JPH08168488A - Switching circuit and ultrasonic diagnostic apparatus using the same - Google Patents

Abstract

PURPOSE: To miniaturize a circuitry and reduce an offset voltage by lessening the leakage of a signal along with the minimizing of power consumption in a switching circuit for switching the connection of a desired circuit. CONSTITUTION: A constant current circuit 17 is used as power source for driving a switching diode 14 connected to a source to which two electric field transistors 8a and 8b of high withstand voltage analog switches 41 -4n are connected in common through a resistance 13 to get one end of the resistance 13 connected to the constant current circuit 17 during the OFF operation of the two electric effect transistors 8a and 8b. Thus, the miniaturization of a circuitry and reduction in an offset voltage by lessening the leakage of a signal along with the minimizing of power consumption can be achieved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switch circuit capable of reducing signal leakage and power consumption, thereby reducing circuit size and offset voltage, and a switch circuit for transmitting the switch circuit. The present invention relates to an ultrasonic diagnostic apparatus used as a changeover switch for switching between a transmission pulse applied from a wave pulse generator and a reception signal output from a probe.

[0002]

2. Description of the Related Art A conventional ultrasonic diagnostic apparatus of this type is disclosed in Japanese Unexamined Patent Publication No. 2-136134 and, as shown in FIG. 4, a plurality of transducer elements 1 ₁ , 1 formed in strips, for example. ₂ ,…,
A probe 2 in which 1n are arranged adjacent to each other on a sound absorbing material to transmit and receive ultrasonic waves, and each transducer element 1 ₁ to 1n in the probe 2
N wave-transmitting pulse generators 3 ₁ , 3 ₂ , ..., 3n for applying a drive pulse for ultrasonic ejection by applying a predetermined delay time to
And a vertical double diffused field effect transistor (hereinafter referred to as “VD
High-voltage analog switch 4 ₁ comprising the abbreviated as MOS FET ") in reverse series, 4 _2, ..., transmitting the oscillator element 1 ₁ 1n of the probe 2 with 4n pulse generator 3 ₁ ~
3n, and a changeover switch 5 for changing over the connection with 3n.

The high withstand voltage analog switches 4 _{1 to} 4 n used as the changeover switch 5 are constructed as shown in the internal circuit diagram of the first high withstand voltage analog switch indicated by reference numeral 4 ₁ . There is. That is, two VDs
The MOS FETs 8a and 8b, an input section 11 having an optical coupling circuit including a light emitting diode 9 and a photovoltaic diode array 10 for generating a photovoltaic current in response to a control signal from an input terminal A, and the above two VDs. MOS FET8a,
A control part 12 of the FET gate which operates when the 8b is turned off to short-circuit the gate and the source to accelerate the off operation, and a resistor 13 which is commonly connected from the high voltage source -V to the sources of the two VD MOS FETs 8a and 8b. And the high voltage source -V
Sufficient than the above-mentioned resistor 13 in order to lower the ground impedance of the switching diode 14 connected to the low impedance voltage source -V ₂ provided with the bypass capacitor C having a lower potential and the signal line connected to the probe 2. It consists of a small resistor or inductor 15. In addition,
Reference numerals 16a and 16b denote VD MOS FETs, respectively.
8a and 8b show parasitic diodes. The high voltage source -V is a VD MOS FE on the side of the other input terminal B.
T8c the resistor 13 are configured to be supplied from the circuit consisting of the connected high voltage source -V ₁ Metropolitan to 'Toko resistor 13'.

Next, the operation of the high breakdown voltage analog switches 4 _{1 to} 4 n shown in FIG. 4 and configured as described above will be described. First, when a control signal is applied to the input terminal, the light emitting diode 9 of the first photocoupling circuit emits light, and this light is incident on the photovoltaic diode array 10 to generate a photovoltaic current, and VD The capacitance between the gate and drain of the MOS FETs 8a and 8b is charged. Then, due to this charging, the gate voltage rises to turn on the VDMOS FETs 8a and 8b. As a result, the transmission pulse generators 3 ₁ , 3 ₂ , ... Are connected to the transducer elements 1 ₁ , 1 ₂ , ... Of the probe ₂ , and the transmission pulse generators 3 ₁ , 3 ₂ ,. Drive pulse is applied to the transducer elements 1 ₁ , 1 ₂ , ... Of the corresponding channel,
Ultrasonic waves are transmitted from the transducer elements 1 ₁ , 1 ₂ , ....
At this time, the DC voltage of the sources of the VD MOS FETs 8a and 8b is turned on by the control voltage applied to the other input terminal B in synchronization with the signal of the one input terminal A so that the VD MOS FET 8c on the input terminal B side is turned on. Therefore, it is almost at the ground potential. That is, since the potential of the high voltage source -V becomes almost the ground potential, the switching diode 14 is turned off and the DC potential at the input / output signal end becomes almost the ground potential.

