GB2129177A - Telemetry system - Google Patents

Description

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GB 2 129 177 A 1

SPECIFICATION Telemetry system

This invention relates to a telemetry system for building services. The invention is particularly, 5 though not exclusively, for use in controlling the supply of electrical power to an electrical unit (e.g. luminaires, heating, etc) or for use in monitoring a condition or conditions within a building (e.g. a fire alarm).

10 Known telemetry systems for building services either comprise numerous cable runs between inputs and outputs which is costly in terms of cable and installation; or comprise numerous cable runs between outstations which are 15 interconnected by another type of telemetry system which is expensive in terms of substations; or are such that only one transmitter can operate one receiver which requires arbitration between transmitters and has no guaranteed access time; 20 or a combination of two or more of the above.

According to the invention a telemetry system for building services comprises at least one transmitter connected by a low voltage electric cable to at least one receiver, the or each 25 transmitter acting on a command from actuating means to transmit or modify a signal or signals via the low voltage cable to the or each receiver, the or each receiver acting on the received signal or signals to provide an output or outputs which 30 operate an electric circuit.

The low voltage cable preferably comprises at least four cores, one of which supplies power to the or each transmitter and to the or each receiver at a low voltage. A second core is for the signals 35 from transmitter to receiver, a third core supplies synchronised pulse trains, and the fourth acts as a common for the others.

Preferably a system clock provides synchronising pulse trains to the or each 40 transmitter and to the or each receiver, each train being an exact number of pulses of predetermined width and delay, a predetermined pause distinguishing the start of each train. The or each transmitter (and hence its associated output from 45 a receiver) has an associated pulse in the train (an address). When a transmitter receives a command (e.g. ON, OFF, etc) it awaits the start of the next pulse train, starts counting pulses, and sends a signal pulse down the signal core when it counts 50 its associated pulse in the train. When the receiver which also counts pulses on the train receives the signal pulse which corresponds to its associated pulse on the train it acts according to the command. The length of the signal pulse with 55 respect to the basic half period of the synchronising clock preferably distinguishes between different commands. Alternatively the polarity of magniturde of the signal pulse distinguishes between different commands. A 60 predetermined sequence of command signal pulses preferably indicates alternative commands.

The address for the or each transmitter and the or each receiver is preferably set by track links on a printed circuit board. Alternatively they may be set by coding switches in temporary latches by means of a keyboard.

The or each transmitter and the or each receiver and the synchronising clock pulse train generator preferably comprises a single chip microcomputer, the identity and function of which is determined by the connections on the printed circuit board. The microcomputer may have up to twenty different functions.

Preferably one transmitter is associated with one output from a receiver. Alternatively one or more than one transmitter may be associated with one or more than one output from a receiver. The or each transmitter preferably has more than one input.

In the case where the telemetry system is used to control the supply of electric power to an electrical unit, preferably the or each receiver provides an output or outputs to means which controls said supply. The controlling means is preferably relays and/or contactors and/or triacs which either switch the power on or off, and/or in the case of triacs reduce or increase the power. Preferably the controlling means is connected by one or more isolators to its associated receiver to prevent the power supply reaching the receiver. The isolators are preferably optical isolators or relays. The or each receiver can have any number of outputs but preferably it or each has eight outputs for on/off switching of luminaires, etc., or one output for dimming of a luminaire. Preferably each output controls the power supply to electrical units in one zone. The or each transmitter is preferably capable of sending four signals, ON, OFF, REDUCE POWER, and INCREASE POWER (where a receiver has no means for understanding the last two signals it will ignore them). In this case, the actuating means for the or each transmitter is preferably a manually operated switch. Alternatively the actuating means for a transmitter may be a remote control device (e.g. by infra-red control). A transmitter may incorporate an ON — predetermined pause — REDUCE POWER — OFF for certain applications (e.g. luminaires on stairs).

In the case where the telemetry system is used for monitoring a condition or conditions within a building, preferably the actuating means for the or each transmitter is a monitoring device. The monitoring device may be a smoke detector, fire detector, intruder detector, etc., dependent on the needs of the system. The output or outputs from the or each receiver are preferably fed to a display device which indicates if a condition has been detected or to means which is automatically actuated (e.g. an alarm). Preferably the display device also indicates the position (that is the location of the transmitter which has sent or modified the signal to the receiver) of the condition. Where the monitoring device is an intruder detector, the detector may be a beam of light or a microswitch. In all cases the display device may include an audible alarm.

Preferably a central controller, which may be fitted retrospectively, provides management of the

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system. This is particularly useful where the system is used for controlling the switching of luminaires, as the central controller preferably includes a timer and mode control (e.g. for normal, 5 security, cleaning, etc).

This invention has numerous advantages over the prior art in that power cablingruns are simplified (especially where multipoint switching is required). In the case of power supply control, 10 smaller zones are easier to install, and can easily be changed by re-addressing the transmitters (rather than moving the power cables); where the transmitters are remotely activated, preferably by means of a hand held activator, they can be 15 mounted adjacent the receivers; and energy management can be easily and cheaply incorporated. In all cases, there is response within the period of a pulse train (typically 1 second) between transmitter and receiver; and installation 20 costs are reduced. This invention can also be used for hotel management, nurse call systems, etc.

