Method and circuit for generation of digitally frequency-shiftable electric signals

US 4,083,008 A
Filed: 04/09/1976
Issued: 04/04/1978
Est. Priority Date: 04/10/1975
Status: Expired due to Term

First Claim

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1. A frequency-switchable wave generator suitable for use in transmitting coded information by frequency shift including an oscillator, a frequency-switchable frequency divider for dividing the frequency of the output of the oscillator by a switchable ratio, a repetitive function generator circuit for converting the output of the frequency divider to a wave of a predetermined shape and an output stage responsive to the output of the repetitive function generator circuit in which the improvement is embodied that:

the repetitive function generator circuit (55) contains a counter (87) having its stepping input connected for response to a signal derived from the output of said frequency divider and connected by digital combinational logic means (90 to

108) to an array of resistors (R₁ to R₅) energized in parallel through an additional resistor (R₆) on which a d.c. voltage of predetermined value is applied, so as to produce at a first output (109), at the connection between said additional resistor (R₆) and said resistors energized in parallel (R₁ to R₅), a stepped periodic voltage wave of which the periodicity depends upon the stepping frequency of the counter (87), and which consists of an alternately rising and falling succession of intervals of a set of non-zero voltage levels of the same polarity of which the lowest and the highest are maintained for two-count intervals, approximating a succession of unipolar halves of a bipolar sinusoidal wave that passes through zero in the middle of the two-count interval of said lowest voltage level;

said ouput stage includes a coupling amplifier circuit (110,111) to the input of which said first output of said function generator circuit is connected and to the output of which is connected an output transformer having two mutually coupled energizing winding halves (112,113) across which the stepped periodic voltage wave produced by the repetitive function generator circuit (55) is caused to appear, andsaid output transformer is interconnected with low pass filtering means (114,

115) and with gating means (116,117) respectively connected to said winding halves (112,113) and with an alternating gating wave generator (120) responsive to said second output of said function generator so as to provide alternating polarity reversal in such a way that for the duration of a first period of the stepped periodic voltage wave a current is caused to flow through a first one of said winding halves (112) and for the duration of the next period of the stepped periodic voltage a current is caused to flow through the second of said winding halves (113), and so on in alternation.

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Abstract

A first counter operating as a frequency-shiftable frequency divider is caused to reset before its normal count recycle in one setting of a flip-flop to reduce the factor of frequency division in response to a keying signal. A second counter, operating on a digital input derived from the output of the frequency-shiftable divider sequences a logic network to produce a stepped wave output, with steps each of a duration of one or two count intervals sequentially connecting voltage at one of four several non-zero predetermined voltage levels in a predetermined sequence to the output. The stepped wave approximates a succession of half-wave sinusoids of the same polarity in which the bottom step of zero voltage is of zero width so that the last next lowest step of one sinusoid and the first of the next sinusoid join into a single two-period step. This wave is power-amplified and the polarity of alternate half sinusoids is reversed in the middle of the low two-period step, by switching in the output stage under control of the second counter. Strict symmetry of the resulting approximation of a sine wave is obtained with few different resistors defining one quarter of the wave shape. The circuit in the frequency divider that produces frequency changes in response to the keying signal is timed by a logic network to switch over only at alternate transitions of the output sinusoidal wave intervals.

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22 Claims

1. A frequency-switchable wave generator suitable for use in transmitting coded information by frequency shift including an oscillator, a frequency-switchable frequency divider for dividing the frequency of the output of the oscillator by a switchable ratio, a repetitive function generator circuit for converting the output of the frequency divider to a wave of a predetermined shape and an output stage responsive to the output of the repetitive function generator circuit in which the improvement is embodied that:
- the repetitive function generator circuit (55) contains a counter (87) having its stepping input connected for response to a signal derived from the output of said frequency divider and connected by digital combinational logic means (90 to
  
