US3175122A - Ignition systems for internal combustion engines - Google Patents
Ignition systems for internal combustion engines Download PDFInfo
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- US3175122A US3175122A US862381A US86238159A US3175122A US 3175122 A US3175122 A US 3175122A US 862381 A US862381 A US 862381A US 86238159 A US86238159 A US 86238159A US 3175122 A US3175122 A US 3175122A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02P—IGNITION, OTHER THAN COMPRESSION IGNITION, FOR INTERNAL-COMBUSTION ENGINES; TESTING OF IGNITION TIMING IN COMPRESSION-IGNITION ENGINES
- F02P1/00—Installations having electric ignition energy generated by magneto- or dynamo- electric generators without subsequent storage
- F02P1/08—Layout of circuits
- F02P1/086—Layout of circuits for generating sparks by discharging a capacitor into a coil circuit
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- the present invention relates to ignition systems for internal combustion engines and is concerned with ignition systems of the type comprising a source of alternating current connected through a rectifier to a capacitor, and a radio-frequency voltage step-up transformer with its primary winding connected across the capacitor through make-and-break contacts, the secondary winding of the transformer being connected to a spark plug of an internal combustion engine.
- the most widely used ignition system is that usually referred to as the coil ignition system.
- This has an induction coil with a primary winding of few turns connected across a DC. source through make-and-break contacts and secondary winding of some thousands of turns connected to the spark plug. Where there are two or more spark plugs a distributor is incorporated.
- the coil ignition system is cheap, robust and reliable but its effectiveness under certain adverse conditions leaves much to be desired. For example a fouled spark plug will often lead to the failure of a coil ignition system. Dampness likewise is troublesome with coil ignition systems and engine-starting under conditions of severe cold is often extremely difficult or impossible with coil ignition.
- an ignition system of the type specified which can be manufactured at a cost comparable with that of a coil ignition system, can be just as reliable as the coil ignition system and can be more effective than the coil ignition system under the adverse conditions hereinbefore referred to.
- the capacitor has a capacitance within the range 0.1 to 0.5 f.
- the voltage step-up transformer has a core of low loss ferro-magnetic material, a turns ratio of at least 50:1, a primary winding of to 40 turns and an inductance measured across the primary winding of 4 to 30 h, and the source of alternating current is such that the maximum inverse voltage across the rectifier is 800 volts.
- the transformer is preferably constructed as described in our copending patent application No. 862,380, entitled Improvements in and Relating to Transformers.
- FIG. 1 is a schematic diagram of an ignition system for a single-cylinder internal combustion engine
- FIGS. 2, 3 and 4 are schematic diagrams of units for use in an ignition system.
- an ignition system for a singlecylinder internal combustion engine comprises an alternator 10 providing a maximum of 300 peak volts at normal engine speeds.
- a rectifier 11 and a capacitor 12 are connected in series across the alternator whereby the maximum voltage across the capacitor 12 in normal operation is 300 volts.
- the capacitor 12 has a capacitance between 0.1 and 0.5 ,uf. and preferably between 0.15 and 0.3 ,uf.
- the primary winding 13 of a voltage step-up, spark plug transformer 14 is connected in series with make-andbreak contacts 15 across the capacitor 12.
- the contacts 15 are operated by a cam 16 and a spark plug 17 is connected across the secondary winding 18 of the transformer 14.
- the maximum inverse voltage across the rectifier 11 is 600 volts.
- the transformer 14 has a low-loss ferro-magnetic core that is a core such as a ferrite, iron dust in a binder and so on.
- a ferrite is used.
- the turns ratio is preferably :1 and a turns ratio not less than 5021 has been found to be necessary.
- the inductance measured across the primary winding has also been found to be important and must lie in the range 4 to 30 b.
- the primary turns number between 10 and 40.
- the transformer meets these requirements its construction is otherwise not critical but is preferably as described in the aforesaid copending patent application.
- the capacitor In operation the capacitor is charged through the rectifier and is discharged periodically to fire the spark plug by closure of the contacts 15. This causes the capacitor 12 to discharge through the primary winding of the transformer 14 inducing substantially increased voltage across the secondary winding 18 connected to the spark plug 17.
- a unit consisting of a container housing a lowfrequency transformer, the rectifier, the capacitor and the voltage step-up transformer for feeding the spark plug.
- the make-and-break contacts are driven by the engine and disposed outside the container.
- FIG. 2 A circuit diagram of a suitable unit is shown in FIG. 2.
- a metal container 26 houses a low-frequency, voltage step-up transformer 21.
- An input terminal 22 is connected to one end of the primary winding of the transformer 21 the other end of the primary winding being connected to the container 20.
- One end of the secondary winding of the transformer 21 is also connected to the container 20 and the other end is connected through the rectifier 11 to charge the capacitor 12.
- the lower plate (in the drawing) of the capacitor 12 is connected to the container and the upper plate is connected to one end of the primary winding 13 of the transformer 14 the other end of the primary winding 13 being connected to a terminal 23.
- the high-tension output from the secondary winding 18 of the transformer 14 is connected to an output terminal 24.
- the unit of FIG. 2 is connected as shown with the input terminal 22 connected to the source 10 of low and the terminal 23 connected through the make-andbreak contacts 15 to ground.
- the container 20 is also grounded.
- the transformer 21 transforms the voltage from the A.C. source to about 300 volts across the secondary winding at normal running speeds.
- the container can be made of insulating material such as a thermo-setting plastic in which case a fourth terminal is connected to the lower ends of the primary and secondary windings of the transformer 21 and the lowe plate of the capacitor 12. The fourth terminal is grounded.
- FIG. 2 shows a half-wave rectifier
- a fullwave rectifier such as abridge rectifier
- FIG. 3 shows FIG. 2 modified to employ a bridge rectifier.
- transformer 14 is shown as an autotnansformer, it can have separate primary and secondary windings.
- An ignition system for an internal combustion engine comprising a source of alternating current, a capacitor having a capacitance within the range 0.1 to 0.5 ,uf., a rectifier, means connecting said source through said rectifier to said capacitor to charge same, a radio-frequency voltage step-up transformer having a core of low loss ferro-magnetic material, a seoondary-to-primary turns ratio of at least 50:1, a primary Winding of between 10 and 40 turns and an inductance measured across the primary winding of 4 to 30 ,ulL, make-and-break contacts, means connecting the primary winding of said transformer and the make-and-break contacts in series across said capacitor, a spark plug and means connecting the spark plug across the secondary winding of said transformer, the output from said source providing an inverse voltage across said rectifier of essentially 800 volts maximum.
- An ignition system for an internal combustion engine comprising a source of alternating current, a capacitor having a capacitance within the range 0.15 to 0.3 f, a rectifier, means connecting said source through said rectifier to said capacitor to charge same, a radio-frequency voltage step-up transformer having a core of ferrite material, a secondary-to-primary turns ratio of at least 60:1, a primary winding of between 10 and 40 turns and an inductance measured across the primary Winding of 4 to 30 n, make-and-break contacts, means connecting the primary winding of said transformer and said make-and-break contacts in series across said capacitor, a spark plug, and means connecting the spark plug across the secondary winding of said transformer, the output from said source providing an inverse voltage across said rectifier of essentially 800 volts maximum.
- An ignition system for the spark plug of an internal combustion engine comprising a source of alternating current, capacitor means having an effective capacitance essentially within the range 0.1 to 0.5 ,uf., charging means connecting said source to said capacitor means to charge same, voltage step-up transformer means having input means and output means, the effective inductance of said input means being essentially 4 to 30 ,ah., and means for discharging said capacitor means including make-andbreak contact means, means operatively connecting the input means of said transformer means with said makeand-break contact means in series across said capacitor means, and means adapted to supply the voltage from the output means of said transformer means to the spark plug.
