NL8105622A - Radio receiver active aerial for ships - has inbuilt impedance-matching preamplifier and FET amplifier - Google Patents

Abstract

The housing (1) is a stainless steel tube, containing the two stage aerial pre-amplifier. The tube is sealed against damp and gases by an end cap (5) and an insulated bush (3). The housing is clamped (21) to part of the standing rigging, e.g. a back-stay. A rod aerial (4), which protrudes through the bush, is connected to a field-effect transistor amplifier. The amplifier output is fed via an impedance matching amplifier to the receiver aerial input socket. The amplifiers are powered by a 9 to 24 volt d.c. supply along two of the four cores in the cable (6), the other two cores being the aerial and earth conductors.

Description

* T *

81.5122 / Ti / MvC

Short designation: antenna, in particular ship's antenna.

The invention relates to an antenna, in particular a marine antenna, for small vessels.

It is known that installing a receiving antenna in the form of the usual wire antenna in modern homes and such as flats or apartments is very difficult.

A similar problem arises in vessels, although a portion of the gear, e.g. a metal stag, designed as an antenna, for which two insulators are arranged therein and the intermediate part is connected to the receiver. Although good reception results are achieved in this way, the necessary presence of insulators is a great drawback: they are subject to great forces, so that the insulators often break after a short time, which causes great problems, especially in sailing ships. In addition, in modern small insulators the wire must be sharply bent, causing the wire to weaken locally and often break.

The object of the invention is to overcome this drawback and to provide an antenna which can be fitted in a simple manner to a balcony or roof edge or to a vessel on the existing rig, without any changes being required, and thereby both in the short and in the middle - and long wave area gives good reception results.

This object is achieved according to the invention by a suitable place, e.g. Whip antenna section mounted on a stern-mounted housing connected to a transistorized impedance matching circuit incorporated in the housing, the output of which is connected by a cable leading to the receiver.

The housing can be attached to the stay in a simple manner, for instance with the aid of two hose clamps known per se, which does not require any modification. Preferably, the whip is made of a bendable material so that the whip can be bent away from the stag, thereby ensuring good reception results.

8105622 - 2 -

The usual central antenna systems, like the modern cable systems, only offer limited reception options in certain frequency ranges; with the antenna according to the invention, the reception possibilities are considerably expanded.

The invention will be elucidated with reference to the drawing: fig. 1 shows a perspective view of an embodiment according to the invention; Fig. 2 shows the block diagram of the electronic circuits used therein; Fig. 3 illustrates the attachment of the antenna according to the invention to the rig of a ship.

The antenna according to the invention comprises a housing 1, built up from a cylindrical sleeve 2 of stainless steel, closed at one end watertight and airtight by means of an end-piece 3 of high-quality insulating material with the whip antenna 4 fixed therein, and the other end is sealed moisture and airtight by an end piece 5 of a suitable material with a also sealing lead-through for the multi-core cable e 6. The housing 1 comprises a first amplifier stage 7 with a field-effect transistor connected to an impedance matching stage 8; the input 9 of the first stage 7 is connected to the antenna 4 and the output 10 of the stage 8 is outwards. The core 11 of the four-core cable 6 is connected to the ground input 12 of the receiver 13; the wire 14 connected to the output 10 is connected to the antenna input 15 of the receiver 13 while the line 16 is connected to the -pole of the battery 17 (voltage 9-24 volts) and the + supply line 18 via the switch 19 is connected to the + terminal of the battery 17.

The current consumption is very low and of the order of a few milli-amps, so that for the battery 17 a type as frequently used for entertainment electronics can be used; the battery 17 can of course also be the ship's battery. The antenna can be attached to the deck of the sdip using a simple bracket on a balcony or with a suitable base. Preferably, however, the antenna will be positioned as high as possible, which is easily possible on a vessel, since the antenna can easily be attached to a stay with two clamps. Fig. 3 clarifies this method of attachment. Reference numeral 20 denotes a stag, for example 8105622 - 3 - τ - * a backstay; instead of separating part of it as usual up to now by means of two insulators from the rest and to use it as an antenna - with all the drawbacks that this entails - the antenna according to the application is indicated by reference number 1 with two clamps 21, of the conventional hose clamp type, secured to the stays 20. The whip 4 is deflected to improve the reception of the stag.

It has been found in practice that with the antenna according to the invention a considerably better reception is obtained than with the usual, stationary antenna or, in homes, with an indoor antenna.

- conclusions - 8105622

Claims (2)

Antenna, in particular marine antenna for small vessels, characterized by an at a suitable location, e.g. a stag, housing to be mounted, whip antenna section connected to a transistorized impedance matching circuit incorporated in the housing, the output of which is connected to a cable leading to the receiver. 2. Ship's antenna according to claim 1, characterized in that the receiving blade is made of flexible material, such that the antenna can be oriented in a desired direction. * 8105622