JPS60229580A - Power source control circuit - Google Patents

Abstract

PURPOSE:To secure sufficient safety when electric power is supplied to a part to be controlled by supplying a main source voltage on detecting both the connection of a cable with the part to be controlled and the transmission of the 1st and the 2nd discrimination signals from the part to be controlled. CONSTITUTION:Power source circuits 35, 36, and 37 operate with AC inputs V1, V2, and V3. In this case, V1<V2<V3. When the camera cable 3 is connected to a camera head side 2, a short-circuiting circuit 32 powers on a relay coil 18 to apply the V1 to the camera head side 2, and only the power source circuit 35 operates to operate a tone oscillation circuit 41 and an FM modulator 42. Its tone signal is detected by the detecting circuit 23 at a CCU side 1 to excite a relay coil 16 and the AC voltage V2 is applied to the camera head side 2 to operate a power source circuit 36 and then operates a data generating circuit 44 and an FM modulator 45; and the AC voltage V3 is sent out to the camera head side 2 and a power source circuit 37 operates to put the camera in operation.

Description

Detailed Description of the Invention [Field of Industrial Application] This invention connects a camera head side including a video camera and a CCU (camera control unit) via a camera cable, and connects a camera head side including a video camera to a CCU (camera control unit), and connects a power source from the CCU to the camera head side. The present invention relates to a power supply control circuit applied to a control system that supplies power.

[Background technology and its problems]

The power supply voltage supplied to the camera head side is 240V (AC
), sufficient safety measures must be taken when transmitting the power supply voltage from the CCU side via the camera cable. To do this, it is necessary to detect that the camera cable is connected to the camera head side, send out a low voltage, generate a tone signal on the camera head side, and receive this tone signal on the CCU side. A power supply control circuit is used to send out the power supply voltage. .

However, there was a problem in that sufficient safety could not be ensured under the two conditions of connecting the camera cable and receiving the tone signal.

[Purpose of the invention]

Therefore, an object of the present invention is to provide a power supply control circuit that can ensure sufficient safety when transmitting power to a controlled unit.

Another object of the present invention is to provide a power supply control circuit that can operate a subsidiary circuit on the controlled section side even when the power on the controlled section side is turned off.

[Summary of the invention]

The present invention relates to a power control circuit for a control device in which a control section having a power source and a controlled section including a load of the power source are coupled via a mutual transmission cable.

By connecting the mutual transmission cable to the controlled part,
A first switch means for changing the power supply to the controlled unit via the mutual transmission cable to 0N10F'f'', and setting the power supply voltage to be transmitted to a first voltage Vl.

Second voltage V2. Third voltage V3 (however.

Voltage switching means for switching to Vl (V2 (V3)) is provided in the U control section.

A circuit that generates a first identification signal when the first power supply voltage Vl, the second power supply voltage 2, and the third power supply voltage 3 are transmitted, and sends it to the control unit via the mutual transmission cable. and,
A circuit that generates a second identification signal when the second power supply voltage 2 and the third power supply voltage V3 are transmitted and sends it to the control unit via the mutual transmission pull is provided in the controlled unit. Rare.

In the control unit, detecting the presence or absence of the first identification signal and the second identification signal, and controlling the voltage switching means based on this detection,
A power supply control circuit characterized in that a first power supply voltage ■1 is first generated, a second power supply voltage ■2 is first generated, and finally a third power supply voltage ■3 is generated. be.

〔Example〕

Hereinafter, an embodiment in which the present invention is applied to a power control circuit using a CCU (camera control unit) will be described with reference to the drawings.

In FIG. 1, 1 is the CCU side, 2 is the camera head side, and both are connected via a camera cable 3.

Camera cable 3 has 1 core! 4 A.

This cable has a first shield 4B and a second shield 4C. Intercurrent power is sent from the CCU side 1 to the camera head side 2. This AC power source and main signal are transmitted via the core wire 4A of the camera cable 3.

