FR2737009A1 - Electronic thermometer with radio-emitter for medical applications - has sensor in contact with patient skin and generating temperature signal processed by microprocessor and transmitted to radio-frequency emitter while radio receiver displays information - Google Patents

Abstract

The thermometer includes a temperature sensor (1) in contact with the patient skin, which generates an electronic signal transmitted to a processing circuit (2). based on the input signal a microprocessor generates a temperature value which is transmitted to a radio-frequency emitter (3). The coded information is transmitted as a high frequency radio signal which is repeated at regular intervals. The thermometer is enclosed in a miniature box which can be strapped to the patient arm or body. An aerial (4) is provided for emitting the radio signals. A receiver (7), provided with an aerial (20), receives the signal and displays the temperature value.

Description

 The present invention relates to an electronic thermometer for medical monitoring and remote alert by Radio Frequency Link quen @ e for medical monitoring especially children, babies and infants especially during their sleep, and more generally of any patient, edolescent, adult and elderly .

 To date, the medical supervision of a child, baby or infant is difficult to provide at home, especially during the night. It is known that it is sometimes imperative to watch over the temperature of a child, baby or sick infant, during the night and more generally during sleep.

At present the parents, or the persons in charge of this supervision, are obliged either to remain constantly at the bedside of the child, or at least to often go to his bedside, for a periodic and frequent control, waking often at night, even staying awake all night
It is known that certain diseases and conditions impose such a quasi-permanent control, since only in the event of a temperature anomaly, can it intervene in time, by the administration of appropriate drugs, to prevent of dangerous fever, or convulsion phenomena that can lead to serious brain damage
The Electronic Thermometer for Medical Surveillance and Distance Alert by Radiofrequency Linking according to the present invention eliminates the drawbacks that have come from other presented, and allows a permanent control completed with a warning system, and remotely, so without the person ensuring the surveillance is not obliged to remain near the child, baby, or infant, possibly adult or old person to watch
It consists mainly of a miniature sensor-transmitter to place on the child. a child, adult, or elderly person to be supervised, at a convenient place chosen for a temperature measurement, and fixed by a suitable and easy-to-use device, and on the other hand a miniature receiver-display which remains nearby the person responsible for the surveillance - and possibly attached to a garment by means of pliers or other suitable means
As an example, the Transmitter-Transmitter can be fixed under an armpit by means of a suitable wristband or Velcro strap (registered trademark) For an infant or a child, the Transmitter-Transmitter can be fixed on the belly.

 The sensor-transmitter measures the instantaneous body temperature, from the place of the body where it is fixed, and transmits this information at regular time intervals - for example every second - by radiofrequency, and in a coded way, which makes null in practice, there is the risk of interference or misinterpretation, especially if several patients are close to each other at the same time.

 The Receiver-Display, place. remote, receives. the signals emitted by the Transmitter-Transmitter, decodes them so as to identify the signals received, makes any corrections to the measurement carried out so as to obtain the temperature of the patient's body, and present on a digital display - for example liquid crystal type, which minimizes the power consumption- permanently the value of the patient's body temperature, and expressed in degrees Celsius by way of example.

Once the place where. to place the selected transmitter-emitter, for example by the manufacturer of the electronic thermometer according to the present invention, it will no longer be necessary to change it and it will have to be imposed on the users. Indeed, a correction must be made generally to the temperature measured by the sensor-transmitter, so as to deduce the temperature of the body of the patient or the patient, and this correct.ion depends on the location where the sensor is fixed. -Transmitter
This correction is therefore programmed in the electronic thermometer according to the present invention, at the factory. However, it will be possible, and in a variant, to admit modifications to this corrective value and to allow the user to make this selection himself by choosing by means of a key arranged at the Receiver-
Display, the place where will be fixed the Sensor-Transmitter among several possible choices.

The Receiver-Display constantly compares the displayed value with minimum values Tmin and maximum Tmax admissible for the temperature and. kept in memory. If an anomaly occurs, ie an admissible external value is exceeded, then the
Receiver-Display raises an audible alarm as well as a luminous alarm - a red miniature lamp c 1 for example.

These alarms allow. to warn, and if necessary to wake up the person in charge of the surveillance of the patient or the patient.