- An ignition system for the spark plug of an internal combustion engine comprising a source of alternating current, capacitor means having an effective capacitance essentially within the range 0.1 to 0.5 ,uf., rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a voltage stepup transformer having input means and output means, said input means having essentially an inductance measured thereacross of essentially 4 to 30 ,ulZL, make-andbreak contact means, means connecting the input means of said transformer means and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug from the output means of said transformer means.
- An ignition system for the spark plug of an internal combustion engine comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer rovided with input winding means and output winding means and having an effective output-toinput turns ratio of at least 50:1 and input winding means with essentially between 10 and 40 turns, make-and break Contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output winding means of said transformer.
- An ignition system for an internal combustion engine comprising a source of alternating current, capacitor means having a capacitance essentially Within the range 0.1 to 0.5 ,uf., rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage stepup transformer provided with input winding means and output winding means and having a core of low loss ferromagnetic material, an effective output-to-input turns ratio of at least 50:1, input winding means essentially of between 10 and 40 turns and an inductance measured across the input winding means essentially of 4 to 30 ,uh., make-and-break contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, spark plug means, and means connecting the spark plug means across the output winding means of said transformer, the output from said source providing an inverse voltage across said rectifier means of essentially 800 volts maximum.
- An ignition system for the spark plug of an internal combustion engine comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer provided With input winding means and output Winding means and having an effective output-to-input turns ratio of at least 50:1 and input winding means with essentially between and 40 turns, make-and-break contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output winding means of said transformer, the output from said source providing an inverse voltage across said rectifier means of essentially 800 volts maximum.
- An ignition system for the spark plug of an internal combustion engine comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer provided with input winding means and output winding means and having a core of low loss ferromagnetic material, an effective output-to-input turns ratio of at least 50:1 and input winding means with essentially between 10 and 40 turns, make-and-break contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output Winding means of said transformer.
- An ignition system for the spark plug means of an internal combustion engine comprising a source of alternating current, capacitor means having an effective capacitance essentially Within the range 0.1 to 0.5 .f., rectifier means, charging means for charging said capacitor means through said rectifier means from said source, a radio-frequency voltage step-up transformer having an efi'ective secondary-to-primary turns ratio of at least 50:1, a primary winding of between 10 and 40 turns and an inductance measured across the primary Winding of essentially 4 to 30 ,uh., make-and-break contact means, and output means including discharge means operatively connecting the primary winding of said transformer and the make-and-break contact means in series across said capacitor means to thereby provide an ignition voltage across the secondary winding of said transformer for said spark plug means upon discharge of said capacitor means.
- An ignition system for the spark plug of an internal combustion engine comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer provided with input winding means an output winding means and having a core of low loss ferromagnetic material, an effective output-to-input turns ratio of at least :1 and input Winding means with essentially between 10 and 40 turns, make-and-break contact means, means connecting the input Winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output winding means of said transformer, the output from said source providing an inverse voltage across said rectifier means of essentially 800 volts maximum.
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Description
March 23, 1965 PENN ETAL 3,175,122
I IGNITION SYSTEMS FOR INTERNAL COMBUSTION ENGINES Filed Dec. 28, 1959 2 Sheets-Sheet 1 INVEN7Z R5 REGINALD PENN GEORGE ALFRED GAYLER March 23, 1965 R. PENN ETAL 3,175,122
IGNITION SYSTEMS FOR INTERNAL COMBUSTION ENGINES Filed Dec. 28, 1959 2 Sheets-Sheet 2 l/VVEAUOR R EGINALD PENN GEORGE ALFRED CAY LER @jwgf ATTORIVZZS United States Patent Office 3,175,122 Patented Mar. 23, 1965 3,17,122 IGNITION SYSTEMS FGR ENTERNAL COMBUSTIGN ENGINES Reginald Penn and George Alfred Gayler, Bletchley, England, assignors to Wipac Development Limited, London, England, a British company Filed Dec. 28, 1959, Ser. No. 862,381 15 Claims. (Cl. 315-209) The present invention relates to ignition systems for internal combustion engines and is concerned with ignition systems of the type comprising a source of alternating current connected through a rectifier to a capacitor, and a radio-frequency voltage step-up transformer with its primary winding connected across the capacitor through make-and-break contacts, the secondary winding of the transformer being connected to a spark plug of an internal combustion engine.
