CN1426166A - Low voltage differential signal transmission device - Google Patents

Abstract

This invention relates to a low voltage differential signal transfer device including a signal device circuit for generating and outputting an analog image signal to a low voltage differential signal receiving device and a signal compensation circuit connecting to the said signal drive circuit and generate a feed back compensation signal to the said signal driving circuit with the said analog image signal and a primary standard signal to provide a stabilized said analog image signal to the said low voltage differential signal receiving device, reducing negative influence in signal variation of drive circuit.

Description

The Low Voltage Differential Signal conveyer

Technical field

The present invention relates to a kind of Low Voltage Differential Signal conveyer, refer to especially a kind ofly have, so that the Low Voltage Differential Signal of stablizing output function conveyer to be provided with the output signal feedback compensation.

Background technology

Get over universal along with the Internet, communication miscellaneous and transmission equipment also day by day are subjected to consumer's welcome, make the rapid increase of demand of transfer of data.In addition, numeral shows that video signal, high definition television and coloured image all need higher frequency range to support data streaming.System design engineer just must rely on analogue technique design circuit system and support transfer of data if want transferring large number of data.Low Voltage Differential Signal (Low Voltage Differential Signaling, be called for short LVDS) transmission technology is so a kind of analogue technique, and system design engineer can be utilized this art designs mixed-signal system.LVDS adopts the high speed analog circuit technology, and can guarantee that copper conductor can support the transfer of data of kilomegabit above (multi-gigabit).

Because LVDS is a kind of speed height, power is low and can reduce the universal interface standard of noise jamming, be suitable for high speed data transfer, therefore, with needs the digital image signal modulation is become the analog image signal, and the system configuration that is transferred to the digital display screen at high speed is example, promptly is the applications well target of LVDS transmission technology.

See also Fig. 1, it is the digital display system configuration example figure of an application LVDS transmission technology; In Fig. 1, include a basic computer 10 and and show main body 20 (for example, being a LCD display).Wherein, one image control chip 101 of these basic computer 10 inside is in order to export in the known Low Voltage Differential Signal conveyer 102 of a digital video signal S1 to, afterwards, modulating signal action by this known Low Voltage Differential Signal conveyer 102, with the analog image signal S10 that this digital video signal S1 modulation become to have the low signal amplitude of oscillation (low-swing) (for example, the low voltage signal amplitude of oscillation with 300mV～350mV), and, make this analog image signal S10 export a Low Voltage Differential Signal receiving system 201 places to by a known Low Voltage Differential Signal drive circuit 1021.

Because, input end in this Low Voltage Differential Signal receiving system 201 comprises that at least the resistance of two serial connections (please cooperates to consult among second figure in advance and indicates R1, R2 person, and for example, this two resistance R 1, R2 can be two 50 Ohmic resistances), therefore, this Low Voltage Differential Signal receiving system 201 can be in order to receive this analog image signal S10, and can carry out the action that modulation returns this digital image signal S1 to it, so that output is used for follow-up processing unit (comprising a sequential control device 202, a display drive apparatus 203 or the like at least).

For further disclosing this known Low Voltage Differential Signal drive circuit 1021 shown in Fig. 1, see also Fig. 2, it is the partial interior circuit structure exemplary plot in this known Low Voltage Differential Signal drive circuit 1021.In Fig. 2, transistor Q1～Q4 is in order to constituting one group of differential amplifier, as the main body that drives output, and produces this two resistance R 1, the R2 place of output this analog image signal S10 (voltage amplitude is Va) to this Low Voltage Differential Signal receiving system 201.As for transistor Q5 and transistor Q6, Q7, form first and second electric current respectively, and this first electric current is electrically connected between one power supply+Vcc and this group differential amplifier, and this second electric current then is electrically connected on this group differential amplifier (this transistor Q6, Q7 are electrically connected on parallel way) between an earth terminal; By this first and second electric current, can provide certain electric current I o to use to this group differential amplifier.In addition, transistor Q8 then can make this change in voltage of deciding electric current I o stable.