 The values Tmin and Tmax respectively for the minimum temperature limit, and the maximum temperature limit, are.

kept in memory. These values may be modifiable according to variants of the present invention
According to a Basic Version, the electronic thermometer according to the present invention will be firstly pre-programmed with a temperature correction corresponding to the attachment of the sensor-emitter at a determined location of the patient's body under an armpit. example-, and secondly pre-programmed with Tmin values and
Tmax not modifiable, as an example Tmin = 35 C and TMAX = 39 C.

 according to a first variant of the present invention, the Receiver-Display is equipped with keys allowing the choice of the minimum limit values Tmin and maximum Tmax of the temperature, and expressed for example in degrees Celsius.

These limit values are then displayed "in clear"
In this first variant, the temperature correction Ct. Is pre-programmed at the factory, in a non-modifiable manner, which corresponds to the setting of the sensor-emitter at a determined location of the patient's body. These limit values are then displayed "in the clear "
According to a second variant of the present invention, on the one hand, the Repteur-f fi cher will be equipped with a key enabling the selection of corrective values Ct of the temperature, among pre-programmed values and corresponding to choices. possible for the attachment of the Sensor-Transmitter, and secondly the values Tmin and
Tmax will be pre-programmed in the factory in a non-modifiable way, for example Tmin-35 C and Tmax = 33 C
According to a third variant of the present invention, the
Receiver-Display will be equipped on the one hand with a key allowing the selection of corrective values Ct of the temperature, among pre-programmed values and corresponding to possible choi @ for the fixing of the Sensor-Emitter, and secondly of keys allowing the choice of limit values Tmin and Tmax
It is obvious that these variants one and three of the present invention, if they can be made available to the medical profession - nurses / nurses in particular - they would not know otherwise made available to unsuspecting users without precautions.

Figure 1 shows an example of the @.
Transmitter, first part of the electronic thermometer according to the present invention.

This sensor-emitter consists of a miniature box, the parallelepipede or cylinder shape and secured to a suitable fastening device, for example a suitable strap or "velcro" tape. This miniature case tells all the electronics of the Sensor
Transmitter as well as battery power. It is, as we have said, fixed at a suitable place of the patient's body, infant, child or adult to be watched under an armpit as an example.

 A sensor (1) in contact with the skin measures the instantaneous temperature of the patient's body from this point, and is for example of the thermistor type or of the specific electronic temperature sensor type. The sensor (@ 1 1 develops and transmits a signal, a function of the measured temperature, to an electronic circuit (2).

This electronic circuit (2) is responsible for recording the temperature thus measured. This value T of the temperature is then coded by the circuit (2) so as firstly to nullify in practice the risks of interference and interference in the radiofrequency links between the Sensor-Transmitter and the Receiver-Display, by making so that each receiver recognizes its corresponding transmitter and only one, and secondly to allow the use in one place of several electronic thermometers according to the present invention, so as to allow simultaneous monitoring of several patients.

 The circuit E may be constituted by a microprocessor.

 A circuit. radiofrequency transmitter (3) receives from the circuit (2) the coded T1 temperature information to be transmitted, and formats this information by modulating a high frequency radio transmission.

The high frequency emission is carried out at regular time intervals, so as to transmit the coded information for measuring the temperature every second wave, for example.

 As an example, this emission can be performed in amplitude modulation to meet short reduced objectives. Note that a frequency modulation emission is also feasible and corresponds to a concern for better quality of the radio frequency link.

 The transmitter (3) comprises an antenna (4) integrated in the housing.

 The radiofrequency emission is carried out in accordance with the regulations in force defined by the Administration for the country or countries considered. In France, for example, the 224.5 Mhz or 433.92 Mhz frequencies (the latter being adopted as a European frequency) can be considered as examples, and these frequencies will be stabilized according to the regulation by suitable devices, such as, for example, surface wave resonators. In addition, the power of the program will be imitated, again in accordance with the regulations in force.

 The scope objective for the radio link must allow monitoring of the patient or patient to a comfortable distance; for example, the electronic thermometer must work very well in the enclosure of an apartment, or a house, or a property.

 The Transmitter-Sensor is powered by one or more miniature batteries or batteries, either t disposable after use, or rechargeable.

FIG. 2 represents an exemplary embodiment of the Receiver.
Display, second part of the electronic thermometer according to the present invention.

 This Receiver-Display consists of a miniature box for example of parallelepiped shape - comprising a digital display, a sound and light alarm device, and indicators of proper operation.

 An antenna (20), inside the Receiver-Display box, receives the high frequency waves emitted by the Transmitter-Transmitter and transmits them to a radio frequency receiver (7), the high frequency reception circuits of which are appropriately tuned to ensure the reception of the signals emitted by the corresponding Transmitter-Transmitter. It has been seen that the radiofrequency link must comply with the regulations in force in the country or countries concerned. In particular, the receiver's high frequency reception circuits may require adequate stabilization to comply with the regulations in force in certain countries.

