JP6455625B1 - accessory - Google Patents

Abstract

An accessory capable of performing stable communication with a camera body is provided.
An accessory that is detachable from a camera body and includes a plurality of terminals is provided with a detection terminal for causing the camera body to detect attachment of the accessory, and a first power supply voltage supplied from the camera body. 1 power supply terminal, a first ground terminal used as a ground potential of the first power supply terminal, a second power supply terminal supplied with a second power supply voltage from the camera body, and used as a ground potential of the second power supply terminal A second ground terminal, a ready terminal used to indicate whether communication with the camera body is possible, a first data terminal to which a first data signal is input from the camera body, and second data to the camera body. A second data terminal for outputting a signal, a clock terminal for outputting a clock signal to the camera body, and the camera terminal in synchronization with the clock signal. And a third data terminal for outputting a third data signal to the first power terminal, the first ground terminal, the second power terminal, and the second ground terminal which are power system terminals, The first data terminal, the second data terminal, the clock terminal, and the third data terminal, which are system terminals, are arranged with the ready terminal interposed therebetween.
[Selection] Figure 6

Description

  The present invention relates to accessories.

  An accessory that can be attached to and detached from the camera body is known (for example, Patent Document 1). Conventionally, it has been necessary to attach accessories to the camera body in a properly usable state.

JP 2004-117380 A

  The accessory according to the first aspect of the present invention is an accessory that is detachable from the camera body and includes a plurality of terminals, the detection terminal for causing the camera body to detect the attachment of the accessory, and the camera body. A first power supply terminal to which a first power supply voltage is supplied; a first ground terminal used as a ground potential of the first power supply terminal; a second power supply terminal to which a second power supply voltage is supplied from the camera body; A second ground terminal used as the ground potential of the second power supply terminal, a ready terminal used to indicate whether communication with the camera body is possible, and a first data terminal to which a first data signal is input from the camera body A second data terminal that outputs a second data signal to the camera body, a clock terminal that outputs a clock signal to the camera body, and the clock A third data terminal for outputting a third data signal to the camera body in synchronization with a signal, and the first power terminal, the first ground terminal, the second power terminal, which are power system terminals, The second ground terminal and the first data terminal, the second data terminal, the clock terminal, and the third data terminal, which are communication terminals, are arranged with the ready terminal interposed therebetween.

Diagram showing the configuration of the camera system 1 is a circuit diagram schematically showing electrical connection between a camera body and an interchangeable lens according to a first embodiment. Timing chart showing an example of command data communication Timing chart showing an example of hotline communication Front view schematically showing the mounting surface of the camera body viewed from the interchangeable lens side Front view schematically showing the mount surface of the interchangeable lens viewed from the camera body side A circuit diagram showing typically electrical connection between a camera body and an interchangeable lens according to a second embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 3rd Embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 4th Embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 5th Embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 6th Embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 7th Embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 8th Embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 9th Embodiment The circuit diagram which shows typically the electrical connection between the camera body and interchangeable lens which concern on 10th Embodiment

(First embodiment)
FIG. 1 is a diagram showing an outline of the configuration of a camera system 1 according to the first embodiment. The camera system 1 includes a camera body 2 and an interchangeable lens 3 as an example of an accessory that can be attached to and detached from the camera body 2.

  The interchangeable lens 3 includes a lens side mount 31, a lens side terminal holding unit 32, a lens side control unit 33 having a lens side communication unit 34, a lens side storage unit 35, an imaging optical system 36, and a drive unit 37. The lens side mount 31 and the lens side terminal holding part 32 will be described in detail later.

  The lens side control unit 33 includes a microcomputer and its peripheral circuits. The lens side communication unit 34 performs data communication described later with the camera body 2. The lens side communication unit 34 is connected to a lens side terminal group (described later) provided in the lens side terminal holding unit 32. The lens side storage unit 35 is a nonvolatile storage medium. The lens side storage unit 35 is connected to the lens side control unit 33. The lens-side storage unit 35 stores a predetermined control program executed by the lens-side control unit 33 in advance. The lens side control unit 33 controls the interchangeable lens 3 by reading a control program from the lens side storage unit 35 and executing the program.

  The imaging optical system 36 forms a subject image on an imaging surface of an imaging element 27 described later. The optical axis O of the imaging optical system 36 substantially coincides with the center position of the lens side mount 31 and a body side mount 21 described later. The imaging optical system 36 in FIG. 1 schematically includes a lens 36a, a focus lens 36b, and a lens 36c. The focus lens 36b is a lens that adjusts the imaging position of the subject image. The drive unit 37 is connected to the lens side control unit 33 and includes an actuator (not shown) and the like. The drive unit 37 drives the focus lens 36b in the optical axis direction (+ Z direction, −Z direction) by this actuator or the like.

  The camera body 2 includes a body-side mount 21, a body-side terminal holding unit 22, a body-side control unit 23 having a body-side communication unit 24, a body-side storage unit 25, a power feeding unit 26, an image sensor 27, and a lock pin described later. It has a switch 28 for detecting the state.

  The body side control unit 23 includes a microcomputer and its peripheral circuits. The body-side control unit 23 performs various controls of the body, but only the part related to communication is described in this case, and the other functions are omitted. The body side communication unit 24 performs data communication described later with the interchangeable lens 3. The body side communication unit 24 is connected to a body side terminal (described later) provided in the body side terminal holding unit 22. In addition, some terminals of the body side terminal holding part 22 are connected to the body side control part 23 so that it may mention later. The body side storage unit 25 is a nonvolatile storage medium. The body side storage unit 25 is connected to the body side control unit 23. The body-side storage unit 25 stores a predetermined control program executed by the body-side control unit 23 in advance. The body-side control unit 23 controls the camera body 2 by reading a control program from the body-side storage unit 25 and executing the program.

  The power feeding unit 26 has a power source, and supplies power to the camera body 2 and the interchangeable lens 3. The power feeding unit 26 is connected to a body side terminal group (described later) provided in the body side terminal holding unit 22 and the body side control unit 23. The image sensor 27 is a solid-state image sensor such as a CCD or CMOS. The image sensor 27 is connected to the body-side control unit 23, images a subject, and outputs an image signal. Description of the processing of the output imaging signal is omitted.

  FIG. 2 is a circuit diagram schematically showing an electrical connection between the camera body 2 and the interchangeable lens 3. The body side terminal holding unit 22 includes an LDET (B) terminal, a VBAT (B) terminal, a PGND (B) terminal, a V33 (B) terminal, a GND (B) terminal, an RDY (B) terminal, a DATAB (B) terminal, It has a CLK (B) terminal, a DATAL (B) terminal, an HCLK (B) terminal, and an HDATA (B) terminal. These 11 body-side terminals are collectively referred to as a body-side terminal group.

  The LDET (B) terminal is a terminal used for detection of attachment / detachment of the interchangeable lens 3. The LDET (B) terminal is connected to the body side control unit 23 via the resistor R2. A power supply V33 supplied from the power supply unit 26 is connected between the resistor R2 and the body side control unit 23 via the resistor R1, and the LDET (B) terminal is pulled up.

  The VBAT (B) terminal, the PGND (B) terminal, the V33 (B) terminal, and the GND (B) terminal are terminals of the power supply system connected to the power supply unit 26. In FIG. 2, the direction of supplied power is indicated by an arrow. The VBAT (B) terminal is a terminal used for supplying power to the interchangeable lens 3. The drive unit 37 of the interchangeable lens 3 is driven by the power supplied via the VBAT (B) terminal. The operation of the drive unit 37 requires a larger voltage and a larger current than the lens-side control unit 33, and the power supply voltage applied to the VBAT (B) terminal by the power feeding unit 26 is about 10 V at the maximum. In the following description, the voltage applied to the VBAT (B) terminal by the power feeding unit 26 is referred to as a drive system voltage. That is, the camera body 2 supplies the drive system power supply voltage from the VBAT (B) terminal to the interchangeable lens 3. The PGND (B) terminal is a ground terminal corresponding to the VBAT (B) terminal, and is used as a ground potential (ground) of the power supply voltage of the drive system.

  The V33 (B) terminal is a terminal used for power supply to the interchangeable lens 3. The lens-side control unit 33 and the like are operated by the power supplied from the power supply unit 26 via the V33 (B) terminal. Each unit such as the lens-side control unit 33 operates with a smaller voltage and a smaller current than the drive unit 37. The voltage applied to the V33 (B) terminal by the power feeding unit 26 is about 3.3 V at the maximum. In the following description, the voltage applied to the V33 (B) terminal by the power feeding unit 26 is referred to as a circuit system voltage. That is, the camera body 2 supplies the power supply voltage of the circuit system from the V33 (B) terminal to the interchangeable lens 3. The GND (B) terminal is a ground terminal corresponding to the V33 (B) terminal, and is used as a ground potential (ground) of the power supply voltage of the circuit system.

  The RDY (B) terminal is connected to the body side communication unit 24. The DATAB (B) terminal, the CLK (B) terminal, the DATAL (B) terminal, the HCLK (B) terminal, and the HDATA (B) terminal are communication terminals connected to the body side communication unit 24. The RDY (B) terminal, DATAB (B) terminal, CLK (B) terminal, and DATAL (B) terminal are used for command data communication to be described later. Further, the HCLK (B) terminal and the HDATA (B) terminal are connected to the body side communication unit 24 and used for hot line communication described later. In FIG. 2, the signal flow is indicated by arrows. The potential of the RDY (B) terminal indicates whether the interchangeable lens 3 can perform command data communication. The DATAB (B) terminal is a terminal from which a data signal is output toward the interchangeable lens 3. The CLK (B) terminal is a terminal from which a clock signal (C clock signal) is output from the camera body 2 toward the interchangeable lens 3.

  The DATAL (B) terminal is a terminal to which a data signal from the interchangeable lens 3 is input.

  The HCLK (B) terminal is a terminal to which a clock signal (H clock signal) from the interchangeable lens 3 is input. The HDATA (B) terminal is a terminal to which a data signal from the interchangeable lens 3 is input.

  The lens side terminal holding unit 32 includes an LDET (L) terminal, a VBAT (L) terminal, a PGND (L) terminal, a V33 (L) terminal, a GND (L) terminal, an RDY (L) terminal, a DATAB (L) terminal, It has a CLK (L) terminal, a DATAL (L) terminal, an HCLK (L) terminal, and an HDATA (L) terminal. These 11 lens side terminals are collectively referred to as a lens side terminal group. When the interchangeable lens 3 is attached to the camera body 2, the body side terminal and the lens side terminal are electrically connected as shown by a broken line in FIG. Specifically, the LDET (B) terminal is connected to the LDET (L) terminal, the VBAT (B) terminal is connected to the VBAT (L) terminal, and the PGND (B) terminal is connected to the PGND (L) terminal. The V33 (L) terminal is connected to the V33 (B) terminal, the GND (L) terminal is connected to the GND (B) terminal, and the RDY (L) terminal is connected to the RDY (B) terminal. , DATAB (B) terminal is connected to DATAB (L) terminal, CLK (B) terminal is connected to CLK (L) terminal, DATAL (B) terminal is connected to DATAL (L) terminal, HCLK The HCLK (L) terminal is connected to the (B) terminal, and the HDATA (L) terminal is connected to the HDATA (B) terminal. Signals input to or output from the individual lens side terminals correspond to the body side terminals that are in contact with each other.

  The LDET (L) terminal is a terminal used for detecting attachment / detachment of the interchangeable lens 3. The LDET (L) terminal is connected to the ground (GND) via the resistor R3. When the interchangeable lens 3 is attached to the camera body 2, the LDET (L) terminal and the LDET (B) terminal are electrically connected, and the LDET (B) terminal is pulled down. Thereby, the camera body 2 can detect that the interchangeable lens 3 is attached.

  The VBAT (L) terminal, PGND (L) terminal, V33 (L) terminal, and GND (L) terminal are respectively connected to the VBAT (B) terminal, the PGND (B) terminal, the V33 (B) terminal, and the GND (B) terminal. It is a terminal of the power supply system that is electrically connected. In FIG. 2, the direction of supplied power is indicated by an arrow. The drive unit 37 of the interchangeable lens 3 is driven by the power supplied via the VBAT (L) terminal. The PGND (L) terminal is a ground terminal corresponding to the VBAT (L) terminal, and is used as a ground potential (ground) of the power supply voltage of the drive system. A so-called bypass capacitor C1 is connected between the VBAT (L) terminal and the PGND (L) terminal.

  The V33 (L) terminal is a terminal used for power supply to the interchangeable lens 3. The V33 (L) terminal and the GND (L) terminal are connected to each unit such as the lens side control unit 33. The lens-side control unit 33 and the like are operated by the power supplied from the power supply unit 26 via the V33 (B) terminal. The GND (L) terminal is a ground terminal corresponding to the V33 (B) terminal, and is used as a ground potential (ground) of the power supply voltage of the circuit system. A bypass capacitor C2 is connected between the V33 (L) terminal and the GND (L) terminal.

