JP4016425B2 - DVD playback apparatus and electronic apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a DVD reproducing apparatus and an electronic apparatus in which a block to be controlled and a plurality of blocks to be controlled are connected to a single control signal line.
[0002]
[Prior art]
  In an electronic apparatus using a microcomputer as a control means, a control signal sent from the microcomputer is transmitted to a target block by connecting a signal line from the microcomputer to the block to be controlled. It has become. That is, in the DVD playback apparatus having the configuration shown in FIG. 6, the decoder-side control means 15 controls the on / off of the on-time power supply 9. For this reason, a signal line 41 is provided between the decoder-side control means 15 and the on-time power supply 9. The decoder-side control means 15 informs the apparatus-side control means 5 that the instruction sent from the apparatus-side control means 5 can be accepted when the operation state is shifted to the operation state. It is like that. For this reason, a signal line 42 is provided between the decoder-side control means 15 and the apparatus-side control means 5. In addition, the apparatus-side control means 5 gives the decoder-side control means 15 an instruction for starting an operation corresponding to the instruction input to the remote controller 10. Therefore, a communication signal line 43 is provided between the apparatus-side control means 5 and the decoder-side control means 15.
[0003]
  Accordingly, since the power supply is off, the power-on instruction is input to the remote controller 10 when the on-time power supply 9 and the main circuit power supply 6 are off (indicated by step S1 in FIG. 2). Then, the apparatus-side control means 5 shifts the main circuit power source 6 from the off state to the on state (step S2). Accordingly, operating power is supplied to the decoder-side control means 15, and the decoder-side control means 15 starts operation. The decoder-side control means 15 that has started the operation notifies the apparatus-side control means 5 through the signal line 42 that the instruction can be accepted (step S3). Receiving this notification, the apparatus-side control means 5 notifies that the instruction input to the remote controller 10 is power-on via the communication signal line 43 (step S4). Upon receiving this notification, the decoder-side control means 15 shifts the on-time power supply 9 from the off state to the on state via the signal line 41 (step S5) so that the operation of reproducing the DVD 3 is immediately possible. (The first prior art).
[0004]
  Also, a conventional technique for connecting a plurality of blocks to one signal line and transmitting / receiving a control instruction between the blocks is configured as an IIC bus, that is, serial data is sent to one signal line. Thus, a configuration has been proposed in which an operation instruction, data, and the like are sent from the transmitting side to the receiving side (second prior art).
[0005]
  Further, the following prior art has been proposed (referred to as third prior art). In other words, in this technique, a clock and a duty are transmitted simultaneously by assigning 1 and 0 to a combination of a plurality of waveforms having a duty of 50% having only one rising edge or falling edge. (For example, see Patent Document 1)
[0006]
  In addition, a conventional technique that enables a plurality of signals to be transmitted using one signal line has been proposed (referred to as a fourth conventional technique). That is, in this technique, two input signals and a selection signal are input to the transmission circuit. A first driving circuit in which a threshold is set between the voltage of the first power supply and the voltage of the second power supply lower than the voltage of the first power supply; and the voltage of the second power supply and the ground potential A second drive circuit having a threshold value between them is provided. The output of the first drive circuit and the output of the second drive circuit are both connected to one signal line. On the other hand, on the side of the receiving circuit, a first receiving circuit in which a threshold is set between the voltage of the first power supply and an intermediate voltage that is a voltage between the voltage of the first power supply and the ground potential; And a second receiving circuit in which a threshold is set between the intermediate voltage and the ground potential. The input of the first receiving circuit and the input of the second receiving circuit are both connected to the single signal line. Therefore, when the selection signal is set to a level for selecting the first driving circuit, the signal input to the first driving circuit is output from the first receiving circuit. When the selection signal is set to a level for selecting the second drive circuit, the signal input to the second drive circuit is output from the second reception circuit (see, for example, Patent Document 2).
