JPH0250739B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION TECHNICAL FIELD The present invention relates to an ultrasound imager, and more particularly to an ultrasound imager having a standby mode.

[Prior art]

In conventional ultrasound imagers, once the power is turned on, power is supplied to each part whether the device is in operation or on standby. For this reason, power is unnecessarily consumed during standby, and battery-driven devices in particular have problems such as shortened service life.

[Purpose of the invention]

The present invention has been made in view of these points, and its purpose is to provide an ultrasound imager equipped with a standby mode that can reduce power consumption.
To provide an image capable of displaying an image (frozen image) immediately before transition to standby mode even when returning from standby mode to normal operation mode.

[Structure of the invention]

The present invention, which achieves these objects, includes an echo sounder that drives a probe to transmit and receive ultrasonic waves, a frame memory that stores image data obtained by the echo sounder, and a frame memory that stores the image data in the frame memory. controlling a display means for displaying an image, the echo sounder, the frame memory, and the display means, and when returning from standby mode to normal operation mode,
a control means for displaying a frozen image on the display means; the control means; the echo sounder;
a battery that supplies power to the frame memory and the display means; a standby switch that is provided on each power supply line from the battery to the echo sounder and the display means and that cuts off the power supply line when in standby mode; It is characterized by having the following.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to the drawings. First, the standby mode in the present invention will be described. Standby mode means that the power is on and the image memory (usually
Power continues to be supplied to small areas such as DRAM (Dynamic Random Access Memory) or microprocessors and keyboards that require additional power, but power is not supplied to other parts such as the television monitor and echo sounder. Refers to the mode in a stopped state.

The purpose of standby mode is to reduce power consumption.
(n is a natural number) images are continued to be held in the memory, and the next time the normal operation mode is restored, the frozen images can be displayed.

The figure is a main part configuration diagram showing an embodiment of the present invention. In the figure, 1 is a rectifier power supply/charger, 2 is a battery, 3 is a main switch, 4 is a regulator group, 5 is a standby switch, 6 is a frame memory, 7 is a microprocessor, 8 is a control logic, and 9 is a echo sounder, 10
CRT display, 11 is a probe.

A rectifying power supply/charger 1 rectifies a commercial AC voltage and charges a rechargeable battery 2. The output voltage of the battery 2 (rectified power supply/charger 1) is led to the regulator group 4 via the main switch 3, where it is adjusted to a predetermined DC power supply voltage suitable for each part. Each predetermined power supply voltage is stored in the frame memory 6.
Supplied to others. In this case, the frame memory 6 and microprocessor 7 are directly supplied, but the control logic 8 and CRT display 10 are supplied via the standby switch 5. The standby switch 5 can be turned on/off manually or automatically. The probe 11 is driven by the echo sounder 9, emits ultrasonic waves, receives reflected waves, and converts them into electrical signals. The converted signal is appropriately processed as an echo signal (the processing circuit is omitted), and is stored in the frame memory 6 as image data.
is stored in Control logic 8 generates and supplies necessary control signals to each section according to instructions from microprocessor 7. The CRT display 10 is capable of displaying image data in the frame memory 6 under the control of the microprocessor 7.

Note that the mutual connections and functions of each part are the same as those of conventional ultrasound imagers.

In such a configuration, in the normal operation mode, the main switch 3 and the standby switch 5 are turned on, and operations similar to those of the prior art are performed. When in standby mode,
Only the standby switch 5 is turned off, and power is supplied only to the frame memory 6 and the microprocessor 7 from the rectified power supply 1 or the battery 2 through the regulator group 4. Power supply to other circuits is interrupted. Incidentally, when the microprocessor 7 learns that the standby switch 5 is turned off, it enters a standby state and naturally freezes the image without rewriting the image data in the frame memory 6.

Return from standby mode to normal operation mode is performed by turning on standby switch 5. In this case, as described above, the display always returns to the state where the frozen image is displayed. That is, when the microprocessor 7 learns that the standby switch 5 is on, it causes the CRT display 10 to display a freeze image. Therefore,
The data held in the frame memory 6 will not be destroyed. Thereafter, when the microprocessor 7 receives an instruction to rewrite the image data in the frame memory 6, normal operation can be resumed without any trouble.

Switching to standby mode can be done manually or automatically; however, in the case of automatic operation, the standby mode is automatically entered if there is no access for 2 to 3 minutes, for example.

If the standby mode can be achieved as described above, for example, if the entire imager can be operated continuously for 3 hours on a battery, then by setting it to the standby mode, it will be possible to standby for 20 to 30 hours.

〔Effect of the invention〕

As described above, according to the present invention, the use of standby mode provides the following effects.

(1) It is possible to prevent unnecessary power consumption from the battery.

(2) Power saving is possible even when commercial power supply is operating.

(3) Heat generation in the device can be prevented.

(4) The life of the equipment is extended.

(5) Without having to take a photograph of the image, the image can be held in standby mode and taken home from a house call, etc., and processed as appropriate.

[Brief explanation of the drawing]

The figure is a diagram showing the configuration of essential parts of an embodiment of an ultrasonic imager according to the present invention. 1... Rectifier power supply and charger, 2... Battery, 3
...Main switch, 4...Regulator group, 5
...Standby switch, 6...Frame memory, 7...Microprocessor, 8...Control logic, 9...Echo sounder, 10...
...CRT display.

Claims (1)

[Claims] 1. An echo sounder that drives a probe to transmit and receive ultrasonic waves, a frame memory that stores image data obtained by the echo sounder, and a display that displays the image data in the frame memory as an image. means for controlling the echo sounder, the frame memory, and the display means, and for displaying a freeze image on the display means when returning from standby mode to normal operation mode; a battery that supplies power to the sounder, the frame memory, and the display means; and a standby battery that is provided on each power supply line from the battery to the echo sounder and the display means, and that cuts off the power supply line when in standby mode. An ultrasound imager equipped with a switch and a standby mode.