US2101256A - Carrier telegraph receiver - Google Patents
Carrier telegraph receiver Download PDFInfo
- Publication number
- US2101256A US2101256A US759636A US75963634A US2101256A US 2101256 A US2101256 A US 2101256A US 759636 A US759636 A US 759636A US 75963634 A US75963634 A US 75963634A US 2101256 A US2101256 A US 2101256A
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- received
- circuit
- receiver
- rectifying
- relay
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L27/00—Modulated-carrier systems
- H04L27/02—Amplitude-modulated carrier systems, e.g. using on-off keying; Single sideband or vestigial sideband modulation
- H04L27/08—Amplitude regulation arrangements
Definitions
- circuits including rectifiers such as copper oxide rectifiers, which While iridividually responding differently to different strengths'of received current, give the same resultant or effective responseover a range of signal strengths.
- the substantially constant resultant response is used to control any suitable indicating or response device.
- Fig. 1 is a simplified schematic circuit diagram of a carrier telegraph system embodying a receiver in accordance with the present invention
- FIG. 2 shows curves illustrating the operating characteristics of the receiver of Fig. 1.
- Fig. 1 the line I is shown terminating at the left in a transmitting station and at the right in a receiving station.
- the transmitting station is 40 indicated, as comprising a number of transmitters of which two are shown at 2 and 3 each provided with a source of carrier waves as at 4 and 5, respectively. Other similar transmitters may be provided. It will be understood that each 5 of these transmitters will include any. suitable means for controlling the carrier wave in accordance with signals to be transmitted, such as an interrupter or other suitable type of sender together with any filtering elements that may be 50 required, all in accordance with well-known practice in this art.
- two filters are provided as at 6 and I for separating received current into various channels, there being as many of these filters as 55 there are channels to be received at this station.
- Thesefilters may be usual type of band filters or tuned circuits or other selective networks. Only the channel; associated with the filter 6 is shown in detail, it being understood that the other receiving channelswill be similarly equipped. Amplification may be introduced as needed, one am-, plifier being indicated at 8 in the output side of the filter'fi; w V
- the receiving relay. I5 which is a polarizedrelay, is controlled by the current selectively transmittedthrough the filter 6 by means of two circuits leading to.twolwindings I6 and I'I, respectively.
- the circuit for winding It includes one of the secondaries of transformer Ii! in the output of amplifier 8, a full wave rectifier circuit including rectifiers I2 and I4 and as shown, an adjustable resistance I9 which may or may not be needed.
- the circuit for the winding I'i comprises the other secondary of transformer I0 and full wave rectifier comprising rectifier elements I I and I3.- Bias batteries AI and 22 of preferably different voltage are used to bias the two rectifying circuits for a purpose to be described.
- Relay I5 is provided with a bias winding with suitable battery and controlling resistance as shown.
- carrier telegraph signals are produced at the sending station and sent over the line I and are selectively received through the filtering circuits 6, I, etc.
- the carrier signals in the output of filter 6 and amplifier 8 are separately rectified in the two circuits connected to the two secondaries of the transformer III.
- the connections of the windings I6 and II to these two rectifying circuits are such that the rectified output from the two rectifying circuits oppose each other in their effect upon the relay I5.
- the two rectifying and control circuits are given characteristics, however, so that they do not nullify one another, but they rather produce a differential action on the relay I5.
- the curve I marked I1 may be the current output from the rectifier circuit I2, I4 while the curve marked I2 may be that from the rectifier circuit I I, I3.
- the received voltage As the characteristics of the line I vary from time to time the received voltage also varies, other things being equal. If the relay I5 were directly responsive to the rectified received signal current, this current might be assumed to vary from time to time at a rate corresponding to the curve I1 or the curve I2 of Fig. 2, resulting in a variable operation of the relay.
- the effective operating current for the relay !5 is made substantially constant for varying received line voltage as indicated by the curve I1I2.
- the relay I5 is shown as operating a suitable signal device.
- a signal input circuit a signal receiving circuit comprising two response elements both individually coupled to receive simultaneously signal energy from said input circuit, said elements having a substantially constant difference in response over a range of signal strength, and a receiver responsive to the difference in response of said elements whereby received signals of varying strength within said range affect said receiver substantially alike.
- a signal input circuit a pair of rectifier units both individually coupled to receive simultaneously signal energy from said input circuit for rectifying the same received signal wavetrains, said units having different response characteristics, the difierence in response being substantially constant over a range of input voltages, and a receiver connected differentially to said rectifier units whereby said receiver is substantially uniformly affected by input signals of varying strength.