[0007]
[Patent Document 1]
  JP 11-355365 A
[Patent Document 2]
  JP-A-9-102803
[0008]
[Problems to be solved by the invention]
  However, when the first prior art is used, the following problems occur. That is, the decoder side control means 15 is integrated in the IC 4 together with the AV decoder 13 and the D / A conversion circuit 14. As a result, the decoder-side control means 15 occupies the general-purpose input / output pin P1 in order to send a control signal to the on-time power supply 9. In addition, the general-purpose input / output pin P2 is occupied to notify the apparatus-side control means 5 that the instruction can be accepted. That is, a signal that changes in level only when the power is switched from the off-state to the on-state, and does not change at other times, that is, after the power is turned on and normal operation is possible. Two input / output pins P1 and P2 are occupied for signals that are not used. That is, the usage efficiency of the input / output pins is poor.
[0009]
  On the other hand, in the IC 4 in which the decoder-side control means 15 is integrated, circuits that were previously integrated in different IC packages are also integrated together. Therefore, the number of signal lines for connecting to a circuit provided outside the IC 4 also increases. However, as for the number of pins provided in the IC 4, the increase in the number of pins does not correspond to the increase in the scale of integrated circuits (for example, the number of pins such as 208 pins). IC packages are used, but the number of pins is small from the scale of the integrated circuit). For this reason, the number of signal lines used for connection with a circuit provided outside the IC 4 tends to be suppressed. Accordingly, the microcomputer constituting the decoder-side control means 15 is required to perform the same control with a small number of signal lines. That is, it is required to use the input / output pins efficiently (the same control is performed with few signal lines).
[0010]
  In the second prior art and the third prior art, the signal transmitted through the signal path is serial data. In other words, the signal sent to the signal line gives a control instruction with a simple level change, such as when it is set to H level, L level, or rising from L level to H level. It is not a signal to convey. In other words, it is not a signal that can detect the instruction content with a simplified circuit. For this reason, in view of the problem of the first prior art, that is, from the viewpoint of reducing the number of signal lines in order to reduce the number of occupying general-purpose input / output pins, 3 is difficult to apply.
[0011]
  Further, in the fourth prior art, there are two types of thresholds for signals to be transmitted. On the other hand, there is one kind of threshold value for general-purpose input / output pins of a microcomputer. For this reason, the fourth prior art is difficult to apply from the viewpoint of reducing the number of input / output pins of the microcomputer.
[0012]
  The present invention has been devised to solve the above problems, and its purpose is to perform control suitable for shifting to a power-on state without incurring complexity of a circuit for discriminating a control signal. An object of the present invention is to provide a DVD reproducing apparatus that can reduce the number of general-purpose input / output pins occupied for control signals even when it is performed.
[0013]
  Another object of the present invention is to provide a control signal corresponding to an object to be controlled such as a rising edge or falling edge in a binary signal, an H level or L level in a binary signal, or a pulse having a width in a predetermined range in the binary signal. A general-purpose input / output occupied for the control signal without complicating the circuit for discriminating the control signal by associating one of them and making the associated control signal different for each control target To provide an electronic device capable of reducing the number of pins.
[0014]
[Means for Solving the Problems]
  In order to solve the above problems, a DVD playback apparatus according to the present invention includes an AV decoder that expands a digital signal obtained by demodulating a DVD playback signal.IC device integrated withIntegrated in the same IC element, decoder control means for controlling an AV decoder, etc., main circuit power supply for supplying operating power to at least the AV decoder and the decoder control means, and only on when the power is turned on A power supply for on-time set in the state, and device-side control means for giving an instruction to the decoder-side control means in response to an instruction input to the remote controller, the decoder-side control means, the on-time power supply and the device side The control means is connected to a control signal line to which a binary signal that is a signal that changes to two levels of H level and L level is sent, and the apparatus side control means is sent to the control signal line. When a falling edge appears in the binary signal, the decoder-side control means determines that the instruction can be accepted, and the on-time power supply has the binary signal sent to the control signal line at the H level. It is a sometimes turned on configuration. Further, the decoder-side control means changes the level of the binary signal transmitted to the control signal line from the H level to the L level when the operation state is shifted from the main circuit power supply to the operation state. After informing the apparatus-side control means that the instruction can be accepted, when the power-on instruction is given from the apparatus-side control means, the level of the binary signal sent to the control signal line is set to the L level. The power supply for on time is shifted from the off state to the on state by setting the power level to H level.
