KR19990061867A - LED drive device - Google Patents

Abstract

The present invention relates to a light emitting diode driving device. In particular, when the CPU drives a light emitting diode that emits light of various colors and recognizes the driving state of the light emitting diode, the light emitting diode is driven simultaneously with a simple circuit configuration. A light emitting diode driving apparatus for recognizing an operating state of the present invention.

In the conventional LED driving apparatus, when the CPU checks the driving state of the two-color LED by the external device, the register of the external device must be read through the address bus and the data bus, and the CPU drives the two-color LED. Since a separate light emitting diode controller has to be provided, there is a problem in that the circuit configuration becomes complicated and economic efficiency is lowered.

According to the present invention, when the CPU drives a light emitting diode generating light of various colors and recognizes the driving state of the corresponding light emitting diode, the driving efficiency of the light emitting diode is recognized simultaneously with driving the light emitting diode with a simple circuit configuration. Will be improved.

Description

LED drive device

The present invention relates to a light emitting diode driving device. In particular, when the CPU drives a light emitting diode that emits light of various colors and recognizes the driving state of the light emitting diode, the light emitting diode is driven simultaneously with a simple circuit configuration. A light emitting diode driving apparatus for recognizing an operating state of the present invention.

In general, a network management system for managing a communication network is provided with a plurality of light emitting diodes for displaying the operating state of the system visually, and drives the state of the system by driving a corresponding light emitting diode according to the operating state of the system. If necessary, the system recognizes the operation state of the corresponding light emitting diode as required by the system and informs the system.

A conventional LED driving device that performs such a function includes a CPU 1, an external device 2, an address decoder 3, a light emitting diode controller 4, and a two-color light emitting diode (LED1) as shown in FIG. ) Is made. The two-color light emitting diode LED1 generates two colors of light, one color of light being generated by the control of the external device 2 and the other color of light being controlled by the LED controller 4. Is caused by. That is, one pin of the two-color LED (LED1) is connected to the external device (2), the other pin is connected to the light emitting diode controller (4) operated by the address bus (A-BUS) of the CPU (1) have. Therefore, when the system requests the CPU 1 for the state of the two-color light emitting diode LED1 currently being driven by the external device 2, the CPU 1 has an address bus connected to the external device 2; The internal register of the external device 2 is read using A-BUS and D-BUS and the value is reported to the system.

In addition, when the CPU 1 drives one of the remaining colors of the two-color light emitting diode LED1, the CPU 1 outputs a specific address to the address decoder 3 side, and the address decoder 3 outputs the address. By decoding the LEDs, the LED controller 4 is operated to output a driving signal, thereby operating the two-color LEDs LED1.

The conventional LED driving apparatus as described above has an address bus A-BUS and a data bus D-BUS when the CPU 1 checks the driving state of the two-color light emitting diode LED1 by the external device 2. Since the register of the external device 2 must be read and the CPU 1 must have a separate light emitting diode controller 4 in driving the two-color light emitting diode LED1, the circuit configuration becomes complicated and economical. There is a problem of deterioration.

The present invention has been made to solve the above-described problems, and when the CPU is driving a light emitting diode that generates light of various colors, the light emitting diode is driven with a simple circuit configuration. In addition, an object of the present invention is to provide a light emitting diode driving apparatus for improving economic efficiency by recognizing an operating state of a light emitting diode.

In order to achieve the above object, a feature of the present invention is a light emitting diode driving apparatus, which recognizes an operating state of a two-color light emitting diode and outputs an address through an address bus and drives a data bus to drive the two-color light emitting diode. A CPU for inputting and outputting a signal through the CPU; An address decoder for decoding an address applied from the CPU to generate an output enable signal; According to the output enable signal applied from the address decoder, the signal input and output between the first and second connection pins and the data bus of the two-color light emitting diode is switched to output a signal from the CPU to the first connection pin side. And a bidirectional buffer for driving a two-color light emitting diode or applying a signal on the second connection pin side to the CPU side to recognize the operating state of the two-color light emitting diode.

The bidirectional buffer may include: a first inverter for inverting an output enable signal applied from an address decoder; A second inverter for inverting the output enable signal applied from the first inverter; A first tri-state switching operation according to an output enable signal applied from the first inverter to a control terminal to apply a signal applied from a second connection pin of the two-color LED to the CPU side through the data bus; A buffer; A second tri-state buffer for switching according to an output enable signal applied from the second inverter to a control terminal to apply a signal applied from the CPU through a data bus to the first connection pin of the two-color LED; Equipped.

1 is a block diagram of a conventional LED driving apparatus.

2 is a block diagram of a light emitting diode driving apparatus according to the present invention;

3 is a block diagram of a bidirectional buffer shown in FIG.

Fig. 4 is an operation state diagram of the address decoder shown in Fig. 2;

Explanation of symbols on the main parts of the drawings

11: CPU 12: external device

13: address decoder 14: bidirectional buffer

LED2: Two-color light emitting diodes IN1, IN2: Inverter

B1, B2: tri-state buffer

As shown in FIG. 2, the LED driving apparatus according to the present invention includes a CPU 11, an external device 12, an address decoder 13, a bidirectional buffer 14, and a two-color LED (LED2). Lose. That is, in the LED driving apparatus according to the present invention, when the CPU 11 recognizes a state of the state of the two-color LEDs driven by the external device 12, the data bus does not pass through the external device 12. When the CPU 11 drives the two-color light emitting diode (LED2) through the D-BUS, the two colors are provided through the address decoder 13 and the bidirectional buffer 14 without having a separate light emitting diode controller. It is configured to control the light emitting diode LED2.