Technically the receiver can be of the type "super-reaction", to
"simple change of frequency" or "double frequency change". and the modulation can be, in agreement with the Sensor
Transmitter, of the "amplitude modulated" or "frequency modulated" type
The receiver (7) first carries out the detection and the amplification of the signals @ @ @ @, as well as in a second time their decoding so as on the one hand to receive only the emission of the
Transmitter-Transmitter corresponding and that is actually intended for it, and secondly to make null practice the risk of jamming or radio interference.

Received signals, thus amplified, shaped and decoded by the receiver (7) represent the instantaneous temperature T1 measured from the place of the body, the patient or the patient, where was fixed the
Sensor-transmitter. This value of the temperature is then corrected by the additive corrective value Ct preprogrammed in the memory (18) of the Receiver-Display.

The body temperature of the patient or patient is finally
T2 = Ti + Ct, and is expressed for example in degrees Celsius.

The temperature information is refreshed at the rate of transmission of the corresponding information from the part. Sensor-Transmitter, all seconds as an example.

 A microprocessor (8) is responsible for milking. these signals. in particular, he compares at every moment. the corrected temperature T2 to a minimum value Tmin, and a maximum value Tmax.

The values Ct, Tmin and Tmax are pre-programmed in the memory of the Receiver-Display and. are non-modifiable or modifiable according to the Basic Version or the first, second or third
Variants of the present invention.

A digital display device (9) displays at any moment the value of the corrected temperature T2, expressed for example in degrees Celsius, and at the same time the location of the body where the temperature measurement is to take place, by a symbol or a symbolic inscription or "in the clear". The device (9) will be advantageously. a liquid crystal display, which minimizes the power consumption of the Receiver.
Display, and to increase its electric autonomy.

The device (9) may equally well be made in a display by electroluminescent diodes, or any other suitable means.

 A push button (1 5:> allows you to successively display the corrected temperature T2 of the patient or patient, then the minimum values Tmin and maximum Tmax selected.

 According to the Basic Version of the present invention, the corrective value Ct of temperature as well as the minimum values Tmin and maximum Tmax allowed for the corrected temperature T2, are.

programmed permanently and. therefore non-modifiable way in the memory (18) of the Receiver-Display. This memory (18) can be advantageously integrated with the microprocessor (8).

 this Basic Version is pre-programmed "in the factory".

The advantage of such a Basic Version is to require no adjustment, to be of immediate use, but then as we have just seen, its use may be restrictive in some cases, hence the interest of variants 1,2 and 3
For this version of ase the pushbuttons or buttons (16) and (17) are not used.

According to a first variant of the present invention, the
Receiver-Display is equipped with pushbuttons or keys (16) and (17) allowing the choice of a part of the minimum value Tmin selected for the temperature corrected-T, and secondly I the maximum value Tmax retained for the corrected temperature T2.This double choice can. be carried out using the single key (15), for example sequentially; T2 temperature display, display of
Tmin and Tmax, choice of Tmin (the value of Tmin is then displayed in @lignotante way to indicate that this value is modifiable), choice of Tmax (the value of Tmax then flashes to indicate that this value is editable), then again display the temperature T2, and so on.

 Recall that for this first variant, the corrective value of temperature Ct is pre-programmed in a non-modifiable way, and the display (9) displays at the same time as the corrected temperature T2, the place of the body where the taking must take place. of temperature, by means of an appropriate symbology.

 Suppose that the limit values Tmin and Tmax are displayed using the key (15). If the minimum limit value Tmin is to be changed, pressing the key (15) again will have the effect. to flash this value Tmin, showing that it is modifiable.

 The keys (16) and (17) then make it possible to modify this displayed value Tmin, either in the increasing direction (for example with the key (16)) or in the decreasing direction (for example with the key (17) ).

 In this way the choice is made: minimum and maximum values allowed for the corrected temperature T2 of the patient or patient.

The key (15) then makes it possible, as we have seen, to pass sequentially from the display and the choice of the limit values Tmin and
Tmax at the corrected temperature display T2 of the patient's or patient's body, always with the symbol of the location of the measurement.

According to a second variant of the present invention, the
Receiver-Display is equipped with pushbuttons or buttons (16) and (17) allowing the choice of the location of the temperature measurement - and therefore the automatic selection of the corrective value
And temperature among pre-programmed values in memory (18) of the Receiver-Display - this among a variety of possible locations-s pre-programmed and representable by a suitable symbology.