[0015]
  In other words, since the power-on state has been entered, the decoder-side control means that has received the operation power supply from the main circuit power supply and started the operation performs a notification operation informing the apparatus-side control means that the instruction can be accepted. At the same time, a control operation for shifting the on-time power supply from the off state to the on state is performed, but the number of signal lines used for these two types of operations is only one control signal line. .
[0016]
  An electronic device according to the present invention is also provided.A control signal output means and a plurality of control signal reception means, both of the control signal output means and the plurality of control signal reception means are connected to one control signal line; Binary that is a signal that changes to two levels, L level By sending a signal to the control signal line, the control signal is output to each of the plurality of control signal receiving means, or the control signal output state is not output. An electronic device indicating whether the control signal is in a non-output state,The number of control signal receiving means is two, that is, the first control signal receiving means and the second control signal receiving means, and the falling edge in the binary signal is associated with the control signal of the first control signal receiving means. The control signal of the second control signal receiving means is associated with the H level in the binary signal,The second control signal receiving means also shifts from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state when the state corresponding to the control signal output state is reached, and the subsequent period is not When it is shorter than the response period, the output state remains the same as the state corresponding to the control signal non-output state, and after the non-response period has passed, the output state changes from the state corresponding to the control signal non-output state to the control signal output state. The control signal output means sends a falling edge to the first control signal receiving means using a pulse whose H level period is a non-response period.It is like that.
[0017]
  That is, when a control signal associated with the control signal receiving means to be controlled is sent to the control signal line, the corresponding control signal receiving means changes from the state corresponding to the control signal non-output state to the control signal output state. Transition to the corresponding state.Further, in order to shift the first control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, it is only necessary to send a falling edge to the control signal line. Further, in order to shift the second control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, it is only necessary to send the H level to the control signal line.
[0018]
  AlsoAn electronic apparatus according to the present invention includes a control signal output unit and a plurality of control signal receiving units, and both the control signal output unit and the plurality of control signal receiving units are connected to a single control signal line and controlled. The signal output means controls each of the plurality of control signal receiving means by sending a binary signal, which is a signal changing to two levels of H level and L level, to the control signal line. An electronic device that indicates whether a control signal output state in which a signal is output or a control signal non-output state in which a control signal is not output,The number of the control signal receiving means is three of the first control signal receiving means, the second control signal receiving means, and the third control signal receiving means, and the control signal of the first control signal receiving means is binary. The rising edge in the signal is associated, the falling edge in the binary signal is associated with the control signal of the second control signal receiving means, and the control signal of the third control signal receiving means is based on a predetermined width in the binary signal Match wide pulsesWhen each of the first to third control signal receiving means detects that the associated control signal is sent to the control signal line, the control signal output state is changed from the state corresponding to the control signal non-output state. Transition to a state corresponding to.
[0019]
  That is, in order to shift the first control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, it is only necessary to send a rising edge to the control signal line. Further, in order to shift the second control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, it is only necessary to send a falling edge to the control signal line. Further, in order to shift the third control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, only a pulse wider than a predetermined width is sent to the control signal line. It's okay.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, embodiments of the present invention will be described with reference to the drawings.
  FIG. 1 is a block diagram showing the electrical configuration of a DVD playback apparatus to which the first embodiment of the electronic apparatus according to the present invention is applied. In the block having the same configuration as that of the prior art shown in FIG. The same reference numerals as those in FIG. 6 are given.
[0021]
  In the figure, the reading mechanism unit 2 rotationally drives a DVD 3 placed on a tray (not shown), reads information recorded on the rotationally driven DVD 3, and outputs the information to the signal processing circuit 11. For this reason, it is recorded on the tray motor 23 for moving the tray on which the DVD 3 is placed, the disk motor 22 for chucking and rotating the DVD 3 placed on the tray, and the DVD 3 that is rotationally driven. A pickup 21 for reading information is provided.
[0022]
  The signal processing circuit 11 demodulates digital data from the output of the pickup 21. The demodulated digital data is subjected to error correction and then output to the AV decoder 13. The servo control circuit 12 is a signal indicating a driving amount of an actuator (not shown) provided in the pickup 21 and a voltage applied to the disk motor 22 in accordance with an error signal generated and output in the signal processing circuit 11. And output to the drive circuit 8.
