JP2019078938A - accessory - Google Patents

Abstract

To provide an accessory capable of performing stable communication with a camera body.SOLUTION: An accessory including a terminal holding part includes: a first terminal for making the mounting of the accessory be detected; a second terminal to which a first electric power is supplied; a third terminal used as an earth terminal of the first electric power; a fourth terminal to which a second electric power is supplied; a fifth terminal used as an earth terminal of the second electric power; a sixth terminal indicating whether communication with the camera body is available or not; an eighth terminal into which a first clock signal is input; a seventh terminal that is synchronized with the first clock signal and into which a first data signal is input; a ninth terminal that is synchronized with the first clock signal to output a third data signal; a tenth terminal that outputs a second clock signal; and an eleventh terminal that is synchronized with the second clock signal to output a second data signal. A distance between the tenth terminal and the second terminal is longer than a distance between the eighth terminal and the second terminal.SELECTED DRAWING: Figure 5

Description

  The present invention relates to accessories.

  There are known accessories that can be attached to and removed from a camera body (e.g., Patent Document 1). Heretofore, it has been necessary to mount the accessory on the camera body in a properly usable state.

Unexamined-Japanese-Patent No. 2004-117380

According to the first aspect, the accessory is an accessory provided with a terminal holding portion that is detachable from the camera body and in which a plurality of terminals are disposed, and the first for causing the camera body to detect attachment of the accessory. A terminal, a second terminal to which the first power is supplied from the camera body, a third terminal used as a ground terminal corresponding to the first power, and a fourth terminal to which the second power is supplied from the camera body A fifth terminal used as a ground terminal corresponding to the second power, a sixth terminal used to indicate whether communication with the camera body is possible, and a first clock signal is input from the camera body An eighth terminal, a seventh terminal to which a first data signal is input from the camera body in synchronization with the first clock signal, and the camera in synchronization with the first clock signal. A second data signal is output to the camera body in synchronization with a ninth terminal for outputting a third data signal to the body, a tenth terminal for outputting a second clock signal to the camera body, and the second clock signal. And a distance between the tenth terminal and the second terminal is longer than a distance between the eighth terminal and the second terminal.
According to the second aspect, the accessory is an accessory provided with a terminal holding portion that is detachable from the camera body and in which a plurality of terminals are disposed, and the first for causing the camera body to detect attachment of the accessory. A terminal, a second terminal to which the first power is supplied from the camera body, a third terminal used as a ground terminal corresponding to the first power, and a fourth terminal to which the second power is supplied from the camera body A fifth terminal used as a ground terminal corresponding to the second power, a sixth terminal used to indicate whether communication with the camera body is possible, and a first clock signal is input from the camera body An eighth terminal, a seventh terminal to which a first data signal is input from the camera body in synchronization with the first clock signal, and the camera in synchronization with the first clock signal. A ninth terminal for outputting a third data signal to the body, and an eleventh terminal for outputting a second data signal to the camera body in synchronization with a second clock signal, the eighth terminal and the second terminal Is longer than the distance between the fifth terminal and the second terminal.

Diagram schematically showing the configuration of a camera system A circuit diagram schematically showing the electrical connection between the camera body and the interchangeable lens Timing chart showing an example of command data communication Timing chart showing an example of hotline communication Front view schematically showing the mount 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

First Embodiment
FIG. 1 is a diagram schematically showing 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 detachable 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, 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 portion 32 will be described in detail later.

  The lens control unit 33 includes a microcomputer and its peripheral circuits. The lens communication unit 34 performs data communication to be 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 and the lens side control unit 33. The lens side storage unit 35 is a non-volatile storage medium. The lens side storage unit 35 is connected to the lens side control unit 33. The lens-side storage unit 35 stores, in advance, a predetermined control program and the like that the lens-side control unit 33 executes. 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 an object image on an imaging surface of an imaging device 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 the body side mount 21 described later. The imaging optical system 36 of FIG. 1 schematically includes a lens 36 a, a focus lens 36 b, and a lens 36 c. The focus lens 36 b is a lens that adjusts the imaging position of the subject image. The driving unit 37 is connected to the lens control unit 33, and includes an actuator (not shown). The drive unit 37 drives the focus lens 36 b in the optical axis direction (+ Z direction, −Z direction) by this actuator or the like.

  The camera body 2 includes the body side mount 21, the body side terminal holding portion 22, the body side control portion 23, the body side communication portion 24, the body side storage portion 25, the power feeding portion 26, the image pickup device 27 and a lock pin described later. And a switch 28 for detecting the

  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 in the present case, only the part related to communication will be described, and the other functions will be omitted. The body side communication unit 24 performs data communication to be 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 and the body side control unit 23. A part of the terminals of the body-side terminal holding unit 22 is connected to the body-side control unit 23 as described later. The body side storage unit 25 is a non-volatile storage medium. The body side storage unit 25 is connected to the body side control unit 23. A predetermined control program or the like to be executed by the body side control unit 23 is stored in advance in the body side storage unit 25. 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 supply unit 26 has a power supply and supplies power to the inside of the camera body 2 and the interchangeable lens 3. The 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 imaging device 27 is, for example, a solid-state imaging device such as a CCD or a CMOS. The imaging device 27 is connected to the body side control unit 23, captures an image of a subject, and outputs an imaging signal. Description of 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. The total of 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. The 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 a power supply system connected to the power supply unit 26. In FIG. 2, the direction of the supplied power is indicated by an arrow. The VBAT (B) terminal is a terminal used to supply 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 control unit 33, and the voltage applied to the VBAT (B) terminal by the power supply unit 26 is about 10 V at maximum. In the following description, the voltage applied to the VBAT (B) terminal by the power supply unit 26 is referred to as a drive system voltage. The PGND (B) terminal is a ground terminal corresponding to the VBAT (B) terminal.

  The V33 (B) terminal is a terminal used to supply power 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 through the V33 (B) terminal. Each unit such as the lens 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 supply unit 26 is about 3.3 V at maximum. In the following description, the voltage applied to the V33 (B) terminal by the power supply unit 26 is referred to as a circuit system voltage. The GND (B) terminal is a ground terminal corresponding to the V33 (B) terminal.