Numerous different systems of this type have been proposed over a substantial number of years but this system has never been used widely for various reasons.
The most widely used ignition system is that usually referred to as the coil ignition system. This has an induction coil with a primary winding of few turns connected across a DC. source through make-and-break contacts and secondary winding of some thousands of turns connected to the spark plug. Where there are two or more spark plugs a distributor is incorporated.
For any other ignition system to compete with the coil ignition system it must be of comparable cost or cheaper, it must be just as reliable or more reliable, and it must be just as effective or more effective.
The coil ignition system is cheap, robust and reliable but its effectiveness under certain adverse conditions leaves much to be desired. For example a fouled spark plug will often lead to the failure of a coil ignition system. Dampness likewise is troublesome with coil ignition systems and engine-starting under conditions of severe cold is often extremely difficult or impossible with coil ignition.
After consderable experimental work and trial we have devised an ignition system of the type specified which can be manufactured at a cost comparable with that of a coil ignition system, can be just as reliable as the coil ignition system and can be more effective than the coil ignition system under the adverse conditions hereinbefore referred to.
According to the present invention, in an ignition system of the type specified the capacitor has a capacitance within the range 0.1 to 0.5 f., the voltage step-up transformer has a core of low loss ferro-magnetic material, a turns ratio of at least 50:1, a primary winding of to 40 turns and an inductance measured across the primary winding of 4 to 30 h, and the source of alternating current is such that the maximum inverse voltage across the rectifier is 800 volts. The transformer is preferably constructed as described in our copending patent application No. 862,380, entitled Improvements in and Relating to Transformers.
The invention will now be described, by way of example, with reference to the accompanying drawings, in which FIG. 1 is a schematic diagram of an ignition system for a single-cylinder internal combustion engine, and
FIGS. 2, 3 and 4 are schematic diagrams of units for use in an ignition system.
Referring to FIG. 1, an ignition system for a singlecylinder internal combustion engine comprises an alternator 10 providing a maximum of 300 peak volts at normal engine speeds. A rectifier 11 and a capacitor 12 are connected in series across the alternator whereby the maximum voltage across the capacitor 12 in normal operation is 300 volts.
The capacitor 12 has a capacitance between 0.1 and 0.5 ,uf. and preferably between 0.15 and 0.3 ,uf.
The primary winding 13 of a voltage step-up, spark plug transformer 14 is connected in series with make-andbreak contacts 15 across the capacitor 12. The contacts 15 are operated by a cam 16 and a spark plug 17 is connected across the secondary winding 18 of the transformer 14.
With the capacitor 12 charged to 300 volts the maximum inverse voltage across the rectifier 11 is 600 volts.
The transformer 14 has a low-loss ferro-magnetic core that is a core such as a ferrite, iron dust in a binder and so on. Preferably a ferrite is used.
The turns ratio is preferably :1 and a turns ratio not less than 5021 has been found to be necessary. The inductance measured across the primary winding has also been found to be important and must lie in the range 4 to 30 b. The primary turns number between 10 and 40.
Provided the transformer meets these requirements its construction is otherwise not critical but is preferably as described in the aforesaid copending patent application.
In operation the capacitor is charged through the rectifier and is discharged periodically to fire the spark plug by closure of the contacts 15. This causes the capacitor 12 to discharge through the primary winding of the transformer 14 inducing substantially increased voltage across the secondary winding 18 connected to the spark plug 17.
It has been found that an ignition system as described is remarkably effective for operation nder adverse conditions such as a fouled spark plug, dampness on the spark plug and in the cylinder and extreme. It has proved effective in starting and running an engine under examples of these conditions when conventional coil ignition systems have proved entirely ineffective. Nevertheless the cost of the system is about equal to that of a conventional coil ignition system.