  108) to an array of resistors (R₁ to R₅) energized in parallel through an additional resistor (R₆) on which a d.c. voltage of predetermined value is applied, so as to produce at a first output (109), at the connection between said additional resistor (R₆) and said resistors energized in parallel (R₁ to R₅), a stepped periodic voltage wave of which the periodicity depends upon the stepping frequency of the counter (87), and which consists of an alternately rising and falling succession of intervals of a set of non-zero voltage levels of the same polarity of which the lowest and the highest are maintained for two-count intervals, approximating a succession of unipolar halves of a bipolar sinusoidal wave that passes through zero in the middle of the two-count interval of said lowest voltage level;
  
  said ouput stage includes a coupling amplifier circuit (110,111) to the input of which said first output of said function generator circuit is connected and to the output of which is connected an output transformer having two mutually coupled energizing winding halves (112,113) across which the stepped periodic voltage wave produced by the repetitive function generator circuit (55) is caused to appear, andsaid output transformer is interconnected with low pass filtering means (114,
  
  115) and with gating means (116,117) respectively connected to said winding halves (112,113) and with an alternating gating wave generator (120) responsive to said second output of said function generator so as to provide alternating polarity reversal in such a way that for the duration of a first period of the stepped periodic voltage wave a current is caused to flow through a first one of said winding halves (112) and for the duration of the next period of the stepped periodic voltage a current is caused to flow through the second of said winding halves (113), and so on in alternation.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 2. A frequency-switchable wave generator as defined in claim 1, in which said low-pass filtering means are composed of a resistance (114) and a capacitance (115), both connected in parallel to a combination of both of said winding halves (112,113).
  - 3. A frequency-switchable wave generator as defined in claim 1, in which said coupling amplifier circuit consists of a plurality of transistors (110,111) each of which is connected as an emitter follower.
  - 4. A frequency-switchable wave generator as defined in claim 1, in which said frequency divider (53) includes a counter (72), a second combinational logic means (73 to 83, 86) and a bistable multivibrator (84, 85) so interconnected that a point (D) provided in the interconnections of said combinational logic means (73 to 83, 86) a binary signal may be applied having the effect of switching said frequency divider circuit (53) between a first and a second frequency division ratio.
  - 5. A frequency-switchable wave generator as defined in claim 1, in which said second output of said function generator circuit is also connected internally of said function generator circuit so as to provide a resetting pulse for said counter (87) of said function generator circuit (55).
  - 6. A frequency-switchable wave generator as defined in claim 1, in which second gating means (118,119) are interposed between said gating wave generator (120) and said first gating means for enabling and disabling said output stage (56) in response to a command signal.
  - 7. A frequency-switchable wave generator as defined in claim 1, in which said gating means (116,117) include power transistors respectively connected to each of said winding halves and respectively controlled through NAND-gates connected as signal inverters.
  - 8. A frequency-switchable wave generator as defined in claim 7, in which said alternate gating wave generator includes a bistable multivibrator (120) having its input connected to said second output of said function generator circuit and its output connected so as to drive said power transistors respectively into opposite states.
  - 9. A frequency-switchable wave generator as defined in claim 1, in which a frequency doubler (52) is interposed between said oscillator circuit (51) and said frequency divider (53).
  - 10. A frequency-switchable wave generator as defined in claim 9, in which a second frequency doubler (54) is interposed between said frequency divider (53) and said function generator circuit (55).
  - 11. A frequency-switchable wave generator as defined in claim 9, in which the input of said frequency doubler (52) includes an inverter (66) having its input connected to the input of said frequency doubler (52) and to a first capacitor (67) and its output connected to a second capacitor (70) and also contains a NOR-gate (68) having two inputs, each connected through one of said capacitors to a terminal of said inverter (66) and likewise each connected individually through a resistance (69, 71) to ground, the output of said NOR-gate (68) constituting the output of sad frequency doubler (52).
  - 12. A frequency-switchable wave generator as defined in claim 1, in which means (123,125,126) are provided for interconnecting said gating wave generator (120) with said frequency divider that said frequency divider is switchable only during alternate transitions of the output of said gating wave generator.
  - 13. A frequency-switchable wave generator as defined in claim 12, in which the output of said coupling amplifier circuit of said output stage is supplied to a common connection of said primary winding halves, and in which the other two terminals of said primary winding halves are connected through said gating means (116,117) for grounding the respective winding halves in alternation.
  - 14. A frequency-switchable wave generator as defined in claim 13, in which said function generator circuit includes a counter (87) having its stepping input connected for response to a signal derived from the output of said frequency divider and connected by digital combinational logic means (90 to 108) to an array of resistors (R₁ to R₅) energized in parallel through an additional resistor (R₆) on which a d.c. voltage of predetermined value is applied, so as to produce at a first output of the wave-shaping stage at the connection between said additional resistor (R₆) and said resistors energized in parallel (R₁ to R₅) a stepped periodic voltage which approximates a succession of sinusoidal half-waves of the same polarity and of which the periodicity depends upon the stepping frequency of the counter (87), andsaid output stage includes a coupling amplifier circuit to the input of which said first output of the repetitive function generator circuit is connected and to the output of which is connected an output transmission device (112,113) interconnected with control means (116,117) and low-pass filter means (114,115) in such a way as to enable said output transmission device to generate a sinusoidal electrical wave.
  - 15. A frequency-switchable wave generator as defined in claim 13, in which said low-pass filtering means are composed of a resistance (114) and a capacitance (115), both connected in parallel to a series combination of both of said winding halves (112,113).
  - 16. A frequency-switchable wave generator as defined in claim 13, in which said gating means (116,117) include power transistors respectively connected to each of said winding halves and respectively controlled through NAND-gates connected as signal inverters.
  - 17. A frequency-switchable wave generator as defined in claim 16, in which said alternate gating wave generator includes a bistable multivibrator (120) having its input connected to said second output of said function generator circuit and its output connected so as to drive said power transistors respectively into opposite states through a pair of NAND-gates (118,119) arranged to permit operation of the output stage to be enabled or blocked by a changeover control signal applied to an input of each of said NAND-gates.