  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 terminals of a communication system connected to the body side communication unit 24. The RDY (B) terminal, the DATAB (B) terminal, the CLK (B) terminal, and the DATAL (B) terminal are used for command data communication 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 flow of signals 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 is output 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 the 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, a 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. The total of eleven 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, as shown by a broken line in FIG. 2, the body side terminal and the lens side terminal are electrically connected. 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. Connected, V33 (B) terminal connected to V33 (L) terminal, GND (B) terminal connected to GND (L) terminal, RDY (B) terminal connected to RDY (L) 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. The roles of the individual lens side terminals are the same as the roles of the body side terminals in contact with each other, so the description will be omitted.

  The LDET (L) terminal is grounded via a resistor R3. When the LDET (L) terminal contacts LDET (B), the potential of the LDET (B) terminal is pulled down. The VBAT (L) terminal and the PGND (L) terminal are connected to the drive unit 37. A so-called bypass capacitor C1 is connected between the VBAT (L) terminal and the PGND (L) terminal. The V33 (L) terminal and the GND (L) terminal are connected to each unit such as the lens control unit 33. A bypass capacitor C2 is connected between the V33 (L) terminal and the GND (L) terminal. The RDY (L) terminal, the DATAB (L) terminal, the CLK (L) terminal, the DATAL (L) terminal, the HCLK (L) terminal, and the HDATA (L) terminal are connected to the lens communication unit 34, respectively.

(Description of command data communication)
After transmitting the control command (command) from the body side control unit 23 to the lens side control unit 33 of the interchangeable lens 3, the control content (control data) from the body side control unit 23 and the response content from the lens side control unit 33 Communication that transmits and receives (response data) in parallel is called command data communication. Command data communication is full duplex communication. Command data communication is performed through the body side communication unit 24 and the lens side communication unit 34. The RDY (B) terminal, the RDY (L) terminal, the DATAB (B) terminal, the DATAB (L) terminal, the CLK (B) terminal, CLK 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 contents to the interchangeable lens 3 by command data communication via the body side communication unit 24 and the lens side communication unit 34, and receives response contents from the interchangeable lens 3 Thus, various information is transmitted and received to and from the interchangeable lens 3. The control command here is, for example, a transmission command of lens information. The various information received from the interchangeable lens 3 includes, for example, model information of the interchangeable lens 3 and information indicating optical characteristics such as the focal length of the imaging optical system 36. The various information transmitted to the interchangeable lens 3 are, for example, control contents such as the amount of drive of the lens, model information of the camera body 2 and the like. The control command also 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 by command data communication, acquires various information from the body side control unit 23, and various information to the body side control unit 23. Send

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

  If the signal level of the RDY (B) terminal is low level (L level) at the start of command data communication (T1), the body side control unit 23 receives the signal from the CLK (B) terminal through the body side communication unit 24. The clock signal 401 is output. That is, the body side control unit 23 transmits the clock signal 401 to the lens side control unit 33 through the CLK (B) terminal and the CLK (L) terminal. The frequency of repeating the high level and the low level of the clock signal 401 in FIG. 3 is, for example, 8 MHz. The body side control unit 23 outputs a body side command signal 402 which is a control command from the DATAB (B) terminal in synchronization with the clock signal 401. 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 switching between the high level and the low level of DATAB in FIG. 3 is a signal representing control that the body side control unit 23 instructs the lens side control unit 33 by 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 driving of the focus lens 36 b is instructed.

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 unit 33 uses the error detection code (for example, checksum data etc.) included in the body side command signal 402 to A check process is performed to check the presence or absence of a communication error 402. Thereafter, the lens controller 33 sets the signal level of the RDY (L) terminal to the high level (H level) (T2). When the signal level of the RDY (B) terminal is high level, the body side control unit 23 does not transmit the body side command signal 402.
The lens side control unit 33 starts the first control process 404 based on the instruction of the received body side command signal 402.

When the first control process 404 is completed, the lens control unit 33 sets the signal level of the RDY (L) terminal to the low level (L level) via the lens communication unit 34 (T3). When the signal level of the RDY (B) terminal becomes low level, the body side control unit 23 outputs a clock signal 405 from the CLK (B) terminal. That is, the body side control unit 23 transmits the clock signal 405 to the lens side control unit 33 through the CLK (B) terminal and the CLK (L) terminal.
When the signal level of the RDY (B) terminal is high level, the body side control unit 23 does not transmit or 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 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 a control parameter of the body side command signal 402. For example, when the body-side command signal 402 is a signal indicating that the drive of the focus lens 36 b is instructed, the corresponding body-side data signal 406 is a signal that represents the drive amount of the focus lens 36 b. Alternatively, the body side data signal 406 is a signal representing information (such as model information of a camera body) required by the lens side control unit 33 in command data communication.

  Also, when the 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 DATA L (L) terminal in synchronization with the clock signal 405. The lens-side data signal 407 indicated by switching between high level and low level of DATAL in FIG. 3 is a signal that the lens-side control unit 33 transmits 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.

  When the transmission of the lens side data signal 407 is completed, the lens side controller 33 changes 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 instruction of the received body side data signal 406.

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

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

  When the second control process 408 is completed, the lens control unit 33 sets the RDY (L) terminal to low level via the lens 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 control unit 23 transmits a body side command signal 402 and a body side data signal 406. That is, the body side command signal 402 and the body side data signal 406 are combined to form one control data.

  As described above, the lens side control unit 33 performs reception of control data from the body side control unit 23 and transmission of response data to the body side communication unit 24 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, which is called hotline communication. In hotline communication, the body side control unit 23 and the lens side control unit 33 connect the HCLK (B) terminal, the HCLK (L) terminal, and the HDATA (B) terminal through the body side communication unit 24 and the lens side communication unit 34. , And HDATA (L) terminals. 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 by hot line communication. The information on the state of the interchangeable lens 3 includes, for example, the position of the focus lens 36b, the position of the camera shake correction lens (not shown), the position of the diaphragm, 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 is moved (driven to change the size of the opening through which the light beam passes). ) Is a possible member. In this hotline communication, when an instruction to start communication is transmitted from the camera body via command data communication, lens side control is performed independently (independently) from the command data communication until an instruction to end communication is sent. This is a communication in which the unit 33 autonomously transmits lens data to the body side control unit 23.

  FIG. 4 is an example of a timing chart showing the timing of hotline communication. 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 generation processing 501. The generation process 501 is a process of acquiring the state of the lens at a sampling cycle of, for example, 1 millisecond, and generating the 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 clock signal 502 from the HCLK (L) terminal through the lens side communication unit 34. That is, the 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 the low level of the clock signal 502 in FIG. 4 are repeated is, for example, 8 MHz to 20 MHz. That is, the frequency of the clock signal 502 for hot line communication is about the same as or higher than the frequency of the clock signal 401 for command data communication.

