Electronic circuit, particularly for a mobile transceiver

Oscillators – Automatic frequency stabilization using a phase or frequency... – Particular error voltage control

Reexamination Certificate

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Details

C331S008000, C331S025000, C331S034000, C327S156000, C327S157000, C455S260000

Reexamination Certificate

active

06549080

ABSTRACT:

BACKGROUND OF THE INVENTION
FIELD OF THE INVENTION
The invention relates to an electronic circuit, particularly for and in a mobile transceiver, which has a digital circuit section and an analog circuit section connected to the digital circuit section.
It is known to use in radio frequency transmitting and receiving circuits phase-locked loop (PLL) circuits which control the phase and, if necessary, also the frequency of the transmitter and/or receiver to a desired value. For this purpose, frequently a voltage-controlled oscillator (VCO) generating the transmitting or receiving carrier frequency is controlled to the nominal frequency by the voltage applied to it. To achieve a sufficiently large control range, a correspondingly high control voltage swing is desirable which needs a correspondingly high supply voltage. On the other hand, the remaining signal processing, for example in a mobile transceiver, largely takes place at a digital level. At this level, low supply voltages of, for example, 2.7 V are increasingly used for reducing the power dissipation, temperature generation and the like. In the radio-frequency section, however, such low supply voltages lead to only low controllability so that the tuning range is restricted.
In U.S. Pat. No. 4,598,217, a phase/frequency detector for a phase-locked loop is shown. A digital circuit section at the input end is coupled to an analog circuit section at the output end. The digital circuit section has a supply voltage of 5 V. The analog circuit section has another supply voltage. To convert the signals to be transferred from the digital circuit section to the analog circuit section, a level converter is provided. The level converter contains current sources and current balancing circuits.
In Patent Abstracts of Japan, Vol. 1996, Nr. 10, Oct. 31, 1996 (JP-A-08-162951), a phase-locked loop is shown in which a charge pump converts output signals of the phase comparator to the loop filter. In U.S. Pat. No. 5,623,523, a further phase-locked loop is shown in which digitally provided upward-and downward-pumping signals drive a charge pump that is driven by a voltage boost network that is supplied by another supply voltage. The charge pump controls a loop filter.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide an electronic circuit, particularly for a mobile transceiver, which overcomes the above-mentioned disadvantages of the prior art devices of this general type, which is distinguished by good operability of the digital and analog circuit section.
With the foregoing and other objects in view there is provided, in accordance with the invention, an electronic circuit. The electronic circuit contains a digital circuit section outputting an activation signal, and the digital circuit section has a selection device for generating selection signals. An analog circuit section is connected to the digital circuit section and receives control signals, including the activation signal and the selection signals, from the digital circuit section. The analog circuit section contains a common output, and at least two controlled current source circuits having inputs, current outputs connected to one another at the common output, logic elements connected to the inputs, and level converters connected to the logic elements. The selection device of the digital circuit section generates the selection signals for selecting at least one of the controlled current source circuit to be activated. The selection signals are received at the inputs of the controlled current source circuits and are transmitted to the logic elements followed by the level converters for generating switching signals for controlling the current outputs of respective ones of the controlled current source circuits. A reference current generator is connected to the controlled current source circuit. The reference current generator receives and is controlled by the activation signal output by the digital circuit section. The reference current generator has an input receiving the activation signal, a further level converter coupled to the input, and at least two reference current branches coupled to the further level converter. The reference current generator converts the activation signal using the further level converter and generates, by use of the at least two reference current branches, reference currents fed to the controlled current source circuits. A first voltage supply is connected to the digital circuit section and supplies a first voltage. A second voltage supply is connected to the analog circuit section and supplies a second voltage being set to a higher potential level than the first voltage.
In the invention, different supply voltages are provided for the digital circuit section and the analog circuit section so that advantageous supply voltage levels can be separately preset, for example 2.7 to 3 V for the digital circuit section and 5 V for the analog circuit section. Since the amplitudes of the control signals fed from the digital circuit section to the analog circuit section can only be varied within the extent of their supply voltage, level converters which transform the control signal voltage level to the control level needed by the other circuit section are preferably provided at the input or output of the digital and/or analog circuit section.
In an advantageous embodiment, the analog circuit section contains a controlled current source circuit preceded by a reference current generator that can be switched on and off by an activation signal supplied by the digital circuit section. The activation signal is transformed to a higher level range of the voltage supply of the analog circuit section by a level converter. The output of the current source circuit is preferably connected to a control voltage generating unit for generating the control voltage for the frequency control of a voltage-controlled oscillator which is to be controlled locked in frequency and/or phase. The control of the voltage-controlled oscillator can thus be operated with the higher level swing of the voltage supply of the analog circuit section and in consequence a wide control range can be obtained. The control voltage generating device is preferably a loop filter with a capacitance to be charged and discharged in accordance with the desired control voltage value. The phase comparator or phase/frequency detector comparing the oscillator output signal with a predetermined reference signal is then preferably a component of the digital circuit section.
The control voltage inputs of the controllable current source circuit are preceded by level converters so that the control signals supplied from the digital circuit section are transformed to the higher voltage level range of the current source circuit.
The analog circuit section contains a number of selectively selectable controllable current source circuits that are connected to a common current output terminal. In this configuration, the current source circuits can be selected by one or more selection signals so that the current intensity in each case currently fed to the current output terminal is selectable.
The reference current generator contains a number of reference current branches by which reference currents can be fed to the individual current source circuits. The level converter disposed before the reference current generator is thus utilized several times, since a single level converter is used for controlling the activation of a number of reference current branches. This reduces the necessary circuit expenditure in spite of the possibility that is offered of being able to feed a number of current source circuits at the same time.
All reference current branches can be switched on and off by one or two electronic switches connected to the level converter so that the circuit expenditure needed overall for this is low.
The level converters preferably contain an input branch which is connected to the lower supply voltage and the output potential of which is switched over by the control switching signal supplied

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