KR930009460B1 - Line interface circuit of telemetering miu - Google Patents

Abstract

The circuit consists of a resistor which is connected in series at the both transformer to control the AC input impedance of transformer for normal operation, a switch which is connected in parallel to the above resistor to change the DTMF communication and modem communication, a AC input impedance control part of transformer to control the AC input impedance of transformer for both normal and metering mode; a OP amp to amplify the transformer output, a switch which is connected to the output stage of the above OP amp to change the DTMF communication and modem communication, and a filter to apply the signals from the above switch to a DTMF receiver.

Description

Line interface circuit of telemetering MIU

1 is a line interface circuit diagram of a conventional telemetering MIU.

2 is a line interface circuit diagram of an improved conventional telemetering MIU.

3 is a line interface circuit diagram of a telemetering MIU in accordance with the present invention.

* Explanation of symbols for main parts of the drawings

1: DTMF Receiver 3: Filter

4: AC input impedance adjuster of transformer Z1: surge op consumption

PS1, PS2: Current limit push switch SW1 to SW4: Switch

C1 to C3: Capacitors R1 to R6: Resistance

OP1, PO2: OP amplifier T1: transformer

The present invention relates to a telemetering MIU (Meter Interface Unit) line interface, and more particularly, to a line interface circuit of a telemetering MIU adapted to meet the line interface standard of a domestic telemetering MIU.

In general, the meter is used to send and receive meter readings or read data using a telephone line for remote meter reading of various types of meters such as electric meters, gas meters, water meters, and heat meters.

However, due to the use of telephone lines, the meter should be read without affecting the subscriber's use of the telephone. The electrical standard of KTA's indoor equipment standard is suitable for such matter, and the present invention is a circuit designed to meet the electrical standard of KTA's indoor equipment standard.

At this time, ① In normal state, AC input impedance is 100KΩ or more.

DC input impedance is over 5KΩ,

② AC metering impedance is over 5KΩ

The DC input impedance is a value capable of flowing a current of 13 to 10 mA.

In the line interface circuit of the conventional telemetering MIU, as shown in FIG. 1, the output of the bridge-type diodes D1 to D4 connected to the telephone lines (Tip, Ring) is the capacitor (C1) (R1) and the resistor (R1). Are connected simultaneously to the cathode terminals of the zener diodes Zn1 and Zn2 and the resistors R2 and R4, respectively, and through the zener diodes Zn3 through the anode connection points of the zener diodes Zn1 and Zn2. OP amplifier OP1 built in DTMF (Dual Tone Multiple Frequency) receiver (1) while grounded and the other end of resistor (R2) (R4) is connected to reference ground terminal via resistor (R5) (R6), respectively It is applied to the "-" and "-" input terminals of and the connection point between the resistor R4 and the "-" input terminal of the OP amplifier OP1 is connected to the reference ground terminal and the output terminal of the OP amplifier OP1 through the resistor R7. It is a configuration that is connected at the same time.

2 is a modified and improved circuit of FIG. 1, in which the diodes D1 to D4 in FIG. 1 are deleted, and the surge observer Z1 (Surge Absorber), the polyswitches PS1 and PS2, the capacitor C3, Transformer T1 is connected.

Referring to the operating state of the configuration circuit, first, the metering command signal between the telephone lines (Tip, Ring) in Figure 1 enters the DTMF signal, rectified through the diodes (D1 to D4) and passing through the capacitors (C1, C2) After the signal is cut off, the capacitors C1 and C2 are applied to the OP amplifier OP1 of the DTMF receiver 1 through the Zener diodes Zn1 to Zn3 of the resistors R1 to R7.

At this time, the capacitors (C1, C2) low (R1 to R4) acts as a line balance (resistance R1, R2, R3, R4, R7) of the OP amplifier (OP1) built in the DTMF receiver (1) The input and output gains are adjusted and the DC amplifier voltage of the op amp OP1 is obtained by connecting resistors R5 and R6 to the reference ground.

FIG. 2 is a modification of part of the circuit of FIG. 1, and suppresses line surge with polyswitches PS1 and PS2 and surge absorber Z1, and insulates the line and MIU from transformer T1.