[0023]
  The drive circuit 8 drives the actuator in the pickup 21 and the disk motor 22 in accordance with a signal given from the servo control circuit 12. Further, the tray motor 23 is driven in accordance with a signal guided through a path (not shown). The on-time power supply 9 is a block that supplies operating power to the drive circuit 8 and supplies operating power to a video signal output circuit (not shown).
[0024]
  The AV decoder 13 demodulates the digital video signal and the digital audio signal by expanding the digital data sent from the signal processing circuit 11. Then, the demodulated digital video signal and digital audio signal are output to the D / A conversion circuit 14. The D / A conversion circuit 14 D / A converts the digital video signal output from the AV decoder 13 into an analog video signal and outputs the analog video signal. The digital audio signal output from the AV decoder 13 is D / A converted into an analog audio signal and output.
[0025]
  The decoder side control means 15 is constituted by a microcomputer, and controls the operation of the apparatus by communicating with the apparatus side control means 5 via the communication line 43. For this reason, the operation of the AV decoder 13 and the on / off of the on-time power supply 9 are controlled in accordance with an instruction sent by the apparatus-side control means 5.
[0026]
  Specifically, when the apparatus-side control means 5 instructs to turn on the power or opens the tray in the power-off state, a general-purpose input / output pin (set to input by a program or set to output) The output level is set by an output command, and the input level is read by the input command (off) using the control signal line 40 via P1. The on-time power supply 9 in the state is shifted to the on state. In addition, when the main circuit power supply 6 starts to supply operating power to the IC 4, the fact that the instruction can be received via the communication line 43 is indicated by using the control signal line 40 and the apparatus side control means 5. To inform.
[0027]
  That is, the decoder-side control means 15 uses only one control signal line 40 that only changes to the H level or the L level according to the data output to the I / O port. In addition, the apparatus control means 5 is notified that an instruction can be received via the communication line 43.
[0028]
  The main circuit power supply 6 supplies operation power to a block including the signal processing circuit 11, the servo control circuit 12, the AV decoder 13, the D / A conversion circuit 14, and the decoder side control means 15. The main circuit power supply 6 is an ever power supply that is normally kept on even when the power is turned off, but is set to the off state when the power is turned off in order to reduce power consumption when the power is turned off. .
[0029]
  The input circuit 7 includes a plurality of key switches (not shown) such as a power key provided on the front panel of the apparatus main body, a light receiving unit that receives infrared rays from the remote controller 10, and the like. Entered. Further, the input user instruction is output to the apparatus-side control means 5.
[0030]
  The apparatus-side control means 5 is constituted by a microcomputer, and controls operations such as turning on / off the power of the DVD playback apparatus. That is, when the power key of the remote controller 10 or the power key of the front panel is operated in the power-off state (standby state) supplied with commercial power, the main circuit power source 6 is shifted from the off-state to the on-state. Control for operating the decoder side control means 15 is performed. In addition, in the power-on state, according to instructions input by the user to the remote controller 10, various instructions are given to the decoder-side control means 15 via the communication line 43, so that playback of the DVD 3, playback pause, and fast-forwarding are performed. , Make fast rewind, etc.
[0031]
  The AV decoder 13, the D / A conversion circuit 14, and the decoder side control means 15 are integrated blocks as one IC 4.
[0032]
  The correspondence with the claims will be described below.
  One control signal line described in the claims is drawn from the decoder side control means 15 to the outside of the IC 4 through the IC pin P1, and is connected to the on-time power supply 9 and the apparatus side control means 5. This is a control signal line 40. The decoder side control means 15 is a control signal output means described in the claims. The apparatus-side control means 52The on-state power supply 9 is the first control signal receiving means.2This is the second control signal receiving means described.
