DE1199319B - Clock generator for controlling the transmitter and receiver of an ultrasonic device for detecting vehicles on a road - Google Patents

Description

Clock generator for controlling the transmitter and receiver of an ultrasonic device for the detection of vehicles on a roadway The invention relates to a clock of the type mentioned in the title. Such clocks are used for generation of periodically successive groups of impulses in which the individual impulses are on separate outputs can be tapped. These clocks consist of the chain circuit individual transistors, which are coupled to one another via resistors and capacitors are. The pulses generated with such a circuit are sufficient Time accuracy, however, is their edge steepness for the detection of vehicles disturbing on a road with the help of an ultrasonic device, because the switching spectrum falls into the reception range of the ultrasound device and can trigger false displays.

The aim of the invention is a clock for controlling the transmission and receiving process in an ultrasound device, which with sufficient accuracy of the pulse intervals generates a low edge steepness and in which the structure a single stage of the derailleur more clearly and with a substantial less expenditure on components is solved. In contrast to the previously known The clock generator according to the invention automatically pushes clock generators when they are switched on the operating voltage, while previously the pulse trains by a separate Switch-on process had to be triggered.

According to the invention this is achieved in that the coupling links each from a collector resistor connected to the operating current source of the upstream transistor, a capacitor that is placed between the collector of the upstream transistor and the base of the downstream transistor switched is, and a base resistance of the downstream transistor, which has a temperature-dependent and voltage divider matched to the temperature response of the speed of sound is connected to the operating power source, so that the individual transistors are open in the idle state when the operating power source is switched on and only ever one of them is temporarily blocked and that also the pulse outputs to the Pick-up of pulses with a low edge steepness to the only the coupling capacitor containing circuit connection between two transistors are connected.

Further details of the invention emerge from the following Description of the embodiments shown in the drawing. It shows Fig. 1 is a circuit diagram of a first embodiment, F i g. 2 is a timing diagram and F i g. 3 shows a second exemplary embodiment of a clock generator.

When the operating voltage U1 is switched on via the switch S. the clock of FIG. 1 triggered by the transistor, which is the last becomes conductive due to the switch-on process, initiates the impulse generation. Suppose that transistor T3 is the last to be conductive. Because the base voltage of the transistor T 1 was approximately zero due to its threshold value, it becomes when the transistor opens T3 positive via the capacitor C 1, and the transistor T1 is blocked. Afterward the capacitor C 1 discharges again through the resistor 1, so that the transistor T 1 after a time interval determined by the time constant R 1 C 1 due to negative voltage is opened at the base. By opening the transistor T 1, the following receives Transistor T2 has a positive base voltage via capacitor C2 and is blocked.

By the subsequent discharge of the capacitor C 2 via the Resistance R 2 also becomes this transistor T2 after a time constant R 2 C 2 again conductive for a certain time and blocks via the capacitor C 3 in the described way the transistor T3, which after a discharge of the capacitor C 3 via the resistor R 3 in the time determined by the time constant R 3 C 3 becomes conductive again.

This process is continuously repeated in this cyclical closed arrangement.

At the terminals K1 or K2 resp.

K 3 always a negative pulse when the corresponding transistor T 1 or T 2 or T3 is currently blocked, so that a time course of the Impulse at the individual terminals results in how he in Fig. 2 reproduced is. It can be seen that the end of the pulse of duration t 1 at the terminal K1 triggers the beginning of the pulse at terminal K2. After a pulse duration t2 arises a pulse of duration t3 at terminal K3. With the end of the pulse on the terminal K 3, a new pulse of duration t 1 is generated at terminal K1.

The diagram of FIG. 2 only gives the timing of the impulse application again, whereby no statement should be made about the shape of the individual impulses. The rectangular shape has only been used as a basis for the sake of simplicity. However, as mentioned earlier, the actual pulses have one of Fig. 1. 2 different Shape with low slope. This low edge steepness of the output pulses is achieved by connecting the output terminals to the connecting line between the collector of a transistor and the capacitor of the following switching stage are connected. The capacitive input resistance of each output is therefore the connected in parallel to the next switching stage. so that you get the desired flattening of the Receives pulse edges without additional effort.

To achieve a larger edge steepness can then between the An ohmic resistor looped in at the connection point of the output terminal and the capacitor will.