 This choice can be made using the key (15), for example in a sequential manner: display of the temperature T2, display of Tmin and Tmax for consultation, choice of the location for taking temperature (the corresponding symbol which, remember it is always displayed, then flashes to indicate that this symbol and therefore the value of Ct- corresponding is changeable), then level display temperature T2, and so on.

 Recall that for this second variant, the limit values Tmin and Tmax are pre-programmed in a non-modifiable manner, in the memory (18) of the receiver-display.

 Suppose that the limit values Tmin and Tmax are displayed using the key (15 - If you want to change the location of the temperature measurement, pressing the key (15) once again will have the effect of flash the corresponding symbology, showing that it is editable.

 The keys (16) and (17) then make it possible to modify this symbology, either in the increasing direction (for example with the key (16)), or in the decreasing direction. (for example with the key (17)).

 The choice of the corrective value Ct of temperature is thus indirectly made.

 The key (15) then makes it possible, as we have seen, to go sequentially through the display and the choice of the location. from taking the temperature to displaying the corrected temperature T2 of the body of the patient or patient.

 According to a third variant of the present invention, the Receiver-Display is. equipped with push buttons or keys (16) and (17) allowing the choice in the first place of the location of the temperature measurement and thus indirectly the choice of the corrective value Ct of temperature, and in a second time on the one hand the minimum value Tmin retained for the corrected temperature T2, and on the other hand the maximum value Tmax retained for the corrected temperature T2. This triple choice can be effected with the single key (15), for example sequentially; display of the temperature T2, and simultaneously of the symbology representing the location of the temperature measurement, display of Tmin and Tmax, choice of the location of the temperature measurement (the corresponding symbol flashes to show that it is modifiable), choice of Tmin (the value of Tmin is then displayed in a flashing way to indicate that this value is modifiable), choice of Tmax (the value of Tmax then flashes to indicate that this value is editable) and then again display the temperature T2, and so on.

 Assume that the limit values Tmin and Tmax are displayed using the key (15). - if you want to change the minimum limit value Tmin, two new presses on the key (15) will have the effect. to flash @Tmin, showing that it is editable.

The keys (16) and (17) then make it possible to modify this displayed value Tmin, either in the increasing direction (for example with the key (16)) or in decreasing direction (for example with the key (17)),
This makes the choice of modifiable parameters, namely location. temperature, Tmin, Tmax.

 The next step (1: 5) allows then, as we have seen, to switch substantially from the display and the choice of modifiable parameters to the display of the corrected temperature T2 of the body of the patient or of the patient. as well as simultaneously the symbology corresponding to the location of the temperature measurement.

It is obvious that the way to proceed with the modification and display of the parameters may differ from the way currently described on the Basic Version as well as on the first, the second and the third variant, all of which fall within the scope of this i nvent i on -
When the value of the corrected temperature T2 of the patient or the patient reaches or exceeds one of the two pre-programmed limit values Tmin or Tmax, the microprocessor (8) then triggers an audible alarm (10) and / or a luminous alarm (11). .

 A pushbutton or key (19) is used to stop the audible alarm (10) and the light alarm (11), and to re-initialize the receiver by replacing it in the "alarm" mode.

A luminous indicator of the functioning of the electronic thermometer according to the present invention is constituted, for example, by an electroluminescent diode (12), advantageously of green color, and which emits a brief luminous signal at each correct reception of a signal. from the Sensor-Transmitter, a priori every second for example.This indicator (12) is managed by the microprocessor
A light indicator (13), for example constituted by an electroluminescent diode, advantageously of red color, lights up if either the radio-frequency link between the sensor-transmitter and the
Receiver-Display is not correct-loss of signal that may be due to wear of the batteries of the Sensor-Transmitter and / or the Receiver
Display, or interference or interference, or loss of range between transmitter and receiver - or if the battery or battery at the Receiver-Display is to be replaced.

 The Receiver-Display is. powered by a miniature battery (14) of the typ @. disposable after use or rechargeable type.

The present description which has just been given for the Electronic Thermometer for Medical Surveillance and Remote Alert by
Radio Frequency Link, according to the Basic Version on the one hand, and according to the three Variants on the other hand, constitutes one or more exemplary embodiments, in particular for the person skilled in the art, and any other variant, adaptation or modification by This description will also be subject to the present invention.