Meanwhile, as shown in FIG. 3, the bidirectional buffer 14 includes a plurality of inverters IN1 and IN2 and a plurality of three-state buffers B1 and B3. Here, the inverter IN1 inverts the output enable signal / OE applied from the address decoder 13 to the input terminal of the inverter IN2 and simultaneously to the control terminal of the three-state buffer B2. The inverter IN2 inverts the output enable signal applied from the inverter IN1 and applies it to the control terminal of the three-state buffer B1 side. The tri-state buffer B2 switches in accordance with the output enable signal applied from the inverter IN1 to the control terminal, and transmits a signal applied from the connection pin / G of the two-color light emitting diode LED2 to the data bus D-. It is applied to the CPU 11 side through some data line D0 of the BUS, and the three-state buffer B1 is switched in accordance with the output enable signal applied from the inverter IN2 to the control terminal. Is applied to the connection pin (/ R) side of the two-color LED (LED2) from the data line (D0) of the data bus (D-BUS). In addition, when the output enable signal / OE applied from the address decoder 13 is applied at a low level, the tri-state buffer B2 is turned on to the connection pin / G of the two-color light emitting diode LED2. The tri-state buffer B1 is applied when the signal from is applied to the CPU 11 side through the data line D0 and the output enable signal / OE applied from the address decoder 13 is applied at a high level. Is applied, and a signal applied from the data line D0 is applied to the connection pin / R side of the two-color light emitting diode LED2.

In addition, the address decoder 13 decodes an address applied from the CPU 11 to generate an output enable signal / OE, which operates in a state as shown in FIG. That is, the address decoder 13 is located in the idle state ST1 by a power reset or a software reset, and in this state, an address relating to the operation state recognition or driving of the two-color light emitting diode LED2 is assigned to the address bus A-BUS. When input via S, it enters the address decode state ST2, automatically switches to the buffer output state ST3, and outputs an output enable signal / OE to the bidirectional buffer 14 side.

The LED driving apparatus of the present invention configured as described above operates as follows.

The two-color light emitting diode (LED2) generates light of two colors, one color of light is generated by the control of the external device 12, the other color of light is generated by the control of the CPU 11 .

In the state in which the two-color light emitting diode LED2 is emitting light under the control of the external device 12, a message for requesting the light emission state according to the control of the external device 12 is applied from the system to the CPU 11 so that the CPU 11 In the case of confirming the state, the CPU 11 outputs a predetermined address to the address decoder 13 side via the address bus A-BUS, and the address decoder 13 decodes and generates the address. The low level output enable signal / OE is output to the bidirectional buffer 14 side. At this time, the tri-state buffer B2 of the bidirectional buffer 14 is turned on, and the tri-state buffer B1 is closed, so that a signal applied from the connection pin / G of the two-color light emitting diode LED2 is applied to the data bus D-. By applying to the CPU 11 side through some data line D0 in the BUS, the CPU 11 recognizes the operating state of the two-color light emitting diode LED2 under the control of the external device 12 and reports it to the system. do.

In addition, when the CPU 11 controls the generation of light of different colors by controlling the two-color LEDs (LED2), the CPU 11 has a different address than when recognizing the operating state of the two-color LEDs (LED2). At the same time as the address decoder 13, data for controlling the two-color light-emitting diode LED2 is output to the bidirectional buffer 14 side. At this time, the address decoder 13 outputs the high level output enable signal / OE generated by decoding the corresponding address to the bidirectional buffer 14 side, and accordingly, the tri-state buffer B1 of the bidirectional buffer 14. Is turned on, the tri-state buffer B2 is closed, and the CPU 11 outputs a signal applied from the CPU 11 through the data line D0 to the connection pin (/ R) side of the two-color light emitting diode LED2. Drives the two-color light-emitting diode LED2.

As described above, in the LED driving apparatus according to the present invention, when the CPU 11 recognizes a state of the state of the two-color LEDs driven by the external device 12, the CPU 11 does not go through the external device 12. Recognizing through the data bus (D-BUS), when the CPU 11 drives the two-color LED (LED2) through the address decoder 13 and the bidirectional buffer 14 without having a separate light emitting diode controller By controlling the two-color LEDs (LED2), the hardware information can be easily recognized in the system, and the circuit configuration is simplified by performing operation state recognition and LED control through the same bus.

As described above, in the present invention, when the CPU recognizes the driving state of the LED while driving the LED which generates light of various colors, the LED is driven by a simple circuit configuration and the operating state of the LED Recognizing this improves economics.

Claims (2)

In the light emitting diode drive device, A CPU for recognizing an operation state of the two-color light emitting diode and outputting an address through an address bus and inputting and outputting a signal through a data bus to drive the two-color light emitting diode; An address decoder for decoding an address applied from the CPU to generate an output enable signal; According to the output enable signal applied from the address decoder, the signal input and output between the first and second connection pins and the data bus of the two-color light emitting diode is switched to output a signal from the CPU to the first connection pin side. And a bidirectional buffer for driving a two-color light emitting diode or applying a signal on the second connection pin side to the CPU side to recognize the operating state of the two-color light emitting diode to the CPU. The method of claim 1, The bidirectional buffer includes a first inverter for inverting an output enable signal applied from an address decoder; A second inverter for inverting the output enable signal applied from the first inverter; A first tri-state switching operation according to an output enable signal applied from the first inverter to a control terminal to apply a signal applied from a second connection pin of the two-color LED to the CPU side through the data bus; A buffer; A second tri-state buffer for switching according to an output enable signal applied from the second inverter to a control terminal to apply a signal applied from the CPU through a data bus to the first connection pin of the two-color LED; A light emitting diode driving apparatus comprising: