DE10348984A1 - Motion sensitive electronic circuit for activating or deactivating an electrically powered device - Google Patents

Abstract

A motion-sensitive electronic circuit is used to activate or deactivate an electrically powered device. It consists of a vibration sensor that jumps back and forth when moving between two states, conductive or complementary, non-conductive and is connected in series via a series resistor to an electrical supply. An evaluation of a logic gate with switching hysteresis, a Schmitt trigger and connected electronic timer with at least one switching output accesses the resistance-side potential on the vibration switch. A switching output of the timer is connected to the control input of the switch. The timer is set with the rising or falling edge of a digital pulse on the gate output for the given time interval.

Description

The The invention relates to a motion-sensitive electronic circuit to activate or deactivate an electrically operated device.

electrical operated facilities are energy consumers, depending on the electrical Power requirements in their entertainment are more or less expensive. A limitation / reduction of energy consumption to actual Times of use therefore may mean a considerable saving and improves the economy in a row. Here is in particular to movable and stationary equipment with moving areas thought.

For example, reference is made to the information / data processing. To control a PC cursor, so-called mice are used to interact with the operator with a PC to transmit / process data. The position detection is performed by evaluating optical signals of a light emitting diode, LED, such as in the US 6,111,563 described.

The Control electronics for a mouse, which is used more and more today, is battery operated. The lifetime of the batteries in such a mouse is due a limited Power management quite short, about 1 month when operating with high quality Battery. The data transmission to PC can be set, if after some time no movement change The mouse is more, but not the position query and the Operation of the optic itself. The power consumption of a LED for mice is still only in the range of a few milliamps.

In the US 2 022 035 701 describes an optical fiber consumption control system based on capacitive proximity sensors. The sensors are relatively easy to build, but the evaluation is complicated and expensive, since the range is very low. Large ranges require large capacitive areas, which are not or only cumbersome to set up in small devices.

Of the Invention is based on the object, a movement sensitive electronic circuit for activating or deactivating an electrical to provide powered equipment that provides a simple, reliable construction has and in big numbers can be produced.

The Task is characterized by the in claim 1 electronic Circuit solved. It consists of a vibration sensor that occupies two states may, a conductive or complementary, the blocking state. With accelerated movements he jumps between these two states according to the type of movement more or less quickly and ago. The vibration sensor is a motion-sensitive switch. He is serial over a series resistor connected to an electrical supply. This circuit of electrical supply, series resistor and vibration sensor serves as a signal generator.

To belongs to the circuit an evaluation, which consists of a logic gate with switching hysteresis (Schmitt trigger characteristic). At the gate is a electronic timer connected to at least one switching output, this advantageously as retriggerable monoflop with Schmitt trigger input characteristic is executed. The switching output is connected to the control input of the switch for the or switched off. On the input side is the Evaluation, ie the logic gate, to the Vorwiderstandsseite connected to the vibration sensor to there the current electrical Potential to tap and when crossing a predetermined potential threshold at the output of the gate a defined electrical pulse to start, the following below an also given 2.ten potential threshold, the one has a value other than the first potential threshold, ends again. The potential pulse is digitized with the gate. At the exit of the Gatters becomes a defined pulse due to this potential pulse Although the time duration between potential threshold exceeded and following potential threshold underrun, otherwise but always has one and the same signal level. The two potential thresholds of the gate are significant because the vibration sensor is not necessarily between two defined potentials and jumps, but depending on the type of movement the vibration sensor is not completely in the conductive state jumps and possibly quite a short higher resistance Conductor occupies the resistance value comparable to that of Vorwiderstands is.

The digitized pulse acts on the timer and thus on the control input of the output side connected switch. Electronically, the two flanks, the rising and falling, of the digitized pulse are generally used here. There are four ways to use the edges: only the rising edge or only the falling edge or only the rising edge for switching and the falling edge for setting the timer or vice versa. The determination of one of the four is determined by the use case. It is essential that the timer with each successive digital pulse again is set. The switching output of the timer remains in its state when the digital pulses follow each other within the set time interval. The switching output does not change state until after a digital pulse a pulse pause follows that is greater than the time interval set at the timer. In the circuit realization, it is determined whether only the timer is set with the rising or falling edge of a digital pulse on the gate output for the predetermined time interval and the switching output, which also initially with the rising or falling edge of this digital pulse at the gate output from a previous state in the is set complementary thereto, with set time interval holds in this, so the motion-sensitive circuit is either at rest or possibly in the state of uniform / unaccelerated motion.

In the subclaims 2 to 4, the components of the circuit are specified. Thus, according to claim 2, the vibration sensor is an SMD ball switch, such as from DE 101 15 416 known. SMD is an abbreviation from the electronics and means: Surface mounted device. This ball switch is suitable for spatially very small designs or integrated construction.

For others applications the ball switch can be discretely built as such and spatially larger. Basically the vibration / motion sensor is selected according to the application and built-in. In principle, because it responds to accelerated motion This vibration sensor can also be used after the mechanical Spring principle, leaf or coil spring, work.

The Timer is an electronic component and, for example, after Claim 3 a monostable, retriggerable multivibrator with Schmitt trigger input and for adjustable time intervals in the second to minute range suitable. For very long time intervals in the minute range to hour range is on Microprocessor or simpler a timer used (claim 4).

