Current type inverter circuit, current type logic circuit, current type latch circuit, semiconductor integrated circuit, current type ring oscillator, voltage-controlled oscillator and PLL circuit
First Claim
Patent Images
1. A current type inverter circuit, comprising:
- a first power source and a second power source;
reference current supply means having one end which is connected to said first power source and the other end for supplying a reference current;
a first MOS current mirror circuit having a first input part for receiving an input current and a first output part which is connected to the other end of said reference current supply means, said first MOS current mirror circuit supplying an intermediate output current between said first output part and said second power source, the current quantity of said intermediate output current being in proportion to said input current;
a second MOS current mirror circuit having a second input part which is connected to the other end of said reference current supply means and a second output part for carrying an output current, said MOS second current mirror circuit supplying said output current between said second output part and said second power source, the current quantity of said output current supplied by said second MOS current mirror circuit being in proportion to an intermediate input current which flows between said second input part and said second power source,wherein said MOS current type inverter circuits satisfy all of the following conditions;
space="preserve" listing-type="equation">N1·
II≧
IR;
space="preserve" listing-type="equation">N2>
1;
and
space="preserve" listing-type="equation">N1·
N2>
1whereII;
the quantity of said input currentIR;
the quantity of said reference currentN1;
a ratio of the quantity of said intermediate output current to the quantity of said input currentN2;
a ratio of the current quantity of said second output current to the quantity of said intermediate input current.
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Abstract
A current type inverter circuit or the like is obtained which operates at a high speed with a low power consumption. A reference power source 1 has one end connected to a power source VDD and the other source receiving a reference current Iref. A drain and a gate of an NMOS transistor Q1 of a current mirror circuit CM1, as an input part, receive an input current Iin. A drain of an NMOS transistor Q2 is connected to an node N1 of the other end side of the reference power source 1 as an output part. As an input part, a drain and a gate of an NMOS transistor Q3 of a current mirror circuit CM2 are connected to the node N1 while a drain of an NMOS transistor Q4 functions as an output part for outputting an output current Iout. The transistors are set so that all of the conditions TS1≧1, TS2≧1 and TS1·TS2>1 are satisfied where TS1 is a ratio of the size of the NMOS transistor Q2 to the size of the NMOS transistor Q1 and TS2 is a ratio of the size of the NMOS transistor Q4 to the size of the NMOS transistor Q3.
24 Citations
16 Claims
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1. A current type inverter circuit, comprising:
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a first power source and a second power source; reference current supply means having one end which is connected to said first power source and the other end for supplying a reference current; a first MOS current mirror circuit having a first input part for receiving an input current and a first output part which is connected to the other end of said reference current supply means, said first MOS current mirror circuit supplying an intermediate output current between said first output part and said second power source, the current quantity of said intermediate output current being in proportion to said input current; a second MOS current mirror circuit having a second input part which is connected to the other end of said reference current supply means and a second output part for carrying an output current, said MOS second current mirror circuit supplying said output current between said second output part and said second power source, the current quantity of said output current supplied by said second MOS current mirror circuit being in proportion to an intermediate input current which flows between said second input part and said second power source, wherein said MOS current type inverter circuits satisfy all of the following conditions;
space="preserve" listing-type="equation">N1·
II≧
IR;
space="preserve" listing-type="equation">N2>
1;and
space="preserve" listing-type="equation">N1·
N2>
1where II;
the quantity of said input currentIR;
the quantity of said reference currentN1;
a ratio of the quantity of said intermediate output current to the quantity of said input currentN2;
a ratio of the current quantity of said second output current to the quantity of said intermediate input current. - View Dependent Claims (2, 3, 4)
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5. A current type logic circuit, comprising:
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a first power source and a second power source; reference current supply means having one end which is connected to said first power source and the other end for supplying a reference current; a first MOS current mirror circuit having a first input part for receiving a first input current and a first output part which is connected to the other end of said reference current supply means, said first MOS current mirror circuit supplying a first intermediate output current between said first output part and said second power source, the current quantity of said first intermediate output current being in proportion to said first input current; a second MOS current mirror circuit having a second input part for receiving a second input current and a second output part which is connected to the other end of said reference current supply means, said second MOS current mirror circuit supplying a second intermediate output current between said second output part and said second power source, the current quantity of said second intermediate output current being in proportion to said second input current; a third MOS current mirror circuit having a third input part which is connected to the other end of said reference current supply means and a third output part for carrying an output current, said third MOS current mirror circuit supplying said output current between said third output part and said second power source, the current quantity of said output current supplied by said third MOS current mirror circuit being in proportion to an intermediate input current which flows between said third input part and said second power source, wherein said MOS current type logic circuits satisfy all of the following conditions;
