DE2104998A1 - Single sideband receiver - Google Patents

Description

Patent attorney Dipl. -Phys. Leo Thul

J.L. Ribour-M. G. Poullain 15-1

INTERNATIONAL STANDARD ELECTRIC CORPORATION, NEW YORK

One side band receiver

The invention relates to a one-sided tape receiver with a Monitoring device for recognizing useful signals in the received LF signal.

It is known to use FM receivers in the VHF range during the t

so-called operational readiness, i.e. switch off a few stages of a receiver while waiting for reception, as they are unnecessary performance consume, especially if it is a battery-powered receiver. One checks here in the same Time intervals with the receiver fully switched on, whether a received signal is present or not. If there is no reception signal, some stages are switched off again. The testing will repeatedly until a reception signal is detected.

With such a receiver you can determine the presence of a useful signal on the presence of the carrier. The recipient Ä

is tuned to the carrier frequency and it is periodic Checked at intervals whether the carrier frequency is available. If this is found, the recipient will be sent to the Operating state switched. Such a method cannot be used with a single band receiver for voice signals. since the carrier frequency is suppressed and therefore the receiver cannot be set to the carrier frequency. aside from that the speech signal is mixed with interference pulses.

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From FR-PS 1 494 154 a single sideband receiver is with a monitoring device for detecting useful signals in the received LF signal is known. The output signal of the Monitoring device is used as a ringing signal in this patent specification.

The aim of the invention is to show how to use a single sideband receiver can reduce power consumption through periodic shutdown.

The invention is characterized in that a controllable clock generator is provided for the purpose of saving battery power is that when no useful signal is received, the receiver alternates for a short time and then a turns off longer time, and that the clock is controlled by the monitoring device so that it receives a useful signal leaves the receiver switched on for the duration of the useful signal.

According to a development, the monitoring device controls a first timing element that is between the monitoring device and Clock is switched, whose time constant is greater than the time between two consecutive words.

According to another development of the invention, the clock controls a second timer, which between the output of the Clock and the output of the monitoring device is switched, and its time constant is at least as large is like the time it takes for the receiver to turn on fully.

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The invention will now be explained in more detail with reference to the figures, for example. Show it:

1 shows a block diagram of the circuit arrangement according to the invention,

FIG. 2 individual circuit diagrams of some blocks according to FIG. 1 and their interconnection,

3a, 3b timing diagrams.

In Fig. 1, 1 denotes a known single sideband receiver. dargeefceMtr A monitoring device 2 for the detection of Speech is connected to receiver 1. The monitoring device 2 supplies a control signal to a clock generator 4 a first timer 3.

With the clock is a second timer 5 and one Switching stage 6 connected, with which the supply voltage for the Monitoring device 2 and for the receiver 1 can be switched off. In some cases you can have an adjustable Provide DC / DC voltage converter with

and which is directly connected to the receiver ^

FIG. 2 shows details of some of the blocks according to FIG. 1, namely a part of the monitoring device 2 for detection of language, the timers 3 and 5 and the switching stage 6, which consists of the three parts 6a, 6b, 6c. With part 4a can the supply voltage of the monitoring device 2, which is via the

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Line 22 is supplied, are switched off. With part 6b the supply voltage of the receiver 1, which is fed via the line, can be switched off. The part 6c enables switching off the converter stage 7. The supply voltage is fed to the entire arrangement via terminal 10.

The monitoring device 2 is not shown in full, since it is shown in FIG. 4 of the aforementioned FR-PS 1 494 154. Only the output stage is shown schematically. It contains a differential amplifier Z 21, which outputs a square wave signal as long as how speech is received. The amplifier Z 21 is connected to the transistor T 21.

The first timing element 3 consists of a resistor R 31 and a capacitor C 31, which charge quickly, but slowly can discharge. The second timing element 5 consists of the resistors R 51, R 52 and the capacitor C 51. Its time constant is so large that the receiver is switched on completely. The clock generator 4 consists of the transistors T 41 to T 44, the capacitor C 41, the diode D 41 and the resistors R to R 49. The resistors R 41 and R 42 determine the short and long time of tact.

The input signal from the amplifier Z 21 reaches the clock to the base of the transistor T 44. This transistor T 44 is connected to the base of the transistor T 41, which together with the transistor T 42 forms a flip-flop which controls the charging and discharging of the capacitor C 41. Of the The transistor T 43 is controlled directly by the transistor T 42 and forms the output stage of the clock generator 4. The output is connected to the switching stages 6a, 6b, 6c.

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The switching stages 6a and 6b are designed as normal transistor stages with the transistors T 61 and T 62. The line 6c is connected directly to the clock output.

The mode of operation of the arrangement will now be explained with reference to FIGS. 3a and 3b.

When switching on the arrangement, the coordinate zero point corresponds, the supply voltage of the receiver is 1 and the

Monitoring device 2 switched off by clock generator 4, j

namely via the switching stages 6a to 6c. The transistors T 61 and T 62 are controlled non-conductive by the transistor T 43 by positive biasing of the bases. The capacitor C of the clock generator 4 and the capacitor C 51 of the second timing element are charged. The capacitor C 41 has reached the charge ql at time 71 (FIG. 3a). This makes the transistor C 41 conductive and unlocks the transistors T 61 and T 62. The supply voltage of the receiver, which is denoted by 81, is switched on first and then the supply voltage of the monitoring device 2, which is denoted by 82. The monitoring device needs less time to switch on than Λ the receiver. In order to avoid that the monitoring device emits an incorrect output signal that maintains the supply voltage of the clock 4 and the timing element 3, the timing element 5 controls the transistor T 21 conductive. The conductive transistor T holds the input level of the amplifier Z 21 at a value which is smaller than a useful signal. The transistor T 21 is kept conductive via the timing element 5 a little longer than it takes to put the receiver into operation, for example 150 msec. At the end of this time (72 inF ^, the capacitor C 51 of the timing element 5 is discharged, the transistor T is blocked and the supply of the useful signal to the

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Amplifier Z 21 enables. The curve 82 corresponds to the normal operation of the monitoring device 2. It is assumed that that no useful signal was received and that this therefore cannot keep the supply voltage switched on.

In the meantime, the capacitor C 41 discharges through the resistor R 42. At time 73, its discharge is ready progressed that the transistor T 41 is blocked. The supply voltage is again by means of the transistors T 61 and T switched off. The capacitors C 41 and C 51 charge again. At time 74 the capacitor is again across the resistor R 42 loaded. C 41, R 41 and R 42 are dimensioned so that the unloading time via R 41 is five times shorter than the loading time. As described above, the supply voltage is switched on again and remains during the discharge of the capacitor C 41 switched on, again the Ub approximately chungs device 2 is blocked by the discharge of the capacitor C 51.

It is now assumed that, according to FIG. 3b, a useful signal is received between times 75 and 76. To the Time 76, the clock generator 4 keeps the supply voltage switched on at the end of the charging time of the capacitor C 41, and the monitoring device 2 is blocked by the capacitor C 51 during the switch-on time of the receiver 1. At time 77 the capacitor C 51 has enabled the monitoring device; since this has recognized a speech signal, the amplifier Z a square wave signal. This charges the capacitor C 31 of the timing element 3 and holds via the transistor T 44 of the clock the supply voltage switched on as long as a voice signal is received

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will. When the speech signal is interrupted between two words, the capacitor C 31 holds the polarities of the base of the transistor T 44 and thus the supply voltage upright.

At the end of the reception of the useful signals (78, Fig. 3b), i.e. when no more speech signal is recorded, it discharges the capacitor C 31 completely through the resistor R 31. When this point in time 7 8 is reached, the transistor T locked again. The transistor T 41 is controlled accordingly. The supply voltage of the receiver 1 and the monitoring device 2 is again broken down while the capacitor C is being charged. The arrangement then switches again alternately the supply voltage on and off.

4 patent claims
2 sheets of drawing

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Claims (4)

Claims Single sideband receiver with a monitoring device for detecting useful signals in the received LF signal, characterized in that for the purpose of saving Battery power a controllable clock is provided, which alternates when no useful signal is received turns the receiver on for a short time and then turns it off for a long time, and that the clock from the Monitoring device is controlled so that when a useful signal is received, the receiver for the Duration of the useful signal switched on 2. Receiver according to claim 1, characterized in that the switch-on to the switch-off time behaves like 1: 5. 3. Receiver according to claim 1 and 2, characterized in that a timing element is used to bridge speech pauses is provided. 4. Receiver according to claim 1 to 3, characterized in that when switching on first the receiver and then the monitoring device is switched on and that during the time in which only the receiver is switched on, the input signal to the monitoring device is blocked. Ne / Sd
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