Furthermore although it has been contended by experts for some years that at least 20 milli-joules of energy are required for effective ignition it has been found that effective ignition during starting with an ignition system according to the present invention can be obtained with less than 10 milli-joules of energy.
' In applying the invention to an internal combustion engine already provided with an alternator adapted to generate a low voltage say 6 or 12 volts it is preferred to provide a unit consisting of a container housing a lowfrequency transformer, the rectifier, the capacitor and the voltage step-up transformer for feeding the spark plug. The make-and-break contacts are driven by the engine and disposed outside the container.
A circuit diagram of a suitable unit is shown in FIG. 2. In FIG. 2 a metal container 26 houses a low-frequency, voltage step-up transformer 21. An input terminal 22 is connected to one end of the primary winding of the transformer 21 the other end of the primary winding being connected to the container 20. One end of the secondary winding of the transformer 21 is also connected to the container 20 and the other end is connected through the rectifier 11 to charge the capacitor 12. The lower plate (in the drawing) of the capacitor 12 is connected to the container and the upper plate is connected to one end of the primary winding 13 of the transformer 14 the other end of the primary winding 13 being connected to a terminal 23. The high-tension output from the secondary winding 18 of the transformer 14 is connected to an output terminal 24.
In use the unit of FIG. 2 is connected as shown with the input terminal 22 connected to the source 10 of low and the terminal 23 connected through the make-andbreak contacts 15 to ground. The container 20 is also grounded.
The transformer 21 transforms the voltage from the A.C. source to about 300 volts across the secondary winding at normal running speeds.
If desired the container can be made of insulating material such as a thermo-setting plastic in which case a fourth terminal is connected to the lower ends of the primary and secondary windings of the transformer 21 and the lowe plate of the capacitor 12. The fourth terminal is grounded.
Although FIG. 2 shows a half-wave rectifier, a fullwave rectifier, such as abridge rectifier, may be employed. FIG. 3 shows FIG. 2 modified to employ a bridge rectifier.
It will be seen that the only differences between the units shown in FIGS. 2 and 3 tune that the secondary winding of the transformer 21 is not directly grounded and is connected across one diagonal of the bridge rectifier 11. The capacitor 12 is connected across the other diagonal of the bridge rectifier 11 and 111218 its lower plate grounded.
Sometimes it may not be convenient to ground one terminal of the A.C. source in which the unit may be as shown in FIG. 4 in which both ends of the primary winding are brought out to terminals as shown at 22 and 22' in FIG. 4. The unit shown in FIG. 4 is otherwise identical with FIG. 2.
Although the transformer 14 is shown as an autotnansformer, it can have separate primary and secondary windings.
We claim:
1. An ignition system for an internal combustion engine, comprising a source of alternating current, a capacitor having a capacitance within the range 0.1 to 0.5 ,uf., a rectifier, means connecting said source through said rectifier to said capacitor to charge same, a radio-frequency voltage step-up transformer having a core of low loss ferro-magnetic material, a seoondary-to-primary turns ratio of at least 50:1, a primary Winding of between 10 and 40 turns and an inductance measured across the primary winding of 4 to 30 ,ulL, make-and-break contacts, means connecting the primary winding of said transformer and the make-and-break contacts in series across said capacitor, a spark plug and means connecting the spark plug across the secondary winding of said transformer, the output from said source providing an inverse voltage across said rectifier of essentially 800 volts maximum.
2. An ignition system as claimed in claim 1, wherein the core of said transformer is of ferrite material.
3. An ignition system as claimed in claim 1, wherein said capacitor has a capacitance within the range of 0.15 to 0.3 ,u'f.
4. An ignition system according to claim 1, wherein said turns ratio is at least 60: 1.
5. A sub-assembly for use in an ignition system accordin to claim 1, the sub-assembly comprising a container, a low-frequency voltage step-up transforme in said container, said container also containing said rectifier, said capacitor and said radio-frequency transformer, the sec ondary winding of said low-frequency transformer being connected through said rectifier to said capacitor, and one plate of said capacitor being connected to one end of the primary winding of said radio-frequency transformer.