The shortcoming of the known Low Voltage Differential Signal conveyer 102 of this shown in Fig. 1,2 is: its inside is to overcome the output signal drift problem that is caused from the processing procedure factor in order to export this known Low Voltage Differential Signal drive circuit 1021 of this analog image signal S10.This transistor Q5 among Fig. 2 (being this first electric current) and this transistor Q6, Q7 (for this second electric current), in manufacture process, can cause physical characteristic inconsistent because of the processing procedure factor, and this will make and offer the electric current I o that this group differential amplifier (Q1～Q4 constitutes by this transistor) uses, can occur the signal drift and with the phenomenon of original design off-gauge.So this group differential amplifier is exported the signal swing of this analog image signal S10, also can depart from original scope of design thereupon, and cause the misoperation of follow-up this Low Voltage Differential Signal receiving system 201 linkedly.

Summary of the invention

Main purpose of the present invention be for provide a kind of overcome because of the processing procedure factor to avoid producing the Low Voltage Differential Signal conveyer of the output signal that is not inconsistent the original design specification.

Secondary objective of the present invention is output signal can be carried out feedback compensation in order to provide a kind of, to stablize the Low Voltage Differential Signal conveyer of this output signal.

Purpose of the present invention can realize by following measure:

The invention provides a kind of Low Voltage Differential Signal (LVDS) conveyer, comprise at least: a signal drive circuit, it is in order to produce in output one analog image signal to the Low Voltage Differential Signal receiving system; An and signal compensation circuit, be electrically connected on this signal drive circuit, this signal compensation circuit can be in response to this an analog image signal and a reference signal, to produce a feedback compensation signal to this signal drive circuit, so that this signal drive circuit provides a stable analog image signal to use to this Low Voltage Differential Signal receiving system.

According to the above-mentioned conception of the present invention, wherein this signal drive circuit can comprise that first and second electric current and a differential wave produce circuit.

According to the above-mentioned conception of the present invention, wherein this first electric current can be made of a transistor that is electrically connected between a power supply and this differential wave generation circuit.

According to the above-mentioned conception of the present invention, wherein this second electric current system can be made of two transistors that are electrically connected between an earth terminal and this differential wave generation circuit at least.

According to the above-mentioned conception of the present invention, wherein this differential wave generation circuit comprises four transistors at least.

According to the above-mentioned conception of the present invention, wherein this analog image signal has the low voltage signal amplitude of oscillation of 300mV～350mV.

According to the above-mentioned conception of the present invention, wherein this signal compensation circuit can comprise a voltage-current converter circuit (V/I converter) and first and second current mirroring circuit.

According to the above-mentioned conception of the present invention, wherein this voltage-current converter circuit can produce this feedback compensation signal of electric current pattern in response to the voltage difference between this analog image signal of being imported and this reference signal with conversion.

According to the above-mentioned conception of the present invention, wherein this first current mirroring circuit is electrically connected between this voltage-current converter circuit and the earth terminal, and the differential wave that this second current mirroring circuit is electrically connected in this first current mirroring circuit, a power supply and this signal drive circuit produces between the circuit.

According to the above-mentioned conception of the present invention, wherein this first and second current mirroring circuit is in order to be fed back to this feedback compensation signal in this signal drive circuit, the current signal variation that is produced with one first electric current that compensates in this signal drive circuit is so that this signal drive circuit provides a stable analog image signal.

According to the above-mentioned conception of the present invention, wherein this first and second current mirroring circuit all respectively comprises two transistors.

According to the above-mentioned conception of the present invention, wherein this signal compensation circuit also can comprise first and second shunt resistance, be electrically connected between this signal drive circuit and this voltage-current converter circuit, it is in order to input to this analog image signal shunting in this voltage-current converter circuit.

According to the above-mentioned conception of the present invention, wherein this reference signal can be by energy rank (Band-gap) the energy rank voltage signal that circuit produced.

According to the above-mentioned conception of the present invention, wherein comprise the resistance of two serial connections in this Low Voltage Differential Signal receiving system at least, and this two resistance is electrically connected on this signal drive circuit respectively, to receive this analog image signal.

The present invention also provides a kind of signal compensation circuit, it is located in Low Voltage Differential Signal (LVDS) conveyer that includes a signal drive circuit, this signal compensation circuit comprises: a signaling conversion circuit, it is can import a reference signal and receive the analog image signal that this signal drive circuit produces, and, produce a feedback compensation signal with conversion in response to signal difference between the two; An and current mirroring circuit, be electrically connected between this signaling conversion circuit and this signal drive circuit, this current mirroring circuit is in order to be fed back to this feedback compensation signal in this signal drive circuit, to compensate the signal variation that this signal drive circuit is produced, so that this signal drive circuit provides this stable analog image signal.

