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Выше или ниже нуля, вот в чем вопрос

Написал MACTEP 16.12.2008 18:20:00 (Просмотров: 14723)

В помещениях без теплоснабжения, но с чувствительным оборудованием, было бы неплохо знать по крайней мере, понизилась ли температура ниже нуля. Тогда надо или побеспокоиться об обогреве помещения, или перенести оборудование в другое место.

(на английском)


To know whether it is freezing you only need to measure the temperature. This has to be done accurately, of course. and therefore we need to choose a temperature sensor that we have some confidence in.
The choice has again been made for a type that we have already used in many previous Elektor circuits, the LM35C2 (-40 to 110 °C). This sensor is not expensive and generates an output voltage that is proportional to the temperature in degrees Celsius (10 mVrC).

An LM35 is normally powered from a single-ended power supply and 0 °C corresponds to an output voltage of 0 V. It is therefore not possible to measure negative temperatures with an LM35 in the standard application circuit. It is however possible to measure negative temperatures if its output is connected to a negative supply voltage via a resistor. There needs to be a current of 50 ^A through this resistor (R2 in the schematic). We only need to detect the freezing point with this circuit. That is why there is a comparator after the temperature sensor, which turns an LED on if the temperature has dropped below 0 °C during the course of the night. To ensure that the comparator operates properly it is necessary that the measurement value can become slightly more negative with respect to the input. To solve this problem, a diode (Dl) has been connected in series with the ground connection of the LM35, The voltage drop across Dl (because of the small current through the LM35 this is only 0.47 V) acts as 'negative' power supply-Since the non-inverting input of comparator IC2 is connected via R3 to the anode of Dl it functions as the 0°C-re-ference level for the comparator.

The comparator is a standard opamp type TLC271, which we configured for minimal current consumption by connecting the bias-select input {pin 8) to the power supply voltage. There is no need for the detector to be fast and it will therefore work well with the opamp operating in its most economical mode.
LED D3 provides the frost indication. It is the intention that the LED stays on once the temperature in the room drops below freezing or when it has been below freezing. To realise this, an asymmetric hysteresis is created with the aid of R3, R4 and D2. The instant that the output goes high, the non-inverting input goes more positive via D2 and R4, and the output therefore stays high. The temperature would now have to increase to more than about 30" before the LED will go out by itself. In practice this probably means that it is summer and that it is not likely to freeze anyway. If need be, the hysteresis can be increased by increasing the value of R3.
Capacitor C2 is added to make sure that the LED remains off (the circuit is reset) when the power supply is connected. The non-inverting input of the opamp is briefly connected to ground and the output is therefore low. Rl and SI are only required if the circuit needs to be reset when the battery is connected. Instead of SI you could also use a power supply switch or even just simply disconnect the battery for a moment.


Thrifty Power supply
Since the circuit is assumed to be powered from a battery there was a conscious effort to minimise the power consumption. The current consumption of the prototype, at a power supply voltage ranging from 6 to 9 V, was less than 120 ^A. When the LED is on, the current consumption rises to only 1 mA at 6V and 1.8 mA at 9V, because a low-current LED is used. In our prototype we used a green, low-current LED. If four AA penlight batteries (with a capacity of about 2 Ah) are used, then the circuit will run for about two years in standby mode. When the LED is on this is considerably shorter, of course {about two months, this is easily long enough to run through a severe winter period). A standard 9-V battery will also last a single winter, provided you frequently check whether the LED is on.
Finally, a comment about the TLC-271CP used here. The version with the C-suffix is specified for an operating range from 0 to 70 "C, but will continue to work at lower temperatures, particularly considering that the 1С is not used in a linear application. If in doubt you can always try to get your hands on a version with the I-surfix (that is, TLC271IP: -40 to 125°C). But that is only necessary if you expect it to be real cold in the monitored room...

Quick assembly
The circuit contains very few parts and can therefore be easily built on a small piece of prototyping board. There is no need to calibrate anything, once built it is ready to go.


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 Re: Выше или ниже ноля, вот в чем ...
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Носить его в кармане и знать пора ли одевать куртку?
 Выше или ниже нуля, вот в чем вопрос
Младший сотрудник
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Интересная модель и нет необходимости в калибровке.



Ножки для корпусов РЭА можно сделать из резиновой накладки поршня медицинского шприца.

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