DE9312619U1 - Power saving circuit for computer peripheral devices - Google Patents

Description

Power saving circuit for computer peripherals

The present invention relates to a power saving circuit for computer peripheral devices according to the preamble of the main claim.

A power supply control device for computers, known from prior public use, controls the power supply of the peripheral devices of a computer system. This simplifies the installation of the peripheral devices. However, this power supply control device constantly connects the peripheral devices to the power supply after it has been switched on. Therefore, even a peripheral device that is not currently working consumes unnecessary power. The internal components of a peripheral device also age more quickly or even burn out if this device is constantly supplied with power, even when it is not working.

The invention is based on the object of creating a power supply control device of the type mentioned at the beginning, which does not have the disadvantages mentioned or has them to a lesser extent, which in particular has a power supply that meets the actual needs

Dresdner Bank AG Hamburg 04 030 449 00 (2LZ ?00 800 00) Postgiro Hamburg 1476 07-200 (BLZ 200 100 20)

adapted power supply for the peripheral devices of a computer system enables.

The invention solves this problem by the features of the main claim.

The device according to the invention switches off the power supply to the peripheral devices that are not working during a predetermined period of time after switching on. The device has a detection circuit to detect the working state of the peripheral devices of a computer system, furthermore a control circuit that interrupts the power supply to the peripheral devices that are not currently being used. The device has a time setting device for the power supply control circuit, which allows the user to set the period of time after which the control circuit, by means of corresponding relays, interrupts the power supply to the peripheral devices that are not being used within this period of time (for example 1 minute or 5 minutes).

The present invention achieves the following advantages:

1. Controlling the power supply of peripheral devices is easy.

2. The user can set the time intervals after which the power supply is interrupted according to the different requirements.

3. The rapid aging of the components of the peripheral devices is prevented.

4. This significantly extends the service life of these components.

5. The power consumption of a computer system is greatly reduced.

The invention is described below using an exemplary embodiment. In the following:

Fig. 1A is a rear view of the present invention;

Fig. IB shows a conventional computer power supply control device that controls the power supply of the various peripheral devices;

Fig. 2 is a block diagram of the present invention; Fig. 3A is a circuit diagram (part I) of the present invention; Fig. 3B is a circuit diagram (part II) of the present invention;

Fig. 4A is a flow chart showing the operation of the present invention in detecting the state of the computer system’s display and keyboard and controlling the display’s power supply;

Fig. 4B is a flow chart illustrating the operation of the present invention in detecting the operation of peripheral devices connected serially or in parallel to the computer system and controlling the power supply to those peripheral devices;

Fig. 5 is a timing diagram of the control of the computer peripheral devices according to the invention;

Fig. 6A shows a display control circuit in the form of an independent subsystem;

Fig. 6B a screen control circuit installed in the screen.

Fig. IA shows a rear view of a power saving control device for computer peripherals, which has connectors for peripherals and signal lines and a time setting device.

In Fig. 2 it can be seen that the device according to the invention basically has a detection circuit 1 and a control circuit 2. The detection circuit 1 comprises a peripheral transmission circuit 11, a control circuit 12 for external signals, a time counter 13, a time setting device 14, a screen control circuit 15 and a keyboard 16. The control circuit 2 has relays 21 and devices 22 for connecting to the peripheral devices. A predetermined time interval is set by means of the time setting device 14, the corresponding signal is fed to the control circuit 12 for external signals, which controls the automatic power off. Any operation of the computer is detected by means of the screen control circuit 15 and the keyboard 16. When the external signal control circuit 12 receives a signal from the peripheral transmission circuit 11 that no peripheral device is operating, the central processor sends a signal to the time counter 13 so that the predetermined time interval begins to run. After this time interval has elapsed, the control circuit 2 is turned off. When the power supply to the corresponding peripheral device 22 is switched on by means of a switch, this device begins to operate. When the corresponding peripheral device 22 stops operating, this is detected by the peripheral transmission circuit 11, this circuit 11 triggers the time counter 13 so that the time interval begins to run. After this time interval has elapsed, the corresponding relay 21 is triggered and switches off the power switch of the corresponding peripheral device 22. The control circuit 2 uses a programmable memory containing software that assists the hardware detection circuit 1 in detecting the states of the peripheral devices and controlling the corresponding power switches.

The hardware operation of the device according to the invention is explained below.