Of the Switch that the device is set to the active or inactive state, for example, a FET or an IGBT or bipolar transistor or any other suitable electronic or electromechanical switch (claim 5).

use can the motion sensitive electronic circuit according to claim 6 in many facilities, e.g. in a machine or a vehicle or a motion detector or a moving tool / instrument / device such as a Iron (Claim 6).

One special case of use is that of claim 7 in a mouse, as used to control a PC cursor. There is striking so far, how often and long to work with the PC such a mouse only briefly or is moved with long pauses.

Of the Construction of the circuit depends on the application. In small devices is circuit discretely constructed with or on an electronic board is complete with vibration sensor as integrated component.

The Advantages of motion-sensitive electronic circuit exist in the introduction of a intelligent power management. With this circuit can be limit energy intake to almost that particular period, in the device indeed must be active, work. It gives you considerably longer operating time and Operational readiness of the device.

A proposed, exemplary solution is used to activate or deactivate a mouse, as in PC work is used, and will be explained in more detail below with reference to the drawing.

1 shows a block diagram of the device,

2 the switching and control behavior.

As a vibration sensor is in the DE 101 15 416 used described SMD ball switch. In 1 this is stylized as the ball in the vessel. The ball switch is sensitive to the slightest accelerations and therefore well suited for use in such a spatially small PC mouse. With this ball switch light movements, as they occur when moving the mouse, detected immediately.

The ball switch is in series with the 1 MΩ resistor connected to the word in 1 mentioned battery connected. At rest, the ball sits centrally at the bottom of its vessel and does not touch the walls, the ball switch is open in the locked state. At its resistor side connection so there is the electrical high potential, if the central bottom portion of the spherical vessel to the reference potential, such as earth, is connected. When the mouse is accelerated, the ball remains stationary and does not move until it touches the vessel wall, which is electrically conductive as the central floor area, and forms a bridge to the central floor area. Now, the potential pulse is generated at the Vorwiderstandsseite the ball switch, which led to the input of the Schmitt trigger in the transmitter becomes. The Schmitt trigger has a switch-on threshold and is started when it is exceeded. At its output, the square pulse starts up to the electronically defined voltage level and lasts as long as the ball electrically bridges the wall and bottom of the vessel (see the upper diagram in 2 ). The Schmitt trigger acts on the subsequent timer of the transmitter. The switching output of the timer is applied to the control input of the switch, which may be a transistor or a FET or a relay here.

Of the Operation is set so that with start of the potential pulse after longer Time as the set time interval of the timer of the switch for the electronics the mouse by the incipient digital pulse at the Schmitt trigger output through the timer into the active, the conductive state is moved and thus keeps the mouse electronics activated.

With the falling edge of the digital pulse at the Schmitt trigger output and thus falling below its switch-off, the timer is set and the switch is held in its state (see 2 lower course). The follower pulse at the Schmitt trigger output does not change the state of the switch because it is within the set time interval, but again sets the timer with its falling edge.

The the following pulse break at the Schmitt trigger output is longer than the time interval, so that falls Switch to its idle state, the locking, back and forth in this, until again a potential pulse that rises above the turn-on threshold of the Schmitt trigger, occurs on the Vorwiderstandsseite the ball switch.

Of the Switch is at the beginning of a potential pulse after a long time switched as the set time interval. The timer is first set with the end of this pulse. The entire circuit electronics let yourself save space on the control electronics of the mouse.

Claims (10)

Motion sensitive electronic circuit for activating or deactivating an electrically operated device, consisting of: a vibration sensor that moves between two states conductive or complementary: non-conductive, back and forth and the serial over a series resistor connected to an electrical supply, an evaluation from a logic gate with switching hysteresis, a Schmitt trigger, and connected electronic timer with at least a switching output, one of which is connected to the control input of the switch for the Facility is laid, while the transmitter is the input side connected to the Vorwiderstandsseite the vibration sensor, There to tap the current electrical potential and when exceeded a predetermined potential threshold at the output of the gate a defined electrical pulse to start, the following below a likewise predetermined potential threshold ends again - digitization, in which the timer with the rising or falling edge of a Digital pulse at gate output for the predetermined time interval is set and the switching output, the first also with the rising or falling edge of this digital pulse is set at the gate output from a previous state to the complementary one, with set time interval in this holds. Motion sensitive electronic circuit after Claim 1, characterized in that the vibration sensor a SurfaceMountedDevice ball switch, a wired ball switch or a motion sensor with resistor is. Motion sensitive electronic circuit after Claim 2, characterized in that the timer is a monostable, retriggerable multivibrator with Schmitt trigger inputs. Motion sensitive electronic circuit after Claim 2, characterized in that the timer is a microprocessor is. Motion sensitive electronic circuit after Claim 3 and / or 4, characterized in that the switch of the device a FET or an IGBT or bipolar transistor or any other suitable electronic or electromechanical switch. Motion sensitive electronic circuit after Claim 5, characterized in that the device is a machine or a vehicle or a motion detector or a mobile one Tool / tool / device is. Motion sensitive electronic circuit after Claim 6, characterized in that the device is a mouse how to control a PC cursor. Motion sensitive electronic circuit after one of the claims 1 to 7, characterized in that the vibration sensor is a ball switch is. Motion-sensitive electronic circuit according to one of claims 1 to 8, characterized ge indicates that the circuit is constructed discretely. Motion sensitive electronic circuit after one of the claims 1 to 8, characterized in that the circuit is built up integrated is.