The lens side control unit 33 outputs the lens signal 503 (for example, information related to the position of the focus lens 36b) generated in the generation process 501 from the HDATA (L) terminal in synchronization with the clock signal 502 via the lens side communication unit 34. Do. That is, the lens side control unit 33 transmits the lens signal 503 to the body side control unit 23 via the lens side communication unit 34, the HDATA (L) terminal, the HDATA (B) terminal, and the body side communication unit 24. A lens signal 503 indicated by switching between the high level and the low level of HDATA in FIG. 4 is a signal that the lens side control unit 33 transmits to the body side control unit 23 by hot line communication. The clock signal 502 and the lens signal 503 end their output at timing T8.
The lens side control unit 33 repeats transmission of lens data by hot line communication every fixed period (for example, 1 millisecond) until receiving a transmission stop instruction of the lens signal 503 by command data communication.

  It is possible to execute command data communication and hotline communication in parallel partially or entirely. That is, the body-side control unit 23 and the lens-side control unit 33 can start or finish the hotline communication while performing the command data communication. In addition, it is possible to start or end command data communication while performing hotline communication.

As described above, the hotline communication is performed independently of the command communication. The lens-side control unit 33 transmits information on the state of the interchangeable lens 3 to the body-side control unit 23 by hot line 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. Therefore, the body side control unit 23 can continuously grasp the position of the focus lens 36b, so that it is possible to control autofocus at high speed, for example. The same applies to camera shake correction control and aperture control.
In addition, 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 hotline communication.

(Description of lens mounting mechanism)
The camera system 1 of the present embodiment is provided with a so-called bayonet lens mount mechanism. Hereinafter, the body side mount 21 of the camera body 2 and the lens side mount 31 of the interchangeable lens 3 will be described in order.

  FIG. 5A is a view 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 constant width. Furthermore, the body side mount 21 has a body side first hook 29a, a body side second hook 29b, a body side third hook 29c, and a body side fourth hook 29d. In the following description, these four claws are collectively referred to as a body side claw 29.

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

  The lengths in the circumferential direction 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 29a is the longest, the body-side third claw 29c is the second-long, the body-side fourth claw 29d is the third-long, and the body-side second claw 29b is The shortest.

  The body side claws 29 project from the body side mount 21 toward the center of the opening, and there are a portion where the body side claws 29 exist and a portion where the body side claws 29 do not exist on the circumference of the opening. . In the following description, the space 40a between the first body-side 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 and removal 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 them is referred to as a body side third insertion and removal portion 40c, and a space 40d between the body side third claw portion 29c and the body side fourth claw portion 29d as a body side fourth insertion and removal portion 40d. These four body side inserting and removing parts are collectively referred to as a body side inserting and removing part 40.

  Inside the opening of the body side mount 21, a body side terminal holding portion 22 is provided. The body side terminal holding portion 22 has an arc shape corresponding to the shape of the annular body side mount 21. The body-side terminal holding portion 22 is disposed 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 preferably disposed in the center of the upper part as shown in FIG. The body side terminal holding portion 22 has a plurality of body side terminals as described above. The plurality of body side terminals are arranged in a line on the inner side of the body side mount 21 in the body side terminal holding portion 22 and arranged in an arc shape. As shown in FIG. 5A, the plurality of body side terminals are, as shown in FIG. 5A, HDATA (B), HCLK (B), DATAL (B), CLK (B), DATAB (B), RDY (B), GND (right). B), V33 (B), PGND (B), VBAT (B), 11 terminals of LDET (B) are arranged at the leftmost side. The body side terminal groups are respectively conductive pins. The body side terminal group is pushed in the −Z direction (FIG. 1) by a spring or the like (not shown). The Z direction is, in other words, the direction toward the interchangeable lens 3 mounted on 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 passes is disposed at the upper right of the fourth body-side claw 29d. That is, in the ring-shaped reference surface of the body side mount 21, the hole of the lock pin 42 has a region where the body side fourth hook 29d is present in the opening of the body side mount 21 and a body side first hook 29a. It is placed between the area. The lock pin 42 is pushed in the −Z direction (FIG. 1) by a spring or the like (not shown).

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

  FIG. 6 is a view schematically showing the mount of the interchangeable lens 3 as 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 constant width. When the interchangeable lens 3 is mounted on the camera body 2, the annular reference surface of the lens side mount 31 contacts 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 its inner periphery. The lens side mount 31 is spaced apart from each other along the outer periphery of the cylindrical portion, and the lens side first hook 39a, the lens side second hook 39b, the lens side third hook 39c, and the lens side fourth hook It has 39d. In the following description, these four claws are collectively referred to as lens side claws 39.

  The lens side claw portion 39 is provided in a direction projecting from the outer periphery of the cylindrical portion of the lens side mount 31 toward the mount outer side (radial direction from the optical axis O). As shown in FIG. 6, the lens side first claw 39a is at the upper left position, the lens side second claw 39b is at the upper right position, and the lens side third claw 39c is at the lower right position. The four claws 39d are disposed 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 portion 32 has an arc shape corresponding to the shape of the annular lens side mount 31. The lens-side terminal holding portion 32 is preferably disposed at the top of the lens-side mount 31 in parallel with the opening of the lens-side mount 31 and at the center of the top as shown in FIG. The lens side terminal holding portion 32 has a plurality of lens side terminals as described above. The plurality of lens side terminals are arranged in a line inside the lens side mount 31 in the lens side terminal holding portion 32 and arranged in an arc shape. The plurality of lens side terminals are, as shown in FIG. 6, 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 having passed through the imaging optical system 36 is directed to the imaging device 27.

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

  When the interchangeable lens 3 is attached to the camera body 2, the plurality of body side terminals physically contact 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 conducted.

(Attachment of interchangeable lens)
A method of mounting the interchangeable lens 3 on the camera body 2 will be described. When attaching the interchangeable lens 3 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 39a is aligned with the body side first insertion / extraction portion 40a, and the lens side second Align the claws 39b to the position of the body side second insertion and removal portion 40b, align the lens side third claws 39c to the position of the body side third insertion and removal portion 40c, and the lens side fourth claw portion 39d to the body side fourth insertion and removal portion Align to the 40d position. Then, the lens side first claw portion 39a is inserted into the body side first insertion and removal portion 40a, the lens side second claw portion 39b is inserted into the body side second insertion and removal portion 40b, and the lens side third claw portion 39c is on the body side The lens side fourth claw portion 39d is inserted into the third insertion and removal portion 40c, and is inserted into the body side fourth insertion and removal portion 40d. At this time, the LDET (L) terminal is connected to the CLK (B) terminal, the VBAT (L) terminal is connected to the DATAL (B) terminal, the PGND (L) terminal is connected to the HCLK (B) terminal, and the V33 (L) terminal is connected to HDATA ( B) Contact the terminals respectively.