According to the above-mentioned conception of the present invention, wherein this signal drive circuit can comprise that first and second electric current and a differential wave produce circuit.

According to the above-mentioned conception of the present invention, wherein this first electric current can be made of a transistor that is electrically connected between a power supply and this differential wave generation circuit.

According to the above-mentioned conception of the present invention, wherein this second electric current can be made of two transistors that are electrically connected between an earth terminal and this differential wave generation circuit at least.

According to the above-mentioned conception of the present invention, wherein this differential wave generation circuit comprises four transistors at least.

According to the above-mentioned conception of the present invention, wherein this signaling conversion circuit can be a voltage-current converter circuit (V/I converter), and with in response to this signal difference that is the voltage pattern, and conversion produces this feedback compensation signal of electric current pattern.

According to the above-mentioned conception of the present invention, wherein this reference signal can by one can rank circuit produced one can the rank voltage signal.

According to the above-mentioned conception of the present invention, wherein this analog image signal has the low voltage signal amplitude of oscillation of 300mV～350mV.

According to the above-mentioned conception of the present invention, wherein this current mirroring circuit comprises first and second current mirroring circuit at least.

According to the above-mentioned conception of the present invention, wherein this first current mirroring circuit is electrically connected between this signaling conversion circuit and the earth terminal, and the differential wave that this second current mirroring circuit is electrically connected in this first current mirroring circuit, a power supply and this signal drive circuit produces between the circuit.

According to the above-mentioned conception of the present invention, wherein this first and second current mirroring circuit is in order to be fed back to this feedback compensation signal in this signal drive circuit, the current signal variation that is produced with one first electric current that compensates in this signal drive circuit is so that this signal drive circuit provides a stable analog image signal.

According to the above-mentioned conception of the present invention, wherein this first and second current mirroring circuit all respectively comprises two transistors.

According to the above-mentioned conception of the present invention, wherein this signal compensation circuit also can comprise first and second shunt resistance, be electrically connected between this signal drive circuit and this signaling conversion circuit, it is in order to input to this analog image signal shunting in this signaling conversion circuit.

According to the above-mentioned conception of the present invention, wherein this signal drive circuit can be electrically connected on a Low Voltage Differential Signal receiving system, so that this analog image signal is exported in this Low Voltage Differential Signal receiving system.

According to the above-mentioned conception of the present invention, wherein comprise the resistance of two serial connections in this Low Voltage Differential Signal receiving system at least, and this two resistance is electrically connected on this signal drive circuit respectively, to receive this analog image signal.

The present invention has following advantage compared to existing technology:

The present invention can reduce the negative effect that causes this signal drive circuit generation signal change because of the processing procedure factor, can import this accurate, stable analog image signal to guarantee this Low Voltage Differential Signal receiving system.

Description of drawings

Fig. 1 is the digital display system architecture diagram of a known application LVDS transmission technology.

Fig. 2 is the partial interior electrical block diagram in the known Low Voltage Differential Signal drive circuit.

Fig. 3 is a preferred embodiment figure of Low Voltage Differential Signal conveyer of the present invention.

Fig. 4 is the Low Voltage Differential Signal drive circuit in the Low Voltage Differential Signal conveyer of the present invention and the partial interior electrical block diagram of current signal compensating circuit.

Fig. 5 can rank circuit inner structure schematic diagram for producing one of reference signal among the present invention.

Embodiment

For further disclosing the present invention, see also Fig. 3, it is a preferred embodiment figure of Low Voltage Differential Signal conveyer among the present invention; Certainly, also please cooperate in the lump and consult that shown in Figure 1.

This image control chip 101 shown in Fig. 3 in this basic computer 10, this demonstration main body 20 and digital image signal S1, analog image signal S10, its function, structure do not repeat them here all as shown in Figure 1.In addition, the Low Voltage Differential Signal conveyer 103 that this basic computer 10 is had, its inside also is provided with the Low Voltage Differential Signal drive circuit 1031 with these known Low Voltage Differential Signal drive circuit 1021 tool identical functions, structure.