6. A sir -assembly according to claim 5, wherein the said container is of metal.
7. An ignition system for an internal combustion engine, comprising a source of alternating current, a capacitor having a capacitance within the range 0.15 to 0.3 f, a rectifier, means connecting said source through said rectifier to said capacitor to charge same, a radio-frequency voltage step-up transformer having a core of ferrite material, a secondary-to-primary turns ratio of at least 60:1, a primary winding of between 10 and 40 turns and an inductance measured across the primary Winding of 4 to 30 n, make-and-break contacts, means connecting the primary winding of said transformer and said make-and-break contacts in series across said capacitor, a spark plug, and means connecting the spark plug across the secondary winding of said transformer, the output from said source providing an inverse voltage across said rectifier of essentially 800 volts maximum.
8. An ignition system for the spark plug of an internal combustion engine, comprising a source of alternating current, capacitor means having an effective capacitance essentially within the range 0.1 to 0.5 ,uf., charging means connecting said source to said capacitor means to charge same, voltage step-up transformer means having input means and output means, the effective inductance of said input means being essentially 4 to 30 ,ah., and means for discharging said capacitor means including make-andbreak contact means, means operatively connecting the input means of said transformer means with said makeand-break contact means in series across said capacitor means, and means adapted to supply the voltage from the output means of said transformer means to the spark plug.
9. An ignition system for the spark plug of an internal combustion engine, comprising a source of alternating current, capacitor means having an effective capacitance essentially within the range 0.1 to 0.5 ,uf., rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a voltage stepup transformer having input means and output means, said input means having essentially an inductance measured thereacross of essentially 4 to 30 ,ulZL, make-andbreak contact means, means connecting the input means of said transformer means and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug from the output means of said transformer means.
10. An ignition system for the spark plug of an internal combustion engine, comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer rovided with input winding means and output winding means and having an effective output-toinput turns ratio of at least 50:1 and input winding means with essentially between 10 and 40 turns, make-and break Contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output winding means of said transformer.
11. An ignition system for an internal combustion engine, comprising a source of alternating current, capacitor means having a capacitance essentially Within the range 0.1 to 0.5 ,uf., rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage stepup transformer provided with input winding means and output winding means and having a core of low loss ferromagnetic material, an effective output-to-input turns ratio of at least 50:1, input winding means essentially of between 10 and 40 turns and an inductance measured across the input winding means essentially of 4 to 30 ,uh., make-and-break contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, spark plug means, and means connecting the spark plug means across the output winding means of said transformer, the output from said source providing an inverse voltage across said rectifier means of essentially 800 volts maximum.
12. An ignition system for the spark plug of an internal combustion engine, comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer provided With input winding means and output Winding means and having an effective output-to-input turns ratio of at least 50:1 and input winding means with essentially between and 40 turns, make-and-break contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output winding means of said transformer, the output from said source providing an inverse voltage across said rectifier means of essentially 800 volts maximum.
13. An ignition system for the spark plug of an internal combustion engine, comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer provided with input winding means and output winding means and having a core of low loss ferromagnetic material, an effective output-to-input turns ratio of at least 50:1 and input winding means with essentially between 10 and 40 turns, make-and-break contact means, means connecting the input winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output Winding means of said transformer.
14. An ignition system for the spark plug means of an internal combustion engine, comprising a source of alternating current, capacitor means having an effective capacitance essentially Within the range 0.1 to 0.5 .f., rectifier means, charging means for charging said capacitor means through said rectifier means from said source, a radio-frequency voltage step-up transformer having an efi'ective secondary-to-primary turns ratio of at least 50:1, a primary winding of between 10 and 40 turns and an inductance measured across the primary Winding of essentially 4 to 30 ,uh., make-and-break contact means, and output means including discharge means operatively connecting the primary winding of said transformer and the make-and-break contact means in series across said capacitor means to thereby provide an ignition voltage across the secondary winding of said transformer for said spark plug means upon discharge of said capacitor means.