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

  When the lens side claws 39 are inserted into the corresponding body side insertion and removal portions 40 and rotated in the mounting direction 44, for example, the LDET (L) terminal is a CLK (B) terminal, a DATAB (B) terminal, 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 is a DATAL (B) terminal, a CLK (B) terminal, a DATAB (B) terminal, a RDY (B) terminal, a GND (B) terminal, a V33 (B) terminal, a PGND (B) terminal, Touch the VBAT (B) terminal 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 an 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 an HDATA (B) terminal, an HCLK (B) terminal, a DATAL (B) terminal, a CLK (B) terminal, a DATAB (B) terminal, a RDY (B) terminal, and a GND (B) terminal in this order. Contact.

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

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

  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. During mounting from the position where the lens side claw portion 39 is inserted into the body side insertion / extraction portion 40 to immediately before the mounting completion position, or during mounting from the position just before the mounting completion position to the insertion position It is called a state.

  In the mounting state, the signal level of the LDET (B) terminal is pulled up and is high level. When it is detected that the signal level of the LDET (B) terminal is high level, the body side control unit 23 determines that the interchangeable lens 3 is not attached. 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 the low level as described above (FIG. 2). When it is detected that the signal level of the LDET (B) terminal has become low level, the body side control unit 23 determines that the interchangeable lens 3 has been attached. Further, in the mounting completion 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 causes the power supply unit 26 to start supplying power to the V33 (B) terminal. . The camera body 2 may not necessarily have the switch 28. In the case where the switch 28 is not provided, the power supply unit 26 may start supplying power to the V33 (B) terminal when it detects that the signal level of the LDET (B) terminal has become low level.

  When power supply to the V33 (B) terminal is started, power is supplied to the lens control unit 33 of the interchangeable lens 3 through the V33 (L) terminal, and the lens control unit 33 starts operation. 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 control unit 33 permits the initial communication, the body side control unit 23 starts the initial communication. The initial communication includes a signal for requesting the 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 control unit 33 to the body control unit 23, the body control unit 23 supplies power to the VBAT (B) terminal, and the camera An initialization process between the 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 photographing operation and focusing 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 Do.

  When the user depresses a lock release button (not shown) of the camera body in the mounting completion state, the lock pin 42 retracts from the lock pin receiving portion 43. As a result, the relative position between the body side mount 21 and the lens side mount 31 can be changed. When the user depresses 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 VBAT (B) terminal and V33 (B) terminal to the power supply unit 26. Stop it. When the interchangeable lens 3 is rotated in the direction opposite to the mounting direction 44 shown in FIGS. 5 and 6 from that state, the plurality of lens side terminals contact the plurality of body side terminals in the reverse order to the above. To go.

  Note that the power supply may not be stopped in conjunction with the operation of the lock release button. In this case, the body side control unit 23 separates the LDET (L) and LDET (B) terminals by rotation in the direction opposite to the mounting direction 44 of the interchangeable lens 3, and the signal level of the LDET (B) terminals is low 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 this, the number of parts of the camera system 1 can be reduced. In addition, when it is detected that the lock release button is pressed and that the signal level of the LDET (B) terminal has changed from low level to high level, the VBAT (B) terminal and V33 (B) are supplied to the feeding unit 26. Power supply to the terminals may be stopped. Alternatively, when it is detected that the lock release button is pressed or that one of the signal level of the LDET (B) terminal has changed from the low level to the high level, the body side control unit 23 sends VBAT to the power supply unit 26. (B) The power supply to the terminal and the V33 (B) terminal may be stopped.

  As described above, during attachment and removal of the interchangeable lens to and removal from the camera body (during mounting), the lens side terminal contacts the body side terminal other than the terminal to be handled when the attachment is completed. It is desirable that the arrangement of the lens side terminals and the body side terminals be such as to reduce the number of failures caused by the contact during the installation and the removal.

(Terminal arrangement in consideration of noise)
In the present embodiment, among the plurality of body side terminals, the LDET (B) terminal is disposed at the tip 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. 5A as described above. Among the plurality of lens side terminals, the LDET (L) terminal is similarly disposed at the tip of the lens mounting direction (arrow 44 in FIG. 6). That is, as described above, the arrangement position of the LDET (L) terminal is the rightmost side of the lens side terminal group in FIG. Therefore, the LDET (B) terminal does not contact the lens side terminals other than the LDET (L) terminal until the mounting of the mounted lens is completed. Therefore, the signal level of the LDET (B) terminal does not accidentally go low in the process of mounting the interchangeable lens, and the lens installation is not erroneously recognized.

  In the present embodiment, the VBAT (B) terminal is disposed next to the LDET (B) terminal, that is, the second from the forefront of the mounting direction. The VBAT (L) terminal was placed next to the LDET (L) terminal, ie, the second from the forefront of the mounting direction. This is done to reduce the number of terminals on the lens side with which the VBAT (B) terminal on the camera body side contacts in the lens mounting process. Since the voltage applied to the VBAT (B) terminal is higher than the other terminals, the VBAT (B) terminal is VBAT (under a situation where a high voltage is accidentally applied to the VBAT (B) terminal due to a failure of the camera system 1 or the like. L) If high voltage is brought into contact with terminals other than the terminals, this high voltage may load the electric circuit in the interchangeable lens unexpectedly. In the present embodiment, since the VBAT (B) terminal is located next to the LDET (B) terminal, the VBAT (B) terminal is the only one of the plurality of lens side terminals during attachment 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 the camera system 1 is not affected even if a high voltage is applied from the VBAT (B) terminal.

  In the present embodiment, the PGND (B) terminal is disposed next to the VBAT (B) terminal, that is, the third from the forefront in the mounting direction. The PGND (L) terminal was placed next to the VBAT (L) terminal, ie, the third from the forefront of the mounting direction. The capacitor C1 connected to the VBAT (L) terminal is charged with the high voltage supplied from the VBAT (B) terminal. When the interchangeable lens 3 is rotated in the removal direction, the VBAT (L) terminal first contacts the PGND (B) terminal. The charge stored in the capacitor C1 is quickly drained from the ground terminal PGND (B) and does not affect the other circuits of the camera system 1.

