When it is determined that the switch S2 is not turned on, the process proceeds to a process of determining whether the switch S3 is turned off.

  When it is determined that the switch S2 is turned on, the main body control unit 60 transmits this shutter signal (S2) to the lens unit 12 side via the contacts PB21 and PL21. The shutter signal (S2) is not directly controlled by the UARTs 47b and 62b, but is directly transmitted to the unit controller 40, and each part is controlled to perform still image capturing processing. At this time, still image shooting processing is performed using the set values of AE, AF, and AWB for moving image shooting.

  The imaging signal output from the CCD 16 is subjected to various processes by the analog signal processing unit 42 and the A / D conversion unit 44 and is output to the YC conversion unit 46 as image data. The YC conversion unit 46 performs YC conversion processing on the image data. Thereafter, control signals are transmitted and received between the UARTs 47b and 62b via the contacts PL13 and PB13 and the contacts PL14 and PL14, and the contacts PL21 and PB21 are set as image data transfer ports (data buses).

  This image data is converted into a serial signal by the LVDS circuit 47a and transferred from the lens unit 12 to the camera body 11 side. The LVDS 62a receives the image data and converts the image data of the serial signal into a parallel signal.

  The main body control unit 60 controls the digital signal processing unit 64 to perform various types of image processing on the image data received from the lens unit 12, and then controls the compression / decompression processing unit 66 to compress the image data. At this time, the image data of the still image is compressed by the JPEG method, and the moving image data is compressed by the MPEG method. Thereafter, the main body control unit 60 controls the media controller 67 to record the compressed still image data and the compressed moving image data on the recording medium 72.

  Thereafter, the main body control unit 60 determines whether or not the switch S3 is turned off. When it is determined that the switch S3 is not turned off, the moving image shooting is repeated. If it is determined that the switch S3 is turned off, the moving image shooting process is terminated.

  As described above, the strobe light emission timing signal and shutter signal are not controlled by the UARTs 47b and 62b, but are transmitted as direct signals to the unit control unit 40, so that rapid processing can be performed without causing a time lag. it can.

  In the above embodiment, the case where the connection unit that transmits the timing signal for the strobe and the connection unit that transmits the shutter signal are used for the transfer of the image data is described as an example. These connection portions may be used for transmission / reception of a plurality of types of signals.

  In the above embodiment, the case where the image data subjected to the YC conversion process is transferred from the lens unit to the camera body is described as an example. However, the present invention is not limited to this, and the image data after A / D conversion is transferred. Alternatively, the compressed image data may be transferred.

  Furthermore, in the above-described embodiment, the case where a CCD image sensor is used as the solid-state imaging device has been described as an example. However, the present invention is not limited to this, and a CMOS image sensor may be used.

  In the above embodiment, the case where the present invention is applied to a digital camera has been described as an example. However, the present invention is not limited to this. For example, the present invention is applied to a digital video camera in which a lens unit is detachably attached to a camera body. May be applied.

It is a perspective view which shows the structure of a digital camera. It is a top view which shows the structure of the back side of a lens unit. It is a top view which shows the structure of the mount part of a camera main body. It is a block diagram which shows the electric constitution of a digital camera. It is a block diagram which shows transmission / reception of the signal between a lens unit and a camera main body. 10 is a flowchart illustrating still image shooting processing when a connection unit that transmits a strobe light emission timing signal is used for transferring image data. 10 is a flowchart illustrating still image shooting processing when a connection unit that transmits a shutter signal is used to transfer image data. 10 is a flowchart for describing shooting processing when shooting a still image during moving image shooting.

Explanation of symbols

10 Digital Camera 11 Camera Body 12 Lens Unit 13 Shooting Lens 16 CCD
25 Shutter button 26 Movie shooting button 30, 31 Mount contact 40 Unit controller 47, 62 Serial driver 47a, 62a LVDS
47b, 62b UART
60 Main body control part PL1-PL24 contact PB1-PB24 contact

Claims (5)

A lens unit having a photographic lens and a solid-state imaging device is detachably attached to the camera body, and when the lens unit is attached to the camera body, a unit-side contact provided in the lens unit and a camera body In the digital camera that is electrically connected to the provided body side contact,
Setting means for setting the type of signal transmitted by each connecting portion among the plurality of connecting portions connected to the unit side contact and the main body side contact;
Transmission / reception means for transmitting / receiving a signal set by the setting means between the lens unit and the camera body via each connection unit;
Control means for controlling the setting means and the transmission / reception means to switch the type of signal transmitted by the respective connecting portions and transmitting / receiving signals between the lens unit and the camera body. A digital camera characterized by   When performing still image shooting, the control unit controls the setting unit and the transmission / reception unit, and uses a connection unit that transmits a timing signal indicating the light emission timing of the strobe among the plurality of connection units, The digital camera according to claim 1, wherein the image data captured by the solid-state image sensor is transmitted to the camera body.   When performing still image shooting, the control unit controls the setting unit and the transmission / reception unit, and among the plurality of connection units, the shutter signal is transmitted by a connection unit that transmits a shutter signal from the camera body to the lens unit. The digital camera according to claim 1, wherein after the image is transmitted, the image data captured by the solid-state image sensor is transmitted to the camera body via the connection unit.   The camera body is provided with a moving image shooting button operated during moving image shooting, and the shutter button operated during still image shooting, and when the moving image shooting button is operated and moving image shooting is performed. 4. The digital camera according to claim 1, wherein still image shooting is performed when the shutter button is operated. When the moving image shooting button is operated, a signal instructing the start and end of shooting is transmitted by the transmission / reception means between the lens unit and the camera body among the plurality of connection portions. When the shutter button is operated by being transmitted to the lens unit via a connection unit, a shutter signal linked to the operation timing is transmitted through the shutter signal connection unit among the plurality of connection units. The digital camera according to claim 4, wherein the digital camera is transmitted to the lens unit.

Images