High-speed low-voltage differential swing transmission line transceiver
First Claim
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1. A data transmitter for receiving a single-ended binary input signal and converting said single-ended binary input signal to a differential swing binary output signal, said data transmitter comprising:
- first and second conduction paths connected in parallel between a first node and a second node;
first and second MOSFETs connected in series in said first conduction path and third and fourth MOSFETS connected in series in said second conduction path, said first MOSFET being located nearer said first node than said second MOSFET and said third MOSFET being located nearer said first node than said fourth MOSFET;
a current source for supplying a supply current to said first and second conduction paths via said first node, and a temperature compensation unit, said temperature compensation unit providing a temperature compensation current which increases with increasing temperature so as to compensate for temperature-induced variations in said supply current;
a first input connected in common to a gate of said first MOSFET and a gate of said fourth MOSFET, and a second input connected in common to a gate of said second MOSFET and a gate of said third MOSFET, said first input being for carrying a signal which is high when a signal in said second input is low and said second input being for carrying a signal which is high when a signal in said first input is low;
a third conduction path connecting said second node to ground; and
a pair of output terminals connected, respectively, to a point in said first conduction path between said first and second MOSFETs and a point in said second conduction path between said third and fourth MOSFETs.
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Abstract
A data transceiver includes a transmitter connected at one end of a data transmission line and a receiver connected at the other end of the data transmission line. At least some portions of the transceiver are formed in CMOS. A temperature compensation circuit is connected to selected components of the transceiver to correct for temperature-induced variations in currents through those components. The temperature compensation circuit includes a pair of transistors connected, respectively, in parallel conduction paths. The transistors have unequal emitter areas, and their gates are tied together. The current through the larger transistor varies directly with temperature, and this current is reflected in a current mirror transistor that is connected to the shorted gates of the transistor pair. Since in CMOS technology current varies inversely with temperature, the current through the mirror transistor provides temperature compensation for selected components of the transceiver.
51 Citations
8 Claims
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1. A data transmitter for receiving a single-ended binary input signal and converting said single-ended binary input signal to a differential swing binary output signal, said data transmitter comprising:
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first and second conduction paths connected in parallel between a first node and a second node; first and second MOSFETs connected in series in said first conduction path and third and fourth MOSFETS connected in series in said second conduction path, said first MOSFET being located nearer said first node than said second MOSFET and said third MOSFET being located nearer said first node than said fourth MOSFET; a current source for supplying a supply current to said first and second conduction paths via said first node, and a temperature compensation unit, said temperature compensation unit providing a temperature compensation current which increases with increasing temperature so as to compensate for temperature-induced variations in said supply current; a first input connected in common to a gate of said first MOSFET and a gate of said fourth MOSFET, and a second input connected in common to a gate of said second MOSFET and a gate of said third MOSFET, said first input being for carrying a signal which is high when a signal in said second input is low and said second input being for carrying a signal which is high when a signal in said first input is low; a third conduction path connecting said second node to ground; and a pair of output terminals connected, respectively, to a point in said first conduction path between said first and second MOSFETs and a point in said second conduction path between said third and fourth MOSFETs. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A combination comprising:
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a data transmitter comprising; a switching circuit connected between a supply voltage and ground and having first and second inputs, said switching circuit comprising; a current source for supplying a supply current; and a common mode resistor connected to ground; a differential swing data transmission line connected to said data transmitter, said differential swing data transmission line including two wires connected together by a termination resistor; and a temperature-compensation unit, said temperature-compensation unit providing a temperature compensation current which increases with increasing temperature so as to compensate for temperature-induced variations in said supply current, wherein the total of said supply current and said temperature compensation current and the size of said common mode resistor determine a common mode voltage of a differential data signal supplied by said data transmitter on said differential swing data transmission line. - View Dependent Claims (8)
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Specification
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Current AssigneeNational Semiconductor Corporation (Texas Instruments, Inc.)
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Original AssigneeNational Semiconductor Corporation (Texas Instruments, Inc.)
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InventorsKuo, James R.
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Primary Examiner(s)Chin, Stephen
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Assistant Examiner(s)VO, DON NGUYEN
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Application NumberUS08/395,744Time in Patent Office448 DaysField of Search375/257, 375/219, 375/220, 375/214, 375/295, 326/62, 326/68, 326/82, 326/83, 326/86, 326/90US Class Current375/257CPC Class CodesH03K 17/04106 in field-effect transistor ...H03K 17/6871 the output circuit comprisi...H03K 17/6872 using complementary field-e...H03K 5/151 with two complementary outputsH04L 25/0272 Arrangements for coupling t...H04L 25/028 Arrangements specific to th...H04L 25/0292 Arrangements specific to th...