Peripheral device 22 - display 221: As can be seen in Figs. 3A, 3B, 4A and 5(c), when the controller is turned on, the power to the display is still off at la (see Fig. 4A). When the power switch of the display is operated, a display signal is generated at 2a, then the power to the display is turned on at 3a. The external signal control circuit 12 detects a signal from the peripheral transmission circuit 11 and checks at 4a whether the display signal is locked. If the display signal is not locked, the time counter is reset to zero at 5a. If the display signal is locked, the keyboard signal is detected at 6a. Regardless of whether a keyboard signal is detected or not, the time counter is reset to zero and the step of checking whether the display signal is locked at 4a is repeated. Then the next step is passed, at 6a it is checked whether the keyboard has been pressed. If the keyboard 16 is not working, the time counter 13 starts counting the set time interval. If the time interval has expired at 7a, the corresponding relay 21 at 8a immediately interrupts the power supply to the screen. Then the system returns to state 1 and the check is repeated.

Peripheral device 22 - RS232 serial interface 222: As can be seen in Figs. 3A, 3B, 4B and 5(a), at the beginning of the control at Ib, the power supply of the devices connected to the RS232 interface (denoted by 222) is not switched on. When the power switch of the device connected to the RS232 interface is operated, an RS232 signal is initiated at 2b and the power supply to the device connected to the RS232 interface is switched on at 3b. The external signal control circuit 12 detects the signal from the peripheral transmission circuit 11 and checks at 4b whether the RS232 signal is inhibited. If the RS232 signal is not inhibited, the time counter is reset to zero at 5b. If the RS232 signal

is blocked, the time counter 13 starts counting the time interval. When the time interval has expired at 6a, the corresponding relay 21 immediately interrupts the power supply of the device connected to the RS232 interface at 7b. It then jumps back to state 1 to repeat the monitoring.

Peripheral device 22 - Serial port 223: As can be seen in Fig. 3A, 3B, 4B and 5(b), the control is similar to that described above under "Peripheral device 22 RS232 interface 222".

Peripheral device 22 - parallel connection 224: As can be seen in Fig. 3A, 3B, 4B and 5(d) the control is similar to that described above under "Peripheral device 22 RS232 interface 222".

The display control circuit can be installed in three different ways. One way is to install the display control circuit directly into the power-saving control device for computer peripherals. The other way is to install the display control circuit into the central processing unit of the display. In this case, the display case must have a keyboard signal input/output terminal, a time setting signal terminal, a power supply terminal and a display signal terminal. A third way is to separate the display control circuit from the power-saving control device and install it as an independent subsystem (see Fig. 6A).

In summary, the power saving controller for computer peripherals has a detection circuit for detecting the operating state of the peripherals of a computer system, and a control circuit controlled by this detection circuit that switches off the power supply to the non-working peripherals. The time interval after which non-working peripherals

be switched off can be set by the user using the time setting device of the detection circuit.

Only one embodiment of the present invention has been shown above. However, it will be apparent to those skilled in the art that various modifications and changes
can be made without changing the essence of the present invention.

Claims (4)

Protection claims 1. Power saving control device for computer peripherals, characterized by the following features: a detection circuit (1) and a control circuit (2), each of which is connected to a computer system and by means of which the power supply of peripheral devices (22) of the computer system that are not working after a predetermined time interval can be switched off, the detection circuit (1) has a peripheral transmission circuit (11), a control circuit (12) for external signals, a time counter (13), a time setting device (14), a screen control circuit (15) and a keyboard (16), the control circuit (2) has a plurality of relays (21), a plurality of peripheral devices (22) are each connected to these relays (21), wherein the operation of the peripheral devices (22) of the computer system can be detected by means of the detection circuit (1) via the control circuit for external signals (12) and the peripheral transmission circuit (11), wherein the operation of the computer system can be detected via the screen control circuit (15) and the keyboard (16), wherein, when the control circuit (12) for external signals detects via the peripheral transmission circuit (11) that no peripheral device (22) is working, a signal from the computer system can be sent to the time counter (13), whereby the counting of the time interval set by means of the time setting device (14) can be triggered, wherein after the expiration of the time interval set by means of the time setting device (14) the power supply of the respective peripheral device (22) can be switched off. 2. Device according to claim 1, characterized in that the power supply of the respective peripheral device (22) can be switched off by the corresponding relay (21) of the control circuit (2) dropping out if, after the detection that the power switch of the corresponding peripheral device (22) is switched on and the peripheral device (22) is not working, that the time interval set by means of the time setting device (14) and counted by the time counter (13) has expired. 3. Device according to claim 1, characterized in that the time interval after which the power supply of the corresponding peripheral device (22) can be switched off by means of the control circuit (2) can be set by the user by means of the time setting device (14). 4. Device according to claim 1, characterized in that the screen control circuit (15) of the detection circuit (1) is installed in the central unit of the screen of the computer system, the housing of the screen having signal connections for communication with the power saving control device for computer peripherals.