Next, when the control signal is removed from the input terminal A, the light emission from the light emitting diode 9 of the photocoupling circuit stops and the light does not enter the photovoltaic diode array 10. 10 does not generate a photovoltaic current, and the control unit 12 of the FET gate switches to short-circuit between the gate and the source of the VD MOS FETs 8a and 8b, thereby discharging the electric charge of the gate and VD
The MOS FETs 8a and 8b are turned off. This allows
Transmission pulse generator 3 _1, 3 _2, ... oscillator element 1 and the probe 2 _1, 1 _2, ... and is cut off, oscillator elements 1 ₁ of the corresponding channel, 1 _2, ... from the super The transmission of sound waves is stopped.
At this time, since the VD MOS FETs 8a and 8b are turned off, the source potentials of the VD MOS FETs 8a and 8b are close to the high voltage source -V ₁ . In this state, the potential of the anode of the switching diode 14 is −
Since it is V ₂ and this potential is lower than the high voltage source −V ₁ , the switching diode 14 is turned on. A current determined by the potential difference between V ₂ and V ₁ and the resistors 13 and 13 'flows through the switching diode 14, and if the operating resistance of the switching diode 14 at this time is designed to be sufficiently small, two VD MOS FE
Leakage of signals from T8a, 8b flows into the switching diode 14 and causes the transducer elements 1 ₁ ,
Leakage to 1 ₂ , ..., 1 n can be reduced.

[0006]

[SUMMARY OF THE INVENTION] However, the high-voltage analog switch 4 ₁ to 4n used as the changeover switch 5 in such a conventional ultrasonic diagnostic apparatus, oscillator elements 1 ₁ 1n in the probe 2 In order to reduce the leakage of signals to the two VD MOS FETs 8, the operating resistance of the switching diode 14 is designed to be sufficiently small.
Since the leakage of the signals from a and 8b was made to flow through the switching diode 14, the current flowing through the switching diode 14 was large.
In this case, including the input terminal B side, three VD MOS F
The current flowing through the switching diode 14 when the ETs 8a, 8b, 8c are turned on is determined by the potential difference V _{1 of the} high voltage source supplied to the input terminal B side and the resistor 13 '. Therefore, in order to reduce the current flowing through the switching diode 14, it is necessary to increase the value of the resistor 13 '. However, if the value of the resistor 13 'is increased, the operating current of the switching diode 14 may become too small, so that there is a limit to increase the value of the resistor 13'. On the other hand, when the value of the resistor 13 'is decreased, the flowing current increases and the power consumption increases, the resistor also increases in size, the circuit scale increases, and the offset voltage also increases. For this reason, the changeover switch 5 is upsized and the ultrasonic diagnostic apparatus is upsized as a whole.

Therefore, the present invention addresses such problems, reduces the leakage of signals, and reduces power consumption to reduce the circuit scale and offset voltage. And an ultrasonic diagnostic apparatus using this switch circuit as a changeover switch for switching between a transmission pulse applied from a transmission pulse generator and a reception signal output from a probe. To do.

[0008]

In order to achieve the above object, a switch circuit according to the present invention uses a high withstand voltage analog switch in which two field effect transistors are connected in anti-series. In addition to controlling the gate signal, the commonly connected sources of these field-effect transistors are reverse-biased by a low-impedance power supply during off operation, so switching to the commonly connected sources of the two field-effect transistors of the high-voltage analog switch is performed. In a switch circuit that is formed by connecting diodes and switches the connection of a target circuit, a constant current circuit is used as a power source for driving the switching diode via a resistor, and the two field effect transistors have the constant voltage when they are off. One end of the resistor connected to the current circuit is grounded It is obtained by deliberately made so.

Further, an ultrasonic diagnostic apparatus as a related invention has a probe in which a plurality of transducer elements are arranged and which transmits and receives ultrasonic waves, and a predetermined delay time for each transducer element in the probe. A transmission pulse generator for applying a drive pulse for ultrasonic emission and switching for switching between the transmission pulse applied from the transmission pulse generator to the probe and the reception signal from the probe A switch, a receiving amplifier for amplifying a received signal from the probe output through the changeover switch, and a delay circuit for giving a predetermined delay time to the received signal from the receiving amplifier A phasing circuit that adds received signals whose phases have been aligned by the circuit and outputs it, a detector that detects the signal phased by this phasing circuit, and the output signal from this detector is displayed as an image Ultrasonic diagnostic device including display device Oite, as the changeover switch, but using a switch circuit of the unit.

