Self-compensated dual tone multiple frequency generator
First Claim
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1. A self-compensated dual tone multiple frequency (DTMF) generator, comprising:
- (1) a DC voltage shift-down bias generator circuit having first and second voltage terminals;
(2) a voltage divider connected between the first and second voltage terminals;
(3) a plurality of row voltage sampling switches having first terminals connected to separate outputs of said voltage divider and second terminals connected together and to a row tone output terminal;
(4) a plurality of column sampling switches having first terminals connected to separate outputs of said voltage divider and second terminals connected together and to a column tone output terminal;
(5) a row tone level-shift-up buffer follower stage having an input terminal connected to the row tone output terminal;
(6) a column tone level shift-up buffer follower stage having an input terminal connected to the column tone output terminal;
(7) a reference voltage level-shift-up buffer follower stage having an input terminal connected to a determined output of said voltage divider resistor;
(8) a summation operational amplifier connected to output terminals of each of the buffer follower stages for adding the outputs of the row tone level-shift-up buffer follower and the column tone level-shift-up buffer follower and for offsetting the adding of the outputs by the output from the reference voltage level-shift-up buffer stage to generate a dual tone multiple frequency signal; and
(9) means for compensating for a voltage level shift between input and output terminals of each of said buffer follower stages, said compensating means being part of said DC voltage shift-down bias generator circuit so that said circuit self-compensates.
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Abstract
A Dual-Tone Multi-Frequency (DTMF) Generator produces a row and column tone frequency for application to the input of two source follower buffer stages. The outputs of the buffers stages are combined in summation operational amplifier to generate the DTMF Signal. There is a voltage level shift between the input and output terminal of the source followers which can be compensated with a self-compensated circuit. With a perfect match between the compensated signal and the source follower, the operational range of working voltage can be about 1.8V to 5V, and the generator can tolerate threshold voltage variation of the transistors.
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Citations
12 Claims
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1. A self-compensated dual tone multiple frequency (DTMF) generator, comprising:
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(1) a DC voltage shift-down bias generator circuit having first and second voltage terminals; (2) a voltage divider connected between the first and second voltage terminals; (3) a plurality of row voltage sampling switches having first terminals connected to separate outputs of said voltage divider and second terminals connected together and to a row tone output terminal; (4) a plurality of column sampling switches having first terminals connected to separate outputs of said voltage divider and second terminals connected together and to a column tone output terminal; (5) a row tone level-shift-up buffer follower stage having an input terminal connected to the row tone output terminal; (6) a column tone level shift-up buffer follower stage having an input terminal connected to the column tone output terminal; (7) a reference voltage level-shift-up buffer follower stage having an input terminal connected to a determined output of said voltage divider resistor; (8) a summation operational amplifier connected to output terminals of each of the buffer follower stages for adding the outputs of the row tone level-shift-up buffer follower and the column tone level-shift-up buffer follower and for offsetting the adding of the outputs by the output from the reference voltage level-shift-up buffer stage to generate a dual tone multiple frequency signal; and (9) means for compensating for a voltage level shift between input and output terminals of each of said buffer follower stages, said compensating means being part of said DC voltage shift-down bias generator circuit so that said circuit self-compensates. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A self-compensated dual tone multiple frequency generator, comprising:
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(1) a DC voltage shift-up bias generator circuit having first and second voltage terminals; (2) a voltage divider connected between the first and second voltage terminals; (3) a plurality of row voltage sampling switches having first terminals connected to separate outputs of said voltage divider and second terminals connected together and to a row tone output terminal; (4) a plurality of column sampling switches having first terminals connected to separate outputs of said voltage divider and second terminals connected together and to a column tone output terminal; (5) a row tone level-shift-down buffer follower stage having an input terminal connected to the row tone output terminal; (6) a column tone level-shift-down buffer follower stage having an input terminal connected to the column tone output terminal; (7) a reference voltage level-shift-down buffer follower stage having an input terminal connected to a determined output of said voltage divider resistor; (8) a summation operational amplifier connected to outputs of each of the buffer follower stages for adding the outputs of the row tone level-shift-down buffer follower and the column tone level-shift-down buffer follower and for offsetting the adding of the outputs by the output from the reference level-shift-down buffer follower stage to generate a dual tone multiple frequency signal; and (9) means for compensating for a voltage level shift between input and output terminals of each of said buffer follower stages, said compensating means being part of said self-compensated DC voltage shift-up bias generator circuit so that said circuit self-compensates. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification