RU183028U1 - Led indicator - Google Patents

Abstract

The proposed utility model relates to the field of information-measuring and computer engineering and can be used to display alphanumeric information. The technical result is to simplify the indicator and reduce power consumption. The technical result is achieved due to the fact that the indicator contains the first 1 and second 2 transformers, the first 3 and second 4 half-wave diode rectifiers, the first 5 and second 6 capacitors, the first 7 and second 8 sources of stabilized voltage, a variable resistor 9, n (where n ≥3 is the number of decimal digits of a multi-bit indicator) of keys of 10-11 digits, n of seven-segment indicators 12-13 on LEDs 14 with a common cathode, clock 15 and binary counter 16, decoder 17 from binary to unitary, n × 4 information inputs 18 -one 9, multi-channel switch 20 of the type “4n to 4”, a decoder 21 from binary decimal code to seven-segment code, keys 22 segments. 3 ill.

Description

The proposed utility model relates to the field of information-measuring and computer engineering and can be used to display alphanumeric information.

A device for indicating [1], containing a reception register, a binary code decoder, decoupling diodes, a scale, keys, LEDs, limiting resistors, a power source, is known.

The disadvantage of the analogue is its complexity.

A ten-week seven-segment indicator is known ([2], p. 439, Fig. 23.12), which contains an indicator block with LED segments with a common anode, seven external resistors, a decoder from a binary-decimal code to a seven-segment code, which has outputs with a free collector, a constant source voltage +5 V.

The disadvantage of the analogue is its complexity due to the use of seven external resistors in the indicator of one decimal place.

A seven-segment font indicator [3] is also known, which contains an indicator with LED segments with a common anode, seven resistors, a decryptor-shaper from a binary-decimal code to a seven-segment code, which has outputs with a free collector, and a power source.

The disadvantage of this analogue is its complexity due to the use of seven resistors in the indicator of one decimal place.

A known display circuit [4], containing a seven-segment decoder with LEDs with a common anode, a decade counter, a +5 V power supply, limiting resistors.

The disadvantage of the analogue is its complexity due to the use of seven limiting resistors in the indicator of one decimal place.

A multi-bit seven-segment LED indicator is also known ([5] - its circuit is borrowed from the Texas Instruments technical passport for the use of the decoder chip 7447A), containing n information inputs, n decoders from the binary-decimal code to the seven-segment code, n seven-segment codes LED indicators with a common anode, 7n limiting resistors.

The disadvantage of this analogue is its complexity due to the use of seven limiting resistors in the indicator of one decimal place and, accordingly, 7n (where n is the number of decimal places of the multi-bit indicator) of limiting resistors in the multi-bit indicator connected between the outputs of the decoders and the cathodes, the combined anodes of which are connected to the positive bus of the power supply.

A device for the dynamic indication of a multi-bit seven-segment indicator on LEDs with multiplex control (see [6], p. 441, Fig. 23.15), containing n information inputs, a multi-channel switch of the type "4n in 4", a decoder-shaper from binary-decimal code in a seven-segment code, n seven-segment indicators on LEDs with a common anode, 7 limiting resistors, a clock, a binary counter, a decoder from binary to unitary, n keys.

The disadvantage of the analogue is its complexity due to the use of seven limiting resistors.

The closest technical solution to the proposed one is the third implementation of the LED indicator (options) ([7], 3rd independent claim), the circuit of which contains a multi-channel switch of the type “4n to 4” (where n≥3 is the number of decimal places of the multi-bit indicator ), decoder from binary decimal to seven-segment code, n seven-segment indicators on LEDs with a common anode, limiting resistor, clock, binary counter, decoder from binary to unitary, n keys, n information inputs odes, which are information inputs of a multichannel switch of the 4n to 4 type, the output of which is connected to the information input of the decoder from the binary decimal code to the seven-segment code, the output of the clock generator is connected to the clock input of the binary counter, the information output of which is connected to the combined control input of the multichannel switch and the input of the decoder from binary to unitary, n outputs of which are connected respectively to the control inputs of n keys, each decoder output from binary adic seven-segment code in the code connected to the respective cathodes of the combined seven-segment LED indicators of various decimal digits common anode LEDs of each seven-segment indicator through the respective key is connected to a first terminal of the limiting resistor, the second terminal of which is connected to the positive supply rail.

The disadvantage of the prototype is its complexity due to the use of a limiting resistor, as well as the additional energy consumption of this resistor.

The technical problem solved by the utility model is to simplify the device and reduce power consumption.

This technical problem is solved due to the fact that in the LED indicator containing n (where n≥3 is the number of decimal places of the multi-bit indicator) of the discharge keys, a decoder from binary to unitary, multi-channel switch of the 4n into 4 type, n seven-segment indicators on the LEDs with a common cathode connected via n keys to a common bus of the device, n × 4 information inputs, which are information inputs of a multi-channel 4n to 4 switch, the output of which is connected to the information input of a double decoder decimal code into a seven-segment code, a clock generator and a binary counter connected in series, the output of which is connected to the combined control input of the multi-channel switch and the decoder input from the binary to the unitary code, n outputs of which are connected respectively to the control inputs of n keys, power outputs of the clock generator, a binary counter, a descrambler from binary to unitary, a multichannel switch of the 4n to 4 type, and a decryptor from a binary decimal code to a seven-segment code each other and connected to the output “+” of the first stabilized voltage source, the inputs “+” and “-” of which are connected through the first capacitor and connected respectively to the terminals “+” and “-” of the first two-half-period diode rectifier, the AC voltage terminals of which the first transformer is connected to the mains, seven key segments are additionally introduced, the second transformer, the second half-wave diode rectifier, the second capacitor, a variable resistor and a second stabilized voltage source the inputs “+” and “-” of which are connected through the second capacitor and are connected respectively to the terminals “+” and “-” of the second half-wave diode rectifier, the AC voltage terminals of which are connected to the mains through the second transformer, the outputs are “+” and “ - "the second source of stabilized voltage are interconnected through a variable resistor, the movable output of which is connected to the control input of the second source of stabilized voltage, the output" + "of which is connected via keys of segments to the corresponding with the combined anodes of the LEDs of seven-segment indicators of various decimal places, the decoder outputs from the binary-decimal code to the seven-segment code are connected to the control inputs of the segment keys.

Significant differences of the proposed indicator are the introduction of additional elements (seven segment keys, a second transformer, a second half-wave diode rectifier; a second capacitor, a variable resistor, and a second stabilized voltage source), as well as the exclusion of a limiting resistor from the circuit. These significant differences provide a positive effect - simplifying the device and reducing power consumption.

The indicator diagram is shown in FIG. 1. In FIG. Figures 2 and 3 show examples of the implementation of an indicator segment on several LEDs.

The indicator circuit (Fig. 1) contains the first 1 and second 2 transformers, the first 3 and second 4 half-wave diode rectifiers, the first 5 and second 6 capacitors, the first 7 and second 8 sources of stabilized voltage, a variable resistor 9, n (where n≥3 - the number of decimal digits of a multi-bit indicator) of keys of 10-11 digits, n of seven-segment indicators 12-13 on LEDs 14 with a common cathode connected via keys of 10-11 digits with a common device bus, a clock generator 15 and a binary counter 16 connected in series, decoder 17 of two code to the unitary, n × 4 information inputs 18-19, which are information inputs of the multi-channel switch 20 of the 4n into 4 type, the output of which is connected to the information input of the decoder 21 from the binary-decimal code to a seven-segment code, the outputs of which are connected to the control inputs keys of 22 segments, power outputs of a clock generator 15, a binary counter 16, a decoder 17 from binary to unitary code, a multi-channel switch 20 of the 4n to 4 type and a decoder 21 from a binary-decimal code to a seven-segment code are integrated between are connected to the output “+” of the first stabilized voltage source 7, the inputs “+” and “-” of which are connected through the capacitor 5 and connected respectively to the terminals “+” and “-” of the half-wave diode rectifier 3, the AC voltage terminals of which the transformer 1 is connected to the mains supply, the inputs “+” and “-” of the second stabilized voltage source 8 are connected through the second capacitor 6 and connected respectively to the terminals “+” and “-” of the second half-wave diode rectifier 4, the terminals of the alternating voltage which through the second transformer 2 is connected to the supply network, the outputs “+” and “-” of the second stabilized voltage source 8 are interconnected through a variable resistor 9, the movable output of which is connected to the control input of the second stabilized voltage source 8, the “+” output of which through the keys 22 of the segments connected to the corresponding combined anodes of the LEDs 14 seven-segment indicators 12-13 different decimal places.

Consider the operation of the indicator (Fig. 1), operating in a dynamic display mode.

Multi-bit digital information in binary decimal code 8-4-2-1, for example, “456”, is supplied to the input terminals 15-16 of the indicator.

Using the decoder 18, the input information is sequentially converted from a binary-decimal code into a seven-segment code a-b-c-d-e-f-g in accordance with truth table 1 (see [2], p. 439, table 23.5).

The binary decimal seven-segment decoder 18 is produced in the form of integrated circuits (ICs) of type K514ID1 [4], has outputs with a closed collector and is designed to control seven-segment indicators on LEDs with a common cathode.

In the first cycle of the generator 12, the output code of the counter 13 is, for example, 000 (for n = 8). In this case, the control unit signal is present at the first output of the decoder 14, which is connected to the control input of the low-order key 8 - the key 8 is open in this clock cycle, in this case there is the possibility of current flowing from the outputs of the binary-decimal seven-segment decoder 18 through the segments of the seven-segment indicator 10 and key 8.

Since the counter code 13 is also attached to the control input of the switch 17, the binary-decimal code of the digit “6” appears on its output, which is attached to the first information input 15. At the output of the decoder 18, a seven-segment code also appears corresponding to the number “6”. This code opens those keys 19, to the control inputs of which a unit voltage is supplied from the output of the decoder 18. As a result, during the first clock cycle of the generator 12, the digit “6” is illuminated on the indicator 10 of the lowest decimal place.

In the next clock cycle of the generator 12, the output code of the counter 13 becomes 001; a control signal appears at the second output of the decoder 14; one of the keys 7-8 of the second category is opened; the second indicator lights up the number "5", etc.

To power the indicator circuit, a transformer 1 is used, which reduces the AC voltage of the 220 V network to the required level, a half-wave diode rectifier 2, which converts the alternating voltage to constant, a capacitor 3, smoothing the output voltage of the rectifier 2, and the first 4 and second 5 sources of stabilized voltage.

The first stabilized voltage source 4 delivers a constant nominal voltage (for the seven-segment code) to the seven-segment code to the power terminals of the clock generator 12, the binary counter 13, the decoder 14 from the binary code to the unitary, multi-channel switch 17 of the type “4n into 4” and the decoder 18 most integrated circuits are 5V).

Using a variable resistor 6, the level of the output voltage of the second stabilized voltage source 5 is established, which sets the required current through the LEDs of the seven-segment indicators 9-10, which ensures the most acceptable brightness of the LEDs 8.

The scheme of the proposed indicator allows you to power the seven-segment indicators 12-13, in which each segment is illuminated by more than one LED, as shown in FIG. 1, and several series-connected LEDs (see Fig. 2 and 3).

The advantage of the proposed indicator in comparison with analogues is its simplification, as well as a reduction in energy consumption by eliminating the limiting resistor from the indicator circuit. A particularly large effect is achieved when using the proposed indicator to power powerful seven-segment indicators.

Sources of information taken into account when drawing up the description of the application:

1. A.S. 318968 USSR, IPC G06K 15/18. Device for indication / Dolganov V.V., Kolomnin V.V. and Prizenko S.V. (THE USSR). - Declared. 03/26/70; Publ. 10/28/71, Bull. Number 32.

2. Titz U., Schenk K. Semiconductor circuitry: a reference guide. Per. with him .. - M: Mir, 1982.

3. Application of integrated circuits: a practical guide. In 2 kn. Prince 2. Trans. from English / Ed. A. Williams. - M .: Mir, 1987. - S. 208. - Fig. 10.37.

4. Jansen I. Digital Electronics Course: In 4 vols. T. 3. Complex ICs for data transmission devices. Per. with goll. - M .: Mir, 1987. - S. 27. - Fig. 1.11.

5. Tokheim R. Fundamentals of Digital Electronics: Per. from English - M .: Mir, 1988. - S. 128. - Fig. 5.12.

6. Nefedov A.V. Integrated circuits and their foreign analogues: Reference. In 12 t. T. 4. - M .: KubK-a, 1997. - S. 106-114.

7. Patent for utility model 81364 RF, IPC G09G 3/14, G09G 3/32. LED indicator (options) - No. 2008134655/22; declared 08/25/2008; publ. 03/10/2009, bull. Number 7.

Claims (1)

An LED indicator containing n (where n≥3 is the number of decimal places of a multi-bit indicator) of discharge keys, a decoder from binary code to a unitary, multi-channel 4n to 4 switch, n seven-segment indicators on LEDs with a common cathode connected via n keys to a common device bus, n × 4 information inputs, which are information inputs of a multi-channel 4n to 4 switch, the output of which is connected to the information input of a decoder from a binary-decimal code to a seven-segment code, in series connected clock and a binary counter, the output of which is connected to the combined control input of the multi-channel switch and the decoder from binary to unitary, n outputs of which are connected respectively to the control inputs of n keys, power outputs of the clock, binary counter, decoder from binary to unitary , a multichannel 4n-to-4 switch and a decoder from a binary-decimal code to a seven-segment code are combined and connected to the + output of the first source with voltage equalized voltage, the inputs “+” and “-” of which are connected through the first capacitor and are connected respectively to the terminals “+” and “-” of the first half-wave diode rectifier, the AC voltage terminals of which are connected through the first transformer to the mains, characterized in that he additionally introduced seven segment keys, a second transformer, a second half-wave diode rectifier, a second capacitor, a variable resistor and a second stabilized voltage source, the inputs “+” and “-” of which are dined through the second capacitor and connected respectively to the terminals “+” and “-” of the second half-wave diode rectifier, the alternating voltage terminals of which are connected to the mains through the second transformer, the outputs “+” and “-” of the second stabilized voltage source are interconnected via alternating a resistor whose movable output is connected to the control input of the second stabilized voltage source, the “+” output of which is connected via segment keys to the corresponding integrated LED anodes of iodine seven-segment indicators of various decimal places, the decoder outputs from the binary-decimal code to the seven-segment code are connected to the control inputs of the segment keys.

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