  The RDY (L) terminal is connected to the body side communication unit 24 via the RDY (B) terminal. DATAB (L) terminal, CLK (L) terminal, DATAL (L) terminal, HCLK (L) terminal, HDATA (L) terminal are DATAB (B) terminal, CLK (B) terminal, DATAL (B) terminal, This is a communication system terminal electrically connected to the HCLK (B) terminal and the HDATA (B) terminal. The RDY (L) terminal, DATAB (L) terminal, CLK (L) terminal, and DATAL (L) terminal are used for command data communication to be described later. Further, the HCLK (L) terminal and the HDATA (L) terminal are used for hotline communication described later.

  The VBAT (L) terminal and the PGND (L) terminal are connected to the drive unit 37 via the lens side control unit 33. The V33 (L) terminal and the GND (L) terminal are connected to each unit such as the lens side control unit 33. The RDY (L) terminal, DATAB (L) terminal, CLK (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal are each connected to the lens side communication unit 34.

(Description of command data communication)
A control command (command) and control content (control data) are transmitted from the body side control unit 23 to the lens side control unit 33 of the interchangeable lens 3, and a response content (response data) is transmitted from the lens side control unit 33 to the body side control unit 23. Transmission of data and other data is called command data communication. Command data communication is full-duplex communication. Command data communication is performed via the body side communication unit 24 and the lens side communication unit 34, such as the RDY (B) terminal, RDY (L) terminal, DATAB (B) terminal, DATAB (L) terminal, CLK (B) terminal, CLK The digital data communication is performed using the (L) terminal, the DATAL (B) terminal, and the DATAL (L) terminal.

  The body-side control unit 23 transmits various control commands and control details to the interchangeable lens 3 by command data communication via the body-side communication unit 24 and the lens-side communication unit 34. By receiving data and the like, various information is transmitted to and received from the interchangeable lens 3. The control command here is, for example, a lens information transmission command. The various information received from the interchangeable lens 3 includes, for example, model information of the interchangeable lens 3, information indicating optical characteristics such as a focal length of the imaging optical system 36, and the like. The various information transmitted to the interchangeable lens 3 includes, for example, a control command such as a lens driving instruction, control contents such as a lens driving amount, model information of the camera body 2, and the like. The control command includes a drive command for the focus lens 36b. The lens-side control unit 33 receives various control commands from the body-side control unit 23 through command data communication, acquires control contents from the body-side control unit 23, and sends response contents (for example, to the body-side control unit 23). In response to an initialization control command from the camera body 2, information on the execution status of initialization processing such as initialization or completion of initialization is transmitted.

  FIG. 3 is an example of a timing chart showing the timing of command data communication. The body-side control unit 23 first checks the signal level of the RDY (B) terminal at the start of command data communication (T1). The signal level of the RDY (B) terminal indicates whether or not the command data communication of the lens side control unit 33 is possible. When the command data communication cannot be performed, the lens side control unit 33 sets the signal level (potential) of the RDY (L) terminal to a high level (H level). The lens side control unit 33 sets the signal level (potential) of the RDY (L) terminal to a low level (L level) via the lens side communication unit 34 when the command data communication can be performed.

  If the signal level of the RDY (B) terminal is low (L level) at the start of command data communication (T1), the body-side control unit 23 starts from the CLK (B) terminal via the body-side communication unit 24. The C clock signal 401 is output. That is, the body side control unit 23 transmits the C clock signal 401 to the lens side control unit 33 via the CLK (B) terminal and the CLK (L) terminal. The frequency at which the high level and low level of the C clock signal 401 in FIG. 3 are repeated is, for example, 8 MHz. In synchronization with the C clock signal 401, the body side control unit 23 outputs a body side command signal 402, which is a control command, from the DATAB (B) terminal. That is, the body side control unit 23 transmits the body side command signal 402 to the lens side control unit 33 via the DATAB (B) terminal and the DATAB (L) terminal. The body-side command signal 402 indicated by the switching between DATAB high level and low level in FIG. 3 is a signal representing control instructed by the body-side control unit 23 to the lens-side control unit 33 through command data communication. For example, the body-side command signal 402 is a signal indicating that the model information of the interchangeable lens 3 is requested or a signal indicating that the focus lens 36b is instructed to be driven. As shown in FIG. 3, the transmission timing of the body side command signal 402 is different from the cycle of the C clock signal 401. The command signal 402 is periodically transmitted at intervals of a minimum of about 8 milliseconds in the case of an initialization process performed when the camera system 1 is powered on (powered on) or an end process performed when the camera system 1 is powered off. However, other than that, it is transmitted at an arbitrary timing.

When the lens-side control unit 33 receives the body-side command signal 402 via the lens-side communication unit 34, the lens-side control signal 33 uses an error detection code (for example, checksum data) included in the body-side command signal 402 to An inspection process for inspecting the presence or absence of a communication error 402 is executed. Thereafter, the lens-side control unit 33 sets the signal level of the RDY (L) terminal to a high level (H level) (T2). The body side control unit 23 does not transmit the C clock signal or the body side command signal 402 when the signal level of the RDY (B) terminal is high.
The lens side control unit 33 starts the first control process 404 based on the received instruction of the body side command signal 402.

When the first control process 404 is completed, the lens side control unit 33 sets the signal level of the RDY (L) terminal to the low level (L level) via the lens side communication unit 34 (T3). When the signal level of the RDY (B) terminal becomes a low level, the body side control unit 23 outputs the C clock signal 405 from the CLK (B) terminal. The frequency at which the high level and low level of the C clock signal 405 are repeated is the same as that of the C clock signal 401, for example, 8 MHz. That is, the body side control unit 23 transmits the C clock signal 405 to the lens side control unit 33 via the CLK (B) terminal and the CLK (L) terminal.
Further, when the signal level of the RDY (B) terminal is high, the body side control unit 23 does not transmit / receive the body side data signal 406 and the lens side data signal 407.

  The body side control unit 23 outputs the body side data signal 406 from the DATAB (B) terminal via the body side communication unit 24 in synchronization with the C clock signal 405. That is, the body side control unit 23 transmits the body side data signal 406 to the lens side control unit 33 via the DATAB (B) terminal and the DATAB (L) terminal. The body side data signal 406 is a signal representing the control parameter of the body side command signal 402. For example, when the body-side command signal 402 is a signal indicating that the focus lens 36b is to be driven, the corresponding body-side data signal 406 is a signal indicating the drive amount of the focus lens 36b. Alternatively, the body-side data signal 406 is a signal that represents information (such as camera body model information) required by the lens-side control unit 33 in command data communication.

  When the C clock signal 405 is input to the CLK (L) terminal, the lens side control unit 33 outputs the lens side data signal 407 from the DATAL (L) terminal in synchronization with the C clock signal 405. The lens side data signal 407 indicated by the switching between DATAL high level and low level in FIG. 3 is a signal transmitted from the lens side control unit 33 to the body side control unit 23 by command data communication. For example, when the body side command signal 402 is a signal indicating that the model information of the interchangeable lens 3 is requested, the corresponding lens side data signal 407 is a signal indicating the model information of the interchangeable lens 3. As shown in FIG. 3, the transmission timing of the body side data signal 406 and the lens side data signal 407 is different from the cycle of the C clock signal 405. The body-side data signal 406 and the lens-side data signal 407 are at least about 8 milliseconds in the case of initialization processing performed when the camera system 1 is turned on (powered on) or termination processing performed when the power is turned off. It is transmitted periodically at intervals, but otherwise it is transmitted at any timing.

  When the transmission of the lens side data signal 407 is completed, the lens side control unit 33 sets the signal level of the RDY (L) terminal to the high level again (T4). The lens-side control unit 33 starts a second control process 408 (described later) based on the received body-side data signal 406 instruction.

  Here, the first control process 404 and the second control process 408 performed by the lens side control unit 33 will be described. For example, the case where the received body side command signal 402 is a content requesting specific information of the interchangeable lens 3 will be described. The lens-side control unit 33 executes a process of generating requested information as the lens-side data signal 407 as the first control process 404. The lens side data signal 407 generated in the first control process 404 is transmitted to the body side communication unit 24 of the body side control unit 23 via the lens side communication unit 34, the DATAL (L) terminal, and the DATAL (B) terminal. Is done.

  For example, the case where the received body-side command signal 402 is a signal indicating that the focus lens 36b is to be driven will be described. As the first control process 404, the lens-side control unit 33 executes a process of generating a signal indicating that the signal indicating that the focus lens 36b is instructed is received. The signal generated in the first control process 404 is the lens-side data signal 407, and the body-side communication unit of the body-side control unit 23 via the lens-side communication unit 34, the DATAL (L) terminal, and the DATAL (B) terminal. 24. The lens-side control unit 33 executes a process for driving the drive amount specified by the body-side data signal 406 as the second control process 408.

  When the second control process 408 is completed, the lens side control unit 33 sets the RDY (L) terminal to the low level via the lens side communication unit 34 (T5).

  The communication performed at the timings T1 to T5 described above is one command data communication. In one command data communication, the body side command signal 402 and the body side data signal 406 are transmitted by the body side control unit 23. That is, the body side command signal 402 and the body side data signal 406 are combined to form one control command (command) and control content (control data).

  As described above, the lens-side control unit 33 receives the control command (command) and the control content (control data) from the body-side control unit 23, and transmits the response content (response data) to the body-side communication unit 24. And in parallel. That is, command data communication is so-called full-duplex communication.

(Description of hotline communication)
As another communication system, there is communication in which data is transmitted in one direction from the lens side control unit 33 of the interchangeable lens 3 to the body side control unit 23 of the camera body 2, and this is called hot line communication. In the hotline communication, the body side control unit 23 and the lens side control unit 33 are connected to the HCLK (B) terminal, the HCLK (L) terminal, and the HDATA (B) terminal via the body side communication unit 24 and the lens side communication unit 34. And data communication performed using the HDATA (L) terminal. The body-side control unit 23 acquires information on the state of the interchangeable lens 3 from the lens-side control unit 33 of the interchangeable lens 3 through hotline communication. The information regarding the state of the interchangeable lens 3 is, for example, the position of the focus lens 36b, the position of a camera shake correction lens (not shown), the driving position of the diaphragm blade, and the like. The camera shake correction lens is a member that can be moved (driven) to include a component in a direction perpendicular to the optical axis direction, and the diaphragm can be moved (driven) to change the size of the aperture through which the light beam passes. ) Possible member. In this hotline communication, when an instruction to start communication is sent from the camera body via command data communication, the lens side control is performed independently of the command data communication until an instruction to end communication is sent (independently). In this communication, the unit 33 autonomously transmits lens data to the body-side control unit 23.

  FIG. 4 is an example of a timing chart showing hot line communication timing. When the lens-side control unit 33 receives a command to start hotline communication from the body-side control unit 23 of the camera body by command data communication (T6), the lens-side control unit 33 performs a generation process 501. The generation process 501 is a process for acquiring a lens state at a sampling period of 1 millisecond, for example, and generating a lens signal 503 for hotline communication. When the generation of the lens signal 503 is completed (T7), the lens side control unit 33 outputs the H clock signal 502 from the HCLK (L) terminal via the lens side communication unit 34. That is, the H clock signal 502 is transmitted to the body side control unit 23 via the HCLK (L) terminal and the HCLK (B) terminal. The frequency at which the high level and low level of the H clock signal 502 in FIG. 4 are repeated is, for example, 2.5 MHz to 8 MHz. That is, the frequency of the H clock signal 502 for hotline communication is the same as or lower than the frequency of the C clock signal 401 for command data communication. That is, the cycle of the H clock signal 502 for hot line communication is the same as or longer than the cycle of the C clock signal 401 for command data communication.

The lens side control unit 33 synchronizes the lens signal 503 (for example, information regarding the position of the focus lens 36b) generated in the generation processing 501 with the HDATA (L) terminal in synchronization with the H clock signal 502 via the lens side communication unit 34. Output. That is, the lens side control unit 33 transmits the lens signal 503 to the body side communication unit 24 of the body side control unit 23 via the lens side communication unit 34, the HDATA (L) terminal, and the HDATA (B) terminal. A lens signal 503 indicated by switching between the high level and the low level of HDATA in FIG. 4 is a signal transmitted from the lens side control unit 33 to the body side control unit 23 through hot line communication. The output of the H clock signal 502 and the lens signal 503 ends at timing T8.
The lens-side control unit 33 repeats the transmission of lens data by hotline communication every certain period (for example, 1 millisecond) until receiving an instruction to stop transmission of the lens signal 503 by command data communication. As shown in FIG. 4, the timing at which lens data is transmitted by hotline communication is different from the cycle of the H clock signal 502. The transmission interval of the lens data by hot line communication is shorter than the transmission / reception interval of the control command (command) and the control content (control data) by the command data communication described above.

  Command data communication and hotline communication can be executed in part or in parallel. In other words, the body-side control unit 23 and the lens-side control unit 33 can start or end the hotline communication while performing command data communication. It is also possible to start or end command data communication when performing hotline communication.