The capacitors C1, C2 and C3 are in the pulse pauses over the corresponding collector resistors R11, R21 and R 31 to the operating voltage U1 charged. However, the duration of the individual pulses tl, t2 and t3 is not only of the individual time constants, but also depends on the voltage U2. This tension U2 is connected to a voltage divider, which consists of a resistor Wil and a temperature-dependent one Resistance Wi2 is formed, tapped. Due to this temperature dependence of the time-determining voltage U2 is achieved that the temperature dependence of the speed of sound for an ultrasonic echo device can be compensated.

The connection of the ultrasonic device to the output terminals of the Clock of FIG. 1 is to be carried out as follows. To the output terminal K1 is to be connected to the transmitter, which is then connected to the resulting at this terminal negative output pulse is scanned. The receiving device is so to the To be connected to output terminal K3 so that it is only ever generated at this terminal Impulse is switched on. By the mutual distance between an impulse at the terminal K1 and a pulse at the terminal K 3 is achieved that echoes that do not come from a vehicle or from the road itself, but from objects in the vicinity of the ultrasonic transducer are suppressed. These Measure is of particular importance because the ultrasonic transducer used energy not only in their main direction of radiation, but also in secondary directions hand over. Since this energy emitted in secondary directions is already weak in itself and also the echo energy decreases with the fourth power of the distance covered, it is ineffective for the recipient after a certain time.

If a pulse group of more than three pulses is to be generated, so is the arrangement of the F i g. 1 by adding similar switching steps to expand. However, it is then no longer ensured that in the Switching state achieved only one switching step in the locked state is moved. However, this is necessary for the arrangement to function properly. In order to avoid the occurrence of this undesirable condition, it is advisable to to form the arrangement according to FIG. 3 as an open chain.

Inevitably, there must then be a source of impulses to initiate this open chain are provided. This pulse source exists in the exemplary embodiment according to FIG. 3 known in an extension of the first switching stage to an astable multivibrator Type that consists of the transistor TO, its collector resistor R01, the resistor RO, the capacitor Co and a resistor R 12 and the resistor RO 2, the capacitor C1, the transistor T 1, the collector resistor R 11 and the resistor R 1. The toggle frequency of this astable multivibrator must be so small that the passage the chain between the individual impulses of this first trigger stage with certainty can be done. The individual switching stages of the arrangement with their outputs K1 to K4 are the same as those in FIG. 1, so that a detailed functional description the arrangement of FIG. 3 is unnecessary. The individual transistors T1 to T4 are in turn successively placed in the blocking state that the preceding one in the chain Transistor becomes conductive.

The coupling capacitors C 1 to C 4, which existed before the opening of the preceding Transistors with their left coating negative and with their right coating at zero potential are charged by opening the preceding transistor with their left coating raised to zero potential, so that on their right coating a positive impulse which blocks the following transistor arises.

The description of the subject matter of the invention is according to the figures based on the use of pnp transistors. However, the arrangement can be in as is known, converted by simple modification for transistors of the npn type will.

Claims (3)

Claims: 1. Clock generator for controlling the transmitter and receiver an ultrasonic device for detecting vehicles on a roadway, the for the purpose of generating periodically successive pulse groups whose Individual pulses can be tapped at separate outputs from a chain circuit individual transistors via coupling elements formed from resistors and capacitors are connected to each other, there is, characterized ei eh ne t that the coupling links each from a collector resistor connected to the operating current source (U1) (R 11, R 21, R 31, R 41) of the upstream transistor, a capacitor (C1 to C43 the between the collector of the upstream transistor and the base of the downstream Transistor is connected, and a base resistor (R1 to R4) of the downstream Transistor, which has a temperature-dependent and based on the temperature curve of the Voltage divider (Wil, Wt2) matched to the speed of sound to the operating power source (U1) is connected, exist, so that the individual transistors (T1 to T4) when switched on Operating power source are open in the idle state and only one of them is temporarily open is blocked and that also the pulse outputs (K1 to K4) for tapping pulses low edge steepness to the one containing only the coupling capacitor Switching connection between two transistors are connected. 2. Clock according to claim 1, characterized in that it is used as three-stage, cyclically self-contained derailleur is designed in such a way, that the collector of the last tran- sistor (T3) through the capacitor (C1) of the first Stage is interconnected with the base of the first transistor (T1). 3. Clock according to claim 1, characterized in that it is used as multi-stage open chain is formed, the first stage as an astable flip-flop is formed whose pulse spacing is greater than the sum of all pulse times of the connected chain is, so that the chain only after delivery of the pulse of its last stage is restarted. Documents considered: German Auslegeschrift No. 1 047841.