FIG. 2 shows a frequency spectrum of a signal sent and received via the core wire 4A of the camera cable 3.

The output signal of the color video camera on the camera head side 2 is
Processed by the camera body circuit 31. The brightness signal is 18M
AM modulated to have a carrier frequency of Hz, R-
The two color difference signals Y and BY are orthogonally two-phase modulated to have a carrier frequency of 36 MHz. Together with the modulated luminance signal SY and the modulated color difference signal SD, the microphone output signal.

Intercom signals, data signals, and tone signals are transmitted from the camera head side 2 to the CCU side 1. 2 channel microphone output signals are 5M1-1z and 5.5MH
The intercom signal and the data signal are each in the form of an FM modulated signal with a carrier frequency of 6 MHz, and the tone signal (for example, a 300 Hz sine wave) is in the form of an FM modulated signal with a carrier frequency of 6.5 MHz. It is in the form of an FM modulated signal with a carrier frequency.

A return video signal (composite color video signal) is sent from the CCU side 1 to the camera head side 2.

Video signals for teleprompters, intercom signals,
A program audio signal is transmitted.

From the CCU main circuit 11, in FIG.

F' of the carrier frequency of 7QMHz, as shown by SC
M-modulated return video signal SR FM-modulated teleprompter video signal with a carrier frequency of 1100 MHz, FM-modulated intercom signal with a carrier frequency of 3 MHz, Ii"M-modulated with a carrier frequency of 4 Ml-I z A program audio signal is generated.The program audio signal is an audio signal that is being broadcast.

A power transformer 5 is provided on the CCU side 1.

A coil 6 and a coil 7 are provided on the secondary side of this power transformer 5. The fill 6 is provided with taps T and T, and these taps T! and T are relay contacts 8
and 9 are connected to each other's normal ON terminals 8A and 9AK. The relay contact 80 normal OFF terminal 8B is connected to the hot end of the power transformer 5, and the output terminal of the relay contact 8 is connected to the relay contact 90 normal OFF terminal 9B. The output terminal of this relay contact 9 is normally OFF.
Core M4 of camera cable 3 via relay contact 10A of
AK is connected. The cold end of the power transformer 5 is
It is connected to the first seal F 4 B of the camera cable 3 via a normally OFF relay contact 10B. This first
Shield 4B is.

Grounded via a capacitor.

The tap T of the coil 6 has a first voltage v1, for example, 30
An AC voltage of V is generated, a second voltage v2, for example, an AC voltage of 1.00 V is generated at the tap Tt, and a third voltage v3, for example, an AC voltage of 240V is generated across the tap Tt. . As shown.

When relay contacts 8, 9, 10A, and 1QB are in the OFF state, no power supply voltage is sent to the camera cable 3. The camera head side 2 is powered by a 240V AC power supply.
Perform normal operations.

A power circuit 14 is connected to the filter T of the power transformer 5 . The output voltage of this power supply circuit 14 is the relay coil 15 and 16. PNP) is processed into the emitter of the transistor 17. A relay coil 18 is inserted between the collector of the transistor 17 and ground. The relay coil 15 is
The relay coil 16 is energized when the NPN) transistor 19 turns ON, and the relay coil 16 is energized when the NPN) transistor 2o turns ON.
It is energized by doing this.

The modulated luminance signal SY, modulated color difference signal SD, etc. from the camera head side 2 are sent to the CCU main circuit via a capacitor 12 and a mixer 13. Capacitor 12. It is transmitted to the camera head side 2 via the camera cable 3.

On the camera head side 2, the modulated return video signal SR and the like are supplied to the camera body circuit 31 via a capacitor 33 and a mixer 34.

The modulated luminance signal SY etc. from the camera body circuit 31 are sent to the mixer 34. Capacitor 33 and camera cable 3
is transmitted to the CCU1 side via.