[0010]

In the switch circuit configured as described above, a constant current circuit is used as a power source for driving a switching diode connected to a commonly connected source of two field effect transistors of a high breakdown voltage analog switch through a resistor,
When the two field effect transistors are turned off, one end of the resistor connected to the constant current circuit operates so as to be grounded. As a result, it is possible to reduce signal leakage, reduce power consumption, downsize the circuit scale, and reduce the offset voltage.

Further, the ultrasonic diagnostic apparatus configured as described above serves as a changeover switch for switching between the transmission pulse applied from the transmission pulse generator to the probe and the reception signal from the probe. By using the switch circuit described above, the entire device can be downsized.

[0012]

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings. FIG. 1 is a circuit diagram showing an embodiment of a switch circuit according to the present invention. The switch circuit may, for example change-over switch for switching between reception signals from transmission pulse and該探probe 2 applied to the probe 2 from the transmission pulse generator 3 ₁ 3n ultrasonic diagnostic apparatus The vertical double diffused field effect transistor (VD
MOS FETs 8a and 8b are connected in anti-series, and high withstand voltage analog switches 4 ₁ , 4 ₂ , ...
The gate signals of the D MOS FETs 8a and 8b are controlled by an optical coupling circuit, and the VD MOS FETs 8a and 8b are controlled.
The commonly connected sources of 8b are reverse-biased by a low impedance power source at the time of OFF operation to switch the connection of the target circuit.

In the present invention, the high voltage analog switches 4 ₁ to 4 used as the changeover switch 5 are used.
4n is configured as shown in the internal circuit diagram of a first high-voltage analog switch shown by reference numeral 4 _1. That is, an input section 11 having two VD MOS FETs 8a and 8b, an optical coupling circuit including a light emitting diode 9 and a photovoltaic diode array 10, and generating a photovoltaic current according to a control signal from an input terminal A; , The above two VD MO
The FET gate control unit 12 that operates when the S FETs 8a and 8b are off to short-circuit the gate and the source to accelerate the off operation, and the above two VD MOS transistors from the high voltage source -V.
A resistor 13 commonly connected to the sources of ETs 8a and 8b,
Bypass capacitor C having a lower potential than the high voltage source -V
A switching diode 14 connected to a low impedance voltage source -V ₂ and a resistor or inductor 15 sufficiently smaller than the above resistor 13 in order to lower the ground impedance of the signal line connected to the probe 2. Made of The symbols 16a and 16b respectively represent V
The parasitic diode of DMOS FET8a, 8b is shown. Further, the high voltage source -V is supplied from the circuit comprising a high voltage source -V ₁ Metropolitan connected to another input terminal B side of the VD MOS FET8c a constant current circuit 17 Toko of the constant current circuit 17 configured Has become. That is, the constant current circuit 17 is used as a power source for driving the switching diode 14 via the resistor 13.

The specific circuit configuration of the constant current circuit 17 is as shown in FIG. 2, for example. That is, as shown in FIG. 3A, a combination of two transistors Q ₁ and Q ₂ and a resistor R ₁
Alternatively, as shown in FIG. 2B, there is a transistor formed by combining one transistor Q ₃ and three resistors R ₂ , R ₃ and R ₄ .

Next, the operation of the high breakdown voltage analog switches 4 _{1 to} 4 n shown in FIG. 1 and configured as described above will be described. First, when a control signal is applied to the input terminal A, the light emitting diode 9 of the optical coupling circuit emits light, and this light is incident on the photovoltaic diode array 10 to generate a photovoltaic current,
The gate capacitances of the VD MOS FETs 8a and 8b are charged. Then, due to this charging, the gate voltage rises and VD
The MOS FETs 8a and 8b are turned on. This allows
The transmitting pulse generators 3 ₁ , 3 ₂ , ... Are connected to the transducer elements 1 ₁ , 1 ₂ , ... Of the probe ₂ , and the drive pulses from the transmitting pulse generators 3 ₁ , 3 ₂ ,. Is applied to the transducer elements 1 ₁ , 1 ₂ , ... Of the corresponding channel,
Ultrasonic waves are transmitted from ₁ , 1 ₂ , .... Here, in the operation of the conventional high voltage analog switches 4 ₁ to 4n shown in FIG. 4, when two VD MOS FET 8a, and 8b is turned on, the current i flowing through the switching diode 14, the other input terminal B 'the value of R' is connected to a high voltage source -V ₁ side resistor 13 Then, given by _{i = V 1 / R '...} (1).