[0033]
  For the device-side control means 5 that is the first control signal receiving means, a control signal non-output state in which no control signal is output is a state in which no falling edge appears in the control signal line 40 after the power is turned on. It has become. Then, the state corresponding to the control signal non-output state is a state in which the apparatus-side control unit 5 has not received information from the decoder-side control unit 15 (information indicating that an instruction can be accepted). Yes. The control signal output state in which the control signal is output is a state in which a falling edge appears on the control signal line 40. The state corresponding to the control signal output state is a state in which the device-side control means 5 has received the information sent from the decoder-side control means 15 (information indicating that the instruction can be accepted). .
[0034]
  In addition, for the on-time power supply 9 as the second control signal receiving means, the control signal non-output state in which no control signal is output is a state in which the H level is not sent to the control signal line 40 (L level is sent out). It is in the state). The state corresponding to the control signal non-output state is an off state in which the DC power is not sent to the reading mechanism unit 2 for the on-time power source 9. The control signal output state in which the control signal is output is a state in which the H level is sent to the control signal line 40. The state corresponding to the control signal output state is an on state for sending the direct current output to the reading mechanism unit 2 for the on-time power supply 9. In other words, the on-time power supply 9 stops its operation when the control signal line 40 becomes L level and operates when the control signal line 40 becomes H level.
[0035]
  FIG. 2 is a flowchart showing main operations of the embodiment, and FIG. 3 is an explanatory diagram showing changes in main signals of the embodiment. The operation of the embodiment will be described with reference to FIG.
[0036]
  Assume that the power supply is in the off state in which commercial power is supplied. In this state (time T1), the operation of the main circuit power supply 6 is stopped, so that the control signal line 40 is at the L level. In this state, when a power key (not shown) of the remote controller 10 is operated, a signal 441 indicating the operation of the power key is sent from the input circuit 7 to the apparatus-side control means 5 via the signal line 44 ( Step S1). The device-side control means 5 that has decoded the signal 441 outputs the H level h1 to the signal line 45 that controls the main circuit power supply 6 to shift the main circuit power supply 6 from the OFF state to the ON state ( Step S2).
[0037]
  The main circuit power supply 6 is turned on, and the decoder-side control means 15 supplied with the operation power starts operation. For this reason, the decoder-side control means 15 informs the apparatus-side control means 5 that the instruction can be accepted, so that the control signal line 40 has a short pulse width (Non-response period,(For example, 1 mS) A pulse 50 is transmitted. That is, the falling edge 51 is sent to the control signal line 40 (step S3). On the device-side control means 5 side, when a falling edge 51 appears on the control signal line 40, it is determined that the instruction in the decoder-side control means 15 can be accepted, and the communication line 43 is instructed to turn on the power ( (Indicated by 431) is sent (step S4). For this reason, the decoder-side control means 15 transmits the H level h2 to the control signal line 40 to shift the on-time power supply 9 from the off state to the on state (step S5). Therefore, thereafter, the DVD 3 can be reproduced.
[0038]
  Note that the on-time power supply 9 shifts to the ON state during the pulse 50 transmission period when the pulse 50 is transmitted, but the period to shift to the ON state is short. On the other hand, the voltage of the DC output of the on-time power supply 9 gradually increases toward a predetermined voltage in a period of several hundreds mS after being turned on. Therefore, the on-time power supply 9 does not send out a DC output even when the pulse 50 is sent out. That is, regarding the pulse 50, the H level is substantially ignored, and only the falling edge 51 acts effectively.
[0039]
  As described above, the operation when the power key is operated is the same as the operation of the prior art shown in FIG. However, with regard to the general-purpose input / output pins that are occupied for performing the same control, in the conventional technique, the two input / output pins P1 and P2 are one of the input / output pins P1. . Therefore, the general-purpose input / output pin P2 can be allocated for other signals.
[0040]
  FIG.2It is a block diagram which shows the electric constitution of embodiment of this. Referring to the figure,2The embodiment will be described.
[0041]
  A control signal line 606 having one end connected to the general-purpose input / output pin P16 of the IC 77 includes a connector 703 provided on the circuit board 701, a flexible flat cable (hereinafter simply referred to as FFC) 606a, and It is led to the circuit board 702 via the connector 704. The circuit board 702 is connected to the third to fifth circuit portions 63 to 65. That is, one control signal line 606 is connected to the third to fifth three circuit units 63 to 65 and the control means 76 (the FFC 606a is also used for other signal lines not shown). To be used).
