Voltage controlled oscillator having control current compensation
First Claim
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1. A voltage controlled oscillator (VCO) providing improved gain response over semiconductor process variations, comprising:
- an input port for receiving a control voltage (VC); and
a voltage-to-current (V/I) converter responsive to the control voltage and providing a control current, the V/I converter including;
a plurality of differential transistor pairs having tail currents that are inversely proportional to the semiconductor process variations that cause fluctuations in the VCO gain response; and
each of the plurality of differential transistor pairs each having a first input and a second input, the first input of each of said differential pairs coupled to the control voltage, the second input of each of the plurality of differential transistor pairs being coupled to one of successively increasing voltage levels.
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Abstract
A voltage controlled oscillator (600) includes a voltage to current portion (400) that is inversely proportional to the semiconductor processing in order to compensate for variations both in the low-frequency and high-frequency portions of the VCO gain response. To compensate for low-frequency variations, a portion of the control current (ICTL), non-compensated control current ICTLNC (436), is subtracted from a reference current IREF (408) and the result, a low-frequency compensating control current, ICTLLF (438), is added to the non-compensated control current ICTLNC (436). To compensate for high frequency variations, a number of differential transistor pairs (410-416) are provided that have tail currents that are inversely proportional to the processing. One input (426) to all the differential pairs is connected to the VCO'"'"'s control voltage while the other inputs (418-424) are connected to successively increasing voltages in the control voltage range. One output, ICTLHF (440), of all the differential pairs is summed with the non-compensated control current ICTLNC (436) while the other output of each differential pair is connected to the power supply. By adjusting the amount of non-compensated control current ICTLNC (436) provided to transistor M1 using the low frequency gain compensation circuit 402 and high frequency gain compensation circuit 404, VCO (400) provides for a process-insensitive, substantially constant gain VCO.
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Citations
20 Claims
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1. A voltage controlled oscillator (VCO) providing improved gain response over semiconductor process variations, comprising:
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an input port for receiving a control voltage (VC); and
a voltage-to-current (V/I) converter responsive to the control voltage and providing a control current, the V/I converter including;
a plurality of differential transistor pairs having tail currents that are inversely proportional to the semiconductor process variations that cause fluctuations in the VCO gain response; and
each of the plurality of differential transistor pairs each having a first input and a second input, the first input of each of said differential pairs coupled to the control voltage, the second input of each of the plurality of differential transistor pairs being coupled to one of successively increasing voltage levels. - View Dependent Claims (2, 8)
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3. A voltage controlled oscillator (VCO) providing improved gain response over semiconductor process variations, comprising:
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an input port for receiving a control voltage (VC); and
a voltage-to-current (V/I) converter responsive to the control voltage and providing a control current, the V/I converter including;
a plurality of differential transistor pairs; and
each of the plurality of differential transistor pairs each having a first input and a second input, the first input of each of said differential pairs coupled to the control voltage, the second input of each of the plurality of differential transistor pairs being coupled to one of successively increasing voltage levels;
wherein the V/I converter further comprises a low frequency gain compensation section coupled to the control voltage. - View Dependent Claims (4)
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5. A voltage controlled oscillator (VCO) providing improved gain response over semiconductor process variations, comprising:
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an input port for receiving a control voltage (VC); and
a voltage-to-current (V/I) converter responsive to the control voltage and providing a control current, the V/I converter including;
a plurality of differential transistor pairs; and
each of the plurality of differential transistor pairs each having a first input and a second input, the first input of each of said differential pairs coupled to the control voltage, the second input of each of the plurality of differential transistor pairs being coupled to one of successively increasing voltage levels;
further comprising;
a transistor responsive to the control voltage; and
the plurality of differential pairs comprise a high frequency gain compensation section for providing compensation to the control current in order to reduce fluctuations in the VCO'"'"'s high frequency gain response. - View Dependent Claims (6, 7)
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9. A voltage controlled oscillator (VCO) providing improved gain response over semiconductor process variations, comprising:
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an input port for receiving a control voltage (VC); and
a voltage-to-current (V/I) converter responsive to the control voltage and providing a control current, the V/I converter including;
a plurality of differential transistor pairs; and
each of the plurality of differential transistor pairs each having a first input and a second input, the first input of each of said differential pairs coupled to the control voltage, the second input of each of the plurality of differential transistor pairs being coupled to one of successively increasing voltage levels;
further comprising a switch matrix coupled to the control voltage input port, the switch matrix allowing for the presentation of one of the successively increasing voltage levels to the control voltage input port in order to test the VCO.
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10. A VCO having a high and low frequency gain response, the VCO comprising:
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a transistor for converting a control voltage into a control current;
a low frequency gain compensation section coupled to the transistor, the low frequency gain compensation section gives the control current a component that is inversely proportional to semiconductor process variations that cause fluctuations in the VCO'"'"'s low frequency gain response; and
a high frequency gain compensation section coupled to the low frequency gain compensation section. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. A voltage-to-current (V/I) converter responsive to a control voltage and providing a control current, the V/I converter comprising:
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a plurality of differential transistor pairs, each of the plurality of differential transistor pairs each having;
a first input and a second input;
the first input of each of said differential pairs coupled to the control voltage; and
a source of continually increasing voltage levels;
the second input of each of the plurality of differential transistor pairs being coupled to one of successively increasing voltage levels;
wherein the plurality of differential transistor pairs have tail currents that are inversely proportional to the semiconductor process variations that cause fluctuations in the VCO gain response. - View Dependent Claims (19)
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20. A voltage-to-current (V/I) converter responsive to a control voltage and providing a control current, the V/I converter comprising:
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a plurality of differential transistor pairs, each of the plurality of differential transistor pairs each having;
a first input and a second input;
the first input of each of said differential pairs coupled to the control voltage; and
a source of continually increasing voltage levels;
the second input of each of the plurality of differential transistor pairs being coupled to one of successively increasing voltage levels;
wherein the V/I converter further comprises a low frequency gain compensation section coupled to the control voltage.
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Specification
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Current AssigneeTexas Instruments, Inc.
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Original AssigneeTexas Instruments, Inc.
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InventorsSiniscalchi, Patrick Peter
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Primary Examiner(s)Callahan, Timothy P.
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Assistant Examiner(s)COX, CASSANDRA F
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Application NumberUS10/164,469Publication NumberTime in Patent Office1,209 DaysField of Search331/100, 331/108.R, 331/175, 331/176, 331/177.R, 331/108.A, 363/73US Class Current331/176CPC Class CodesG05F 3/262 using field-effect transist...H03K 3/03 Astable circuits
