Buffer circuit, buffer tree, and semiconductor device
First Claim
1. A buffer circuit having an input terminal for receiving an input signal and an output terminal for outputting an output signal, comprising:
- a first transistor and a second transistor connected in series between a first power supply and a second power supply having different power supply voltages, each having a control terminal, said first and second transistors being controlled to be on and off based on signals respectively fed to said control terminals, a connection node between said first and second transistors being connected to said output terminal of said buffer circuit, said control terminal of said first transistor being connected to said input terminal of said buffer circuit; and
a control circuit having at least an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit, and an output terminal for outputting the signal to be supplied to said control terminal of said second transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to the voltage of said second power supply, said second transistor is turned off, when the input signal changes from the second logic level to a first logic level corresponding to the voltage of said first power supply, said second transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to change to the voltage of said second power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, said second transistor is set to be off, and when the input signal undergoes a transition from the first logic level to the second logic level and said first transistor is switched from off to on, said second transistor is kept off, wherein said control circuit further comprises;
an inverter having an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit and an output terminal for outputting an inverted signal of the input signal;
a delay circuit for receiving the input signal supplied to said input terminal of said buffer circuit and outputting a delayed signal of the input signal; and
a logic circuit having two input terminals for receiving the output signal from said inverter and the output signal from said delay circuit and having an output terminal for outputting a signal at a logic level for turning on said second transistor to said control terminal of said second transistor when the signals received at said two input terminals are both at the second logic level; and
wherein the signal outputted from said delay circuit changes from the second logic level to the first logic level before a timing at which the input signal supplied to said input terminal of said buffer circuit changes from the first logic level to the second logic level, and when the input signal supplied to said input terminal of said buffer circuit changes from the first logic level to the second logic level, said second transistor is set to be in an off state.
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Accused Products
Abstract
A buffer circuit includes first and second transistors which are connected in series between first and second power supplies and which are controlled to be on/off based on values of signals at their control terminals are provided, in which a connection point between the two transistors is connected to an output terminal (OUT) and a control terminal of the first transistor is connected to an input terminal (IN), and a control circuit for performing on/off control over the second transistor based on an input signal from the input terminal (IN). The control circuit performs control so that when the input signal is at a second logic level corresponding to the second power supply, the second transistor is turned off, when the input signal goes to a first logic level corresponding to the first power supply, the second transistor is turned on to cause the output terminal (OUT) to a second power supply voltage, next, when the second transistor is turned off and then the input signal undergoes a transition from the first logic level to the second logic level and the first transistor switches from off to on, with the second transistor being kept off. A flip-flop is connected to the output terminal (OUT).
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Citations
17 Claims
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1. A buffer circuit having an input terminal for receiving an input signal and an output terminal for outputting an output signal, comprising:
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a first transistor and a second transistor connected in series between a first power supply and a second power supply having different power supply voltages, each having a control terminal, said first and second transistors being controlled to be on and off based on signals respectively fed to said control terminals, a connection node between said first and second transistors being connected to said output terminal of said buffer circuit, said control terminal of said first transistor being connected to said input terminal of said buffer circuit; and
a control circuit having at least an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit, and an output terminal for outputting the signal to be supplied to said control terminal of said second transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to the voltage of said second power supply, said second transistor is turned off, when the input signal changes from the second logic level to a first logic level corresponding to the voltage of said first power supply, said second transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to change to the voltage of said second power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, said second transistor is set to be off, and when the input signal undergoes a transition from the first logic level to the second logic level and said first transistor is switched from off to on, said second transistor is kept off, wherein said control circuit further comprises;
an inverter having an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit and an output terminal for outputting an inverted signal of the input signal;
a delay circuit for receiving the input signal supplied to said input terminal of said buffer circuit and outputting a delayed signal of the input signal; and
a logic circuit having two input terminals for receiving the output signal from said inverter and the output signal from said delay circuit and having an output terminal for outputting a signal at a logic level for turning on said second transistor to said control terminal of said second transistor when the signals received at said two input terminals are both at the second logic level; and
wherein the signal outputted from said delay circuit changes from the second logic level to the first logic level before a timing at which the input signal supplied to said input terminal of said buffer circuit changes from the first logic level to the second logic level, and when the input signal supplied to said input terminal of said buffer circuit changes from the first logic level to the second logic level, said second transistor is set to be in an off state. - View Dependent Claims (2)
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3. A buffer circuit including a first buffer having an input terminal for receiving an input signal and an output terminal for outputting an inverted signal of the input signal;