[0042]
  Each of the third to fifth circuit units 63 to 65 performs an operation corresponding to the circuit configuration. Further, in a state where the operating power is supplied, the stop state is set. The third circuit unit 63 starts a predetermined operation when a rising edge is sent to the control signal line 606, and the fourth circuit unit 64 sends a falling edge to the control signal line 606. And start a predetermined operation. The fifth circuit section 65 starts a predetermined operation when an H level pulse wider than a predetermined width is sent to the control signal line 606.
[0043]
  The control unit 76 is a block integrated in the IC 77, and controls the third circuit unit 63 in the operation stopped state to shift to the operation state, and the fourth circuit unit in the operation stop state. Control for shifting 64 to the operating state and control for shifting the fifth circuit unit 65 in the stopped state to the operating state are performed. For this reason, a control signal for controlling the third circuit unit 63 and the fourth circuit unit 64 are controlled to the control signal line 606 via the general-purpose input / output pin P16 provided in the IC 77. And a control signal for controlling the fifth circuit portion 65 are sent out.
[0044]
  The correspondence with the claims will be described below.
  The control means 76 is a control signal output means described in the claims. The third circuit portion 63 is claimed in the claims.3The first control signal receiving means and the fourth circuit section 64 described in the claims3The second control signal receiving means and the fifth circuit unit 65 described in the claims are3It is the third control signal receiving means described. Therefore, when the rising edge is sent to the control signal line 606, the third circuit unit 63 shifts from the stopped state to the operating state, assuming that the control signal non-output state is changed to the control signal output state. Further, when a falling edge is sent to the control signal line 606, the fourth circuit unit 64 shifts from the stopped state to the operating state assuming that the control signal non-output state is changed to the control signal output state. Further, the fifth circuit portion 65 operates from the stop state when the control signal line 606 is transmitted with an H level pulse wider than a predetermined width, assuming that the control signal non-output state is changed to the control signal output state. Transition to the state.
[0045]
  FIG.2It is explanatory drawing which shows the change of the state of embodiment. Refer to the figure as necessary and2The operation of the embodiment will be described.
[0046]
  Now, it is assumed that the third to fifth circuit units 63 to 65 are in a stopped state. Further, it is assumed that the L level is transmitted to the control signal line 606 (see FIG. 7A). In this state, the control means 76 changes the level of the control signal line 606 from the L level to the H level. That is, the rising edge 81 is sent to the control signal line 606. For this reason, the third circuit unit 63 shifts from the stopped state to the operating state (time T66).
[0047]
  Thereafter, the control means 66 waits for the period t66, and then changes the level of the control signal line 606 from the H level to the L level. That is, the falling edge 82 is sent to the control signal line 606. For this reason, the 4th circuit part 64 transfers to an operation state from a halt condition (time T4). On the other hand, for the fifth circuit unit 65, the H level pulse 83 sent to the control signal line 606 is shorter than the predetermined width (period t67), and thus does not shift to the operating state.
[0048]
  That is, when the third circuit unit 63 is shifted from the stopped state to the operating state, and then the fourth circuit unit 64 is shifted from the stopped state to the operating state, and the fifth circuit unit 65 is maintained in the stopped state. The control means 76 applies a pulse 83 (pulse having a width of the period t66) 83 narrower to the control signal line 606 than the period t67 in which the fifth circuit unit 65 regards the pulse as being transmitted. Send it out.
[0049]
  On the other hand, when the third to fifth three circuit units 63 to 65 are shifted from the stopped state to the operating state, the fifth circuit unit is connected to the control signal line 606 as shown in FIG. 7B. 65 transmits a pulse 84 having a width wider than a period t67 (a pulse whose width is a period t68) in which it is considered that the pulse has been transmitted. At this time, at the start time T68 of the transmission of the pulse 84, the third circuit unit 63 shifts from the stopped state to the operating state. Further, the fifth circuit unit 65 shifts from the stopped state to the operating state at time T69 when the period t67 has elapsed from time T68. The fourth circuit unit 64 shifts from the stopped state to the operating state at time T70 when the transmission of the pulse 84 is completed.
[0050]
  That is, in the third embodiment, the control means 76 is provided with the single control signal line 606 provided between the circuit board 701 and the circuit board 702, and the circuit board 701 provided with the control means 76 is provided. The start of the operation of the third to fifth three circuit portions 63 to 65 provided on the circuit board 702 different from the circuit board 702 is individually controlled. For this reason, the number of pins of the FFC 606a and the connectors 703 and 704 connecting the circuit board 701 and the circuit board 702 can be reduced.
[0051]
  Note that the present invention is not limited to the above embodiment, and the pulse used for the control signal has been described as being an H level pulse, but may be an L level pulse.
[0052]
  In addition, as for the state corresponding to the control signal non-output state and the state corresponding to the control signal output state, the case where the state is the off state and the on state, or the stop state and the operation state has been described. One of the two states can be a state corresponding to the control signal non-output state, and the other can be a state corresponding to the control signal output state.
[0053]
【The invention's effect】
  As described above, in the present invention, the device-side control means determines that the decoder-side control means can accept an instruction when a falling edge appears in the binary signal sent to the control signal line, The on-time power source is configured to be in an on state when the binary signal sent to the control signal line becomes H level. Further, the decoder-side control means changes the level of the binary signal transmitted to the control signal line from the H level to the L level when the operation state is shifted from the main circuit power supply to the operation state. After informing the apparatus-side control means that the instruction can be accepted, when the power-on instruction is given from the apparatus-side control means, the level of the binary signal sent to the control signal line is set to the L level. The power supply for on time is shifted from the off state to the on state by setting the power level to H level. That is, the decoder-side control means that has started operating after receiving the supply of operating power performs a notification operation to notify the apparatus-side control means that an instruction can be accepted as an initial operation of power-on and A control operation for shifting the power supply from the off state to the on state is performed, but the number of signal lines used for these two types of operations is only one control signal line. For this reason, the general-purpose input / output pin occupied for the control signal can be used when performing control suitable when the power is turned on without complicating the circuit for discriminating the control signal. The number can be reduced.
[0054]
  In the present invention, the control signal output means sends a binary signal, which is a signal that changes to two levels of H level and L level, to the control signal line, so that a plurality of control signal receiving means For each of them, it is configured to indicate whether it is in a control signal output state in which a control signal is output or a control signal non-output state in which a control signal is not output. . and,The number of control signal receiving means is two, that is, the first control signal receiving means and the second control signal receiving means, and the falling edge in the binary signal is associated with the control signal of the first control signal receiving means. The control signal of the second control signal receiving means is associated with the H level in the binary signal, and the second control signal receiving means also outputs no control signal when it enters a state corresponding to the control signal output state. When the period after transition from the state corresponding to the state to the state corresponding to the control signal output state is shorter than the non-response period, the output state remains the same as the state corresponding to the control signal non-output state, and the non-response period The output state is changed from a state corresponding to the control signal non-output state to a state corresponding to the control signal output state, and the control signal output means uses a pulse whose H level period is a non-response period. First It sends the falling edge of the control signal receiving meansIt is like that. Therefore, when a control signal associated with the control signal receiving means to be controlled is sent to the control signal line, the corresponding control signal receiving means changes from the state corresponding to the control signal non-output state to the control signal output state. Since the state shifts to the corresponding state, the number of general-purpose input / output pins occupied for control can be reduced without complicating the circuit for determining the control signal.
[0055]
  AlsoIn the present invention,The number of the control signal receiving means is three of the first control signal receiving means, the second control signal receiving means, and the third control signal receiving means, and the control signal of the first control signal receiving means is binary. The rising edge in the signal is associated, the falling edge in the binary signal is associated with the control signal of the second control signal receiving means, and the control signal of the third control signal receiving means is based on a predetermined width in the binary signal A wide pulse is associated. Therefore, in order to shift the first control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, it is only necessary to send a rising edge to the control signal line. Further, in order to shift the second control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, it is only necessary to send a falling edge to the control signal line. Further, in order to shift the third control signal receiving means from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state, only a pulse wider than a predetermined width is sent to the control signal line. Therefore, the generation of the control signal can be simplified.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a DVD playback apparatus to which a first embodiment of an electronic apparatus according to the invention is applied.
