Fast-acting current comparator
First Claim
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1. A fast-acting current comparator comprising:
- a current-comparison stage having means to receive and compare an input current and a reference current, and further including an output terminal to produce a signal representing the comparison of those two currents;
first and second series-connected MOSFETs having control electrodes connected together to form a first push-pull inverter;
said first inverter having an input node coupled to said current-comparison stage output terminal to develop an input signal on said control electrodes;
said first inverter having an output node at the series junction of said first and second MOSFETs to produce an output signal which is high or low in correspondence to the magnitude of said input signal;
said first inverter providing a trigger point at a high-gain region of its transfer function;
first circuit means coupled to one of the MOSFETs of said first inverter and having first input means responsive to a control signal to modify the level of said trigger point of said first inverter in accordance with said control signal;
a bias voltage control circuit including a second push-pull inverter matching said first inverter and having input and output nodes;
second circuit means coupled to one of the MOSFETs of said second inverter, said second circuit means inclduing second input means to receive a control signal and responsive thereto for controlling the voltage at one of said second inverter nodes;
means for developing a signal for the input node of said second inverter said means being operable to set that input node signal at the level of the signal applied to the input node of said first inverter when said current-comparison stage is in balance;
an amplifier having a pair of input terminals coupled respectively to said input and output nodes of said second inverter;
means connecting the output of said amplifier to said input means of said second circuit means as a feedback control signal to force the voltages on said input and output nodes of said second inverter to be equal; and
means connecting said feedback control signal from said amplifier to said first input means of said first circuit means to set the trigger point of said first inverter correspondingly so a to provide fast response of said first inverter to a change in the input signal applied to its input node.
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Abstract
A comparator for use in an A/D converter such as an algorithmic type. The circuit includes a push-pull inverter gain stage having two series-connected MOSFETs. The input of this inverter is driven by a signal from a preceding current-comparison stage where an input current is compared to a reference current to set the signal level on an input node of the inverter. The trigger point of the inverter is altered by an additional MOSFET, connected in parallel with one of the inverter MOSFETs, and having its gate controlled by the output of a bias voltage control circuit. This circuit includes a control inverter stage matched to the comparator inverter and driven by a control current-comparison circuit matched to the corresponding comparator current-comparison circuit. The input and output nodes of the control inverter are connected to the inputs of an op-amp the output of which controls the gate voltage of an additional MOSFET in parallel with one of the control inverter MOSFETs so as to force the input and output nodes to be of equal voltage. The resulting op-amp output signal serves as the bias signal for the additional MOSFET in parallel with one of the comparator inverter MOSFETs, and sets the trigger point of the comparator inverter at a level equal to the balance point of the preceding current-comparison stage, thereby assuring fast transition times.
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Citations
12 Claims
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1. A fast-acting current comparator comprising:
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a current-comparison stage having means to receive and compare an input current and a reference current, and further including an output terminal to produce a signal representing the comparison of those two currents; first and second series-connected MOSFETs having control electrodes connected together to form a first push-pull inverter; said first inverter having an input node coupled to said current-comparison stage output terminal to develop an input signal on said control electrodes; said first inverter having an output node at the series junction of said first and second MOSFETs to produce an output signal which is high or low in correspondence to the magnitude of said input signal; said first inverter providing a trigger point at a high-gain region of its transfer function; first circuit means coupled to one of the MOSFETs of said first inverter and having first input means responsive to a control signal to modify the level of said trigger point of said first inverter in accordance with said control signal; a bias voltage control circuit including a second push-pull inverter matching said first inverter and having input and output nodes; second circuit means coupled to one of the MOSFETs of said second inverter, said second circuit means inclduing second input means to receive a control signal and responsive thereto for controlling the voltage at one of said second inverter nodes; means for developing a signal for the input node of said second inverter said means being operable to set that input node signal at the level of the signal applied to the input node of said first inverter when said current-comparison stage is in balance; an amplifier having a pair of input terminals coupled respectively to said input and output nodes of said second inverter; means connecting the output of said amplifier to said input means of said second circuit means as a feedback control signal to force the voltages on said input and output nodes of said second inverter to be equal; and means connecting said feedback control signal from said amplifier to said first input means of said first circuit means to set the trigger point of said first inverter correspondingly so a to provide fast response of said first inverter to a change in the input signal applied to its input node. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A current comparator capable of fast transitions between high and low output states comprising:
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a first comparator stage for combining an input current with a reference current to produce an input signal representing the difference between those currents; a second comparator stage providing gain and having an input node to receive said input signal and an output node to produce an output signal which varies between high and low dependent upon the magnitude of said input signal; said second stage having a trigger point provided by a high-gain region of its transfer characteristic where the transition between high and low output occurs at a rapid rate; first circuit means coupled to said second stage and having first input means responsive to a bias control signal to modify the voltage level of said trigger point of said second stage; a bias voltage control circuit including a gain stage matching said second comparator stage and having input and output nodes; means for supplying to said input node of said control circuit gain stage a signal matching that on the input node of said second comparator stage when said input current is equal to said reference current; second circuit means matching said first circuit means and coupled to said control circuit gain stage; said second circuit means including second input means to receive a control signal and responsive thereto for controlling the voltage at one of said control circuit gain stage nodes; an amplifier having a pair of input terminals coupled respectively to said input and output nodes of said control circuit gain stage; means connecting the output of said amplifier to said input means of said second circuit means as a feedback control signal to force the voltages on said input and output nodes of said control circuit gain stage to be equal; and means connecting said feedback control signal to said first input means of said second comparator stage to set the trigger point of said second stage so as to provide fast response of said current comparator to a change in said input current. - View Dependent Claims (8, 9)
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10. The method of obtaining fast response from a current comparator having a current-comparison stage wherein an input current is compared to a reference current to produce a comparison signal which is applied to an input node of a first complementary MOSFET inverter gain stage having a transfer characteristic with a high-gain region establishing a trigger point at which the transition between high and low output levels occurs;
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said method comprising the steps of; providing a second complementary MOSFET inverter gain stage matching said first inverter gain stage; setting the voltage of said input node of said second inverter stage to be identical to that developed by said current-comparison stage when it is at its balance point; developing a bias control signal for said second inverter stage to force its input and output nodes to be at the same potential; and applying said bias control signal to said first inverter stage to modify its trigger point to occur at the voltage of the input node of said first inverter stage when the comparison signal from said current-comparison stage is at its balance point. - View Dependent Claims (11, 12)
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Specification
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Current AssigneeAnalog Devices, Inc.
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Original AssigneeAnalog Devices, Inc.
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InventorsDeevy, Kenneth
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Primary Examiner(s)Zazworsky, John
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Application NumberUS07/705,121Time in Patent Office438 DaysField of Search307/350, 307/355, 307/362, 307/358, 307/359, 307/491, 307/494, 307/263US Class Current327/77CPC Class CodesG01R 19/16519 using FET'sH03K 5/2472 using field effect transist...H03M 1/406 using current mode circuits...
