US2491342A

US2491342A - Stroboscope

Info

Publication number: US2491342A
Application number: US676539A
Authority: US
Inventors: Townshend John Horace
Original assignee: Individual
Current assignee: Individual
Priority date: 1945-06-14
Filing date: 1946-06-13
Publication date: 1949-12-13
Anticipated expiration: 1966-12-13

Description

Patented Dec. 13, 1949 Application June 13, 1946, Serial No. 676,539 In Great Britain .lune 14, 1945 2 Claims.

This invention relates to stroboscopes of the type in which a glow discharge lamp is operated by electrical pulses of suitable, and usually variable, frequency to permit rotating or vibrating members to` be observed stroboscopically.

One device of this type for operation at a high light output has become known in which the lamp is triggered by means including an ironcored step-up transformer the primary of which is fed with heavy current pulses (of several amperes), these pulses being obtained from a second, smaller, discharge lamp which may be used as the final loutput lamp when only a low light intensity is required. The smaller discharge lamp is triggered by a suitable circuit.

This arrangement is unnecessarily cumbersome in normal cases where a high and a low intensity source are not required to be used simultaneously in that tivo discharge lamps are in operation at the same time, the smaller merely serving to trigger the larger.

It is an object of the present invention to provide a stroboscope of high light output in which only one discharge lamp need be used.

It is a further object of the invention to provide a. stroboscope of high light output in which the discharge lamp can be triggered by means of pulses/f relatively low`current.intensity.

A further object of the invention is the provision of a stroboscope of'high light output which may be accommodated in a compact instrument suitable for general use. v f

Other objects and advantages of the present invention will appear hereinafter.

According to the present invention, in a stroboscope of the type set forth means are provided for generating, and applying the discharge lamp to initiate a discharge therein from a D. C. source, short duration pulses of current of high frequency.

In referring to a D. C. source, it should, of course, be understood that the ultimate current source for the device may Well be, and in fact quite frequently is, an A. C. mains from which the mentioned D. C'. is derived in the ordinary way by rectification and smoothing.

High frequency, in this specification and appended claims, is tended to mean a frequency of a higher order of magnitude than the repetition frequency of the pulses. The latter, in stroboscopes as envisaged, may be anything from, say, 1 cycle/sec. to, say, 2 kilocycles/sec., and the high frequency to be used may be anything of the order of magnitude of, say, l to 5 ,megacycles/sec.

The said pulses of high frequency current, hereinafter for shortness referred to as high frequency pulses may, according to a further feature of the invention, be comparatively quite low current pulses, say, of the order of 200 ma.

The said high frequency pulses may be applied to an external or internal electrode of the discharge lampand serve to cause a breakdown between the cathode and anodes of the lamp thereby discharging a previously charged capacitor through the lamp in known manner.

According to a feature of the invention the means for applying the high frequency pulses to the lamp comprises a high frequency transformer, or Tesla coil, mounted adjacent the lamp, for example in a handle thereof, the secondary winding of the saidtransformer being connected tothesaid external or internal electrode and means being provided for applying high frequency pulses to the primary winding of the transformer.

According to a further feature of the invention the said high frequency pulses are generated by means of a circuit of the kind known as a squegging oscillator which may comprise but a single valve. Other circuits employing one or more valves may however be employed. The generator of the said high frequency pulses may be located at some distance from the lamp and may be coupled thereto by a suitable lead.

The invention will be described by way of example with reference to the, accompanying drawing in which Fig. 1 is a circuit diagram of a stroboscope according to the invention embodying a squegging oscillator employing only one valve and Fig. 2 is a part sectional View of a form of lamp housing that may be used in carrying out this invention.