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a second buffer circuit having an input terminal connected to said output terminal of said first buffer circuit, inverting the signal supplied to said input terminal and having an output terminal for outputting the inverted signal;
said first buffer circuit comprising;
a first transistor and a second transistor connected in series between a first power supply and a second power supply having different power supply voltages, each having a control terminal, said first and second transistors being controlled to be on and off based on signals respectively fed to said control terminals, a connection node between said first transistor and said second transistor being connected to said output terminal of said buffer circuit, said control terminal of said first transistor being connected to said input terminal of said buffer circuit; and
a first control circuit having at least an input terminal for receiving the input signal supplied to said input terminal of said first buffer circuit, and having an output terminal for outputting the signal to be supplied to said control terminal of said second transistor, said first control circuit performing control so that when the input signal is at a second logic level corresponding to the voltage of said second power supply, said second transistor is turned off, when the input signal changes from the second logic level to a first logic level corresponding to the voltage of said first power supply, said second transistor is turned on to cause an output signal voltage of said output terminal of said buffer circuit to undergo a transition to the voltage of said second power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, said second transistor is set to be off, and when the input signal undergoes a transition from the first logic level to the second logic level and said first transistor is switched from said off to on, said second transistor is kept off;
said second buffer circuit comprising;
a third transistor and a fourth transistor connected in series between said first power supply and said second power supply, being controlled to be on and off based on signals supplied to respective control terminals thereof, a connection node between said third transistor and said fourth transistor being connected to said output terminal of said second buffer circuit, said control terminal of said third transistor being connected to said input terminal of said second buffer circuit; and
a second control circuit having at least an input terminal for receiving the output signal of said first buffer circuit supplied to said input terminal of said second buffer circuit and having an output terminal for outputting the signal to be supplied to said control terminal of said fourth transistor, said second control circuit performing control so that when the output signal of said first buffer circuit is at the first logic level, said fourth transistor is turned off, when the output signal of said first buffer circuit changes from the first logic level to the second logic level, said fourth transistor is turned on to cause an output signal voltage of said output terminal of said second buffer circuit to undergo a transition to the voltage of said first power supply, thereafter, before the output signal of said first buffer circuit undergoes a transition from the second logic level to the first logic level, said fourth transistor is set to be off, and when the output signal of said first buffer circuit changes from the second logic level to the first logic level and said third transistor is switched from off to on, said fourth transistor is kept in off. - View Dependent Claims (4, 5)
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6. A buffer circuit comprising:
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first and second MOS translators of mutually opposite conductivity types, connected in series between a high-potential power supply and a low-potential power supply, a connection node between a drain of said first MOS transistor and a drain of said second MOS transistor being connected to an output terminal of said butter circuit, a gate of said first MOS transistor being connected to an input terminal of said buffer circuit; and
a control circuit receiving an input signal supplied to said input terminal of said buffer circuit and outputting a signal to be supplied to a gate of said second MOS transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to a voltage of said low-potential power supply, said second MOS transistor is turned off, when the input signal is at a first logic level corresponding to a voltage of said high-potential power supply, said second MOS transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to undergo a transition to the voltage of said low-potential power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, the signal supplied to said gate of said second MOS transistor is set at the second logic level to turn off said second MOS transistor, and when the input signal undergoes a transition from the first logic level to the second logic level to cause said first MOS transistor to transition from off to on, said second MOS transistor is kept off. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A buffer circuit having an input terminal for receiving an input signal and an output terminal for outputting an output signal, comprising:
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a first transistor and a second transistor connected in series between a first power supply and a second power supply having different power supply voltages, each having a control terminal, said first and second transistors being controlled to be on and off based on signals respectively fed to said control terminals, a connection node between said first and second transistors being connected to said output terminal of said buffer circuit, said control terminal of said first transistor being connected to said input terminal of said buffer circuit; and
a control circuit having at least an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit, and an output terminal for outputting the signal to be supplied to said control terminal of said second transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to the voltage of said second power supply, said second transistor is turned off, when the input signal changes from the second logic level to a first logic level corresponding to the voltage of said first power supply, said second transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to change to the voltage of said second power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, said second transistor is set to be off, and when the input signal undergoes a transition from the first logic level to the second logic level and said first transistor is switched from off to on, said second transistor is kept off;
wherein said control circuit farther includes an input terminal for receiving a selection control signal for controlling activation and deactivation of said buffer circuit; and
said control circuit outputting the signal at a logic level for turning off said second transistor when the selection control signal input thereto indicates a value commanding deactivation of said buffer circuit.
