Current source with tunable voltage-current coefficient
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05F-001/10
G05F-003/02
출원번호
US-0840943
(2010-07-21)
등록번호
US-8736358
(2014-05-27)
발명자
/ 주소
Chen, Chung-Kuang
Chen, Han-Sung
Hung, Chun-Hsiung
출원인 / 주소
Macronix International Co., Ltd.
대리인 / 주소
McClure, Qualey & Rodack, LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A current source providing an output current with a fixed current range includes a bias circuit, a resistor, a current mirror, and a controller. The bias circuit provides a first voltage weighted with a first tunable coefficient and a second voltage weighted with a second tunable coefficient. The re
A current source providing an output current with a fixed current range includes a bias circuit, a resistor, a current mirror, and a controller. The bias circuit provides a first voltage weighted with a first tunable coefficient and a second voltage weighted with a second tunable coefficient. The resistor has a tunable resistance for determining a bias current according to a voltage difference between the first and the second voltages and the tunable resistance. The current mirror generates the output current according to the bias current. The controller adjusts the tunable resistance and one of the first and the second tunable coefficients to achieve a voltage-current coefficient with different values, while the bias current and the output current are kept within a fixed current range.
대표청구항▼
1. A current source providing an output current with a fixed current range, the current source comprising: a bias circuit, for providing a first voltage, which is weighted with a first tunable coefficient and providing a second voltage, which is weighted with a second tunable coefficient;a resistor,
1. A current source providing an output current with a fixed current range, the current source comprising: a bias circuit, for providing a first voltage, which is weighted with a first tunable coefficient and providing a second voltage, which is weighted with a second tunable coefficient;a resistor, having a tunable resistance, the resistor determining a bias current according to a voltage difference between the first and the second voltages;a current mirror, for generating the output current according to the bias current; anda controller, for achieving a voltage-current coefficient, which is defined by a difference of the output current per the first voltage, the controller further selectively having the voltage-current coefficient configured with different values by means of adjusting the tunable resistance and one of the first tunable coefficient and the second tunable coefficient, and keeping the bias current and the output current within a fixed current range;wherein the bias circuit further comprises:a first node and a second node, wherein one of the first voltage and the second voltage is provided on the second node and is directly connected to the resistor;an operational amplifier, having a first input end and a second input end respectively receiving a first reference voltage and coupled to the first node, and having an output node;a transistor, having a first terminal and a second terminal respectively receiving a second reference voltage and coupled to the second node, and having a control terminal coupled to the output node;a first resistor, coupled between the first and the second node; anda second resistor, having a first terminal and a second terminal respectively coupled to the first node and receiving a ground reference. 2. The current source according to claim 1, wherein the first and the second tunable coefficients are respectively assigned as value K1 and value 1 and the voltage-current coefficient is determined as: I1=(K1×VA1-VB)/RI2=(K1×VA2-VB)/RΔI=I2-I1=K1×(VA1-VA2)/RC=ΔIΔVA=K1×(VA1-VA2)/RVA1-VA2=K1RIo=(K1×VA-VB)/Rwherein,VA is the first voltage; VB is the second voltage; R is the tunable resistance; Io is the output current; C is the voltage-current coefficient; andthe controller tunes the voltage-current coefficient while keeps the bias current and the output current within the fixed range by means of tuning the first tunable coefficient K1 and the tunable resistance R. 3. The current source according to claim 1, wherein the first and the second tunable coefficients are respectively assigned as value 1 and value K2 and the voltage-current coefficient is determined as: I1=(VA1-K2×VB)/RI2=(VA2-K2×VB)/RΔI=I2-I1=(VA1-VA2)/RC=ΔIΔVA=(VA1-VA2)/RVA1-VA2=1RIo=(VA-K2×VB)/Rwherein,VA is the first voltage; VB is the second voltage; R is the tunable resistance; Io is the output current; C is the voltage-current coefficient; andthe controller tunes the voltage-current coefficient while keeps the bias current and the output current within the fixed range by means of tuning the second tunable coefficient K2 and the tunable resistance R. 4. The current source according to claim 1, wherein the first and the second tunable coefficients are respectively assigned as value K1 and value K2 and the voltage-current