Claims (16)

 1) Electronic thermometer for Medical Monitoring and Remote Alert by Radio Frequency Link characterized in that it comprises on the one hand a Sensor-Transmitter. to be placed with a suitable and adjustable attachment at a suitable place in the patient's body or ill to monitor the child, adolescent, or adult, and for measuring the temperature possibly simply correctable such for example under an armpit, which Sensor-Transmitter carries out at regular time intervals a measurement of the temperature and the remote transmission of this information by radiofrequency, and on the other hand a Receiver-Display which carries out the reception and the processing of the information emitted by the Sensor-Transmitter , the eventual correction of the measured temperature, displays this temperature information on a digital display, and triggers one or more audible and / or luminous alarms If the corrected temperature comes to be lower than a lower limit Tmin @u greater than an upper limit Tmax, the values of Tmin and Tmax being stored in an editable or non-modifiable manner.  2) An electronic thermometer for Medical Monitoring and Radio Frequency Link Remote Alerting according to claim 1, characterized in that the Sensor-Transmitter comprises a sensor (1) sensi ble temperature at the skin of the patient at one place. well chosen, such for example under an armpit, a suitable and adjustable fixing means, a device (2) for processing the primary information, scanning and converting to an appropriate unit-for example in degrees Celsius-, and the coding of this information, and a device (3) radiofrequency emission at regular time intervals of this information which represents the measured temperature.  3) an electronic thermometer for medical monitoring and remote alerting by radio frequency link according to claim 2 characterized in that the device (3) radiofrequency transmission on the one hand comprises a frequency stabilization system, which is selected in the bands authorized in order to comply with the regulations in force in the country or countries concerned, and on the other hand deliver a high frequency power that is comfortable and suitable, and complies with the regulations in force in the country or countries considered.  4) An electronic thermometer for medical monitoring and radio frequency link distance alerting according to claims 1, 2 or 3 characterized in that the receiver-display comprises a device (7) for radio frequency reception, amplification and signal shaping. from the sensor-transmitter, a device (3) for processing. allowing on the one hand to make a possible correction of the measured temperature T1, by means of an additive correction parameter Ct depending on the location. of the body where the measurement is made, so as to arrive at the corrected temperature T2 = T1 + Ct, and secondly. to compare at any time the corrected temperature information T2, with minimum values Tmin and maximum Tmax present in memory (18).  5) An electronic thermometer for Medical Monitoring and Radio Frequency Link Distance Alert according to claim 4 characterized in that the additive corrective value Ct and the minimum values Tmin and maximum Tmax of the corrected temperature T2 are pre-programmed in a non-modifiable manner in the memory (18) of Receiver display.  6 :) Electronic thermometer for Medical Surveillance and Alert å Distance by Radio Frequency Link according to claim 4 or 5 characterized in that the Receiver-Display includes a digital display device (9) allowing on the one hand to display the value of the corrected T2 temperature of the patient or patient, and expressed for example in degrees Celsius, and simultaneously, by means of a suitable symbology, the location of the body where the temperature measurement is to be made, and on the other hand to display, for consultation, the minimum limit values Tmin and maximum Tmax of this corrected temperature, for example by means of a key (15) arranged at the Receiver-Display, this key (15) allowing for example a sequential display of the corrected temperature T2 as well as simultaneously the location of the measurement by means of sym- bols, and the limit values Tmin and Tmax.  7) Electronic thermometer for Medical Surveillance and Radio Frequency Link Distance Alert according to Claim 4, characterized in that on the one hand the additive corrective value Ct of the temperature is non-modifiable and on the other hand the minimum values Tmin and maximum Tma> of the corrected temperature are modifiable and chosen by means for example of the control keys (15), (16) and (17) arranged at the Receiver-Display.  8) An electronic thermometer for Medical Surveillance and Radio Frequency Link Remote Alert according to claims 4 or 7, characterized in that the Receiver-Display comprises a digital display device (9) allowing on the one hand to display the value of the corrected temperature T2 of the patient or the patient, and expressed for example in degrees Celsius, and simultaneously by means of a symbology adapted to the location of the body where the temperature measurement must be made, and secondly to display for consultation and modification of possible cations, the minimum limit values Tmin and maximum Tmax, by means for example of the control keys (15), (16) and (17) arranged at the Receiver-Display the key (15) allowing the sequential display of the corrected temperature T2, as well as the location of the the measurement, then dec minimum values Tmin and. maximum Rmax for consultation, then the selection for changing the minimum value Tmin, then the selection for changing the maximum value Tmax, a control of these selections can be for example a blinking of the displayed value can be modified, the keys (16) and (17) allowing modification of the modifiable values, namely Tmin and Tmax, respectively by incrementation-or in the direction of the increasing values, and by decrementation-or in the direction of the decreasing values  9) An electronic thermometer for medical monitoring and remote alerting by radiofrequency link according to claim 4, characterized in that on the one hand the additive corrective value Ct of the temperature is modifiable, by means for example of the control keys (15), ( 16) and (17) arranged at the Receiver-Display, and secondly the minimum values Tmin and maximum Tmax of the corrected temperature are pre-programmed and non-modifiable.  