DE2059263A1 - Arrangement for the operation of telemetry devices - Google Patents

Description

Arrangement for the operation of telemetry devices

The invention relates to an arrangement for operating telemetry devices. Usually those are determined by the person being examined Physiological voltages taken from a person are fed to a transmitter worn by the person and removed from one received and further processed.

In many cases it is desirable to measure body action tensions or other physiological values from several test subjects under completely identical conditions (place, time, environmental and climatic conditions, as well as physical stress). With the arrangements known up to now, such simultaneous measurements cannot be carried out well because the individual transmitters disturb. This disadvantage can be remedied by using the individual transmitters with different frequencies operates and tunes the associated receivers to the respective transmission frequency. Such systems are expensive and expensive.

Proceeding from the fact that there is a reduction in the technical The effort on the sending side cannot be achieved is

209824/0857

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It is the object of the invention to ensure that when operating several telemetry transmitters on the receiving side with as possible simple means a reduction of the technical effort and a cheaper system is achieved.

According to the invention, this object is achieved in an arrangement for operating telemetry devices in that one of the number the number of telemetry transmitters with different transmission frequencies corresponding to the patient to be examined in a single one, is assigned to the individual transmitter adjustable receiver. The receiver is preferably set automatically by means of a clock generator that switches to the individual transmission frequencies. In the context of the invention, the Clock frequency chosen so that it is about twice the maximum signal frequency to be transmitted times the number of transmitters; for ECG transmissions with maximum frequencies to be transmitted in the order of magnitude of 100 Hz and during use of four transmitters, the clock frequency is about 000 Hz. In telemetry systems in which the receiver is equipped with an input amplifier, a mixer, an intermediate frequency amplifier and a demodulation stage is equipped in Within the scope of the invention, the mixer stage has a number of mixer oscillators corresponding to the number of transmitters and having a corresponding frequency switched on alternately one after the other by means of the clock generator; likewise the clock generator switches on the output of the demodulation stage of the receiver one of the number the transmitter alternates with the corresponding number of low-pass filters one after the other. Simultaneous control of the transmitters in the generator cycle is not necessary; you can work in continuous wave mode so that no interventions in the devices are necessary on the transmission side. As a switch between the Miseh oscillators and the mixer stage is a semiconductor switch which uses the mixer oscillators individually the mixer switches.

20982Λ / 0857

An exemplary embodiment is shown below with the aid of a drawing the invention explained.

The transmitters with their antennas are indicated schematically with the reference numerals 1, 2, 3 and 4. The receiving antenna 5 represents represents the input of the receiver 6, which is the high frequency preamplifier 7, the mixer 8, the intermediate frequency amplifier 9 and the demodulation stage 10 contains. Using the Switches 11, 12, 13 and 14 are the mixer oscillators 15, 16, 17 and 18 can be individually connected to mixer 8. Likewise You can use switches 19, 20, 21 and 22 to adjust the low-pass filter 23, 24, 25, 26 can be individually connected to the demodulation stage 10. The outputs 27, 28, 29 and 30 of the low-pass filter 23 to 26 are at the same time the outputs of the receiver 6, to which recording devices are normally used for recording the body action tensions or other physiological variables of the examined persons are connected.

The switches 11 to 14 and 19 to 22 are used by the clock generator 31 controlled in such a way that the switch pairs 11 and 19, 12 and 20, 13 and 21, 14 and 22 are brought into working position alternately one after the other. In the case of the exemplary embodiment the clock generator has a clock frequency of 800 Hz *, which is sufficient to cover the frequency of EKG transmissions To transmit frequencies in the range up to approx. 100 Hz sufficiently well.

The invention achieves that with simultaneous telemetry a corresponding receiving system cannot be provided for each person to be examined or for each individual transmitter got to. The effort for switching the mixer oscillators or the low-pass filter is relatively low compared to the Advantage that for all transmitters only a single high-frequency preamplifier, only one intermediate frequency amplifier and only one

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Demodulation stage are required. The arrangements for operation of multiple telemetry devices will be simpler, less space-consuming and, above all, cheaper, which will meet the requirements for the application of simultaneous telemetry in wider Scope are created.

Incidentally, the sampling (clock) frequency does not have to be used for all transmitters be constant. Transmitters that transmit a signal with a small signal bandwidth can be queried less frequently per unit of time are considered to have a high signal bandwidth. This allows the number of transmitters that can be connected to a receiver made variable and optimally adapted to the signals to be transmitted. This adjustment can be made by appropriate choice the sampling rate of the individual transmitters. For this purpose, a program selection switch 32 can be attached to the clock generator be downstream. The total clock frequency is approximately twice the signal bandwidth of each transmission channel times the number of transmitters (where the sampling rate - corresponding to the frequency to be transmitted - can be different).

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Claims (9)

- 5 claims Π.) Arrangement for operating telemetry devices, characterized in that one of the number of persons to be examined corresponding number of telemetry transmitters different transmission frequency is assigned to a single, adjustable to the individual transmitter receiver. 2. Arrangement according to claim 1, characterized in that j the setting of the receiver takes place automatically by means of a clock generator that switches over to the individual transmission frequencies. 3. Arrangement according to claim 2, characterized in that the clock frequency is the maximum frequency to be transmitted, e.g. 100 Hz for EKG transmissions, approximately by a factor of 2 per transmitter, with four transmitters is preferably 800 Hz. 4. Arrangement according to claim 2 or 3, characterized in that that the sampling (clock) frequency for the individual transmitter to the maximum signal frequency to be transmitted by him or Signal bandwidth is adjustable. " 5. Arrangement for the operation of telemetry devices with a Receiver with input amplifier, mixer stage, intermediate frequency amplifier and demodulation stage according to one of Claims 2 and 3, characterized in that the mixer stage has a number of corresponding to the number of transmitters Mixing oscillators of the appropriate frequency by means of the clock generator can be switched on alternately one after the other. 209824/0867 6. Arrangement according to claim 5, characterized in that one of the number of transmitters at the output of the demodulation stage corresponding number of low-pass filters by means of the clock generator can be switched on alternately one after the other. 7. Arrangement according to one of claims 1 to 5, characterized in that that the transmitters work in continuous wave mode. 8. Arrangement according to claim 5 or 6, characterized in that as a switch between the mixer oscillators and the Mixer stage a semiconductor switch is used. 9. Arrangement according to claim h, characterized in that the clock generator is followed by a program selector switch for setting the desired sampling rates for individual transmitters. 2098M / 0857