This invention is further illustrated, by way of example, with reference to the accompanying drawings, in which:—

25 Figure 1 is a diagram of part of a telemetry system for controlling power supply;

Figure 2 is a diagram of part of an alternative telemetry for controlling power supply; and

Figure 3 is a diagram of part of a further 30 telemetry system for detecting the existence of a fire.

Referring to Figure 1, the diagram illustrates the receiver 1 of a telemetry system which is used for the ON/OFF control of eight outputs 2. A low 35 voltage signal cable 3 transmits control signals from a transmitter (not shown). Each output 2 is connected via an isolator 4 and relay 5 to an electrical unit 6 (e.g. a luminaire or group of luminaires). Each output has an address number 40 (N, N+1,...) which on receiving a corresponding signal from the transmitter, actuates its corresponding relay 5. The power supply for each electrical unit 6 is supplied by a power cable 7.

An alternative arrangement is shown in Figure 45 2 where the receiver 8 has a single output through isolator 9 to a triac 10. On receiving a signal from a transmitter (not shown) through the low voltage signal cable 11, the power supply through the power cable 12 to an incandescent lamp 13 is 50 varied.

The monitoring system shown in Figure 3 comprises transmitters 14,15, 16 connected by a four core low voltage signal cable 17 to corresponding receivers 18, 19,20. Each 55 transmitter 14, 15,16 is connected to smoke detectors 21 or heat sensors 22 or both. When a fire is detected a signal is sent via the cable 17 to the corresponding receiver 18,19,20 which indicates the existence of a fire and its position by 60 actuating an alarm 23 or triggering a display device 24.

Claims (23)

1. A telemetry system for building services comprises at least one transmitter connected by a

65 low voltage electric cable to at least one receiver, the or each transmitter acting on a command from actuating means to transmit or modify a signal or signals via the low voltage cable to the or each receiver, the or each receiver acting on the

70 received signal or signals to provide an output or outputs which operate an electric circuit.

2. A telemetry system as claimed in Claim 1, wherein the low voltage cable comprises at least four cores, a first of which supplies power to the or

75 each transmitter and to the or each receiver at a low voltage, a second of which transmits the signals from the or each transmitter to the or each receiver, a third of which supplies synchronised pulse trains, and the fourth of which acts as a

80 common for the others.

3. A telemetry system as claimed in Claim 1 or Claim 2, wherein a system clock provides synchronising pulse trains to the or each transmitter and to the or each receiver, each train

85 being an exact number of pulses of predetermined width and delay, a predetermined pause distinguishing the start of each train.

4. A telemetry system as claimed in Claim 3, wherein the length or polarity of magnitude of the

90 signal pulse distinguishes between different commands.

5. A telemetry system as claimed in Claim 3, wherein a predetermined sequence of command signal pulses indicates alternative commands.

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6. A telemetry system as claimed in any one of Claims 3 to 5, wherein the address for the or each transmitter and the or each receiver is set by track links on a printed circuit board.

7. A telemetry system as claimed in any one of

100 the preceding Claims, wherein the or each transmitter and the or each receiver comprises a single chip microcomputer.

8. A telemetry system as claimed in any one of the preceding Claims, wherein one transmitter is

105 associated with one output from a receiver.

9. A telemetry system as claimed in any one of the preceding Claims, wherein the or each receiver provides an output or outputs to means which controls the supply of electrical power to an

110 electrical unit.

10. A telemetry system as claimed in Claim 9, wherein the controlling means is relays and/or contactors and/or triacs.

11. A telemetry system as claimed in Claim 10,

11 5 wherein the controlling means is connected by one or more isolators to its associated receiver to prevent the power supply reaching the receiver.

12. A telemetry system as claimed in any one of Claims 9 to 11, wherein the or each receiver

120 has eight outputs.

13. A telemetry system as claimed in Claim 12, wherein each output controls the power supply to electrical units in one zone.

14. A telemetry system as claimed in any one

125 of Claims 9 to 13, wherein the or each transmitter is capable of sending four signals, ON, OFF, REDUCE POWER, and INCREASE POWER.

15. A telemetry system as claimed in Claim 14, wherein the actuating means for the or each

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transmitter is a manually operated switch.

16. A telemetry system as claimed in any one of Claims 1 to 8, wherein the actuating means for the or each transmitter is a monitoring device.

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17. A telemetry system as claimed in Claim 16, wherein the or each output from the or each receiver is fed to a display device which indicates if a condition has been detected.

18. A telemetry system as claimed in Claim 17, 10 wherein the display device also indicates the position of the condition.

19. A telemetry system as claimed in any one of the preceding Claims, wherein a central controller provides management of the system.

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20. A telemetry system as claimed in any one of the preceding Claims, wherein the or each transmitter has more than one input.

21. A telemetry system substantially as hereinbefore described with reference to, and as

20 shown in, Figure 1 of the accompanying drawings.

22. A telemetry system substantially as hereinbefore described with reference to, and as shown in. Figure 2 of the accompanying drawings.

23. A telemetry system substantially as

25 hereinbefore described with reference to, and as shown in. Figure 3 of the accompanying drawings.

Printed for Her Majesty's Stationery Office by the Courier Press, Leamington'Spa, 1984. Published by the Patent Office, 25 Southampton Buildings, London, WC2A 1AY, from which copies may be obtained.