KR970003068A - Automatic Gain Control System Using Fusing System - Google Patents

Abstract

The present invention relates to an automatic gain control system using a fusing system for adjusting the gain of the automatic gain control circuit using a fusing system.

Find the input data with the optimum gain of the automatic gain control circuit according to the serial input data in the adjustment mode, and apply the input data with the optimum gain in the fusing mode to determine the fusing of the fusing elements. According to the determined fusing result signals, the automatic gain control circuit always has an optimum gain.

Description

Automatic Gain Control System Using Fusing System

Since this is an open matter, no full text was included.

1 is a block diagram of an automatic gain control system using a fusing system of the present invention, FIG. 2 is a block diagram of a logic adjustment circuit of an automatic gain control system using a fusing system of the present invention, and FIG. Block diagram of the fusing circuit diagram, Figure 3 (b) is a detailed view of the fusing circuit 1 of the fusing circuit diagram.

Claims (15)

An amplifier and an input stage, an output stage, and a control stage for outputting an automatic gain control signal according to the input difference between two input stages, and the image signal applied to the input terminal in accordance with the automatic gain control signal applied to the control stage An automatic gain control circuit comprising a voltage-controlled amplifier for amplifying, which has a plurality of fusing elements that melt when a constant current flows, and determines whether to fuse the plurality of fusing elements according to input data, A fusing system for outputting a plurality of switching control signals having a high logic value unless the fuse has a logic value; And a voltage value variable stage for outputting a voltage that varies as the magnitude of the current changes according to the switching signals to control the input difference of the amplifier. The plurality of switching control signals according to claim 1, wherein the fusing system receives a serial data signal, a clock signal, and a set signal composed of an address and data, and when the set signal is high, the plurality of switching control signals according to the data of the serial data signal. Finds the optimum data for outputting the automatic gain control signal which is optimal by outputting the same, and outputs a plurality of fusing selection signals for determining whether the fusing element is fused using the optimal data as the serial data signal. Logic adjusting means for outputting the fusing result of the fusing elements to the switching control signals when the set signal of the signal is low; And a fusing circuit for outputting, to the logic adjusting means, a fusing result signal in which a plurality of fusing elements are determined according to the plurality of fusing selection signals when the set signal is high. Automatic gain control system using the system. The fusing system of claim 2, wherein the fusing system removes the noise or raises the low voltage level to a high voltage level when external input signals have noise or a low voltage level and cannot drive the logic adjusting means. An automatic gain control system using a fusing system, characterized by further comprising an adjustment mode interface means. 3. The apparatus of claim 2, wherein the logic adjusting means comprises: data storage means for receiving serial data signals sequentially input in accordance with the clock signal and outputting them in parallel; Address decoder means for receiving an address stored in said data storage means and outputting an adjustment mode enable signal and a fusing mode enable signal; First latch means which is enabled when the adjustment mode enable signal and the fusing mode enable signal are activated to receive and latch data stored in the data storage means; It is enabled when the fusing mode enable signal is activated, receives and stores the data stored in the first latch means, outputs the fusing select signals, and all high logic values when the fusing mode enable signal is deactivated. Second latch means for outputting a fusing selection signal having a second power supply; And selecting the data stored in the first latch means when the set signal is high and the enable mode enable signal is activated, and selecting the fusing result signals when the set signal is low. Automatic gain control system using a fusing system, characterized in that it comprises a data selection means for outputting them. 3. The fusing circuit of claim 2, wherein the fusing circuit is configured to fuse the fusing elements when the set signal is high and the fusing select signals are high while the set signal is high and the fusing select signals are low. Fusing enable means for fusing the elements; And a comparator for outputting fusing result signals having a low logic value if the fusing element is fused when the set signal is low and having a high logic value if the fusing element is not fused. Gain control system. 