Apparatus for determining the advance of a timing light

US 4,417,211 A
Filed: 07/06/1981
Issued: 11/22/1983
Est. Priority Date: 07/06/1981
Status: Expired due to Term

First Claim

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1. Apparatus for determining the advance of a timing light that produces flashes of illumination in response to ignition firing voltage supplied by an engine being evaluated, the amount of advance between the firing voltages and the flashes resulting therefrom being adjustable in accordance with a setting means and indicating means on the timing light, the combination comprising means for generating a first pulse train, means for establishing the frequency of the first pulse train at a first high value related to a selected engine speed, means for dividing the frequency of the first pulse train by a predetermined number in order to generate a second pulse train having a frequency of a second lower value, a firing circuit coupled to said dividing means and responsive to the second pulse train for producing firing voltages for the timing light, a photoelectric sensor responsive to flashes from the timing light to produce a sensor signal, circuit means responsive to the second pulse train and the sensor signal to generate an enable signal commencing with a pulse from said dividing means and terminating with said sensor signal, a counter having a clock input coupled to said generating means and an enable input coupled to said circuit means and being operative to count pulses in the first pulse train during the presence of the enable signal, and display means coupled to said counter and being operative to depict a number representative of the pulses counted by the counter.

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Abstract

A first pulse train is generated by a phase-locked loop circuit of which the frequency is adjustable to correspond to engine speeds of between 10 and 9,990 rpm. The pulse train is again divided to furnish a second pulse train for use in firing the timing light. A photoelectric sensor is responsive to flashes from the timing light. A D type flip-flop is coupled to the second pulse train and to the photoelectric sensor and generates an enable signal commencing with a pulse in the second pulse train and terminating with the sensor signal. A counter receives the first pulse train and is operative to count the pulses therein during the presence of the enable signal. A display depicts a number representative of the number of pulses counted by the counter.

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16 Claims

1. Apparatus for determining the advance of a timing light that produces flashes of illumination in response to ignition firing voltage supplied by an engine being evaluated, the amount of advance between the firing voltages and the flashes resulting therefrom being adjustable in accordance with a setting means and indicating means on the timing light, the combination comprising means for generating a first pulse train, means for establishing the frequency of the first pulse train at a first high value related to a selected engine speed, means for dividing the frequency of the first pulse train by a predetermined number in order to generate a second pulse train having a frequency of a second lower value, a firing circuit coupled to said dividing means and responsive to the second pulse train for producing firing voltages for the timing light, a photoelectric sensor responsive to flashes from the timing light to produce a sensor signal, circuit means responsive to the second pulse train and the sensor signal to generate an enable signal commencing with a pulse from said dividing means and terminating with said sensor signal, a counter having a clock input coupled to said generating means and an enable input coupled to said circuit means and being operative to count pulses in the first pulse train during the presence of the enable signal, and display means coupled to said counter and being operative to depict a number representative of the pulses counted by the counter.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The advance determining apparatus of claim 1, wherein said predetermined number is 7,200 and the second lower value is between 1/12 Hz. and 1/12 KHz.
  - 3. The advance determining apparatus of claim 1, wherein said firing circuit includes a Darlington pair and an inductive pickup.
  - 4. The advance determining apparatus of claim 1, wherein said firing circuit includes a differentiator for differentiating the pulses in said second pulse train.
  - 5. The advance determining apparatus of claim 1, and further comprising means for shaping the sensor signal before application to said circuit means.
  - 6. The advance determining apparatus of claim 1, wherein said circuit means is a dual-type D flip-flop having a D input coupled to a supply voltage, an R input coupled to said photoelectric sensor, a C input coupled to said dividing means, and an output providing the enable signal.
  - 7. The advance determining apparatus of claim 1, wherein said dividing means has a reset input coupled to receive the second pulse train.
  - 8. The advance determining apparatus of claim 1, wherein said counter has a reset input coupled to receive the second pulse train.
  - 9. The advance determining apparatus of claim 1, wherein all of the elements of said combination are in a single housing.