  In this embodiment, the V33 (B) terminal is disposed next to the PGND (B) terminal, that is, the fourth from the forefront in the mounting direction, and next to it, ie, the fifth GND (B) terminal from the forefront did. The V33 (L) terminal is disposed next to the PGND (L) terminal, that is, the fourth from the forefront in the mounting direction, and the GND (L) terminal is disposed next to it, that is, the fifth from the forefront. In the capacitor C2 connected to the V33 (L) terminal, the voltage supplied from the V33 (B) terminal is accumulated. When the interchangeable lens 3 is rotated in the removal direction, the V33 (L) terminal first contacts the GND (B) terminal. The charge stored in the capacitor C2 is quickly discharged from the GND (B) terminal, which is the ground terminal, and does not affect the other circuits of the camera system 1.

  Place the RDY (B) terminal next to the GND (B) terminal, that is, the sixth from the tip, and place the DATAB (B) terminal next to it, that is, the seventh from the tip, The CLK (B) terminal is arranged eighth, the DATAL (B) terminal is arranged next to it, ie the ninth from the leading edge, and the HCLK (B) terminal is arranged next to it, ie the tenth from the leading edge The HDATA (B) terminal was arranged at the end which is next to the above.

  Place the RDY (L) terminal next to the GND (L) terminal, that is, the sixth from the cutting edge, and place the DATAB (L) terminal next to it, ie, the seventh from the cutting edge, The CLK (L) terminal is arranged eighth, the DATAL (L) terminal is arranged next to it, ie the ninth from the cutting edge, and the HCLK (L) terminal is arranged next to it, ie the tenth from the cutting edge The HDATA (L) terminal is arranged at the end which is next to the above.

  Next, the influence of the noise exerted by the communication line constituted by each body side terminal and each lens side terminal will be described. Hotline communication is communication in which information is unilaterally transmitted to the body after the start of communication, and is frequently performed (repeatedly in a very short cycle). During hot line communication, a clock signal is sent from the HCLK (L) terminal to the HCLK (B) terminal. Since the clock signal is a signal that repeats high level and low level in a short cycle, it can be a large noise source with respect to other signals. Furthermore, 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 accidentally applied to the clock signal, the camera body 2 side has the noise Can not recognize. As described above, the signal flowing through the HCLK terminal may be a noise source for the camera body 2 and may cause the camera system 1 to malfunction. As an example of the malfunction, there may be a mistaken detection of the mounting of the interchangeable lens or a mistake in the possibility of command communication. In the present embodiment, the HCLK terminal is placed at a distance from the VBAT terminal to which a high voltage is applied. Also, the HCLK terminal is spaced apart so as not to be adjacent to the RDY terminal used to indicate the availability of command communication.

  In addition, the HDATA terminal and the DATAL terminal were arranged on both sides of the HCLK terminal. In this way, it is possible to suppress the influence of noise on the HCLK terminal on 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. At the time of command data communication, a 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 reasons as described above. Therefore, in the present embodiment, the CLK terminal is disposed at a distance from the VBAT terminal to which the high voltage is applied. Also, the CLK terminal is spaced apart so as not to be adjacent to the RDY terminal used to indicate the availability of command communication. In addition, when the HCLK terminal and the CLK terminal are adjacent to each other, one clock signal may affect the other clock signal and be a noise source. In this embodiment, the DATAL terminal is disposed between the CLK terminal and the HCLK terminal. In addition, the DATAB terminal is disposed between the CLK terminal and the RDY terminal. That is, the DATAL terminal and the DATAB terminal were arranged on both sides of the CLK terminal. Since this is done, it is possible to suppress the influence on the camera system of the noise caused by the CLK terminal.

  As described above, in order to perform command data communication, it is necessary to determine the level of the RDY terminal. That is, since the signal level of the RDY terminal indicates whether the command data can be communicated, the noise has a large influence on the photographing operation. Here, a case is considered where the body side control unit 23 erroneously recognizes that communication is possible due to noise although the command data can not be communicated. In this case, although the lens side control unit 33 can not receive the command data, the body side control unit 23 transmits the command data, and when the control according to the command data is performed by the interchangeable lens, the body side control unit 23 erroneously recognizes Do. However, since the lens side control unit 33 can not receive command data, control according to the erroneously transmitted command data is not performed. Therefore, the operation of the camera system 1 is disturbed. Therefore, it is necessary to prevent noise from being applied to 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 relatively stable signal on both sides of the RDY terminal, that is, a terminal through which a signal with less change in signal level per unit time flows. 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 terminal of the ground potential, and the DATAB terminal is also a terminal through which a stable signal flows compared to the CLK terminal and the HCLK terminal. Since this is done, it is possible to suppress the influence of noise that the signal at the RDY terminal receives.

  Next, the power supplied from the VBAT (B) terminal to the VBAT (L) terminal is used to drive an actuator (for example, a stepping motor or the like) of the drive unit 37 of the interchangeable lens 3. Therefore, the current flowing to the VBAT terminal fluctuates greatly when the actuator is driven and not driven. Such variations in current become noise sources for signals flowing to other terminals. In this embodiment, the VBAT terminal is disposed at a position away from the RDY terminal, the DATAB terminal, the CLK terminal, the DATAL terminal used for command data communication, and the HCLK terminal and the HDATA terminal used for hotline communication. Furthermore, the GND terminal, the V33 terminal, and the PGND terminal are disposed between the VBAT terminal and the terminals used for these communications. Thereby, the influence of noise caused by the fluctuation of the current flowing through the VBAT terminal on data communication can be suppressed.

The terminal arrangement in consideration of the noise described above is summarized here.
The RDY terminal is spaced apart so as not to be adjacent to either the VBAT terminal or the HCLK terminal which is a noise source. Thus, the influence of noise on the RDY terminal used to indicate the availability of command communication can be suppressed.
The HCLK terminal, which is a noise source, is sandwiched between the HDATA terminal and the DATAL terminal, and the CLK terminal is sandwiched between the DATAL terminal and the DATAB 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. Thus, the influence of noise caused by the clock signal to the RDY terminal can be suppressed.
Furthermore, in consideration of the influence of noise, the terminal group for power supply and the terminal group used for communication are arranged apart from each other across the RDY terminal. More specifically, the VBAT terminal, the PGND terminal, the V33 terminal, and the GND terminal, which are terminals for power supply, are arranged in order from the front end 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 order from the tip side. This makes it possible to suppress the influence of noise on the RDY terminals of the power supply system terminals such as the VBAT terminal and the terminals used for communication of the HCLK terminal and the CLK terminal.