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14. A buffer circuit having an input terminal for receiving an input signal and an output terminal for outputting an output signal, comprising:
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a first transistor and a second transistor connected in series between a first power supply and a second power supply having different power supply voltages, each having a control terminal, said first and second transistors being controlled to be on and off based on signals respectively fed to said control terminals, a connection node between said first and second transistors being connected to said output terminal of said buffer circuit, said control terminal of said first transistor being connected to said input terminal of said buffer circuit; and
a control circuit having at least an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit, and an output terminal for outputting the signal to be supplied to said control terminal of said second transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to the voltage of said second power supply, said second transistor is turned off, when the input signal changes from the second logic level to a first logic level corresponding to the voltage of said first power supply, said second transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to change to the voltage of said second power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, said second transistor is set to be off, and when the input signal undergoes a transition from the first logic level to the second logic level and said first transistor is switched from off to on, said second transistor is kept off, wherein said control circuit further comprises;
a logic circuit receiving the input signal supplied to said input terminal of said buffer circuit, the output signal outputted from said output terminal of said buffer circuit, and a selection control signal for controlling activation and deactivation of said buffer circuit or an inverted signal of the selection control signal, and generating the signal to be supplied to said control terminal of said second transistor based on a result of a logic operation on the signals received; and
whereinsaid logic circuit outputs the signal at a logic level for turning off said second transistor to said control terminal of said second transistor from an output terminal thereof irrespective of values of the other two signals input to said logic circuit when the selection control signal commands deactivation of said buffer circuit, generates the signal at a logic level for turning on said second transistor for supply to said control terminal of said second transistor when the selection control signal commands activation of said buffer circuit and the input signal supplied to said input terminal of said buffer circuit and the output signal outputted from said buffer circuit are both at the first logic level, and generates the signal at said logic level for turning off said second transistor for supply to said control terminal of said second transistor when said second transistor is then turned on and the output signal outputted from said output terminal of said buffer circuit becomes the second logic level.
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15. A buffer circuit having an input terminal for receiving an input signal and an output terminal for outputting an output signal, comprising:
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a first transistor and a second transistor connected in series between a first power supply and a second power supply having different power supply voltages, each having a control terminal, said first and second transistors being controlled to be on and off based on signals respectively fed to said control terminals, a connection node between said first and second transistors being connected to said output terminal of said buffer circuit, said control terminal of said first transistor being connected to said input terminal of said buffer circuit; and
a control circuit having at least an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit, and an output terminal for outputting the signal to be supplied to said control terminal of said second transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to the voltage of said second power supply, said second transistor is turned off, when the input signal changes from the second logic level to a first logic level corresponding to the voltage of said first power supply, said second transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to change to the voltage of said second power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, said second transistor is set to be off, and when the input signal undergoes a transition from the first logic level to the second logic level and said first transistor is switched from off to on, said second transistor is kept off further comprising a flip-flop circuit having an input terminal connected to said output terminal of said buffer circuit, for storing and holding a logic level of the output signal of said buffer circuit and having an output terminal for outputting a signal which said flip-flop circuit stores and holds, said output terminal of said flip-flap circuit being connected to said output terminal of said buffer circuit, wherein said control circuit further comprises;
an inverter having an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit and an output terminal for outputting an inverted signal of the input signal; and
a logic circuit having first, second and third input terminals for receiving a signal at a logic level inverted from said logic level of the output signal of the output terminal of said buffer circuit and stored and held in said flip-flop circuit, the output signal of said inverter, and a selection control signal for controlling activation and deactivation of said buffer circuit or an inverted signal of the selection control signal respectively;
said logic circuit having an output terminal for outputting the signal at a logic level for turning on said second transistor to said control terminal of said second transistor when the selection control signal supplied to said third input terminal indicates a value commanding activation of said buffer circuit and the signals supplied to said first and second input terminals are both at the second logic level, said logic circuit outputting the signal at a logic level for turning off said second transistor from said output terminal thereof to said control terminal of said second transistor from said output terminal thereof, irrespective of values of the other two input signals, when the selection control signal commands deactivation of said buffer circuit.