As described above, hot line communication is performed independently of command communication. The lens-side control unit 33 transmits information related to the state of the interchangeable lens 3 to the body-side control unit 23 through hotline communication regardless of command communication. Therefore, the body side control unit 23 can continuously grasp the state of the interchangeable lens 3 even during command communication. For this reason, since the body side control part 23 can grasp | ascertain the position of the focus lens 36b continuously, it can control autofocus at high speed, for example. The same applies to camera shake correction control and aperture control.
Further, the body-side control unit 23 can perform various instructions to the interchangeable lens 3 by command communication at any timing even while the lens-side control unit 33 is performing hot line communication.

(Explanation of lens mount mechanism)
The camera system 1 of the present embodiment includes a so-called bayonet-type lens mount mechanism. Hereinafter, the body side mount 21 included in the camera body 2 and the lens side mount 31 included in the interchangeable lens 3 will be described in order.

  FIG. 5A is a diagram schematically showing the mount of the camera body 2 as viewed from the interchangeable lens 3 side. The camera body 2 includes the body side mount 21 and the body side terminal holding portion 22 described above with reference to FIG. The body side mount 21 has an annular reference surface having a certain width. Furthermore, the body side mount 21 has a body side first claw portion 29a, a body side second claw portion 29b, a body side third claw portion 29c, and a body side fourth claw portion 29d. In the following description, these four claw portions are collectively referred to as a body side claw portion 29.

  The body side claw portions 29 are arranged at intervals from each other along the circular opening of the body side mount 21. As shown in FIG. 5A, the body side first claw portion 29a is in the upper right position, the body side second claw portion 29b is in the upper left position, and the body side third claw portion 29c is in the lower left position. The side fourth claw portions 29d are respectively arranged at the lower right position.

  The circumferential lengths of the body side first claw portion 29a to the body side fourth claw portion 29d are different from each other. Specifically, the body side first claw portion 29a is the longest, the body side third claw portion 29c is the second longest, the body side fourth claw portion 29d is the third longest, and the body side second claw portion 29b is Shortest.

  The body side claw portion 29 protrudes from the body side mount 21 toward the center of the opening, and there are a portion where the body side claw portion 29 exists and a portion where the body side claw portion 29 does not exist on the circumference of the opening. . In the following description, the space 40a between the body side first claw portion 29a and the body side fourth claw portion 29d on the circumference of the opening of the body side mount 21 is referred to as a body side first insertion / extraction portion 40a. Similarly, a space 40b between the body side first claw portion 29a and the body side second claw portion 29b is divided into a body side second insertion / extraction portion 40b, a body side second claw portion 29b, and a body side third claw portion 29c. The space 40c between the body side third insertion / extraction portion 40c and the space 40d between the body side third claw portion 29c and the body side fourth claw portion 29d are referred to as a body side fourth insertion / extraction portion 40d, respectively. These four body side insertion / extraction portions are collectively referred to as a body side insertion / extraction portion 40.

  A body side terminal holding portion 22 is provided inside the opening of the body side mount 21. The body side terminal holding part 22 has an arc shape corresponding to the shape of the annular body side mount 21. The body-side terminal holding part 22 is preferably arranged in the upper part of the opening of the body-side mount 21 in parallel with the opening of the body-side mount 21 and is arranged in the center of the upper part as shown in FIG. The body side terminal holding part 22 has a plurality of body side terminals as described above. The plurality of body-side terminals are arranged in a circular arc in the body-side terminal holding portion 22 in a line inside the body-side mount 21. As shown in FIG. 5 (a), the plurality of body-side terminals are connected to HDATA (B), HCLK (B), DATAL (B), CLK (B), DATAB (B), RDY (B), GND ( B), V33 (B), PGND (B), VBAT (B), and 11 terminals of LDET (B) are arranged on the leftmost side. Each of the body side terminal groups is a conductive pin. The body side terminal group is pushed toward the −Z direction (FIG. 1) by a spring or the like (not shown). The Z direction is a direction toward the interchangeable lens 3 attached to the camera and is the direction of the subject.

  The body side mount 21 has a hole through which the lock pin 42 passes. The hole through which the lock pin 42 penetrates is disposed at the upper right of the body side fourth claw portion 29d. In other words, on the annular reference surface of the body side mount 21, the hole of the lock pin 42 has a region where the body side fourth claw portion 29 d exists in the opening of the body side mount 21 and a body side first claw portion 29 a. Arranged between the area. The lock pin 42 is pushed toward the −Z direction (FIG. 1) by a spring (not shown) or the like.

  FIG. 5B is a schematic view of the mount of the camera body 2 from which the body side mount 21 is removed as viewed from the interchangeable lens 3 side. A first leaf spring 41a is provided at a position corresponding to the body side first claw portion 29a (the back side of the body side first claw portion 29a). Similarly, a second leaf spring 41b is provided at a position corresponding to the body side second claw portion 29b (the back side of the body side second claw portion 29b), and a position corresponding to the body side third claw portion 29c (body body). A third leaf spring 41c is provided on the back side of the side third claw portion 29c, and a fourth leaf spring is provided at a position corresponding to the body side fourth claw portion 29d (back side of the body side fourth claw portion 29d). 41d is provided. In the following description, these four leaf springs are collectively referred to as a leaf spring 41. The leaf spring 41 presses a later-described lens side claw portion in the + Z direction (camera body 2 side).

  FIG. 6 is a diagram schematically showing the mount of the interchangeable lens 3 viewed from the camera body 2 side. The interchangeable lens 3 includes the lens side mount 31 and the lens side terminal holding portion 32 described above with reference to FIG. The lens side mount 31 has an annular reference surface having a certain width. When the interchangeable lens 3 is attached to the camera body 2, the annular reference surface of the lens side mount 31 comes into contact with the annular reference surface of the body side mount 21 described above. Furthermore, the lens side mount 31 has a cylindrical portion extending in the optical axis direction on the inner periphery thereof. The lens side mount 31 has a lens side first claw portion 39a, a lens side second claw portion 39b, a lens side third claw portion 39c, and a lens side fourth claw portion spaced apart from each other along the outer periphery of the cylindrical portion. 39d. In the following description, these four claw portions are collectively referred to as a lens side claw portion 39.

  The lens side claw portion 39 is provided in a direction protruding from the outer periphery of the cylindrical portion of the lens side mount 31 toward the mount outer side (radiating direction from the optical axis O). As shown in FIG. 6, the lens side first claw portion 39a is in the upper left position, the lens side second claw portion 39b is in the upper right position, the lens side third claw portion 39c is in the lower right position, The four claw portions 39d are respectively arranged at the lower left position. On the rear side of the lens side claw portion 39 (the reference surface side of the lens side mount 31), there is a space for the corresponding body side claw portion 29 to enter when the interchangeable lens 3 is attached to the camera body 2.

  A lens side terminal holding portion 32 is provided inside the opening of the lens side mount 31. The lens side terminal holding part 32 has an arc shape corresponding to the shape of the annular lens side mount 31. The lens-side terminal holding part 32 is preferably arranged in the upper part of the lens-side mount 31 in parallel with the opening of the lens-side mount 31, and is arranged in the center of the upper part as shown in FIG. The lens side terminal holding part 32 has a plurality of lens side terminals as described above. The plurality of lens side terminals are arranged in an arc shape in the lens side terminal holding portion 32 in a line inside the lens side mount 31. As shown in FIG. 6, the plurality of lens side terminals are LDET (L), VBAT (L), PGND (L), V33 (L), GND (L), RDY (L), DATAB (L), from the right side. Eleven terminals of CLK (L), DATAL (L), HCLK (L), and HDATA (L) are arranged. The lens side terminal groups are arranged such that the conductive contact surfaces are exposed in the + Z direction (FIG. 1). That is, the + Z direction is a direction in which the subject light that has passed through the imaging optical system 36 travels toward the image sensor 27.

  The lens side mount 31 has a lock pin receiving portion 43. As shown in FIG. 6, the lock pin receiving portion 43 is disposed on the upper left of the lens side fourth claw portion 39d. That is, the lock pin receiving portion 43 is disposed between the portion corresponding to the lens side first claw portion 39a and the portion corresponding to the lens side fourth claw portion 39d of the lens side mount 31. The lock pin receiving portion 43 is a groove in which the lock pin 42 is accommodated when the interchangeable lens 3 is attached to the camera body 2. This groove is provided toward the −Z direction (FIG. 1).

  When the interchangeable lens 3 is attached to the camera body 2, the plurality of body side terminals are in physical contact with the corresponding plurality of lens side terminals. By this contact, the plurality of body side terminals and the plurality of lens side terminals are electrically connected. That is, the plurality of body side terminals and the plurality of lens side terminals are electrically connected.

(Mounting interchangeable lenses)
A method for attaching the interchangeable lens 3 to the camera body 2 will be described. When the interchangeable lens 3 is attached to the camera body 2, first, the body side mount 21 and the lens side mount 31 are made to face each other, the lens side first claw portion 39a is aligned with the position of the body side first insertion / extraction portion 40a, and the lens side second The claw portion 39b is aligned with the position of the body side second insertion / extraction portion 40b, the lens side third claw portion 39c is aligned with the position of the body side third insertion / extraction portion 40c, and the lens side fourth claw portion 39d is aligned with the body side fourth insertion / extraction portion. Set to the position of 40d. Then, the lens side first claw portion 39a is inserted into the body side first insertion / extraction portion 40a, the lens side second claw portion 39b is inserted into the body side second insertion / extraction portion 40b, and the lens side third claw portion 39c is inserted into the body side. It inserts in the 3rd insertion / extraction part 40c, and inserts the lens side 4th nail | claw part 39d in the body side 4th insertion / extraction part 40d. At this time, the LDET (L) terminal is the CLK (B) terminal, the VBAT (L) terminal is the DATAL (B) terminal, the PGND (L) terminal is the HCLK (B) terminal, and the V33 (L) terminal is the HDATA (B B) Contact each terminal.

  From this state, the interchangeable lens 3 is rotated in the mounting direction 44 shown in FIGS. That is, the body side first claw portion 29a enters the space on the back side of the lens side first claw portion 39a, and the body side second claw portion 29b enters the space on the back side of the lens side second claw portion 39b. The third claw portion 29c enters the space behind the lens side third claw portion 39c, and the body side fourth claw portion 29d enters the space behind the lens side fourth claw portion 39d. At this time, the plurality of lens side terminals sequentially come into contact with the plurality of body side terminals. Note that instead of the interchangeable lens 3, the camera body 2 may be rotated in a direction opposite to the mounting direction 44 shown in FIGS. 5 and 6.

  When the lens side claw portions 39 are respectively inserted into the corresponding body side insertion / extraction portions 40 and rotated in the mounting direction 44, for example, the LDET (L) terminal includes the CLK (B) terminal, the DATAB (B) terminal, and the RDY (B). The terminal, the GND (B) terminal, the V33 (B) terminal, the PGND (B) terminal, the VBAT (B) terminal, and the LDET (B) terminal are sequentially contacted. For example, the VBAT (L) terminal includes a DATAL (B) terminal, a CLK (B) terminal, a DATAB (B) terminal, an RDY (B) terminal, a GND (B) terminal, a V33 (B) terminal, a PGND (B) terminal, The VBAT (B) terminal is contacted in order. For example, PGND (L) terminal is HCLK (B) terminal, DATAL (B) terminal, CLK (B) terminal, DATAB (B) terminal, RDY (B) terminal, GND (B) terminal, V33 (B) terminal, PGND (B) Contact the terminals in order. For example, the V33 (L) terminal is HDATA (B) terminal, HCLK (B) terminal, DATAL (B) terminal, CLK (B) terminal, DATAB (B) terminal, RDY (B) terminal, GND (B) terminal, V33 (B) Contact the terminals in order. For example, the GND (L) terminal is in order of the HDATA (B) terminal, the HCLK (B) terminal, the DATA (B) terminal, the CLK (B) terminal, the DATA B (B) terminal, the RDY (B) terminal, and the GND (B) terminal. Contact.

  For example, the RDY (L) terminal contacts the HDATA (B) terminal, the HCLK (B) terminal, the DATAL (B) terminal, the CLK (B) terminal, the DATAB (B) terminal, and the RDY (B) terminal in this order. For example, the DATAB (L) terminal contacts the HDATA (B) terminal, the HCLK (B) terminal, the DATAL (B) terminal, the CLK (B) terminal, and the DATAB (B) terminal in this order. For example, the CLK (L) terminal contacts the HDATA (B) terminal, the HCLK (B) terminal, the DATAL (B) terminal, and the CLK (B) terminal in this order. For example, the DATAL (L) terminal contacts the HDATA (B) terminal, the HCLK (B) terminal, and the DATAL (B) terminal in this order. For example, the HCLK (L) terminal contacts the HDATA (B) terminal and the HCLK (B) terminal in this order.