In the HCLK terminal to which a clock signal used for hot line communication is sent and the CLK terminal to which a clock signal used for command data communication is sent, the HCLK terminal is disposed at a position farther from the VBAT terminal than the CLK terminal. This is because the clock signal sent to the interchangeable lens at the CLK terminal is output via the body communication unit 24 from the body control unit 23, but from the interchangeable lens via the lens communication unit 34 via the HCLK (L) terminal The reason is that the noise on the clock signal at the HCLK terminal has a greater influence on the camera system 1 because the body side control unit 23 misrecognized if noise is added to the clock signal sent to the camera body.
For the HCLK terminal and the GND terminal, the HCLK terminal is disposed at a position farther from the VBAT terminal than the GND terminal. Furthermore, a PGND terminal is disposed between the GND terminal and the VBAT terminal. This makes it possible to shield noise due to the VBAT terminal to the HCLK terminal to which the clock signal used for hot line communication is sent.
For the CLK terminal and the GND terminal, the CLK terminal is disposed at a position farther from the VBAT terminal than the GND terminal. Furthermore, a PGND terminal is disposed between the GND terminal and the VBAT terminal. This makes it possible to shield noise due to the VBAT terminal to the CLK terminal to which the clock signal used for command data communication is sent.

(Terminal arrangement in consideration of wear)
The contact of each terminal when attaching and detaching the interchangeable lens 3 to and 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 in contact with the lens side terminals one after another. The same applies to the case of removing the interchangeable lens 3 from the camera body 2. That is, the body-side terminal which is a pin protruding from the body-side terminal holding portion 22 and the lens-side terminal which is the 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, as the body side terminal located on the rear end side in the mounting direction of the interchangeable lens 3 is rubbed against more lens side terminals, more friction occurs. Therefore, the wear of the tip of the pin is more likely to progress as the body terminal located on the rear end side than the body side terminal located on the tip side. Since the wear of the body side terminal affects the contact with the lens side terminal, the data communication may become unstable.
In the present embodiment, since the LDET (B) terminal is disposed at the most tip in the mounting direction, the wear of the LDET (B) terminal is the least. As a result, the LDET (B) terminal and the LDET (L) terminal are in good contact with each other, and there is little possibility that the replacement lens 3 is erroneously detected.

  As described above, in this embodiment, in order to suppress the influence of noise on communication, the CLK (B) terminal and the HCLK (B) terminal are disposed at positions away from the VBAT (B) terminal. That is, 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 at the rear end side distant 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 disposed immediately adjacent to the body-side first claw portion 29a. That is, the CLK (B) terminal and the HCLK (B) terminal are disposed at a position closer to the inner peripheral edge of the first body side 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. 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, there is the first plate spring 41a on the back side of the body-side first claw 29a, and the lens-side first claw 39a is pressed in the + Z direction (FIG. 1) by the first plate spring 41a. As seen from the viewpoint of the first plate spring 41a, the distance between the CLK (B) terminal and the first plate spring 41a and the distance between the HCLK (B) terminal and the first plate spring 41a are both VBAT ( B) It is shorter than the distance between the terminal and the first plate spring 41a. The LDET (B) terminal is also the same as the VBAT (B) terminal, and the distance between the CLK (B) terminal and the first plate spring 41 a and the distance between the HCLK (B) terminal and the first plate spring 41 a are all Is shorter than the distance between the LDET (B) terminal and the first plate spring 41a. Because of this, the CLK (B) terminal and the HCLK (B) terminal are more strongly pressed to 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 peripheral edge of the lens side first claw 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 39a is shorter than the distance between the VBAT (L) terminal and the inner peripheral edge of the lens side first claw 39a, and HCLK (L The distance between the terminal and the inner peripheral edge of the lens side first claw 39a is shorter than the distance between the VBAT (L) terminal and the inner peripheral edge of the lens side first claw 39a. Therefore, the CLK (L) terminal and the HCLK (L) terminal near the lens side first claw 39a are pressed against the corresponding body side terminals by the first plate spring 41a in the mounting completed state. The LDET (L) terminal is also similar to the VBAT (L) terminal, and the distance between the CLK (L) terminal and the first plate spring 41a and the HCLK (L) terminal and the first plate spring 41a in the mounting completed state The distance is shorter than the distance between the LDET (L) terminal and the first plate spring 41a. Because of this, the CLK (L) terminal and the HCLK (L) terminal have a stronger pressing force on the body side terminal than the LDET (L) terminal in the mounted state. As a result, even if the CLK (B) terminal or the HCLK (B) terminal wears, a good contact can be maintained, the clock signal becomes stable, and stable data communication can be performed. For example, even if an impact is applied to the camera body 2 or the interchangeable lens 3 while maintaining the mounting completed 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 maintained.

  Even if a part of the lens side first claw 39a is cut out, the whole of the projection and the cut-out part arranged in the area facing the body side first claw 29a is the lens side Let it be the first nail. As the notch method, the lens side claw portion may be cut out so as to be divided into two or more in the circumferential direction, or may be cut out so as to lack part of the lens side claw portion. At least a portion may be cut away so as to shorten the radial length. In addition, the length in the circumferential direction of the lens side claw portion may be changed in the range of passing through the corresponding body side insertion and removal portion. The same applies to the lens side second claw 39b, the lens side third claw 39c, and the lens side fourth claw 39d. Moreover, the thickness in the radial direction of the cylindrical portion can be changed as appropriate, and it may be a shape in which at least a portion protrudes inward from 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) and VBAT (B) terminals. In the present embodiment, the CLK (B) terminal and the HCLK (B) terminal are disposed immediately adjacent to 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 first body side claw portion 29a than the LDET (B) terminal or the VBAT (B) terminal. In other words, the distance between the CLK (B) terminal and the inner peripheral edge of the first body side claw portion 29a is greater 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 The distance between the HCLK (B) terminal and the inner peripheral edge of the body-side first claw 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 29a. short. As described above, there is the first plate spring 41a on the back side of the body-side first claw 29a, and the lens-side first claw 39a is pressed in the + Z direction (FIG. 1) by the first plate spring 41a. As seen from the viewpoint of the first plate spring 41a, the distance between the CLK (B) terminal and the first plate spring 41a and the distance between the HCLK (B) terminal and the first plate spring 41a are both LDET ( B) It is shorter than the distance between the terminal or the VBAT (B) terminal and the first plate spring 41a.