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16. A buffer circuit having an input terminal for receiving an input signal and an output terminal for outputting an output signal, comprising:
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a first transistor and a second transistor connected in series between a first power supply and a second power supply having different power supply voltages, each having a control terminal, said first and second transistors being controlled to be on and off based on signals respectively fed to said control terminals, a connection node between said first and second transistors being connected to said output terminal of said buffer circuit, said control terminal of said first transistor being connected to said input terminal of said buffer circuit; and
a control circuit having at least an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit, and an output terminal for outputting the signal to be supplied to said control terminal of said second transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to the voltage of said second power supply, said second transistor is turned off, when the input signal changes from the second logic level to a first logic level corresponding to the voltage of said first power supply, said second transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to change to the voltage of said second power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, said second transistor is set to be off, and when the input signal undergoes a transition from the first logic level to the second logic level and said first transistor is switched from off to on, said second transistor is kept off, wherein said control circuit further comprises;
an inverter having an input terminal for receiving the input signal supplied to said input terminal of said buffer circuit and an output terminal for outputting an inverted signal of the input signal;
a delay circuit for receiving the input signal supplied to said input terminal of said buffer circuit and outputting a delayed signal of the input signal; and
a logic circuit having first, second and third input terminals for receiving the output signal of said invertor, the output signal of said delay circuit, and a selection control signal for controlling activation and deactivation of said buffer circuit or an inverted signal of selection control signal, respectively, said logic circuit having an output terminal for outputting a signal at a logic level for turning on said second transistor to said control terminal of said second transistor when the selection control signal supplied to said third input terminal indicates a value commanding activation of said buffer circuit and the signals supplied to said first and second input terminals are both at the second logic level, said logic circuit outputting a signal at a logic level for turning off said second transistor to said control terminal of said second transistor from said output terminal, irrespective of values of the signals input to said first and second input terminals, when the selection control signal commands deactivation of said buffer circuit;
wherein when said buffer circuit is activated, the signal outputted from said delay circuit changes from the second logic level to the first logic level before a timing at which the input signal supplied to said input terminal of said buffer circuit changes from the first logic level to the second logic level, and when the input signal supplied to said input terminal of said buffer circuit changes from the first logic level to the second logic level, said second transistor is set to be off.
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17. A buffer circuit comprising:
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first and second MOS transistors of mutually opposite conductivity types, connected in series between a high-potential power supply and a low-potential power supply, a connection node between a drain of said first MOS transistor and a drain of said second MOS transistor being connected to an output terminal of said buffer circuit, a gate of said first MOS transistor being connected to an input terminal of said buffer circuit; and
a control circuit receiving an input signal supplied to an input terminal of said buffer circuit and outputting a signal to be supplied to a gate of said second MOS transistor, said control circuit performing control so that when the input signal is at a second logic level corresponding to a voltage of said high-potential power supply, said second MOS transistor is turned off, when the input signal is at a first logic level corresponding to a voltage of said low-potential power supply, said second MOS transistor is turned on to cause a voltage of an output signal of said output terminal of said buffer circuit to undergo a transition to the voltage of said high-potential power supply, thereafter, before the input signal undergoes a transition from the first logic level to the second logic level, the signal supplied to said gate of said second MOS transistor as set at the second logic level to turn off said second MOS transistor, and when the input signal undergoes a transition from the first logic level to the second logic level and said first MOS transistor undergoes a transition from off to on, said second MOS transistor is kept off, wherein said control circuit further comprises;
a first inverter having an input terminal for receiving die input signal supplied to said input terminal of said buffer circuit and an output terminal for outputting an inverted signal of the input signal;
a delay circuit receiving the input signal supplied to said input terminal of said buffer circuit and delaying the input signal to output the delayed signal; and
a logic circuit having two input terminal for receiving the output signal from said first inverter and the output signal of said delay circuit and having an output terminal for outputting a signal at a logic level for turning on said second MOS transistor to a control terminal of said second MOS transistor when the signals input to said two input terminals are both at the second logic level.
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Specification