18. A method of generating frequency-shift code signals for a system for automatic exchange of coded information, with an oscillator shiftable between predetermined frequencies, a repetitive function generator circuit and an output stage, comprising the steps of:
- generating electrical digital signals by means of said oscillator at at least two predetermined frequencies in a sequence of single-frequency emissions;
  
  producing, by using current from a direct current source, in said function generator circuit, in response to said digital signals, a repeated stepped wave formed of a succession of intervals of a constant non-zero voltage level of the same polarity of which the highest and the lowest levels are maintained for twice as long as each of the others and the different voltage levels succeed each other in steps alternately rising from the lowest to the highest and descending from the highest to the lowest;
  
  reversing the polarity of the wave produced in the preceding step at the middle of each interval of said lowest voltage level to produce an output wave;
  
  filtering the wave produced in the preceding step to smooth out the stepped structure, andshifting the frequency at which said electrical digitalsignals are generated from time to time but only at times coinciding with a polarity reversal which reverses the polarity of said output wave in a predetermined sense.
- View Dependent Claims (19, 20, 21, 22)
- - 19. A method as defined in claim 18, in which said voltage levels are so chosen that said output wave is a signal of sinusoidal form.
  - 20. A method as defined in claim 18, in which is included the additional step of controlling the time during which said output stage provides an output signal by means of an external command signal applied to the output stage.
  - 21. A method as defined in claim 18, in which the step of generating said digital signals consists of obtaining a basic timing frequency from said oscillator and subjecting it to frequency division, using a wave of the frequency thus divided in the second step set forth in claim 18, and performing the frequency-shifting step by switching the ratio of frequency division to which the basic timing frequency is subjected.
  - 22. A method a defined in claim 21, in which the step of switching the frequency division ratio is an operation of switching between two division ratios and is controlled by a control signal from a source external to the oscillator, frequency divider and repetitive function generator circuits, resulting in the provision to the repetitive function generator circuit of a digital signal that is keyed between an upper and a lower frequency.

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Current Assignee
Blaupunkt-Werke GmbH (Aurelius AG)
Original Assignee
Blaupunkt-Werke GmbH (Aurelius AG)
Inventors
Eschke, Bernd
Primary Examiner(s)
Griffin, Robert L.
Assistant Examiner(s)
Masinick, Michael A.

Application Number

US05/675,318
Time in Patent Office

725 Days
Field of Search

325/163, 340/171 R, 178/66 R, 178/67, 178/66 A
US Class Current

375/303
CPC Class Codes

G08G 1/096716   where the received informat...

G08G 1/096758   where no selection takes pl...

G08G 1/096775   where the origin of the inf...

G08G 1/096783   where the origin of the inf...

H03K 4/026   using digital techniques

H04B 5/00   Near-field transmission sys...

Method and circuit for generation of digitally frequency-shiftable electric signals

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Method and circuit for generation of digitally frequency-shiftable electric signals

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