  Also on the lens side, the CLK (L) terminal and the HCLK (L) terminal are disposed at positions closer to the inner peripheral edge of the first lens-side claw portion 39a than the LDET (L) terminal or 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 39a is greater than the distance between the LDET (L) terminal or the VBAT (L) terminal and the inner peripheral edge of the lens side first claw 39a The distance between the HCLK (L) terminal and the inner peripheral edge of the lens side first claw 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 39a. short. Therefore, the CLK (L) terminal and the HCLK (L) terminal near the lens side first claw 39a are pressed against the corresponding body side terminals by the first plate spring 41a. Because of this, the CLK (B) terminal and the HCLK (B) terminal are more strongly pressed to the lens side terminal than the LDET (B) terminal or the VBAT (B) terminal. As a result, even if the CLK (B) terminal or the HCLK (B) terminal wears, 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 maintaining the mounting completed state, the 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 29 d. That is, the CLK (B) terminal and the HCLK (B) terminal are arranged at a position closer to the body-side fourth claw portion 29 d than the VBAT (B) terminal or the LDET (B) terminal. In other words, the distance between the CLK (B) terminal and the body-side fourth claw 29d is shorter than the distance between the VBAT (B) terminal or the LDET (B) terminal and the body-side fourth claw 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, there is a fourth plate spring 41d 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 plate spring 41d. Therefore, the CLK (B) terminal and the HCLK (B) terminal near the lens side fourth claw portion 39d are more stable than the VBAT (B) terminal and the LDET (B) terminal by the fourth plate spring 41d and the lens side It is strongly pressed to the terminal.

  The distance between the above-mentioned 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 hereinafter) is the distance between one end of the body side first claw portion 29a and the other The linear distance from the CLK (B) terminal may be defined by the linear distance between the other end of the first body-side claw 29 a and the CLK (B) terminal. Alternatively, the distance between the above-mentioned CLK (B) terminal and the body-side first claw portion 29a is the middle 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 linear distance with Distances between other body side terminals such as HCLK (B) terminal, VBAT (B) terminal, LDET (B) terminal and the body side first claw portion 29a are also linear distances. The distance between the first plate spring 41a (the fourth plate spring 41d) and the body side terminal is also a linear distance.

  The distance between the above-described 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 hereinafter) is in the circumferential direction of the body-side mount 21. It may be defined as an arc-shaped distance between one end of the body-side first claw portion 29a and the CLK (B) terminal, or arc-shaped 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 distance between the above-mentioned CLK (B) terminal and the body-side first claw portion 29a is the middle 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-like distance with The distance between the other body side terminal and the body side first claw portion 29a, such as the HCLK (B) terminal, the VBAT (B) terminal and the LDET (B) terminal, is also an arc-like distance. The distance between the first plate spring 41a (the fourth plate spring 41d) and the body side terminal is also an arc-like distance.

  The above described the camera body 2, but the same applies to the interchangeable lens 3. In the present embodiment, the CLK (L) terminal and the HCLK (L) terminal are disposed immediately adjacent to the lens side first claw portion 39a. That is, the CLK (L) terminal and the HCLK (L) terminal are disposed at a position closer to the first lens side 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 39a is shorter than the distance between the VBAT (L) terminal or the LDET (L) terminal and the lens side first claw 39a, and HCLK (L) The distance between the terminal and the lens side first claw 39a is shorter than the distance between the VBAT (L) terminal or the LDET (L) terminal and the lens side first claw 39a. The lens side first claw 39a is pressed in the + Z direction (FIG. 1) by the first plate spring 41a on the body side. Therefore, in the same manner as described above, the CLK (L) terminal and the HCLK (L) terminal near the first lens-side claw portion 39a are the body of the VBAT (L) terminal or the LDET (L) terminal by the first plate spring 41a. Strongly pressed to the side terminal.

  In the present embodiment, as shown in FIG. 5A, the CLK (B) terminal and the HCLK (B) terminal are circled with the central position of the opening of the mount 21 (that is, the position of the optical axis O of the interchangeable lens 3) and a circle. It arrange | positions inside the fan shape (range of the angle 50) formed of the arc-shaped 1st nail | claw part 29a of an arc-shaped. Alternatively, the CLK (B) terminal and the HCLK (B) terminal are 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. It was placed inside the triangular area formed. Therefore, although there is no body side first claw portion 29a on the extension line of the dashed dotted line 51 connecting the center position of the opening of the mount 21 and the LDET (B) terminal, the center position of the opening of the mount 21 and the HCLK (B) The body-side first claw 29a is present on the extension of the alternate long and short dashed line 52 connecting the terminals, and the body side first hook 29 is on the extension of the alternate long and short dash line 53 connecting the center position of the opening of the mount 21 and the CLK (B) terminal. There is one claw 29a. Thus, in the mounting completed state, the CLK (B) terminal and the HCLK (B) terminal are more strongly pressed to 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 located at 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 first lens side claw portion 39a. And a fan-shaped (range of angle 60) formed by 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 39a. Placed within the area of the triangle being Therefore, although the lens side first claw 39a is not present on the extension of the dashed dotted line 61 connecting the center position of the opening of the mount 31 and the LDET (L) terminal, the center position of the opening of the mount 31 and the HCLK (L) The lens side first claw 39a is present on the extension of the alternate long and short dash line 62 connecting the terminals, and the lens side first claw 39a is located on the extension of the alternate long and short dash line 63 connecting the center position of the opening of the mount 31 and the CLK (L) terminal. 1 claw 39a is present. Thus, in the mounting completed state, the CLK (L) terminal and the HCLK (L) terminal more stably contact the corresponding body side terminals than the LDET (L) terminal. In other words, the CLK (L) terminal and the HCLK (L) terminal exert a stronger force than pressing on 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, communication of clock signals between the camera body 2 and the interchangeable lens 3 is stably performed.

The following variations are possible, and one or more variations may be combined with the above-described embodiment.
(Modification 1)
A function of transmitting a power on signal from the interchangeable lens 3 to the camera body 2 may be combined with any terminal used for command data communication or hot line communication. For example, the interchangeable lens 3 is provided with a power switch function. Even when the interchangeable lens 3 is in the mounting completed state and the camera system 1 is in the 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 through the body side communication unit 24 via the RDY (B) terminal, the same as when the power switch (not shown) provided on the camera body 2 is operated. , The camera system 1 is transitioned from the power off state to the power on state.

(Modification 2)
In the embodiment, the DATAB (B) terminal is disposed at the front end side in the mounting direction of the CLK (B) terminal and the DATAL (B) terminal is disposed at the rear end side. However, the positions of the DATAB (B) terminal and the DATAL (B) terminal May be replaced. That is, the DATAL (B) terminal, the CLK (B) terminal, and the DATAB (B) terminal may be arranged in this order from the front end side in the mounting direction.
Although the above embodiment has been described by taking the interchangeable lens of the camera as an example as an accessory, the accessory is not limited to the interchangeable lens. For example, a teleconverter, a wide converter, or a close-up ring, which is mounted between the camera body and the interchangeable lens and changes the focal length of the interchangeable lens, may be used. Alternatively, the present invention can also be applied to a mount adapter or the like which enables attachment of an accessory including interchangeable lenses of other mount standards to the above-described camera body mount standard. That is, any accessory that can be used by being attached to the mount of the camera body can be applied similarly. In that case, the lens side terminal group, the lens side claw portion 39, the lens side communication unit 34 and the like correspond to the accessory side terminal group of the respective accessories, the accessory side projecting portion, the accessory side communication unit and the like.
In the above embodiment, although the accessory is detachable from the camera body, the above camera body is a mount adapter that enables the interchangeable lens of the above mount standard to be mounted on the camera body different from the above mount standard. Alternatively, the accessory described above may be attached to the mount adapter.

DESCRIPTION OF SYMBOLS 1 ... Camera system, 2 ... Camera body, 3 ... Interchangeable lens, 21 ... Body side mount, 22 ... Body side terminal holding part, 31 ... Lens side mount, 32 ... Lens side terminal holding part

Claims (16)

An accessory including a terminal holding portion that is detachable from a camera body and in which a plurality of terminals are arranged,
A first terminal for causing the camera body to detect attachment of the accessory;
A second terminal to which a first power is supplied from the camera body;
A third terminal used as a ground terminal corresponding to the first power;
A fourth terminal to which a second power is supplied from the camera body;
A fifth terminal used as a ground terminal corresponding to the second power;
A sixth terminal used to indicate whether communication with the camera body is possible;
An eighth terminal to which a first clock signal is input from the camera body;
A seventh terminal to which a first data signal is input from the camera body in synchronization with the first clock signal;
A ninth terminal for outputting a third data signal to the camera body in synchronization with the first clock signal;
A tenth terminal for outputting a second clock signal to the camera body;
An eleventh terminal for outputting a second data signal to the camera body in synchronization with the second clock signal;
The accessory whose distance of the said 10th terminal and the said 2nd terminal is longer than the distance of the said 8th terminal and the said 2nd terminal. An accessory including a terminal holding portion that is detachable from a camera body and in which a plurality of terminals are arranged,
A first terminal for causing the camera body to detect attachment of the accessory;
A second terminal to which the first power is supplied;
A third terminal used as a ground terminal corresponding to the first power;
A fourth terminal to which the second power is supplied;
A fifth terminal used as a ground terminal corresponding to the second power;
A sixth terminal used to indicate whether communication with the camera body is possible;
An eighth terminal to which a first clock signal is input from the camera body;
A seventh terminal to which a first data signal is input from the camera body in synchronization with the first clock signal;
A ninth terminal for outputting a third data signal to the camera body in synchronization with the first clock signal;
An eleventh terminal for outputting a second data signal to the camera body in synchronization with a second clock signal;
The accessory whose distance of the said 8th terminal and the said 2nd terminal is longer than the distance of the said 5th terminal and the said 2nd terminal. In the accessory according to claim 2,
An accessory having a tenth terminal for outputting the second clock signal to the camera body. The accessory according to any one of claims 1 to 3.
An optical system including a driven member;
And a drive unit for driving the driven member,
The accessory, wherein the first power is power for driving the drive unit. In the accessory according to claim 4,
The driven member changes a size of a member movable in the optical axis direction of the optical system, a movable member so as to include a component in a direction perpendicular to the optical axis direction, or an opening through which a light flux passes. Accessories that include any of the movable members. The accessory according to any one of claims 1 to 5,
The fourth terminal uses an input of the first data signal from the camera body using the seventh terminal synchronized with the first clock signal input at the eighth terminal, and the ninth terminal. Outputting the third data signal to the camera body, the second data signal to the camera body using the eleventh terminal synchronized with the second clock signal output from the tenth terminal An accessory wherein a second power for producing an output is supplied from the camera body. The accessory according to any one of claims 1 to 6.
The accessory wherein the second power is smaller than the first power. The accessory according to any one of claims 1 to 7.
The accessory, wherein the sixth terminal outputs a signal indicating whether or not the communication can be performed by the first data signal and the third data signal. The accessory according to any one of claims 1 to 8.
The first terminal is disposed next to the second terminal,
The eleventh terminal is an accessory disposed next to the tenth terminal. The accessory according to any one of claims 1 to 9,
The third terminal is disposed next to the second terminal,
The accessory disposed on the side opposite to the third terminal with respect to the second terminal. The accessory according to any one of claims 1 to 10.
The fifth terminal is an accessory disposed next to the fourth terminal. The accessory according to any one of claims 1 to 10.
The third terminal is disposed next to the second terminal,
The fourth terminal is disposed next to the fifth terminal,
An accessory disposed in the order of the second terminal, the third terminal, the fourth terminal, and the fifth terminal. The accessory according to any one of claims 1 to 12.
The ninth terminal is disposed next to the tenth terminal,
The accessory disposed adjacent to the tenth terminal opposite to the ninth terminal with respect to the tenth terminal. The accessory according to any one of claims 1 to 13.
The seventh terminal is disposed next to the eighth terminal,
The accessory disposed at the side opposite to the seventh terminal with respect to the eighth terminal. An accessory according to any one of the preceding claims.
The fifth terminal is disposed next to the sixth terminal,
The accessory arranged to be adjacent to the sixth terminal on the side opposite to the fifth terminal with respect to the sixth terminal. An accessory according to any one of the preceding claims.
The accessory is an interchangeable lens.

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