space="preserve" listing-type="equation">N1·
II1≧
IR;
space="preserve" listing-type="equation">N2·
II2≧
IR;
space="preserve" listing-type="equation">N3>
1
space="preserve" listing-type="equation">N1·
N3>
1
space="preserve" listing-type="equation">N2·
N3>
1where II1;
the quantity of said input currentII2;
the quantity of said second input currentIR;
the quantity of said reference currentN1;
a ratio of the quantity of said intermediate output current to the quantity of said input currentN2;
a ratio of the current quantity of said second output current to the quantity of said intermediate input currentN3;
a ratio of the current quantity of said output current to that of said intermediate input current.
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6. A current type logic circuit, comprising:
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a first power source and a second power source; reference current supply means having one end which is connected to said first power source and the other end for supplying a reference current; a first MOS current mirror circuit having a first input part for receiving a first input current and a first output part which is connected to the other end of said reference current supply means; a second MOS current mirror circuit having a second input part for receiving a second input current and a second output part which is connected to the other end of said reference current supply means through said first MOS current mirror circuit, said first MOS current mirror circuit supplying a first intermediate output current whose current quantity is in proportion to that of said first input current between said first output part and said second output part, said second MOS current mirror circuit supplying a second intermediate output current whose current quantity is in proportion to that of said second input current between said second output part and said second power source; and a third MOS current mirror circuit having a third input part which is connected to the other end of said reference current supply means and a third output part for carrying an output current, said third MOS current mirror circuit supplying said output current between said third output part and said second power source, the current quantity of said output current supplied by said third MOS current mirror circuit being in proportion to an intermediate input current which flows between said third input part and said second power source, wherein said MOS current type logic circuits satisfy all of the following conditions;
space="preserve" listing-type="equation">N1·
II1≧
IR;
space="preserve" listing-type="equation">N2·
II2≧
IR;
space="preserve" listing-type="equation">N3>
1
space="preserve" listing-type="equation">N1·
N3>
1
space="preserve" listing-type="equation">N2·
N3>
1where II1;
the quantity of said input currentII2;
the quantity of said second input currentIR;
the quantity of said reference currentN1;
a ratio of the quantity of said intermediate output current to the quantity of said input currentN2;
a ratio of the current quantity of said second output current to the quantity of said intermediate input currentN3;
a ratio of the current quantity of said output current to that of said intermediate input current. - View Dependent Claims (7, 8)
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9. A current type logic circuit, comprising:
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a first power source and a second power source; a first current type inverter circuit and a second current type inverter circuit, each including;
reference current supply means having one end which is connected to said first power source and the other end for supplying a reference current;
a first current mirror circuit having a first input part for receiving an input current and a first output part which is connected to the other end of said reference current supply means so as to supply an intermediate output current, whose current quantity is in proportion to that of said input current, between said first output part and said second power source; and
a second current mirror circuit having a second input part which is connected to the other end of said reference current supply means and a second output part for carrying an output current so as to supply said output current, whose current quantity is in proportion to that of an intermediate input current which flows between said second input part and said second power source, between said second output and said second power source; anda connection circuit having a first connection part and a second connection part, said first connection part being connected to second output part of said first current type inverter circuit, said second connection part being connected to first input part of said second current type inverter circuit, wherein said connection circuit supplies a current whose current quantity is in proportion to that of said output current from first current type inverter circuit between said first power source and said first input part of said second current type inverter circuit as said input current which is to be supplied to said second current type inverter circuit. - View Dependent Claims (10, 11)
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12. A current type logic circuit, comprising:
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a first power source and a second power source; and a first current type inverter circuit and a second current type inverter circuit, said first current type inverter circuit including; first reference current supply means having one end which is connected to said first power source and the other end for supplying a first reference current; a first current mirror circuit having a first input part for receiving a first input current and a first output part which is connected to the other end of said first reference current supply means so as to supply a first intermediate output current, whose current quantity is in proportion to said first input current, between said first output part and said second power source; and a second current mirror circuit having a second input part which is connected to the other end of said first reference current supply means and a second output part for carrying a first output current so as to supply said first output current, whose current quantity is in proportion to that of a first intermediate input current which flows between said second input part and said second power source, between said second output part and said second power source, said second current type inverter circuit including; second reference current supply means having one end which is connected to said second power source and the other end for supplying a second reference current; a third current mirror circuit having a third input part for receiving a second input current and a third output part which is connected to the other end of said second reference current supply means so as to supply a second intermediate output current, whose current quantity is in proportion to that of said second input current, between said third output part and said first power source; and a fourth current mirror circuit having a fourth input part which is connected to the other end of said second reference current supply means a fourth output part for carrying a second output current so as to supply said second output current, whose current quantity is in proportion to that of a second intermediate input current which flows between said fourth input part and said first power source, between said fourth output part and said first power source, wherein said second output part of said first current mirror circuit and said third input part of said second current mirror circuit are connected to each other so that said first output current is used as said second input current. - View Dependent Claims (13)
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14. A semiconductor integrated circuit which includes a MOS current type inverter circuit and which is formed by a plurality of macro blocks each performing a predetermined logic function, said MOS current type inverter circuit, including:
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a first power source and a second power source; reference current supply means having one end which is connected to said first power source and the other end for supplying a reference current, said reference current supply means receives a control signal from outside and sets the current quantity of said reference current based on said control signal; a first MOS current mirror circuit having a first input part for receiving an input current and a first output part which is connected to the other end of said reference current supply means, said first MOS current mirror circuit supplying an intermediate output current between said first output part and said second power source, the current quantity of said intermediate output current being in proportion to said input current; a second MOS current mirror circuit having a second input part which is connected to the other end of said reference current supply means and a second output part for carrying an output current, said second MOS current mirror circuit supplying said output current between said second output part and said second power source, the current quantity of said output current supplied by said second MOS current mirror circuit being in proportion to an intermediate input current which flows between said second input part and said second power source, wherein said MOS current type inverter circuits satisfy all of the following conditions;
space="preserve" listing-type="equation">N1·
II≧
IR;
space="preserve" listing-type="equation">N2>
1;and
space="preserve" listing-type="equation">N1·
N2>
1where II;
the quantity of said input currentIR;
the quantity of said reference currentN1;
a ratio of the quantity of said intermediate output current to the quantity of said input currentN2;
a ratio of the current quantity of said second output current to the quantity of said intermediate input current,wherein each one of said plurality of macro blocks includes at least one said MOS current type inverter circuit and receives said control signal independently from each other. - View Dependent Claims (15, 16)
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Specification
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Current AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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Original AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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InventorsNotani, Hiromi, Kondoh, Harufusa
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Primary Examiner(s)Westin, Edward P.
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Assistant Examiner(s)Driscoll, Benjamin D.
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Application NumberUS08/544,280Time in Patent Office665 DaysField of Search326/112, 326/115, 326/100, 326/79, 326/127US Class Current326/115CPC Class CodesH03K 19/09432 with coupled sources or sou...H03K 19/09441 of the same canal typeH03K 19/0948 using CMOS or complementary...H03K 3/0231 Astable circuits H03K3/0315...H03K 3/03 Astable circuitsH03K 3/0322 with differential cellsH03K 3/354 Astable circuitsH03K 3/356069 using additional transistor...H03K 3/356165 using additional transistor...H03L 7/087 using at least two phase de...H03L 7/089 the phase or frequency dete...H03L 7/0995 the oscillator comprising a...