However, in the line interface circuit of the conventional telemetering MIU as described above, the first degree satisfies the domestic facility standard, but the noise generated in the line is also induced in the reference ground and amplified by the OP amplifier, making it difficult to operate normally. The problem of FIG. 1 of the prior art is solved, and the surge and noise induced in the track are blocked.

However, the circuit of FIG. 2 has a drawback in that the electrical specifications of the indoor equipment standard (AC Zener diodes are not idealized) have problems in AC input impedance matching (floating capacity, stray resistance, etc.).

The present invention aims to effectively solve the above problems (AC input impedance matching) and interface between the MIU and the telephone line. Hereinafter, the arc configuration and operation state of the present invention will be described with reference to the accompanying drawings.

First, in the configuration of the present invention in FIG. 3, a surge absorber Z1 is connected in parallel between a tip and a ring of a telephone line, and a push switch PS1 and PS2 having a current limiting function are connected in series, and a push switch PS1. Connect the AC impedance adjusting part 4 of the transformer T1 composed of the switch SW1 and the resistor R1 in parallel to the PS2, and connect the series switch T1 to the current limiting push switches PS1 and PS2. Connect the resistors R2 and R3 to adjust the AC input impedance, respectively, and connect the switches SW2 and SW3 in parallel to the resistors R2 and R3, respectively, and the connection point and resistor R3 of the resistors R2 and SW2. ) And the switch SW3 are connected to both ends of the primary side of the transformer T1, and the capacitor C1 is inserted in series at the primary side of the transformer T1, and the "+" end of the secondary side of the transformer T1 is The negative and negative ends of the op amp (OP2) are connected to the reference ground stage, and the minus ends of the op amp (OP2) are connected to the gain1 gain and OP amp (OP1). The output of the filter is applied to the filter (3) formed by connecting the resistor (R4) and the capacitor (C3) in parallel via a switch (SW4), and the output of the filter (3) is connected to a resistor (R4) in series. The DC component is blocked through C2) and then applied to the DTMF receiver 1 through the resistors R5 and R6 used for gain adjustment of the OP amplifier OP1 built in the DTMF receiver 1.

In the above configuration, the switch SW4 is a switch for selecting the DTMF signal and the modem signal.

Referring to the operation state of the configuration circuit, when a DTMF signal, which is a metering command, is input between the telephone lines (Tip, Ring), the signal is a surge absorber (Z1), current limiting switches (PS1, PS2) and resistors (R2, Zener diodes are amplified by the OP amplifier OP1 via R3), the capacitor C1, and the transformer T1, and then applied to the input of the DTMF receiver 1.

In this case, the DC input impedance is maintained at 5KΩ or more by the capacitor (C1) inserted in the primary side of the transformer (T1). It keeps above 100KΩ by adjusting the resistance (R3).

According to the input impedance specification during meter reading, the switch SW1 closes when the meter signal DTMF is detected. Therefore, by adjusting the resistor R1, the AC input impedance can be maintained above 5KΩ and the DC loop current can be maintained above 3 ~ 17mA. have.

Here, the switches SW2, SW3, and SW4 are switched after detecting the DTMF signal to enable modem communication.

Therefore, the present invention effectively matches the input impedance of the zener diode in the normal state, which is the electrical standard in the indoor equipment standard, and the noise is the surge absorber (Z1), the current limiting push switches (PS1, PS2) and the transformer (T1). It can be removed and the input impedance can be improved through the resistors R2 and R3 and the OP amp OP2.

Claims (1)

A transformer (T1) which receives a signal applied between the telephone lines (Tip, Ring) through a surge observer (Z1) and current limit switches (PS1, PS2) and whose output is applied to the DTMF receiver (1). In a line interface circuit of a Zener diode MIU, resistors R2 and R3 connected in series to both input terminals of the transformer T1 to adjust AC input impedance of the transformer T1 in a steady state, and the resistors R2 and R3. Are connected in parallel to each switch (SW2, SW3) for switching between DTMF communication and modem communication, and connected in parallel to the resistors (R2, R3) and switched according to the usual and meter reading, AC of the transformer (T1) AC input impedance adjusting section 4 of the transformer for adjusting the input impedance, the OP amplifier (OP1) for amplifying the output of the transformer (T1), and the output terminal of the OP amplifier (OP1), DTMF communication and modem communication Through the switch SW4 to switch and the switch SW4 And a filter (3) for receiving an applied signal and applying it to the DTMF receiver (1).

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