- a line having an equivalent which is variable means to send signal wave trains over said line, a pair of copper oxide rectifier units at a receiving station on said line, means to give one of said units a different rectifying characteristic from the other such that for impressed signals of varying strength the difference in strength of the rectified signals produced by said units is substantially constant for a range of impressed signal strengths, and a relay responsive to the difference in rectified output of said units.
- a system in accordance with claim 3 in which the means to give one of said rectifying units a different characteristic from the other comprises transformers for'impressing the received signal wave trains on said rectifying units, one of said transformers having a higher voltage ratio than the other.
Description
Dec. 7, 1937. T. A. JoNEs, 2,101,256
CARRIER TELEGRAPH RECEIVER Filed Dec. 29, 1934 FIG.
r TI ,LII ISL. --20 A J POLAR/ZED 4 7 RECT/F/ED CURRENT RECEIVED u/vs VOLTAGE IN VE N TOR 7. A J ONES BVJMMFM ATTORNEY Patented Dec. 7, 1937 PATENT OFFICE CARRIER TELEGRAPH RECEIVER Theodore A. Jones, New York, N."Y., assignor to Hell Telephone Laboratories,
Incorporated,
New York, N. Y., a corporation of New York Application December 29, 1934, Serial No. 759,636 6 Claims. (01. 178-'66) The present invention relates to signaling and more particularly to the reception of signal waves or .impulses by rectification. I "The invention willbe described with particular .4 reference to carrier t'elegraphy although'it is capable of more general use. In signaling systems, such as in carriertelegraphy; variations: in line equivalent tend to give'rise to faulty reception on account of the variation'in strength of received signals. It is difficult to set a receiving printer orother recorder to be equally responsive to received impulses of widely differing strength. Consequently it is customary for an atendant from time to time to change the adjustments of a receiver to suit the different line current conditions.
It is an object of the present invention to pro-.
vide a signal receiving circuit which will respond equally to received current impulses that vary in strength from time to time.
This object is attained in accordance with the invention by use of circuits including rectifiers, such as copper oxide rectifiers, which While iridividually responding differently to different strengths'of received current, give the same resultant or effective responseover a range of signal strengths. The substantially constant resultant response is used to control any suitable indicating or response device.
In the drawing: r
Fig. 1 is a simplified schematic circuit diagram of a carrier telegraph system embodying a receiver in accordance with the present invention;
and 35 .Fig. 2 shows curves illustrating the operating characteristics of the receiver of Fig. 1.
In Fig. 1, the line I is shown terminating at the left in a transmitting station and at the right in a receiving station. The transmitting station is 40 indicated, as comprising a number of transmitters of which two are shown at 2 and 3 each provided with a source of carrier waves as at 4 and 5, respectively. Other similar transmitters may be provided. It will be understood that each 5 of these transmitters will include any. suitable means for controlling the carrier wave in accordance with signals to be transmitted, such as an interrupter or other suitable type of sender together with any filtering elements that may be 50 required, all in accordance with well-known practice in this art.
At the receiver two filters are provided as at 6 and I for separating received current into various channels, there being as many of these filters as 55 there are channels to be received at this station.
Thesefilters may be usual type of band filters or tuned circuits or other selective networks. Only the channel; associated with the filter 6 is shown in detail, it being understood that the other receiving channelswill be similarly equipped. Amplification may be introduced as needed, one am-, plifier being indicated at 8 in the output side of the filter'fi; w V
' The receiving relay. I5 which is a polarizedrelay, is controlled by the current selectively transmittedthrough the filter 6 by means of two circuits leading to.twolwindings I6 and I'I, respectively. The circuit for winding It includes one of the secondaries of transformer Ii! in the output of amplifier 8, a full wave rectifier circuit including rectifiers I2 and I4 and as shown, an adjustable resistance I9 which may or may not be needed. The circuit for the winding I'i comprises the other secondary of transformer I0 and full wave rectifier comprising rectifier elements I I and I3.- Bias batteries AI and 22 of preferably different voltage are used to bias the two rectifying circuits for a purpose to be described. Relay I5 is provided with a bias winding with suitable battery and controlling resistance as shown. In the operation of the system of Fig. 1, carrier telegraph signals are produced at the sending station and sent over the line I and are selectively received through the filtering circuits 6, I, etc. The carrier signals in the output of filter 6 and amplifier 8 are separately rectified in the two circuits connected to the two secondaries of the transformer III. The connections of the windings I6 and II to these two rectifying circuits are such that the rectified output from the two rectifying circuits oppose each other in their effect upon the relay I5. The two rectifying and control circuits are given characteristics, however, so that they do not nullify one another, but they rather produce a differential action on the relay I5.