coefficient is determined as: I1=(K1×VA1-K2×VB)/RI2=(K1×VA2-K2×VB)/RΔI=I2-I1=K1×(VA1-VA2)/RC=ΔIΔVA=K1×(VA1-VA2)/RVA1-VA2=K1RIo=(K1×VA-K2×VB)/Rwherein,VA is the first voltage; VB is the second voltage; R is the tunable resistance; Io is the output current; C is the voltage-current coefficient; andthe controller tunes the voltage-current coefficient while keeps the bias current and the output current within the fixed range by means of tuning the first tunable coefficient K1, the second tunable coefficient K2 and the tunable resistance R. 5. A current source providing an output current with a fixed current range, the current source comprising: a bias means for providing a first voltage, and a second voltage;a resistive means, having a tunable resistance for determining a bias current according to a voltage difference between the first and the second voltages;an output means, for generating the output current according to the bias current; anda control means, for achieving a voltage-current coefficient, which is defined by a difference of the output current per the first voltage, the controller further selectively having the voltage-current coefficient configured with different values by means of adjusting the tunable resistance and one of the first voltage and the second voltage, and keeping the bias current and the output current within a fixed current range;wherein the bias means further comprises:a first node and a second node, wherein one of the first voltage and the second voltage is provided on the second node and is directly connected to the resistive means;an operational amplifier, having a first input end and a second input end respectively receiving a first reference voltage and coupled to the first node, and having an output node;a transistor, having a first terminal and a second terminal respectively receiving a second reference voltage and coupled to the second node, and having a control terminal coupled to the output node;a first resistor, coupled between the first and the second node; anda second resistor, having a first terminal and a second terminal respectively coupled to the first node and receiving a ground reference. 6. The current source according to claim 5, wherein the first voltage is varied with a first tunable coefficient provided by the control means, and the second voltage is varied with a second tunable coefficient provided by the control means, the first and the second tunable coefficients are respectively assigned as value K1 and value 1, and the voltage-current coefficient is determined as: I1=(K1×VA1-VB)/RI2=(K1×VA2-VB)/RΔI=I2-I1=K1×(VA1-VA2)/RC=ΔIΔVA=K1×(VA1-VA2)/RVA1-VA2=K1RIo=(K1×VA-VB)/Rwherein,VA is the first voltage; VB is the second voltage; R is the tunable resistance; Io is the output current; C is the voltage-current coefficient; andthe control means tunes the voltage-current coefficient while keeps the bias current and the output current within the fixed range by means of tuning the first tunable coefficient K1 and the tunable resistance R. 7. The current source according to claim 6, wherein the first and the second tunable coefficients are respectively assigned as value 1 and value K2 and the voltage-current coefficient is determined as: I1=(VA1-K2×VB)/RI2=(VA2-K2×VB)/RΔI=I2-I1=(VA1-VA2)/RC=ΔIΔVA=(VA1-VA2)/RVA1-VA2=1RIo=(VA-K2×VB)/Rwherein,VA is the first voltage; VB is the second voltage; R is the tunable resistance; Io is the output current; C is the voltage-current coefficient; andthe control means tunes the voltage-current coefficient while keeps the bias current and the output current within the fixed range by means of tuning the second tunable coefficient K2 and the tunable resistance R. 8. The current source according to claim 6, wherein the first and the second tunable coefficients are respectively assigned as value K1 and value K2 and the voltage-current coefficient is determined as: I1=(K1×VA1-K2×VB)/RI2=(K1×VA2-K2×VB)/RΔI=I2-I1=K1×(VA1-VA2)/RC=ΔIΔVA=K1×(VA1-VA2)/RVA1-VA2=K1RIo=(K1×VA-K2×VB)/Rwherein,VA is the first voltage; VB is the second voltage; R is the tunable resistance; Io is the output current; C is the voltage-current coefficient; andthe control means tunes the voltage-current coefficient while keeps the bias current and the output current within the fixed range by means of tuning the first tunable coefficient K1, the second tunable coefficient K2 and the tunable resistance R. 9. The current source according to claim 1, wherein the first voltage is provided on the second node. 10. The current source according to claim 1, wherein the second voltage is provided on the second node. 11. The current source according to claim 5, wherein the first voltage is provided on the second node. 12. The current source according to claim 5, wherein the second voltage is provided on the second node.
Schneider, Georg; Schäfer, Karl Robert, Device for storing at least two dressings that are drawn off from the same cylinder of a printing machine one after another.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.