2. The apparatus of claim 1, wherein the voltage variable stage comprises: current changing means for changing a magnitude of current according to the switching control signals; And current-voltage converting means for outputting a voltage which is variable according to the current change. The method of claim 6, wherein the current change means is a plurality of current sources connected to the power supply terminal for flowing a constant current; and when the switching control signal is low when the switching control signal is connected to the current sources when the high Automatic gain control system using a fusing system, characterized in that provided with a plurality of switching means to be off. 8. The switching circuit according to claim 7, wherein the switching means are formed of PMOS transistors, the gates of the PMOS transistors are connected to the switching control signals, and the source of PMOS transistors is connected to each of the current sources. Automatic gain control system using a fusing system, characterized in that the drain of the morph transistors are all connected in common. The method of claim 6, wherein the current-voltage converting means is composed of first and second bipolar transistors and is equal to the current flowing through the first bipolar transistor or a predetermined ratio of the current flowing through the first bipolar transistor to the second bipolar transistor. A first mirror circuit for flowing; It is composed of the first and second PMOS transistors and the first resistor so that a current, such as a current flowing through the first PMOS transistor, flows in the second PMOS transistor, and the voltage is changed according to the current flowing through the second PMOS transistor. An output second mirror circuit; And a current source for supplying current to the second mirror circuit. 10. The fusing system of claim 9, wherein the current-voltage converting means further comprises a voltage shifter such that the output voltage of the second mirror circuit has a voltage greater than the first bias voltage applied from the outside. Automatic gain control system. 10. The method of claim 9, wherein the base and the collector of the first bipolar transistor are connected to the output of the current changing means and the base of the second bipolar transistor is connected to the base of the first bipolar transistor. The emitter of the first bipolar transistor is connected to one terminal of the second resistor, the emitter of the second bipolar transistor is connected to one terminal of the third resistor, and the other terminal of the second and third resistors is connected to the ground terminal. The collector of the second bipolar transistor is an automatic gain control system using a fusing system, characterized in that connected to the first current source. The method of claim 9, wherein the source of the first and second PMOS transistors is connected to a power supply and the gate and the drain of the first PMOS transistor are connected to the gate of the second PMOS transistor. The drain of the second PMOS transistor is connected to one terminal of the first resistor, automatic gain control system using a fusing system. 11. The method of claim 10, wherein the voltage shifter is composed of a third, fourth bipolar transistor, wherein the base of the third bipolar transistor is the first bias voltage is applied and the collector drain of the first PMOS transistor The base and the collector of the fourth bipolar transistor are connected to the other terminal of the first resistor, and the emitters of the third and fourth bipolar transistors are connected in common and connected to the current source. Automatic gain control system using fusing system. It has an amplifier and an input stage, an output stage and a control stage for outputting the automatic gain control signal according to the input difference between the two input stages, and the image signal applied to the input stage according to the automatic gain control signal applied to the control stage. An automatic gain control circuit comprising a voltage-controlled amplifier for amplifying, wherein the gain of the voltage-controlled amplifier is adjusted by varying the magnitude of the current according to the serial data signal and adjusting the input difference of the amplifier by a voltage that varies according to the change. Adjustment mode means for searching for optimal input data to make this optimal; Fusing that has a plurality of fusing elements that melt when a certain current flows and the fusing elements are fused when the optimum input data is low and the fusing elements are not fused when high. Mode means; And normal mode means for always optimizing the gain of the voltage control amplifier according to fixed signals having a low logic value when the fusing element is fused by the fusing mode means and a high logic value when the fusing element is not fused. Automatic gain control system using a fusing system characterized by one feature. 15. The apparatus of claim 14, wherein the adjustment mode means comprises: data storage means for receiving serial data signals and outputting them in parallel; when the set signal is high when the set signal is received, the data stored in the data storage means is selected accordingly; Data selecting means for outputting changed first switching control signals; And a voltage variable stage configured to change the input difference of the amplifier by outputting a voltage that changes in magnitude and accordingly according to the first switching control signals. Gain control system. ※ Note: The disclosure is based on the initial application.