Next, when the control signal is removed from the input terminal A, the light emission from the light emitting diode 9 of the photocoupling circuit stops and the light does not enter the photovoltaic diode array 10. 10 does not generate a photovoltaic current, and the control unit 12 operates as a switch to operate the VD MOS F
By short-circuiting the gate and source of ET8a, 8b, the charge of the gate is discharged, and the VD MOS FET
Turn off 8a and 8b. As a result, the transmission pulse generators 3 ₁ , 3 ₂ , ... And the transducer elements 1 ₁ , 1 ₂ , ... Of the probe 2 are cut off, and the transducer elements 1 ₁ ,
The transmission of ultrasonic waves from 1 ₂ , ... Is stopped. Here, in the operation of the conventional high voltage analog switches 4 ₁ to 4n shown in FIG. 4, if you turn off the two VD MOS FET 8a, 8b, the source of the VD MOS FET 8a, 8b become zero potential, the switching The current i ′ flowing through the diode 14 is generated by the resistor 1 commonly connected to the source.
3 of the value when the _{R, i '= (V 2} -V 1) / (R + R' a) ... (2). In this case, the power P consumed by the resistor 13 '
Becomes P = i ² · R ′ = V ₁ · i (3)

Meanwhile, in the operation of the high-voltage analog switch 4 ₁ to 4n of the present invention shown in FIG. 1, instead of the resistor 13 ', a current flowing through the switching diode 14 two VD MOS FET 8a, 8b is in the OFF i When a constant current circuit 17 that supplies a current equal to 'is used, the power P'consumed by this constant current circuit 17 is P' = V ₁ · i '(4). Now, as a specific example, for example, V ₁ = 150V, V ₂
= 120 V, R = 33 KΩ, R ′ = 51 KΩ, the current is i = 3 mA, i ′ = 0.35 from the above equations (1) and (2).
mA, and the power consumption is P = 0. from equations (3) and (4).
45W, P '= 0.053W. Therefore, according to the present invention, the power consumption P'which is about 1/9 of that of the conventional circuit can be greatly reduced.

Further, in FIG. 1, VD MOS FET
The offset voltage when 8a, 8b and 8c are on is determined by the current i'flowing through the other VD MOS FET 8c on the input terminal B side and the on resistance of the VD MOS FET 8c. In this case, as described above, VD MOS FET
Since the current i ′ flowing through 8c can be greatly reduced as compared with the conventional circuit, the offset voltage can also be significantly reduced. As a specific example, assuming that the respective values of V ₁ , V ₂ , R, and R'are the above-mentioned values and the ON resistance of the VD MOS FET 8c is 8Ω, the offset voltage is 24 mV in the conventional circuit shown in FIG. However, in the present invention shown in FIG.
It becomes 8 mV. That is, according to the present invention, the offset voltage can be greatly reduced to about 1/8 that of the conventional circuit.

In FIG. 1, two VD MOs are used.
In order to turn on and off the S FETs 8a and 8b, the VD MO is controlled by the input unit 11 having an optical coupling circuit including a light emitting diode 9 and a photovoltaic diode array 10.
Although a potential is applied between the gate and the source of the S FETs 8a and 8b, the present invention is not limited to this, and a circuit that shifts the potential by using a high breakdown voltage FET instead of the input unit 11 and the control unit 12 is used. May be used.

FIG. 3 is a block diagram showing an embodiment of an ultrasonic diagnostic apparatus as a related invention of the switch circuit shown in FIG. The ultrasonic diagnostic apparatus is an ultrasonic for diagnostic portion of the subject so as to obtain a tomographic image, for example, it is with an electronic linear scanning, a plurality of oscillator elements 1 _1, which is formed in a strip shape 1n arrayed probe 2 that transmits and receives ultrasonic waves
From this transmission pulse generator 3, a transmission pulse generator 3 for applying a predetermined delay time to each transducer element 1 ₁ to ₁ n in the probe 2 and applying a drive pulse for ultrasonic wave ejection, A changeover switch 5 for switching between a transmission pulse applied to the probe 2 and a reception signal from the probe 2, and a reception signal from the probe 2 output via the changeover switch 5. Of the receiving amplifier 6a that amplifies the gain by changing the gain with time.
6e and a plurality of delay circuits 7a to 7e for giving a predetermined delay time to the output signals from the respective receiving amplifiers 6a to 6e, and the received signals whose phases are aligned by these delay circuits 7a to 7e are added. A phasing circuit 19 including an adder 18, and a wave detector 20 for detecting a signal phased by the phasing circuit 19
And a display device 21 for displaying the output signal from the detector 20 as an image.

In FIG. 3, the change-over switch 5 is adapted to sequentially select, for example, five transducer element groups from one end and connect them to the receiving amplifiers 6a to 6e of the next stage, respectively. The five transducer element groups are sequentially switched and translated. Therefore, five receiving amplifiers (6a to 6e) are provided. The operation of each of the above components is controlled by a control signal from the control unit 22.

Here, in the present invention, the changeover switch 5 has the circuit configuration shown in FIG. 1 to reduce signal leakage, reduce power consumption, and reduce the circuit scale. High withstand voltage analog switch 4
_A switch circuit composed of _{1 to} 4n is used. With such a configuration, in the ultrasonic diagnostic apparatus of the present invention,
As the changeover switch 5, the switch circuit (4
By using _{1 to} 4n), the overall size of the device can be reduced.

[0023]

The switch circuit according to the present invention (see FIG. 1)
Since it is configured as described above, a constant current circuit is used as a power source for driving a switching diode connected to a commonly connected source of two field effect transistors of a high voltage analog switch through a resistor, and the above two electric fields are used. When the effect transistor is turned off, one end of the resistor connected to the constant current circuit can be grounded. As a result, it is possible to reduce signal leakage, reduce power consumption, downsize the circuit scale, and reduce the offset voltage. Also, the DC potentials of the sources of the above two field effect transistors are close to the ground potential,
There is almost no change in the offset potential due to the on / off operation of the switch circuit of the present invention, and it is possible to reduce the generation of noise during switch switching.

The ultrasonic diagnostic apparatus according to the present invention (see FIG.
Since the above (1) is configured as described above, the above switch circuit is used as a changeover switch for switching between the transmission pulse applied from the transmission pulse generator to the probe and the reception signal from the probe. By using it, the entire device can be downsized.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of a switch circuit according to the present invention.

FIG. 2 is a circuit diagram showing a specific circuit configuration of a constant current circuit in the switch circuit.

FIG. 3 is a block diagram showing an embodiment of an ultrasonic diagnostic apparatus as a related invention of the switch circuit shown in FIG.

FIG. 4 is a circuit diagram showing a changeover switch in a conventional ultrasonic diagnostic apparatus.

[Explanation of symbols]

1 1 to ₁ n ... Transducer element 2 ... Probe 3, 3 _{1 to} 3 n ... Transmitting pulse generator 41 _{1 to} 4 n ... High-voltage analog switch 5 ... Changeover switch 6 a-6 n ... Receiving amplifier 8 a, 8 b, 8 c ... VD MOS FET 9 ... Light emitting diode 10 ... Photovoltaic diode array 11 ... Input part 12 ... Control part 13 ... Resistor 14 ... Switching diode 15 ... Resistor or inductor 17 ... Constant current circuit 19 ... Phase-matching circuit 20 ... Wave detector 21 ... Display device 22 ... Control unit

Claims (2)

[Claims] 1. A high breakdown voltage analog switch formed by connecting two field effect transistors in anti-series is used to control gate signals of the two field effect transistors, and
In order to reverse-bias the commonly connected sources of these field effect transistors with a low impedance power supply during the off operation, the switching diodes are connected to the commonly connected sources of the two field effect transistors of the high voltage analog switch. In the switch circuit for switching the connection of the target circuit, a constant current circuit is used as a power supply for driving the switching diode via a resistor, and the two field effect transistors are connected to the constant current circuit during the off operation. A switch circuit in which one end of the switch circuit is grounded. 2. A probe in which a plurality of transducer elements are arranged to transmit and receive ultrasonic waves, and a drive pulse for ultrasonic ejection is applied to each transducer element in the probe with a predetermined delay time. Transmitting pulse generator, a changeover switch for changing over the transmission pulse applied from the transmitting pulse generator to the probe and the received signal from the probe, and output via this changeover switch The receiving signal that has a receiving amplifier that amplifies the receiving signal from the probe and a delay circuit that gives a predetermined delay time to the receiving signal from this receiving amplifier, and the receiving signal whose phase is aligned by these delay circuits A phasing circuit that adds and outputs
An ultrasonic diagnostic apparatus comprising a detector for detecting a signal phased by the phasing circuit, and a display device for displaying an output signal from the detector as an image. An ultrasonic diagnostic apparatus using the described switch circuit.