KR100908041B1 - Signal generator of wired and wireless communication system - Google Patents

Abstract

The present invention relates to a signal generator of a wired / wireless communication system. In order to miniaturize a voltage controlled oscillator (VCO) that generates quadrature (I / Q) signals, the present invention implements an area using a voltage controlled oscillator and a frequency divider. In order to reduce the number of inductors that occupy a large portion of the circuit, it can be miniaturized, and in order to enable low power, a voltage-coded oscillator and a frequency divider are connected in a cascode type, so that the current used in the voltage-controlled oscillator By being reused in the frequency divider, the total current consumption can be reduced to lower power.

Signal Generator, Voltage Controlled Oscillator, VCO, Frequency Divider, Cascode

Description

Signal generator of wired and wireless communication system {SIGNAL OSCILLATING APPARATUS IN WIRED / WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a signal generator of a wired and wireless communication system, and more particularly, to a signal generator for generating quadrature (I / Q) signals through low power and miniaturization.

A voltage controlled oscillator (VCO) is required to generate quadrature (I / Q) signals in a frequency synthesizer of a wired or wireless communication system.

At this time, the Q signal (orthogonal phase channel signal) and the I signal (in-phase channel signal) form a phase difference of 90 degrees.

The generation of quadrature (I / Q) signals using the voltage controlled oscillator consists of the following methods.

First, quadrature (I / Q) signals are generated by using two voltage controlled oscillators.

As shown in FIG. 1, it can be seen that a quadrature (I / Q) signal is generated using two voltage controlled oscillators 10 and 11.

At this time, it can be seen that the input and output signals of the voltage controlled oscillators 10 and 11 form a phase difference of 90 degrees.

Secondly, the frequency of the frequency to be operated first is generated in the voltage-controlled oscillator, and the output of the voltage-controlled oscillator is divided and output in the frequency divider.

This will be described with reference to FIG. 2. That is, the voltage controlled oscillator 20 generates a frequency 2f ₀ twice of the frequency to be operated, and the frequency divider 21 divides the double frequency 2f ₀ to operate the frequency f _0. )

The output of the frequency divider 21 becomes a quadrature (I / Q) signal having an operating frequency.

However, this method has the following problems.

In the first method, an inductor, which occupies a large part of the chip area, must be used in each voltage controlled oscillator. This makes it difficult to miniaturize the chip area.

In the second method, the number of inductors used is smaller than in the first case, and the area is also significantly reduced. However, there is a problem that low power design becomes difficult because current is consumed in the individual blocks of the voltage controlled oscillator and the frequency divider.

Accordingly, the present invention was devised to solve the above problems, and an object of the present invention is to connect a single stage voltage controlled oscillator and a frequency divider with a cascode, respectively, and the current used in the voltage controlled oscillator The present invention provides a signal generator of a wired or wireless communication system capable of generating quadrature (I / Q) signals by being reused in a frequency divider.

In order to achieve the above object, a signal generator of a wired / wireless communication system according to an aspect of the present invention is connected to a voltage controlled oscillator for generating a differential signal, the voltage controlled oscillator, and a cascode, in the voltage controlled oscillator. And a divider for dividing the generated differential signal into a set multiple (/ 2) and simultaneously generating a quadrature (I / Q) signal, wherein the voltage controlled oscillator is configured as the capacitance value varies according to the input tuning voltage. And a resonator for varying the frequency of the differential signal and a differential switch connected to the resonator to provide a negative resistance and compensating for the loss of the resonator to oscillate the differential signal.

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The differential switching unit may include a capacitor connected to the differential switching unit and reducing a current flowing through the differential switching unit in a zero crossing region when the voltage controlled oscillator is operated to reduce phase noise of the voltage controlled oscillator. It includes more.

Here, the capacitor may be implemented in an off chip type.

Here, the resonator may include a plurality of capacitors whose capacitance is varied according to the input tuning voltage.

Here, the differential switching unit, may be implemented as a plurality of nMOS transistors.