Fig. 3 and Fig. 1 different be in: the output at this Low Voltage Differential Signal drive circuit 1031 also is electrically connected with a current signal compensating circuit 1032.By this current signal compensating circuit 1032, the output signal (being this analog image signal S10 among Fig. 1) of this Low Voltage Differential Signal drive circuit 1031 can be compared with a reference signal VBG who fixes, to incite somebody to action signal difference between the two, fed back to this Low Voltage Differential Signal drive circuit 1031, thus, can improve the signal drift phenomenon that causes the physical characteristic of assembly in this Low Voltage Differential Signal drive circuit 1031 to change and caused because of the processing procedure factor.

See also Fig. 4 again, be the partial interior electrical block diagram of the Low Voltage Differential Signal drive circuit in this Low Voltage Differential Signal conveyer 103 of the present invention 1031 with this current signal compensating circuit 1032.

In Fig. 4, partial interior circuit structure because of this Low Voltage Differential Signal drive circuit 1031, with and this analog image signal S10 is exported to the electrical connection of this Low Voltage Differential Signal receiving system 201, with this known Low Voltage Differential Signal drive circuit 1021 shown in Figure 2 and identical, do not repeat them here with the electrical connection of 201 of this Low Voltage Differential Signal receiving systems.As for, 1032 of this current signal compensating circuits comprise: first and second shunt resistance R3, R4, a voltage-current converter circuit (V/I converter) 10321 and 1 first current mirroring circuit (being formed) by transistor Q12, Q13, with one second current mirroring circuit (being formed) by transistor Q14, Q15; Wherein, this first and second shunt resistance R3, R4 are electrically connected on respectively between this Low Voltage Differential Signal drive circuit 1031 and this voltage-current converter circuit 10321, it inputs in this voltage-current converter circuit 10321 in order to will originally export this analog image signal S10 in this Low Voltage Differential Signal receiving system 201 to, and to be shunted.As for this voltage-current converter circuit 10321, then constituted by transistor Q9～Q11, this voltage-current converter circuit 10321 can produce the feedback compensation signal Io1 of electric current pattern in response to the voltage difference between this analog image signal S10 that is imported and this reference signal VBG with conversion.

And then, by transistor Q12, this first current mirroring circuit that Q13 formed, because of it is electrically connected between this voltage-current converter circuit 10321 and the earth terminal, and by transistor Q14, this second current mirroring circuit that Q15 formed, be electrically connected on this first current mirroring circuit, this power Vcc+and this Low Voltage Differential Signal drive circuit 1031 in this group differential amplifier (being formed) by this transistor Q1～Q4 between, therefore, this first and second current mirroring circuit can be fed back to this feedback compensation signal Io1 in this low-voltage difference signal drive circuit 1031, the current signal variation that is produced with this first electric current (i.e. this transistor Q5) that compensates in this Low Voltage Differential Signal drive circuit 1031, so that a fixing electric current I 1 to be provided, so that this Low Voltage Differential Signal drive circuit 1031 produces a stable analog image signal S10.

For example, when this transistor Q5 because of the processing procedure factor cause its output that produces should decide magnitude of current of electric current I o when being high than the original design value, by this first and second shunt resistance R3, R4 and shunt the signal strength signal intensity that inputs to these voltage-current converter circuit 10321 places, obviously also can increase thereupon, so can keep a fixed value all the time because of this reference signal VBG, therefore, voltage difference between this analog image signal S10 and this reference signal VBG promptly can reduce, and thereby changes this feedback compensation signal Io1 that produces the output current pattern by this voltage-current converter circuit 10321 and also can reduce thereupon.So, via the mirror effect of this first and second current mirroring circuit,, electric current equally also can occur and reduce phenomenon afterwards at this transistor Q15 place.Thus, though should decide the magnitude of current of electric current I o raises, so the magnitude of current because of this feedback compensation signal Io1 but is oppositely to reduce the magnitude of current, so, decide this electric current I 1 that electric current I o and this feedback compensation signal Io1 formed by this and still can keep a fixed value, this will make the input this electric current I 1 this group differential amplifier (being formed) by this transistor Q1～Q4, all the time can produce this analog image signal S10 of the fixed signal amplitude of oscillation, to avoid changing the original design scope of this analog image signal S10 because of the processing procedure factor.

Certainly, employed this reference signal VBG among the present invention can be the energy rank voltage signal that circuit produced by energy rank (Band-gap); Though the internal circuit configuration of this energy rank circuit is a known technology, right in further disclosing enforcement notion of the present invention, now be a simple declaration with its internal circuit structure with Fig. 5: wherein, by the voltage difference between transistor QA shown in Figure 5, both base-emitter voltages of QB, can produce an electric current I at the resistance R place and form a magnitude of voltage, and can produce this reference signal of output VBG at transistor Qc place by voltage comparator C.

