JPS5966221A - Digital-analog converter - Google Patents

Abstract

PURPOSE:To convert a digital signal into an analog data without DC components by extracting a low frequency signal component of the analog data of a level shift circuit with a low frequency filter circuit and controlling the amount of shift based on the level amount of the component. CONSTITUTION:The low frequency filter circuit 18 extracts a frequency signal component of <=20Hz from the analog data outputted from a level shift circuit 14, compares the level of the extracted frequency signal with a ground potential (0 level) and outputs a signal having a level corresponding to the difference. Then, the level shift circuit 14 compares a signal level outputted from the low frequency filter circuit 18 with the level of the analog data outputted from a buffer circuit 13 so as to shift the level, resulting that the difference becomes zero, i.e., the DC component of the analog data is eliminated.

Description

DETAILED DESCRIPTION OF THE INVENTION TECHNICAL FIELD OF THE INVENTION This study relates to improvements to digital-to-analog converters. .

[Technical background of the invention and its problems].

As is well known, a digital-to-analog converter (hereinafter referred to as a DA converter) that converts digital data to analog data can convert L-era digital data to either the positive or negative side, Q@, pressure level! There is a first type that converts into analog data that has 0 potential, and a second type that converts into analog data that swings in positive and negative direction. By the way, kg's first type, DAg
When a converter is used, the data k1. ．． To:,! Similar to the type of self-injection 2, the O' magnetic potential is set to medium 71:, s, so that both positive and negative pressures can swing at the same time, that is, it changes to a state where there is no DC component! There is a need to.

In this case, conventionally, a condenser is used to cut the DC component of the analog data and extract only the AC component, but this has the disadvantage that the amount of analog data increases at a constant rate. Therefore, as another means, by adding a DC voltage of the opposite polarity to the DC excitation component contained in the analog data output from the conventional DAg converter,...
vinegar? Good data! The DC component is shifted electrically in the S direction. □Figure 1 shows a conventional digital-to-analog replacement device using such means. That is, the digital data supplied to the input terminal 11 is converted into analog data containing a DC component by the DA converter 12.This analog data is sent to the buffer circuit tarJ,s, and then to the level shift circuit. is supplied to one input end of 14.
The level shift circuit 1514 was connected to the other input terminal. constant, voltage, @ current voltage output from source 15 (
Based on the DC voltage distribution of the L-era analog data (having a polarity opposite to that of the DC voltage), one batch of analog data is level-shifted in a direction in which the DC component disappears and output. The analog data outputted from the level shift circuit 14 is subjected to, for example, audible frequency band components extracted by a filter circuit 16 and subjected to well-known TV reproduction processing via an output terminal 17.

However, in the conventional digital switching device as shown in FIG.
4: There is a problem in that DC components are superimposed on the analog data output from the converter, causing distortion. Therefore, constant voltage source 1
As for No. 5, extremely high stability is required, which is disadvantageous both economically and economically.

[Purpose of the invention]

The present invention has been made in consideration of the above circumstances, and an object of the present invention is to provide an extremely good digital-to-analog converter that can convert data into analog data free of DC components with an easy-to-use configuration.

[Summary of the invention]

In other words, the present invention uses a low frequency gold wave circuit to detect low frequency signal components of analog data output from a level shift circuit. Extract this □ low frequency control component t
The signal is fed back to the level shift circuit, and the shift amount of the level shift circuit is controlled based on the level of the low frequency signal component. - [Embodiment of the Invention] Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. In FIG. 2, the same parts as in FIG. 1 are indicated by the same symbols, and only the different parts will be explained here. That is, the output signal of the first level shift circuit 14 is returned to the other input terminal of the level shift circuit J4 via a low frequency wave circuit 18 that cuts frequency components of, for example, 0 (Hz) or higher. The difference from the conventional method is that it allows users to □Here□
, the low frequency 4=wave circuit 18 selects 20 [ of the analog data output from the level shift circuit 14 ].
Hz] and below, and compares the level of the extracted frequency signal with the ground potential (0 level) and outputs a number according to the difference.

Then, the level shift l-14 changes the level of the signal output from the low frequency -&= wave circuit 18 and the buffer circuit 13.
The level of the analog data output from the converter is compared with the level of the analog data outputted from the converter, and the level of the analog data is shifted so that the difference becomes O, that is, the level of the analog data is shifted in the direction in which the DC component disappears. .

The third part is k, the buffer circuit 13. This is a concrete illustration of the level shift circuit 14 and the low frequency -t=wave circuit 18. That is, the buffer circuit 13 and the level shift circuit 14 each have a differential circuit configuration, and especially the low frequency +v circuit 1.
8 is connected by resistor R and capacitor C to 20. (Hz) and below t frequency signal components/min': All are cut.

Therefore, according to the #configuration as in the above embodiment, there is no need to use a highly stable constant voltage source 15 as in the past, and it is possible to convert into good analog data without DC components with a simple configuration. can.

Further, the cutoff frequency of the low frequency/wavelength circuit 18 is 20 (
Hz), any value close to the lowest frequency of the audio band is sufficient.

It should be noted that the present invention is not limited to the basics and examples thereof, and can be implemented with various modifications without departing from the gist thereof.

〔Effect of the invention〕

Therefore, as described in detail below, according to the present invention, it is possible to provide an extremely good digital-to-analog summer conversion device that can convert data into analog data without a DC component using a simple groove bottom.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a conventional digital-analog converter, FIG. 2 is a block diagram showing an embodiment of the digital-analog converter according to the present invention, and FIG. 3 is a block diagram showing the same embodiment. FIG. 1 is a schematic diagram of a concrete block circuit structure. 11...Input terminal, 12...DA converter, 13...
・Buffer circuit, 14...Level shift circuit, 15・
...Constant liquid pressure source, 16...Filter circuit, 17...
Deba terminal, 1B...Low frequency multiplexing circuit.

Claims (1)

[Claims] Converting digital data to analog data having either a positive or negative level 11) Level shifting the output of the A converter and this DA converter so that it has both positive and negative levels centered on the O level A digital-to-analog conversion device that is similar to a level shift circuit, further comprising a low frequency filter circuit that extracts a low frequency signal component from the output signal of the level shift circuit and feeds it back to the level shift circuit. A digital-to-analog conversion device, characterized in that the level shift circuit controls the shift tt based on the level of the low frequency signal/signal component outputted from the device.