  When the interchangeable lens 3 is rotated by a predetermined angle with respect to the camera body 2, the mounting completion position is reached. At the mounting completion position, the corresponding body side claw portion 29 and lens side claw portion 39 face each other in the optical axis direction, and the lock pin 42 is pushed in the −Z direction of FIG. 1 and enters the lock pin receiving portion 43. When the lock pin 42 enters the lock pin receiving portion 43, the interchangeable lens 3 cannot be rotated for removal from the camera body 2. That is, when the body side claw portion 29 and the lens side claw portion 39 reach a predetermined mounting completion position, the relative positions of the body side mount 21 and the lens side mount 31 are fixed. The lens side claw portion 39 is pushed to the body side (+ Z direction in FIG. 1) by the leaf spring 41. Thereby, each of the plurality of lens side terminals is in contact with and electrically connected to each of the corresponding plurality of body side terminals.

  In the following description, a state in which the body side claw portion 29 and the lens side claw portion 39 have reached a predetermined mounting completion position is referred to as a mounting completion state. A state in which the lens side claw portion 39 is rotating from the position where the lens side claw portion 39 is inserted into the body side inserting / extracting portion 40 to a position immediately before the mounting completion position, or a state where the lens side claw portion 39 is rotating from immediately before the mounting completion position to the insertion position is being mounted. Call the state.

  In the mounting state, the signal level of the LDET (B) terminal is pulled up and is at a high level. The body-side control unit 23 determines that the interchangeable lens 3 is not attached when it is detected that the signal level of the LDET (B) terminal is high. When the interchangeable lens 3 is not attached, the body-side control unit 23 does not cause the power supply unit 26 to supply power to the VBAT (B) terminal and the V33 (B) terminal.

  When the mounting is completed, the signal level of the LDET (B) terminal is pulled down to a low level as described above (FIG. 2). The body-side control unit 23 determines that the interchangeable lens 3 is attached when it is detected that the signal level of the LDET (B) terminal has become low level. Further, in the mounted state, the lock pin 42 enters the lock pin receiving portion 43, and the switch 28 (FIG. 1) interlocked with the lock pin 42 is turned on. When the body side control unit 23 detects that the signal level of the LDET (B) terminal has become low level and the switch 28 is turned on, the body side control unit 23 starts supplying power to the power supply unit 26 to the V33 (B) terminal. That is, the power supply voltage of the circuit system is supplied. Note that the camera body 2 does not necessarily include the switch 28. When the switch 28 is not provided, the power supply unit 26 may be configured to start supplying power to the V33 (B) terminal when it is detected that the signal level of the LDET (B) terminal has become low level.

  When power supply to the V33 (B) terminal is started, a power supply voltage is supplied to the lens side control unit 33 of the interchangeable lens 3 through the V33 (L) terminal, and the lens side control unit 33 starts operating. . The lens-side control unit 33 that has started the operation permits initial communication by command data communication with the body-side control unit 23. After the lens side controller 33 permits the initial communication, the body side controller 23 starts the initial communication. The initial communication includes a signal for requesting power supply to the VBAT (L) terminal by the lens side control unit 33. When a signal requesting power supply to the VBAT (L) terminal is transmitted from the lens side control unit 33 to the body side control unit 23, the body side control unit 23 supplies a power supply voltage to the VBAT (B) terminal, An initialization process between the camera body 2 and the interchangeable lens 3 is performed. In the initialization process, information necessary for various operations of the camera system 1 such as the photographing operation and the focus adjustment operation is exchanged between the camera body 2 and the interchangeable lens 3, or the lens position of the interchangeable lens is moved to the reference position. To do.

  When the user presses a lock release button (not shown) of the camera body in the mounting completion state, the lock pin 42 is retracted from the lock pin receiving portion 43. Thereby, the relative position of the body side mount 21 and the lens side mount 31 can be changed. When the user presses a lock release button (not shown), the body-side control unit 23 turns off the switch 28 linked to the lock release button, and supplies power to the power supply unit 26 to the VBAT (B) terminal and the V33 (B) terminal. Stop. From this state, when the interchangeable lens 3 is rotated in the direction opposite to the mounting direction 44 shown in FIGS. 5 and 6, the plurality of lens side terminals come into contact with the plurality of body side terminals in the reverse order to the above. To go.

  The power supply need not be stopped in conjunction with the operation of the unlock button. In this case, the body side control unit 23 causes the LDET (L) terminal and the LDET (B) terminal to be separated by rotation in the direction opposite to the mounting direction 44 of the interchangeable lens 3, and the signal level of the LDET (B) terminal is changed from the low level. When detecting the change to the high level, the power supply unit 26 stops the power supply to the VBAT (B) terminal and the V33 (B) terminal. By doing in this way, the number of parts of the camera system 1 can be reduced. Further, when it is detected that both the lock release button is pressed and the signal level of the LDET (B) terminal has changed from the low level to the high level, the power supply unit 26 is connected to the VBAT (B) terminal and the V33 (B). The power supply to the terminal may be stopped. Alternatively, when either the lock release button is pressed or the signal level of the LDET (B) terminal is changed from the low level to the high level, the body side control unit 23 sends the VBAT to the power supply unit 26. The power supply to the (B) terminal and the V33 (B) terminal may be stopped.

  As described above, when the interchangeable lens is attached to and removed from the camera body (attached state), the lens-side terminal comes into contact with the body-side terminal other than the terminal that should correspond when the attachment is completed. It is desirable that the arrangement of the lens side terminals and the body side terminals is less likely to be caused by contact during attachment and removal.

(Pin assignment considering noise)
In the present embodiment, among the plurality of body side terminals, the LDET (B) terminal is arranged at the forefront of the lens mounting direction (arrow 44 in FIG. 5A). That is, the arrangement position of the LDET (B) terminal is the leftmost side of the body side terminal group in FIG. Of the plurality of lens side terminals, the LDET (L) terminal was also arranged at the forefront of the lens mounting direction (arrow 44 in FIG. 6). That is, the arrangement position of the LDET (L) terminal is the rightmost side of the lens side terminal group in FIG. 6 as described above. Therefore, the LDET (B) terminal does not contact with the lens side terminals other than the LDET (L) terminal until the mounting of the mounting lens is completed. Therefore, the signal level of the LDET (B) terminal is not erroneously changed to a low level in the process of mounting the interchangeable lens, and the lens mounting is not erroneously recognized.

  In the present embodiment, the VBAT (B) terminal is arranged next to the LDET (B) terminal, that is, second from the forefront in the mounting direction. The VBAT (L) terminal is arranged next to the LDET (L) terminal, that is, second from the forefront in the mounting direction. The reason for this is to reduce the number of terminals on the lens side that come into contact with the VBAT (B) terminal on the camera body side during the lens mounting process. Since the power supply voltage of the drive system applied to the VBAT (B) terminal is higher than that of the other terminals, VBAT (B) under a situation where a high voltage is applied to the VBAT (B) terminal by mistake due to a failure of the camera system 1 or the like. If the terminal comes into contact with a terminal other than the VBAT (L) terminal, this high voltage may cause an unexpected load on the electric circuit in the interchangeable lens. In the present embodiment, since the VBAT (B) terminal is positioned next to the LDET (B) terminal, the VBAT (B) terminal is the only one of the plurality of lens side terminals during the mounting of the interchangeable lens 3. Only the LDET (L) terminal contacts. As shown in FIG. 2, the LDET (L) terminal is grounded via the resistor R3, and even if a high voltage is applied from the VBAT (B) terminal, the camera system 1 is not affected.

  In the present embodiment, the PGND (B) terminal that is the ground potential is arranged next to the VBAT (B) terminal, that is, the third most from the forefront in the mounting direction. The PGND (L) terminal is arranged next to the VBAT (L) terminal, that is, third from the forefront in the mounting direction. A high voltage supplied from the VBAT (B) terminal is stored in the capacitor C1 connected to the VBAT (L) terminal. When the interchangeable lens 3 is rotated in the removal direction, the VBAT (L) terminal first contacts the PGND (B) terminal. The electric charge accumulated in the capacitor C1 is quickly discharged from the PGND (B) terminal, which is the ground potential, and does not affect other circuits in the camera system 1.

  In the present embodiment, the V33 (B) terminal is arranged next to the PGND (B) terminal, that is, the fourth from the leading edge in the mounting direction, and the GND (B) terminal is arranged next to it, that is, the fifth from the leading edge. did. The V33 (L) terminal is arranged next to the PGND (L) terminal, that is, the fourth from the most leading edge in the mounting direction, and the GND (L) terminal is arranged next to that, that is, the fifth from the most leading edge. The capacitor C2 connected to the V33 (L) terminal accumulates the charge supplied from the V33 (B) terminal. When the interchangeable lens 3 is rotated in the removal direction, the V33 (L) terminal first contacts the GND (B) terminal. The electric charge accumulated in the capacitor C2 is quickly discharged from the GND (B) terminal, which is the ground potential, and does not affect other circuits in the camera system 1.

  The RDY (B) terminal is arranged next to the GND (B) terminal, that is, the sixth from the leading edge, and the DATAB (B) terminal is arranged next to that, that is, the seventh from the leading edge. The 8th CLK (B) terminal is placed, the 9th from the most advanced side is the DATA (B) terminal, and the 10th from the most recent side is the HCLK (B) terminal. The HDATA (B) terminal is arranged at the rearmost end adjacent to it.

  The RDY (L) terminal is arranged next to the GND (L) terminal, that is, the sixth from the leading edge, and the DATAB (L) terminal is arranged next to that, that is, the seventh from the leading edge. The 8th CLK (L) terminal is arranged, the 9th from the most advanced side is the DATA (L) terminal, and the 10th from the most advanced side is the HCLK (L) terminal. The HDATA (L) terminal is arranged at the rearmost end next to it.

  Next, the influence of noise exerted by the communication line composed of each body side terminal and each lens side terminal will be described. Hot line communication is communication in which information (lens data) is unilaterally transmitted to the body after the start of communication, and is performed frequently (repeated with a very short period). During hotline communication, a clock signal (H clock signal) is sent from the HCLK (L) terminal to the HCLK (B) terminal. Since the clock signal is a signal that repeats a high level and a low level in a short cycle, it can be a large noise source with respect to other signals. In addition, since the clock signal transmitted from the HCLK (L) terminal to the HCLK (B) terminal is a signal output from the interchangeable lens 3, even if noise is added to the clock signal by mistake, the camera body 2 side does not have the noise. Cannot be recognized. As described above, there is a possibility that the clock signal (H clock signal) flowing through the HCLK terminal may become a noise source or noise may be added to the clock signal (H clock signal), which may cause malfunction of the camera system 1. is there. Examples of malfunctions include erroneous detection of attachment of an interchangeable lens and wrong command communication.

In this embodiment, the HCLK terminal is arranged at a position away from the VBAT terminal to which a high voltage is applied. Since the voltage / current of the VBAT terminal that drives the driving unit 37 of the interchangeable lens 3 varies depending on the driving state of the driving unit 37, the variation of the voltage / current of the VBAT terminal may become noise for other terminals. Therefore, by separating the VBAT terminal from the HCLK terminal, it is possible to suppress the influence of noise due to the voltage / current fluctuation of the VBAT terminal on the clock signal (H clock signal). It is possible to suppress noise from being applied to the clock signal (H clock signal).
The RDY terminal is a terminal used to indicate whether command communication is possible. The HCLK terminal that can be a noise source is arranged so as not to be adjacent to the RDY terminal. Therefore, it is possible to suppress noise due to the clock signal (H clock signal) from affecting the signal at the RDY terminal.

  Further, an HDATA terminal and a DATA terminal are arranged on both sides of the HCLK terminal. By doing so, it is possible to suppress the influence of noise at the HCLK terminal on other than the HDATA terminal and the DATAL terminal. The signal flowing through the HDATA terminal and the DATAL terminal has less fluctuation than the clock signal (H clock signal). For this reason, it is possible to suppress the influence of the fluctuation of the clock signal (H clock signal) from reaching terminals other than the HDATA terminal and the DATAL terminal.

Next, command data communication is communication in which information is transmitted and received bidirectionally between the body and the interchangeable lens as described above. During command data communication, a clock signal (C clock signal) is sent from the CLK (B) terminal to the CLK (L) terminal. The clock signal transmitted at the CLK terminal can also be a noise source for the same reason as described above. Further, if noise is added to the clock signal (C clock signal), an error occurs in the command communication. Therefore, in this embodiment, the CLK terminal is arranged at a position away from the VBAT terminal to which a high voltage is applied. Since the voltage / current of the VBAT terminal that drives the driving unit 37 of the interchangeable lens 3 varies depending on the driving state of the driving unit 37, the variation of the voltage / current of the VBAT terminal may become noise for other terminals. Therefore, by separating the VBAT terminal from the CLK terminal, it is possible to suppress the noise of the VBAT terminal from affecting the clock signal (C clock signal). That is, it is possible to suppress noise from being applied to the clock signal (C clock signal).
Further, the CLK terminal is arranged so as not to be adjacent to the RDY terminal used to indicate whether command communication is possible.

Further, when the HCLK terminal and the CLK terminal are adjacent to each other, one clock signal affects the other clock signal and can be a noise source. In this embodiment, the DATAL terminal is arranged between the CLK terminal and the HCLK terminal. A DATAB terminal is arranged between the CLK terminal and the RDY terminal. That is, the DATAL terminal and the DATAB terminal are arranged on both sides of the CLK terminal. Since it did in this way, the influence on the camera system of the noise resulting from CLK terminal can be suppressed. Since the signal flowing through the DATAL terminal and the DATAB terminal has less fluctuation than the clock signal (C clock signal), the influence of the fluctuation of the clock signal (C clock signal) can be prevented from affecting other terminals than the DATAL terminal and the DATAB terminal. It is.
If the DATAL terminal is arranged between the CLK terminal and the HCLK terminal, the signal flowing through the DATAL terminal has less fluctuation than the clock signal (C clock signal) at the CLK terminal and the clock signal (H clock signal) at the HCLK terminal. The influence of the fluctuation of the clock signal (C clock signal) of the terminal affects the clock signal (H clock signal) of the HCLK terminal, and the influence of the fluctuation of the clock signal (H clock signal) of the HCLK terminal This is because it can be prevented from reaching the clock signal).

  Further, as described above, it is necessary to determine the level of the RDY terminal in order to perform command data communication. That is, since the signal level of the RDY terminal indicates whether or not command data can be communicated, noise has a great influence on the shooting operation. Here, let us consider a case where the body side control unit 23 erroneously recognizes that communication is possible due to noise even though command data cannot be communicated. In this case, the lens-side control unit 33 cannot receive the command data, but the body-side control unit 23 transmits the command data, and if the control according to the command data is performed by the interchangeable lens, the body-side control unit 23 recognizes incorrectly. To do. However, since the lens-side control unit 33 cannot accept command data, control according to command data that has been erroneously transmitted is not performed. Therefore, the operation of the camera system 1 is hindered. Therefore, it is necessary to prevent noise from riding on the signal at the RDY terminal. In order to prevent noise from being applied to the signal at the RDY terminal, it is desirable to arrange a terminal through which a relatively stable signal, that is, a signal with a small change in signal level per unit time flows, on both sides of the RDY terminal. In the present embodiment, the GND terminal and the DATAB terminal are arranged on both sides of the RDY terminal. The GND terminal is stable because it is a ground potential terminal, and the DATAB terminal is a terminal through which a stable signal flows compared to the CLK terminal and the HCLK terminal. Since it did in this way, the influence of the noise which the signal of a RDY terminal receives can be suppressed.

  Next, electric power (drive system power supply voltage) supplied from the VBAT (B) terminal to the VBAT (L) terminal is used to drive an actuator (for example, a stepping motor) of the drive unit 37 of the interchangeable lens 3. Therefore, the current flowing through the VBAT terminal varies greatly depending on whether the actuator is driven or not. Such fluctuations in current become noise sources for signals flowing through other terminals. In this embodiment, the VBAT terminal is arranged at a position distant from the RDY terminal, DATAB terminal, CLK terminal, DATAL terminal used for command data communication, and the HCLK terminal and HDATA terminal used for hot line communication. Further, a GND terminal, a V33 terminal, and a PGND terminal are arranged between the VBAT terminal and the terminals used for these communications. Among these, in particular, the GND terminal and the PGND terminal are ground potential terminals, so that the influence of noise can be suppressed. Thereby, the influence which the noise resulting from the fluctuation | variation of the electric current which flows through a VBAT terminal has on data communication is suppressed.

The terminal arrangement in consideration of the noise described above will be summarized here.
The RDY terminal is arranged so as not to be adjacent to any of the VBAT terminal and the HCLK terminal which are noise sources. As a result, the influence of noise on the RDY terminal used to indicate whether command communication is possible can be suppressed.
The HCLK terminal as a noise source is sandwiched between the HDATA terminal and the DATA terminal, and the CLK terminal is sandwiched between the DATA terminal and the DATA B terminal. That is, the HDATA terminal, the HCLK terminal, the DATAL terminal, the CLK terminal, and the DATAB terminal are arranged in order from the rear end in the mounting direction. Thereby, the influence by the noise resulting from the clock signal to the RDY terminal or the like can be suppressed.
Further, in consideration of the influence of noise, the power supply terminal group and the terminal group used for communication are arranged apart from each other across the RDY terminal. More specifically, a VBAT terminal, a PGND terminal, a V33 terminal, and a GND terminal, which are power supply terminals, are arranged in order from the front end side on the front end side in the mounting direction across the RDY terminal, and communication is performed on the rear end side in the mounting direction. The DATAB terminal, the CLK terminal, the DATAL terminal, the HCLK terminal, and the HDATA terminal, which are terminals to be used, are arranged in this order from the front end side. Thereby, it is possible to suppress the influence of the power supply system terminal group such as the VBAT terminal on the terminals used for communication. Further, the influence of noise on the power supply system terminal group such as the VBAT terminal and the RDY terminal of the terminal group used for communication such as the HCLK terminal and the CLK terminal can be suppressed.

In the HCLK terminal to which the clock signal (H clock signal) used for hot line communication is sent and the CLK terminal to which the clock signal (C clock signal) used for command data communication is sent, the HCLK terminal is connected to the VBAT terminal rather than the CLK terminal. Arranged at a distance. This is because the clock signal (C clock signal) sent to the interchangeable lens at the CLK terminal is output from the body side control unit 23 via the body side communication unit 24, but HCLK (L ) When noise is added to the clock signal (H clock signal) sent to the camera body via the terminal, the body-side control unit 23 erroneously recognizes the noise, so that the noise applied to the clock signal (H clock signal) at the HCLK terminal is the camera system. This is because the influence on 1 is large.
In the HCLK terminal and the GND terminal, the HCLK terminal is arranged at a position farther from the VBAT terminal than the GND terminal. Further, a PGND terminal is disposed between the GND terminal and the VBAT terminal. Thereby, it is possible to shield noise caused by the VBAT terminal to the HCLK terminal to which the clock signal (H clock signal) used for hot line communication is sent.
In the CLK terminal and the GND terminal, the CLK terminal is arranged at a position farther from the VBAT terminal than the GND terminal. Further, a PGND terminal is disposed between the GND terminal and the VBAT terminal. Thereby, it is possible to shield noise caused by the VBAT terminal to the CLK terminal to which the clock signal (C clock signal) used for command data communication is sent.

(Terminal arrangement considering wear)
Hereafter, contact of each terminal when the interchangeable lens 3 is attached to and detached from the camera body 2 will be described.
When the interchangeable lens 3 is attached to the camera body 2, the body side terminals come into contact with the lens side terminals one after another. The same applies when the interchangeable lens 3 is removed from the camera body 2. That is, the body side terminal that is a pin protruding from the body side terminal holding portion 22 and the lens side terminal that is an exposed conductive contact surface are rubbed one after another. Since a plurality of interchangeable lenses are attached to and detached from one camera body, the body side terminal is more easily worn than the lens side terminal. In particular, the body-side terminal located on the rear end side in the mounting direction of the interchangeable lens 3 is rubbed against a larger number of lens-side terminals and rubs more. Accordingly, the body terminal located on the rear end side is more likely to wear the tip of the pin than the body side terminal located on the front end side. Since wear on the body side terminal affects the contact with the lens side terminal, data communication may become unstable.
In the present embodiment, since the LDET (B) terminal is disposed at the most distal end in the mounting direction, the wear of the LDET (B) terminal is the least. Accordingly, the LDET (B) terminal and the LDET (L) terminal are in good contact with each other, and there is little possibility of erroneously detecting the attachment / detachment of the interchangeable lens 3.

  As described above, in this embodiment, the CLK (B) terminal and the HCLK (B) terminal are arranged at a position away from the VBAT (B) terminal in order to suppress the influence of noise on communication. In other words, the VBAT (B) terminal is disposed second from the front end side in the mounting direction, and the CLK (B) terminal and the HCLK (B) terminal are disposed on the rear end side away from the VBAT (B) terminal. Therefore, the CLK (B) terminal and the HCLK (B) terminal wear more than the LDET (B) terminal and the VBAT (B) terminal. In the present embodiment, the CLK (B) terminal and the HCLK (B) terminal are arranged in the immediate vicinity of the body side first claw portion 29a. That is, the CLK (B) terminal and the HCLK (B) terminal are arranged at positions closer to the inner peripheral edge, which is the inner peripheral edge of the body-side first claw portion 29a than the VBAT (B) terminal. In other words, the distance between the CLK (B) terminal and the inner peripheral edge of the body side first claw portion 29a is shorter than the distance between the VBAT (B) terminal and the inner peripheral edge of the body side first claw portion 29a, and HCLK (B ) The distance between the terminal and the inner peripheral edge of the body side first claw portion 29a is shorter than the distance between the VBAT (B) terminal and the inner peripheral edge of the body side first claw portion 29a. As described above, the first leaf spring 41a is provided on the back side of the body side first claw portion 29a, and the lens side first claw portion 39a is pressed in the + Z direction (FIG. 1) by the first leaf spring 41a. From the viewpoint of the first leaf spring 41a, the distance between the CLK (B) terminal and the first leaf spring 41a and the distance between the HCLK (B) terminal and the first leaf spring 41a are both VBAT ( B) It is shorter than the distance between the terminal and the first leaf spring 41a. The LDET (B) terminal is the same as the VBAT (B) terminal, and the distance between the CLK (B) terminal and the first leaf spring 41a and the distance between the HCLK (B) terminal and the first leaf spring 41a are Is shorter than the distance between the LDET (B) terminal and the first leaf spring 41a. Thus, the CLK (B) terminal and the HCLK (B) terminal are pressed more strongly against the lens side terminal than the VBAT (B) terminal and the LDET (B) terminal.

  Also on the lens side, the CLK (L) terminal and the HCLK (L) terminal are arranged closer to the inner periphery of the lens side first claw portion 39a than the VBAT (L) terminal. In other words, the distance between the CLK (L) terminal and the inner peripheral edge of the lens side first claw portion 39a is shorter than the distance between the VBAT (L) terminal and the inner peripheral edge of the lens side first claw portion 39a, and HCLK (L ) The distance between the terminal and the inner peripheral edge of the lens side first claw portion 39a is shorter than the distance between the VBAT (L) terminal and the inner peripheral edge of the lens side first claw portion 39a. Therefore, the CLK (L) terminal and the HCLK (L) terminal near the lens-side first claw portion 39a are pressed against the corresponding body-side terminals by the first leaf spring 41a in the mounted state. The LDET (L) terminal is also the same as the VBAT (L) terminal, and the distance between the CLK (L) terminal and the first leaf spring 41a in the mounted state and the distance between the HCLK (L) terminal and the first leaf spring 41a. The distance is shorter than the distance between the LDET (L) terminal and the first leaf spring 41a. As a result, the CLK (L) terminal and the HCLK (L) terminal are more strongly pressed against the body side terminal than the LDET (L) terminal in the mounted state. Thereby, even if the CLK (B) terminal and the HCLK (B) terminal are worn, good contact can be maintained, the respective clock signals are stabilized, and stable data communication can be performed. Further, for example, even if an impact is applied to the camera body 2 or the interchangeable lens 3 while maintaining the mounting completion state, the contact between the CLK (B) terminal and the CLK (L) terminal and the HCLK (B) terminal and the HCLK (L) terminal Contact with is kept.

  Even if a part of the lens-side first claw portion 39a is cut out, the entire projection portion and the cut-out portion arranged in the region facing the body-side first claw portion 29a are combined on the lens side. The first claw portion is used. As a notch method, the lens side claw part may be cut out so as to be divided into two or more in the circumferential direction, or the lens side claw part may be cut out so as to be partially cut off. At least a portion may be cut out so that the length in the radial direction is shortened. Moreover, you may change the length of the circumferential direction of a lens side nail | claw part in the range which passes a corresponding body side insertion / extraction part. The same applies to the lens side second claw portion 39b, the lens side third claw portion 39c, and the lens side fourth claw portion 39d. In addition, the thickness of the cylindrical portion in the radial direction can be changed as appropriate, and at least a part of the cylindrical portion may protrude inside the cylindrical portion of the present embodiment.

  As described above, the CLK (B) terminal and the HCLK (B) terminal wear more than the LDET (B) terminal and the VBAT (B) terminal. In the present embodiment, the CLK (B) terminal and the HCLK (B) terminal are arranged in the immediate vicinity of the body side first claw portion 29a. That is, the CLK (B) terminal and the HCLK (B) terminal are arranged at positions closer to the inner peripheral edge of the body side first claw portion 29a than the LDET (B) terminal and the VBAT (B) terminal. In other words, the distance between the CLK (B) terminal and the inner peripheral edge of the body-side first claw portion 29a is larger than the distance between the LDET (B) terminal or VBAT (B) terminal and the inner peripheral edge of the body-side first claw portion 29a. The distance between the HCLK (B) terminal and the inner peripheral edge of the body side first claw portion 29a is shorter than the distance between the LDET (B) terminal or the VBAT (B) terminal and the inner peripheral edge of the body side first claw portion 29a. short. As described above, the first leaf spring 41a is provided on the back side of the body side first claw portion 29a, and the lens side first claw portion 39a is pressed in the + Z direction (FIG. 1) by the first leaf spring 41a. From the viewpoint of the first leaf spring 41a, the distance between the CLK (B) terminal and the first leaf spring 41a and the distance between the HCLK (B) terminal and the first leaf spring 41a are both LDET ( B) The distance is shorter than the distance between the terminal and the VBAT (B) terminal and the first leaf spring 41a.

  Also on the lens side, the CLK (L) terminal and the HCLK (L) terminal are arranged closer to the inner peripheral edge of the lens side first claw portion 39a than the LDET (L) terminal and the VBAT (L) terminal. In other words, the distance between the CLK (L) terminal and the inner peripheral edge of the lens side first claw portion 39a is larger than the distance between the LDET (L) terminal or the VBAT (L) terminal and the inner peripheral edge of the lens side first claw portion 39a. The distance between the HCLK (L) terminal and the inner peripheral edge of the lens side first claw portion 39a is shorter than the distance between the LDET (L) terminal or the VBAT (L) terminal and the inner peripheral edge of the lens side first claw portion 39a. short. Therefore, the CLK (L) terminal and the HCLK (L) terminal near the lens side first claw portion 39a are pressed against the corresponding body side terminals by the first leaf spring 41a. Thus, the CLK (B) terminal and the HCLK (B) terminal are pressed more strongly against the lens side terminal than the LDET (B) terminal and the VBAT (B) terminal. Thereby, even if the CLK (B) terminal and the HCLK (B) terminal are worn, good contact can be maintained, and stable communication can be performed. Further, for example, even if an impact is applied to the camera body 2 or the interchangeable lens 3 while the mounting completion state is maintained, contact between the CLK (B) terminal and the HCLK (B) terminal and the lens side terminal is maintained.

  In the present embodiment, the CLK (B) terminal and the HCLK (B) terminal are also near the body-side fourth claw portion 29d. That is, the CLK (B) terminal and the HCLK (B) terminal are arranged at a position closer to the body side fourth claw portion 29d than the VBAT (B) terminal and the LDET (B) terminal. In other words, the distance between the CLK (B) terminal and the body side fourth claw portion 29d is shorter than the distance between the VBAT (B) terminal or the LDET (B) terminal and the body side fourth claw portion 29d, and HCLK (B ) The distance between the terminal and the body side fourth claw portion 29d is shorter than the distance between the VBAT (B) terminal or the LDET (B) terminal and the body side fourth claw portion 29d. As described above, the fourth leaf spring 41d is provided on the back side of the body side fourth claw portion 29d, and the lens side fourth claw portion 39d is pressed in the + Z direction (FIG. 1) by the fourth leaf spring 41d. Therefore, the CLK (B) terminal and the HCLK (B) terminal near the lens side fourth claw portion 39d are connected to the VBAT (B) terminal and the LDET (B) terminal by the first leaf spring 41a and the fourth leaf spring 41d. Can be stably pressed against the lens side terminal.

  The distance between the CLK (B) terminal and the body side first claw portion 29a (the same applies to the body side fourth claw portion 29d, but will be omitted below) is the distance between one end of the body side first claw portion 29a. This is a linear distance from the CLK (B) terminal, and may be defined by a linear distance between the other end of the body-side first claw portion 29a and the CLK (B) terminal. Alternatively, the above-described distance between the CLK (B) terminal and the body-side first claw portion 29a is an intermediate position of the body-side first claw portion 29a in the circumferential direction of the body-side mount 21 and the CLK (B) terminal. It may be defined by a straight line distance. The distances between other body side terminals such as the HCLK (B) terminal, VBAT (B) terminal, LDET (B) terminal and the like and the body side first claw portion 29a are also linear distances. Similarly, the distance between the first leaf spring 41a (fourth leaf spring 41d) and the body side terminal is also a linear distance.

  The distance between the CLK (B) terminal and the body side first claw portion 29a (the same applies to the body side fourth claw portion 29d, but will be omitted below) is the circumferential direction of the body side mount 21. The arc-shaped distance between one end of the body-side first claw portion 29a and the CLK (B) terminal may be defined, or the arc-shaped distance between the other end of the body-side first claw portion 29a and the CLK (B) terminal. It may be defined as a distance. Alternatively, the above-described distance between the CLK (B) terminal and the body-side first claw portion 29a is an intermediate position of the body-side first claw portion 29a in the circumferential direction of the body-side mount 21 and the CLK (B) terminal. It may be defined as an arc-shaped distance. The distances between other body side terminals, such as the HCLK (B) terminal, VBAT (B) terminal, and LDET (B) terminal, and the body side first claw portion 29a are also arc-shaped distances. Similarly, the distance between the first leaf spring 41a (fourth leaf spring 41d) and the body side terminal is also an arcuate distance.

  Although the above has been described for the camera body 2, the same applies to the interchangeable lens 3. In the present embodiment, the CLK (L) terminal and the HCLK (L) terminal are arranged in the immediate vicinity of the lens side first claw portion 39a. That is, the CLK (L) terminal and the HCLK (L) terminal are arranged at a position closer to the lens side first claw portion 39a than the VBAT (L) terminal and the LDET (L) terminal. In other words, the distance between the CLK (L) terminal and the lens side first claw portion 39a is shorter than the distance between the VBAT (L) terminal or LDET (L) terminal and the lens side first claw portion 39a, and HCLK (L ) The distance between the terminal and the lens side first claw portion 39a is shorter than the distance between the VBAT (L) terminal or the LDET (L) terminal and the lens side first claw portion 39a. The lens-side first claw portion 39a is pressed in the + Z direction (FIG. 1) by the body-side first leaf spring 41a. Therefore, the CLK (L) terminal and the HCLK (L) terminal near the first claw portion 39a on the lens side are more body than the VBAT (L) terminal or the LDET (L) terminal by the first leaf spring 41a. Strongly pressed against the side terminal.

  In the present embodiment, as shown in FIG. 5A, the CLK (B) terminal and the HCLK (B) terminal are connected to the center position of the opening of the mount 21 (that is, the position of the optical axis O of the interchangeable lens 3) and the circle. It arrange | positioned inside the sector shape (range of the angle 50) formed with the arc-shaped body side 1st nail | claw part 29a. Alternatively, the CLK (B) terminal and the HCLK (B) terminal are connected at the center position of the opening of the mount 21 (that is, the position of the optical axis O of the interchangeable lens 3) and both ends on the inner peripheral side of the body side first claw portion 29a. Arranged inside the triangular area to be formed. Therefore, the body-side first claw portion 29a does not exist on the extended line of the alternate long and short dash line 51 connecting the center position of the opening of the mount 21 and the LDET (B) terminal, but the center position of the opening of the mount 21 and HCLK (B) The body side first claw portion 29a exists on the extended line of the alternate long and short dash line 52 connecting the terminal, and the body side first nail part 29a is present on the extended line of the alternate long and short dashed line 53 connecting the center position of the opening of the mount 21 and the CLK (B) terminal. There is one claw portion 29a. Thereby, in the mounting completion state, the CLK (B) terminal and the HCLK (B) terminal are pressed more strongly against the corresponding lens side terminal than the LDET (B) terminal.

  As shown in FIG. 6, the CLK (L) terminal and the HCLK (L) terminal are connected to the center position of the opening of the mount 31 (that is, the position of the optical axis O of the interchangeable lens 3) and the arc-shaped lens side first claw portion 39a. And arranged inside a sector (range of angle 60). Alternatively, the CLK (L) terminal and the HCLK (L) terminal are formed by the center position of the opening of the mount 31 (that is, the position of the optical axis O of the interchangeable lens 3) and both ends on the outer peripheral side of the lens side first claw portion 39a. Placed inside the triangular area. Therefore, the lens side first claw portion 39a does not exist on the extended line of the alternate long and short dash line 61 that connects the center position of the opening of the mount 31 and the LDET (L) terminal, but the center position of the opening of the mount 31 and HCLK (L) The first claw portion 39a on the lens side is present on the extended line of the alternate long and short dash line 62 connecting the terminal, and the first lens side claw portion 39a is present on the extended line of the dashed line 63 connecting the center position of the opening of the mount 31 and the CLK (L) terminal. There is one claw portion 39a. Thereby, in the mounting completion state, the CLK (L) terminal and the HCLK (L) terminal come into contact with the corresponding body side terminal more stably than the LDET (L) terminal. In other words, the CLK (L) terminal and the HCLK (L) terminal are more strongly pressed against the body side terminal than the LDET (L) terminal. Therefore, even when the tips of the CLK (B) terminal and the HCLK (B) terminal are worn, the communication of the clock signal between the camera body 2 and the interchangeable lens 3 is performed stably.

  Note that although the CLK (B) terminal, the CLK (L) terminal, the HCLK (B) terminal, and the HCLK (L) terminal have been described in this embodiment mode, the HDATA (B) terminal, HDATA, which are other communication terminals. The same applies to the (L) terminal, the DATAL (B) terminal, the DATAL (L) terminal, the DATAB (B) terminal, and the DATAB (L) terminal. In other words, the HDATA (B) terminal, DATAL (B) terminal, and DATAB (B) terminal are arranged closer to the body side first claw portion 29a and the first leaf spring 41a than the LDET (B) terminal and VBAT (B) terminal. (Distance is short). As a result, the HDATA (B) terminal, DATAL (B) terminal, and DATAB (B) terminal are pressed more strongly against the lens side terminal than the VBAT (B) terminal and the LDET (B) terminal, Good contact can be maintained. Further, the HDATA (L) terminal, DATAL (L) terminal, and DATAB (L) terminal are arranged at positions closer to the lens side first claw portion 39a than the LDET (L) terminal and VBAT (L) terminal (distance is short). As a result, the HDATA (L) terminal, DATAL (L) terminal, and DATAB (L) terminal are pressed more strongly against the body side terminal than the VBAT (L) terminal and LDET (L) terminal, Good contact can be maintained.

(Second Embodiment)
Next, the interchangeable lens 3A of the camera system 1 according to the second embodiment will be described. FIG. 7 is a circuit diagram schematically showing an electrical connection between the camera body 2 and the interchangeable lens 3A according to the second embodiment. As shown in FIG. 7, the lens side terminal holding portion 32A provided in the interchangeable lens 3A according to the second embodiment has an LDET (L) terminal, VBAT, similarly to the interchangeable lens 3 according to the first embodiment. (L) terminal, PGND (L) terminal, V33 (L) terminal, GND (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) L) It has a terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding portion 32A provided in the interchangeable lens 3A according to the second embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. The clock signal is not input from the camera body 2.

  The interchangeable lens 3A according to the second embodiment is configured to synchronize data transmission / reception by command data communication, for example, by a method similar to a communication method by so-called start-stop synchronization. At the start of command data communication, the signal sequence received by the lens side communication unit 34A from the body side communication unit 24 via the DATAB (B) terminal and the DATAB (L) terminal is constant. Therefore, the lens-side control unit 33A identifies the signal sequence received from the body-side communication unit 24 at the start of command data communication, and obtains the cycle timing and clock frequency required for data transmission / reception synchronization by command data communication. Is possible.

  Similar to the operation of the interchangeable lens 3 according to the first embodiment described with reference to FIG. 3, the lens side control unit 33A of the interchangeable lens 3A according to the second embodiment is obtained by the method described above. Using the cycle timing and the clock frequency, the body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal, and the lens to the body side communication unit 34 via the DATAL (L) terminal. Sends the side data signal. The interchangeable lens 3A according to the second embodiment includes an ASIC (application specific integrated circuit) having a dedicated circuit for obtaining a cycle timing and a clock frequency necessary for synchronization of data transmission / reception by command data communication. Also good.

  Further, the lens side terminal holding portion 32A of the interchangeable lens 3A according to the second embodiment has a configuration in which terminals other than the CLK (L) terminal in the example shown in FIG. 6 are arranged. That is, the lens-side terminal holding portion 32A of the interchangeable lens 3A has LDET (L), VBAT (L), PGND (L), V33 (L), GND (L), RDY (L), DATAB (L), and DATAL. (L), HCLK (L), and HDATA (L) terminals are arranged.

(Third embodiment)
Next, an interchangeable lens 3B of the camera system 1 according to the third embodiment will be described. FIG. 8 is a circuit diagram schematically showing an electrical connection between the camera body 2 and the interchangeable lens 3B according to the third embodiment. As shown in FIG. 8, the lens side terminal holding portion 32B provided in the interchangeable lens 3B according to the third embodiment has an LDET (L) terminal, VBAT, as in the interchangeable lens 3 according to the first embodiment. (L) terminal, PGND (L) terminal, V33 (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding part 32B provided in the interchangeable lens 3B according to the third embodiment does not include the GND (L) terminal of the interchangeable lens 3 according to the first embodiment. Further, the lens side terminal holding portion 32B provided in the interchangeable lens 3B according to the third embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. The clock signal to be used is not input from the camera body 2.

