CS265403B1 - Digital thermostat - Google Patents

Abstract

The connection is solved by a digital thermostat. The output from the temperature sensor is connected via a temperature-voltage converter to the input of the voltage-frequency converter, the output of which is connected to the first input of the gate, to the second input of which a time base is connected, while the first counter and the second counter are connected to the output of the gate, while the first output of the first counter is connected via a memory-decoder block to the indication block, the second output of the first counter is connected to the first input of the first comparator, to the second input of which a setpoint preselection block is connected, further the output of the first comparator is connected to the first input of the first flip-flop, to the output of which a power element is connected, while the output of the temperature difference block is connected to the second input of the counter, the output of which is connected to the first input of the second comparator, to the second input of which a setpoint preselection block is connected, while the output of the second comparator is connected via a second flip-flop and a delay element to the second input of the first flip-flop.

Description

The invention relates to a digital thermostat.

Nowadays it is common to use different types of thermostats based on mechanical principle (bimetal etc.) as well as on the use of electrical elements (thermistor etc.) followed by electronic evaluation. These circuits, especially in simpler designs, are usually not fully satisfactory, they are less stable, they have difficult setting of required temperatures, etc.

These disadvantages are largely eliminated by the digital thermostat according to the invention, which is based on the fact that the output of the temperature sensor is connected via a temperature-voltage converter to the input of a voltage-frequency converter whose output is connected to the first gate input; a time base, wherein a first counter and a second counter are connected to the gate output, wherein the first counter output of the first counter is connected via a memory-decoder block to an indication block, the second output of the first counter is connected to the first input of the first comparator the first comparator output is connected to the first input of the first flip-flop, to which the power member is connected, the output of the temperature difference block is connected to the second input of the second counter, the output of which is connected to the first input of the second comparator. species A setpoint presetting block is connected to the input, wherein a second flip-flop is connected to the output of the second comparator and a second input of the first flip-flop is connected to the delay member.

The advantage of wiring is that it has higher accuracy and is more stable.

An exemplary circuit according to the invention is illustrated in the accompanying drawing.

The output of the temperature sensor TS is connected via the PTN temperature-voltage converter to the input of the PNK voltage-frequency converter, the output of which is connected to the first gate input H, to the second input the time base CZ is connected. C1 and the second counter C1, wherein the first output of the first counter C1 is connected via the memory block of the decoder to the block X. indication, the second output of the first counter C1 is connected to the first input of the first comparator K1; the output of the first comparator K1 is connected to the first input of the first flip-flop KOI, the output of which is connected to the power element VC, the output of the temperature difference block is connected to the second input of the second counter C2, whose output is connected to the first input of the second comparator. K2, to whose second input is connected the PŽH block of the preset request set values, and the outputs of the second comparator K2 is connected through the second flip-flop delay elements KO2 and the second input of the first flip-flop KOI.

The temperature reading is captured by the temperature sensor TS, which is converted to a voltage quantity in the PTN temperature-voltage converter, where this voltage is converted to the corresponding frequency value in the following PNK voltage-frequency converter. This signal of a certain frequency is applied to the first input of the gate H, the second input of which is a signal from the time base of the CZ at the frequency of the given setting of this time base. The resulting signal from the gate H is led both to the first counter C1, and to the preset second counter C2, where the signal from the temperature difference block TD is also led, where the upper and lower ranges of the monitored temperature are set. The first signal from the output of the first comparator K1 is then applied to the first input of the first flip-flop KOI. At the same time, the second comparator K2 compares the output of the second counter C2 with the setpoint value, the result is delayed via the second flip-flop KO2 in the delay member zC and fed to the second input of the first flip-flop KOI that controls the power member VC.

Claims (1)

Digital thermostat characterized in that the output of the temperature sensor (TS) is connected via a temperature-voltage converter (PTN) to the input of a voltage-frequency converter (PNK), the output of which is connected to the first gate input (H) a time base (Cz), wherein at the output of the gate (H) a first counter (C1) and a second counter (C1) are connected, the first output of the first counter (C1) being connected via a memory-decoder block (PD) to a block ( I) indication, the second output of the first counter (CI) is connected to the first input of the first comparator (K1), to which the second input is connected the setpoint block (PHH), the output of the first comparator (K1) is connected to the first input of the first flip circuit (KOI), to whose output is connected the power element (VČ), where the output of the temperature difference block (TD) is connected to the second input of the second counter (Č2), whose output is connected to the first tup of the second comparator (K2), to whose second input a reference value block (PHH) is connected, the second comparator (K2) being connected via the second flip-flop (KO2) and the delay member (ZČ) to the second input of the first flip-flop ( KOI).