15. An ignition system for the spark plug of an internal combustion engine, comprising a source of alternating current, capacitor means having a predetermined capacitance, rectifier means, means connecting said source through said rectifier means to said capacitor means to charge same, a radio-frequency voltage step-up transformer provided with input winding means an output winding means and having a core of low loss ferromagnetic material, an effective output-to-input turns ratio of at least :1 and input Winding means with essentially between 10 and 40 turns, make-and-break contact means, means connecting the input Winding means of said transformer and the make-and-break contact means in series across said capacitor means, and means providing an ignition voltage for the spark plug across the output winding means of said transformer, the output from said source providing an inverse voltage across said rectifier means of essentially 800 volts maximum.
References Cited in the file of this patent UNITED STATES PATENTS 2,552,212 Perontky May 8, 1951 2,899,562 Fruengel Aug. 11, 1959 2,927,248 Ramsay Mar. 1, 1960 FOREIGN PATENTS 1?182298 F m "t-rr-r-f-r" t i 5
Claims (1)
1. AN IGNITION SYSTEM FOR AN INTERNAL COMBUSTION ENGINE, COMPRISING A SOURCE OF ALTERNATING CURRENT, A CAPACITOR HAVING A CAPACITANCE WITHIN THE RANGE OF 0.1 TO 0.5 UF., A RECTIFIER, MEANS CONNECTING SAID SOURCE THROUGH SAID RECTIFIER TO SAID CAPACITOR TO CHARGE SAME, A RADIO-FREQUENCY VOLTAGE STEP-UP TRANSFORMER HAVING A CORE OF LOW LOSS FERRO-MAGNETIC MAMTERIAL, A SECONDARY-TO-PRIMARY TURNS RATIO OF AT LEAST 50:1, A PRIMARY WINDING OF BETWEEN 10 AND 40 TURNS AND AN INDUCTANCE MEASURED ACROSS THE PRIMARY WINDING OF 4 TO 30 UH., MAKE-AND-BREAK CONTACTS, MEANS CONNECTING THE PRIMARY WINDING OF SAID TRANSFORMER AND THE MAKE-AND-BREAK CONTACTS IN SEREIS ACROSS SAID CAPACITOR, A SPARK PLUG AND MEANS CONNECTING THE SPARK PLUG ACROSS THE SECONDARY WINDING OF SAID TRANSFORMER, THE OUTPUT FROM SAID SOURCE PROVIDING AN INVERSE VOLTAGE ACROSS SAID REC TIFIER OF ESSENTIALLY 800 VOLTS MAXIMUM.
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Cited By (1)
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US3237080A (en) * | 1961-12-22 | 1966-02-22 | Sun Electric Corp | Pickup device for high voltage leads of ignition systems |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2552212A (en) * | 1949-08-13 | 1951-05-08 | Gen Electric | High-frequency ignition system |
FR1182298A (en) * | 1956-06-06 | 1959-06-24 | Smitsvonk Nv | Ignition device for gaseous or liquid fuels |
US2899562A (en) * | 1959-08-11 | Fruengel | ||
US2927248A (en) * | 1957-12-12 | 1960-03-01 | Napier & Son Ltd | Spark producing apparatus and adaptors therefor |
-
1959
- 1959-12-28 US US862381A patent/US3175122A/en not_active Expired - Lifetime
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2899562A (en) * | 1959-08-11 | Fruengel | ||
US2552212A (en) * | 1949-08-13 | 1951-05-08 | Gen Electric | High-frequency ignition system |
FR1182298A (en) * | 1956-06-06 | 1959-06-24 | Smitsvonk Nv | Ignition device for gaseous or liquid fuels |
US2927248A (en) * | 1957-12-12 | 1960-03-01 | Napier & Son Ltd | Spark producing apparatus and adaptors therefor |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3237080A (en) * | 1961-12-22 | 1966-02-22 | Sun Electric Corp | Pickup device for high voltage leads of ignition systems |
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