  For this reason, in the interchangeable lens 3B according to the third embodiment, the PGND (L) terminal is used as the ground potential (ground) of the power supply voltage of the drive system, and is connected to each unit such as the lens side control unit 33B. And used as a ground potential (ground) of the power supply voltage of the circuit system. A bypass capacitor C2 is connected between the V33 (L) terminal and the PGND (L) terminal.

  Further, the lens control unit 33B of the interchangeable lens 3B according to the third embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  Further, the lens side terminal holding portion 32B of the interchangeable lens 3B according to the third embodiment has a configuration in which terminals other than the GND (L) terminal and the CLK (L) terminal in the example shown in FIG. 6 are arranged. Prepare. That is, the lens-side terminal holding part 32B of the interchangeable lens 3B has LDET (L), VBAT (L), PGND (L), V33 (L), RDY (L), DATAB (L), DATAL (L), and HCLK. (L) and HDATA (L) terminals are arranged.

(Fourth embodiment)
Next, an interchangeable lens 3C of the camera system 1 according to the fourth embodiment will be described. FIG. 9 is a circuit diagram schematically showing electrical connection between the camera body 2 and the interchangeable lens 3C according to the fourth embodiment. As shown in FIG. 9, the lens side terminal holding portion 32C provided in the interchangeable lens 3C according to the fourth embodiment has an LDET (L) terminal, VBAT, similarly to the interchangeable lens 3 according to the first embodiment. (L) terminal, V33 (L) terminal, GND (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding portion 32C provided in the interchangeable lens 3C according to the fourth embodiment does not include the PGND (L) terminal of the interchangeable lens 3 according to the first embodiment. Further, the lens side terminal holding unit 32C included in the interchangeable lens 3C according to the fourth embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. The clock signal to be used is not input from the camera body 2.

  For this reason, in the interchangeable lens 3C according to the fourth embodiment, the GND (L) terminal is used as the ground potential (ground) of the power supply voltage of the circuit system, and is connected to each unit such as the drive unit 37. It is also used as the ground potential (ground) of the power supply voltage of the drive system. A bypass capacitor C1 is connected between the VBAT (L) terminal and the GND (L) terminal, and a bypass capacitor C2 is connected between the V33 (L) terminal and the GND (L) terminal.

  Further, the lens control unit 33C of the interchangeable lens 3C according to the fourth embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  Further, the lens side terminal holding portion 32C of the interchangeable lens 3C according to the fourth embodiment has a configuration in which terminals other than the PGND (L) terminal and the CLK (L) terminal in the example shown in FIG. 6 are arranged. Prepare. That is, the lens-side terminal holding portion 32C of the interchangeable lens 3C has LDET (L), VBAT (L), V33 (L), GND (L), RDY (L), DATAB (L), DATAL (L), and HCLK. (L) and HDATA (L) terminals are arranged.

(Fifth embodiment)
Next, an interchangeable lens 3D of the camera system 1 according to the fifth embodiment will be described. FIG. 10 is a circuit diagram schematically showing an electrical connection between the camera body 2 and the interchangeable lens 3D according to the fifth embodiment. As shown in FIG. 10, the lens side terminal holding part 32D provided in the interchangeable lens 3D according to the fifth embodiment has an LDET (L) terminal, VBAT, as in the interchangeable lens 3 according to the first embodiment. (L) terminal, PGND (L) terminal, GND (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding unit 32D provided in the interchangeable lens 3D according to the fifth embodiment does not include the V33 (L) terminal of the interchangeable lens 3 according to the first embodiment, and the lens side control unit 33D and the like. Is not supplied from the camera body 2. Further, the lens side terminal holding unit 32D provided in the interchangeable lens 3D according to the fifth embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. No clock signal is input from the camera body 2.

  For this reason, the interchangeable lens 3 </ b> D according to the fifth embodiment includes a DC / DC converter 50. The DC / DC converter 50 is, for example, a step-down voltage conversion circuit, and is connected to the VBAT (L) terminal and the lens side control unit 33D. The DC / DC converter 50 converts the power supply voltage supplied from the camera body 2 via the VBAT (L) terminal, and supplies power to the lens side control unit 33D and the like. A bypass capacitor C2 is connected between the power supply wiring from the DC / DC converter 50 to the lens side control unit 33D and the like and the GND (L) terminal.

  Further, the lens control unit 33D of the interchangeable lens 3D according to the fifth embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  The lens side terminal holding portion 32D of the interchangeable lens 3D according to the fifth embodiment has a configuration in which terminals other than the V33 (L) terminal and the CLK (L) terminal in the example illustrated in FIG. 6 are arranged. Prepare. That is, the lens side terminal holding part 32D of the interchangeable lens 3D has LDET (L), VBAT (L), PGND (L), GND (L), RDY (L), DATAB (L), DATAL (L), HCLK (L) and HDATA (L) terminals are arranged.

(Sixth embodiment)
Next, an interchangeable lens 3E of the camera system 1 according to the sixth embodiment will be described. FIG. 11 is a circuit diagram schematically showing electrical connection between the camera body 2 and the interchangeable lens 3E according to the sixth embodiment. As shown in FIG. 11, the lens-side terminal holding portion 32E provided in the interchangeable lens 3E according to the sixth embodiment is similar to the interchangeable lens 3 according to the first embodiment in that the LDET (L) terminal, PGND (L) terminal, V33 (L) terminal, GND (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding unit 32E provided in the interchangeable lens 3E according to the sixth embodiment does not include the VBAT (L) terminal of the interchangeable lens 3 according to the first embodiment, and is supplied to the drive unit 37 and the like. The power of the drive system for this is not supplied from the camera body 2. Further, the lens side terminal holding part 32E provided in the interchangeable lens 3E according to the sixth embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. No clock signal is input from the camera body 2.

  For this reason, the interchangeable lens 3E according to the sixth embodiment includes a DC / DC converter 51. The DC / DC converter 51 is, for example, a step-up voltage conversion circuit, and is connected to the V33 (L) terminal and the drive unit 37. The DC / DC converter 51 converts the power supply voltage supplied from the camera body 2 via the V33 (L) terminal, and supplies power to a drive system circuit such as the drive unit 37. A bypass capacitor C1 is connected between the power supply wiring from the DC / DC converter 51 to the drive unit 37 and the like and the PGND (L) terminal.

  Further, the lens control unit 33E of the interchangeable lens 3E according to the sixth embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  Further, the lens side terminal holding part 32E of the interchangeable lens 3E according to the sixth embodiment has a configuration in which terminals other than the VBAT (L) terminal and the CLK (L) terminal in the example shown in FIG. 6 are arranged. . In other words, the lens side terminal holding portion 32D of the interchangeable lens 3D has LDET (L), PGND (L), V33 (L), GND (L), RDY (L), DATAB (L), DATAL (L), and HCLK. (L) and HDATA (L) terminals are arranged.

(Seventh embodiment)
Next, an interchangeable lens 3F of the camera system 1 according to the seventh embodiment will be described. The description of the configuration common to the first embodiment described above is omitted. FIG. 12 is a circuit diagram schematically showing electrical connection between the camera body 2 and the interchangeable lens 3F according to the seventh embodiment. As shown in FIG. 12, the lens-side terminal holding portion 32F included in the interchangeable lens 3F according to the seventh embodiment is similar to the interchangeable lens 3 according to the first embodiment in that the LDET (L) terminal, VBAT ( L) terminal, PGND (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding portion 32F provided in the interchangeable lens 3F according to the seventh embodiment does not include the V33 (L) terminal and the GND (L) terminal of the interchangeable lens 3 according to the first embodiment. Electric power for supplying to the lens side control unit 33F or the like is not supplied from the camera body 2. Further, the lens side terminal holding portion 32F included in the interchangeable lens 3F according to the seventh embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. No clock signal is input from the camera body 2.

  For this reason, the interchangeable lens 3 </ b> F according to the seventh embodiment includes a DC / DC converter 52. The DC / DC converter 52 is, for example, a step-down voltage conversion circuit, and is connected to the VBAT (L) terminal and the lens side control unit 33F. The DC / DC converter 52 converts the power supply voltage supplied from the camera body 2 via the VBAT (L) terminal to supply power to the lens side control unit 33F and the like.

  In the interchangeable lens 3F according to the seventh embodiment, the PGND (L) terminal is used as a ground potential (ground) of the power supply voltage of the driving system and is connected to each unit such as the lens side control unit 33F. It is used as the ground potential (ground) of the power supply voltage of the circuit system. A bypass capacitor C2 is connected between the power supply wiring from the DC / DC converter 52 to the lens side control unit 33F and the like and the PGND (L) terminal.

  Further, the lens control unit 33F of the interchangeable lens 3F according to the seventh embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  Further, the lens-side terminal holding portion 32F of the interchangeable lens 3F according to the seventh embodiment has terminals other than the V33 (L) terminal, the GND (L) terminal, and the CLK (L) terminal in the example shown in FIG. It has an arranged configuration. That is, the lens side terminal holding portion 32F of the interchangeable lens 3F includes LDET (L), VBAT (L), PGND (L), RDY (L), DATAB (L), DATAL (L), HCLK (L), and HDATA. (L) Each terminal is provided.

(Eighth embodiment)
Next, an interchangeable lens 3G of the camera system 1 according to the eighth embodiment will be described. The description of the configuration common to the first embodiment described above is omitted. FIG. 12 is a circuit diagram schematically showing electrical connection between the camera body 2 and the interchangeable lens 3G according to the eighth embodiment. As shown in FIG. 12, the lens side terminal holding portion 32G included in the interchangeable lens 3G according to the eighth embodiment has an LDET (L) terminal, VBAT, as in the interchangeable lens 3 according to the first embodiment. (L) terminal, GND (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding part 32G provided in the interchangeable lens 3G according to the seventh embodiment does not include the PGND (L) terminal and the V33 (L) terminal of the interchangeable lens 3 according to the first embodiment. Electric power for supplying to the lens side control unit 33G or the like is not supplied from the camera body 2. The lens side terminal holding part 32G provided in the interchangeable lens 3G according to the eighth embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. No clock signal is input from the camera body 2.

  For this reason, the interchangeable lens 3G according to the eighth embodiment includes a DC / DC converter 53. The DC / DC converter 53 is, for example, a step-down voltage conversion circuit, and is connected to the VBAT (L) terminal and the lens side control unit 33G. The DC / DC converter 53 converts the power supply voltage supplied from the camera body 2 via the VBAT (L) terminal, and supplies power to the lens side control unit 33G and the like.

  In the interchangeable lens 3G according to the eighth embodiment, the GND (L) terminal is used as a ground potential (ground) of the power supply voltage of the circuit system and is connected to each unit such as the drive unit 37 to drive the interchangeable lens 3G. It is also used as the ground potential (ground) of the system power supply voltage. A bypass capacitor C1 is connected between the VBAT (L) terminal and the GND (L) terminal. Between the power supply wiring from the DC / DC converter 53 to the lens side control unit 33G and the GND (L) terminal. Is connected to a bypass capacitor C2.

  Further, the lens control unit 33G of the interchangeable lens 3G according to the eighth embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  The lens side terminal holding portion 32G of the interchangeable lens 3G according to the eighth embodiment has terminals other than the PGND (L) terminal, the V33 (L) terminal, and the CLK (L) terminal in the example shown in FIG. It has an arranged configuration. That is, the lens side terminal holding part 32G of the interchangeable lens 3G has LDET (L), VBAT (L), GND (L), RDY (L), DATAB (L), DATAL (L), HCLK (L), HDATA. (L) Each terminal is provided.

(Ninth embodiment)
Next, an interchangeable lens 3H of the camera system 1 according to the ninth embodiment will be described. The description of the configuration common to the first embodiment described above is omitted. FIG. 14 is a circuit diagram schematically showing electrical connection between the camera body 2 and the interchangeable lens 3H according to the ninth embodiment. As shown in FIG. 14, the lens side terminal holding portion 32H provided in the interchangeable lens 3H according to the ninth embodiment includes an LDET (L) terminal, PGND, as in the interchangeable lens 3 according to the first embodiment. (L) terminal, V33 (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding portion 32H provided in the interchangeable lens 3H according to the ninth embodiment does not include the VBAT (L) terminal and the GND (L) terminal of the interchangeable lens 3 according to the first embodiment. The power of the drive system for supplying to the drive unit 37 or the like is not supplied from the camera body 2. The lens side terminal holding part 32H provided in the interchangeable lens 3H according to the ninth embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. No clock signal is input from the camera body 2.

  For this reason, the interchangeable lens 3H according to the ninth embodiment includes a DC / DC converter 54. The DC / DC converter 54 is, for example, a step-up voltage conversion circuit, and is connected to the V33 (L) terminal and the drive unit 37. The DC / DC converter 54 converts the power supply voltage supplied from the camera body 2 via the V33 (L) terminal, and supplies power to a drive system circuit such as the drive unit 37.