The divider may include an input unit configured to receive a differential signal provided from the voltage controlled oscillator; A division unit for dividing the differential signal input through the input unit by a predetermined multiple (/ 2) and generating a quadrature (I / Q) signal; And it may include a resistor that serves as a static load (Static Load) to reduce the burden on the LC tank (tank) of the voltage controlled oscillator.

The division unit may include a plurality of nMOS transistors connected by source couple logic (SCL).

The resistor unit may be implemented with a plurality of gate-grounded pMOS transistors.

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As described above, according to the signal generating apparatus of the wired / wireless communication system according to the present invention, the voltage controlled oscillator and the frequency divider may be provided so that the voltage controlled oscillator (VCO) generating the quadrature (I / Q) signal can be miniaturized. In this case, the number of inductors occupying a substantial portion of the area can be reduced, thereby miniaturizing.

In order to enable low power, the voltage-controlled oscillator and the frequency divider are connected in a cascode type so that the current used in the voltage-controlled oscillator is reused in the frequency divider, thereby reducing the total power consumption and reducing the power consumption. It is possible.

Hereinafter, a signal generating apparatus of a wired / wireless communication system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In addition, it should be noted that the same reference numerals are given to the same elements, although belonging to different drawings for convenience of understanding.

Although the signal generator according to the embodiment of the present invention to be described below is illustrated to be suitable for the implementation of the GPS system, it should be noted that it may be designed and applied in accordance with the requirements required by Bluetooth, WCDMA, WLNA, and the like.

3 is a diagram illustrating a signal generator of a wired and wireless communication system according to an embodiment of the present invention.

As shown in FIG. 3, the signal generator of the wired / wireless communication system according to the embodiment of the present invention includes a voltage controlled oscillator 30 and a frequency divider 31.

At this time, the voltage controlled oscillator 30 and the frequency divider 31 are connected by a cascode. As a result, the number of inductors occupying a substantial portion of the area can be reduced, thereby enabling miniaturization.

In addition, the voltage controlled oscillator 30 provides a differential signal and a direct current to the frequency divider 31 through a cascode connection with the frequency divider 31.

At this time, the frequency divider 31 supplies a DC current to the voltage controlled oscillator 30, divides the differential signal generated from the voltage controlled oscillator 30, and outputs it as a quadrature (I / Q) signal.

As shown in FIG. 3, the flow of the quadrature (I / Q) signal is provided to the frequency divider 31 through the capacitors 32 and 33 and is provided in the flow of a dashed-dotted line.

On the other hand, the DC current has only one path from the voltage source VDD to the ground GND, as shown by the flow of the dotted line. Accordingly, the voltage controlled oscillator 30 operates using the DC current provided from the frequency divider 31. In other words, as the current used in the voltage controlled oscillator 30 is reused in the frequency divider 31, the total current consumption is reduced, thereby enabling lower power.

4 is a diagram illustrating an example of a detailed configuration of a signal generator of a wired and wireless communication system according to an embodiment of the present invention.

As shown in FIG. 4, the voltage controlled oscillator 30 includes a resonator including a bias resistors 33, 34, 35, capacitors 36, 37, and variable capacitors 38, 39 that perform frequency variation. And a differential switching section composed of n-type MOS transistors 41 and 42.

In this case, the variable capacitors 38 and 39 vary the frequency of the differential signal by varying the value of the capacitor according to the tuning voltage Vtune.

The differential switching unit is connected to the resonator unit to provide negative resistance and to compensate for the loss of the resonator unit to oscillate the differential signal.

The capacitor 40 is connected to the differential switching unit to flow an AC current to the ground (ground), it may be implemented in the form of off chip (Off chip). In addition, the capacitor 40 reduces the drain current of the differential switching units 41 and 42 (Differential NMOS pair) in a zero crossing region during the operation of the voltage controlled oscillator 30 to reduce phase noise of the voltage controlled oscillator. It also plays a role to improve the noise characteristics.