FIG. 2 is a flowchart showing main operations of the first embodiment.
FIG. 3 is an explanatory diagram showing changes in main parts of the first embodiment.
FIG. 4 is a block diagram showing an electrical configuration of a second embodiment.
FIG. 5 is an explanatory diagram showing main changes of the second embodiment.
[Fig. 6]It is a block diagram which shows the electrical structure of a prior art.
[Explanation of symbols]
  3 DVD
  5 Device side control means
  6 Main circuit power supply
  9 On-time power supply
  13 AV decoder
  15 Decoder side control means
  40 Control signal line
  51 Falling edge
  81 Rising edge
  82 Falling edge
  h2 H level

Claims (3)

Decoder-side control means for controlling the AV decoder and the like, integrated in the same IC element as the IC element in which the AV decoder for expanding the digital signal obtained by demodulating the signal reproduced from the DVD is integrated ,
A main circuit power supply that supplies operation power to at least the AV decoder and the decoder-side control means;
An on-time power source that is set to an on state only when the power is on; and
Device-side control means for giving an instruction to the decoder-side control means in response to an instruction input to the remote controller,
The decoder-side control means, the on-time power supply, and the device-side control means are connected to a control signal line to which a binary signal that is a signal that changes into two levels of H level and L level is sent,
When the falling edge appears in the binary signal sent to the control signal line, the device-side control means determines that the decoder-side control means can accept the instruction, and the on-time power source is connected to the control signal line. A DVD playback device that is turned on when the transmitted binary signal becomes H level,
The decoder-side control means changes the level of the binary signal sent to the control signal line from the H level to the L level when the operation power is supplied from the main circuit power supply and shifts to the operation state. After informing the side control means that the instruction can be accepted, when the power-on instruction is given from the apparatus side control means, the level of the binary signal sent to the control signal line is changed from L level to H level. A DVD playback apparatus characterized in that the on-time power supply is shifted from the off state to the on state by setting the level. A control signal output means and a plurality of control signal receiving means;
The control signal output means and the plurality of control signal receiving means are both connected to one control signal line,
The control signal output means sends a binary signal, which is a signal that changes to two levels of H level and L level, to the control signal line, so that each of the plurality of control signal receiving means An electronic device that indicates whether a control signal output state is a state in which a control signal is output or a control signal non-output state in which a control signal is not output,
The number of the control signal receiving means is two of the first control signal receiving means and the second control signal receiving means,
The control signal of the first control signal receiving means is associated with the falling edge in the binary signal, the control signal of the second control signal receiving means is associated with the H level in the binary signal,
The second control signal receiving means also shifts from the state corresponding to the control signal non-output state to the state corresponding to the control signal output state when the state corresponding to the control signal output state is reached, and the subsequent period is not When it is shorter than the response period, the output state remains the same as the state corresponding to the control signal non-output state, and after the non-response period has passed, the output state changes from the state corresponding to the control signal non-output state to the control signal output state. Change to the corresponding state,
An electronic apparatus characterized in that the control signal output means sends a falling edge to the first control signal receiving means using a pulse whose H level period is a non-response period . A control signal output means and a plurality of control signal receiving means;
The control signal output means and the plurality of control signal receiving means are both connected to one control signal line,
The control signal output means sends a binary signal, which is a signal that changes to two levels of H level and L level, to the control signal line, so that each of the plurality of control signal receiving means An electronic device that indicates whether a control signal output state is a state in which a control signal is output or a control signal non-output state in which a control signal is not output,
The number of control signal receiving means is three of the first control signal receiving means, the second control signal receiving means and the third control signal receiving means,
The control signal of the first control signal receiving means is associated with the rising edge in the binary signal, the control signal of the second control signal receiving means is associated with the falling edge of the binary signal, and the third control signal The control signal of the receiving means is associated with a pulse wider than a predetermined width in the binary signal ,
Each of the first to third control signal receiving means changes from the state corresponding to the control signal non-output state to the control signal output state when detecting that the associated control signal is sent to the control signal line. An electronic device characterized by transitioning to a corresponding state .

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