10. Apparatus for determining the advance of a timing light that produces flashes of illumination in response to ignition firing voltage supplied by an engine being evaluated, the amount of advance between the firing voltages and the flashes resulting therefrom being adjustable in accordance with a setting means and indicating means on the timing light, the combination comprising a phase-locked loop having first and second inputs and an output, an oscillator for producing an oscillator signal coupled to said first input, a divide-by-N circuit coupled from said output to said second input, whereby a first pulse train is produced on said output having a frequency of N times the frequency of the oscillator signal, N being related to a selected engine speed, means for dividing the frequency of the first pulse train by a predetermined number in order to generate a second pulse train having a frequency of a second lower value, a firing circuit coupled to said dividing means and responsive to the second pulse train for producing firing voltages for the timing light, a photoelectric sensor responsive to flashes from the timing light to produce a sensor signal, circuit means responsive to the second pulse train and the sensor signal to generate an enable signal commencing with a pulse from said dividing means and terminating with said sensor signal, a counter having a clock input coupled to said generating means and an enable input coupled to said circuit means and being operative to count pulses in the first pulse train during the presence of the enable signal, and display means coupled to said counter and being operative to depict a number representative of the pulses counted by the counter.
- View Dependent Claims (11, 12)
- - 11. The advance determining apparatus of claim 10, wherein the frequency of said oscillator signal is on the order of 600 Hz.
  - 12. The advance determining apparatus of claim 10, wherein N is between 1 and 1,000.

13. Apparatus for determining the advance of a timing light that produces flashes of illumination in response to ignition firing voltage supplied by an engine being evaluated, the amount of advance between the firing voltages and the flashes resulting therefrom being adjustable in accordance with a setting means and indicating means on the timing light, the combination comprising means for generating a first pulse train, means for establishing the frequency of the first pulse train at a first high value related to a selected engine speed, means for dividing the frequency of the first pulse train by a predetermined number in order to generate a second pulse train having a frequency of a second lower value, a firing circuit coupled to said dividing means and responsive to the second pulse train for producing firing voltages for the timing light, a photoelectric sensor responsive to flashes from the timing light to produce a sensor signal, circuit means responsive to the second pulse train and the sensor signal to generate an enable signal commencing with a pulse from said dividing means and terminating with said sensor signal, a counter having a clock input coupled to said generating means and an enable input coupled to said circuit means and being operative to count pulses in the first pulse train during the presence of the enable signal, a display driver coupled to said counter and being operative to provide a number representative of the number of pulses counted by the counter, and digital display means coupled to said display driver and being operative to depict a number corresponding to the number accepted by said display driver.
- View Dependent Claims (14, 15, 16)
- - 14. The advance determining apparatus of claim 13 and further comprising control means responsive to the sensor signal to generate a release signal upon the occurrence of the first flash and release signals thereafter upon the occurrence of flashes following a predetermined time-out period, said display driver having a control input coupled to said control means and being responsive to said release signal to release to said display means the number counted during the presence of the preceding enable signal and to continue to display that number on termination of the release signal until the next release signal.
  - 15. The advance determining apparatus of claim 13, wherein said control means includes a monostable multivibrator circuit coupled to said photoelectric sensor and being responsive to a sensor signal to produce a timer signal lasting for a predetermined duration, and a pulse shaper responsive to said timer signal to produce the release signal.
  - 16. The advance determining apparatus of claim 15, and further comprising a delay circuit coupled to said monostable multivibrator circuit for producing a blanking signal a predetermined time after inception of the timer signal, said display driver having a blanking input coupled to said delay circuit and being responsive to the blanking signal to blank said display means.

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Current Assignee
Snap-On Incorporated
Original Assignee
Snap-On Tools Company LLC (Snap-On Incorporated)
Inventors
Gibson, Gary S., Ciriacks, Patrick E.
Primary Examiner(s)
Krawczewicz, Stanley T.

Application Number

US06/280,296
Time in Patent Office

869 Days
Field of Search

324/392, 324/391, 73/117.2, 73/117.3, 73/119 R
US Class Current

324/392
CPC Class Codes

F02P 17/06 using a stroboscopic lamp

Apparatus for determining the advance of a timing light

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

10 Citations

16 Claims

Specification

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Apparatus for determining the advance of a timing light

First Claim

5 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

10 Citations

16 Claims

Specification

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Use Cases

Quick Links

Others