On the camera head side 2, a short circuit 32 is provided that shorts the first shield 4B and second shield 4C when the camera cable 3 is connected. The AC voltage transmitted through the core wire 4A of the camera cable 3 and the first shield 4B is supplied to the power supply circuits 35, 36, and 37. Output terminals 38A, 38B, 39A of these power supply circuits
, 39B.

Among 40A and 40B, ground side terminals 38B and 39B.

The connection of 40B is omitted for simplicity. Power circuit 3
No. 5, 36, and 37 are all configured as switching regulators, and do not operate unless an AC voltage of a predetermined level or higher is input.

In other words, the power supply circuit 35 operates at the first power supply voltage V1 (30V
), the power supply circuit 36 operates with an AC input higher than Vl, for example 50V or more, and the source circuit 3T operates with an AC input higher than V2, for example 120V or higher. The output voltage (for example, +9V) of the power supply circuit 35 is used as the power supply voltage of the tone oscillation circuit 41 and the FM modulator 42. The output voltage (for example, +9V) of the power supply circuit 36 is applied to the data generation circuit 4.
4 and 11i'' is the power supply voltage of the M modulator 45.

The output voltage (for example, +9V) of the power supply circuit 37 is used as the power supply voltage of the camera body circuit 31. Furthermore, the camera body circuit 3
The intercom circuit installed in 1 is! ! It is configured to operate using a power supply voltage from a source circuit 36.

When the power supply voltage is applied from the power supply circuit 35, the tone oscillation circuit 41 generates a 300Hz sine wave tone signal, and this tone signal is sent to the FM modulator 42 (by 6.5M).
The signal is FM modulated with a carrier frequency of Hz, and unnecessary signal components are removed by a bandpass filter 43 and supplied to a mixer 34. The data generation circuit 44 outputs 1! When a power supply voltage is applied from the source circuit 36, a plurality of bits of data in which 0 and 1 are combined is generated. 46
, unnecessary signal components are removed and the signal is supplied to the mixer 341C. These tone signals and data are transmitted to the CCU side 1 through the camera cable 3, and the base 1 of the transistor 17 on the CCU side 1 is connected to the power supply line through the time constant circuit.

It is connected to the second shield 4C of the camera cable 3 via a resistor. Further, a bandpass filter 21 and a bandpass filter 24 are connected to the mixer 13 . The band pass filter 21 is.

The band pass filter 24 has a pass band centered at 6.5 MHz, and the band pass filter 24 has a pass band centered at 6 MHz. Therefore, the FM modulated tone signal is separated from the output of the band pass filter 21, and the output IC of the band pass filter 24 is.

FM modulated data is separated.

An FMi modulator 22 is connected to the output of the bandpass filter 21, and a tone signal is demodulated to the output thereof. This tone signal is supplied to the tone signal detection circuit 23, and a positive DC voltage is generated at its output when there is a tone signal. This DC voltage is supplied to the base of the transistor 200.
Therefore.

When there is a tone signal, transistor 20 is turned on and relay coil 16 is turned on. Bunt huff.

An FM demodulator 25 is connected to the output of the filter 24,
Data is demodulated at its output. This data is supplied to the data detection circuit 26, and a positive DC voltage is generated at its output when data is present.

This DC voltage is supplied to the base of transistor 19. Therefore, when there is data, the transistor 19 is ONL and the relay coil 15 is energized.
When connected to the camera head side 2, the first shield 4B and the second shield 4C of the camera cable 3 are shorted by the short circuit 32.

As a result, the transistor 1T is ONL, the relay fill 18 is energized, and the relay contact ? OA and 10B are ON
do. Therefore, the AC voltage v1 is sent to the camera head side 2. On the camera head side 2, only the power supply circuit 35 is operated, and the tone oscillation circuit 41 and the FM modulator 42 are operated by the voltage from the power supply circuit 35. When the CCU side 1 receives the FM modulated tone signal, the transistor 20 is turned on by the output of the tone signal detection circuit 23, and the relay fill 16 is energized. As a result, the relay contact 9 is switched to the state where it is connected to the terminal 9B, and the AC voltage 2 is sent to the camera head side 2.