By way of the present invention, can one simply, mode cheaply, make stable output signal that the Low Voltage Differential Signal conveyer produces in the original design scope and can not change along with the processing procedure factor.

Claims (10)

1, a kind of Low Voltage Differential Signal conveyer comprises at least:

One signal drive circuit, it is in order to produce in output one analog image signal to the Low Voltage Differential Signal receiving system; And

One signal compensation circuit, be electrically connected on this signal drive circuit, this signal compensation circuit can be in response to this an analog image signal and a reference signal, to produce a feedback compensation signal to this signal drive circuit, so that this signal drive circuit provides a stable analog image signal to use to this Low Voltage Differential Signal receiving system.

2, Low Voltage Differential Signal conveyer as claimed in claim 1 is characterized in that this signal drive circuit can comprise that first and second electric current and a differential wave produce circuit.

3, Low Voltage Differential Signal conveyer as claimed in claim 1 is characterized in that this signal compensation circuit can comprise a voltage-current converter circuit and first and second current mirroring circuit; Wherein this voltage-current converter circuit can produce the feedback compensation signal of electric current pattern in response to the voltage difference between this analog image signal of being imported and this reference signal with conversion; This first current mirroring circuit then is electrically connected between this voltage-current converter circuit and the earth terminal, and the differential wave that this second current mirroring circuit is electrically connected in this first current mirroring circuit, a power supply and this signal drive circuit produces between the circuit; Again, this first and second current mirroring circuit is in order to be fed back to this feedback compensation signal in this signal drive circuit, the current signal variation that is produced with one first electric current that compensates in this signal drive circuit is so that this signal drive circuit provides a stable analog image signal.

4, Low Voltage Differential Signal conveyer as claimed in claim 3, it is characterized in that this signal compensation circuit also can comprise first and second shunt resistance, be electrically connected between this signal drive circuit and this voltage-current converter circuit, it is in order to input to this analog image signal shunting in this voltage-current converter circuit.

5, Low Voltage Differential Signal conveyer as claimed in claim 1 is characterized in that this reference signal is the energy rank voltage signal that an energy rank circuit is produced.

6, a kind of signal compensation circuit, it is located in the Low Voltage Differential Signal conveyer that includes a signal drive circuit, and this signal compensation circuit comprises:

One signaling conversion circuit, it can be imported a reference signal and receive the analog image signal that this signal drive circuit produces, and in response between the two signal difference, produces a feedback compensation signal with conversion; And

One current mirroring circuit, be electrically connected between this signaling conversion circuit and this signal drive circuit, this current mirroring circuit is in order to be fed back to this feedback compensation signal in this signal drive circuit, to compensate the signal variation that this signal drive circuit is produced, so that this signal drive circuit provides a stable analog image signal.

7, signal compensation circuit as claimed in claim 6 is characterized in that this signal drive circuit comprises that first and second electric current and a differential wave produce circuit.

8, signal compensation circuit as claimed in claim 6 is characterized in that this signaling conversion circuit is a voltage-current converter circuit, and with in response to this signal difference that is the voltage pattern, and conversion produces the feedback compensation signal of electric current pattern; And the energy rank voltage signal of this reference signal for being produced by an energy rank circuit.

9, signal compensation circuit as claimed in claim 6 is characterized in that this current mirroring circuit comprises first and second current mirroring circuit at least; Wherein this first current mirroring circuit is electrically connected between this signaling conversion circuit and the earth terminal, and the differential wave that this second current mirroring circuit is electrically connected in this first current mirroring circuit, a power supply and this signal drive circuit produces between the circuit; Again, this first and second current mirroring circuit is in order to be fed back to this feedback compensation signal in this signal drive circuit, the current signal variation that is produced with one first electric current that compensates in this signal drive circuit is so that this signal drive circuit provides a stable analog image signal.

10, signal compensation circuit as claimed in claim 6, its feature also can comprise first and second shunt resistance in this signal compensation circuit, be electrically connected between this signal drive circuit and this signaling conversion circuit, it is in order to input to this analog image signal shunting in this signaling conversion circuit.

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