10) Electronic Thermometer for Medical Surveillance and Distance Alert by Liaison; Radiofrequency '--elo-n claims 4 or 9 characterized in that the Receiver-Display includes a digital display device (9) for displaying the value of the corrected temperature T2 of the patient or patient. , and expressed for example in degrees Celsius. and simultaneously by means of a suitable symbology 1 place of the body where the measurement of temperature is made, this for consultation and possible modifications, and secondly to display for consultation only - so without possible modification- i minimum limit values Tmin and maximum Tmax, by means for example of the control keys (15), (16) and (17) arranged at the Receiver-Display, the key (15) allowing the sequential display of the corrected temperature T2, as well as the location the measurement, then the minimum values Tmin and maximum Tmax for consultation, then selection for modification of the location of the measurement, a control of this selection can be for example a blinking of the displayed value modifiable, the keys t16) and (17) allowing the modification of the values modify bles , ie the symbol representing the location of the measurement, incrementing - in a first sense - and by decrementing - or in a second sen @  11: :) Electronic thermometer for Medical Monitoring and Radio Frequency Link Remote Alerting according to Claim 4, characterized in that on the one hand the additive corrective value Ct of the temperature is modifiable, and on the other hand the minimum values Tmin and maximum Tmax of the corrected temperature are modifiable, these parameters being chosen by means for example of the control keys (15), (16) and (17) arranged at the Receiver-Display. Tmax for consultation, then selection for modification of the location of the measurement, then selection for modification of the minimum value Tanin, then selection for modification of the maximum value Tmax, a control of these selections that can be For example, a blinking of the displayed value can be modified, the keys (16) and (17) allowing the modification of the modifiable values, namely symbol representative of the place. of the measure, Tmin and Tmax, respectively. incrementally-in the direction of increasing values-and by decrementing-in the direction of decreasing values. Tmax, by means for example of the control keys (15), (16) 6:> and (17) arranged at the Receiver-Display, the key (15) allowing the sequential display of the corrected temperature T2, as well as the location of the measurement, then minimum values Tmin and maximum  12, an electronic radiometer for Medical Monitoring and Radio Frequency Link Remote Alert according to claim 4 or 11, characterized in that the receiver-display device comprises a digital display device (9) making it possible, on the one hand, to display the value of the corrected temperature T2 of the patient or the patient, and expressed for example in degrees Celsius, and simultaneously by means of a suitable symbology the place of the body where the temperature measurement must take place, this for consultation and possible modifications, and on the other hand to display for consultation and possible modifications, the minimum limit values Tmin and. maximum  13) An electronic thermometer for Medical Monitoring and Radio Frequency Link Distance Alert according to claims 4, 6, 8, 10 or 12 characterized in that the circuit (8) triggers, if the corrected temperature value T2 is nit lower than the minimum value Tmin not modifiable or modifiable and selected, greater than the maximum value Tmax not modifiable or modifiable and selected, an audible alarm (10) and / or a light alarm (11) so as to give the alert.  14) Electronic Thermometer for Medical Surveillance and Radio Frequency Link Distance Alert according to claim 13 characterized in that the Receiver-Display has a control key (19) for stopping the alarms, which key (19) is managed by the circuit  15 :: i Electronic Thermometer for Medical Monitoring and. Radio Frequency Link Distance Alert according to claims 13 or 14 characterized in that the circuit. (8) manages a light of good functioning (12), advantageously green, attests so much, for example by a brief flash of good reception of each of the messages emitted by the Sensor-Transmitter  16) Thermorangletre for Medical Surveillance and Radiofrequency Link Distance Alert according to claims 13, 14 or 15 characterized in that the circuit (8) manages a light (13) of radiofrequency link loss, preferably of red color, and signaling that the OR batteries or batteries of the Sensor Transmitter or Display Receiver or both must be replaced or recharged or the radio frequency link is in poor condition. that is to say for example a limit of radio range, or in a scrambled or parasitized environment