On the camera head side 2, a power supply circuit 36 operates in addition to the power supply circuit 35, and a data generation circuit 44 and an FM modulator 45 operate.
When the CCU side 1 receives 02M modulated data, the transistor 19 is turned on by the output of the data detection circuit 26.

Relay fill 15 is energized. by this.

The relay contact 8 is switched to a state where it is connected to the terminal 8B, and the AC voltage 3 is sent to the camera head side 2. The camera operates by sending out this AC voltage (3).

How to turn off the main power on the camera head side 2.

The relay power supply can be turned off by control on the CCU side 1. In this case, three relay coils i5
, 16, and 18, it is possible to cut off the energization only to the relay coil 15 and send the AC voltage 2 to the camera head side 2. A specific circuit for this purpose can be configured by a switch that sets the base voltage of the transistors 19 and 20 to the ground potential, and a switch that sets the base voltage of the transistor 17 to the power supply voltage.

Therefore, even when the main power supply (Vl) is turned off, the intercom circuit on the camera head side 2 can be operated and the intercom can be used.

[Application example]

This invention is not limited to the case of transmitting AC power.

On the CCU side, the switching regulator
The present invention can be similarly applied to the case where a normal DC power supply voltage is generated and this DC power supply voltage is transmitted to the camera head side via a camera cable. Furthermore, the tone signal and data may be used not only to control the power supply but also to identify the camera.

〔Effect of the invention〕

According to this invention, the cable is connected to the controlled unit, the first identification signal (tone signal in the embodiment) is sent from the controlled unit, and the second identification signal (tone signal in the embodiment) is transmitted from the controlled unit. , by detecting all that data) is sent from the controlled unit.

Since the main power supply voltage is sent out, sufficient safety measures can be taken. In addition, in this invention, by providing a state in which the main power supply voltage is not high voltage and therefore transmitting the second power supply voltage, which is less dangerous, some circuits of the controlled part such as the intercom circuit are operated. can be done.

[Brief explanation of the drawing]

FIG. 1 is a connection diagram of an embodiment of the present invention, and FIG. 2 is a frequency spectrum used to explain the embodiment of the invention. 1...CCU side, 2...Camera head side, 3...Camera cable, 5...Power transformer, 8°9, I OA, 10B... ...Relay contact, 15.16゜18...Pa relay coil, 2
3...Tone (G detection circuit, 26...
...Data detection circuit, 32...Short circuit, 41
...Tone oscillation circuit, 44...Data generation circuit. Agent Masato Sugiura

Claims (1)

[Scope of Claim] A power supply control circuit for a control device in which a control section having a power supply and a controlled section including a load of the power supply are coupled via a mutual transmission cable. Since the mutual transmission cable is connected to the controlled section, a first switch means for turning ON10 F F the sending of the power to the controlled section via the mutual transmission cable; The power supply voltage is the first voltage V
l, second voltage V2. Third t pressure V3 (however, Vl(
A voltage switching means for switching between V2 (V3) and K is provided in the control section. When the first power supply voltage Vl, the second power supply voltage V2 and the third power supply voltage 3 are transmitted, a first identification signal is generated and sent to the control unit via the mutual transmission cable. a circuit for generating a second identification signal when the second power supply voltage v2 and the third power supply voltage 3 are transmitted, and a circuit for transmitting the second identification signal to the control unit via the mutual transmission cable; is provided in the controlled section. In the control unit, the first identification signal and the second
The presence or absence of the identification signal is detected, and based on this detection, the voltage switching means is controlled to first generate the first power supply voltage ■1, firstly generate the second power supply voltage ■2, and finally generate the second power supply voltage ■2. A power supply control circuit characterized in that the third power supply voltage V3 is generated.