Meanwhile, the frequency divider 31 includes nMOS transistors 55 to 58, nMOS transistors 47 to 54, and a divider configured by source coupled logic (SCL) and pMOS transistors 43 to 46. .

The nMOS transistors 55 to 58 receive a differential signal provided from the voltage controlled oscillator 30 and serve to supply a DC bias current.

The pMOS transistors 43 to 46 are connected to the source terminals of the differential switching transistors 41 and 42 of the voltage controlled oscillator 30 and have a static load for reducing the burden on the LC tank of the voltage controlled oscillator 30. Static Load) role.

The signal generator according to the present invention implemented above is preferably made of a four-phase voltage controlled oscillator (Quadrature-VCO).

FIG. 5 is a diagram illustrating a simulation result of phase noise of a voltage controlled oscillator and a frequency divider of a signal generator according to an exemplary embodiment of the present invention.

As shown in FIG. 5, the simulation results show that the phase noise of -122 dBc / Hz (@ 1 MHz offset) is less than the requirement of the voltage controlled oscillator <-115 dBc / Hz (@ 1 MHz offset). It can be seen that the phase noise is satisfied.

6 is a diagram showing the results of simulation of the output of the voltage controlled oscillator and the frequency divider of the signal generator according to the embodiment of the present invention.

As shown in Fig. 6, the output of the voltage controlled oscillator shows a frequency of 3.16 GHz, and the output of the frequency divider shows a frequency of 1.58 GHz. This indicates that the frequency divider operates smoothly while satisfying the frequency required by the GPS system.

1 and 2 illustrate a configuration of a conventional quarature (I / Q) signal generator.

3 is a diagram illustrating a configuration of a signal generator of a wired and wireless communication system according to an embodiment of the present invention.

4 is a diagram illustrating a detailed configuration of a signal generator of a wired and wireless communication system according to an embodiment of the present invention.

5 is a diagram showing the results of simulation of the phase noise of the voltage controlled oscillator and the frequency divider of the signal generator according to the embodiment of the present invention.

6 is a diagram showing the results of simulation of the output of the voltage controlled oscillator and the frequency divider of the signal generator according to the embodiment of the present invention.

Claims (10)

In the signal generator of the wired and wireless communication system, A voltage controlled oscillator for generating a differential signal; And A frequency divider that is connected to the voltage controlled oscillator and cascode and divides the differential signal by a predetermined multiple (/ 2) using a current provided from the voltage controlled oscillator and generates a quadrature (I / Q) signal. Cycle Including, but the voltage controlled oscillator, A resonator for changing a frequency of the differential signal as a capacitance value is changed according to an input tuning voltage; And A differential switching unit connected to the resonator to provide a negative resistance and compensating for the loss of the resonator to oscillate the differential signal Signal generating device comprising a. delete The method of claim 1, And a capacitor connected to the differential switching unit and further comprising a capacitor which reduces phase current of the voltage controlled oscillator by reducing a current flowing in the differential switching unit in a zero crossing region when the voltage controlled oscillator is operated. Generator. The method of claim 3, The capacitor is a signal generator, characterized in that implemented in the Off Chip (Off Chip) type. The method of claim 1, The resonator unit comprises a plurality of capacitors whose capacitance value is variable according to the input tuning voltage. The method of claim 1, The differential switching unit is a signal generator, characterized in that implemented by a plurality of nMOS transistors. The method of claim 1, wherein the divider, An input unit configured to receive a differential signal provided from the voltage controlled oscillator; A division unit for dividing the differential signal input through the input unit by a predetermined multiple (/ 2) and generating a quadrature (I / Q) signal; And Resistor part that serves as a static load to reduce the load on the LC tank of the voltage controlled oscillator Signal generating device comprising a. The method of claim 7, wherein The division unit includes a plurality of nMOS transistors connected by source couple logic (SCL). The method of claim 7, wherein The resistor unit is implemented with a plurality of gate-grounded pMOS transistors. delete

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