For example, referring to Fig. 2, the curve I marked I1 may be the current output from the rectifier circuit I2, I4 while the curve marked I2 may be that from the rectifier circuit I I, I3. The
difference between these two curves is shown as the curve marked I1--I2. It is this difference current which may be considered effective in controlling the operation of the relay I5.
As the characteristics of the line I vary from time to time the received voltage also varies, other things being equal. If the relay I5 were directly responsive to the rectified received signal current, this current might be assumed to vary from time to time at a rate corresponding to the curve I1 or the curve I2 of Fig. 2, resulting in a variable operation of the relay. By employing the differential action of a pair of rectifiers, the effective operating current for the relay !5 is made substantially constant for varying received line voltage as indicated by the curve I1I2. The relay I5 is shown as operating a suitable signal device.
20 locally or at a distance.
There are various means available for displacing the individual response curves such as I1 and I2 of the two rectifiers. Two such means are shown in Fig. 1, namely, the use of different bias potentials on the two rectifiers and the use of a control resistance H] in one of the relay winding circuits. The voltage ratio of the transformer I!) may differ in the case of the two rectifiers or entirely separate transformers could be used with different ratios, or different amounts of loss or of amplification could be introduced into the circuit leading from the output of the amplifier 8 or the filter 6 to the two rectifying circuits. Some or all of these various means may be used together in the same circuit. These different ways of securing a differential effect have been mentioned by way of example and are not to be taken as limiting.
It is to be understood that the invention is not to be construed as limited to the specific types of rectifiers disclosed nor to the specific type of receiving circuit since various modifications are possible within the spirit and scope of the invention as defined in the claims.
What is claimed is:
1. In a signaling system in which the received signals are subject to variations in strength, a signal input circuit, a signal receiving circuit comprising two response elements both individually coupled to receive simultaneously signal energy from said input circuit, said elements having a substantially constant difference in response over a range of signal strength, and a receiver responsive to the difference in response of said elements whereby received signals of varying strength within said range affect said receiver substantially alike.
2. In a carrier telegraph system subject to variable attenuation, a signal input circuit, a pair of rectifier units both individually coupled to receive simultaneously signal energy from said input circuit for rectifying the same received signal wavetrains, said units having different response characteristics, the difierence in response being substantially constant over a range of input voltages, and a receiver connected differentially to said rectifier units whereby said receiver is substantially uniformly affected by input signals of varying strength.
3. In a carrier telegraph system, a line having an equivalent which is variable, means to send signal wave trains over said line, a pair of copper oxide rectifier units at a receiving station on said line, means to give one of said units a different rectifying characteristic from the other such that for impressed signals of varying strength the difference in strength of the rectified signals produced by said units is substantially constant for a range of impressed signal strengths, and a relay responsive to the difference in rectified output of said units.
4. A system in accordance withclaim 3 in which the means to give one of said rectifying units a different characteristic from the other comprises an attenuator in the circuit of one of said rectifying units.
5. A system in accordance with claim 3 in which the means to give one of said rectifying units a different characteristic from the other comprises a source of bias voltage in the circuit of one of said rectifying units.
6. A system in accordance with claim 3 in which the means to give one of said rectifying units a different characteristic from the other comprises transformers for'impressing the received signal wave trains on said rectifying units, one of said transformers having a higher voltage ratio than the other.
THEODORE A. JONES.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US759636A US2101256A (en) | 1934-12-29 | 1934-12-29 | Carrier telegraph receiver |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US759636A US2101256A (en) | 1934-12-29 | 1934-12-29 | Carrier telegraph receiver |
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US2101256A true US2101256A (en) | 1937-12-07 |
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US759636A Expired - Lifetime US2101256A (en) | 1934-12-29 | 1934-12-29 | Carrier telegraph receiver |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2424961A (en) * | 1944-12-04 | 1947-08-05 | Standard Telephones Cables Ltd | Demodulator for carrier telegraph signals |
US2995628A (en) * | 1958-01-03 | 1961-08-08 | Bell & Gossett Co | Signal receiver for mark and space coded signals |
-
1934
- 1934-12-29 US US759636A patent/US2101256A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2424961A (en) * | 1944-12-04 | 1947-08-05 | Standard Telephones Cables Ltd | Demodulator for carrier telegraph signals |
US2995628A (en) * | 1958-01-03 | 1961-08-08 | Bell & Gossett Co | Signal receiver for mark and space coded signals |
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