Square cell having wide dynamic range and power detector implementing same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06G-007/20
G06G-007/00
출원번호
UP-0634113
(2006-12-06)
등록번호
US-7622981
(2009-12-02)
발명자
/ 주소
Zou, Min Z.
출원인 / 주소
Linear Technology Corporation
대리인 / 주소
McDermott Will & Emery LLP
인용정보
피인용 횟수 :
5인용 특허 :
7
초록▼
A square cell comprises first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage, and first and second resistors in series with the first and second bipolar transistors respectively and with a source
A square cell comprises first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage, and first and second resistors in series with the first and second bipolar transistors respectively and with a source of reference voltage. The collectors are commonly connected to an output node to supply an output current having a component proportional to the square of the input voltage. Enhanced square law conformance may be produced by adding further pairs of bipolar transistors to the cell, with offset voltage elements coupled between bases of successive transistors on each side of the cell.
대표청구항▼
What is claimed is: 1. A square cell, comprising: first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage; and first and second resistors at one end connected in series respectively with the first a
What is claimed is: 1. A square cell, comprising: first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage; and first and second resistors at one end connected in series respectively with the first and second bipolar transistors and, at the other end, directly to a common source of reference voltage; the collectors being commonly connected to an output node thereby to supply an output current having a component proportional to the square of the input voltage when the input voltage is of a magnitude less than a threshold voltage of the transistors, and including a bias circuit having a PTAT current source coupled to control electrodes of the first and second transistors for supplying a temperature compensated bias voltage thereto. 2. A square cell as recited in claim 1, wherein the input voltage is of magnitude less than the threshold voltage of the transistors throughout an input voltage swing. 3. A square cell, comprising: first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage; and first and second resistors at one end connected in series respectively with the first and second bipolar transistors and, at the other end, directly to a common source of reference voltage; the collectors being commonly connected to an output node thereby to supply an output current having a component proportional to the square of the input voltage when the input voltage is of a magnitude less than a threshold voltage of the transistors, including a bias circuit coupled to control electrodes of the first and second transistors for supplying a temperature compensated bias voltage thereto, and wherein the bias circuit includes a dummy cell configured for replicating a DC quiescent current of the cell for biasing the cell when operating power is supplied thereto. 4. A square cell, comprising: first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage; and first and second resistors at one end connected in series respectively with the first and second bipolar transistors and, at the other end, directly to a common source of reference voltage; the collectors being commonly connected to an output node thereby to supply an output current having a component proportional to the square of the input voltage when the input voltage is of a magnitude less than a threshold voltage of the transistors, and including third and fourth bipolar transistors each having a base coupled, respectively, through offset voltage elements to the bases of the first and second bipolar transistors, collectors commonly connected to the collectors of the first and second transistors, and third and fourth resistors in series respectively with the third and fourth transistors and the source of reference voltage, wherein the offset elements are resistors and associated current sources to produce the offset voltage. 5. A square cell, comprising: first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage; and first and second resistors at one end connected in series respectively with the first and second bipolar transistors and, at the other end, directly to a common source of reference voltage; the collectors being commonly connected to an output node thereby to supply an output current having a component proportional to the square of the input voltage when the input voltage is of a magnitude less than a threshold voltage of the transistors, and including third and fourth bipolar transistors each having a base coupled, respectively, through offset voltage elements to the bases of the first and second bipolar transistors, collectors commonly connected to the collectors of the first and second transistors, and third and fourth resistors in series respectively with the third and fourth transistors and the source of reference voltage, wherein the offset elements are resistors and associated current sources to produce the offset voltage, and including capacitors across the resistor offset elements to AC couple the input signal between transistors. 6. A square cell as recited in claim 5, wherein the input voltage is of magnitude less than the threshold voltage of the transistors throughout an input voltage swing. 7. A square cell as recited in claim 5, wherein the first and second resistors are emitter degeneration resistors connected between the transistor emitters and a source of reference voltage. 8. A power detector circuit, comprising: first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage; and first and second resistors at one end connected in series respectively with the first and second bipolar transistors and, at the other end, directly to a common source of reference voltage; the collectors being commonly connected to an output node thereby to supply an output current having a component proportional to the square of the input voltage when the input voltage is of a magnitude less than a threshold voltage of the transistors; and a log-to-linear converter coupled to the output of the square cell. 9. A square cell as recited in claim 8, wherein the input voltage is of magnitude less than the threshold voltage of the transistors throughout an input voltage swing. 10. A square cell as recited in claim 8, wherein the first and second resistors are emitter degeneration resistors connected between the transistor emitters and a source of reference voltage. 11. A power detector circuit, comprising: a square cell comprising: first and second bipolar transistors each having an emitter, collector and base, the bases of the transistors being connected for receiving an input voltage, first and second resistors at one end connected in series respectively with the first and second bipolar transistors and, at the other end, directly to a common source of reference voltage, the collectors being commonly connected to an output node thereby to supply an output current having a component proportional to the square of the input voltage when the input voltage is of a magnitude less than a threshold voltage of the transistors, and a bias circuit for supplying a temperature compensated bias voltage to the first and second transistors, wherein the bias circuit includes a dummy cell configured for replicating a DC quiescent current of the cell; and a log-to-linear converter coupled to the output node of the square cell and the dummy cell. 12. A square cell, comprising: k (k≧2) bipolar transistor pairs, each transistor having an emitter, collector and base, the bases electrodes of the first pair among the k pairs of transistors being connected for receiving an input voltage; and first and second resistors at one end connected in series respectively with each transistor and, at the other end, directly to a common source of reference voltage; offset voltage elements coupled between bases of successive bipolar transistors; the collectors all being commonly connected to an output node thereby to supply an output current having a component proportional to the square of the input voltage when the input voltage is of a magnitude less than a threshold voltage of the transistors, including a bias circuit for supplying a temperature compensated bias voltage to the first and second transistors, and wherein the bias circuit includes a dummy cell configured for replicating a DC quiescent current of the cell.
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