  In the interchangeable lens 3H according to the ninth embodiment, the PGND (L) terminal is used as a ground potential (ground) of the power supply voltage of the drive system and is connected to each unit such as the lens side control unit 33H. It is used as the ground potential (ground) of the power supply voltage of the circuit system. A bypass capacitor C1 is connected between the power supply wiring from the DC / DC converter 54 to the drive unit 37 and the like and the PGND (L) terminal.

  Further, the lens control unit 33H of the interchangeable lens 3H according to the ninth embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  In addition, the lens side terminal holding portion 32H of the interchangeable lens 3H according to the ninth embodiment has terminals other than the VBAT (L) terminal, the GND (L) terminal, and the CLK (L) terminal in the example illustrated in FIG. It has an arranged configuration. That is, the lens side terminal holding portion 32H of the interchangeable lens 3H includes LDET (L), PGND (L), V33 (L), RDY (L), DATAB (L), DATAL (L), HCLK (L), and HDATA. (L) Each terminal is provided.

(Tenth embodiment)
Next, an interchangeable lens 3I of the camera system 1 according to the tenth embodiment will be described. The description of the configuration common to the first embodiment described above is omitted. FIG. 15 is a circuit diagram schematically showing electrical connection between the camera body 2 and the interchangeable lens 3I according to the tenth embodiment. As shown in FIG. 15, the lens side terminal holding portion 32I provided in the interchangeable lens 3I according to the tenth embodiment has an LDET (L) terminal, V33, similarly to the interchangeable lens 3 according to the first embodiment. (L) terminal, GND (L) terminal, RDY (L) terminal, DATAB (L) terminal, DATAL (L) terminal, HCLK (L) terminal, and HDATA (L) terminal. Since the functions and roles of these terminals are the same as those of the interchangeable lens 3 according to the first embodiment, description thereof will be omitted. The lens side terminal holding portion 32I provided in the interchangeable lens 3I according to the tenth embodiment does not include the VBAT (L) terminal and the PGND (L) terminal of the interchangeable lens 3 according to the first embodiment. The power of the drive system for supplying to the drive unit 37 or the like is not supplied from the camera body 2. Further, the lens side terminal holding unit 32I provided in the interchangeable lens 3I according to the tenth embodiment does not include the CLK (L) terminal of the interchangeable lens 3 according to the first embodiment, and is used for command data communication. No clock signal is input from the camera body 2.

  For this reason, the interchangeable lens 3I according to the tenth embodiment includes a DC / DC converter 55. The DC / DC converter 55 is, for example, a step-up voltage conversion circuit, and is connected to the V33 (L) terminal and the drive unit 37. The DC / DC converter 55 converts the power supply voltage supplied from the camera body 2 via the V33 (L) terminal, and supplies power to a drive system circuit such as the drive unit 37.

  In the interchangeable lens 3I according to the tenth embodiment, the GND (L) terminal is used as a ground potential (ground) of the power supply voltage of the circuit system, and is connected to each unit such as the drive unit 37 to be driven. It is also used as the ground potential (ground) of the system power supply voltage. A bypass capacitor C1 is connected between the power supply wiring from the DC / DC converter 55 to the drive unit 37 and the like and the GND (L) terminal.

  Further, the lens control unit 33I of the interchangeable lens 3I according to the tenth embodiment receives from the body side communication unit 24 at the start of command data communication, similarly to the interchangeable lens 3A according to the second embodiment described above. The body side command signal is received from the body side communication unit 34 via the DATAB (L) terminal and the DATAL (L) terminal is used using the cycle timing and the clock frequency obtained by identifying the signal sequence. The lens side data signal is transmitted to the body side communication unit 34.

  In addition, the lens-side terminal holding unit 32I of the interchangeable lens 3I according to the tenth embodiment includes terminals other than the VBAT (L) terminal, the PGND (L) terminal, and the CLK (L) terminal in the example illustrated in FIG. It has an arranged configuration. That is, the lens-side terminal holding portion 32H of the interchangeable lens 3H includes LDET (L), V33 (L), GND (L), RDY (L), DATAB (L), DATAL (L), HCLK (L), and HDATA. (L) Each terminal is provided.

The second to tenth embodiments also have the effect of suppressing the effects of various types of noise as described below, as in the first embodiment. The RDY terminal is arranged so as not to be adjacent to any of the VBAT terminal and the HCLK terminal which are noise sources. As a result, the influence of noise on the RDY terminal used to indicate whether command communication is possible can be suppressed.
Further, the HCLK terminal that is a noise source is sandwiched between the HDATA terminal and the DATA terminal, and the CLK terminal is sandwiched between the DATA terminal and the DATA B terminal. That is, the HDATA terminal, the HCLK terminal, the DATAL terminal, and the DATAB terminal are arranged in order from the rear end in the mounting direction. Thereby, the influence by the noise resulting from the clock signal to the RDY terminal or the like can be suppressed.
Further, in consideration of the influence of noise, the power supply terminal group and the terminal group used for communication are arranged apart from each other across the RDY terminal. More specifically, a VBAT terminal, a PGND terminal, a V33 terminal, and a GND terminal, which are power supply terminals, are arranged in order from the front end side on the front end side in the mounting direction across the RDY terminal, and communication is performed on the rear end side in the mounting direction. The terminals to be used were DATAB terminal, DATAL terminal, HCLK terminal, and HDATA terminal arranged in this order from the tip side. Thereby, it is possible to suppress the influence of the power supply system terminal group such as the VBAT terminal on the terminals used for communication. Further, it is possible to suppress the influence of noise on the power supply system terminal group such as the VBAT terminal and the RDY terminal of the terminal group used for communication such as the HCLK terminal.

  In the HCLK terminal and the GND terminal, the HCLK terminal is arranged at a position farther from the VBAT terminal than the GND terminal. Further, a PGND terminal is disposed between the GND terminal and the VBAT terminal. Thereby, it is possible to shield noise caused by the VBAT terminal to the HCLK terminal to which the clock signal (H clock signal) used for hot line communication is sent.

The following modifications are possible, and one or a plurality of modifications can be combined with the above-described embodiment.
(Modification 1)
Any terminal used for command data communication or hotline communication may have a function of transmitting a power-on signal from the interchangeable lens 3 to the camera body 2. For example, the interchangeable lens 3 is provided with a power switch function. Even when the interchangeable lens 3 is completely attached and the camera system 1 is in a power-off state, the power supply unit 26 supplies power from the V33 (B) terminal to the lens-side control unit 33 of the interchangeable lens 3. When the power switch of the interchangeable lens 3 is operated, the lens-side control unit 33 outputs a power-on signal to the RDY (L) terminal via the lens-side communication unit 34, for example. When the body-side control unit 23 detects a power-on signal via the RDY (B) terminal via the body-side communication unit 24, the same as when a power switch (not shown) provided on the camera body 2 is operated. The camera system 1 is changed from the power-off state to the power-on state.

(Modification 2)
In the embodiment, the DATAB (B) terminal is arranged on the front end side in the mounting direction of the CLK (B) terminal, and the DATAL (B) terminal is arranged on the rear end side, but the positions of the DATAB (B) terminal and the DATAL (B) terminal are arranged. May be replaced. That is, you may arrange | position in order of a DATAL (B) terminal, a CLK (B) terminal, and a DATAB (B) terminal from the front end side of a mounting direction.

  In addition, regarding each terminal of the lens-side terminal group described in each of the embodiments described above, the LDET (L) terminal may be referred to as a detection terminal. Further, the VBAT (L) terminal may be referred to as a power supply terminal or a first power supply terminal. Further, the PGND (L) terminal may be referred to as a ground terminal or a first ground terminal. Further, the V33 (L) terminal may be referred to as a power supply terminal or a second power supply terminal. Further, the GND (L) terminal may be referred to as a ground terminal or a second ground terminal. Further, the RDY (L) terminal may be referred to as a ready terminal. The DATAB (L) terminal may be referred to as a data terminal or a first data terminal. Further, the CLK (L) terminal may be referred to as a clock terminal or a first clock terminal. Further, the DATAL (L) terminal may be referred to as a data terminal or a second data terminal. Further, the HCLK (L) terminal may be referred to as a clock terminal or a second clock terminal. Further, the HDATA (L) terminal may be referred to as a data terminal or a third data terminal.

  In the above embodiment, the interchangeable lens of the camera has been described as an example as an accessory, but the accessory is not limited to the interchangeable lens. For example, a teleconverter, a wide converter, or a close-up ring that is mounted between the camera body and the interchangeable lens and changes the focal length of the interchangeable lens may be used. Or it is applicable also to the mount adapter etc. which can mount | wear with the accessory containing the interchangeable lens of another mount standard in the mount standard of the camera body mentioned above. That is, any accessory can be used as long as it is attached to the mount of the camera body. In this case, the lens side terminal group, the lens side claw portion 39, the lens side communication portion 34, and the like correspond to the accessory side terminal group, the accessory side protruding portion, the accessory side communication portion, and the like of each accessory. In the above embodiment, the camera body is an accessory that can be attached to and detached from the camera body. However, the camera body is a mount adapter that allows an interchangeable lens of the mount standard described above to be mounted on a camera body different from the mount standard described above. Alternatively, the above-described accessory may be attached to the mount adapter.

DESCRIPTION OF SYMBOLS 1 ... Camera system, 2 ... Camera body 3, 3A, 3B, 3C, 3D, 3E, 3F, 3G, 3H, 3I ... Interchangeable lens, 21 ... Body side mount, 22 ... Body side terminal holding part, 31 ... Lens Side mount, 32, 32A, 32B, 32C, 32D, 32E, 32F, 32G, 32H, 32I ... Lens side terminal holding part

Claims (15)

An accessory that can be attached to and detached from the camera body and includes a plurality of terminals.
A detection terminal for causing the camera body to detect attachment of the accessory;
A first power supply terminal to which a first power supply voltage is supplied from the camera body;
A first ground terminal used as a ground potential of the first power supply terminal;
A second power supply terminal to which a second power supply voltage is supplied from the camera body;
A second ground terminal used as a ground potential of the second power supply terminal;
A ready terminal used to indicate whether communication with the camera body is possible;
A first data terminal to which a first data signal is input from the camera body;
A second data terminal for outputting a second data signal to the camera body;
A clock terminal for outputting a clock signal to the camera body;
A third data terminal for outputting a third data signal to the camera body in synchronization with the clock signal;
The first power terminal that is a power system terminal, the first ground terminal, the second power terminal, the second ground terminal, the first data terminal that is a communication system terminal, the second data terminal, The clock terminal and the third data terminal are accessories arranged with the ready terminal interposed therebetween. The accessory according to claim 1, wherein
Between the first power supply terminal and the ready terminal, the first ground terminal, the second power supply terminal, and the second ground terminal are disposed,
An accessory in which the first data terminal and the second data terminal are arranged between the ready terminal and the clock terminal. The accessory according to claim 1 or 2,
An optical system including a driven member;
A drive unit for driving the driven member;
An accessory that drives the drive unit with the first power supply voltage. The accessory according to claim 3,
The driven member is a member that is movable in the optical axis direction of the optical system, a member that is movable so as to include a component in a direction perpendicular to the optical axis direction, or a size of an aperture through which a light beam passes. Including any of the movable members. In the accessory as described in any one of Claim 1- Claim 4,
The second power supply voltage supplied via the second power supply terminal includes the input of the first data signal using the first data terminal and the second power supply voltage to the camera body using the second data terminal. An accessory used for outputting two data signals and outputting the third data signal synchronized with the clock signal to the camera body using the third data terminal. In the accessory according to any one of claims 1 to 5,
The second power supply voltage is an accessory lower than the first power supply voltage. In the accessory as described in any one of Claim 1- Claim 6,
The ready terminal is an accessory that outputs a signal indicating whether or not the communication is possible based on the first data signal and the second data signal. The accessory according to any one of claims 1 to 7,
The detection terminal is disposed next to the first power supply terminal,
The third data terminal is an accessory arranged next to the clock terminal. The accessory according to any one of claims 1 to 8,
The first ground terminal is disposed next to the first power supply terminal,
The said detection terminal is an accessory arrange | positioned adjacent to the said 1st power supply terminal on the opposite side to the said 1st ground terminal. The accessory according to any one of claims 1 to 9,
The second ground terminal is an accessory arranged next to the second power supply terminal. The accessory according to any one of claims 1 to 8,
The first ground terminal is disposed next to the first power supply terminal,
The second power supply terminal is disposed next to the second ground terminal,
An accessory arranged in the order of the first power terminal, the first ground terminal, the second power terminal, and the second ground terminal. The accessory according to any one of claims 1 to 11,
The second data terminal is disposed next to the clock terminal;
The third data terminal is an accessory disposed next to the clock terminal opposite to the second data terminal. The accessory according to any one of claims 1 to 12,
The second ground terminal is disposed next to the ready terminal,
The first data terminal is an accessory arranged next to the ready terminal opposite to the second ground terminal. The accessory according to any one of claims 1 to 13,
The accessory in which the second data signal is output via the second data terminal at a timing different from the cycle of the clock signal. The accessory according to any one of claims 1 to 14,
The accessory is an interchangeable lens.

Images