Referring to Fig. 1 a valve V is arranged in an oscillator circuit of the Hartley type adapted to generate short bursts of oscillation at a high frequency determined by the constants of the tuned circuit L C, these oscillations being blocked automatically by their action in developing a negative charge on the control grid of the valve. The control grid is biased positively by means of a potentiometer R1 having an adjustable tapping A. The operation of the oscillator is as follows:

Assuminga point in the operation cycle where the valve V'is in an oscillating condition and assuming a given fixed potential at point A, the grid capacitor C1 will rapidly charge due to grid current making the grid more and more negative until oscillations cease, This charge will leak away at a rate governed by the value of the resistance R2 until the grid reaches a potential at which anode current again commences to ow when the cycle will .be repeated. At the potentiometer R1 the point A is set at the value at which grid current commences and this potentiometer therefore determines the time taken for the grid condenser, when fully charged, to reach this potential andhence the repetition'ratenof the pulses. Each pulse cycle therefore consists of a short period of high frequency oscillation,... quiescence during whichAIV the anode current is cut off. The pulse duration.l

and a long period of is determined by theA size of the gridcapacitor C1, the charging rate of which isa function of this capacity and the input resistancefof theyV Valve.

The high frequency pulses are fed thrciug.l1-two` conductors of a three Wire, low impedance cable F to the primary of a high frequency transformer T having its secondary connected-between `one main electrode of a glow discharge lamp=G and an external starting electrode S. -The third lead ofthe cable F is connected kto -the other main electrode of the lamp G. When a high frequency pulse reaches the starting velectrode S;it'initiates a discharge between -the "main electrodes of the--v lamp which discharges the capacitor C2'.l

Referring to Fig. 2, in which like parts have the same reference asin Fig.- 1,-- the glow lamp G is mounted in a housing having a reector M and a handle H within whichv is mounted the transformer T. The cable F with the oscillator circuit may "be manyy feet in The lamp with its housing'and contents may therefore be separated from the remainder of the equipment by a substantial 'di-stance thus permitting the investigation of parts most known stroboscopic devices.

I claim:

1. In a stroboscope, a glow discharge lamp operable by electrical pulses of short duration, said lamp including two mainY electrodes for conveying said glow discharge and a triggeringA electrode for initiating a discharge betweenv said main vvelectrodes, a source of direct current, 4Va source of pulses of high `frequency alternating curr'enu-'an impedance, a capacitor connected between said main electrodes and connected-to be v"charged from said source of direct 'current'through said `connecting the lampv inaccessible toV impedance, and a `voltage stepuptransformer,

the primary winding of said transformer being connected to said source of pulses of high frequency alternating current and the secondary Winding of said transformer being connected to said triggering electrode.

2. In a stroboscopic apparatus, a direct current source, a potentiometer connected across said source, a vacuum tube amplifier` having at least a plate, a grid and a cathode, said plate-being connected to the high side of said direct current source, said cathode being connected to the low side of said direct current source, and said grid being connected to said potentiometer, a tuned circuit in the plate. circuit of said amplifier, one end of said tuned circuit being connected to the plateof saidv amplifier, the other end of said tuned circuit being connected by means of a condensor to the grid of said amplifier, a resistor and condensor connected in series between the high side of said direct current source and the low side, a'gaseous tube having two plate electrodes and a control electrode, one of said plate electrodes being connected to the junction between said resistor and condensor in series, the-- other of said plate electrodes being connected tothe low side of said direct current source, said y control electrode being connected to the low sideL of said direct current source in series with an inductance, two parallel windings having a common side connected to the low side of saiddirect current source, one of vsaid windings being inductively coupled to the tuned circuit, the other of said windings being inductively coupled to said inductance.

JOHN HORACE TOWNSHEND.

le of this patent:

UNITED STATES PATENTS Number e Name Date Re. 22,611 Edgerton Mar. 6, 1945 2,043,484 Miller June 9, 1936 2,136,924 Reitherman Nov. 15. 1938 2,186,013 Edgerton Jan. 9, 19.40 2,409,620 Fritschi Oct. 22, 1946 2,435,262 Wurmser Feb. 3, 1948 FOREIGN PATENTS Number Country Date Great Britain June 11, 1925 5