NL8203161A - RECEIVER WITH NUMBER OF TIRES AND PLL ARRANGEMENT. - Google Patents

Description

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Receiver with a number of bands and a PLL scheme.

The invention relates to a multi-band receiver with a PLL control, which receiver is provided with an underpass screen and is most suitable for reception on the long-wave band.

It is well known that a PLL circuit (phase-locked loop) makes it possible to obtain a signal with a narrow frequency by comparing a transmission signal with a comparison signal and finally at the frequency of the comparison signal to lock the transmission signal. Fig. 1 is a block diagram 10 of a PLL circuit, in which the reference numeral 1 denotes a voltage-controlled oscillator (VCO), the reference numeral 2 is a phase comparator for comparing phases between a signal fo passed by the VCO 1. and a reference signal fs, and the reference digit 3 is a lower pass screen for rectifying the pulse current from the output of the phase comparator 2 and in response to the phase difference. The DC voltage from the lower pass screen 3 is applied to the VC01 to control the crossover frequency. The comparator k denotes a charge pump for performing D-A conversion of the output of the phase comparator 2 and for laying its output on the lower pass screen 3.

Such a PLL circuit, which can generate a signal with an accurate frequency, as described above, has been widely used in transmitters of various kinds, in radio receivers, in TV receivers, etc. More specifically, the circuit is . • used in the local oscillator stage of a multi-band receiver for, for example, receiving on the FM (VHF) band, the AM and and the long wave band. In this case, it is preferable to provide a number of lower pass screens, each having properties corresponding to each band. Generally, however, usually only an underpass screen is used for all wavebands for cost and space reasons.

The use of an underpass filter for signals in such a wide waveband spread from an FM band to a long waveband naturally causes deficiencies in the distortion such as PLL latch instability and deterioration of the S / M ratio . Especially in the long wave band, the frequency of the comparison signal fs to be applied to the phase comparator is 2, usually about 1 kHz, which is very low compared to that of the FM-5. hand and the Μ-hand. Therefore, the output of the phase comparator 2 has a large spectrum of low frequency, making the impulse too wide. This leads to difficulties in removing the pulsating current with an underpass sieve with a time constant so small that it is suitable for the FM and AM hands. On the other hand, if a lower pass screen having a time constant such that it is suitable for the long wave band is used, a difficulty arises in that the signal easily locks out during reception on the EM and AM -hand due to the large time constant.

It is therefore an object of the invention to overcome the above-described difficulties by providing a receiver with a plurality of bands and a PLL control, which receiver is provided with an underpass screen, the time constant of which is only in the low wave band grows big.

The invention is further elucidated with reference to the drawing, in which:

Fig. 1 is a block diagram of a known PLL circuit, and FIG. 2 is a circuit diagram of an embodiment of the receiver.

FIG. 2 is a circuit diagram showing a low-pass screen in an embodiment of the multi-band receiver with a PLL control. The lower pass screen 3 comprises a screen chain A and a screen chain B. In the screen chain A, the reference sign Q1 denotes a transistor, which acts as a switching element, the reference signs Cj a capacitor, the reference signs and Rg resistors and the reference sign Tj a control connection of the transistor. In the sieve chain B, the reference marks Qg and transistors, which act as Darlington amplifiers, the reference marks Rg and Rg resistors, the reference marks Cg and capacitors and the reference mark Tg denote a power source connection. The reference symbol R ^ denotes a buffer resistor applied between the sieve chain A and the sieve chain B.

8203161 3

The "banded" receiver used in this embodiment is a known one, and its construction and operation are not particularly related to the invention, so that a detailed explanation thereof is omitted.

In this embodiment, both the sieve chain A and the sieve chain B carry out a sieve operation. In particular, the sieve chain A performs a sufficient sieve operation and completely removes the pulsating current even when the signal is in the long-wave band and has a relatively low frequency. This is because when the control connection is made to a switch on the long-wave band, the control connection is automatically provided with a signal in response to this switch, such as, for example, the power source voltage of a chain for the reception on the long-wave band, whereby the transistor becomes conductive and the capacitor, together with the resistor, forms a time constant circuit for thus increasing the time constant of the sieve chain A, by means of which it can associate with the sieve chain B to carry out this sieve operation.

During reception on the FM or AM band, on the other hand, since the transistor is not conductive, the sieve chain A does not perform sieve processing, but only the sieve chain B performs a sieve operation for the signal in the FM or AM frequency band. Therefore, the time constant made by the transistors Qg and ^ e "resistors R ^ and R * and the capacitor and C ^, all constituting the sieve chain B, can be chosen to be the most suitable for the FM or the AM-25 band signal.

A DC control voltage from the lower pass screen 3 is applied to the VCO through the output of the Darlington amplifier.

Although the previous embodiment has a device in which the sieve chain A is connected in series with the sieve chain B, 30 they can be connected in parallel.

As can be seen from the foregoing description, since use is made of a lower pass screen having a screen chain, the time constant of which becomes large only when receiving a long wave signal, it is possible to perform the best screen operations for signals in the FM, AM and long wave bands with an underpass filter without causing unlocking or deterioration of the S / IT ratio.

8203161

Claims (3)

1. A multi-band receiver with a PLL circuit, which includes a lower pass screen, characterized in that the lower pass screen is arranged such that its time constant becomes large upon reception of a signal in the long wave band. 2. A receiver as claimed in claim 1, characterized in that the lower pass screen comprises at least two lower pass sieve chains, one of which is arranged such that the time constant thereof becomes large when a signal is received in the long-wave band. 3. A receiver as claimed in claim 2, characterized in that the one lower pass sieve chain comprises a time constant chain and a switching element switched between the time constant chain and ground, which switching element switches on reception on the long-wave band. 8203161